From 2c13adcb7d526853439f7c19bd8882f41da7fb83 Mon Sep 17 00:00:00 2001 From: sunag Date: Sun, 30 Jun 2024 06:27:28 -0300 Subject: [PATCH] WebGPURenderer: Build - `three.webgpu.js` (#28650) * webgpu build * revision * cleanup * Restore USDZLoader * update * puppeteer: added `three.webgpu` build support * update IESSpotLight * move to src and revision * cleanup * fix test-circular-deps test * fix lint * revision * cleanup lint * update build * update package * update builds * update - fixing conflicts * cleanup * WebGPUBackend: add srcRegion to copyTextureToTexture() * fix examples * fix warnOnce * update path * update build * Update package.json * importmap: added alias * move materials to THREE * update import to three/tsl --- build/three.webgpu.js | 73550 ++++++++++++++++ build/three.webgpu.min.js | 6 + .../jsm/lights/RectAreaLightTexturesLib.js | 91 + .../jsm/lights/RectAreaLightUniformsLib.js | 71 +- examples/jsm/lines/webgpu/Line2.js | 20 + examples/jsm/lines/webgpu/LineSegments2.js | 376 + examples/jsm/loaders/MaterialXLoader.js | 11 +- examples/jsm/objects/InstancedPoints.js | 4 +- examples/jsm/transpiler/TSLEncoder.js | 8 +- examples/webgpu_backdrop.html | 25 +- examples/webgpu_backdrop_area.html | 35 +- examples/webgpu_backdrop_water.html | 32 +- .../webgpu_camera_logarithmicdepthbuffer.html | 18 +- examples/webgpu_clearcoat.html | 7 +- examples/webgpu_clipping.html | 28 +- examples/webgpu_compute_audio.html | 27 +- examples/webgpu_compute_geometry.html | 18 +- examples/webgpu_compute_particles.html | 27 +- examples/webgpu_compute_particles_rain.html | 32 +- examples/webgpu_compute_particles_snow.html | 35 +- examples/webgpu_compute_points.html | 30 +- examples/webgpu_compute_texture.html | 16 +- examples/webgpu_compute_texture_pingpong.html | 16 +- examples/webgpu_cubemap_adjustments.html | 23 +- examples/webgpu_cubemap_dynamic.html | 26 +- examples/webgpu_cubemap_mix.html | 23 +- examples/webgpu_custom_fog.html | 27 +- examples/webgpu_custom_fog_background.html | 18 +- examples/webgpu_depth_texture.html | 35 +- examples/webgpu_equirectangular.html | 24 +- examples/webgpu_instance_mesh.html | 28 +- examples/webgpu_instance_points.html | 30 +- examples/webgpu_instance_uniform.html | 33 +- examples/webgpu_instancing_morph.html | 16 +- examples/webgpu_lights_custom.html | 33 +- examples/webgpu_lights_ies_spotlight.html | 47 +- examples/webgpu_lights_phong.html | 35 +- examples/webgpu_lights_rectarealight.html | 18 +- examples/webgpu_lights_selective.html | 35 +- examples/webgpu_lines_fat.html | 33 +- examples/webgpu_loader_gltf.html | 22 +- examples/webgpu_loader_gltf_anisotropy.html | 11 +- examples/webgpu_loader_gltf_compressed.html | 11 +- examples/webgpu_loader_gltf_dispersion.html | 11 +- examples/webgpu_loader_gltf_iridescence.html | 22 +- examples/webgpu_loader_gltf_sheen.html | 20 +- examples/webgpu_loader_gltf_transmission.html | 11 +- examples/webgpu_loader_materialx.html | 22 +- examples/webgpu_materials.html | 63 +- .../webgpu_materials_displacementmap.html | 20 +- examples/webgpu_materials_lightmap.html | 17 +- examples/webgpu_materials_matcap.html | 18 +- examples/webgpu_materials_sss.html | 27 +- examples/webgpu_materials_toon.html | 33 +- examples/webgpu_materials_transmission.html | 9 +- examples/webgpu_materials_video.html | 15 +- examples/webgpu_materialx_noise.html | 35 +- examples/webgpu_mesh_batch.html | 18 +- examples/webgpu_mirror.html | 16 +- examples/webgpu_morphtargets.html | 24 +- examples/webgpu_morphtargets_face.html | 22 +- examples/webgpu_multiple_rendertargets.html | 32 +- ...ebgpu_multiple_rendertargets_readback.html | 35 +- .../webgpu_multisampled_renderbuffers.html | 37 +- examples/webgpu_occlusion.html | 35 +- examples/webgpu_parallax_uv.html | 14 +- examples/webgpu_particles.html | 31 +- examples/webgpu_performance_renderbundle.html | 13 +- examples/webgpu_pmrem_cubemap.html | 15 +- examples/webgpu_pmrem_equirectangular.html | 15 +- examples/webgpu_pmrem_scene.html | 19 +- examples/webgpu_portal.html | 18 +- examples/webgpu_postprocessing.html | 15 +- .../webgpu_postprocessing_afterimage.html | 17 +- .../webgpu_postprocessing_anamorphic.html | 27 +- examples/webgpu_postprocessing_dof.html | 21 +- examples/webgpu_postprocessing_sobel.html | 17 +- examples/webgpu_reflection.html | 28 +- examples/webgpu_rtt.html | 35 +- examples/webgpu_sandbox.html | 38 +- examples/webgpu_shadertoy.html | 39 +- examples/webgpu_shadowmap.html | 28 +- examples/webgpu_skinning.html | 27 +- examples/webgpu_skinning_instancing.html | 34 +- examples/webgpu_skinning_points.html | 29 +- examples/webgpu_sprites.html | 29 +- examples/webgpu_storage_buffer.html | 19 +- examples/webgpu_texturegrad.html | 17 +- examples/webgpu_textures_2d-array.html | 27 +- examples/webgpu_textures_anisotropy.html | 9 +- examples/webgpu_textures_partialupdate.html | 13 +- examples/webgpu_tsl_editor.html | 34 +- examples/webgpu_tsl_interoperability.html | 26 +- examples/webgpu_tsl_transpiler.html | 6 +- examples/webgpu_video_panorama.html | 7 +- examples/webgpu_volume_cloud.html | 23 +- examples/webgpu_volume_perlin.html | 18 +- package.json | 7 +- src/Three.WebGPU.js | 193 + .../lights/webgpu}/IESSpotLight.js | 2 +- {examples/jsm => src}/nodes/Nodes.js | 2 +- .../nodes/accessors/AccessorsUtils.js | 0 .../jsm => src}/nodes/accessors/BatchNode.js | 0 .../nodes/accessors/BitangentNode.js | 0 .../nodes/accessors/BufferAttributeNode.js | 5 +- .../jsm => src}/nodes/accessors/BufferNode.js | 0 .../jsm => src}/nodes/accessors/CameraNode.js | 2 +- .../nodes/accessors/ClippingNode.js | 0 .../nodes/accessors/CubeTextureNode.js | 3 +- .../nodes/accessors/InstanceNode.js | 5 +- .../accessors/InstancedPointsMaterialNode.js | 0 .../nodes/accessors/MaterialNode.js | 3 +- .../nodes/accessors/MaterialReferenceNode.js | 0 .../jsm => src}/nodes/accessors/ModelNode.js | 3 +- .../accessors/ModelViewProjectionNode.js | 0 .../jsm => src}/nodes/accessors/MorphNode.js | 6 +- .../jsm => src}/nodes/accessors/NormalNode.js | 0 .../nodes/accessors/Object3DNode.js | 2 +- .../nodes/accessors/PointUVNode.js | 0 .../nodes/accessors/PositionNode.js | 0 .../nodes/accessors/ReferenceNode.js | 0 .../nodes/accessors/ReflectVectorNode.js | 0 .../nodes/accessors/RendererReferenceNode.js | 0 .../jsm => src}/nodes/accessors/SceneNode.js | 0 .../nodes/accessors/SkinningNode.js | 0 .../nodes/accessors/StorageBufferNode.js | 0 .../nodes/accessors/StorageTextureNode.js | 0 .../nodes/accessors/TangentNode.js | 0 .../nodes/accessors/Texture3DNode.js | 0 .../nodes/accessors/TextureBicubicNode.js | 0 .../nodes/accessors/TextureNode.js | 3 +- .../nodes/accessors/TextureSizeNode.js | 0 .../jsm => src}/nodes/accessors/UVNode.js | 0 .../nodes/accessors/UniformsNode.js | 0 .../nodes/accessors/UserDataNode.js | 0 .../nodes/accessors/VertexColorNode.js | 3 +- {examples/jsm => src}/nodes/code/CodeNode.js | 0 .../jsm => src}/nodes/code/ExpressionNode.js | 0 .../nodes/code/FunctionCallNode.js | 0 .../jsm => src}/nodes/code/FunctionNode.js | 0 .../jsm => src}/nodes/code/ScriptableNode.js | 0 .../nodes/code/ScriptableValueNode.js | 3 +- .../jsm => src}/nodes/core/AssignNode.js | 0 .../jsm => src}/nodes/core/AttributeNode.js | 0 .../jsm => src}/nodes/core/BypassNode.js | 0 {examples/jsm => src}/nodes/core/CacheNode.js | 0 {examples/jsm => src}/nodes/core/ConstNode.js | 0 .../jsm => src}/nodes/core/ContextNode.js | 0 {examples/jsm => src}/nodes/core/IndexNode.js | 0 {examples/jsm => src}/nodes/core/InputNode.js | 0 .../jsm => src}/nodes/core/LightingModel.js | 0 {examples/jsm => src}/nodes/core/Node.js | 5 +- .../jsm => src}/nodes/core/NodeAttribute.js | 0 .../jsm => src}/nodes/core/NodeBuilder.js | 18 +- {examples/jsm => src}/nodes/core/NodeCache.js | 0 {examples/jsm => src}/nodes/core/NodeCode.js | 0 {examples/jsm => src}/nodes/core/NodeFrame.js | 0 .../jsm => src}/nodes/core/NodeFunction.js | 0 .../nodes/core/NodeFunctionInput.js | 0 .../jsm => src}/nodes/core/NodeKeywords.js | 0 .../jsm => src}/nodes/core/NodeParser.js | 0 .../jsm => src}/nodes/core/NodeUniform.js | 0 {examples/jsm => src}/nodes/core/NodeUtils.js | 7 +- {examples/jsm => src}/nodes/core/NodeVar.js | 0 .../jsm => src}/nodes/core/NodeVarying.js | 0 .../nodes/core/OutputStructNode.js | 0 .../jsm => src}/nodes/core/ParameterNode.js | 0 .../jsm => src}/nodes/core/PropertyNode.js | 0 {examples/jsm => src}/nodes/core/StackNode.js | 0 .../jsm => src}/nodes/core/StructTypeNode.js | 0 {examples/jsm => src}/nodes/core/TempNode.js | 0 .../jsm => src}/nodes/core/UniformGroup.js | 0 .../nodes/core/UniformGroupNode.js | 0 .../jsm => src}/nodes/core/UniformNode.js | 0 {examples/jsm => src}/nodes/core/VarNode.js | 0 .../jsm => src}/nodes/core/VaryingNode.js | 0 {examples/jsm => src}/nodes/core/constants.js | 0 .../nodes/display/AfterImageNode.js | 8 +- .../nodes/display/AnamorphicNode.js | 6 +- .../nodes/display/BlendModeNode.js | 0 .../jsm => src}/nodes/display/BumpMapNode.js | 0 .../nodes/display/ColorAdjustmentNode.js | 0 .../nodes/display/ColorSpaceNode.js | 2 +- .../nodes/display/DepthOfFieldNode.js | 0 .../nodes/display/DotScreenNode.js | 6 +- .../nodes/display/FrontFacingNode.js | 3 +- .../nodes/display/GaussianBlurNode.js | 6 +- .../nodes/display/NormalMapNode.js | 2 +- .../jsm => src}/nodes/display/PassNode.js | 6 +- .../nodes/display/PosterizeNode.js | 0 .../jsm => src}/nodes/display/RGBShiftNode.js | 0 .../nodes/display/SobelOperatorNode.js | 3 +- .../nodes/display/ToneMappingNode.js | 2 +- .../nodes/display/ViewportDepthNode.js | 0 .../nodes/display/ViewportDepthTextureNode.js | 3 +- .../jsm => src}/nodes/display/ViewportNode.js | 3 +- .../display/ViewportSharedTextureNode.js | 3 +- .../nodes/display/ViewportTextureNode.js | 5 +- .../jsm => src}/nodes/fog/FogExp2Node.js | 0 {examples/jsm => src}/nodes/fog/FogNode.js | 0 .../jsm => src}/nodes/fog/FogRangeNode.js | 0 .../nodes/functions/BSDF/BRDF_GGX.js | 0 .../nodes/functions/BSDF/BRDF_Lambert.js | 0 .../nodes/functions/BSDF/BRDF_Sheen.js | 0 .../nodes/functions/BSDF/DFGApprox.js | 0 .../jsm => src}/nodes/functions/BSDF/D_GGX.js | 0 .../nodes/functions/BSDF/D_GGX_Anisotropic.js | 0 .../nodes/functions/BSDF/EnvironmentBRDF.js | 0 .../nodes/functions/BSDF/F_Schlick.js | 0 .../jsm => src}/nodes/functions/BSDF/LTC.js | 0 .../nodes/functions/BSDF/Schlick_to_F0.js | 0 .../functions/BSDF/V_GGX_SmithCorrelated.js | 0 .../BSDF/V_GGX_SmithCorrelated_Anisotropic.js | 0 .../nodes/functions/PhongLightingModel.js | 0 .../nodes/functions/PhysicalLightingModel.js | 0 .../nodes/functions/ShadowMaskModel.js | 0 .../nodes/functions/ToonLightingModel.js | 0 .../material/getGeometryRoughness.js | 0 .../nodes/functions/material/getRoughness.js | 0 .../jsm => src}/nodes/geometry/RangeNode.js | 4 +- .../jsm => src}/nodes/gpgpu/ComputeNode.js | 0 .../jsm => src}/nodes/lighting/AONode.js | 0 .../nodes/lighting/AmbientLightNode.js | 2 +- .../nodes/lighting/AnalyticLightNode.js | 7 +- .../nodes/lighting/DirectionalLightNode.js | 2 +- .../nodes/lighting/EnvironmentNode.js | 0 .../nodes/lighting/HemisphereLightNode.js | 3 +- .../nodes/lighting/IESSpotLightNode.js | 2 +- .../nodes/lighting/IrradianceNode.js | 0 .../jsm => src}/nodes/lighting/LightNode.js | 0 .../jsm => src}/nodes/lighting/LightUtils.js | 0 .../nodes/lighting/LightingContextNode.js | 0 .../nodes/lighting/LightingNode.js | 0 .../jsm => src}/nodes/lighting/LightsNode.js | 0 .../nodes/lighting/PointLightNode.js | 2 +- .../nodes/lighting/RectAreaLightNode.js | 29 +- .../nodes/lighting/SpotLightNode.js | 2 +- .../jsm => src}/nodes/loaders/NodeLoader.js | 4 +- .../nodes/loaders/NodeMaterialLoader.js | 3 +- .../nodes/loaders/NodeObjectLoader.js | 3 +- .../materials/InstancedPointsNodeMaterial.js | 2 +- .../nodes/materials/Line2NodeMaterial.js | 2 +- .../nodes/materials/LineBasicNodeMaterial.js | 2 +- .../nodes/materials/LineDashedNodeMaterial.js | 3 +- .../jsm => src}/nodes/materials/Materials.js | 0 .../nodes/materials/MeshBasicNodeMaterial.js | 2 +- .../materials/MeshLambertNodeMaterial.js | 2 +- .../nodes/materials/MeshMatcapNodeMaterial.js | 3 +- .../nodes/materials/MeshNormalNodeMaterial.js | 2 +- .../nodes/materials/MeshPhongNodeMaterial.js | 2 +- .../materials/MeshPhysicalNodeMaterial.js | 3 +- .../nodes/materials/MeshSSSNodeMaterial.js | 0 .../materials/MeshStandardNodeMaterial.js | 2 +- .../nodes/materials/MeshToonNodeMaterial.js | 2 +- .../nodes/materials/NodeMaterial.js | 4 +- .../nodes/materials/PointsNodeMaterial.js | 2 +- .../nodes/materials/ShadowNodeMaterial.js | 2 +- .../nodes/materials/SpriteNodeMaterial.js | 2 +- .../nodes/materials/VolumeNodeMaterial.js | 0 .../jsm => src}/nodes/materialx/DISCLAIMER.md | 0 .../nodes/materialx/MaterialXNodes.js | 0 .../jsm => src}/nodes/materialx/lib/mx_hsv.js | 0 .../nodes/materialx/lib/mx_noise.js | 4 +- .../nodes/materialx/lib/mx_transform_color.js | 0 {examples/jsm => src}/nodes/math/CondNode.js | 0 {examples/jsm => src}/nodes/math/HashNode.js | 0 {examples/jsm => src}/nodes/math/MathNode.js | 0 {examples/jsm => src}/nodes/math/MathUtils.js | 0 .../jsm => src}/nodes/math/OperatorNode.js | 0 .../jsm => src}/nodes/math/TriNoise3D.js | 0 .../nodes/parsers/GLSLNodeFunction.js | 0 .../nodes/parsers/GLSLNodeParser.js | 0 .../jsm => src}/nodes/pmrem/PMREMNode.js | 3 +- .../jsm => src}/nodes/pmrem/PMREMUtils.js | 0 .../nodes/procedural/CheckerNode.js | 0 .../nodes/shadernode/ShaderNode.js | 0 .../nodes/utils/ArrayElementNode.js | 0 .../jsm => src}/nodes/utils/ConvertNode.js | 0 .../jsm => src}/nodes/utils/DiscardNode.js | 0 .../jsm => src}/nodes/utils/EquirectUVNode.js | 0 .../nodes/utils/FunctionOverloadingNode.js | 0 {examples/jsm => src}/nodes/utils/JoinNode.js | 0 {examples/jsm => src}/nodes/utils/LoopNode.js | 0 .../jsm => src}/nodes/utils/MatcapUVNode.js | 0 .../nodes/utils/MaxMipLevelNode.js | 0 {examples/jsm => src}/nodes/utils/OscNode.js | 0 .../jsm => src}/nodes/utils/PackingNode.js | 0 .../jsm => src}/nodes/utils/ReflectorNode.js | 10 +- .../jsm => src}/nodes/utils/RemapNode.js | 0 .../jsm => src}/nodes/utils/RotateNode.js | 0 .../jsm => src}/nodes/utils/RotateUVNode.js | 0 {examples/jsm => src}/nodes/utils/SetNode.js | 0 .../jsm => src}/nodes/utils/SplitNode.js | 0 .../nodes/utils/SpriteSheetUVNode.js | 0 .../nodes/utils/StorageArrayElementNode.js | 0 .../jsm => src}/nodes/utils/TimerNode.js | 0 .../nodes/utils/TriplanarTexturesNode.js | 0 .../jsm => src}/renderers/common/Animation.js | 0 .../renderers/common/Attributes.js | 3 +- .../jsm => src}/renderers/common/Backend.js | 55 +- .../renderers/common/Background.js | 5 +- .../jsm => src}/renderers/common/BindGroup.js | 0 .../jsm => src}/renderers/common/Binding.js | 0 .../jsm => src}/renderers/common/Bindings.js | 0 .../jsm => src}/renderers/common/Buffer.js | 0 .../renderers/common/BufferUtils.js | 0 .../jsm => src}/renderers/common/ChainMap.js | 0 .../renderers/common/ClippingContext.js | 4 +- .../jsm => src}/renderers/common/Color4.js | 2 +- .../renderers/common/ComputePipeline.js | 0 .../jsm => src}/renderers/common/Constants.js | 0 .../renderers/common/CubeRenderTarget.js | 8 +- .../jsm => src}/renderers/common/DataMap.js | 0 .../renderers/common/Geometries.js | 3 +- .../jsm => src}/renderers/common/Info.js | 0 .../jsm => src}/renderers/common/Pipeline.js | 0 .../jsm => src}/renderers/common/Pipelines.js | 0 .../renderers/common/PostProcessing.js | 2 +- .../renderers/common/ProgrammableStage.js | 0 .../renderers/common}/QuadMesh.js | 5 +- .../renderers/common/RenderBundle.js | 0 .../renderers/common/RenderBundles.js | 0 .../renderers/common/RenderContext.js | 2 +- .../renderers/common/RenderContexts.js | 0 .../renderers/common/RenderList.js | 0 .../renderers/common/RenderLists.js | 0 .../renderers/common/RenderObject.js | 0 .../renderers/common/RenderObjects.js | 0 .../renderers/common/RenderPipeline.js | 0 .../jsm => src}/renderers/common/Renderer.js | 15 +- .../renderers/common/SampledTexture.js | 0 .../jsm => src}/renderers/common/Sampler.js | 0 .../renderers/common/StorageBuffer.js | 0 .../common/StorageBufferAttribute.js | 2 +- .../common/StorageInstancedBufferAttribute.js | 2 +- .../renderers/common/StorageTexture.js | 3 +- .../jsm => src}/renderers/common/Textures.js | 4 +- .../jsm => src}/renderers/common/Uniform.js | 7 +- .../renderers/common/UniformBuffer.js | 0 .../renderers/common/UniformsGroup.js | 0 .../renderers/common/extras/PMREMGenerator.js | 25 +- .../common/nodes/NodeBuilderState.js | 0 .../common/nodes/NodeSampledTexture.js | 0 .../renderers/common/nodes/NodeSampler.js | 0 .../common/nodes/NodeStorageBuffer.js | 2 +- .../renderers/common/nodes/NodeUniform.js | 0 .../common/nodes/NodeUniformBuffer.js | 0 .../common/nodes/NodeUniformsGroup.js | 0 .../renderers/common/nodes/Nodes.js | 3 +- .../renderers/webgl-fallback}/WebGLBackend.js | 10 +- .../webgl-fallback}/WebGLBufferRenderer.js | 0 .../webgl-fallback}/nodes/GLSLNodeBuilder.js | 3 +- .../utils/WebGLAttributeUtils.js | 2 +- .../utils/WebGLCapabilities.js | 0 .../webgl-fallback}/utils/WebGLConstants.js | 0 .../webgl-fallback}/utils/WebGLExtensions.js | 0 .../webgl-fallback}/utils/WebGLState.js | 2 +- .../utils/WebGLTextureUtils.js | 2 +- .../webgl-fallback}/utils/WebGLUtils.js | 2 +- .../renderers/webgpu/WebGPUBackend.js | 58 +- .../renderers/webgpu/WebGPURenderer.js | 4 +- .../renderers/webgpu/nodes/WGSLNodeBuilder.js | 4 +- .../webgpu/nodes/WGSLNodeFunction.js | 0 .../renderers/webgpu/nodes/WGSLNodeParser.js | 0 .../webgpu/utils/WebGPUAttributeUtils.js | 3 +- .../webgpu/utils/WebGPUBindingUtils.js | 3 +- .../renderers/webgpu/utils/WebGPUConstants.js | 0 .../webgpu/utils/WebGPUPipelineUtils.js | 2 +- .../webgpu/utils/WebGPUTexturePassUtils.js | 0 .../webgpu/utils/WebGPUTextureUtils.js | 16 +- .../renderers/webgpu/utils/WebGPUUtils.js | 0 test/e2e/puppeteer.js | 34 +- utils/build/rollup.config.js | 25 + 373 files changed, 75320 insertions(+), 1710 deletions(-) create mode 100644 build/three.webgpu.js create mode 100644 build/three.webgpu.min.js create mode 100644 examples/jsm/lights/RectAreaLightTexturesLib.js create mode 100644 examples/jsm/lines/webgpu/Line2.js create mode 100644 examples/jsm/lines/webgpu/LineSegments2.js create mode 100644 src/Three.WebGPU.js rename {examples/jsm/lights => src/lights/webgpu}/IESSpotLight.js (88%) rename {examples/jsm => src}/nodes/Nodes.js (99%) rename {examples/jsm => src}/nodes/accessors/AccessorsUtils.js (100%) rename {examples/jsm => src}/nodes/accessors/BatchNode.js (100%) rename {examples/jsm => src}/nodes/accessors/BitangentNode.js (100%) rename {examples/jsm => src}/nodes/accessors/BufferAttributeNode.js (93%) rename {examples/jsm => src}/nodes/accessors/BufferNode.js (100%) rename {examples/jsm => src}/nodes/accessors/CameraNode.js (97%) rename {examples/jsm => src}/nodes/accessors/ClippingNode.js (100%) rename {examples/jsm => src}/nodes/accessors/CubeTextureNode.js (94%) rename {examples/jsm => src}/nodes/accessors/InstanceNode.js (93%) rename {examples/jsm => src}/nodes/accessors/InstancedPointsMaterialNode.js (100%) rename {examples/jsm => src}/nodes/accessors/MaterialNode.js (99%) rename {examples/jsm => src}/nodes/accessors/MaterialReferenceNode.js (100%) rename {examples/jsm => src}/nodes/accessors/ModelNode.js (96%) rename {examples/jsm => src}/nodes/accessors/ModelViewProjectionNode.js (100%) rename {examples/jsm => src}/nodes/accessors/MorphNode.js (96%) rename {examples/jsm => src}/nodes/accessors/NormalNode.js (100%) rename {examples/jsm => src}/nodes/accessors/Object3DNode.js (98%) rename {examples/jsm => src}/nodes/accessors/PointUVNode.js (100%) rename {examples/jsm => src}/nodes/accessors/PositionNode.js (100%) rename {examples/jsm => src}/nodes/accessors/ReferenceNode.js (100%) rename {examples/jsm => src}/nodes/accessors/ReflectVectorNode.js (100%) rename {examples/jsm => src}/nodes/accessors/RendererReferenceNode.js (100%) rename {examples/jsm => src}/nodes/accessors/SceneNode.js (100%) rename {examples/jsm => src}/nodes/accessors/SkinningNode.js (100%) rename {examples/jsm => src}/nodes/accessors/StorageBufferNode.js (100%) rename {examples/jsm => src}/nodes/accessors/StorageTextureNode.js (100%) rename {examples/jsm => src}/nodes/accessors/TangentNode.js (100%) rename {examples/jsm => src}/nodes/accessors/Texture3DNode.js (100%) rename {examples/jsm => src}/nodes/accessors/TextureBicubicNode.js (100%) rename {examples/jsm => src}/nodes/accessors/TextureNode.js (99%) rename {examples/jsm => src}/nodes/accessors/TextureSizeNode.js (100%) rename {examples/jsm => src}/nodes/accessors/UVNode.js (100%) rename {examples/jsm => src}/nodes/accessors/UniformsNode.js (100%) rename {examples/jsm => 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{examples/jsm => src}/renderers/webgpu/nodes/WGSLNodeFunction.js (100%) rename {examples/jsm => src}/renderers/webgpu/nodes/WGSLNodeParser.js (100%) rename {examples/jsm => src}/renderers/webgpu/utils/WebGPUAttributeUtils.js (98%) rename {examples/jsm => src}/renderers/webgpu/utils/WebGPUBindingUtils.js (98%) rename {examples/jsm => src}/renderers/webgpu/utils/WebGPUConstants.js (100%) rename {examples/jsm => src}/renderers/webgpu/utils/WebGPUPipelineUtils.js (99%) rename {examples/jsm => src}/renderers/webgpu/utils/WebGPUTexturePassUtils.js (100%) rename {examples/jsm => src}/renderers/webgpu/utils/WebGPUTextureUtils.js (98%) rename {examples/jsm => src}/renderers/webgpu/utils/WebGPUUtils.js (100%) diff --git a/build/three.webgpu.js b/build/three.webgpu.js new file mode 100644 index 00000000000000..08b23af8eb5991 --- /dev/null +++ b/build/three.webgpu.js @@ -0,0 +1,73550 @@ +/** + * @license + * Copyright 2010-2024 Three.js Authors + * SPDX-License-Identifier: MIT + */ +const REVISION = '166'; + +const MOUSE = { LEFT: 0, MIDDLE: 1, RIGHT: 2, ROTATE: 0, DOLLY: 1, PAN: 2 }; +const TOUCH = { ROTATE: 0, PAN: 1, DOLLY_PAN: 2, DOLLY_ROTATE: 3 }; +const CullFaceNone = 0; +const CullFaceBack = 1; +const CullFaceFront = 2; +const CullFaceFrontBack = 3; +const BasicShadowMap = 0; +const PCFShadowMap = 1; +const PCFSoftShadowMap = 2; +const VSMShadowMap = 3; +const FrontSide = 0; +const BackSide = 1; +const DoubleSide = 2; +const NoBlending = 0; +const NormalBlending = 1; +const AdditiveBlending = 2; +const SubtractiveBlending = 3; +const MultiplyBlending = 4; +const CustomBlending = 5; +const AddEquation = 100; +const SubtractEquation = 101; +const ReverseSubtractEquation = 102; +const MinEquation = 103; +const MaxEquation = 104; +const ZeroFactor = 200; +const OneFactor = 201; +const SrcColorFactor = 202; +const OneMinusSrcColorFactor = 203; +const SrcAlphaFactor = 204; +const OneMinusSrcAlphaFactor = 205; +const DstAlphaFactor = 206; +const OneMinusDstAlphaFactor = 207; +const DstColorFactor = 208; +const OneMinusDstColorFactor = 209; +const SrcAlphaSaturateFactor = 210; +const ConstantColorFactor = 211; +const OneMinusConstantColorFactor = 212; +const ConstantAlphaFactor = 213; +const OneMinusConstantAlphaFactor = 214; +const NeverDepth = 0; +const AlwaysDepth = 1; +const LessDepth = 2; +const LessEqualDepth = 3; +const EqualDepth = 4; +const GreaterEqualDepth = 5; +const GreaterDepth = 6; +const NotEqualDepth = 7; +const MultiplyOperation = 0; +const MixOperation = 1; +const AddOperation = 2; +const NoToneMapping = 0; +const LinearToneMapping = 1; +const ReinhardToneMapping = 2; +const CineonToneMapping = 3; +const ACESFilmicToneMapping = 4; +const CustomToneMapping = 5; +const AgXToneMapping = 6; +const NeutralToneMapping = 7; +const AttachedBindMode = 'attached'; +const DetachedBindMode = 'detached'; + +const UVMapping = 300; +const CubeReflectionMapping = 301; +const CubeRefractionMapping = 302; +const EquirectangularReflectionMapping = 303; +const EquirectangularRefractionMapping = 304; +const CubeUVReflectionMapping = 306; +const RepeatWrapping = 1000; +const ClampToEdgeWrapping = 1001; +const MirroredRepeatWrapping = 1002; +const NearestFilter = 1003; +const NearestMipmapNearestFilter = 1004; +const NearestMipMapNearestFilter = 1004; +const NearestMipmapLinearFilter = 1005; +const NearestMipMapLinearFilter = 1005; +const LinearFilter = 1006; +const LinearMipmapNearestFilter = 1007; +const LinearMipMapNearestFilter = 1007; +const LinearMipmapLinearFilter = 1008; +const LinearMipMapLinearFilter = 1008; +const UnsignedByteType = 1009; +const ByteType = 1010; +const ShortType = 1011; +const UnsignedShortType = 1012; +const IntType = 1013; +const UnsignedIntType = 1014; +const FloatType = 1015; +const HalfFloatType = 1016; +const UnsignedShort4444Type = 1017; +const UnsignedShort5551Type = 1018; +const UnsignedInt248Type = 1020; +const UnsignedInt5999Type = 35902; +const AlphaFormat = 1021; +const RGBFormat = 1022; +const RGBAFormat = 1023; +const LuminanceFormat = 1024; +const LuminanceAlphaFormat = 1025; +const DepthFormat = 1026; +const DepthStencilFormat = 1027; +const RedFormat = 1028; +const RedIntegerFormat = 1029; +const RGFormat = 1030; +const RGIntegerFormat = 1031; +const RGBIntegerFormat = 1032; +const RGBAIntegerFormat = 1033; + +const RGB_S3TC_DXT1_Format = 33776; +const RGBA_S3TC_DXT1_Format = 33777; +const RGBA_S3TC_DXT3_Format = 33778; +const RGBA_S3TC_DXT5_Format = 33779; +const RGB_PVRTC_4BPPV1_Format = 35840; +const RGB_PVRTC_2BPPV1_Format = 35841; +const RGBA_PVRTC_4BPPV1_Format = 35842; +const RGBA_PVRTC_2BPPV1_Format = 35843; +const RGB_ETC1_Format = 36196; +const RGB_ETC2_Format = 37492; +const RGBA_ETC2_EAC_Format = 37496; +const RGBA_ASTC_4x4_Format = 37808; +const RGBA_ASTC_5x4_Format = 37809; +const RGBA_ASTC_5x5_Format = 37810; +const RGBA_ASTC_6x5_Format = 37811; +const RGBA_ASTC_6x6_Format = 37812; +const RGBA_ASTC_8x5_Format = 37813; +const RGBA_ASTC_8x6_Format = 37814; +const RGBA_ASTC_8x8_Format = 37815; +const RGBA_ASTC_10x5_Format = 37816; +const RGBA_ASTC_10x6_Format = 37817; +const RGBA_ASTC_10x8_Format = 37818; +const RGBA_ASTC_10x10_Format = 37819; +const RGBA_ASTC_12x10_Format = 37820; +const RGBA_ASTC_12x12_Format = 37821; +const RGBA_BPTC_Format = 36492; +const RGB_BPTC_SIGNED_Format = 36494; +const RGB_BPTC_UNSIGNED_Format = 36495; +const RED_RGTC1_Format = 36283; +const SIGNED_RED_RGTC1_Format = 36284; +const RED_GREEN_RGTC2_Format = 36285; +const SIGNED_RED_GREEN_RGTC2_Format = 36286; +const LoopOnce = 2200; +const LoopRepeat = 2201; +const LoopPingPong = 2202; +const InterpolateDiscrete = 2300; +const InterpolateLinear = 2301; +const InterpolateSmooth = 2302; +const ZeroCurvatureEnding = 2400; +const ZeroSlopeEnding = 2401; +const WrapAroundEnding = 2402; +const NormalAnimationBlendMode = 2500; +const AdditiveAnimationBlendMode = 2501; +const TrianglesDrawMode = 0; +const TriangleStripDrawMode = 1; +const TriangleFanDrawMode = 2; +const BasicDepthPacking = 3200; +const RGBADepthPacking = 3201; +const TangentSpaceNormalMap = 0; +const ObjectSpaceNormalMap = 1; + +// Color space string identifiers, matching CSS Color Module Level 4 and WebGPU names where available. +const NoColorSpace = ''; +const SRGBColorSpace = 'srgb'; +const LinearSRGBColorSpace = 'srgb-linear'; +const DisplayP3ColorSpace = 'display-p3'; +const LinearDisplayP3ColorSpace = 'display-p3-linear'; + +const LinearTransfer = 'linear'; +const SRGBTransfer = 'srgb'; + +const Rec709Primaries = 'rec709'; +const P3Primaries = 'p3'; + +const ZeroStencilOp = 0; +const KeepStencilOp = 7680; +const ReplaceStencilOp = 7681; +const IncrementStencilOp = 7682; +const DecrementStencilOp = 7683; +const IncrementWrapStencilOp = 34055; +const DecrementWrapStencilOp = 34056; +const InvertStencilOp = 5386; + +const NeverStencilFunc = 512; +const LessStencilFunc = 513; +const EqualStencilFunc = 514; +const LessEqualStencilFunc = 515; +const GreaterStencilFunc = 516; +const NotEqualStencilFunc = 517; +const GreaterEqualStencilFunc = 518; +const AlwaysStencilFunc = 519; + +const NeverCompare = 512; +const LessCompare = 513; +const EqualCompare = 514; +const LessEqualCompare = 515; +const GreaterCompare = 516; +const NotEqualCompare = 517; +const GreaterEqualCompare = 518; +const AlwaysCompare = 519; + +const StaticDrawUsage = 35044; +const DynamicDrawUsage = 35048; +const StreamDrawUsage = 35040; +const StaticReadUsage = 35045; +const DynamicReadUsage = 35049; +const StreamReadUsage = 35041; +const StaticCopyUsage = 35046; +const DynamicCopyUsage = 35050; +const StreamCopyUsage = 35042; + +const GLSL1 = '100'; +const GLSL3 = '300 es'; + +const WebGLCoordinateSystem = 2000; +const WebGPUCoordinateSystem = 2001; + +/** + * https://github.com/mrdoob/eventdispatcher.js/ + */ + +class EventDispatcher { + + addEventListener( type, listener ) { + + if ( this._listeners === undefined ) this._listeners = {}; + + const listeners = this._listeners; + + if ( listeners[ type ] === undefined ) { + + listeners[ type ] = []; + + } + + if ( listeners[ type ].indexOf( listener ) === - 1 ) { + + listeners[ type ].push( listener ); + + } + + } + + hasEventListener( type, listener ) { + + if ( this._listeners === undefined ) return false; + + const listeners = this._listeners; + + return listeners[ type ] !== undefined && listeners[ type ].indexOf( listener ) !== - 1; + + } + + removeEventListener( type, listener ) { + + if ( this._listeners === undefined ) return; + + const listeners = this._listeners; + const listenerArray = listeners[ type ]; + + if ( listenerArray !== undefined ) { + + const index = listenerArray.indexOf( listener ); + + if ( index !== - 1 ) { + + listenerArray.splice( index, 1 ); + + } + + } + + } + + dispatchEvent( event ) { + + if ( this._listeners === undefined ) return; + + const listeners = this._listeners; + const listenerArray = listeners[ event.type ]; + + if ( listenerArray !== undefined ) { + + event.target = this; + + // Make a copy, in case listeners are removed while iterating. + const array = listenerArray.slice( 0 ); + + for ( let i = 0, l = array.length; i < l; i ++ ) { + + array[ i ].call( this, event ); + + } + + event.target = null; + + } + + } + +} + +const _lut = [ '00', '01', '02', '03', '04', '05', '06', '07', '08', '09', '0a', '0b', '0c', '0d', '0e', '0f', '10', '11', '12', '13', '14', '15', '16', '17', '18', '19', '1a', '1b', '1c', '1d', '1e', '1f', '20', '21', '22', '23', '24', '25', '26', '27', '28', '29', '2a', '2b', '2c', '2d', '2e', '2f', '30', '31', '32', '33', '34', '35', '36', '37', '38', '39', '3a', '3b', '3c', '3d', '3e', '3f', '40', '41', '42', '43', '44', '45', '46', '47', '48', '49', '4a', '4b', '4c', '4d', '4e', '4f', '50', '51', '52', '53', '54', '55', '56', '57', '58', '59', '5a', '5b', '5c', '5d', '5e', '5f', '60', '61', '62', '63', '64', '65', '66', '67', '68', '69', '6a', '6b', '6c', '6d', '6e', '6f', '70', '71', '72', '73', '74', '75', '76', '77', '78', '79', '7a', '7b', '7c', '7d', '7e', '7f', '80', '81', '82', '83', '84', '85', '86', '87', '88', '89', '8a', '8b', '8c', '8d', '8e', '8f', '90', '91', '92', '93', '94', '95', '96', '97', '98', '99', '9a', '9b', '9c', '9d', '9e', '9f', 'a0', 'a1', 'a2', 'a3', 'a4', 'a5', 'a6', 'a7', 'a8', 'a9', 'aa', 'ab', 'ac', 'ad', 'ae', 'af', 'b0', 'b1', 'b2', 'b3', 'b4', 'b5', 'b6', 'b7', 'b8', 'b9', 'ba', 'bb', 'bc', 'bd', 'be', 'bf', 'c0', 'c1', 'c2', 'c3', 'c4', 'c5', 'c6', 'c7', 'c8', 'c9', 'ca', 'cb', 'cc', 'cd', 'ce', 'cf', 'd0', 'd1', 'd2', 'd3', 'd4', 'd5', 'd6', 'd7', 'd8', 'd9', 'da', 'db', 'dc', 'dd', 'de', 'df', 'e0', 'e1', 'e2', 'e3', 'e4', 'e5', 'e6', 'e7', 'e8', 'e9', 'ea', 'eb', 'ec', 'ed', 'ee', 'ef', 'f0', 'f1', 'f2', 'f3', 'f4', 'f5', 'f6', 'f7', 'f8', 'f9', 'fa', 'fb', 'fc', 'fd', 'fe', 'ff' ]; + +let _seed = 1234567; + + +const DEG2RAD = Math.PI / 180; +const RAD2DEG = 180 / Math.PI; + +// http://stackoverflow.com/questions/105034/how-to-create-a-guid-uuid-in-javascript/21963136#21963136 +function generateUUID() { + + const d0 = Math.random() * 0xffffffff | 0; + const d1 = Math.random() * 0xffffffff | 0; + const d2 = Math.random() * 0xffffffff | 0; + const d3 = Math.random() * 0xffffffff | 0; + const uuid = _lut[ d0 & 0xff ] + _lut[ d0 >> 8 & 0xff ] + _lut[ d0 >> 16 & 0xff ] + _lut[ d0 >> 24 & 0xff ] + '-' + + _lut[ d1 & 0xff ] + _lut[ d1 >> 8 & 0xff ] + '-' + _lut[ d1 >> 16 & 0x0f | 0x40 ] + _lut[ d1 >> 24 & 0xff ] + '-' + + _lut[ d2 & 0x3f | 0x80 ] + _lut[ d2 >> 8 & 0xff ] + '-' + _lut[ d2 >> 16 & 0xff ] + _lut[ d2 >> 24 & 0xff ] + + _lut[ d3 & 0xff ] + _lut[ d3 >> 8 & 0xff ] + _lut[ d3 >> 16 & 0xff ] + _lut[ d3 >> 24 & 0xff ]; + + // .toLowerCase() here flattens concatenated strings to save heap memory space. + return uuid.toLowerCase(); + +} + +function clamp$1( value, min, max ) { + + return Math.max( min, Math.min( max, value ) ); + +} + +// compute euclidean modulo of m % n +// https://en.wikipedia.org/wiki/Modulo_operation +function euclideanModulo( n, m ) { + + return ( ( n % m ) + m ) % m; + +} + +// Linear mapping from range to range +function mapLinear( x, a1, a2, b1, b2 ) { + + return b1 + ( x - a1 ) * ( b2 - b1 ) / ( a2 - a1 ); + +} + +// https://www.gamedev.net/tutorials/programming/general-and-gameplay-programming/inverse-lerp-a-super-useful-yet-often-overlooked-function-r5230/ +function inverseLerp( x, y, value ) { + + if ( x !== y ) { + + return ( value - x ) / ( y - x ); + + } else { + + return 0; + + } + +} + +// https://en.wikipedia.org/wiki/Linear_interpolation +function lerp( x, y, t ) { + + return ( 1 - t ) * x + t * y; + +} + +// http://www.rorydriscoll.com/2016/03/07/frame-rate-independent-damping-using-lerp/ +function damp( x, y, lambda, dt ) { + + return lerp( x, y, 1 - Math.exp( - lambda * dt ) ); + +} + +// https://www.desmos.com/calculator/vcsjnyz7x4 +function pingpong( x, length = 1 ) { + + return length - Math.abs( euclideanModulo( x, length * 2 ) - length ); + +} + +// http://en.wikipedia.org/wiki/Smoothstep +function smoothstep$1( x, min, max ) { + + if ( x <= min ) return 0; + if ( x >= max ) return 1; + + x = ( x - min ) / ( max - min ); + + return x * x * ( 3 - 2 * x ); + +} + +function smootherstep( x, min, max ) { + + if ( x <= min ) return 0; + if ( x >= max ) return 1; + + x = ( x - min ) / ( max - min ); + + return x * x * x * ( x * ( x * 6 - 15 ) + 10 ); + +} + +// Random integer from interval +function randInt( low, high ) { + + return low + Math.floor( Math.random() * ( high - low + 1 ) ); + +} + +// Random float from interval +function randFloat( low, high ) { + + return low + Math.random() * ( high - low ); + +} + +// Random float from <-range/2, range/2> interval +function randFloatSpread( range ) { + + return range * ( 0.5 - Math.random() ); + +} + +// Deterministic pseudo-random float in the interval [ 0, 1 ] +function seededRandom( s ) { + + if ( s !== undefined ) _seed = s; + + // Mulberry32 generator + + let t = _seed += 0x6D2B79F5; + + t = Math.imul( t ^ t >>> 15, t | 1 ); + + t ^= t + Math.imul( t ^ t >>> 7, t | 61 ); + + return ( ( t ^ t >>> 14 ) >>> 0 ) / 4294967296; + +} + +function degToRad( degrees ) { + + return degrees * DEG2RAD; + +} + +function radToDeg( radians ) { + + return radians * RAD2DEG; + +} + +function isPowerOfTwo( value ) { + + return ( value & ( value - 1 ) ) === 0 && value !== 0; + +} + +function ceilPowerOfTwo( value ) { + + return Math.pow( 2, Math.ceil( Math.log( value ) / Math.LN2 ) ); + +} + +function floorPowerOfTwo( value ) { + + return Math.pow( 2, Math.floor( Math.log( value ) / Math.LN2 ) ); + +} + +function setQuaternionFromProperEuler( q, a, b, c, order ) { + + // Intrinsic Proper Euler Angles - see https://en.wikipedia.org/wiki/Euler_angles + + // rotations are applied to the axes in the order specified by 'order' + // rotation by angle 'a' is applied first, then by angle 'b', then by angle 'c' + // angles are in radians + + const cos = Math.cos; + const sin = Math.sin; + + const c2 = cos( b / 2 ); + const s2 = sin( b / 2 ); + + const c13 = cos( ( a + c ) / 2 ); + const s13 = sin( ( a + c ) / 2 ); + + const c1_3 = cos( ( a - c ) / 2 ); + const s1_3 = sin( ( a - c ) / 2 ); + + const c3_1 = cos( ( c - a ) / 2 ); + const s3_1 = sin( ( c - a ) / 2 ); + + switch ( order ) { + + case 'XYX': + q.set( c2 * s13, s2 * c1_3, s2 * s1_3, c2 * c13 ); + break; + + case 'YZY': + q.set( s2 * s1_3, c2 * s13, s2 * c1_3, c2 * c13 ); + break; + + case 'ZXZ': + q.set( s2 * c1_3, s2 * s1_3, c2 * s13, c2 * c13 ); + break; + + case 'XZX': + q.set( c2 * s13, s2 * s3_1, s2 * c3_1, c2 * c13 ); + break; + + case 'YXY': + q.set( s2 * c3_1, c2 * s13, s2 * s3_1, c2 * c13 ); + break; + + case 'ZYZ': + q.set( s2 * s3_1, s2 * c3_1, c2 * s13, c2 * c13 ); + break; + + default: + console.warn( 'THREE.MathUtils: .setQuaternionFromProperEuler() encountered an unknown order: ' + order ); + + } + +} + +function denormalize( value, array ) { + + switch ( array.constructor ) { + + case Float32Array: + + return value; + + case Uint32Array: + + return value / 4294967295.0; + + case Uint16Array: + + return value / 65535.0; + + case Uint8Array: + + return value / 255.0; + + case Int32Array: + + return Math.max( value / 2147483647.0, - 1.0 ); + + case Int16Array: + + return Math.max( value / 32767.0, - 1.0 ); + + case Int8Array: + + return Math.max( value / 127.0, - 1.0 ); + + default: + + throw new Error( 'Invalid component type.' ); + + } + +} + +function normalize$1( value, array ) { + + switch ( array.constructor ) { + + case Float32Array: + + return value; + + case Uint32Array: + + return Math.round( value * 4294967295.0 ); + + case Uint16Array: + + return Math.round( value * 65535.0 ); + + case Uint8Array: + + return Math.round( value * 255.0 ); + + case Int32Array: + + return Math.round( value * 2147483647.0 ); + + case Int16Array: + + return Math.round( value * 32767.0 ); + + case Int8Array: + + return Math.round( value * 127.0 ); + + default: + + throw new Error( 'Invalid component type.' ); + + } + +} + +const MathUtils = { + DEG2RAD: DEG2RAD, + RAD2DEG: RAD2DEG, + generateUUID: generateUUID, + clamp: clamp$1, + euclideanModulo: euclideanModulo, + mapLinear: mapLinear, + inverseLerp: inverseLerp, + lerp: lerp, + damp: damp, + pingpong: pingpong, + smoothstep: smoothstep$1, + smootherstep: smootherstep, + randInt: randInt, + randFloat: randFloat, + randFloatSpread: randFloatSpread, + seededRandom: seededRandom, + degToRad: degToRad, + radToDeg: radToDeg, + isPowerOfTwo: isPowerOfTwo, + ceilPowerOfTwo: ceilPowerOfTwo, + floorPowerOfTwo: floorPowerOfTwo, + setQuaternionFromProperEuler: setQuaternionFromProperEuler, + normalize: normalize$1, + denormalize: denormalize +}; + +class Vector2 { + + constructor( x = 0, y = 0 ) { + + Vector2.prototype.isVector2 = true; + + this.x = x; + this.y = y; + + } + + get width() { + + return this.x; + + } + + set width( value ) { + + this.x = value; + + } + + get height() { + + return this.y; + + } + + set height( value ) { + + this.y = value; + + } + + set( x, y ) { + + this.x = x; + this.y = y; + + return this; + + } + + setScalar( scalar ) { + + this.x = scalar; + this.y = scalar; + + return this; + + } + + setX( x ) { + + this.x = x; + + return this; + + } + + setY( y ) { + + this.y = y; + + return this; + + } + + setComponent( index, value ) { + + switch ( index ) { + + case 0: this.x = value; break; + case 1: this.y = value; break; + default: throw new Error( 'index is out of range: ' + index ); + + } + + return this; + + } + + getComponent( index ) { + + switch ( index ) { + + case 0: return this.x; + case 1: return this.y; + default: throw new Error( 'index is out of range: ' + index ); + + } + + } + + clone() { + + return new this.constructor( this.x, this.y ); + + } + + copy( v ) { + + this.x = v.x; + this.y = v.y; + + return this; + + } + + add( v ) { + + this.x += v.x; + this.y += v.y; + + return this; + + } + + addScalar( s ) { + + this.x += s; + this.y += s; + + return this; + + } + + addVectors( a, b ) { + + this.x = a.x + b.x; + this.y = a.y + b.y; + + return this; + + } + + addScaledVector( v, s ) { + + this.x += v.x * s; + this.y += v.y * s; + + return this; + + } + + sub( v ) { + + this.x -= v.x; + this.y -= v.y; + + return this; + + } + + subScalar( s ) { + + this.x -= s; + this.y -= s; + + return this; + + } + + subVectors( a, b ) { + + this.x = a.x - b.x; + this.y = a.y - b.y; + + return this; + + } + + multiply( v ) { + + this.x *= v.x; + this.y *= v.y; + + return this; + + } + + multiplyScalar( scalar ) { + + this.x *= scalar; + this.y *= scalar; + + return this; + + } + + divide( v ) { + + this.x /= v.x; + this.y /= v.y; + + return this; + + } + + divideScalar( scalar ) { + + return this.multiplyScalar( 1 / scalar ); + + } + + applyMatrix3( m ) { + + const x = this.x, y = this.y; + const e = m.elements; + + this.x = e[ 0 ] * x + e[ 3 ] * y + e[ 6 ]; + this.y = e[ 1 ] * x + e[ 4 ] * y + e[ 7 ]; + + return this; + + } + + min( v ) { + + this.x = Math.min( this.x, v.x ); + this.y = Math.min( this.y, v.y ); + + return this; + + } + + max( v ) { + + this.x = Math.max( this.x, v.x ); + this.y = Math.max( this.y, v.y ); + + return this; + + } + + clamp( min, max ) { + + // assumes min < max, componentwise + + this.x = Math.max( min.x, Math.min( max.x, this.x ) ); + this.y = Math.max( min.y, Math.min( max.y, this.y ) ); + + return this; + + } + + clampScalar( minVal, maxVal ) { + + this.x = Math.max( minVal, Math.min( maxVal, this.x ) ); + this.y = Math.max( minVal, Math.min( maxVal, this.y ) ); + + return this; + + } + + clampLength( min, max ) { + + const length = this.length(); + + return this.divideScalar( length || 1 ).multiplyScalar( Math.max( min, Math.min( max, length ) ) ); + + } + + floor() { + + this.x = Math.floor( this.x ); + this.y = Math.floor( this.y ); + + return this; + + } + + ceil() { + + this.x = Math.ceil( this.x ); + this.y = Math.ceil( this.y ); + + return this; + + } + + round() { + + this.x = Math.round( this.x ); + this.y = Math.round( this.y ); + + return this; + + } + + roundToZero() { + + this.x = Math.trunc( this.x ); + this.y = Math.trunc( this.y ); + + return this; + + } + + negate() { + + this.x = - this.x; + this.y = - this.y; + + return this; + + } + + dot( v ) { + + return this.x * v.x + this.y * v.y; + + } + + cross( v ) { + + return this.x * v.y - this.y * v.x; + + } + + lengthSq() { + + return this.x * this.x + this.y * this.y; + + } + + length() { + + return Math.sqrt( this.x * this.x + this.y * this.y ); + + } + + manhattanLength() { + + return Math.abs( this.x ) + Math.abs( this.y ); + + } + + normalize() { + + return this.divideScalar( this.length() || 1 ); + + } + + angle() { + + // computes the angle in radians with respect to the positive x-axis + + const angle = Math.atan2( - this.y, - this.x ) + Math.PI; + + return angle; + + } + + angleTo( v ) { + + const denominator = Math.sqrt( this.lengthSq() * v.lengthSq() ); + + if ( denominator === 0 ) return Math.PI / 2; + + const theta = this.dot( v ) / denominator; + + // clamp, to handle numerical problems + + return Math.acos( clamp$1( theta, - 1, 1 ) ); + + } + + distanceTo( v ) { + + return Math.sqrt( this.distanceToSquared( v ) ); + + } + + distanceToSquared( v ) { + + const dx = this.x - v.x, dy = this.y - v.y; + return dx * dx + dy * dy; + + } + + manhattanDistanceTo( v ) { + + return Math.abs( this.x - v.x ) + Math.abs( this.y - v.y ); + + } + + setLength( length ) { + + return this.normalize().multiplyScalar( length ); + + } + + lerp( v, alpha ) { + + this.x += ( v.x - this.x ) * alpha; + this.y += ( v.y - this.y ) * alpha; + + return this; + + } + + lerpVectors( v1, v2, alpha ) { + + this.x = v1.x + ( v2.x - v1.x ) * alpha; + this.y = v1.y + ( v2.y - v1.y ) * alpha; + + return this; + + } + + equals( v ) { + + return ( ( v.x === this.x ) && ( v.y === this.y ) ); + + } + + fromArray( array, offset = 0 ) { + + this.x = array[ offset ]; + this.y = array[ offset + 1 ]; + + return this; + + } + + toArray( array = [], offset = 0 ) { + + array[ offset ] = this.x; + array[ offset + 1 ] = this.y; + + return array; + + } + + fromBufferAttribute( attribute, index ) { + + this.x = attribute.getX( index ); + this.y = attribute.getY( index ); + + return this; + + } + + rotateAround( center, angle ) { + + const c = Math.cos( angle ), s = Math.sin( angle ); + + const x = this.x - center.x; + const y = this.y - center.y; + + this.x = x * c - y * s + center.x; + this.y = x * s + y * c + center.y; + + return this; + + } + + random() { + + this.x = Math.random(); + this.y = Math.random(); + + return this; + + } + + *[ Symbol.iterator ]() { + + yield this.x; + yield this.y; + + } + +} + +class Matrix3 { + + constructor( n11, n12, n13, n21, n22, n23, n31, n32, n33 ) { + + Matrix3.prototype.isMatrix3 = true; + + this.elements = [ + + 1, 0, 0, + 0, 1, 0, + 0, 0, 1 + + ]; + + if ( n11 !== undefined ) { + + this.set( n11, n12, n13, n21, n22, n23, n31, n32, n33 ); + + } + + } + + set( n11, n12, n13, n21, n22, n23, n31, n32, n33 ) { + + const te = this.elements; + + te[ 0 ] = n11; te[ 1 ] = n21; te[ 2 ] = n31; + te[ 3 ] = n12; te[ 4 ] = n22; te[ 5 ] = n32; + te[ 6 ] = n13; te[ 7 ] = n23; te[ 8 ] = n33; + + return this; + + } + + identity() { + + this.set( + + 1, 0, 0, + 0, 1, 0, + 0, 0, 1 + + ); + + return this; + + } + + copy( m ) { + + const te = this.elements; + const me = m.elements; + + te[ 0 ] = me[ 0 ]; te[ 1 ] = me[ 1 ]; te[ 2 ] = me[ 2 ]; + te[ 3 ] = me[ 3 ]; te[ 4 ] = me[ 4 ]; te[ 5 ] = me[ 5 ]; + te[ 6 ] = me[ 6 ]; te[ 7 ] = me[ 7 ]; te[ 8 ] = me[ 8 ]; + + return this; + + } + + extractBasis( xAxis, yAxis, zAxis ) { + + xAxis.setFromMatrix3Column( this, 0 ); + yAxis.setFromMatrix3Column( this, 1 ); + zAxis.setFromMatrix3Column( this, 2 ); + + return this; + + } + + setFromMatrix4( m ) { + + const me = m.elements; + + this.set( + + me[ 0 ], me[ 4 ], me[ 8 ], + me[ 1 ], me[ 5 ], me[ 9 ], + me[ 2 ], me[ 6 ], me[ 10 ] + + ); + + return this; + + } + + multiply( m ) { + + return this.multiplyMatrices( this, m ); + + } + + premultiply( m ) { + + return this.multiplyMatrices( m, this ); + + } + + multiplyMatrices( a, b ) { + + const ae = a.elements; + const be = b.elements; + const te = this.elements; + + const a11 = ae[ 0 ], a12 = ae[ 3 ], a13 = ae[ 6 ]; + const a21 = ae[ 1 ], a22 = ae[ 4 ], a23 = ae[ 7 ]; + const a31 = ae[ 2 ], a32 = ae[ 5 ], a33 = ae[ 8 ]; + + const b11 = be[ 0 ], b12 = be[ 3 ], b13 = be[ 6 ]; + const b21 = be[ 1 ], b22 = be[ 4 ], b23 = be[ 7 ]; + const b31 = be[ 2 ], b32 = be[ 5 ], b33 = be[ 8 ]; + + te[ 0 ] = a11 * b11 + a12 * b21 + a13 * b31; + te[ 3 ] = a11 * b12 + a12 * b22 + a13 * b32; + te[ 6 ] = a11 * b13 + a12 * b23 + a13 * b33; + + te[ 1 ] = a21 * b11 + a22 * b21 + a23 * b31; + te[ 4 ] = a21 * b12 + a22 * b22 + a23 * b32; + te[ 7 ] = a21 * b13 + a22 * b23 + a23 * b33; + + te[ 2 ] = a31 * b11 + a32 * b21 + a33 * b31; + te[ 5 ] = a31 * b12 + a32 * b22 + a33 * b32; + te[ 8 ] = a31 * b13 + a32 * b23 + a33 * b33; + + return this; + + } + + multiplyScalar( s ) { + + const te = this.elements; + + te[ 0 ] *= s; te[ 3 ] *= s; te[ 6 ] *= s; + te[ 1 ] *= s; te[ 4 ] *= s; te[ 7 ] *= s; + te[ 2 ] *= s; te[ 5 ] *= s; te[ 8 ] *= s; + + return this; + + } + + determinant() { + + const te = this.elements; + + const a = te[ 0 ], b = te[ 1 ], c = te[ 2 ], + d = te[ 3 ], e = te[ 4 ], f = te[ 5 ], + g = te[ 6 ], h = te[ 7 ], i = te[ 8 ]; + + return a * e * i - a * f * h - b * d * i + b * f * g + c * d * h - c * e * g; + + } + + invert() { + + const te = this.elements, + + n11 = te[ 0 ], n21 = te[ 1 ], n31 = te[ 2 ], + n12 = te[ 3 ], n22 = te[ 4 ], n32 = te[ 5 ], + n13 = te[ 6 ], n23 = te[ 7 ], n33 = te[ 8 ], + + t11 = n33 * n22 - n32 * n23, + t12 = n32 * n13 - n33 * n12, + t13 = n23 * n12 - n22 * n13, + + det = n11 * t11 + n21 * t12 + n31 * t13; + + if ( det === 0 ) return this.set( 0, 0, 0, 0, 0, 0, 0, 0, 0 ); + + const detInv = 1 / det; + + te[ 0 ] = t11 * detInv; + te[ 1 ] = ( n31 * n23 - n33 * n21 ) * detInv; + te[ 2 ] = ( n32 * n21 - n31 * n22 ) * detInv; + + te[ 3 ] = t12 * detInv; + te[ 4 ] = ( n33 * n11 - n31 * n13 ) * detInv; + te[ 5 ] = ( n31 * n12 - n32 * n11 ) * detInv; + + te[ 6 ] = t13 * detInv; + te[ 7 ] = ( n21 * n13 - n23 * n11 ) * detInv; + te[ 8 ] = ( n22 * n11 - n21 * n12 ) * detInv; + + return this; + + } + + transpose() { + + let tmp; + const m = this.elements; + + tmp = m[ 1 ]; m[ 1 ] = m[ 3 ]; m[ 3 ] = tmp; + tmp = m[ 2 ]; m[ 2 ] = m[ 6 ]; m[ 6 ] = tmp; + tmp = m[ 5 ]; m[ 5 ] = m[ 7 ]; m[ 7 ] = tmp; + + return this; + + } + + getNormalMatrix( matrix4 ) { + + return this.setFromMatrix4( matrix4 ).invert().transpose(); + + } + + transposeIntoArray( r ) { + + const m = this.elements; + + r[ 0 ] = m[ 0 ]; + r[ 1 ] = m[ 3 ]; + r[ 2 ] = m[ 6 ]; + r[ 3 ] = m[ 1 ]; + r[ 4 ] = m[ 4 ]; + r[ 5 ] = m[ 7 ]; + r[ 6 ] = m[ 2 ]; + r[ 7 ] = m[ 5 ]; + r[ 8 ] = m[ 8 ]; + + return this; + + } + + setUvTransform( tx, ty, sx, sy, rotation, cx, cy ) { + + const c = Math.cos( rotation ); + const s = Math.sin( rotation ); + + this.set( + sx * c, sx * s, - sx * ( c * cx + s * cy ) + cx + tx, + - sy * s, sy * c, - sy * ( - s * cx + c * cy ) + cy + ty, + 0, 0, 1 + ); + + return this; + + } + + // + + scale( sx, sy ) { + + this.premultiply( _m3.makeScale( sx, sy ) ); + + return this; + + } + + rotate( theta ) { + + this.premultiply( _m3.makeRotation( - theta ) ); + + return this; + + } + + translate( tx, ty ) { + + this.premultiply( _m3.makeTranslation( tx, ty ) ); + + return this; + + } + + // for 2D Transforms + + makeTranslation( x, y ) { + + if ( x.isVector2 ) { + + this.set( + + 1, 0, x.x, + 0, 1, x.y, + 0, 0, 1 + + ); + + } else { + + this.set( + + 1, 0, x, + 0, 1, y, + 0, 0, 1 + + ); + + } + + return this; + + } + + makeRotation( theta ) { + + // counterclockwise + + const c = Math.cos( theta ); + const s = Math.sin( theta ); + + this.set( + + c, - s, 0, + s, c, 0, + 0, 0, 1 + + ); + + return this; + + } + + makeScale( x, y ) { + + this.set( + + x, 0, 0, + 0, y, 0, + 0, 0, 1 + + ); + + return this; + + } + + // + + equals( matrix ) { + + const te = this.elements; + const me = matrix.elements; + + for ( let i = 0; i < 9; i ++ ) { + + if ( te[ i ] !== me[ i ] ) return false; + + } + + return true; + + } + + fromArray( array, offset = 0 ) { + + for ( let i = 0; i < 9; i ++ ) { + + this.elements[ i ] = array[ i + offset ]; + + } + + return this; + + } + + toArray( array = [], offset = 0 ) { + + const te = this.elements; + + array[ offset ] = te[ 0 ]; + array[ offset + 1 ] = te[ 1 ]; + array[ offset + 2 ] = te[ 2 ]; + + array[ offset + 3 ] = te[ 3 ]; + array[ offset + 4 ] = te[ 4 ]; + array[ offset + 5 ] = te[ 5 ]; + + array[ offset + 6 ] = te[ 6 ]; + array[ offset + 7 ] = te[ 7 ]; + array[ offset + 8 ] = te[ 8 ]; + + return array; + + } + + clone() { + + return new this.constructor().fromArray( this.elements ); + + } + +} + +const _m3 = /*@__PURE__*/ new Matrix3(); + +function arrayNeedsUint32$1( array ) { + + // assumes larger values usually on last + + for ( let i = array.length - 1; i >= 0; -- i ) { + + if ( array[ i ] >= 65535 ) return true; // account for PRIMITIVE_RESTART_FIXED_INDEX, #24565 + + } + + return false; + +} + +const TYPED_ARRAYS = { + Int8Array: Int8Array, + Uint8Array: Uint8Array, + Uint8ClampedArray: Uint8ClampedArray, + Int16Array: Int16Array, + Uint16Array: Uint16Array, + Int32Array: Int32Array, + Uint32Array: Uint32Array, + Float32Array: Float32Array, + Float64Array: Float64Array +}; + +function getTypedArray( type, buffer ) { + + return new TYPED_ARRAYS[ type ]( buffer ); + +} + +function createElementNS( name ) { + + return document.createElementNS( 'http://www.w3.org/1999/xhtml', name ); + +} + +function createCanvasElement() { + + const canvas = createElementNS( 'canvas' ); + canvas.style.display = 'block'; + return canvas; + +} + +const _cache$1 = {}; + +function warnOnce( message ) { + + if ( message in _cache$1 ) return; + + _cache$1[ message ] = true; + + console.warn( message ); + +} + +/** + * Matrices converting P3 <-> Rec. 709 primaries, without gamut mapping + * or clipping. Based on W3C specifications for sRGB and Display P3, + * and ICC specifications for the D50 connection space. Values in/out + * are _linear_ sRGB and _linear_ Display P3. + * + * Note that both sRGB and Display P3 use the sRGB transfer functions. + * + * Reference: + * - http://www.russellcottrell.com/photo/matrixCalculator.htm + */ + +const LINEAR_SRGB_TO_LINEAR_DISPLAY_P3 = /*@__PURE__*/ new Matrix3().set( + 0.8224621, 0.177538, 0.0, + 0.0331941, 0.9668058, 0.0, + 0.0170827, 0.0723974, 0.9105199, +); + +const LINEAR_DISPLAY_P3_TO_LINEAR_SRGB = /*@__PURE__*/ new Matrix3().set( + 1.2249401, - 0.2249404, 0.0, + - 0.0420569, 1.0420571, 0.0, + - 0.0196376, - 0.0786361, 1.0982735 +); + +/** + * Defines supported color spaces by transfer function and primaries, + * and provides conversions to/from the Linear-sRGB reference space. + */ +const COLOR_SPACES = { + [ LinearSRGBColorSpace ]: { + transfer: LinearTransfer, + primaries: Rec709Primaries, + toReference: ( color ) => color, + fromReference: ( color ) => color, + }, + [ SRGBColorSpace ]: { + transfer: SRGBTransfer, + primaries: Rec709Primaries, + toReference: ( color ) => color.convertSRGBToLinear(), + fromReference: ( color ) => color.convertLinearToSRGB(), + }, + [ LinearDisplayP3ColorSpace ]: { + transfer: LinearTransfer, + primaries: P3Primaries, + toReference: ( color ) => color.applyMatrix3( LINEAR_DISPLAY_P3_TO_LINEAR_SRGB ), + fromReference: ( color ) => color.applyMatrix3( LINEAR_SRGB_TO_LINEAR_DISPLAY_P3 ), + }, + [ DisplayP3ColorSpace ]: { + transfer: SRGBTransfer, + primaries: P3Primaries, + toReference: ( color ) => color.convertSRGBToLinear().applyMatrix3( LINEAR_DISPLAY_P3_TO_LINEAR_SRGB ), + fromReference: ( color ) => color.applyMatrix3( LINEAR_SRGB_TO_LINEAR_DISPLAY_P3 ).convertLinearToSRGB(), + }, +}; + +const SUPPORTED_WORKING_COLOR_SPACES = new Set( [ LinearSRGBColorSpace, LinearDisplayP3ColorSpace ] ); + +const ColorManagement = { + + enabled: true, + + _workingColorSpace: LinearSRGBColorSpace, + + get workingColorSpace() { + + return this._workingColorSpace; + + }, + + set workingColorSpace( colorSpace ) { + + if ( ! SUPPORTED_WORKING_COLOR_SPACES.has( colorSpace ) ) { + + throw new Error( `Unsupported working color space, "${ colorSpace }".` ); + + } + + this._workingColorSpace = colorSpace; + + }, + + convert: function ( color, sourceColorSpace, targetColorSpace ) { + + if ( this.enabled === false || sourceColorSpace === targetColorSpace || ! sourceColorSpace || ! targetColorSpace ) { + + return color; + + } + + const sourceToReference = COLOR_SPACES[ sourceColorSpace ].toReference; + const targetFromReference = COLOR_SPACES[ targetColorSpace ].fromReference; + + return targetFromReference( sourceToReference( color ) ); + + }, + + fromWorkingColorSpace: function ( color, targetColorSpace ) { + + return this.convert( color, this._workingColorSpace, targetColorSpace ); + + }, + + toWorkingColorSpace: function ( color, sourceColorSpace ) { + + return this.convert( color, sourceColorSpace, this._workingColorSpace ); + + }, + + getPrimaries: function ( colorSpace ) { + + return COLOR_SPACES[ colorSpace ].primaries; + + }, + + getTransfer: function ( colorSpace ) { + + if ( colorSpace === NoColorSpace ) return LinearTransfer; + + return COLOR_SPACES[ colorSpace ].transfer; + + }, + +}; + + +function SRGBToLinear( c ) { + + return ( c < 0.04045 ) ? c * 0.0773993808 : Math.pow( c * 0.9478672986 + 0.0521327014, 2.4 ); + +} + +function LinearToSRGB( c ) { + + return ( c < 0.0031308 ) ? c * 12.92 : 1.055 * ( Math.pow( c, 0.41666 ) ) - 0.055; + +} + +let _canvas; + +class ImageUtils { + + static getDataURL( image ) { + + if ( /^data:/i.test( image.src ) ) { + + return image.src; + + } + + if ( typeof HTMLCanvasElement === 'undefined' ) { + + return image.src; + + } + + let canvas; + + if ( image instanceof HTMLCanvasElement ) { + + canvas = image; + + } else { + + if ( _canvas === undefined ) _canvas = createElementNS( 'canvas' ); + + _canvas.width = image.width; + _canvas.height = image.height; + + const context = _canvas.getContext( '2d' ); + + if ( image instanceof ImageData ) { + + context.putImageData( image, 0, 0 ); + + } else { + + context.drawImage( image, 0, 0, image.width, image.height ); + + } + + canvas = _canvas; + + } + + if ( canvas.width > 2048 || canvas.height > 2048 ) { + + console.warn( 'THREE.ImageUtils.getDataURL: Image converted to jpg for performance reasons', image ); + + return canvas.toDataURL( 'image/jpeg', 0.6 ); + + } else { + + return canvas.toDataURL( 'image/png' ); + + } + + } + + static sRGBToLinear( image ) { + + if ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) || + ( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) || + ( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) ) { + + const canvas = createElementNS( 'canvas' ); + + canvas.width = image.width; + canvas.height = image.height; + + const context = canvas.getContext( '2d' ); + context.drawImage( image, 0, 0, image.width, image.height ); + + const imageData = context.getImageData( 0, 0, image.width, image.height ); + const data = imageData.data; + + for ( let i = 0; i < data.length; i ++ ) { + + data[ i ] = SRGBToLinear( data[ i ] / 255 ) * 255; + + } + + context.putImageData( imageData, 0, 0 ); + + return canvas; + + } else if ( image.data ) { + + const data = image.data.slice( 0 ); + + for ( let i = 0; i < data.length; i ++ ) { + + if ( data instanceof Uint8Array || data instanceof Uint8ClampedArray ) { + + data[ i ] = Math.floor( SRGBToLinear( data[ i ] / 255 ) * 255 ); + + } else { + + // assuming float + + data[ i ] = SRGBToLinear( data[ i ] ); + + } + + } + + return { + data: data, + width: image.width, + height: image.height + }; + + } else { + + console.warn( 'THREE.ImageUtils.sRGBToLinear(): Unsupported image type. No color space conversion applied.' ); + return image; + + } + + } + +} + +let _sourceId = 0; + +class Source { + + constructor( data = null ) { + + this.isSource = true; + + Object.defineProperty( this, 'id', { value: _sourceId ++ } ); + + this.uuid = generateUUID(); + + this.data = data; + this.dataReady = true; + + this.version = 0; + + } + + set needsUpdate( value ) { + + if ( value === true ) this.version ++; + + } + + toJSON( meta ) { + + const isRootObject = ( meta === undefined || typeof meta === 'string' ); + + if ( ! isRootObject && meta.images[ this.uuid ] !== undefined ) { + + return meta.images[ this.uuid ]; + + } + + const output = { + uuid: this.uuid, + url: '' + }; + + const data = this.data; + + if ( data !== null ) { + + let url; + + if ( Array.isArray( data ) ) { + + // cube texture + + url = []; + + for ( let i = 0, l = data.length; i < l; i ++ ) { + + if ( data[ i ].isDataTexture ) { + + url.push( serializeImage( data[ i ].image ) ); + + } else { + + url.push( serializeImage( data[ i ] ) ); + + } + + } + + } else { + + // texture + + url = serializeImage( data ); + + } + + output.url = url; + + } + + if ( ! isRootObject ) { + + meta.images[ this.uuid ] = output; + + } + + return output; + + } + +} + +function serializeImage( image ) { + + if ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) || + ( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) || + ( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) ) { + + // default images + + return ImageUtils.getDataURL( image ); + + } else { + + if ( image.data ) { + + // images of DataTexture + + return { + data: Array.from( image.data ), + width: image.width, + height: image.height, + type: image.data.constructor.name + }; + + } else { + + console.warn( 'THREE.Texture: Unable to serialize Texture.' ); + return {}; + + } + + } + +} + +let _textureId = 0; + +class Texture extends EventDispatcher { + + constructor( image = Texture.DEFAULT_IMAGE, mapping = Texture.DEFAULT_MAPPING, wrapS = ClampToEdgeWrapping, wrapT = ClampToEdgeWrapping, magFilter = LinearFilter, minFilter = LinearMipmapLinearFilter, format = RGBAFormat, type = UnsignedByteType, anisotropy = Texture.DEFAULT_ANISOTROPY, colorSpace = NoColorSpace ) { + + super(); + + this.isTexture = true; + + Object.defineProperty( this, 'id', { value: _textureId ++ } ); + + this.uuid = generateUUID(); + + this.name = ''; + + this.source = new Source( image ); + this.mipmaps = []; + + this.mapping = mapping; + this.channel = 0; + + this.wrapS = wrapS; + this.wrapT = wrapT; + + this.magFilter = magFilter; + this.minFilter = minFilter; + + this.anisotropy = anisotropy; + + this.format = format; + this.internalFormat = null; + this.type = type; + + this.offset = new Vector2( 0, 0 ); + this.repeat = new Vector2( 1, 1 ); + this.center = new Vector2( 0, 0 ); + this.rotation = 0; + + this.matrixAutoUpdate = true; + this.matrix = new Matrix3(); + + this.generateMipmaps = true; + this.premultiplyAlpha = false; + this.flipY = true; + this.unpackAlignment = 4; // valid values: 1, 2, 4, 8 (see http://www.khronos.org/opengles/sdk/docs/man/xhtml/glPixelStorei.xml) + + this.colorSpace = colorSpace; + + this.userData = {}; + + this.version = 0; + this.onUpdate = null; + + this.isRenderTargetTexture = false; // indicates whether a texture belongs to a render target or not + this.pmremVersion = 0; // indicates whether this texture should be processed by PMREMGenerator or not (only relevant for render target textures) + + } + + get image() { + + return this.source.data; + + } + + set image( value = null ) { + + this.source.data = value; + + } + + updateMatrix() { + + this.matrix.setUvTransform( this.offset.x, this.offset.y, this.repeat.x, this.repeat.y, this.rotation, this.center.x, this.center.y ); + + } + + clone() { + + return new this.constructor().copy( this ); + + } + + copy( source ) { + + this.name = source.name; + + this.source = source.source; + this.mipmaps = source.mipmaps.slice( 0 ); + + this.mapping = source.mapping; + this.channel = source.channel; + + this.wrapS = source.wrapS; + this.wrapT = source.wrapT; + + this.magFilter = source.magFilter; + this.minFilter = source.minFilter; + + this.anisotropy = source.anisotropy; + + this.format = source.format; + this.internalFormat = source.internalFormat; + this.type = source.type; + + this.offset.copy( source.offset ); + this.repeat.copy( source.repeat ); + this.center.copy( source.center ); + this.rotation = source.rotation; + + this.matrixAutoUpdate = source.matrixAutoUpdate; + this.matrix.copy( source.matrix ); + + this.generateMipmaps = source.generateMipmaps; + this.premultiplyAlpha = source.premultiplyAlpha; + this.flipY = source.flipY; + this.unpackAlignment = source.unpackAlignment; + this.colorSpace = source.colorSpace; + + this.userData = JSON.parse( JSON.stringify( source.userData ) ); + + this.needsUpdate = true; + + return this; + + } + + toJSON( meta ) { + + const isRootObject = ( meta === undefined || typeof meta === 'string' ); + + if ( ! isRootObject && meta.textures[ this.uuid ] !== undefined ) { + + return meta.textures[ this.uuid ]; + + } + + const output = { + + metadata: { + version: 4.6, + type: 'Texture', + generator: 'Texture.toJSON' + }, + + uuid: this.uuid, + name: this.name, + + image: this.source.toJSON( meta ).uuid, + + mapping: this.mapping, + channel: this.channel, + + repeat: [ this.repeat.x, this.repeat.y ], + offset: [ this.offset.x, this.offset.y ], + center: [ this.center.x, this.center.y ], + rotation: this.rotation, + + wrap: [ this.wrapS, this.wrapT ], + + format: this.format, + internalFormat: this.internalFormat, + type: this.type, + colorSpace: this.colorSpace, + + minFilter: this.minFilter, + magFilter: this.magFilter, + anisotropy: this.anisotropy, + + flipY: this.flipY, + + generateMipmaps: this.generateMipmaps, + premultiplyAlpha: this.premultiplyAlpha, + unpackAlignment: this.unpackAlignment + + }; + + if ( Object.keys( this.userData ).length > 0 ) output.userData = this.userData; + + if ( ! isRootObject ) { + + meta.textures[ this.uuid ] = output; + + } + + return output; + + } + + dispose() { + + this.dispatchEvent( { type: 'dispose' } ); + + } + + transformUv( uv ) { + + if ( this.mapping !== UVMapping ) return uv; + + uv.applyMatrix3( this.matrix ); + + if ( uv.x < 0 || uv.x > 1 ) { + + switch ( this.wrapS ) { + + case RepeatWrapping: + + uv.x = uv.x - Math.floor( uv.x ); + break; + + case ClampToEdgeWrapping: + + uv.x = uv.x < 0 ? 0 : 1; + break; + + case MirroredRepeatWrapping: + + if ( Math.abs( Math.floor( uv.x ) % 2 ) === 1 ) { + + uv.x = Math.ceil( uv.x ) - uv.x; + + } else { + + uv.x = uv.x - Math.floor( uv.x ); + + } + + break; + + } + + } + + if ( uv.y < 0 || uv.y > 1 ) { + + switch ( this.wrapT ) { + + case RepeatWrapping: + + uv.y = uv.y - Math.floor( uv.y ); + break; + + case ClampToEdgeWrapping: + + uv.y = uv.y < 0 ? 0 : 1; + break; + + case MirroredRepeatWrapping: + + if ( Math.abs( Math.floor( uv.y ) % 2 ) === 1 ) { + + uv.y = Math.ceil( uv.y ) - uv.y; + + } else { + + uv.y = uv.y - Math.floor( uv.y ); + + } + + break; + + } + + } + + if ( this.flipY ) { + + uv.y = 1 - uv.y; + + } + + return uv; + + } + + set needsUpdate( value ) { + + if ( value === true ) { + + this.version ++; + this.source.needsUpdate = true; + + } + + } + + set needsPMREMUpdate( value ) { + + if ( value === true ) { + + this.pmremVersion ++; + + } + + } + +} + +Texture.DEFAULT_IMAGE = null; +Texture.DEFAULT_MAPPING = UVMapping; +Texture.DEFAULT_ANISOTROPY = 1; + +class Vector4 { + + constructor( x = 0, y = 0, z = 0, w = 1 ) { + + Vector4.prototype.isVector4 = true; + + this.x = x; + this.y = y; + this.z = z; + this.w = w; + + } + + get width() { + + return this.z; + + } + + set width( value ) { + + this.z = value; + + } + + get height() { + + return this.w; + + } + + set height( value ) { + + this.w = value; + + } + + set( x, y, z, w ) { + + this.x = x; + this.y = y; + this.z = z; + this.w = w; + + return this; + + } + + setScalar( scalar ) { + + this.x = scalar; + this.y = scalar; + this.z = scalar; + this.w = scalar; + + return this; + + } + + setX( x ) { + + this.x = x; + + return this; + + } + + setY( y ) { + + this.y = y; + + return this; + + } + + setZ( z ) { + + this.z = z; + + return this; + + } + + setW( w ) { + + this.w = w; + + return this; + + } + + setComponent( index, value ) { + + switch ( index ) { + + case 0: this.x = value; break; + case 1: this.y = value; break; + case 2: this.z = value; break; + case 3: this.w = value; break; + default: throw new Error( 'index is out of range: ' + index ); + + } + + return this; + + } + + getComponent( index ) { + + switch ( index ) { + + case 0: return this.x; + case 1: return this.y; + case 2: return this.z; + case 3: return this.w; + default: throw new Error( 'index is out of range: ' + index ); + + } + + } + + clone() { + + return new this.constructor( this.x, this.y, this.z, this.w ); + + } + + copy( v ) { + + this.x = v.x; + this.y = v.y; + this.z = v.z; + this.w = ( v.w !== undefined ) ? v.w : 1; + + return this; + + } + + add( v ) { + + this.x += v.x; + this.y += v.y; + this.z += v.z; + this.w += v.w; + + return this; + + } + + addScalar( s ) { + + this.x += s; + this.y += s; + this.z += s; + this.w += s; + + return this; + + } + + addVectors( a, b ) { + + this.x = a.x + b.x; + this.y = a.y + b.y; + this.z = a.z + b.z; + this.w = a.w + b.w; + + return this; + + } + + addScaledVector( v, s ) { + + this.x += v.x * s; + this.y += v.y * s; + this.z += v.z * s; + this.w += v.w * s; + + return this; + + } + + sub( v ) { + + this.x -= v.x; + this.y -= v.y; + this.z -= v.z; + this.w -= v.w; + + return this; + + } + + subScalar( s ) { + + this.x -= s; + this.y -= s; + this.z -= s; + this.w -= s; + + return this; + + } + + subVectors( a, b ) { + + this.x = a.x - b.x; + this.y = a.y - b.y; + this.z = a.z - b.z; + this.w = a.w - b.w; + + return this; + + } + + multiply( v ) { + + this.x *= v.x; + this.y *= v.y; + this.z *= v.z; + this.w *= v.w; + + return this; + + } + + multiplyScalar( scalar ) { + + this.x *= scalar; + this.y *= scalar; + this.z *= scalar; + this.w *= scalar; + + return this; + + } + + applyMatrix4( m ) { + + const x = this.x, y = this.y, z = this.z, w = this.w; + const e = m.elements; + + this.x = e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z + e[ 12 ] * w; + this.y = e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z + e[ 13 ] * w; + this.z = e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z + e[ 14 ] * w; + this.w = e[ 3 ] * x + e[ 7 ] * y + e[ 11 ] * z + e[ 15 ] * w; + + return this; + + } + + divideScalar( scalar ) { + + return this.multiplyScalar( 1 / scalar ); + + } + + setAxisAngleFromQuaternion( q ) { + + // http://www.euclideanspace.com/maths/geometry/rotations/conversions/quaternionToAngle/index.htm + + // q is assumed to be normalized + + this.w = 2 * Math.acos( q.w ); + + const s = Math.sqrt( 1 - q.w * q.w ); + + if ( s < 0.0001 ) { + + this.x = 1; + this.y = 0; + this.z = 0; + + } else { + + this.x = q.x / s; + this.y = q.y / s; + this.z = q.z / s; + + } + + return this; + + } + + setAxisAngleFromRotationMatrix( m ) { + + // http://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToAngle/index.htm + + // assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled) + + let angle, x, y, z; // variables for result + const epsilon = 0.01, // margin to allow for rounding errors + epsilon2 = 0.1, // margin to distinguish between 0 and 180 degrees + + te = m.elements, + + m11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ], + m21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ], + m31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ]; + + if ( ( Math.abs( m12 - m21 ) < epsilon ) && + ( Math.abs( m13 - m31 ) < epsilon ) && + ( Math.abs( m23 - m32 ) < epsilon ) ) { + + // singularity found + // first check for identity matrix which must have +1 for all terms + // in leading diagonal and zero in other terms + + if ( ( Math.abs( m12 + m21 ) < epsilon2 ) && + ( Math.abs( m13 + m31 ) < epsilon2 ) && + ( Math.abs( m23 + m32 ) < epsilon2 ) && + ( Math.abs( m11 + m22 + m33 - 3 ) < epsilon2 ) ) { + + // this singularity is identity matrix so angle = 0 + + this.set( 1, 0, 0, 0 ); + + return this; // zero angle, arbitrary axis + + } + + // otherwise this singularity is angle = 180 + + angle = Math.PI; + + const xx = ( m11 + 1 ) / 2; + const yy = ( m22 + 1 ) / 2; + const zz = ( m33 + 1 ) / 2; + const xy = ( m12 + m21 ) / 4; + const xz = ( m13 + m31 ) / 4; + const yz = ( m23 + m32 ) / 4; + + if ( ( xx > yy ) && ( xx > zz ) ) { + + // m11 is the largest diagonal term + + if ( xx < epsilon ) { + + x = 0; + y = 0.707106781; + z = 0.707106781; + + } else { + + x = Math.sqrt( xx ); + y = xy / x; + z = xz / x; + + } + + } else if ( yy > zz ) { + + // m22 is the largest diagonal term + + if ( yy < epsilon ) { + + x = 0.707106781; + y = 0; + z = 0.707106781; + + } else { + + y = Math.sqrt( yy ); + x = xy / y; + z = yz / y; + + } + + } else { + + // m33 is the largest diagonal term so base result on this + + if ( zz < epsilon ) { + + x = 0.707106781; + y = 0.707106781; + z = 0; + + } else { + + z = Math.sqrt( zz ); + x = xz / z; + y = yz / z; + + } + + } + + this.set( x, y, z, angle ); + + return this; // return 180 deg rotation + + } + + // as we have reached here there are no singularities so we can handle normally + + let s = Math.sqrt( ( m32 - m23 ) * ( m32 - m23 ) + + ( m13 - m31 ) * ( m13 - m31 ) + + ( m21 - m12 ) * ( m21 - m12 ) ); // used to normalize + + if ( Math.abs( s ) < 0.001 ) s = 1; + + // prevent divide by zero, should not happen if matrix is orthogonal and should be + // caught by singularity test above, but I've left it in just in case + + this.x = ( m32 - m23 ) / s; + this.y = ( m13 - m31 ) / s; + this.z = ( m21 - m12 ) / s; + this.w = Math.acos( ( m11 + m22 + m33 - 1 ) / 2 ); + + return this; + + } + + setFromMatrixPosition( m ) { + + const e = m.elements; + + this.x = e[ 12 ]; + this.y = e[ 13 ]; + this.z = e[ 14 ]; + this.w = e[ 15 ]; + + return this; + + } + + min( v ) { + + this.x = Math.min( this.x, v.x ); + this.y = Math.min( this.y, v.y ); + this.z = Math.min( this.z, v.z ); + this.w = Math.min( this.w, v.w ); + + return this; + + } + + max( v ) { + + this.x = Math.max( this.x, v.x ); + this.y = Math.max( this.y, v.y ); + this.z = Math.max( this.z, v.z ); + this.w = Math.max( this.w, v.w ); + + return this; + + } + + clamp( min, max ) { + + // assumes min < max, componentwise + + this.x = Math.max( min.x, Math.min( max.x, this.x ) ); + this.y = Math.max( min.y, Math.min( max.y, this.y ) ); + this.z = Math.max( min.z, Math.min( max.z, this.z ) ); + this.w = Math.max( min.w, Math.min( max.w, this.w ) ); + + return this; + + } + + clampScalar( minVal, maxVal ) { + + this.x = Math.max( minVal, Math.min( maxVal, this.x ) ); + this.y = Math.max( minVal, Math.min( maxVal, this.y ) ); + this.z = Math.max( minVal, Math.min( maxVal, this.z ) ); + this.w = Math.max( minVal, Math.min( maxVal, this.w ) ); + + return this; + + } + + clampLength( min, max ) { + + const length = this.length(); + + return this.divideScalar( length || 1 ).multiplyScalar( Math.max( min, Math.min( max, length ) ) ); + + } + + floor() { + + this.x = Math.floor( this.x ); + this.y = Math.floor( this.y ); + this.z = Math.floor( this.z ); + this.w = Math.floor( this.w ); + + return this; + + } + + ceil() { + + this.x = Math.ceil( this.x ); + this.y = Math.ceil( this.y ); + this.z = Math.ceil( this.z ); + this.w = Math.ceil( this.w ); + + return this; + + } + + round() { + + this.x = Math.round( this.x ); + this.y = Math.round( this.y ); + this.z = Math.round( this.z ); + this.w = Math.round( this.w ); + + return this; + + } + + roundToZero() { + + this.x = Math.trunc( this.x ); + this.y = Math.trunc( this.y ); + this.z = Math.trunc( this.z ); + this.w = Math.trunc( this.w ); + + return this; + + } + + negate() { + + this.x = - this.x; + this.y = - this.y; + this.z = - this.z; + this.w = - this.w; + + return this; + + } + + dot( v ) { + + return this.x * v.x + this.y * v.y + this.z * v.z + this.w * v.w; + + } + + lengthSq() { + + return this.x * this.x + this.y * this.y + this.z * this.z + this.w * this.w; + + } + + length() { + + return Math.sqrt( this.x * this.x + this.y * this.y + this.z * this.z + this.w * this.w ); + + } + + manhattanLength() { + + return Math.abs( this.x ) + Math.abs( this.y ) + Math.abs( this.z ) + Math.abs( this.w ); + + } + + normalize() { + + return this.divideScalar( this.length() || 1 ); + + } + + setLength( length ) { + + return this.normalize().multiplyScalar( length ); + + } + + lerp( v, alpha ) { + + this.x += ( v.x - this.x ) * alpha; + this.y += ( v.y - this.y ) * alpha; + this.z += ( v.z - this.z ) * alpha; + this.w += ( v.w - this.w ) * alpha; + + return this; + + } + + lerpVectors( v1, v2, alpha ) { + + this.x = v1.x + ( v2.x - v1.x ) * alpha; + this.y = v1.y + ( v2.y - v1.y ) * alpha; + this.z = v1.z + ( v2.z - v1.z ) * alpha; + this.w = v1.w + ( v2.w - v1.w ) * alpha; + + return this; + + } + + equals( v ) { + + return ( ( v.x === this.x ) && ( v.y === this.y ) && ( v.z === this.z ) && ( v.w === this.w ) ); + + } + + fromArray( array, offset = 0 ) { + + this.x = array[ offset ]; + this.y = array[ offset + 1 ]; + this.z = array[ offset + 2 ]; + this.w = array[ offset + 3 ]; + + return this; + + } + + toArray( array = [], offset = 0 ) { + + array[ offset ] = this.x; + array[ offset + 1 ] = this.y; + array[ offset + 2 ] = this.z; + array[ offset + 3 ] = this.w; + + return array; + + } + + fromBufferAttribute( attribute, index ) { + + this.x = attribute.getX( index ); + this.y = attribute.getY( index ); + this.z = attribute.getZ( index ); + this.w = attribute.getW( index ); + + return this; + + } + + random() { + + this.x = Math.random(); + this.y = Math.random(); + this.z = Math.random(); + this.w = Math.random(); + + return this; + + } + + *[ Symbol.iterator ]() { + + yield this.x; + yield this.y; + yield this.z; + yield this.w; + + } + +} + +/* + In options, we can specify: + * Texture parameters for an auto-generated target texture + * depthBuffer/stencilBuffer: Booleans to indicate if we should generate these buffers +*/ +class RenderTarget extends EventDispatcher { + + constructor( width = 1, height = 1, options = {} ) { + + super(); + + this.isRenderTarget = true; + + this.width = width; + this.height = height; + this.depth = 1; + + this.scissor = new Vector4( 0, 0, width, height ); + this.scissorTest = false; + + this.viewport = new Vector4( 0, 0, width, height ); + + const image = { width: width, height: height, depth: 1 }; + + options = Object.assign( { + generateMipmaps: false, + internalFormat: null, + minFilter: LinearFilter, + depthBuffer: true, + stencilBuffer: false, + resolveDepthBuffer: true, + resolveStencilBuffer: true, + depthTexture: null, + samples: 0, + count: 1 + }, options ); + + const texture = new Texture( image, options.mapping, options.wrapS, options.wrapT, options.magFilter, options.minFilter, options.format, options.type, options.anisotropy, options.colorSpace ); + + texture.flipY = false; + texture.generateMipmaps = options.generateMipmaps; + texture.internalFormat = options.internalFormat; + + this.textures = []; + + const count = options.count; + for ( let i = 0; i < count; i ++ ) { + + this.textures[ i ] = texture.clone(); + this.textures[ i ].isRenderTargetTexture = true; + + } + + this.depthBuffer = options.depthBuffer; + this.stencilBuffer = options.stencilBuffer; + + this.resolveDepthBuffer = options.resolveDepthBuffer; + this.resolveStencilBuffer = options.resolveStencilBuffer; + + this.depthTexture = options.depthTexture; + + this.samples = options.samples; + + } + + get texture() { + + return this.textures[ 0 ]; + + } + + set texture( value ) { + + this.textures[ 0 ] = value; + + } + + setSize( width, height, depth = 1 ) { + + if ( this.width !== width || this.height !== height || this.depth !== depth ) { + + this.width = width; + this.height = height; + this.depth = depth; + + for ( let i = 0, il = this.textures.length; i < il; i ++ ) { + + this.textures[ i ].image.width = width; + this.textures[ i ].image.height = height; + this.textures[ i ].image.depth = depth; + + } + + this.dispose(); + + } + + this.viewport.set( 0, 0, width, height ); + this.scissor.set( 0, 0, width, height ); + + } + + clone() { + + return new this.constructor().copy( this ); + + } + + copy( source ) { + + this.width = source.width; + this.height = source.height; + this.depth = source.depth; + + this.scissor.copy( source.scissor ); + this.scissorTest = source.scissorTest; + + this.viewport.copy( source.viewport ); + + this.textures.length = 0; + + for ( let i = 0, il = source.textures.length; i < il; i ++ ) { + + this.textures[ i ] = source.textures[ i ].clone(); + this.textures[ i ].isRenderTargetTexture = true; + + } + + // ensure image object is not shared, see #20328 + + const image = Object.assign( {}, source.texture.image ); + this.texture.source = new Source( image ); + + this.depthBuffer = source.depthBuffer; + this.stencilBuffer = source.stencilBuffer; + + this.resolveDepthBuffer = source.resolveDepthBuffer; + this.resolveStencilBuffer = source.resolveStencilBuffer; + + if ( source.depthTexture !== null ) this.depthTexture = source.depthTexture.clone(); + + this.samples = source.samples; + + return this; + + } + + dispose() { + + this.dispatchEvent( { type: 'dispose' } ); + + } + +} + +class WebGLRenderTarget extends RenderTarget { + + constructor( width = 1, height = 1, options = {} ) { + + super( width, height, options ); + + this.isWebGLRenderTarget = true; + + } + +} + +class DataArrayTexture extends Texture { + + constructor( data = null, width = 1, height = 1, depth = 1 ) { + + super( null ); + + this.isDataArrayTexture = true; + + this.image = { data, width, height, depth }; + + this.magFilter = NearestFilter; + this.minFilter = NearestFilter; + + this.wrapR = ClampToEdgeWrapping; + + this.generateMipmaps = false; + this.flipY = false; + this.unpackAlignment = 1; + + this.layerUpdates = new Set(); + + } + + addLayerUpdate( layerIndex ) { + + this.layerUpdates.add( layerIndex ); + + } + + clearLayerUpdates() { + + this.layerUpdates.clear(); + + } + +} + +class WebGLArrayRenderTarget extends WebGLRenderTarget { + + constructor( width = 1, height = 1, depth = 1, options = {} ) { + + super( width, height, options ); + + this.isWebGLArrayRenderTarget = true; + + this.depth = depth; + + this.texture = new DataArrayTexture( null, width, height, depth ); + + this.texture.isRenderTargetTexture = true; + + } + +} + +class Data3DTexture extends Texture { + + constructor( data = null, width = 1, height = 1, depth = 1 ) { + + // We're going to add .setXXX() methods for setting properties later. + // Users can still set in DataTexture3D directly. + // + // const texture = new THREE.DataTexture3D( data, width, height, depth ); + // texture.anisotropy = 16; + // + // See #14839 + + super( null ); + + this.isData3DTexture = true; + + this.image = { data, width, height, depth }; + + this.magFilter = NearestFilter; + this.minFilter = NearestFilter; + + this.wrapR = ClampToEdgeWrapping; + + this.generateMipmaps = false; + this.flipY = false; + this.unpackAlignment = 1; + + } + +} + +class WebGL3DRenderTarget extends WebGLRenderTarget { + + constructor( width = 1, height = 1, depth = 1, options = {} ) { + + super( width, height, options ); + + this.isWebGL3DRenderTarget = true; + + this.depth = depth; + + this.texture = new Data3DTexture( null, width, height, depth ); + + this.texture.isRenderTargetTexture = true; + + } + +} + +class Quaternion { + + constructor( x = 0, y = 0, z = 0, w = 1 ) { + + this.isQuaternion = true; + + this._x = x; + this._y = y; + this._z = z; + this._w = w; + + } + + static slerpFlat( dst, dstOffset, src0, srcOffset0, src1, srcOffset1, t ) { + + // fuzz-free, array-based Quaternion SLERP operation + + let x0 = src0[ srcOffset0 + 0 ], + y0 = src0[ srcOffset0 + 1 ], + z0 = src0[ srcOffset0 + 2 ], + w0 = src0[ srcOffset0 + 3 ]; + + const x1 = src1[ srcOffset1 + 0 ], + y1 = src1[ srcOffset1 + 1 ], + z1 = src1[ srcOffset1 + 2 ], + w1 = src1[ srcOffset1 + 3 ]; + + if ( t === 0 ) { + + dst[ dstOffset + 0 ] = x0; + dst[ dstOffset + 1 ] = y0; + dst[ dstOffset + 2 ] = z0; + dst[ dstOffset + 3 ] = w0; + return; + + } + + if ( t === 1 ) { + + dst[ dstOffset + 0 ] = x1; + dst[ dstOffset + 1 ] = y1; + dst[ dstOffset + 2 ] = z1; + dst[ dstOffset + 3 ] = w1; + return; + + } + + if ( w0 !== w1 || x0 !== x1 || y0 !== y1 || z0 !== z1 ) { + + let s = 1 - t; + const cos = x0 * x1 + y0 * y1 + z0 * z1 + w0 * w1, + dir = ( cos >= 0 ? 1 : - 1 ), + sqrSin = 1 - cos * cos; + + // Skip the Slerp for tiny steps to avoid numeric problems: + if ( sqrSin > Number.EPSILON ) { + + const sin = Math.sqrt( sqrSin ), + len = Math.atan2( sin, cos * dir ); + + s = Math.sin( s * len ) / sin; + t = Math.sin( t * len ) / sin; + + } + + const tDir = t * dir; + + x0 = x0 * s + x1 * tDir; + y0 = y0 * s + y1 * tDir; + z0 = z0 * s + z1 * tDir; + w0 = w0 * s + w1 * tDir; + + // Normalize in case we just did a lerp: + if ( s === 1 - t ) { + + const f = 1 / Math.sqrt( x0 * x0 + y0 * y0 + z0 * z0 + w0 * w0 ); + + x0 *= f; + y0 *= f; + z0 *= f; + w0 *= f; + + } + + } + + dst[ dstOffset ] = x0; + dst[ dstOffset + 1 ] = y0; + dst[ dstOffset + 2 ] = z0; + dst[ dstOffset + 3 ] = w0; + + } + + static multiplyQuaternionsFlat( dst, dstOffset, src0, srcOffset0, src1, srcOffset1 ) { + + const x0 = src0[ srcOffset0 ]; + const y0 = src0[ srcOffset0 + 1 ]; + const z0 = src0[ srcOffset0 + 2 ]; + const w0 = src0[ srcOffset0 + 3 ]; + + const x1 = src1[ srcOffset1 ]; + const y1 = src1[ srcOffset1 + 1 ]; + const z1 = src1[ srcOffset1 + 2 ]; + const w1 = src1[ srcOffset1 + 3 ]; + + dst[ dstOffset ] = x0 * w1 + w0 * x1 + y0 * z1 - z0 * y1; + dst[ dstOffset + 1 ] = y0 * w1 + w0 * y1 + z0 * x1 - x0 * z1; + dst[ dstOffset + 2 ] = z0 * w1 + w0 * z1 + x0 * y1 - y0 * x1; + dst[ dstOffset + 3 ] = w0 * w1 - x0 * x1 - y0 * y1 - z0 * z1; + + return dst; + + } + + get x() { + + return this._x; + + } + + set x( value ) { + + this._x = value; + this._onChangeCallback(); + + } + + get y() { + + return this._y; + + } + + set y( value ) { + + this._y = value; + this._onChangeCallback(); + + } + + get z() { + + return this._z; + + } + + set z( value ) { + + this._z = value; + this._onChangeCallback(); + + } + + get w() { + + return this._w; + + } + + set w( value ) { + + this._w = value; + this._onChangeCallback(); + + } + + set( x, y, z, w ) { + + this._x = x; + this._y = y; + this._z = z; + this._w = w; + + this._onChangeCallback(); + + return this; + + } + + clone() { + + return new this.constructor( this._x, this._y, this._z, this._w ); + + } + + copy( quaternion ) { + + this._x = quaternion.x; + this._y = quaternion.y; + this._z = quaternion.z; + this._w = quaternion.w; + + this._onChangeCallback(); + + return this; + + } + + setFromEuler( euler, update = true ) { + + const x = euler._x, y = euler._y, z = euler._z, order = euler._order; + + // http://www.mathworks.com/matlabcentral/fileexchange/ + // 20696-function-to-convert-between-dcm-euler-angles-quaternions-and-euler-vectors/ + // content/SpinCalc.m + + const cos = Math.cos; + const sin = Math.sin; + + const c1 = cos( x / 2 ); + const c2 = cos( y / 2 ); + const c3 = cos( z / 2 ); + + const s1 = sin( x / 2 ); + const s2 = sin( y / 2 ); + const s3 = sin( z / 2 ); + + switch ( order ) { + + case 'XYZ': + this._x = s1 * c2 * c3 + c1 * s2 * s3; + this._y = c1 * s2 * c3 - s1 * c2 * s3; + this._z = c1 * c2 * s3 + s1 * s2 * c3; + this._w = c1 * c2 * c3 - s1 * s2 * s3; + break; + + case 'YXZ': + this._x = s1 * c2 * c3 + c1 * s2 * s3; + this._y = c1 * s2 * c3 - s1 * c2 * s3; + this._z = c1 * c2 * s3 - s1 * s2 * c3; + this._w = c1 * c2 * c3 + s1 * s2 * s3; + break; + + case 'ZXY': + this._x = s1 * c2 * c3 - c1 * s2 * s3; + this._y = c1 * s2 * c3 + s1 * c2 * s3; + this._z = c1 * c2 * s3 + s1 * s2 * c3; + this._w = c1 * c2 * c3 - s1 * s2 * s3; + break; + + case 'ZYX': + this._x = s1 * c2 * c3 - c1 * s2 * s3; + this._y = c1 * s2 * c3 + s1 * c2 * s3; + this._z = c1 * c2 * s3 - s1 * s2 * c3; + this._w = c1 * c2 * c3 + s1 * s2 * s3; + break; + + case 'YZX': + this._x = s1 * c2 * c3 + c1 * s2 * s3; + this._y = c1 * s2 * c3 + s1 * c2 * s3; + this._z = c1 * c2 * s3 - s1 * s2 * c3; + this._w = c1 * c2 * c3 - s1 * s2 * s3; + break; + + case 'XZY': + this._x = s1 * c2 * c3 - c1 * s2 * s3; + this._y = c1 * s2 * c3 - s1 * c2 * s3; + this._z = c1 * c2 * s3 + s1 * s2 * c3; + this._w = c1 * c2 * c3 + s1 * s2 * s3; + break; + + default: + console.warn( 'THREE.Quaternion: .setFromEuler() encountered an unknown order: ' + order ); + + } + + if ( update === true ) this._onChangeCallback(); + + return this; + + } + + setFromAxisAngle( axis, angle ) { + + // http://www.euclideanspace.com/maths/geometry/rotations/conversions/angleToQuaternion/index.htm + + // assumes axis is normalized + + const halfAngle = angle / 2, s = Math.sin( halfAngle ); + + this._x = axis.x * s; + this._y = axis.y * s; + this._z = axis.z * s; + this._w = Math.cos( halfAngle ); + + this._onChangeCallback(); + + return this; + + } + + setFromRotationMatrix( m ) { + + // http://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToQuaternion/index.htm + + // assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled) + + const te = m.elements, + + m11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ], + m21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ], + m31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ], + + trace = m11 + m22 + m33; + + if ( trace > 0 ) { + + const s = 0.5 / Math.sqrt( trace + 1.0 ); + + this._w = 0.25 / s; + this._x = ( m32 - m23 ) * s; + this._y = ( m13 - m31 ) * s; + this._z = ( m21 - m12 ) * s; + + } else if ( m11 > m22 && m11 > m33 ) { + + const s = 2.0 * Math.sqrt( 1.0 + m11 - m22 - m33 ); + + this._w = ( m32 - m23 ) / s; + this._x = 0.25 * s; + this._y = ( m12 + m21 ) / s; + this._z = ( m13 + m31 ) / s; + + } else if ( m22 > m33 ) { + + const s = 2.0 * Math.sqrt( 1.0 + m22 - m11 - m33 ); + + this._w = ( m13 - m31 ) / s; + this._x = ( m12 + m21 ) / s; + this._y = 0.25 * s; + this._z = ( m23 + m32 ) / s; + + } else { + + const s = 2.0 * Math.sqrt( 1.0 + m33 - m11 - m22 ); + + this._w = ( m21 - m12 ) / s; + this._x = ( m13 + m31 ) / s; + this._y = ( m23 + m32 ) / s; + this._z = 0.25 * s; + + } + + this._onChangeCallback(); + + return this; + + } + + setFromUnitVectors( vFrom, vTo ) { + + // assumes direction vectors vFrom and vTo are normalized + + let r = vFrom.dot( vTo ) + 1; + + if ( r < Number.EPSILON ) { + + // vFrom and vTo point in opposite directions + + r = 0; + + if ( Math.abs( vFrom.x ) > Math.abs( vFrom.z ) ) { + + this._x = - vFrom.y; + this._y = vFrom.x; + this._z = 0; + this._w = r; + + } else { + + this._x = 0; + this._y = - vFrom.z; + this._z = vFrom.y; + this._w = r; + + } + + } else { + + // crossVectors( vFrom, vTo ); // inlined to avoid cyclic dependency on Vector3 + + this._x = vFrom.y * vTo.z - vFrom.z * vTo.y; + this._y = vFrom.z * vTo.x - vFrom.x * vTo.z; + this._z = vFrom.x * vTo.y - vFrom.y * vTo.x; + this._w = r; + + } + + return this.normalize(); + + } + + angleTo( q ) { + + return 2 * Math.acos( Math.abs( clamp$1( this.dot( q ), - 1, 1 ) ) ); + + } + + rotateTowards( q, step ) { + + const angle = this.angleTo( q ); + + if ( angle === 0 ) return this; + + const t = Math.min( 1, step / angle ); + + this.slerp( q, t ); + + return this; + + } + + identity() { + + return this.set( 0, 0, 0, 1 ); + + } + + invert() { + + // quaternion is assumed to have unit length + + return this.conjugate(); + + } + + conjugate() { + + this._x *= - 1; + this._y *= - 1; + this._z *= - 1; + + this._onChangeCallback(); + + return this; + + } + + dot( v ) { + + return this._x * v._x + this._y * v._y + this._z * v._z + this._w * v._w; + + } + + lengthSq() { + + return this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w; + + } + + length() { + + return Math.sqrt( this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w ); + + } + + normalize() { + + let l = this.length(); + + if ( l === 0 ) { + + this._x = 0; + this._y = 0; + this._z = 0; + this._w = 1; + + } else { + + l = 1 / l; + + this._x = this._x * l; + this._y = this._y * l; + this._z = this._z * l; + this._w = this._w * l; + + } + + this._onChangeCallback(); + + return this; + + } + + multiply( q ) { + + return this.multiplyQuaternions( this, q ); + + } + + premultiply( q ) { + + return this.multiplyQuaternions( q, this ); + + } + + multiplyQuaternions( a, b ) { + + // from http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/code/index.htm + + const qax = a._x, qay = a._y, qaz = a._z, qaw = a._w; + const qbx = b._x, qby = b._y, qbz = b._z, qbw = b._w; + + this._x = qax * qbw + qaw * qbx + qay * qbz - qaz * qby; + this._y = qay * qbw + qaw * qby + qaz * qbx - qax * qbz; + this._z = qaz * qbw + qaw * qbz + qax * qby - qay * qbx; + this._w = qaw * qbw - qax * qbx - qay * qby - qaz * qbz; + + this._onChangeCallback(); + + return this; + + } + + slerp( qb, t ) { + + if ( t === 0 ) return this; + if ( t === 1 ) return this.copy( qb ); + + const x = this._x, y = this._y, z = this._z, w = this._w; + + // http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/slerp/ + + let cosHalfTheta = w * qb._w + x * qb._x + y * qb._y + z * qb._z; + + if ( cosHalfTheta < 0 ) { + + this._w = - qb._w; + this._x = - qb._x; + this._y = - qb._y; + this._z = - qb._z; + + cosHalfTheta = - cosHalfTheta; + + } else { + + this.copy( qb ); + + } + + if ( cosHalfTheta >= 1.0 ) { + + this._w = w; + this._x = x; + this._y = y; + this._z = z; + + return this; + + } + + const sqrSinHalfTheta = 1.0 - cosHalfTheta * cosHalfTheta; + + if ( sqrSinHalfTheta <= Number.EPSILON ) { + + const s = 1 - t; + this._w = s * w + t * this._w; + this._x = s * x + t * this._x; + this._y = s * y + t * this._y; + this._z = s * z + t * this._z; + + this.normalize(); // normalize calls _onChangeCallback() + + return this; + + } + + const sinHalfTheta = Math.sqrt( sqrSinHalfTheta ); + const halfTheta = Math.atan2( sinHalfTheta, cosHalfTheta ); + const ratioA = Math.sin( ( 1 - t ) * halfTheta ) / sinHalfTheta, + ratioB = Math.sin( t * halfTheta ) / sinHalfTheta; + + this._w = ( w * ratioA + this._w * ratioB ); + this._x = ( x * ratioA + this._x * ratioB ); + this._y = ( y * ratioA + this._y * ratioB ); + this._z = ( z * ratioA + this._z * ratioB ); + + this._onChangeCallback(); + + return this; + + } + + slerpQuaternions( qa, qb, t ) { + + return this.copy( qa ).slerp( qb, t ); + + } + + random() { + + // sets this quaternion to a uniform random unit quaternnion + + // Ken Shoemake + // Uniform random rotations + // D. Kirk, editor, Graphics Gems III, pages 124-132. Academic Press, New York, 1992. + + const theta1 = 2 * Math.PI * Math.random(); + const theta2 = 2 * Math.PI * Math.random(); + + const x0 = Math.random(); + const r1 = Math.sqrt( 1 - x0 ); + const r2 = Math.sqrt( x0 ); + + return this.set( + r1 * Math.sin( theta1 ), + r1 * Math.cos( theta1 ), + r2 * Math.sin( theta2 ), + r2 * Math.cos( theta2 ), + ); + + } + + equals( quaternion ) { + + return ( quaternion._x === this._x ) && ( quaternion._y === this._y ) && ( quaternion._z === this._z ) && ( quaternion._w === this._w ); + + } + + fromArray( array, offset = 0 ) { + + this._x = array[ offset ]; + this._y = array[ offset + 1 ]; + this._z = array[ offset + 2 ]; + this._w = array[ offset + 3 ]; + + this._onChangeCallback(); + + return this; + + } + + toArray( array = [], offset = 0 ) { + + array[ offset ] = this._x; + array[ offset + 1 ] = this._y; + array[ offset + 2 ] = this._z; + array[ offset + 3 ] = this._w; + + return array; + + } + + fromBufferAttribute( attribute, index ) { + + this._x = attribute.getX( index ); + this._y = attribute.getY( index ); + this._z = attribute.getZ( index ); + this._w = attribute.getW( index ); + + this._onChangeCallback(); + + return this; + + } + + toJSON() { + + return this.toArray(); + + } + + _onChange( callback ) { + + this._onChangeCallback = callback; + + return this; + + } + + _onChangeCallback() {} + + *[ Symbol.iterator ]() { + + yield this._x; + yield this._y; + yield this._z; + yield this._w; + + } + +} + +class Vector3 { + + constructor( x = 0, y = 0, z = 0 ) { + + Vector3.prototype.isVector3 = true; + + this.x = x; + this.y = y; + this.z = z; + + } + + set( x, y, z ) { + + if ( z === undefined ) z = this.z; // sprite.scale.set(x,y) + + this.x = x; + this.y = y; + this.z = z; + + return this; + + } + + setScalar( scalar ) { + + this.x = scalar; + this.y = scalar; + this.z = scalar; + + return this; + + } + + setX( x ) { + + this.x = x; + + return this; + + } + + setY( y ) { + + this.y = y; + + return this; + + } + + setZ( z ) { + + this.z = z; + + return this; + + } + + setComponent( index, value ) { + + switch ( index ) { + + case 0: this.x = value; break; + case 1: this.y = value; break; + case 2: this.z = value; break; + default: throw new Error( 'index is out of range: ' + index ); + + } + + return this; + + } + + getComponent( index ) { + + switch ( index ) { + + case 0: return this.x; + case 1: return this.y; + case 2: return this.z; + default: throw new Error( 'index is out of range: ' + index ); + + } + + } + + clone() { + + return new this.constructor( this.x, this.y, this.z ); + + } + + copy( v ) { + + this.x = v.x; + this.y = v.y; + this.z = v.z; + + return this; + + } + + add( v ) { + + this.x += v.x; + this.y += v.y; + this.z += v.z; + + return this; + + } + + addScalar( s ) { + + this.x += s; + this.y += s; + this.z += s; + + return this; + + } + + addVectors( a, b ) { + + this.x = a.x + b.x; + this.y = a.y + b.y; + this.z = a.z + b.z; + + return this; + + } + + addScaledVector( v, s ) { + + this.x += v.x * s; + this.y += v.y * s; + this.z += v.z * s; + + return this; + + } + + sub( v ) { + + this.x -= v.x; + this.y -= v.y; + this.z -= v.z; + + return this; + + } + + subScalar( s ) { + + this.x -= s; + this.y -= s; + this.z -= s; + + return this; + + } + + subVectors( a, b ) { + + this.x = a.x - b.x; + this.y = a.y - b.y; + this.z = a.z - b.z; + + return this; + + } + + multiply( v ) { + + this.x *= v.x; + this.y *= v.y; + this.z *= v.z; + + return this; + + } + + multiplyScalar( scalar ) { + + this.x *= scalar; + this.y *= scalar; + this.z *= scalar; + + return this; + + } + + multiplyVectors( a, b ) { + + this.x = a.x * b.x; + this.y = a.y * b.y; + this.z = a.z * b.z; + + return this; + + } + + applyEuler( euler ) { + + return this.applyQuaternion( _quaternion$4.setFromEuler( euler ) ); + + } + + applyAxisAngle( axis, angle ) { + + return this.applyQuaternion( _quaternion$4.setFromAxisAngle( axis, angle ) ); + + } + + applyMatrix3( m ) { + + const x = this.x, y = this.y, z = this.z; + const e = m.elements; + + this.x = e[ 0 ] * x + e[ 3 ] * y + e[ 6 ] * z; + this.y = e[ 1 ] * x + e[ 4 ] * y + e[ 7 ] * z; + this.z = e[ 2 ] * x + e[ 5 ] * y + e[ 8 ] * z; + + return this; + + } + + applyNormalMatrix( m ) { + + return this.applyMatrix3( m ).normalize(); + + } + + applyMatrix4( m ) { + + const x = this.x, y = this.y, z = this.z; + const e = m.elements; + + const w = 1 / ( e[ 3 ] * x + e[ 7 ] * y + e[ 11 ] * z + e[ 15 ] ); + + this.x = ( e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z + e[ 12 ] ) * w; + this.y = ( e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z + e[ 13 ] ) * w; + this.z = ( e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z + e[ 14 ] ) * w; + + return this; + + } + + applyQuaternion( q ) { + + // quaternion q is assumed to have unit length + + const vx = this.x, vy = this.y, vz = this.z; + const qx = q.x, qy = q.y, qz = q.z, qw = q.w; + + // t = 2 * cross( q.xyz, v ); + const tx = 2 * ( qy * vz - qz * vy ); + const ty = 2 * ( qz * vx - qx * vz ); + const tz = 2 * ( qx * vy - qy * vx ); + + // v + q.w * t + cross( q.xyz, t ); + this.x = vx + qw * tx + qy * tz - qz * ty; + this.y = vy + qw * ty + qz * tx - qx * tz; + this.z = vz + qw * tz + qx * ty - qy * tx; + + return this; + + } + + project( camera ) { + + return this.applyMatrix4( camera.matrixWorldInverse ).applyMatrix4( camera.projectionMatrix ); + + } + + unproject( camera ) { + + return this.applyMatrix4( camera.projectionMatrixInverse ).applyMatrix4( camera.matrixWorld ); + + } + + transformDirection( m ) { + + // input: THREE.Matrix4 affine matrix + // vector interpreted as a direction + + const x = this.x, y = this.y, z = this.z; + const e = m.elements; + + this.x = e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z; + this.y = e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z; + this.z = e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z; + + return this.normalize(); + + } + + divide( v ) { + + this.x /= v.x; + this.y /= v.y; + this.z /= v.z; + + return this; + + } + + divideScalar( scalar ) { + + return this.multiplyScalar( 1 / scalar ); + + } + + min( v ) { + + this.x = Math.min( this.x, v.x ); + this.y = Math.min( this.y, v.y ); + this.z = Math.min( this.z, v.z ); + + return this; + + } + + max( v ) { + + this.x = Math.max( this.x, v.x ); + this.y = Math.max( this.y, v.y ); + this.z = Math.max( this.z, v.z ); + + return this; + + } + + clamp( min, max ) { + + // assumes min < max, componentwise + + this.x = Math.max( min.x, Math.min( max.x, this.x ) ); + this.y = Math.max( min.y, Math.min( max.y, this.y ) ); + this.z = Math.max( min.z, Math.min( max.z, this.z ) ); + + return this; + + } + + clampScalar( minVal, maxVal ) { + + this.x = Math.max( minVal, Math.min( maxVal, this.x ) ); + this.y = Math.max( minVal, Math.min( maxVal, this.y ) ); + this.z = Math.max( minVal, Math.min( maxVal, this.z ) ); + + return this; + + } + + clampLength( min, max ) { + + const length = this.length(); + + return this.divideScalar( length || 1 ).multiplyScalar( Math.max( min, Math.min( max, length ) ) ); + + } + + floor() { + + this.x = Math.floor( this.x ); + this.y = Math.floor( this.y ); + this.z = Math.floor( this.z ); + + return this; + + } + + ceil() { + + this.x = Math.ceil( this.x ); + this.y = Math.ceil( this.y ); + this.z = Math.ceil( this.z ); + + return this; + + } + + round() { + + this.x = Math.round( this.x ); + this.y = Math.round( this.y ); + this.z = Math.round( this.z ); + + return this; + + } + + roundToZero() { + + this.x = Math.trunc( this.x ); + this.y = Math.trunc( this.y ); + this.z = Math.trunc( this.z ); + + return this; + + } + + negate() { + + this.x = - this.x; + this.y = - this.y; + this.z = - this.z; + + return this; + + } + + dot( v ) { + + return this.x * v.x + this.y * v.y + this.z * v.z; + + } + + // TODO lengthSquared? + + lengthSq() { + + return this.x * this.x + this.y * this.y + this.z * this.z; + + } + + length() { + + return Math.sqrt( this.x * this.x + this.y * this.y + this.z * this.z ); + + } + + manhattanLength() { + + return Math.abs( this.x ) + Math.abs( this.y ) + Math.abs( this.z ); + + } + + normalize() { + + return this.divideScalar( this.length() || 1 ); + + } + + setLength( length ) { + + return this.normalize().multiplyScalar( length ); + + } + + lerp( v, alpha ) { + + this.x += ( v.x - this.x ) * alpha; + this.y += ( v.y - this.y ) * alpha; + this.z += ( v.z - this.z ) * alpha; + + return this; + + } + + lerpVectors( v1, v2, alpha ) { + + this.x = v1.x + ( v2.x - v1.x ) * alpha; + this.y = v1.y + ( v2.y - v1.y ) * alpha; + this.z = v1.z + ( v2.z - v1.z ) * alpha; + + return this; + + } + + cross( v ) { + + return this.crossVectors( this, v ); + + } + + crossVectors( a, b ) { + + const ax = a.x, ay = a.y, az = a.z; + const bx = b.x, by = b.y, bz = b.z; + + this.x = ay * bz - az * by; + this.y = az * bx - ax * bz; + this.z = ax * by - ay * bx; + + return this; + + } + + projectOnVector( v ) { + + const denominator = v.lengthSq(); + + if ( denominator === 0 ) return this.set( 0, 0, 0 ); + + const scalar = v.dot( this ) / denominator; + + return this.copy( v ).multiplyScalar( scalar ); + + } + + projectOnPlane( planeNormal ) { + + _vector$c.copy( this ).projectOnVector( planeNormal ); + + return this.sub( _vector$c ); + + } + + reflect( normal ) { + + // reflect incident vector off plane orthogonal to normal + // normal is assumed to have unit length + + return this.sub( _vector$c.copy( normal ).multiplyScalar( 2 * this.dot( normal ) ) ); + + } + + angleTo( v ) { + + const denominator = Math.sqrt( this.lengthSq() * v.lengthSq() ); + + if ( denominator === 0 ) return Math.PI / 2; + + const theta = this.dot( v ) / denominator; + + // clamp, to handle numerical problems + + return Math.acos( clamp$1( theta, - 1, 1 ) ); + + } + + distanceTo( v ) { + + return Math.sqrt( this.distanceToSquared( v ) ); + + } + + distanceToSquared( v ) { + + const dx = this.x - v.x, dy = this.y - v.y, dz = this.z - v.z; + + return dx * dx + dy * dy + dz * dz; + + } + + manhattanDistanceTo( v ) { + + return Math.abs( this.x - v.x ) + Math.abs( this.y - v.y ) + Math.abs( this.z - v.z ); + + } + + setFromSpherical( s ) { + + return this.setFromSphericalCoords( s.radius, s.phi, s.theta ); + + } + + setFromSphericalCoords( radius, phi, theta ) { + + const sinPhiRadius = Math.sin( phi ) * radius; + + this.x = sinPhiRadius * Math.sin( theta ); + this.y = Math.cos( phi ) * radius; + this.z = sinPhiRadius * Math.cos( theta ); + + return this; + + } + + setFromCylindrical( c ) { + + return this.setFromCylindricalCoords( c.radius, c.theta, c.y ); + + } + + setFromCylindricalCoords( radius, theta, y ) { + + this.x = radius * Math.sin( theta ); + this.y = y; + this.z = radius * Math.cos( theta ); + + return this; + + } + + setFromMatrixPosition( m ) { + + const e = m.elements; + + this.x = e[ 12 ]; + this.y = e[ 13 ]; + this.z = e[ 14 ]; + + return this; + + } + + setFromMatrixScale( m ) { + + const sx = this.setFromMatrixColumn( m, 0 ).length(); + const sy = this.setFromMatrixColumn( m, 1 ).length(); + const sz = this.setFromMatrixColumn( m, 2 ).length(); + + this.x = sx; + this.y = sy; + this.z = sz; + + return this; + + } + + setFromMatrixColumn( m, index ) { + + return this.fromArray( m.elements, index * 4 ); + + } + + setFromMatrix3Column( m, index ) { + + return this.fromArray( m.elements, index * 3 ); + + } + + setFromEuler( e ) { + + this.x = e._x; + this.y = e._y; + this.z = e._z; + + return this; + + } + + setFromColor( c ) { + + this.x = c.r; + this.y = c.g; + this.z = c.b; + + return this; + + } + + equals( v ) { + + return ( ( v.x === this.x ) && ( v.y === this.y ) && ( v.z === this.z ) ); + + } + + fromArray( array, offset = 0 ) { + + this.x = array[ offset ]; + this.y = array[ offset + 1 ]; + this.z = array[ offset + 2 ]; + + return this; + + } + + toArray( array = [], offset = 0 ) { + + array[ offset ] = this.x; + array[ offset + 1 ] = this.y; + array[ offset + 2 ] = this.z; + + return array; + + } + + fromBufferAttribute( attribute, index ) { + + this.x = attribute.getX( index ); + this.y = attribute.getY( index ); + this.z = attribute.getZ( index ); + + return this; + + } + + random() { + + this.x = Math.random(); + this.y = Math.random(); + this.z = Math.random(); + + return this; + + } + + randomDirection() { + + // https://mathworld.wolfram.com/SpherePointPicking.html + + const theta = Math.random() * Math.PI * 2; + const u = Math.random() * 2 - 1; + const c = Math.sqrt( 1 - u * u ); + + this.x = c * Math.cos( theta ); + this.y = u; + this.z = c * Math.sin( theta ); + + return this; + + } + + *[ Symbol.iterator ]() { + + yield this.x; + yield this.y; + yield this.z; + + } + +} + +const _vector$c = /*@__PURE__*/ new Vector3(); +const _quaternion$4 = /*@__PURE__*/ new Quaternion(); + +class Box3 { + + constructor( min = new Vector3( + Infinity, + Infinity, + Infinity ), max = new Vector3( - Infinity, - Infinity, - Infinity ) ) { + + this.isBox3 = true; + + this.min = min; + this.max = max; + + } + + set( min, max ) { + + this.min.copy( min ); + this.max.copy( max ); + + return this; + + } + + setFromArray( array ) { + + this.makeEmpty(); + + for ( let i = 0, il = array.length; i < il; i += 3 ) { + + this.expandByPoint( _vector$b.fromArray( array, i ) ); + + } + + return this; + + } + + setFromBufferAttribute( attribute ) { + + this.makeEmpty(); + + for ( let i = 0, il = attribute.count; i < il; i ++ ) { + + this.expandByPoint( _vector$b.fromBufferAttribute( attribute, i ) ); + + } + + return this; + + } + + setFromPoints( points ) { + + this.makeEmpty(); + + for ( let i = 0, il = points.length; i < il; i ++ ) { + + this.expandByPoint( points[ i ] ); + + } + + return this; + + } + + setFromCenterAndSize( center, size ) { + + const halfSize = _vector$b.copy( size ).multiplyScalar( 0.5 ); + + this.min.copy( center ).sub( halfSize ); + this.max.copy( center ).add( halfSize ); + + return this; + + } + + setFromObject( object, precise = false ) { + + this.makeEmpty(); + + return this.expandByObject( object, precise ); + + } + + clone() { + + return new this.constructor().copy( this ); + + } + + copy( box ) { + + this.min.copy( box.min ); + this.max.copy( box.max ); + + return this; + + } + + makeEmpty() { + + this.min.x = this.min.y = this.min.z = + Infinity; + this.max.x = this.max.y = this.max.z = - Infinity; + + return this; + + } + + isEmpty() { + + // this is a more robust check for empty than ( volume <= 0 ) because volume can get positive with two negative axes + + return ( this.max.x < this.min.x ) || ( this.max.y < this.min.y ) || ( this.max.z < this.min.z ); + + } + + getCenter( target ) { + + return this.isEmpty() ? target.set( 0, 0, 0 ) : target.addVectors( this.min, this.max ).multiplyScalar( 0.5 ); + + } + + getSize( target ) { + + return this.isEmpty() ? target.set( 0, 0, 0 ) : target.subVectors( this.max, this.min ); + + } + + expandByPoint( point ) { + + this.min.min( point ); + this.max.max( point ); + + return this; + + } + + expandByVector( vector ) { + + this.min.sub( vector ); + this.max.add( vector ); + + return this; + + } + + expandByScalar( scalar ) { + + this.min.addScalar( - scalar ); + this.max.addScalar( scalar ); + + return this; + + } + + expandByObject( object, precise = false ) { + + // Computes the world-axis-aligned bounding box of an object (including its children), + // accounting for both the object's, and children's, world transforms + + object.updateWorldMatrix( false, false ); + + const geometry = object.geometry; + + if ( geometry !== undefined ) { + + const positionAttribute = geometry.getAttribute( 'position' ); + + // precise AABB computation based on vertex data requires at least a position attribute. + // instancing isn't supported so far and uses the normal (conservative) code path. + + if ( precise === true && positionAttribute !== undefined && object.isInstancedMesh !== true ) { + + for ( let i = 0, l = positionAttribute.count; i < l; i ++ ) { + + if ( object.isMesh === true ) { + + object.getVertexPosition( i, _vector$b ); + + } else { + + _vector$b.fromBufferAttribute( positionAttribute, i ); + + } + + _vector$b.applyMatrix4( object.matrixWorld ); + this.expandByPoint( _vector$b ); + + } + + } else { + + if ( object.boundingBox !== undefined ) { + + // object-level bounding box + + if ( object.boundingBox === null ) { + + object.computeBoundingBox(); + + } + + _box$4.copy( object.boundingBox ); + + + } else { + + // geometry-level bounding box + + if ( geometry.boundingBox === null ) { + + geometry.computeBoundingBox(); + + } + + _box$4.copy( geometry.boundingBox ); + + } + + _box$4.applyMatrix4( object.matrixWorld ); + + this.union( _box$4 ); + + } + + } + + const children = object.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + this.expandByObject( children[ i ], precise ); + + } + + return this; + + } + + containsPoint( point ) { + + return point.x < this.min.x || point.x > this.max.x || + point.y < this.min.y || point.y > this.max.y || + point.z < this.min.z || point.z > this.max.z ? false : true; + + } + + containsBox( box ) { + + return this.min.x <= box.min.x && box.max.x <= this.max.x && + this.min.y <= box.min.y && box.max.y <= this.max.y && + this.min.z <= box.min.z && box.max.z <= this.max.z; + + } + + getParameter( point, target ) { + + // This can potentially have a divide by zero if the box + // has a size dimension of 0. + + return target.set( + ( point.x - this.min.x ) / ( this.max.x - this.min.x ), + ( point.y - this.min.y ) / ( this.max.y - this.min.y ), + ( point.z - this.min.z ) / ( this.max.z - this.min.z ) + ); + + } + + intersectsBox( box ) { + + // using 6 splitting planes to rule out intersections. + return box.max.x < this.min.x || box.min.x > this.max.x || + box.max.y < this.min.y || box.min.y > this.max.y || + box.max.z < this.min.z || box.min.z > this.max.z ? false : true; + + } + + intersectsSphere( sphere ) { + + // Find the point on the AABB closest to the sphere center. + this.clampPoint( sphere.center, _vector$b ); + + // If that point is inside the sphere, the AABB and sphere intersect. + return _vector$b.distanceToSquared( sphere.center ) <= ( sphere.radius * sphere.radius ); + + } + + intersectsPlane( plane ) { + + // We compute the minimum and maximum dot product values. If those values + // are on the same side (back or front) of the plane, then there is no intersection. + + let min, max; + + if ( plane.normal.x > 0 ) { + + min = plane.normal.x * this.min.x; + max = plane.normal.x * this.max.x; + + } else { + + min = plane.normal.x * this.max.x; + max = plane.normal.x * this.min.x; + + } + + if ( plane.normal.y > 0 ) { + + min += plane.normal.y * this.min.y; + max += plane.normal.y * this.max.y; + + } else { + + min += plane.normal.y * this.max.y; + max += plane.normal.y * this.min.y; + + } + + if ( plane.normal.z > 0 ) { + + min += plane.normal.z * this.min.z; + max += plane.normal.z * this.max.z; + + } else { + + min += plane.normal.z * this.max.z; + max += plane.normal.z * this.min.z; + + } + + return ( min <= - plane.constant && max >= - plane.constant ); + + } + + intersectsTriangle( triangle ) { + + if ( this.isEmpty() ) { + + return false; + + } + + // compute box center and extents + this.getCenter( _center ); + _extents.subVectors( this.max, _center ); + + // translate triangle to aabb origin + _v0$2.subVectors( triangle.a, _center ); + _v1$7.subVectors( triangle.b, _center ); + _v2$4.subVectors( triangle.c, _center ); + + // compute edge vectors for triangle + _f0.subVectors( _v1$7, _v0$2 ); + _f1.subVectors( _v2$4, _v1$7 ); + _f2.subVectors( _v0$2, _v2$4 ); + + // test against axes that are given by cross product combinations of the edges of the triangle and the edges of the aabb + // make an axis testing of each of the 3 sides of the aabb against each of the 3 sides of the triangle = 9 axis of separation + // axis_ij = u_i x f_j (u0, u1, u2 = face normals of aabb = x,y,z axes vectors since aabb is axis aligned) + let axes = [ + 0, - _f0.z, _f0.y, 0, - _f1.z, _f1.y, 0, - _f2.z, _f2.y, + _f0.z, 0, - _f0.x, _f1.z, 0, - _f1.x, _f2.z, 0, - _f2.x, + - _f0.y, _f0.x, 0, - _f1.y, _f1.x, 0, - _f2.y, _f2.x, 0 + ]; + if ( ! satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents ) ) { + + return false; + + } + + // test 3 face normals from the aabb + axes = [ 1, 0, 0, 0, 1, 0, 0, 0, 1 ]; + if ( ! satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents ) ) { + + return false; + + } + + // finally testing the face normal of the triangle + // use already existing triangle edge vectors here + _triangleNormal.crossVectors( _f0, _f1 ); + axes = [ _triangleNormal.x, _triangleNormal.y, _triangleNormal.z ]; + + return satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents ); + + } + + clampPoint( point, target ) { + + return target.copy( point ).clamp( this.min, this.max ); + + } + + distanceToPoint( point ) { + + return this.clampPoint( point, _vector$b ).distanceTo( point ); + + } + + getBoundingSphere( target ) { + + if ( this.isEmpty() ) { + + target.makeEmpty(); + + } else { + + this.getCenter( target.center ); + + target.radius = this.getSize( _vector$b ).length() * 0.5; + + } + + return target; + + } + + intersect( box ) { + + this.min.max( box.min ); + this.max.min( box.max ); + + // ensure that if there is no overlap, the result is fully empty, not slightly empty with non-inf/+inf values that will cause subsequence intersects to erroneously return valid values. + if ( this.isEmpty() ) this.makeEmpty(); + + return this; + + } + + union( box ) { + + this.min.min( box.min ); + this.max.max( box.max ); + + return this; + + } + + applyMatrix4( matrix ) { + + // transform of empty box is an empty box. + if ( this.isEmpty() ) return this; + + // NOTE: I am using a binary pattern to specify all 2^3 combinations below + _points[ 0 ].set( this.min.x, this.min.y, this.min.z ).applyMatrix4( matrix ); // 000 + _points[ 1 ].set( this.min.x, this.min.y, this.max.z ).applyMatrix4( matrix ); // 001 + _points[ 2 ].set( this.min.x, this.max.y, this.min.z ).applyMatrix4( matrix ); // 010 + _points[ 3 ].set( this.min.x, this.max.y, this.max.z ).applyMatrix4( matrix ); // 011 + _points[ 4 ].set( this.max.x, this.min.y, this.min.z ).applyMatrix4( matrix ); // 100 + _points[ 5 ].set( this.max.x, this.min.y, this.max.z ).applyMatrix4( matrix ); // 101 + _points[ 6 ].set( this.max.x, this.max.y, this.min.z ).applyMatrix4( matrix ); // 110 + _points[ 7 ].set( this.max.x, this.max.y, this.max.z ).applyMatrix4( matrix ); // 111 + + this.setFromPoints( _points ); + + return this; + + } + + translate( offset ) { + + this.min.add( offset ); + this.max.add( offset ); + + return this; + + } + + equals( box ) { + + return box.min.equals( this.min ) && box.max.equals( this.max ); + + } + +} + +const _points = [ + /*@__PURE__*/ new Vector3(), + /*@__PURE__*/ new Vector3(), + /*@__PURE__*/ new Vector3(), + /*@__PURE__*/ new Vector3(), + /*@__PURE__*/ new Vector3(), + /*@__PURE__*/ new Vector3(), + /*@__PURE__*/ new Vector3(), + /*@__PURE__*/ new Vector3() +]; + +const _vector$b = /*@__PURE__*/ new Vector3(); + +const _box$4 = /*@__PURE__*/ new Box3(); + +// triangle centered vertices + +const _v0$2 = /*@__PURE__*/ new Vector3(); +const _v1$7 = /*@__PURE__*/ new Vector3(); +const _v2$4 = /*@__PURE__*/ new Vector3(); + +// triangle edge vectors + +const _f0 = /*@__PURE__*/ new Vector3(); +const _f1 = /*@__PURE__*/ new Vector3(); +const _f2 = /*@__PURE__*/ new Vector3(); + +const _center = /*@__PURE__*/ new Vector3(); +const _extents = /*@__PURE__*/ new Vector3(); +const _triangleNormal = /*@__PURE__*/ new Vector3(); +const _testAxis = /*@__PURE__*/ new Vector3(); + +function satForAxes( axes, v0, v1, v2, extents ) { + + for ( let i = 0, j = axes.length - 3; i <= j; i += 3 ) { + + _testAxis.fromArray( axes, i ); + // project the aabb onto the separating axis + const r = extents.x * Math.abs( _testAxis.x ) + extents.y * Math.abs( _testAxis.y ) + extents.z * Math.abs( _testAxis.z ); + // project all 3 vertices of the triangle onto the separating axis + const p0 = v0.dot( _testAxis ); + const p1 = v1.dot( _testAxis ); + const p2 = v2.dot( _testAxis ); + // actual test, basically see if either of the most extreme of the triangle points intersects r + if ( Math.max( - Math.max( p0, p1, p2 ), Math.min( p0, p1, p2 ) ) > r ) { + + // points of the projected triangle are outside the projected half-length of the aabb + // the axis is separating and we can exit + return false; + + } + + } + + return true; + +} + +const _box$3 = /*@__PURE__*/ new Box3(); +const _v1$6 = /*@__PURE__*/ new Vector3(); +const _v2$3 = /*@__PURE__*/ new Vector3(); + +class Sphere { + + constructor( center = new Vector3(), radius = - 1 ) { + + this.isSphere = true; + + this.center = center; + this.radius = radius; + + } + + set( center, radius ) { + + this.center.copy( center ); + this.radius = radius; + + return this; + + } + + setFromPoints( points, optionalCenter ) { + + const center = this.center; + + if ( optionalCenter !== undefined ) { + + center.copy( optionalCenter ); + + } else { + + _box$3.setFromPoints( points ).getCenter( center ); + + } + + let maxRadiusSq = 0; + + for ( let i = 0, il = points.length; i < il; i ++ ) { + + maxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( points[ i ] ) ); + + } + + this.radius = Math.sqrt( maxRadiusSq ); + + return this; + + } + + copy( sphere ) { + + this.center.copy( sphere.center ); + this.radius = sphere.radius; + + return this; + + } + + isEmpty() { + + return ( this.radius < 0 ); + + } + + makeEmpty() { + + this.center.set( 0, 0, 0 ); + this.radius = - 1; + + return this; + + } + + containsPoint( point ) { + + return ( point.distanceToSquared( this.center ) <= ( this.radius * this.radius ) ); + + } + + distanceToPoint( point ) { + + return ( point.distanceTo( this.center ) - this.radius ); + + } + + intersectsSphere( sphere ) { + + const radiusSum = this.radius + sphere.radius; + + return sphere.center.distanceToSquared( this.center ) <= ( radiusSum * radiusSum ); + + } + + intersectsBox( box ) { + + return box.intersectsSphere( this ); + + } + + intersectsPlane( plane ) { + + return Math.abs( plane.distanceToPoint( this.center ) ) <= this.radius; + + } + + clampPoint( point, target ) { + + const deltaLengthSq = this.center.distanceToSquared( point ); + + target.copy( point ); + + if ( deltaLengthSq > ( this.radius * this.radius ) ) { + + target.sub( this.center ).normalize(); + target.multiplyScalar( this.radius ).add( this.center ); + + } + + return target; + + } + + getBoundingBox( target ) { + + if ( this.isEmpty() ) { + + // Empty sphere produces empty bounding box + target.makeEmpty(); + return target; + + } + + target.set( this.center, this.center ); + target.expandByScalar( this.radius ); + + return target; + + } + + applyMatrix4( matrix ) { + + this.center.applyMatrix4( matrix ); + this.radius = this.radius * matrix.getMaxScaleOnAxis(); + + return this; + + } + + translate( offset ) { + + this.center.add( offset ); + + return this; + + } + + expandByPoint( point ) { + + if ( this.isEmpty() ) { + + this.center.copy( point ); + + this.radius = 0; + + return this; + + } + + _v1$6.subVectors( point, this.center ); + + const lengthSq = _v1$6.lengthSq(); + + if ( lengthSq > ( this.radius * this.radius ) ) { + + // calculate the minimal sphere + + const length = Math.sqrt( lengthSq ); + + const delta = ( length - this.radius ) * 0.5; + + this.center.addScaledVector( _v1$6, delta / length ); + + this.radius += delta; + + } + + return this; + + } + + union( sphere ) { + + if ( sphere.isEmpty() ) { + + return this; + + } + + if ( this.isEmpty() ) { + + this.copy( sphere ); + + return this; + + } + + if ( this.center.equals( sphere.center ) === true ) { + + this.radius = Math.max( this.radius, sphere.radius ); + + } else { + + _v2$3.subVectors( sphere.center, this.center ).setLength( sphere.radius ); + + this.expandByPoint( _v1$6.copy( sphere.center ).add( _v2$3 ) ); + + this.expandByPoint( _v1$6.copy( sphere.center ).sub( _v2$3 ) ); + + } + + return this; + + } + + equals( sphere ) { + + return sphere.center.equals( this.center ) && ( sphere.radius === this.radius ); + + } + + clone() { + + return new this.constructor().copy( this ); + + } + +} + +const _vector$a = /*@__PURE__*/ new Vector3(); +const _segCenter = /*@__PURE__*/ new Vector3(); +const _segDir = /*@__PURE__*/ new Vector3(); +const _diff = /*@__PURE__*/ new Vector3(); + +const _edge1 = /*@__PURE__*/ new Vector3(); +const _edge2 = /*@__PURE__*/ new Vector3(); +const _normal$2 = /*@__PURE__*/ new Vector3(); + +class Ray { + + constructor( origin = new Vector3(), direction = new Vector3( 0, 0, - 1 ) ) { + + this.origin = origin; + this.direction = direction; + + } + + set( origin, direction ) { + + this.origin.copy( origin ); + this.direction.copy( direction ); + + return this; + + } + + copy( ray ) { + + this.origin.copy( ray.origin ); + this.direction.copy( ray.direction ); + + return this; + + } + + at( t, target ) { + + return target.copy( this.origin ).addScaledVector( this.direction, t ); + + } + + lookAt( v ) { + + this.direction.copy( v ).sub( this.origin ).normalize(); + + return this; + + } + + recast( t ) { + + this.origin.copy( this.at( t, _vector$a ) ); + + return this; + + } + + closestPointToPoint( point, target ) { + + target.subVectors( point, this.origin ); + + const directionDistance = target.dot( this.direction ); + + if ( directionDistance < 0 ) { + + return target.copy( this.origin ); + + } + + return target.copy( this.origin ).addScaledVector( this.direction, directionDistance ); + + } + + distanceToPoint( point ) { + + return Math.sqrt( this.distanceSqToPoint( point ) ); + + } + + distanceSqToPoint( point ) { + + const directionDistance = _vector$a.subVectors( point, this.origin ).dot( this.direction ); + + // point behind the ray + + if ( directionDistance < 0 ) { + + return this.origin.distanceToSquared( point ); + + } + + _vector$a.copy( this.origin ).addScaledVector( this.direction, directionDistance ); + + return _vector$a.distanceToSquared( point ); + + } + + distanceSqToSegment( v0, v1, optionalPointOnRay, optionalPointOnSegment ) { + + // from https://github.com/pmjoniak/GeometricTools/blob/master/GTEngine/Include/Mathematics/GteDistRaySegment.h + // It returns the min distance between the ray and the segment + // defined by v0 and v1 + // It can also set two optional targets : + // - The closest point on the ray + // - The closest point on the segment + + _segCenter.copy( v0 ).add( v1 ).multiplyScalar( 0.5 ); + _segDir.copy( v1 ).sub( v0 ).normalize(); + _diff.copy( this.origin ).sub( _segCenter ); + + const segExtent = v0.distanceTo( v1 ) * 0.5; + const a01 = - this.direction.dot( _segDir ); + const b0 = _diff.dot( this.direction ); + const b1 = - _diff.dot( _segDir ); + const c = _diff.lengthSq(); + const det = Math.abs( 1 - a01 * a01 ); + let s0, s1, sqrDist, extDet; + + if ( det > 0 ) { + + // The ray and segment are not parallel. + + s0 = a01 * b1 - b0; + s1 = a01 * b0 - b1; + extDet = segExtent * det; + + if ( s0 >= 0 ) { + + if ( s1 >= - extDet ) { + + if ( s1 <= extDet ) { + + // region 0 + // Minimum at interior points of ray and segment. + + const invDet = 1 / det; + s0 *= invDet; + s1 *= invDet; + sqrDist = s0 * ( s0 + a01 * s1 + 2 * b0 ) + s1 * ( a01 * s0 + s1 + 2 * b1 ) + c; + + } else { + + // region 1 + + s1 = segExtent; + s0 = Math.max( 0, - ( a01 * s1 + b0 ) ); + sqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c; + + } + + } else { + + // region 5 + + s1 = - segExtent; + s0 = Math.max( 0, - ( a01 * s1 + b0 ) ); + sqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c; + + } + + } else { + + if ( s1 <= - extDet ) { + + // region 4 + + s0 = Math.max( 0, - ( - a01 * segExtent + b0 ) ); + s1 = ( s0 > 0 ) ? - segExtent : Math.min( Math.max( - segExtent, - b1 ), segExtent ); + sqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c; + + } else if ( s1 <= extDet ) { + + // region 3 + + s0 = 0; + s1 = Math.min( Math.max( - segExtent, - b1 ), segExtent ); + sqrDist = s1 * ( s1 + 2 * b1 ) + c; + + } else { + + // region 2 + + s0 = Math.max( 0, - ( a01 * segExtent + b0 ) ); + s1 = ( s0 > 0 ) ? segExtent : Math.min( Math.max( - segExtent, - b1 ), segExtent ); + sqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c; + + } + + } + + } else { + + // Ray and segment are parallel. + + s1 = ( a01 > 0 ) ? - segExtent : segExtent; + s0 = Math.max( 0, - ( a01 * s1 + b0 ) ); + sqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c; + + } + + if ( optionalPointOnRay ) { + + optionalPointOnRay.copy( this.origin ).addScaledVector( this.direction, s0 ); + + } + + if ( optionalPointOnSegment ) { + + optionalPointOnSegment.copy( _segCenter ).addScaledVector( _segDir, s1 ); + + } + + return sqrDist; + + } + + intersectSphere( sphere, target ) { + + _vector$a.subVectors( sphere.center, this.origin ); + const tca = _vector$a.dot( this.direction ); + const d2 = _vector$a.dot( _vector$a ) - tca * tca; + const radius2 = sphere.radius * sphere.radius; + + if ( d2 > radius2 ) return null; + + const thc = Math.sqrt( radius2 - d2 ); + + // t0 = first intersect point - entrance on front of sphere + const t0 = tca - thc; + + // t1 = second intersect point - exit point on back of sphere + const t1 = tca + thc; + + // test to see if t1 is behind the ray - if so, return null + if ( t1 < 0 ) return null; + + // test to see if t0 is behind the ray: + // if it is, the ray is inside the sphere, so return the second exit point scaled by t1, + // in order to always return an intersect point that is in front of the ray. + if ( t0 < 0 ) return this.at( t1, target ); + + // else t0 is in front of the ray, so return the first collision point scaled by t0 + return this.at( t0, target ); + + } + + intersectsSphere( sphere ) { + + return this.distanceSqToPoint( sphere.center ) <= ( sphere.radius * sphere.radius ); + + } + + distanceToPlane( plane ) { + + const denominator = plane.normal.dot( this.direction ); + + if ( denominator === 0 ) { + + // line is coplanar, return origin + if ( plane.distanceToPoint( this.origin ) === 0 ) { + + return 0; + + } + + // Null is preferable to undefined since undefined means.... it is undefined + + return null; + + } + + const t = - ( this.origin.dot( plane.normal ) + plane.constant ) / denominator; + + // Return if the ray never intersects the plane + + return t >= 0 ? t : null; + + } + + intersectPlane( plane, target ) { + + const t = this.distanceToPlane( plane ); + + if ( t === null ) { + + return null; + + } + + return this.at( t, target ); + + } + + intersectsPlane( plane ) { + + // check if the ray lies on the plane first + + const distToPoint = plane.distanceToPoint( this.origin ); + + if ( distToPoint === 0 ) { + + return true; + + } + + const denominator = plane.normal.dot( this.direction ); + + if ( denominator * distToPoint < 0 ) { + + return true; + + } + + // ray origin is behind the plane (and is pointing behind it) + + return false; + + } + + intersectBox( box, target ) { + + let tmin, tmax, tymin, tymax, tzmin, tzmax; + + const invdirx = 1 / this.direction.x, + invdiry = 1 / this.direction.y, + invdirz = 1 / this.direction.z; + + const origin = this.origin; + + if ( invdirx >= 0 ) { + + tmin = ( box.min.x - origin.x ) * invdirx; + tmax = ( box.max.x - origin.x ) * invdirx; + + } else { + + tmin = ( box.max.x - origin.x ) * invdirx; + tmax = ( box.min.x - origin.x ) * invdirx; + + } + + if ( invdiry >= 0 ) { + + tymin = ( box.min.y - origin.y ) * invdiry; + tymax = ( box.max.y - origin.y ) * invdiry; + + } else { + + tymin = ( box.max.y - origin.y ) * invdiry; + tymax = ( box.min.y - origin.y ) * invdiry; + + } + + if ( ( tmin > tymax ) || ( tymin > tmax ) ) return null; + + if ( tymin > tmin || isNaN( tmin ) ) tmin = tymin; + + if ( tymax < tmax || isNaN( tmax ) ) tmax = tymax; + + if ( invdirz >= 0 ) { + + tzmin = ( box.min.z - origin.z ) * invdirz; + tzmax = ( box.max.z - origin.z ) * invdirz; + + } else { + + tzmin = ( box.max.z - origin.z ) * invdirz; + tzmax = ( box.min.z - origin.z ) * invdirz; + + } + + if ( ( tmin > tzmax ) || ( tzmin > tmax ) ) return null; + + if ( tzmin > tmin || tmin !== tmin ) tmin = tzmin; + + if ( tzmax < tmax || tmax !== tmax ) tmax = tzmax; + + //return point closest to the ray (positive side) + + if ( tmax < 0 ) return null; + + return this.at( tmin >= 0 ? tmin : tmax, target ); + + } + + intersectsBox( box ) { + + return this.intersectBox( box, _vector$a ) !== null; + + } + + intersectTriangle( a, b, c, backfaceCulling, target ) { + + // Compute the offset origin, edges, and normal. + + // from https://github.com/pmjoniak/GeometricTools/blob/master/GTEngine/Include/Mathematics/GteIntrRay3Triangle3.h + + _edge1.subVectors( b, a ); + _edge2.subVectors( c, a ); + _normal$2.crossVectors( _edge1, _edge2 ); + + // Solve Q + t*D = b1*E1 + b2*E2 (Q = kDiff, D = ray direction, + // E1 = kEdge1, E2 = kEdge2, N = Cross(E1,E2)) by + // |Dot(D,N)|*b1 = sign(Dot(D,N))*Dot(D,Cross(Q,E2)) + // |Dot(D,N)|*b2 = sign(Dot(D,N))*Dot(D,Cross(E1,Q)) + // |Dot(D,N)|*t = -sign(Dot(D,N))*Dot(Q,N) + let DdN = this.direction.dot( _normal$2 ); + let sign; + + if ( DdN > 0 ) { + + if ( backfaceCulling ) return null; + sign = 1; + + } else if ( DdN < 0 ) { + + sign = - 1; + DdN = - DdN; + + } else { + + return null; + + } + + _diff.subVectors( this.origin, a ); + const DdQxE2 = sign * this.direction.dot( _edge2.crossVectors( _diff, _edge2 ) ); + + // b1 < 0, no intersection + if ( DdQxE2 < 0 ) { + + return null; + + } + + const DdE1xQ = sign * this.direction.dot( _edge1.cross( _diff ) ); + + // b2 < 0, no intersection + if ( DdE1xQ < 0 ) { + + return null; + + } + + // b1+b2 > 1, no intersection + if ( DdQxE2 + DdE1xQ > DdN ) { + + return null; + + } + + // Line intersects triangle, check if ray does. + const QdN = - sign * _diff.dot( _normal$2 ); + + // t < 0, no intersection + if ( QdN < 0 ) { + + return null; + + } + + // Ray intersects triangle. + return this.at( QdN / DdN, target ); + + } + + applyMatrix4( matrix4 ) { + + this.origin.applyMatrix4( matrix4 ); + this.direction.transformDirection( matrix4 ); + + return this; + + } + + equals( ray ) { + + return ray.origin.equals( this.origin ) && ray.direction.equals( this.direction ); + + } + + clone() { + + return new this.constructor().copy( this ); + + } + +} + +class Matrix4 { + + constructor( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 ) { + + Matrix4.prototype.isMatrix4 = true; + + this.elements = [ + + 1, 0, 0, 0, + 0, 1, 0, 0, + 0, 0, 1, 0, + 0, 0, 0, 1 + + ]; + + if ( n11 !== undefined ) { + + this.set( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 ); + + } + + } + + set( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 ) { + + const te = this.elements; + + te[ 0 ] = n11; te[ 4 ] = n12; te[ 8 ] = n13; te[ 12 ] = n14; + te[ 1 ] = n21; te[ 5 ] = n22; te[ 9 ] = n23; te[ 13 ] = n24; + te[ 2 ] = n31; te[ 6 ] = n32; te[ 10 ] = n33; te[ 14 ] = n34; + te[ 3 ] = n41; te[ 7 ] = n42; te[ 11 ] = n43; te[ 15 ] = n44; + + return this; + + } + + identity() { + + this.set( + + 1, 0, 0, 0, + 0, 1, 0, 0, + 0, 0, 1, 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + clone() { + + return new Matrix4().fromArray( this.elements ); + + } + + copy( m ) { + + const te = this.elements; + const me = m.elements; + + te[ 0 ] = me[ 0 ]; te[ 1 ] = me[ 1 ]; te[ 2 ] = me[ 2 ]; te[ 3 ] = me[ 3 ]; + te[ 4 ] = me[ 4 ]; te[ 5 ] = me[ 5 ]; te[ 6 ] = me[ 6 ]; te[ 7 ] = me[ 7 ]; + te[ 8 ] = me[ 8 ]; te[ 9 ] = me[ 9 ]; te[ 10 ] = me[ 10 ]; te[ 11 ] = me[ 11 ]; + te[ 12 ] = me[ 12 ]; te[ 13 ] = me[ 13 ]; te[ 14 ] = me[ 14 ]; te[ 15 ] = me[ 15 ]; + + return this; + + } + + copyPosition( m ) { + + const te = this.elements, me = m.elements; + + te[ 12 ] = me[ 12 ]; + te[ 13 ] = me[ 13 ]; + te[ 14 ] = me[ 14 ]; + + return this; + + } + + setFromMatrix3( m ) { + + const me = m.elements; + + this.set( + + me[ 0 ], me[ 3 ], me[ 6 ], 0, + me[ 1 ], me[ 4 ], me[ 7 ], 0, + me[ 2 ], me[ 5 ], me[ 8 ], 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + extractBasis( xAxis, yAxis, zAxis ) { + + xAxis.setFromMatrixColumn( this, 0 ); + yAxis.setFromMatrixColumn( this, 1 ); + zAxis.setFromMatrixColumn( this, 2 ); + + return this; + + } + + makeBasis( xAxis, yAxis, zAxis ) { + + this.set( + xAxis.x, yAxis.x, zAxis.x, 0, + xAxis.y, yAxis.y, zAxis.y, 0, + xAxis.z, yAxis.z, zAxis.z, 0, + 0, 0, 0, 1 + ); + + return this; + + } + + extractRotation( m ) { + + // this method does not support reflection matrices + + const te = this.elements; + const me = m.elements; + + const scaleX = 1 / _v1$5.setFromMatrixColumn( m, 0 ).length(); + const scaleY = 1 / _v1$5.setFromMatrixColumn( m, 1 ).length(); + const scaleZ = 1 / _v1$5.setFromMatrixColumn( m, 2 ).length(); + + te[ 0 ] = me[ 0 ] * scaleX; + te[ 1 ] = me[ 1 ] * scaleX; + te[ 2 ] = me[ 2 ] * scaleX; + te[ 3 ] = 0; + + te[ 4 ] = me[ 4 ] * scaleY; + te[ 5 ] = me[ 5 ] * scaleY; + te[ 6 ] = me[ 6 ] * scaleY; + te[ 7 ] = 0; + + te[ 8 ] = me[ 8 ] * scaleZ; + te[ 9 ] = me[ 9 ] * scaleZ; + te[ 10 ] = me[ 10 ] * scaleZ; + te[ 11 ] = 0; + + te[ 12 ] = 0; + te[ 13 ] = 0; + te[ 14 ] = 0; + te[ 15 ] = 1; + + return this; + + } + + makeRotationFromEuler( euler ) { + + const te = this.elements; + + const x = euler.x, y = euler.y, z = euler.z; + const a = Math.cos( x ), b = Math.sin( x ); + const c = Math.cos( y ), d = Math.sin( y ); + const e = Math.cos( z ), f = Math.sin( z ); + + if ( euler.order === 'XYZ' ) { + + const ae = a * e, af = a * f, be = b * e, bf = b * f; + + te[ 0 ] = c * e; + te[ 4 ] = - c * f; + te[ 8 ] = d; + + te[ 1 ] = af + be * d; + te[ 5 ] = ae - bf * d; + te[ 9 ] = - b * c; + + te[ 2 ] = bf - ae * d; + te[ 6 ] = be + af * d; + te[ 10 ] = a * c; + + } else if ( euler.order === 'YXZ' ) { + + const ce = c * e, cf = c * f, de = d * e, df = d * f; + + te[ 0 ] = ce + df * b; + te[ 4 ] = de * b - cf; + te[ 8 ] = a * d; + + te[ 1 ] = a * f; + te[ 5 ] = a * e; + te[ 9 ] = - b; + + te[ 2 ] = cf * b - de; + te[ 6 ] = df + ce * b; + te[ 10 ] = a * c; + + } else if ( euler.order === 'ZXY' ) { + + const ce = c * e, cf = c * f, de = d * e, df = d * f; + + te[ 0 ] = ce - df * b; + te[ 4 ] = - a * f; + te[ 8 ] = de + cf * b; + + te[ 1 ] = cf + de * b; + te[ 5 ] = a * e; + te[ 9 ] = df - ce * b; + + te[ 2 ] = - a * d; + te[ 6 ] = b; + te[ 10 ] = a * c; + + } else if ( euler.order === 'ZYX' ) { + + const ae = a * e, af = a * f, be = b * e, bf = b * f; + + te[ 0 ] = c * e; + te[ 4 ] = be * d - af; + te[ 8 ] = ae * d + bf; + + te[ 1 ] = c * f; + te[ 5 ] = bf * d + ae; + te[ 9 ] = af * d - be; + + te[ 2 ] = - d; + te[ 6 ] = b * c; + te[ 10 ] = a * c; + + } else if ( euler.order === 'YZX' ) { + + const ac = a * c, ad = a * d, bc = b * c, bd = b * d; + + te[ 0 ] = c * e; + te[ 4 ] = bd - ac * f; + te[ 8 ] = bc * f + ad; + + te[ 1 ] = f; + te[ 5 ] = a * e; + te[ 9 ] = - b * e; + + te[ 2 ] = - d * e; + te[ 6 ] = ad * f + bc; + te[ 10 ] = ac - bd * f; + + } else if ( euler.order === 'XZY' ) { + + const ac = a * c, ad = a * d, bc = b * c, bd = b * d; + + te[ 0 ] = c * e; + te[ 4 ] = - f; + te[ 8 ] = d * e; + + te[ 1 ] = ac * f + bd; + te[ 5 ] = a * e; + te[ 9 ] = ad * f - bc; + + te[ 2 ] = bc * f - ad; + te[ 6 ] = b * e; + te[ 10 ] = bd * f + ac; + + } + + // bottom row + te[ 3 ] = 0; + te[ 7 ] = 0; + te[ 11 ] = 0; + + // last column + te[ 12 ] = 0; + te[ 13 ] = 0; + te[ 14 ] = 0; + te[ 15 ] = 1; + + return this; + + } + + makeRotationFromQuaternion( q ) { + + return this.compose( _zero, q, _one ); + + } + + lookAt( eye, target, up ) { + + const te = this.elements; + + _z.subVectors( eye, target ); + + if ( _z.lengthSq() === 0 ) { + + // eye and target are in the same position + + _z.z = 1; + + } + + _z.normalize(); + _x.crossVectors( up, _z ); + + if ( _x.lengthSq() === 0 ) { + + // up and z are parallel + + if ( Math.abs( up.z ) === 1 ) { + + _z.x += 0.0001; + + } else { + + _z.z += 0.0001; + + } + + _z.normalize(); + _x.crossVectors( up, _z ); + + } + + _x.normalize(); + _y.crossVectors( _z, _x ); + + te[ 0 ] = _x.x; te[ 4 ] = _y.x; te[ 8 ] = _z.x; + te[ 1 ] = _x.y; te[ 5 ] = _y.y; te[ 9 ] = _z.y; + te[ 2 ] = _x.z; te[ 6 ] = _y.z; te[ 10 ] = _z.z; + + return this; + + } + + multiply( m ) { + + return this.multiplyMatrices( this, m ); + + } + + premultiply( m ) { + + return this.multiplyMatrices( m, this ); + + } + + multiplyMatrices( a, b ) { + + const ae = a.elements; + const be = b.elements; + const te = this.elements; + + const a11 = ae[ 0 ], a12 = ae[ 4 ], a13 = ae[ 8 ], a14 = ae[ 12 ]; + const a21 = ae[ 1 ], a22 = ae[ 5 ], a23 = ae[ 9 ], a24 = ae[ 13 ]; + const a31 = ae[ 2 ], a32 = ae[ 6 ], a33 = ae[ 10 ], a34 = ae[ 14 ]; + const a41 = ae[ 3 ], a42 = ae[ 7 ], a43 = ae[ 11 ], a44 = ae[ 15 ]; + + const b11 = be[ 0 ], b12 = be[ 4 ], b13 = be[ 8 ], b14 = be[ 12 ]; + const b21 = be[ 1 ], b22 = be[ 5 ], b23 = be[ 9 ], b24 = be[ 13 ]; + const b31 = be[ 2 ], b32 = be[ 6 ], b33 = be[ 10 ], b34 = be[ 14 ]; + const b41 = be[ 3 ], b42 = be[ 7 ], b43 = be[ 11 ], b44 = be[ 15 ]; + + te[ 0 ] = a11 * b11 + a12 * b21 + a13 * b31 + a14 * b41; + te[ 4 ] = a11 * b12 + a12 * b22 + a13 * b32 + a14 * b42; + te[ 8 ] = a11 * b13 + a12 * b23 + a13 * b33 + a14 * b43; + te[ 12 ] = a11 * b14 + a12 * b24 + a13 * b34 + a14 * b44; + + te[ 1 ] = a21 * b11 + a22 * b21 + a23 * b31 + a24 * b41; + te[ 5 ] = a21 * b12 + a22 * b22 + a23 * b32 + a24 * b42; + te[ 9 ] = a21 * b13 + a22 * b23 + a23 * b33 + a24 * b43; + te[ 13 ] = a21 * b14 + a22 * b24 + a23 * b34 + a24 * b44; + + te[ 2 ] = a31 * b11 + a32 * b21 + a33 * b31 + a34 * b41; + te[ 6 ] = a31 * b12 + a32 * b22 + a33 * b32 + a34 * b42; + te[ 10 ] = a31 * b13 + a32 * b23 + a33 * b33 + a34 * b43; + te[ 14 ] = a31 * b14 + a32 * b24 + a33 * b34 + a34 * b44; + + te[ 3 ] = a41 * b11 + a42 * b21 + a43 * b31 + a44 * b41; + te[ 7 ] = a41 * b12 + a42 * b22 + a43 * b32 + a44 * b42; + te[ 11 ] = a41 * b13 + a42 * b23 + a43 * b33 + a44 * b43; + te[ 15 ] = a41 * b14 + a42 * b24 + a43 * b34 + a44 * b44; + + return this; + + } + + multiplyScalar( s ) { + + const te = this.elements; + + te[ 0 ] *= s; te[ 4 ] *= s; te[ 8 ] *= s; te[ 12 ] *= s; + te[ 1 ] *= s; te[ 5 ] *= s; te[ 9 ] *= s; te[ 13 ] *= s; + te[ 2 ] *= s; te[ 6 ] *= s; te[ 10 ] *= s; te[ 14 ] *= s; + te[ 3 ] *= s; te[ 7 ] *= s; te[ 11 ] *= s; te[ 15 ] *= s; + + return this; + + } + + determinant() { + + const te = this.elements; + + const n11 = te[ 0 ], n12 = te[ 4 ], n13 = te[ 8 ], n14 = te[ 12 ]; + const n21 = te[ 1 ], n22 = te[ 5 ], n23 = te[ 9 ], n24 = te[ 13 ]; + const n31 = te[ 2 ], n32 = te[ 6 ], n33 = te[ 10 ], n34 = te[ 14 ]; + const n41 = te[ 3 ], n42 = te[ 7 ], n43 = te[ 11 ], n44 = te[ 15 ]; + + //TODO: make this more efficient + //( based on http://www.euclideanspace.com/maths/algebra/matrix/functions/inverse/fourD/index.htm ) + + return ( + n41 * ( + + n14 * n23 * n32 + - n13 * n24 * n32 + - n14 * n22 * n33 + + n12 * n24 * n33 + + n13 * n22 * n34 + - n12 * n23 * n34 + ) + + n42 * ( + + n11 * n23 * n34 + - n11 * n24 * n33 + + n14 * n21 * n33 + - n13 * n21 * n34 + + n13 * n24 * n31 + - n14 * n23 * n31 + ) + + n43 * ( + + n11 * n24 * n32 + - n11 * n22 * n34 + - n14 * n21 * n32 + + n12 * n21 * n34 + + n14 * n22 * n31 + - n12 * n24 * n31 + ) + + n44 * ( + - n13 * n22 * n31 + - n11 * n23 * n32 + + n11 * n22 * n33 + + n13 * n21 * n32 + - n12 * n21 * n33 + + n12 * n23 * n31 + ) + + ); + + } + + transpose() { + + const te = this.elements; + let tmp; + + tmp = te[ 1 ]; te[ 1 ] = te[ 4 ]; te[ 4 ] = tmp; + tmp = te[ 2 ]; te[ 2 ] = te[ 8 ]; te[ 8 ] = tmp; + tmp = te[ 6 ]; te[ 6 ] = te[ 9 ]; te[ 9 ] = tmp; + + tmp = te[ 3 ]; te[ 3 ] = te[ 12 ]; te[ 12 ] = tmp; + tmp = te[ 7 ]; te[ 7 ] = te[ 13 ]; te[ 13 ] = tmp; + tmp = te[ 11 ]; te[ 11 ] = te[ 14 ]; te[ 14 ] = tmp; + + return this; + + } + + setPosition( x, y, z ) { + + const te = this.elements; + + if ( x.isVector3 ) { + + te[ 12 ] = x.x; + te[ 13 ] = x.y; + te[ 14 ] = x.z; + + } else { + + te[ 12 ] = x; + te[ 13 ] = y; + te[ 14 ] = z; + + } + + return this; + + } + + invert() { + + // based on http://www.euclideanspace.com/maths/algebra/matrix/functions/inverse/fourD/index.htm + const te = this.elements, + + n11 = te[ 0 ], n21 = te[ 1 ], n31 = te[ 2 ], n41 = te[ 3 ], + n12 = te[ 4 ], n22 = te[ 5 ], n32 = te[ 6 ], n42 = te[ 7 ], + n13 = te[ 8 ], n23 = te[ 9 ], n33 = te[ 10 ], n43 = te[ 11 ], + n14 = te[ 12 ], n24 = te[ 13 ], n34 = te[ 14 ], n44 = te[ 15 ], + + t11 = n23 * n34 * n42 - n24 * n33 * n42 + n24 * n32 * n43 - n22 * n34 * n43 - n23 * n32 * n44 + n22 * n33 * n44, + t12 = n14 * n33 * n42 - n13 * n34 * n42 - n14 * n32 * n43 + n12 * n34 * n43 + n13 * n32 * n44 - n12 * n33 * n44, + t13 = n13 * n24 * n42 - n14 * n23 * n42 + n14 * n22 * n43 - n12 * n24 * n43 - n13 * n22 * n44 + n12 * n23 * n44, + t14 = n14 * n23 * n32 - n13 * n24 * n32 - n14 * n22 * n33 + n12 * n24 * n33 + n13 * n22 * n34 - n12 * n23 * n34; + + const det = n11 * t11 + n21 * t12 + n31 * t13 + n41 * t14; + + if ( det === 0 ) return this.set( 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 ); + + const detInv = 1 / det; + + te[ 0 ] = t11 * detInv; + te[ 1 ] = ( n24 * n33 * n41 - n23 * n34 * n41 - n24 * n31 * n43 + n21 * n34 * n43 + n23 * n31 * n44 - n21 * n33 * n44 ) * detInv; + te[ 2 ] = ( n22 * n34 * n41 - n24 * n32 * n41 + n24 * n31 * n42 - n21 * n34 * n42 - n22 * n31 * n44 + n21 * n32 * n44 ) * detInv; + te[ 3 ] = ( n23 * n32 * n41 - n22 * n33 * n41 - n23 * n31 * n42 + n21 * n33 * n42 + n22 * n31 * n43 - n21 * n32 * n43 ) * detInv; + + te[ 4 ] = t12 * detInv; + te[ 5 ] = ( n13 * n34 * n41 - n14 * n33 * n41 + n14 * n31 * n43 - n11 * n34 * n43 - n13 * n31 * n44 + n11 * n33 * n44 ) * detInv; + te[ 6 ] = ( n14 * n32 * n41 - n12 * n34 * n41 - n14 * n31 * n42 + n11 * n34 * n42 + n12 * n31 * n44 - n11 * n32 * n44 ) * detInv; + te[ 7 ] = ( n12 * n33 * n41 - n13 * n32 * n41 + n13 * n31 * n42 - n11 * n33 * n42 - n12 * n31 * n43 + n11 * n32 * n43 ) * detInv; + + te[ 8 ] = t13 * detInv; + te[ 9 ] = ( n14 * n23 * n41 - n13 * n24 * n41 - n14 * n21 * n43 + n11 * n24 * n43 + n13 * n21 * n44 - n11 * n23 * n44 ) * detInv; + te[ 10 ] = ( n12 * n24 * n41 - n14 * n22 * n41 + n14 * n21 * n42 - n11 * n24 * n42 - n12 * n21 * n44 + n11 * n22 * n44 ) * detInv; + te[ 11 ] = ( n13 * n22 * n41 - n12 * n23 * n41 - n13 * n21 * n42 + n11 * n23 * n42 + n12 * n21 * n43 - n11 * n22 * n43 ) * detInv; + + te[ 12 ] = t14 * detInv; + te[ 13 ] = ( n13 * n24 * n31 - n14 * n23 * n31 + n14 * n21 * n33 - n11 * n24 * n33 - n13 * n21 * n34 + n11 * n23 * n34 ) * detInv; + te[ 14 ] = ( n14 * n22 * n31 - n12 * n24 * n31 - n14 * n21 * n32 + n11 * n24 * n32 + n12 * n21 * n34 - n11 * n22 * n34 ) * detInv; + te[ 15 ] = ( n12 * n23 * n31 - n13 * n22 * n31 + n13 * n21 * n32 - n11 * n23 * n32 - n12 * n21 * n33 + n11 * n22 * n33 ) * detInv; + + return this; + + } + + scale( v ) { + + const te = this.elements; + const x = v.x, y = v.y, z = v.z; + + te[ 0 ] *= x; te[ 4 ] *= y; te[ 8 ] *= z; + te[ 1 ] *= x; te[ 5 ] *= y; te[ 9 ] *= z; + te[ 2 ] *= x; te[ 6 ] *= y; te[ 10 ] *= z; + te[ 3 ] *= x; te[ 7 ] *= y; te[ 11 ] *= z; + + return this; + + } + + getMaxScaleOnAxis() { + + const te = this.elements; + + const scaleXSq = te[ 0 ] * te[ 0 ] + te[ 1 ] * te[ 1 ] + te[ 2 ] * te[ 2 ]; + const scaleYSq = te[ 4 ] * te[ 4 ] + te[ 5 ] * te[ 5 ] + te[ 6 ] * te[ 6 ]; + const scaleZSq = te[ 8 ] * te[ 8 ] + te[ 9 ] * te[ 9 ] + te[ 10 ] * te[ 10 ]; + + return Math.sqrt( Math.max( scaleXSq, scaleYSq, scaleZSq ) ); + + } + + makeTranslation( x, y, z ) { + + if ( x.isVector3 ) { + + this.set( + + 1, 0, 0, x.x, + 0, 1, 0, x.y, + 0, 0, 1, x.z, + 0, 0, 0, 1 + + ); + + } else { + + this.set( + + 1, 0, 0, x, + 0, 1, 0, y, + 0, 0, 1, z, + 0, 0, 0, 1 + + ); + + } + + return this; + + } + + makeRotationX( theta ) { + + const c = Math.cos( theta ), s = Math.sin( theta ); + + this.set( + + 1, 0, 0, 0, + 0, c, - s, 0, + 0, s, c, 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + makeRotationY( theta ) { + + const c = Math.cos( theta ), s = Math.sin( theta ); + + this.set( + + c, 0, s, 0, + 0, 1, 0, 0, + - s, 0, c, 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + makeRotationZ( theta ) { + + const c = Math.cos( theta ), s = Math.sin( theta ); + + this.set( + + c, - s, 0, 0, + s, c, 0, 0, + 0, 0, 1, 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + makeRotationAxis( axis, angle ) { + + // Based on http://www.gamedev.net/reference/articles/article1199.asp + + const c = Math.cos( angle ); + const s = Math.sin( angle ); + const t = 1 - c; + const x = axis.x, y = axis.y, z = axis.z; + const tx = t * x, ty = t * y; + + this.set( + + tx * x + c, tx * y - s * z, tx * z + s * y, 0, + tx * y + s * z, ty * y + c, ty * z - s * x, 0, + tx * z - s * y, ty * z + s * x, t * z * z + c, 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + makeScale( x, y, z ) { + + this.set( + + x, 0, 0, 0, + 0, y, 0, 0, + 0, 0, z, 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + makeShear( xy, xz, yx, yz, zx, zy ) { + + this.set( + + 1, yx, zx, 0, + xy, 1, zy, 0, + xz, yz, 1, 0, + 0, 0, 0, 1 + + ); + + return this; + + } + + compose( position, quaternion, scale ) { + + const te = this.elements; + + const x = quaternion._x, y = quaternion._y, z = quaternion._z, w = quaternion._w; + const x2 = x + x, y2 = y + y, z2 = z + z; + const xx = x * x2, xy = x * y2, xz = x * z2; + const yy = y * y2, yz = y * z2, zz = z * z2; + const wx = w * x2, wy = w * y2, wz = w * z2; + + const sx = scale.x, sy = scale.y, sz = scale.z; + + te[ 0 ] = ( 1 - ( yy + zz ) ) * sx; + te[ 1 ] = ( xy + wz ) * sx; + te[ 2 ] = ( xz - wy ) * sx; + te[ 3 ] = 0; + + te[ 4 ] = ( xy - wz ) * sy; + te[ 5 ] = ( 1 - ( xx + zz ) ) * sy; + te[ 6 ] = ( yz + wx ) * sy; + te[ 7 ] = 0; + + te[ 8 ] = ( xz + wy ) * sz; + te[ 9 ] = ( yz - wx ) * sz; + te[ 10 ] = ( 1 - ( xx + yy ) ) * sz; + te[ 11 ] = 0; + + te[ 12 ] = position.x; + te[ 13 ] = position.y; + te[ 14 ] = position.z; + te[ 15 ] = 1; + + return this; + + } + + decompose( position, quaternion, scale ) { + + const te = this.elements; + + let sx = _v1$5.set( te[ 0 ], te[ 1 ], te[ 2 ] ).length(); + const sy = _v1$5.set( te[ 4 ], te[ 5 ], te[ 6 ] ).length(); + const sz = _v1$5.set( te[ 8 ], te[ 9 ], te[ 10 ] ).length(); + + // if determine is negative, we need to invert one scale + const det = this.determinant(); + if ( det < 0 ) sx = - sx; + + position.x = te[ 12 ]; + position.y = te[ 13 ]; + position.z = te[ 14 ]; + + // scale the rotation part + _m1$2.copy( this ); + + const invSX = 1 / sx; + const invSY = 1 / sy; + const invSZ = 1 / sz; + + _m1$2.elements[ 0 ] *= invSX; + _m1$2.elements[ 1 ] *= invSX; + _m1$2.elements[ 2 ] *= invSX; + + _m1$2.elements[ 4 ] *= invSY; + _m1$2.elements[ 5 ] *= invSY; + _m1$2.elements[ 6 ] *= invSY; + + _m1$2.elements[ 8 ] *= invSZ; + _m1$2.elements[ 9 ] *= invSZ; + _m1$2.elements[ 10 ] *= invSZ; + + quaternion.setFromRotationMatrix( _m1$2 ); + + scale.x = sx; + scale.y = sy; + scale.z = sz; + + return this; + + } + + makePerspective( left, right, top, bottom, near, far, coordinateSystem = WebGLCoordinateSystem ) { + + const te = this.elements; + const x = 2 * near / ( right - left ); + const y = 2 * near / ( top - bottom ); + + const a = ( right + left ) / ( right - left ); + const b = ( top + bottom ) / ( top - bottom ); + + let c, d; + + if ( coordinateSystem === WebGLCoordinateSystem ) { + + c = - ( far + near ) / ( far - near ); + d = ( - 2 * far * near ) / ( far - near ); + + } else if ( coordinateSystem === WebGPUCoordinateSystem ) { + + c = - far / ( far - near ); + d = ( - far * near ) / ( far - near ); + + } else { + + throw new Error( 'THREE.Matrix4.makePerspective(): Invalid coordinate system: ' + coordinateSystem ); + + } + + te[ 0 ] = x; te[ 4 ] = 0; te[ 8 ] = a; te[ 12 ] = 0; + te[ 1 ] = 0; te[ 5 ] = y; te[ 9 ] = b; te[ 13 ] = 0; + te[ 2 ] = 0; te[ 6 ] = 0; te[ 10 ] = c; te[ 14 ] = d; + te[ 3 ] = 0; te[ 7 ] = 0; te[ 11 ] = - 1; te[ 15 ] = 0; + + return this; + + } + + makeOrthographic( left, right, top, bottom, near, far, coordinateSystem = WebGLCoordinateSystem ) { + + const te = this.elements; + const w = 1.0 / ( right - left ); + const h = 1.0 / ( top - bottom ); + const p = 1.0 / ( far - near ); + + const x = ( right + left ) * w; + const y = ( top + bottom ) * h; + + let z, zInv; + + if ( coordinateSystem === WebGLCoordinateSystem ) { + + z = ( far + near ) * p; + zInv = - 2 * p; + + } else if ( coordinateSystem === WebGPUCoordinateSystem ) { + + z = near * p; + zInv = - 1 * p; + + } else { + + throw new Error( 'THREE.Matrix4.makeOrthographic(): Invalid coordinate system: ' + coordinateSystem ); + + } + + te[ 0 ] = 2 * w; te[ 4 ] = 0; te[ 8 ] = 0; te[ 12 ] = - x; + te[ 1 ] = 0; te[ 5 ] = 2 * h; te[ 9 ] = 0; te[ 13 ] = - y; + te[ 2 ] = 0; te[ 6 ] = 0; te[ 10 ] = zInv; te[ 14 ] = - z; + te[ 3 ] = 0; te[ 7 ] = 0; te[ 11 ] = 0; te[ 15 ] = 1; + + return this; + + } + + equals( matrix ) { + + const te = this.elements; + const me = matrix.elements; + + for ( let i = 0; i < 16; i ++ ) { + + if ( te[ i ] !== me[ i ] ) return false; + + } + + return true; + + } + + fromArray( array, offset = 0 ) { + + for ( let i = 0; i < 16; i ++ ) { + + this.elements[ i ] = array[ i + offset ]; + + } + + return this; + + } + + toArray( array = [], offset = 0 ) { + + const te = this.elements; + + array[ offset ] = te[ 0 ]; + array[ offset + 1 ] = te[ 1 ]; + array[ offset + 2 ] = te[ 2 ]; + array[ offset + 3 ] = te[ 3 ]; + + array[ offset + 4 ] = te[ 4 ]; + array[ offset + 5 ] = te[ 5 ]; + array[ offset + 6 ] = te[ 6 ]; + array[ offset + 7 ] = te[ 7 ]; + + array[ offset + 8 ] = te[ 8 ]; + array[ offset + 9 ] = te[ 9 ]; + array[ offset + 10 ] = te[ 10 ]; + array[ offset + 11 ] = te[ 11 ]; + + array[ offset + 12 ] = te[ 12 ]; + array[ offset + 13 ] = te[ 13 ]; + array[ offset + 14 ] = te[ 14 ]; + array[ offset + 15 ] = te[ 15 ]; + + return array; + + } + +} + +const _v1$5 = /*@__PURE__*/ new Vector3(); +const _m1$2 = /*@__PURE__*/ new Matrix4(); +const _zero = /*@__PURE__*/ new Vector3( 0, 0, 0 ); +const _one = /*@__PURE__*/ new Vector3( 1, 1, 1 ); +const _x = /*@__PURE__*/ new Vector3(); +const _y = /*@__PURE__*/ new Vector3(); +const _z = /*@__PURE__*/ new Vector3(); + +const _matrix$2 = /*@__PURE__*/ new Matrix4(); +const _quaternion$3 = /*@__PURE__*/ new Quaternion(); + +class Euler { + + constructor( x = 0, y = 0, z = 0, order = Euler.DEFAULT_ORDER ) { + + this.isEuler = true; + + this._x = x; + this._y = y; + this._z = z; + this._order = order; + + } + + get x() { + + return this._x; + + } + + set x( value ) { + + this._x = value; + this._onChangeCallback(); + + } + + get y() { + + return this._y; + + } + + set y( value ) { + + this._y = value; + this._onChangeCallback(); + + } + + get z() { + + return this._z; + + } + + set z( value ) { + + this._z = value; + this._onChangeCallback(); + + } + + get order() { + + return this._order; + + } + + set order( value ) { + + this._order = value; + this._onChangeCallback(); + + } + + set( x, y, z, order = this._order ) { + + this._x = x; + this._y = y; + this._z = z; + this._order = order; + + this._onChangeCallback(); + + return this; + + } + + clone() { + + return new this.constructor( this._x, this._y, this._z, this._order ); + + } + + copy( euler ) { + + this._x = euler._x; + this._y = euler._y; + this._z = euler._z; + this._order = euler._order; + + this._onChangeCallback(); + + return this; + + } + + setFromRotationMatrix( m, order = this._order, update = true ) { + + // assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled) + + const te = m.elements; + const m11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ]; + const m21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ]; + const m31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ]; + + switch ( order ) { + + case 'XYZ': + + this._y = Math.asin( clamp$1( m13, - 1, 1 ) ); + + if ( Math.abs( m13 ) < 0.9999999 ) { + + this._x = Math.atan2( - m23, m33 ); + this._z = Math.atan2( - m12, m11 ); + + } else { + + this._x = Math.atan2( m32, m22 ); + this._z = 0; + + } + + break; + + case 'YXZ': + + this._x = Math.asin( - clamp$1( m23, - 1, 1 ) ); + + if ( Math.abs( m23 ) < 0.9999999 ) { + + this._y = Math.atan2( m13, m33 ); + this._z = Math.atan2( m21, m22 ); + + } else { + + this._y = Math.atan2( - m31, m11 ); + this._z = 0; + + } + + break; + + case 'ZXY': + + this._x = Math.asin( clamp$1( m32, - 1, 1 ) ); + + if ( Math.abs( m32 ) < 0.9999999 ) { + + this._y = Math.atan2( - m31, m33 ); + this._z = Math.atan2( - m12, m22 ); + + } else { + + this._y = 0; + this._z = Math.atan2( m21, m11 ); + + } + + break; + + case 'ZYX': + + this._y = Math.asin( - clamp$1( m31, - 1, 1 ) ); + + if ( Math.abs( m31 ) < 0.9999999 ) { + + this._x = Math.atan2( m32, m33 ); + this._z = Math.atan2( m21, m11 ); + + } else { + + this._x = 0; + this._z = Math.atan2( - m12, m22 ); + + } + + break; + + case 'YZX': + + this._z = Math.asin( clamp$1( m21, - 1, 1 ) ); + + if ( Math.abs( m21 ) < 0.9999999 ) { + + this._x = Math.atan2( - m23, m22 ); + this._y = Math.atan2( - m31, m11 ); + + } else { + + this._x = 0; + this._y = Math.atan2( m13, m33 ); + + } + + break; + + case 'XZY': + + this._z = Math.asin( - clamp$1( m12, - 1, 1 ) ); + + if ( Math.abs( m12 ) < 0.9999999 ) { + + this._x = Math.atan2( m32, m22 ); + this._y = Math.atan2( m13, m11 ); + + } else { + + this._x = Math.atan2( - m23, m33 ); + this._y = 0; + + } + + break; + + default: + + console.warn( 'THREE.Euler: .setFromRotationMatrix() encountered an unknown order: ' + order ); + + } + + this._order = order; + + if ( update === true ) this._onChangeCallback(); + + return this; + + } + + setFromQuaternion( q, order, update ) { + + _matrix$2.makeRotationFromQuaternion( q ); + + return this.setFromRotationMatrix( _matrix$2, order, update ); + + } + + setFromVector3( v, order = this._order ) { + + return this.set( v.x, v.y, v.z, order ); + + } + + reorder( newOrder ) { + + // WARNING: this discards revolution information -bhouston + + _quaternion$3.setFromEuler( this ); + + return this.setFromQuaternion( _quaternion$3, newOrder ); + + } + + equals( euler ) { + + return ( euler._x === this._x ) && ( euler._y === this._y ) && ( euler._z === this._z ) && ( euler._order === this._order ); + + } + + fromArray( array ) { + + this._x = array[ 0 ]; + this._y = array[ 1 ]; + this._z = array[ 2 ]; + if ( array[ 3 ] !== undefined ) this._order = array[ 3 ]; + + this._onChangeCallback(); + + return this; + + } + + toArray( array = [], offset = 0 ) { + + array[ offset ] = this._x; + array[ offset + 1 ] = this._y; + array[ offset + 2 ] = this._z; + array[ offset + 3 ] = this._order; + + return array; + + } + + _onChange( callback ) { + + this._onChangeCallback = callback; + + return this; + + } + + _onChangeCallback() {} + + *[ Symbol.iterator ]() { + + yield this._x; + yield this._y; + yield this._z; + yield this._order; + + } + +} + +Euler.DEFAULT_ORDER = 'XYZ'; + +class Layers { + + constructor() { + + this.mask = 1 | 0; + + } + + set( channel ) { + + this.mask = ( 1 << channel | 0 ) >>> 0; + + } + + enable( channel ) { + + this.mask |= 1 << channel | 0; + + } + + enableAll() { + + this.mask = 0xffffffff | 0; + + } + + toggle( channel ) { + + this.mask ^= 1 << channel | 0; + + } + + disable( channel ) { + + this.mask &= ~ ( 1 << channel | 0 ); + + } + + disableAll() { + + this.mask = 0; + + } + + test( layers ) { + + return ( this.mask & layers.mask ) !== 0; + + } + + isEnabled( channel ) { + + return ( this.mask & ( 1 << channel | 0 ) ) !== 0; + + } + +} + +let _object3DId = 0; + +const _v1$4 = /*@__PURE__*/ new Vector3(); +const _q1 = /*@__PURE__*/ new Quaternion(); +const _m1$1 = /*@__PURE__*/ new Matrix4(); +const _target$1 = /*@__PURE__*/ new Vector3(); + +const _position$3 = /*@__PURE__*/ new Vector3(); +const _scale$2 = /*@__PURE__*/ new Vector3(); +const _quaternion$2 = /*@__PURE__*/ new Quaternion(); + +const _xAxis = /*@__PURE__*/ new Vector3( 1, 0, 0 ); +const _yAxis = /*@__PURE__*/ new Vector3( 0, 1, 0 ); +const _zAxis = /*@__PURE__*/ new Vector3( 0, 0, 1 ); + +const _addedEvent = { type: 'added' }; +const _removedEvent = { type: 'removed' }; + +const _childaddedEvent = { type: 'childadded', child: null }; +const _childremovedEvent = { type: 'childremoved', child: null }; + +class Object3D extends EventDispatcher { + + constructor() { + + super(); + + this.isObject3D = true; + + Object.defineProperty( this, 'id', { value: _object3DId ++ } ); + + this.uuid = generateUUID(); + + this.name = ''; + this.type = 'Object3D'; + + this.parent = null; + this.children = []; + + this.up = Object3D.DEFAULT_UP.clone(); + + const position = new Vector3(); + const rotation = new Euler(); + const quaternion = new Quaternion(); + const scale = new Vector3( 1, 1, 1 ); + + function onRotationChange() { + + quaternion.setFromEuler( rotation, false ); + + } + + function onQuaternionChange() { + + rotation.setFromQuaternion( quaternion, undefined, false ); + + } + + rotation._onChange( onRotationChange ); + quaternion._onChange( onQuaternionChange ); + + Object.defineProperties( this, { + position: { + configurable: true, + enumerable: true, + value: position + }, + rotation: { + configurable: true, + enumerable: true, + value: rotation + }, + quaternion: { + configurable: true, + enumerable: true, + value: quaternion + }, + scale: { + configurable: true, + enumerable: true, + value: scale + }, + modelViewMatrix: { + value: new Matrix4() + }, + normalMatrix: { + value: new Matrix3() + } + } ); + + this.matrix = new Matrix4(); + this.matrixWorld = new Matrix4(); + + this.matrixAutoUpdate = Object3D.DEFAULT_MATRIX_AUTO_UPDATE; + + this.matrixWorldAutoUpdate = Object3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE; // checked by the renderer + this.matrixWorldNeedsUpdate = false; + + this.layers = new Layers(); + this.visible = true; + + this.castShadow = false; + this.receiveShadow = false; + + this.frustumCulled = true; + this.renderOrder = 0; + + this.animations = []; + + this.userData = {}; + + } + + onBeforeShadow( /* renderer, object, camera, shadowCamera, geometry, depthMaterial, group */ ) {} + + onAfterShadow( /* renderer, object, camera, shadowCamera, geometry, depthMaterial, group */ ) {} + + onBeforeRender( /* renderer, scene, camera, geometry, material, group */ ) {} + + onAfterRender( /* renderer, scene, camera, geometry, material, group */ ) {} + + applyMatrix4( matrix ) { + + if ( this.matrixAutoUpdate ) this.updateMatrix(); + + this.matrix.premultiply( matrix ); + + this.matrix.decompose( this.position, this.quaternion, this.scale ); + + } + + applyQuaternion( q ) { + + this.quaternion.premultiply( q ); + + return this; + + } + + setRotationFromAxisAngle( axis, angle ) { + + // assumes axis is normalized + + this.quaternion.setFromAxisAngle( axis, angle ); + + } + + setRotationFromEuler( euler ) { + + this.quaternion.setFromEuler( euler, true ); + + } + + setRotationFromMatrix( m ) { + + // assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled) + + this.quaternion.setFromRotationMatrix( m ); + + } + + setRotationFromQuaternion( q ) { + + // assumes q is normalized + + this.quaternion.copy( q ); + + } + + rotateOnAxis( axis, angle ) { + + // rotate object on axis in object space + // axis is assumed to be normalized + + _q1.setFromAxisAngle( axis, angle ); + + this.quaternion.multiply( _q1 ); + + return this; + + } + + rotateOnWorldAxis( axis, angle ) { + + // rotate object on axis in world space + // axis is assumed to be normalized + // method assumes no rotated parent + + _q1.setFromAxisAngle( axis, angle ); + + this.quaternion.premultiply( _q1 ); + + return this; + + } + + rotateX( angle ) { + + return this.rotateOnAxis( _xAxis, angle ); + + } + + rotateY( angle ) { + + return this.rotateOnAxis( _yAxis, angle ); + + } + + rotateZ( angle ) { + + return this.rotateOnAxis( _zAxis, angle ); + + } + + translateOnAxis( axis, distance ) { + + // translate object by distance along axis in object space + // axis is assumed to be normalized + + _v1$4.copy( axis ).applyQuaternion( this.quaternion ); + + this.position.add( _v1$4.multiplyScalar( distance ) ); + + return this; + + } + + translateX( distance ) { + + return this.translateOnAxis( _xAxis, distance ); + + } + + translateY( distance ) { + + return this.translateOnAxis( _yAxis, distance ); + + } + + translateZ( distance ) { + + return this.translateOnAxis( _zAxis, distance ); + + } + + localToWorld( vector ) { + + this.updateWorldMatrix( true, false ); + + return vector.applyMatrix4( this.matrixWorld ); + + } + + worldToLocal( vector ) { + + this.updateWorldMatrix( true, false ); + + return vector.applyMatrix4( _m1$1.copy( this.matrixWorld ).invert() ); + + } + + lookAt( x, y, z ) { + + // This method does not support objects having non-uniformly-scaled parent(s) + + if ( x.isVector3 ) { + + _target$1.copy( x ); + + } else { + + _target$1.set( x, y, z ); + + } + + const parent = this.parent; + + this.updateWorldMatrix( true, false ); + + _position$3.setFromMatrixPosition( this.matrixWorld ); + + if ( this.isCamera || this.isLight ) { + + _m1$1.lookAt( _position$3, _target$1, this.up ); + + } else { + + _m1$1.lookAt( _target$1, _position$3, this.up ); + + } + + this.quaternion.setFromRotationMatrix( _m1$1 ); + + if ( parent ) { + + _m1$1.extractRotation( parent.matrixWorld ); + _q1.setFromRotationMatrix( _m1$1 ); + this.quaternion.premultiply( _q1.invert() ); + + } + + } + + add( object ) { + + if ( arguments.length > 1 ) { + + for ( let i = 0; i < arguments.length; i ++ ) { + + this.add( arguments[ i ] ); + + } + + return this; + + } + + if ( object === this ) { + + console.error( 'THREE.Object3D.add: object can\'t be added as a child of itself.', object ); + return this; + + } + + if ( object && object.isObject3D ) { + + object.removeFromParent(); + object.parent = this; + this.children.push( object ); + + object.dispatchEvent( _addedEvent ); + + _childaddedEvent.child = object; + this.dispatchEvent( _childaddedEvent ); + _childaddedEvent.child = null; + + } else { + + console.error( 'THREE.Object3D.add: object not an instance of THREE.Object3D.', object ); + + } + + return this; + + } + + remove( object ) { + + if ( arguments.length > 1 ) { + + for ( let i = 0; i < arguments.length; i ++ ) { + + this.remove( arguments[ i ] ); + + } + + return this; + + } + + const index = this.children.indexOf( object ); + + if ( index !== - 1 ) { + + object.parent = null; + this.children.splice( index, 1 ); + + object.dispatchEvent( _removedEvent ); + + _childremovedEvent.child = object; + this.dispatchEvent( _childremovedEvent ); + _childremovedEvent.child = null; + + } + + return this; + + } + + removeFromParent() { + + const parent = this.parent; + + if ( parent !== null ) { + + parent.remove( this ); + + } + + return this; + + } + + clear() { + + return this.remove( ... this.children ); + + } + + attach( object ) { + + // adds object as a child of this, while maintaining the object's world transform + + // Note: This method does not support scene graphs having non-uniformly-scaled nodes(s) + + this.updateWorldMatrix( true, false ); + + _m1$1.copy( this.matrixWorld ).invert(); + + if ( object.parent !== null ) { + + object.parent.updateWorldMatrix( true, false ); + + _m1$1.multiply( object.parent.matrixWorld ); + + } + + object.applyMatrix4( _m1$1 ); + + object.removeFromParent(); + object.parent = this; + this.children.push( object ); + + object.updateWorldMatrix( false, true ); + + object.dispatchEvent( _addedEvent ); + + _childaddedEvent.child = object; + this.dispatchEvent( _childaddedEvent ); + _childaddedEvent.child = null; + + return this; + + } + + getObjectById( id ) { + + return this.getObjectByProperty( 'id', id ); + + } + + getObjectByName( name ) { + + return this.getObjectByProperty( 'name', name ); + + } + + getObjectByProperty( name, value ) { + + if ( this[ name ] === value ) return this; + + for ( let i = 0, l = this.children.length; i < l; i ++ ) { + + const child = this.children[ i ]; + const object = child.getObjectByProperty( name, value ); + + if ( object !== undefined ) { + + return object; + + } + + } + + return undefined; + + } + + getObjectsByProperty( name, value, result = [] ) { + + if ( this[ name ] === value ) result.push( this ); + + const children = this.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + children[ i ].getObjectsByProperty( name, value, result ); + + } + + return result; + + } + + getWorldPosition( target ) { + + this.updateWorldMatrix( true, false ); + + return target.setFromMatrixPosition( this.matrixWorld ); + + } + + getWorldQuaternion( target ) { + + this.updateWorldMatrix( true, false ); + + this.matrixWorld.decompose( _position$3, target, _scale$2 ); + + return target; + + } + + getWorldScale( target ) { + + this.updateWorldMatrix( true, false ); + + this.matrixWorld.decompose( _position$3, _quaternion$2, target ); + + return target; + + } + + getWorldDirection( target ) { + + this.updateWorldMatrix( true, false ); + + const e = this.matrixWorld.elements; + + return target.set( e[ 8 ], e[ 9 ], e[ 10 ] ).normalize(); + + } + + raycast( /* raycaster, intersects */ ) {} + + traverse( callback ) { + + callback( this ); + + const children = this.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + children[ i ].traverse( callback ); + + } + + } + + traverseVisible( callback ) { + + if ( this.visible === false ) return; + + callback( this ); + + const children = this.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + children[ i ].traverseVisible( callback ); + + } + + } + + traverseAncestors( callback ) { + + const parent = this.parent; + + if ( parent !== null ) { + + callback( parent ); + + parent.traverseAncestors( callback ); + + } + + } + + updateMatrix() { + + this.matrix.compose( this.position, this.quaternion, this.scale ); + + this.matrixWorldNeedsUpdate = true; + + } + + updateMatrixWorld( force ) { + + if ( this.matrixAutoUpdate ) this.updateMatrix(); + + if ( this.matrixWorldNeedsUpdate || force ) { + + if ( this.matrixWorldAutoUpdate === true ) { + + if ( this.parent === null ) { + + this.matrixWorld.copy( this.matrix ); + + } else { + + this.matrixWorld.multiplyMatrices( this.parent.matrixWorld, this.matrix ); + + } + + } + + this.matrixWorldNeedsUpdate = false; + + force = true; + + } + + // make sure descendants are updated if required + + const children = this.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + const child = children[ i ]; + + child.updateMatrixWorld( force ); + + } + + } + + updateWorldMatrix( updateParents, updateChildren ) { + + const parent = this.parent; + + if ( updateParents === true && parent !== null ) { + + parent.updateWorldMatrix( true, false ); + + } + + if ( this.matrixAutoUpdate ) this.updateMatrix(); + + if ( this.matrixWorldAutoUpdate === true ) { + + if ( this.parent === null ) { + + this.matrixWorld.copy( this.matrix ); + + } else { + + this.matrixWorld.multiplyMatrices( this.parent.matrixWorld, this.matrix ); + + } + + } + + // make sure descendants are updated + + if ( updateChildren === true ) { + + const children = this.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + const child = children[ i ]; + + child.updateWorldMatrix( false, true ); + + } + + } + + } + + toJSON( meta ) { + + // meta is a string when called from JSON.stringify + const isRootObject = ( meta === undefined || typeof meta === 'string' ); + + const output = {}; + + // meta is a hash used to collect geometries, materials. + // not providing it implies that this is the root object + // being serialized. + if ( isRootObject ) { + + // initialize meta obj + meta = { + geometries: {}, + materials: {}, + textures: {}, + images: {}, + shapes: {}, + skeletons: {}, + animations: {}, + nodes: {} + }; + + output.metadata = { + version: 4.6, + type: 'Object', + generator: 'Object3D.toJSON' + }; + + } + + // standard Object3D serialization + + const object = {}; + + object.uuid = this.uuid; + object.type = this.type; + + if ( this.name !== '' ) object.name = this.name; + if ( this.castShadow === true ) object.castShadow = true; + if ( this.receiveShadow === true ) object.receiveShadow = true; + if ( this.visible === false ) object.visible = false; + if ( this.frustumCulled === false ) object.frustumCulled = false; + if ( this.renderOrder !== 0 ) object.renderOrder = this.renderOrder; + if ( Object.keys( this.userData ).length > 0 ) object.userData = this.userData; + + object.layers = this.layers.mask; + object.matrix = this.matrix.toArray(); + object.up = this.up.toArray(); + + if ( this.matrixAutoUpdate === false ) object.matrixAutoUpdate = false; + + // object specific properties + + if ( this.isInstancedMesh ) { + + object.type = 'InstancedMesh'; + object.count = this.count; + object.instanceMatrix = this.instanceMatrix.toJSON(); + if ( this.instanceColor !== null ) object.instanceColor = this.instanceColor.toJSON(); + + } + + if ( this.isBatchedMesh ) { + + object.type = 'BatchedMesh'; + object.perObjectFrustumCulled = this.perObjectFrustumCulled; + object.sortObjects = this.sortObjects; + + object.drawRanges = this._drawRanges; + object.reservedRanges = this._reservedRanges; + + object.visibility = this._visibility; + object.active = this._active; + object.bounds = this._bounds.map( bound => ( { + boxInitialized: bound.boxInitialized, + boxMin: bound.box.min.toArray(), + boxMax: bound.box.max.toArray(), + + sphereInitialized: bound.sphereInitialized, + sphereRadius: bound.sphere.radius, + sphereCenter: bound.sphere.center.toArray() + } ) ); + + object.maxInstanceCount = this._maxInstanceCount; + object.maxVertexCount = this._maxVertexCount; + object.maxIndexCount = this._maxIndexCount; + + object.geometryInitialized = this._geometryInitialized; + object.geometryCount = this._geometryCount; + + object.matricesTexture = this._matricesTexture.toJSON( meta ); + + if ( this._colorsTexture !== null ) object.colorsTexture = this._colorsTexture.toJSON( meta ); + + if ( this.boundingSphere !== null ) { + + object.boundingSphere = { + center: object.boundingSphere.center.toArray(), + radius: object.boundingSphere.radius + }; + + } + + if ( this.boundingBox !== null ) { + + object.boundingBox = { + min: object.boundingBox.min.toArray(), + max: object.boundingBox.max.toArray() + }; + + } + + } + + // + + function serialize( library, element ) { + + if ( library[ element.uuid ] === undefined ) { + + library[ element.uuid ] = element.toJSON( meta ); + + } + + return element.uuid; + + } + + if ( this.isScene ) { + + if ( this.background ) { + + if ( this.background.isColor ) { + + object.background = this.background.toJSON(); + + } else if ( this.background.isTexture ) { + + object.background = this.background.toJSON( meta ).uuid; + + } + + } + + if ( this.environment && this.environment.isTexture && this.environment.isRenderTargetTexture !== true ) { + + object.environment = this.environment.toJSON( meta ).uuid; + + } + + } else if ( this.isMesh || this.isLine || this.isPoints ) { + + object.geometry = serialize( meta.geometries, this.geometry ); + + const parameters = this.geometry.parameters; + + if ( parameters !== undefined && parameters.shapes !== undefined ) { + + const shapes = parameters.shapes; + + if ( Array.isArray( shapes ) ) { + + for ( let i = 0, l = shapes.length; i < l; i ++ ) { + + const shape = shapes[ i ]; + + serialize( meta.shapes, shape ); + + } + + } else { + + serialize( meta.shapes, shapes ); + + } + + } + + } + + if ( this.isSkinnedMesh ) { + + object.bindMode = this.bindMode; + object.bindMatrix = this.bindMatrix.toArray(); + + if ( this.skeleton !== undefined ) { + + serialize( meta.skeletons, this.skeleton ); + + object.skeleton = this.skeleton.uuid; + + } + + } + + if ( this.material !== undefined ) { + + if ( Array.isArray( this.material ) ) { + + const uuids = []; + + for ( let i = 0, l = this.material.length; i < l; i ++ ) { + + uuids.push( serialize( meta.materials, this.material[ i ] ) ); + + } + + object.material = uuids; + + } else { + + object.material = serialize( meta.materials, this.material ); + + } + + } + + // + + if ( this.children.length > 0 ) { + + object.children = []; + + for ( let i = 0; i < this.children.length; i ++ ) { + + object.children.push( this.children[ i ].toJSON( meta ).object ); + + } + + } + + // + + if ( this.animations.length > 0 ) { + + object.animations = []; + + for ( let i = 0; i < this.animations.length; i ++ ) { + + const animation = this.animations[ i ]; + + object.animations.push( serialize( meta.animations, animation ) ); + + } + + } + + if ( isRootObject ) { + + const geometries = extractFromCache( meta.geometries ); + const materials = extractFromCache( meta.materials ); + const textures = extractFromCache( meta.textures ); + const images = extractFromCache( meta.images ); + const shapes = extractFromCache( meta.shapes ); + const skeletons = extractFromCache( meta.skeletons ); + const animations = extractFromCache( meta.animations ); + const nodes = extractFromCache( meta.nodes ); + + if ( geometries.length > 0 ) output.geometries = geometries; + if ( materials.length > 0 ) output.materials = materials; + if ( textures.length > 0 ) output.textures = textures; + if ( images.length > 0 ) output.images = images; + if ( shapes.length > 0 ) output.shapes = shapes; + if ( skeletons.length > 0 ) output.skeletons = skeletons; + if ( animations.length > 0 ) output.animations = animations; + if ( nodes.length > 0 ) output.nodes = nodes; + + } + + output.object = object; + + return output; + + // extract data from the cache hash + // remove metadata on each item + // and return as array + function extractFromCache( cache ) { + + const values = []; + for ( const key in cache ) { + + const data = cache[ key ]; + delete data.metadata; + values.push( data ); + + } + + return values; + + } + + } + + clone( recursive ) { + + return new this.constructor().copy( this, recursive ); + + } + + copy( source, recursive = true ) { + + this.name = source.name; + + this.up.copy( source.up ); + + this.position.copy( source.position ); + this.rotation.order = source.rotation.order; + this.quaternion.copy( source.quaternion ); + this.scale.copy( source.scale ); + + this.matrix.copy( source.matrix ); + this.matrixWorld.copy( source.matrixWorld ); + + this.matrixAutoUpdate = source.matrixAutoUpdate; + + this.matrixWorldAutoUpdate = source.matrixWorldAutoUpdate; + this.matrixWorldNeedsUpdate = source.matrixWorldNeedsUpdate; + + this.layers.mask = source.layers.mask; + this.visible = source.visible; + + this.castShadow = source.castShadow; + this.receiveShadow = source.receiveShadow; + + this.frustumCulled = source.frustumCulled; + this.renderOrder = source.renderOrder; + + this.animations = source.animations.slice(); + + this.userData = JSON.parse( JSON.stringify( source.userData ) ); + + if ( recursive === true ) { + + for ( let i = 0; i < source.children.length; i ++ ) { + + const child = source.children[ i ]; + this.add( child.clone() ); + + } + + } + + return this; + + } + +} + +Object3D.DEFAULT_UP = /*@__PURE__*/ new Vector3( 0, 1, 0 ); +Object3D.DEFAULT_MATRIX_AUTO_UPDATE = true; +Object3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE = true; + +const _v0$1 = /*@__PURE__*/ new Vector3(); +const _v1$3 = /*@__PURE__*/ new Vector3(); +const _v2$2 = /*@__PURE__*/ new Vector3(); +const _v3$2 = /*@__PURE__*/ new Vector3(); + +const _vab = /*@__PURE__*/ new Vector3(); +const _vac = /*@__PURE__*/ new Vector3(); +const _vbc = /*@__PURE__*/ new Vector3(); +const _vap = /*@__PURE__*/ new Vector3(); +const _vbp = /*@__PURE__*/ new Vector3(); +const _vcp = /*@__PURE__*/ new Vector3(); + +class Triangle { + + constructor( a = new Vector3(), b = new Vector3(), c = new Vector3() ) { + + this.a = a; + this.b = b; + this.c = c; + + } + + static getNormal( a, b, c, target ) { + + target.subVectors( c, b ); + _v0$1.subVectors( a, b ); + target.cross( _v0$1 ); + + const targetLengthSq = target.lengthSq(); + if ( targetLengthSq > 0 ) { + + return target.multiplyScalar( 1 / Math.sqrt( targetLengthSq ) ); + + } + + return target.set( 0, 0, 0 ); + + } + + // static/instance method to calculate barycentric coordinates + // based on: http://www.blackpawn.com/texts/pointinpoly/default.html + static getBarycoord( point, a, b, c, target ) { + + _v0$1.subVectors( c, a ); + _v1$3.subVectors( b, a ); + _v2$2.subVectors( point, a ); + + const dot00 = _v0$1.dot( _v0$1 ); + const dot01 = _v0$1.dot( _v1$3 ); + const dot02 = _v0$1.dot( _v2$2 ); + const dot11 = _v1$3.dot( _v1$3 ); + const dot12 = _v1$3.dot( _v2$2 ); + + const denom = ( dot00 * dot11 - dot01 * dot01 ); + + // collinear or singular triangle + if ( denom === 0 ) { + + target.set( 0, 0, 0 ); + return null; + + } + + const invDenom = 1 / denom; + const u = ( dot11 * dot02 - dot01 * dot12 ) * invDenom; + const v = ( dot00 * dot12 - dot01 * dot02 ) * invDenom; + + // barycentric coordinates must always sum to 1 + return target.set( 1 - u - v, v, u ); + + } + + static containsPoint( point, a, b, c ) { + + // if the triangle is degenerate then we can't contain a point + if ( this.getBarycoord( point, a, b, c, _v3$2 ) === null ) { + + return false; + + } + + return ( _v3$2.x >= 0 ) && ( _v3$2.y >= 0 ) && ( ( _v3$2.x + _v3$2.y ) <= 1 ); + + } + + static getInterpolation( point, p1, p2, p3, v1, v2, v3, target ) { + + if ( this.getBarycoord( point, p1, p2, p3, _v3$2 ) === null ) { + + target.x = 0; + target.y = 0; + if ( 'z' in target ) target.z = 0; + if ( 'w' in target ) target.w = 0; + return null; + + } + + target.setScalar( 0 ); + target.addScaledVector( v1, _v3$2.x ); + target.addScaledVector( v2, _v3$2.y ); + target.addScaledVector( v3, _v3$2.z ); + + return target; + + } + + static isFrontFacing( a, b, c, direction ) { + + _v0$1.subVectors( c, b ); + _v1$3.subVectors( a, b ); + + // strictly front facing + return ( _v0$1.cross( _v1$3 ).dot( direction ) < 0 ) ? true : false; + + } + + set( a, b, c ) { + + this.a.copy( a ); + this.b.copy( b ); + this.c.copy( c ); + + return this; + + } + + setFromPointsAndIndices( points, i0, i1, i2 ) { + + this.a.copy( points[ i0 ] ); + this.b.copy( points[ i1 ] ); + this.c.copy( points[ i2 ] ); + + return this; + + } + + setFromAttributeAndIndices( attribute, i0, i1, i2 ) { + + this.a.fromBufferAttribute( attribute, i0 ); + this.b.fromBufferAttribute( attribute, i1 ); + this.c.fromBufferAttribute( attribute, i2 ); + + return this; + + } + + clone() { + + return new this.constructor().copy( this ); + + } + + copy( triangle ) { + + this.a.copy( triangle.a ); + this.b.copy( triangle.b ); + this.c.copy( triangle.c ); + + return this; + + } + + getArea() { + + _v0$1.subVectors( this.c, this.b ); + _v1$3.subVectors( this.a, this.b ); + + return _v0$1.cross( _v1$3 ).length() * 0.5; + + } + + getMidpoint( target ) { + + return target.addVectors( this.a, this.b ).add( this.c ).multiplyScalar( 1 / 3 ); + + } + + getNormal( target ) { + + return Triangle.getNormal( this.a, this.b, this.c, target ); + + } + + getPlane( target ) { + + return target.setFromCoplanarPoints( this.a, this.b, this.c ); + + } + + getBarycoord( point, target ) { + + return Triangle.getBarycoord( point, this.a, this.b, this.c, target ); + + } + + getInterpolation( point, v1, v2, v3, target ) { + + return Triangle.getInterpolation( point, this.a, this.b, this.c, v1, v2, v3, target ); + + } + + containsPoint( point ) { + + return Triangle.containsPoint( point, this.a, this.b, this.c ); + + } + + isFrontFacing( direction ) { + + return Triangle.isFrontFacing( this.a, this.b, this.c, direction ); + + } + + intersectsBox( box ) { + + return box.intersectsTriangle( this ); + + } + + closestPointToPoint( p, target ) { + + const a = this.a, b = this.b, c = this.c; + let v, w; + + // algorithm thanks to Real-Time Collision Detection by Christer Ericson, + // published by Morgan Kaufmann Publishers, (c) 2005 Elsevier Inc., + // under the accompanying license; see chapter 5.1.5 for detailed explanation. + // basically, we're distinguishing which of the voronoi regions of the triangle + // the point lies in with the minimum amount of redundant computation. + + _vab.subVectors( b, a ); + _vac.subVectors( c, a ); + _vap.subVectors( p, a ); + const d1 = _vab.dot( _vap ); + const d2 = _vac.dot( _vap ); + if ( d1 <= 0 && d2 <= 0 ) { + + // vertex region of A; barycentric coords (1, 0, 0) + return target.copy( a ); + + } + + _vbp.subVectors( p, b ); + const d3 = _vab.dot( _vbp ); + const d4 = _vac.dot( _vbp ); + if ( d3 >= 0 && d4 <= d3 ) { + + // vertex region of B; barycentric coords (0, 1, 0) + return target.copy( b ); + + } + + const vc = d1 * d4 - d3 * d2; + if ( vc <= 0 && d1 >= 0 && d3 <= 0 ) { + + v = d1 / ( d1 - d3 ); + // edge region of AB; barycentric coords (1-v, v, 0) + return target.copy( a ).addScaledVector( _vab, v ); + + } + + _vcp.subVectors( p, c ); + const d5 = _vab.dot( _vcp ); + const d6 = _vac.dot( _vcp ); + if ( d6 >= 0 && d5 <= d6 ) { + + // vertex region of C; barycentric coords (0, 0, 1) + return target.copy( c ); + + } + + const vb = d5 * d2 - d1 * d6; + if ( vb <= 0 && d2 >= 0 && d6 <= 0 ) { + + w = d2 / ( d2 - d6 ); + // edge region of AC; barycentric coords (1-w, 0, w) + return target.copy( a ).addScaledVector( _vac, w ); + + } + + const va = d3 * d6 - d5 * d4; + if ( va <= 0 && ( d4 - d3 ) >= 0 && ( d5 - d6 ) >= 0 ) { + + _vbc.subVectors( c, b ); + w = ( d4 - d3 ) / ( ( d4 - d3 ) + ( d5 - d6 ) ); + // edge region of BC; barycentric coords (0, 1-w, w) + return target.copy( b ).addScaledVector( _vbc, w ); // edge region of BC + + } + + // face region + const denom = 1 / ( va + vb + vc ); + // u = va * denom + v = vb * denom; + w = vc * denom; + + return target.copy( a ).addScaledVector( _vab, v ).addScaledVector( _vac, w ); + + } + + equals( triangle ) { + + return triangle.a.equals( this.a ) && triangle.b.equals( this.b ) && triangle.c.equals( this.c ); + + } + +} + +const _colorKeywords = { 'aliceblue': 0xF0F8FF, 'antiquewhite': 0xFAEBD7, 'aqua': 0x00FFFF, 'aquamarine': 0x7FFFD4, 'azure': 0xF0FFFF, + 'beige': 0xF5F5DC, 'bisque': 0xFFE4C4, 'black': 0x000000, 'blanchedalmond': 0xFFEBCD, 'blue': 0x0000FF, 'blueviolet': 0x8A2BE2, + 'brown': 0xA52A2A, 'burlywood': 0xDEB887, 'cadetblue': 0x5F9EA0, 'chartreuse': 0x7FFF00, 'chocolate': 0xD2691E, 'coral': 0xFF7F50, + 'cornflowerblue': 0x6495ED, 'cornsilk': 0xFFF8DC, 'crimson': 0xDC143C, 'cyan': 0x00FFFF, 'darkblue': 0x00008B, 'darkcyan': 0x008B8B, + 'darkgoldenrod': 0xB8860B, 'darkgray': 0xA9A9A9, 'darkgreen': 0x006400, 'darkgrey': 0xA9A9A9, 'darkkhaki': 0xBDB76B, 'darkmagenta': 0x8B008B, + 'darkolivegreen': 0x556B2F, 'darkorange': 0xFF8C00, 'darkorchid': 0x9932CC, 'darkred': 0x8B0000, 'darksalmon': 0xE9967A, 'darkseagreen': 0x8FBC8F, + 'darkslateblue': 0x483D8B, 'darkslategray': 0x2F4F4F, 'darkslategrey': 0x2F4F4F, 'darkturquoise': 0x00CED1, 'darkviolet': 0x9400D3, + 'deeppink': 0xFF1493, 'deepskyblue': 0x00BFFF, 'dimgray': 0x696969, 'dimgrey': 0x696969, 'dodgerblue': 0x1E90FF, 'firebrick': 0xB22222, + 'floralwhite': 0xFFFAF0, 'forestgreen': 0x228B22, 'fuchsia': 0xFF00FF, 'gainsboro': 0xDCDCDC, 'ghostwhite': 0xF8F8FF, 'gold': 0xFFD700, + 'goldenrod': 0xDAA520, 'gray': 0x808080, 'green': 0x008000, 'greenyellow': 0xADFF2F, 'grey': 0x808080, 'honeydew': 0xF0FFF0, 'hotpink': 0xFF69B4, + 'indianred': 0xCD5C5C, 'indigo': 0x4B0082, 'ivory': 0xFFFFF0, 'khaki': 0xF0E68C, 'lavender': 0xE6E6FA, 'lavenderblush': 0xFFF0F5, 'lawngreen': 0x7CFC00, + 'lemonchiffon': 0xFFFACD, 'lightblue': 0xADD8E6, 'lightcoral': 0xF08080, 'lightcyan': 0xE0FFFF, 'lightgoldenrodyellow': 0xFAFAD2, 'lightgray': 0xD3D3D3, + 'lightgreen': 0x90EE90, 'lightgrey': 0xD3D3D3, 'lightpink': 0xFFB6C1, 'lightsalmon': 0xFFA07A, 'lightseagreen': 0x20B2AA, 'lightskyblue': 0x87CEFA, + 'lightslategray': 0x778899, 'lightslategrey': 0x778899, 'lightsteelblue': 0xB0C4DE, 'lightyellow': 0xFFFFE0, 'lime': 0x00FF00, 'limegreen': 0x32CD32, + 'linen': 0xFAF0E6, 'magenta': 0xFF00FF, 'maroon': 0x800000, 'mediumaquamarine': 0x66CDAA, 'mediumblue': 0x0000CD, 'mediumorchid': 0xBA55D3, + 'mediumpurple': 0x9370DB, 'mediumseagreen': 0x3CB371, 'mediumslateblue': 0x7B68EE, 'mediumspringgreen': 0x00FA9A, 'mediumturquoise': 0x48D1CC, + 'mediumvioletred': 0xC71585, 'midnightblue': 0x191970, 'mintcream': 0xF5FFFA, 'mistyrose': 0xFFE4E1, 'moccasin': 0xFFE4B5, 'navajowhite': 0xFFDEAD, + 'navy': 0x000080, 'oldlace': 0xFDF5E6, 'olive': 0x808000, 'olivedrab': 0x6B8E23, 'orange': 0xFFA500, 'orangered': 0xFF4500, 'orchid': 0xDA70D6, + 'palegoldenrod': 0xEEE8AA, 'palegreen': 0x98FB98, 'paleturquoise': 0xAFEEEE, 'palevioletred': 0xDB7093, 'papayawhip': 0xFFEFD5, 'peachpuff': 0xFFDAB9, + 'peru': 0xCD853F, 'pink': 0xFFC0CB, 'plum': 0xDDA0DD, 'powderblue': 0xB0E0E6, 'purple': 0x800080, 'rebeccapurple': 0x663399, 'red': 0xFF0000, 'rosybrown': 0xBC8F8F, + 'royalblue': 0x4169E1, 'saddlebrown': 0x8B4513, 'salmon': 0xFA8072, 'sandybrown': 0xF4A460, 'seagreen': 0x2E8B57, 'seashell': 0xFFF5EE, + 'sienna': 0xA0522D, 'silver': 0xC0C0C0, 'skyblue': 0x87CEEB, 'slateblue': 0x6A5ACD, 'slategray': 0x708090, 'slategrey': 0x708090, 'snow': 0xFFFAFA, + 'springgreen': 0x00FF7F, 'steelblue': 0x4682B4, 'tan': 0xD2B48C, 'teal': 0x008080, 'thistle': 0xD8BFD8, 'tomato': 0xFF6347, 'turquoise': 0x40E0D0, + 'violet': 0xEE82EE, 'wheat': 0xF5DEB3, 'white': 0xFFFFFF, 'whitesmoke': 0xF5F5F5, 'yellow': 0xFFFF00, 'yellowgreen': 0x9ACD32 }; + +const _hslA = { h: 0, s: 0, l: 0 }; +const _hslB = { h: 0, s: 0, l: 0 }; + +function hue2rgb( p, q, t ) { + + if ( t < 0 ) t += 1; + if ( t > 1 ) t -= 1; + if ( t < 1 / 6 ) return p + ( q - p ) * 6 * t; + if ( t < 1 / 2 ) return q; + if ( t < 2 / 3 ) return p + ( q - p ) * 6 * ( 2 / 3 - t ); + return p; + +} + +class Color { + + constructor( r, g, b ) { + + this.isColor = true; + + this.r = 1; + this.g = 1; + this.b = 1; + + return this.set( r, g, b ); + + } + + set( r, g, b ) { + + if ( g === undefined && b === undefined ) { + + // r is THREE.Color, hex or string + + const value = r; + + if ( value && value.isColor ) { + + this.copy( value ); + + } else if ( typeof value === 'number' ) { + + this.setHex( value ); + + } else if ( typeof value === 'string' ) { + + this.setStyle( value ); + + } + + } else { + + this.setRGB( r, g, b ); + + } + + return this; + + } + + setScalar( scalar ) { + + this.r = scalar; + this.g = scalar; + this.b = scalar; + + return this; + + } + + setHex( hex, colorSpace = SRGBColorSpace ) { + + hex = Math.floor( hex ); + + this.r = ( hex >> 16 & 255 ) / 255; + this.g = ( hex >> 8 & 255 ) / 255; + this.b = ( hex & 255 ) / 255; + + ColorManagement.toWorkingColorSpace( this, colorSpace ); + + return this; + + } + + setRGB( r, g, b, colorSpace = ColorManagement.workingColorSpace ) { + + this.r = r; + this.g = g; + this.b = b; + + ColorManagement.toWorkingColorSpace( this, colorSpace ); + + return this; + + } + + setHSL( h, s, l, colorSpace = ColorManagement.workingColorSpace ) { + + // h,s,l ranges are in 0.0 - 1.0 + h = euclideanModulo( h, 1 ); + s = clamp$1( s, 0, 1 ); + l = clamp$1( l, 0, 1 ); + + if ( s === 0 ) { + + this.r = this.g = this.b = l; + + } else { + + const p = l <= 0.5 ? l * ( 1 + s ) : l + s - ( l * s ); + const q = ( 2 * l ) - p; + + this.r = hue2rgb( q, p, h + 1 / 3 ); + this.g = hue2rgb( q, p, h ); + this.b = hue2rgb( q, p, h - 1 / 3 ); + + } + + ColorManagement.toWorkingColorSpace( this, colorSpace ); + + return this; + + } + + setStyle( style, colorSpace = SRGBColorSpace ) { + + function handleAlpha( string ) { + + if ( string === undefined ) return; + + if ( parseFloat( string ) < 1 ) { + + console.warn( 'THREE.Color: Alpha component of ' + style + ' will be ignored.' ); + + } + + } + + + let m; + + if ( m = /^(\w+)\(([^\)]*)\)/.exec( style ) ) { + + // rgb / hsl + + let color; + const name = m[ 1 ]; + const components = m[ 2 ]; + + switch ( name ) { + + case 'rgb': + case 'rgba': + + if ( color = /^\s*(\d+)\s*,\s*(\d+)\s*,\s*(\d+)\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec( components ) ) { + + // rgb(255,0,0) rgba(255,0,0,0.5) + + handleAlpha( color[ 4 ] ); + + return this.setRGB( + Math.min( 255, parseInt( color[ 1 ], 10 ) ) / 255, + Math.min( 255, parseInt( color[ 2 ], 10 ) ) / 255, + Math.min( 255, parseInt( color[ 3 ], 10 ) ) / 255, + colorSpace + ); + + } + + if ( color = /^\s*(\d+)\%\s*,\s*(\d+)\%\s*,\s*(\d+)\%\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec( components ) ) { + + // rgb(100%,0%,0%) rgba(100%,0%,0%,0.5) + + handleAlpha( color[ 4 ] ); + + return this.setRGB( + Math.min( 100, parseInt( color[ 1 ], 10 ) ) / 100, + Math.min( 100, parseInt( color[ 2 ], 10 ) ) / 100, + Math.min( 100, parseInt( color[ 3 ], 10 ) ) / 100, + colorSpace + ); + + } + + break; + + case 'hsl': + case 'hsla': + + if ( color = /^\s*(\d*\.?\d+)\s*,\s*(\d*\.?\d+)\%\s*,\s*(\d*\.?\d+)\%\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec( components ) ) { + + // hsl(120,50%,50%) hsla(120,50%,50%,0.5) + + handleAlpha( color[ 4 ] ); + + return this.setHSL( + parseFloat( color[ 1 ] ) / 360, + parseFloat( color[ 2 ] ) / 100, + parseFloat( color[ 3 ] ) / 100, + colorSpace + ); + + } + + break; + + default: + + console.warn( 'THREE.Color: Unknown color model ' + style ); + + } + + } else if ( m = /^\#([A-Fa-f\d]+)$/.exec( style ) ) { + + // hex color + + const hex = m[ 1 ]; + const size = hex.length; + + if ( size === 3 ) { + + // #ff0 + return this.setRGB( + parseInt( hex.charAt( 0 ), 16 ) / 15, + parseInt( hex.charAt( 1 ), 16 ) / 15, + parseInt( hex.charAt( 2 ), 16 ) / 15, + colorSpace + ); + + } else if ( size === 6 ) { + + // #ff0000 + return this.setHex( parseInt( hex, 16 ), colorSpace ); + + } else { + + console.warn( 'THREE.Color: Invalid hex color ' + style ); + + } + + } else if ( style && style.length > 0 ) { + + return this.setColorName( style, colorSpace ); + + } + + return this; + + } + + setColorName( style, colorSpace = SRGBColorSpace ) { + + // color keywords + const hex = _colorKeywords[ style.toLowerCase() ]; + + if ( hex !== undefined ) { + + // red + this.setHex( hex, colorSpace ); + + } else { + + // unknown color + console.warn( 'THREE.Color: Unknown color ' + style ); + + } + + return this; + + } + + clone() { + + return new this.constructor( this.r, this.g, this.b ); + + } + + copy( color ) { + + this.r = color.r; + this.g = color.g; + this.b = color.b; + + return this; + + } + + copySRGBToLinear( color ) { + + this.r = SRGBToLinear( color.r ); + this.g = SRGBToLinear( color.g ); + this.b = SRGBToLinear( color.b ); + + return this; + + } + + copyLinearToSRGB( color ) { + + this.r = LinearToSRGB( color.r ); + this.g = LinearToSRGB( color.g ); + this.b = LinearToSRGB( color.b ); + + return this; + + } + + convertSRGBToLinear() { + + this.copySRGBToLinear( this ); + + return this; + + } + + convertLinearToSRGB() { + + this.copyLinearToSRGB( this ); + + return this; + + } + + getHex( colorSpace = SRGBColorSpace ) { + + ColorManagement.fromWorkingColorSpace( _color.copy( this ), colorSpace ); + + return Math.round( clamp$1( _color.r * 255, 0, 255 ) ) * 65536 + Math.round( clamp$1( _color.g * 255, 0, 255 ) ) * 256 + Math.round( clamp$1( _color.b * 255, 0, 255 ) ); + + } + + getHexString( colorSpace = SRGBColorSpace ) { + + return ( '000000' + this.getHex( colorSpace ).toString( 16 ) ).slice( - 6 ); + + } + + getHSL( target, colorSpace = ColorManagement.workingColorSpace ) { + + // h,s,l ranges are in 0.0 - 1.0 + + ColorManagement.fromWorkingColorSpace( _color.copy( this ), colorSpace ); + + const r = _color.r, g = _color.g, b = _color.b; + + const max = Math.max( r, g, b ); + const min = Math.min( r, g, b ); + + let hue, saturation; + const lightness = ( min + max ) / 2.0; + + if ( min === max ) { + + hue = 0; + saturation = 0; + + } else { + + const delta = max - min; + + saturation = lightness <= 0.5 ? delta / ( max + min ) : delta / ( 2 - max - min ); + + switch ( max ) { + + case r: hue = ( g - b ) / delta + ( g < b ? 6 : 0 ); break; + case g: hue = ( b - r ) / delta + 2; break; + case b: hue = ( r - g ) / delta + 4; break; + + } + + hue /= 6; + + } + + target.h = hue; + target.s = saturation; + target.l = lightness; + + return target; + + } + + getRGB( target, colorSpace = ColorManagement.workingColorSpace ) { + + ColorManagement.fromWorkingColorSpace( _color.copy( this ), colorSpace ); + + target.r = _color.r; + target.g = _color.g; + target.b = _color.b; + + return target; + + } + + getStyle( colorSpace = SRGBColorSpace ) { + + ColorManagement.fromWorkingColorSpace( _color.copy( this ), colorSpace ); + + const r = _color.r, g = _color.g, b = _color.b; + + if ( colorSpace !== SRGBColorSpace ) { + + // Requires CSS Color Module Level 4 (https://www.w3.org/TR/css-color-4/). + return `color(${ colorSpace } ${ r.toFixed( 3 ) } ${ g.toFixed( 3 ) } ${ b.toFixed( 3 ) })`; + + } + + return `rgb(${ Math.round( r * 255 ) },${ Math.round( g * 255 ) },${ Math.round( b * 255 ) })`; + + } + + offsetHSL( h, s, l ) { + + this.getHSL( _hslA ); + + return this.setHSL( _hslA.h + h, _hslA.s + s, _hslA.l + l ); + + } + + add( color ) { + + this.r += color.r; + this.g += color.g; + this.b += color.b; + + return this; + + } + + addColors( color1, color2 ) { + + this.r = color1.r + color2.r; + this.g = color1.g + color2.g; + this.b = color1.b + color2.b; + + return this; + + } + + addScalar( s ) { + + this.r += s; + this.g += s; + this.b += s; + + return this; + + } + + sub( color ) { + + this.r = Math.max( 0, this.r - color.r ); + this.g = Math.max( 0, this.g - color.g ); + this.b = Math.max( 0, this.b - color.b ); + + return this; + + } + + multiply( color ) { + + this.r *= color.r; + this.g *= color.g; + this.b *= color.b; + + return this; + + } + + multiplyScalar( s ) { + + this.r *= s; + this.g *= s; + this.b *= s; + + return this; + + } + + lerp( color, alpha ) { + + this.r += ( color.r - this.r ) * alpha; + this.g += ( color.g - this.g ) * alpha; + this.b += ( color.b - this.b ) * alpha; + + return this; + + } + + lerpColors( color1, color2, alpha ) { + + this.r = color1.r + ( color2.r - color1.r ) * alpha; + this.g = color1.g + ( color2.g - color1.g ) * alpha; + this.b = color1.b + ( color2.b - color1.b ) * alpha; + + return this; + + } + + lerpHSL( color, alpha ) { + + this.getHSL( _hslA ); + color.getHSL( _hslB ); + + const h = lerp( _hslA.h, _hslB.h, alpha ); + const s = lerp( _hslA.s, _hslB.s, alpha ); + const l = lerp( _hslA.l, _hslB.l, alpha ); + + this.setHSL( h, s, l ); + + return this; + + } + + setFromVector3( v ) { + + this.r = v.x; + this.g = v.y; + this.b = v.z; + + return this; + + } + + applyMatrix3( m ) { + + const r = this.r, g = this.g, b = this.b; + const e = m.elements; + + this.r = e[ 0 ] * r + e[ 3 ] * g + e[ 6 ] * b; + this.g = e[ 1 ] * r + e[ 4 ] * g + e[ 7 ] * b; + this.b = e[ 2 ] * r + e[ 5 ] * g + e[ 8 ] * b; + + return this; + + } + + equals( c ) { + + return ( c.r === this.r ) && ( c.g === this.g ) && ( c.b === this.b ); + + } + + fromArray( array, offset = 0 ) { + + this.r = array[ offset ]; + this.g = array[ offset + 1 ]; + this.b = array[ offset + 2 ]; + + return this; + + } + + toArray( array = [], offset = 0 ) { + + array[ offset ] = this.r; + array[ offset + 1 ] = this.g; + array[ offset + 2 ] = this.b; + + return array; + + } + + fromBufferAttribute( attribute, index ) { + + this.r = attribute.getX( index ); + this.g = attribute.getY( index ); + this.b = attribute.getZ( index ); + + return this; + + } + + toJSON() { + + return this.getHex(); + + } + + *[ Symbol.iterator ]() { + + yield this.r; + yield this.g; + yield this.b; + + } + +} + +const _color = /*@__PURE__*/ new Color(); + +Color.NAMES = _colorKeywords; + +let _materialId = 0; + +class Material extends EventDispatcher { + + constructor() { + + super(); + + this.isMaterial = true; + + Object.defineProperty( this, 'id', { value: _materialId ++ } ); + + this.uuid = generateUUID(); + + this.name = ''; + this.type = 'Material'; + + this.blending = NormalBlending; + this.side = FrontSide; + this.vertexColors = false; + + this.opacity = 1; + this.transparent = false; + this.alphaHash = false; + + this.blendSrc = SrcAlphaFactor; + this.blendDst = OneMinusSrcAlphaFactor; + this.blendEquation = AddEquation; + this.blendSrcAlpha = null; + this.blendDstAlpha = null; + this.blendEquationAlpha = null; + this.blendColor = new Color( 0, 0, 0 ); + this.blendAlpha = 0; + + this.depthFunc = LessEqualDepth; + this.depthTest = true; + this.depthWrite = true; + + this.stencilWriteMask = 0xff; + this.stencilFunc = AlwaysStencilFunc; + this.stencilRef = 0; + this.stencilFuncMask = 0xff; + this.stencilFail = KeepStencilOp; + this.stencilZFail = KeepStencilOp; + this.stencilZPass = KeepStencilOp; + this.stencilWrite = false; + + this.clippingPlanes = null; + this.clipIntersection = false; + this.clipShadows = false; + + this.shadowSide = null; + + this.colorWrite = true; + + this.precision = null; // override the renderer's default precision for this material + + this.polygonOffset = false; + this.polygonOffsetFactor = 0; + this.polygonOffsetUnits = 0; + + this.dithering = false; + + this.alphaToCoverage = false; + this.premultipliedAlpha = false; + this.forceSinglePass = false; + + this.visible = true; + + this.toneMapped = true; + + this.userData = {}; + + this.version = 0; + + this._alphaTest = 0; + + } + + get alphaTest() { + + return this._alphaTest; + + } + + set alphaTest( value ) { + + if ( this._alphaTest > 0 !== value > 0 ) { + + this.version ++; + + } + + this._alphaTest = value; + + } + + onBeforeCompile( /* shaderobject, renderer */ ) {} + + customProgramCacheKey() { + + return this.onBeforeCompile.toString(); + + } + + setValues( values ) { + + if ( values === undefined ) return; + + for ( const key in values ) { + + const newValue = values[ key ]; + + if ( newValue === undefined ) { + + console.warn( `THREE.Material: parameter '${ key }' has value of undefined.` ); + continue; + + } + + const currentValue = this[ key ]; + + if ( currentValue === undefined ) { + + console.warn( `THREE.Material: '${ key }' is not a property of THREE.${ this.type }.` ); + continue; + + } + + if ( currentValue && currentValue.isColor ) { + + currentValue.set( newValue ); + + } else if ( ( currentValue && currentValue.isVector3 ) && ( newValue && newValue.isVector3 ) ) { + + currentValue.copy( newValue ); + + } else { + + this[ key ] = newValue; + + } + + } + + } + + toJSON( meta ) { + + const isRootObject = ( meta === undefined || typeof meta === 'string' ); + + if ( isRootObject ) { + + meta = { + textures: {}, + images: {} + }; + + } + + const data = { + metadata: { + version: 4.6, + type: 'Material', + generator: 'Material.toJSON' + } + }; + + // standard Material serialization + data.uuid = this.uuid; + data.type = this.type; + + if ( this.name !== '' ) data.name = this.name; + + if ( this.color && this.color.isColor ) data.color = this.color.getHex(); + + if ( this.roughness !== undefined ) data.roughness = this.roughness; + if ( this.metalness !== undefined ) data.metalness = this.metalness; + + if ( this.sheen !== undefined ) data.sheen = this.sheen; + if ( this.sheenColor && this.sheenColor.isColor ) data.sheenColor = this.sheenColor.getHex(); + if ( this.sheenRoughness !== undefined ) data.sheenRoughness = this.sheenRoughness; + if ( this.emissive && this.emissive.isColor ) data.emissive = this.emissive.getHex(); + if ( this.emissiveIntensity !== undefined && this.emissiveIntensity !== 1 ) data.emissiveIntensity = this.emissiveIntensity; + + if ( this.specular && this.specular.isColor ) data.specular = this.specular.getHex(); + if ( this.specularIntensity !== undefined ) data.specularIntensity = this.specularIntensity; + if ( this.specularColor && this.specularColor.isColor ) data.specularColor = this.specularColor.getHex(); + if ( this.shininess !== undefined ) data.shininess = this.shininess; + if ( this.clearcoat !== undefined ) data.clearcoat = this.clearcoat; + if ( this.clearcoatRoughness !== undefined ) data.clearcoatRoughness = this.clearcoatRoughness; + + if ( this.clearcoatMap && this.clearcoatMap.isTexture ) { + + data.clearcoatMap = this.clearcoatMap.toJSON( meta ).uuid; + + } + + if ( this.clearcoatRoughnessMap && this.clearcoatRoughnessMap.isTexture ) { + + data.clearcoatRoughnessMap = this.clearcoatRoughnessMap.toJSON( meta ).uuid; + + } + + if ( this.clearcoatNormalMap && this.clearcoatNormalMap.isTexture ) { + + data.clearcoatNormalMap = this.clearcoatNormalMap.toJSON( meta ).uuid; + data.clearcoatNormalScale = this.clearcoatNormalScale.toArray(); + + } + + if ( this.dispersion !== undefined ) data.dispersion = this.dispersion; + + if ( this.iridescence !== undefined ) data.iridescence = this.iridescence; + if ( this.iridescenceIOR !== undefined ) data.iridescenceIOR = this.iridescenceIOR; + if ( this.iridescenceThicknessRange !== undefined ) data.iridescenceThicknessRange = this.iridescenceThicknessRange; + + if ( this.iridescenceMap && this.iridescenceMap.isTexture ) { + + data.iridescenceMap = this.iridescenceMap.toJSON( meta ).uuid; + + } + + if ( this.iridescenceThicknessMap && this.iridescenceThicknessMap.isTexture ) { + + data.iridescenceThicknessMap = this.iridescenceThicknessMap.toJSON( meta ).uuid; + + } + + if ( this.anisotropy !== undefined ) data.anisotropy = this.anisotropy; + if ( this.anisotropyRotation !== undefined ) data.anisotropyRotation = this.anisotropyRotation; + + if ( this.anisotropyMap && this.anisotropyMap.isTexture ) { + + data.anisotropyMap = this.anisotropyMap.toJSON( meta ).uuid; + + } + + if ( this.map && this.map.isTexture ) data.map = this.map.toJSON( meta ).uuid; + if ( this.matcap && this.matcap.isTexture ) data.matcap = this.matcap.toJSON( meta ).uuid; + if ( this.alphaMap && this.alphaMap.isTexture ) data.alphaMap = this.alphaMap.toJSON( meta ).uuid; + + if ( this.lightMap && this.lightMap.isTexture ) { + + data.lightMap = this.lightMap.toJSON( meta ).uuid; + data.lightMapIntensity = this.lightMapIntensity; + + } + + if ( this.aoMap && this.aoMap.isTexture ) { + + data.aoMap = this.aoMap.toJSON( meta ).uuid; + data.aoMapIntensity = this.aoMapIntensity; + + } + + if ( this.bumpMap && this.bumpMap.isTexture ) { + + data.bumpMap = this.bumpMap.toJSON( meta ).uuid; + data.bumpScale = this.bumpScale; + + } + + if ( this.normalMap && this.normalMap.isTexture ) { + + data.normalMap = this.normalMap.toJSON( meta ).uuid; + data.normalMapType = this.normalMapType; + data.normalScale = this.normalScale.toArray(); + + } + + if ( this.displacementMap && this.displacementMap.isTexture ) { + + data.displacementMap = this.displacementMap.toJSON( meta ).uuid; + data.displacementScale = this.displacementScale; + data.displacementBias = this.displacementBias; + + } + + if ( this.roughnessMap && this.roughnessMap.isTexture ) data.roughnessMap = this.roughnessMap.toJSON( meta ).uuid; + if ( this.metalnessMap && this.metalnessMap.isTexture ) data.metalnessMap = this.metalnessMap.toJSON( meta ).uuid; + + if ( this.emissiveMap && this.emissiveMap.isTexture ) data.emissiveMap = this.emissiveMap.toJSON( meta ).uuid; + if ( this.specularMap && this.specularMap.isTexture ) data.specularMap = this.specularMap.toJSON( meta ).uuid; + if ( this.specularIntensityMap && this.specularIntensityMap.isTexture ) data.specularIntensityMap = this.specularIntensityMap.toJSON( meta ).uuid; + if ( this.specularColorMap && this.specularColorMap.isTexture ) data.specularColorMap = this.specularColorMap.toJSON( meta ).uuid; + + if ( this.envMap && this.envMap.isTexture ) { + + data.envMap = this.envMap.toJSON( meta ).uuid; + + if ( this.combine !== undefined ) data.combine = this.combine; + + } + + if ( this.envMapRotation !== undefined ) data.envMapRotation = this.envMapRotation.toArray(); + if ( this.envMapIntensity !== undefined ) data.envMapIntensity = this.envMapIntensity; + if ( this.reflectivity !== undefined ) data.reflectivity = this.reflectivity; + if ( this.refractionRatio !== undefined ) data.refractionRatio = this.refractionRatio; + + if ( this.gradientMap && this.gradientMap.isTexture ) { + + data.gradientMap = this.gradientMap.toJSON( meta ).uuid; + + } + + if ( this.transmission !== undefined ) data.transmission = this.transmission; + if ( this.transmissionMap && this.transmissionMap.isTexture ) data.transmissionMap = this.transmissionMap.toJSON( meta ).uuid; + if ( this.thickness !== undefined ) data.thickness = this.thickness; + if ( this.thicknessMap && this.thicknessMap.isTexture ) data.thicknessMap = this.thicknessMap.toJSON( meta ).uuid; + if ( this.attenuationDistance !== undefined && this.attenuationDistance !== Infinity ) data.attenuationDistance = this.attenuationDistance; + if ( this.attenuationColor !== undefined ) data.attenuationColor = this.attenuationColor.getHex(); + + if ( this.size !== undefined ) data.size = this.size; + if ( this.shadowSide !== null ) data.shadowSide = this.shadowSide; + if ( this.sizeAttenuation !== undefined ) data.sizeAttenuation = this.sizeAttenuation; + + if ( this.blending !== NormalBlending ) data.blending = this.blending; + if ( this.side !== FrontSide ) data.side = this.side; + if ( this.vertexColors === true ) data.vertexColors = true; + + if ( this.opacity < 1 ) data.opacity = this.opacity; + if ( this.transparent === true ) data.transparent = true; + + if ( this.blendSrc !== SrcAlphaFactor ) data.blendSrc = this.blendSrc; + if ( this.blendDst !== OneMinusSrcAlphaFactor ) data.blendDst = this.blendDst; + if ( this.blendEquation !== AddEquation ) data.blendEquation = this.blendEquation; + if ( this.blendSrcAlpha !== null ) data.blendSrcAlpha = this.blendSrcAlpha; + if ( this.blendDstAlpha !== null ) data.blendDstAlpha = this.blendDstAlpha; + if ( this.blendEquationAlpha !== null ) data.blendEquationAlpha = this.blendEquationAlpha; + if ( this.blendColor && this.blendColor.isColor ) data.blendColor = this.blendColor.getHex(); + if ( this.blendAlpha !== 0 ) data.blendAlpha = this.blendAlpha; + + if ( this.depthFunc !== LessEqualDepth ) data.depthFunc = this.depthFunc; + if ( this.depthTest === false ) data.depthTest = this.depthTest; + if ( this.depthWrite === false ) data.depthWrite = this.depthWrite; + if ( this.colorWrite === false ) data.colorWrite = this.colorWrite; + + if ( this.stencilWriteMask !== 0xff ) data.stencilWriteMask = this.stencilWriteMask; + if ( this.stencilFunc !== AlwaysStencilFunc ) data.stencilFunc = this.stencilFunc; + if ( this.stencilRef !== 0 ) data.stencilRef = this.stencilRef; + if ( this.stencilFuncMask !== 0xff ) data.stencilFuncMask = this.stencilFuncMask; + if ( this.stencilFail !== KeepStencilOp ) data.stencilFail = this.stencilFail; + if ( this.stencilZFail !== KeepStencilOp ) data.stencilZFail = this.stencilZFail; + if ( this.stencilZPass !== KeepStencilOp ) data.stencilZPass = this.stencilZPass; + if ( this.stencilWrite === true ) data.stencilWrite = this.stencilWrite; + + // rotation (SpriteMaterial) + if ( this.rotation !== undefined && this.rotation !== 0 ) data.rotation = this.rotation; + + if ( this.polygonOffset === true ) data.polygonOffset = true; + if ( this.polygonOffsetFactor !== 0 ) data.polygonOffsetFactor = this.polygonOffsetFactor; + if ( this.polygonOffsetUnits !== 0 ) data.polygonOffsetUnits = this.polygonOffsetUnits; + + if ( this.linewidth !== undefined && this.linewidth !== 1 ) data.linewidth = this.linewidth; + if ( this.dashSize !== undefined ) data.dashSize = this.dashSize; + if ( this.gapSize !== undefined ) data.gapSize = this.gapSize; + if ( this.scale !== undefined ) data.scale = this.scale; + + if ( this.dithering === true ) data.dithering = true; + + if ( this.alphaTest > 0 ) data.alphaTest = this.alphaTest; + if ( this.alphaHash === true ) data.alphaHash = true; + if ( this.alphaToCoverage === true ) data.alphaToCoverage = true; + if ( this.premultipliedAlpha === true ) data.premultipliedAlpha = true; + if ( this.forceSinglePass === true ) data.forceSinglePass = true; + + if ( this.wireframe === true ) data.wireframe = true; + if ( this.wireframeLinewidth > 1 ) data.wireframeLinewidth = this.wireframeLinewidth; + if ( this.wireframeLinecap !== 'round' ) data.wireframeLinecap = this.wireframeLinecap; + if ( this.wireframeLinejoin !== 'round' ) data.wireframeLinejoin = this.wireframeLinejoin; + + if ( this.flatShading === true ) data.flatShading = true; + + if ( this.visible === false ) data.visible = false; + + if ( this.toneMapped === false ) data.toneMapped = false; + + if ( this.fog === false ) data.fog = false; + + if ( Object.keys( this.userData ).length > 0 ) data.userData = this.userData; + + // TODO: Copied from Object3D.toJSON + + function extractFromCache( cache ) { + + const values = []; + + for ( const key in cache ) { + + const data = cache[ key ]; + delete data.metadata; + values.push( data ); + + } + + return values; + + } + + if ( isRootObject ) { + + const textures = extractFromCache( meta.textures ); + const images = extractFromCache( meta.images ); + + if ( textures.length > 0 ) data.textures = textures; + if ( images.length > 0 ) data.images = images; + + } + + return data; + + } + + clone() { + + return new this.constructor().copy( this ); + + } + + copy( source ) { + + this.name = source.name; + + this.blending = source.blending; + this.side = source.side; + this.vertexColors = source.vertexColors; + + this.opacity = source.opacity; + this.transparent = source.transparent; + + this.blendSrc = source.blendSrc; + this.blendDst = source.blendDst; + this.blendEquation = source.blendEquation; + this.blendSrcAlpha = source.blendSrcAlpha; + this.blendDstAlpha = source.blendDstAlpha; + this.blendEquationAlpha = source.blendEquationAlpha; + this.blendColor.copy( source.blendColor ); + this.blendAlpha = source.blendAlpha; + + this.depthFunc = source.depthFunc; + this.depthTest = source.depthTest; + this.depthWrite = source.depthWrite; + + this.stencilWriteMask = source.stencilWriteMask; + this.stencilFunc = source.stencilFunc; + this.stencilRef = source.stencilRef; + this.stencilFuncMask = source.stencilFuncMask; + this.stencilFail = source.stencilFail; + this.stencilZFail = source.stencilZFail; + this.stencilZPass = source.stencilZPass; + this.stencilWrite = source.stencilWrite; + + const srcPlanes = source.clippingPlanes; + let dstPlanes = null; + + if ( srcPlanes !== null ) { + + const n = srcPlanes.length; + dstPlanes = new Array( n ); + + for ( let i = 0; i !== n; ++ i ) { + + dstPlanes[ i ] = srcPlanes[ i ].clone(); + + } + + } + + this.clippingPlanes = dstPlanes; + this.clipIntersection = source.clipIntersection; + this.clipShadows = source.clipShadows; + + this.shadowSide = source.shadowSide; + + this.colorWrite = source.colorWrite; + + this.precision = source.precision; + + this.polygonOffset = source.polygonOffset; + this.polygonOffsetFactor = source.polygonOffsetFactor; + this.polygonOffsetUnits = source.polygonOffsetUnits; + + this.dithering = source.dithering; + + this.alphaTest = source.alphaTest; + this.alphaHash = source.alphaHash; + this.alphaToCoverage = source.alphaToCoverage; + this.premultipliedAlpha = source.premultipliedAlpha; + this.forceSinglePass = source.forceSinglePass; + + this.visible = source.visible; + + this.toneMapped = source.toneMapped; + + this.userData = JSON.parse( JSON.stringify( source.userData ) ); + + return this; + + } + + dispose() { + + this.dispatchEvent( { type: 'dispose' } ); + + } + + set needsUpdate( value ) { + + if ( value === true ) this.version ++; + + } + + onBuild( /* shaderobject, renderer */ ) { + + console.warn( 'Material: onBuild() has been removed.' ); // @deprecated, r166 + + } + + onBeforeRender( /* renderer, scene, camera, geometry, object, group */ ) { + + console.warn( 'Material: onBeforeRender() has been removed.' ); // @deprecated, r166 + + } + + +} + +class MeshBasicMaterial extends Material { + + constructor( parameters ) { + + super(); + + this.isMeshBasicMaterial = true; + + this.type = 'MeshBasicMaterial'; + + this.color = new Color( 0xffffff ); // emissive + + this.map = null; + + this.lightMap = null; + this.lightMapIntensity = 1.0; + + this.aoMap = null; + this.aoMapIntensity = 1.0; + + this.specularMap = null; + + this.alphaMap = null; + + this.envMap = null; + this.envMapRotation = new Euler(); + this.combine = MultiplyOperation; + this.reflectivity = 1; + this.refractionRatio = 0.98; + + this.wireframe = false; + this.wireframeLinewidth = 1; + this.wireframeLinecap = 'round'; + this.wireframeLinejoin = 'round'; + + this.fog = true; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.color.copy( source.color ); + + this.map = source.map; + + this.lightMap = source.lightMap; + this.lightMapIntensity = source.lightMapIntensity; + + this.aoMap = source.aoMap; + this.aoMapIntensity = source.aoMapIntensity; + + this.specularMap = source.specularMap; + + this.alphaMap = source.alphaMap; + + this.envMap = source.envMap; + this.envMapRotation.copy( source.envMapRotation ); + this.combine = source.combine; + this.reflectivity = source.reflectivity; + this.refractionRatio = source.refractionRatio; + + this.wireframe = source.wireframe; + this.wireframeLinewidth = source.wireframeLinewidth; + this.wireframeLinecap = source.wireframeLinecap; + this.wireframeLinejoin = source.wireframeLinejoin; + + this.fog = source.fog; + + return this; + + } + +} + +// Fast Half Float Conversions, http://www.fox-toolkit.org/ftp/fasthalffloatconversion.pdf + +const _tables = /*@__PURE__*/ _generateTables(); + +function _generateTables() { + + // float32 to float16 helpers + + const buffer = new ArrayBuffer( 4 ); + const floatView = new Float32Array( buffer ); + const uint32View = new Uint32Array( buffer ); + + const baseTable = new Uint32Array( 512 ); + const shiftTable = new Uint32Array( 512 ); + + for ( let i = 0; i < 256; ++ i ) { + + const e = i - 127; + + // very small number (0, -0) + + if ( e < - 27 ) { + + baseTable[ i ] = 0x0000; + baseTable[ i | 0x100 ] = 0x8000; + shiftTable[ i ] = 24; + shiftTable[ i | 0x100 ] = 24; + + // small number (denorm) + + } else if ( e < - 14 ) { + + baseTable[ i ] = 0x0400 >> ( - e - 14 ); + baseTable[ i | 0x100 ] = ( 0x0400 >> ( - e - 14 ) ) | 0x8000; + shiftTable[ i ] = - e - 1; + shiftTable[ i | 0x100 ] = - e - 1; + + // normal number + + } else if ( e <= 15 ) { + + baseTable[ i ] = ( e + 15 ) << 10; + baseTable[ i | 0x100 ] = ( ( e + 15 ) << 10 ) | 0x8000; + shiftTable[ i ] = 13; + shiftTable[ i | 0x100 ] = 13; + + // large number (Infinity, -Infinity) + + } else if ( e < 128 ) { + + baseTable[ i ] = 0x7c00; + baseTable[ i | 0x100 ] = 0xfc00; + shiftTable[ i ] = 24; + shiftTable[ i | 0x100 ] = 24; + + // stay (NaN, Infinity, -Infinity) + + } else { + + baseTable[ i ] = 0x7c00; + baseTable[ i | 0x100 ] = 0xfc00; + shiftTable[ i ] = 13; + shiftTable[ i | 0x100 ] = 13; + + } + + } + + // float16 to float32 helpers + + const mantissaTable = new Uint32Array( 2048 ); + const exponentTable = new Uint32Array( 64 ); + const offsetTable = new Uint32Array( 64 ); + + for ( let i = 1; i < 1024; ++ i ) { + + let m = i << 13; // zero pad mantissa bits + let e = 0; // zero exponent + + // normalized + while ( ( m & 0x00800000 ) === 0 ) { + + m <<= 1; + e -= 0x00800000; // decrement exponent + + } + + m &= ~ 0x00800000; // clear leading 1 bit + e += 0x38800000; // adjust bias + + mantissaTable[ i ] = m | e; + + } + + for ( let i = 1024; i < 2048; ++ i ) { + + mantissaTable[ i ] = 0x38000000 + ( ( i - 1024 ) << 13 ); + + } + + for ( let i = 1; i < 31; ++ i ) { + + exponentTable[ i ] = i << 23; + + } + + exponentTable[ 31 ] = 0x47800000; + exponentTable[ 32 ] = 0x80000000; + + for ( let i = 33; i < 63; ++ i ) { + + exponentTable[ i ] = 0x80000000 + ( ( i - 32 ) << 23 ); + + } + + exponentTable[ 63 ] = 0xc7800000; + + for ( let i = 1; i < 64; ++ i ) { + + if ( i !== 32 ) { + + offsetTable[ i ] = 1024; + + } + + } + + return { + floatView: floatView, + uint32View: uint32View, + baseTable: baseTable, + shiftTable: shiftTable, + mantissaTable: mantissaTable, + exponentTable: exponentTable, + offsetTable: offsetTable + }; + +} + +// float32 to float16 + +function toHalfFloat( val ) { + + if ( Math.abs( val ) > 65504 ) console.warn( 'THREE.DataUtils.toHalfFloat(): Value out of range.' ); + + val = clamp$1( val, - 65504, 65504 ); + + _tables.floatView[ 0 ] = val; + const f = _tables.uint32View[ 0 ]; + const e = ( f >> 23 ) & 0x1ff; + return _tables.baseTable[ e ] + ( ( f & 0x007fffff ) >> _tables.shiftTable[ e ] ); + +} + +// float16 to float32 + +function fromHalfFloat( val ) { + + const m = val >> 10; + _tables.uint32View[ 0 ] = _tables.mantissaTable[ _tables.offsetTable[ m ] + ( val & 0x3ff ) ] + _tables.exponentTable[ m ]; + return _tables.floatView[ 0 ]; + +} + +const DataUtils = { + toHalfFloat: toHalfFloat, + fromHalfFloat: fromHalfFloat, +}; + +const _vector$9 = /*@__PURE__*/ new Vector3(); +const _vector2$1 = /*@__PURE__*/ new Vector2(); + +class BufferAttribute { + + constructor( array, itemSize, normalized = false ) { + + if ( Array.isArray( array ) ) { + + throw new TypeError( 'THREE.BufferAttribute: array should be a Typed Array.' ); + + } + + this.isBufferAttribute = true; + + this.name = ''; + + this.array = array; + this.itemSize = itemSize; + this.count = array !== undefined ? array.length / itemSize : 0; + this.normalized = normalized; + + this.usage = StaticDrawUsage; + this._updateRange = { offset: 0, count: - 1 }; + this.updateRanges = []; + this.gpuType = FloatType; + + this.version = 0; + + } + + onUploadCallback() {} + + set needsUpdate( value ) { + + if ( value === true ) this.version ++; + + } + + get updateRange() { + + warnOnce( 'THREE.BufferAttribute: updateRange() is deprecated and will be removed in r169. Use addUpdateRange() instead.' ); // @deprecated, r159 + return this._updateRange; + + } + + setUsage( value ) { + + this.usage = value; + + return this; + + } + + addUpdateRange( start, count ) { + + this.updateRanges.push( { start, count } ); + + } + + clearUpdateRanges() { + + this.updateRanges.length = 0; + + } + + copy( source ) { + + this.name = source.name; + this.array = new source.array.constructor( source.array ); + this.itemSize = source.itemSize; + this.count = source.count; + this.normalized = source.normalized; + + this.usage = source.usage; + this.gpuType = source.gpuType; + + return this; + + } + + copyAt( index1, attribute, index2 ) { + + index1 *= this.itemSize; + index2 *= attribute.itemSize; + + for ( let i = 0, l = this.itemSize; i < l; i ++ ) { + + this.array[ index1 + i ] = attribute.array[ index2 + i ]; + + } + + return this; + + } + + copyArray( array ) { + + this.array.set( array ); + + return this; + + } + + applyMatrix3( m ) { + + if ( this.itemSize === 2 ) { + + for ( let i = 0, l = this.count; i < l; i ++ ) { + + _vector2$1.fromBufferAttribute( this, i ); + _vector2$1.applyMatrix3( m ); + + this.setXY( i, _vector2$1.x, _vector2$1.y ); + + } + + } else if ( this.itemSize === 3 ) { + + for ( let i = 0, l = this.count; i < l; i ++ ) { + + _vector$9.fromBufferAttribute( this, i ); + _vector$9.applyMatrix3( m ); + + this.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z ); + + } + + } + + return this; + + } + + applyMatrix4( m ) { + + for ( let i = 0, l = this.count; i < l; i ++ ) { + + _vector$9.fromBufferAttribute( this, i ); + + _vector$9.applyMatrix4( m ); + + this.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z ); + + } + + return this; + + } + + applyNormalMatrix( m ) { + + for ( let i = 0, l = this.count; i < l; i ++ ) { + + _vector$9.fromBufferAttribute( this, i ); + + _vector$9.applyNormalMatrix( m ); + + this.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z ); + + } + + return this; + + } + + transformDirection( m ) { + + for ( let i = 0, l = this.count; i < l; i ++ ) { + + _vector$9.fromBufferAttribute( this, i ); + + _vector$9.transformDirection( m ); + + this.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z ); + + } + + return this; + + } + + set( value, offset = 0 ) { + + // Matching BufferAttribute constructor, do not normalize the array. + this.array.set( value, offset ); + + return this; + + } + + getComponent( index, component ) { + + let value = this.array[ index * this.itemSize + component ]; + + if ( this.normalized ) value = denormalize( value, this.array ); + + return value; + + } + + setComponent( index, component, value ) { + + if ( this.normalized ) value = normalize$1( value, this.array ); + + this.array[ index * this.itemSize + component ] = value; + + return this; + + } + + getX( index ) { + + let x = this.array[ index * this.itemSize ]; + + if ( this.normalized ) x = denormalize( x, this.array ); + + return x; + + } + + setX( index, x ) { + + if ( this.normalized ) x = normalize$1( x, this.array ); + + this.array[ index * this.itemSize ] = x; + + return this; + + } + + getY( index ) { + + let y = this.array[ index * this.itemSize + 1 ]; + + if ( this.normalized ) y = denormalize( y, this.array ); + + return y; + + } + + setY( index, y ) { + + if ( this.normalized ) y = normalize$1( y, this.array ); + + this.array[ index * this.itemSize + 1 ] = y; + + return this; + + } + + getZ( index ) { + + let z = this.array[ index * this.itemSize + 2 ]; + + if ( this.normalized ) z = denormalize( z, this.array ); + + return z; + + } + + setZ( index, z ) { + + if ( this.normalized ) z = normalize$1( z, this.array ); + + this.array[ index * this.itemSize + 2 ] = z; + + return this; + + } + + getW( index ) { + + let w = this.array[ index * this.itemSize + 3 ]; + + if ( this.normalized ) w = denormalize( w, this.array ); + + return w; + + } + + setW( index, w ) { + + if ( this.normalized ) w = normalize$1( w, this.array ); + + this.array[ index * this.itemSize + 3 ] = w; + + return this; + + } + + setXY( index, x, y ) { + + index *= this.itemSize; + + if ( this.normalized ) { + + x = normalize$1( x, this.array ); + y = normalize$1( y, this.array ); + + } + + this.array[ index + 0 ] = x; + this.array[ index + 1 ] = y; + + return this; + + } + + setXYZ( index, x, y, z ) { + + index *= this.itemSize; + + if ( this.normalized ) { + + x = normalize$1( x, this.array ); + y = normalize$1( y, this.array ); + z = normalize$1( z, this.array ); + + } + + this.array[ index + 0 ] = x; + this.array[ index + 1 ] = y; + this.array[ index + 2 ] = z; + + return this; + + } + + setXYZW( index, x, y, z, w ) { + + index *= this.itemSize; + + if ( this.normalized ) { + + x = normalize$1( x, this.array ); + y = normalize$1( y, this.array ); + z = normalize$1( z, this.array ); + w = normalize$1( w, this.array ); + + } + + this.array[ index + 0 ] = x; + this.array[ index + 1 ] = y; + this.array[ index + 2 ] = z; + this.array[ index + 3 ] = w; + + return this; + + } + + onUpload( callback ) { + + this.onUploadCallback = callback; + + return this; + + } + + clone() { + + return new this.constructor( this.array, this.itemSize ).copy( this ); + + } + + toJSON() { + + const data = { + itemSize: this.itemSize, + type: this.array.constructor.name, + array: Array.from( this.array ), + normalized: this.normalized + }; + + if ( this.name !== '' ) data.name = this.name; + if ( this.usage !== StaticDrawUsage ) data.usage = this.usage; + + return data; + + } + +} + +// + +class Int8BufferAttribute extends BufferAttribute { + + constructor( array, itemSize, normalized ) { + + super( new Int8Array( array ), itemSize, normalized ); + + } + +} + +class Uint8BufferAttribute extends BufferAttribute { + + constructor( array, itemSize, normalized ) { + + super( new Uint8Array( array ), itemSize, normalized ); + + } + +} + +class Uint8ClampedBufferAttribute extends BufferAttribute { + + constructor( array, itemSize, normalized ) { + + super( new Uint8ClampedArray( array ), itemSize, normalized ); + + } + +} + +class Int16BufferAttribute extends BufferAttribute { + + constructor( array, itemSize, normalized ) { + + super( new Int16Array( array ), itemSize, normalized ); + + } + +} + +class Uint16BufferAttribute extends BufferAttribute { + + constructor( array, itemSize, normalized ) { + + super( new Uint16Array( array ), itemSize, normalized ); + + } + +} + +class Int32BufferAttribute extends BufferAttribute { + + constructor( array, itemSize, normalized ) { + + super( new Int32Array( array ), itemSize, normalized ); + + } + +} + +class Uint32BufferAttribute extends BufferAttribute { + + constructor( array, itemSize, normalized ) { + + super( new Uint32Array( array ), itemSize, normalized ); + + } + +} + +class Float16BufferAttribute extends BufferAttribute { + + constructor( array, itemSize, normalized ) { + + super( new Uint16Array( array ), itemSize, normalized ); + + this.isFloat16BufferAttribute = true; + + } + + getX( index ) { + + let x = fromHalfFloat( this.array[ index * this.itemSize ] ); + + if ( this.normalized ) x = denormalize( x, this.array ); + + return x; + + } + + setX( index, x ) { + + if ( this.normalized ) x = normalize$1( x, this.array ); + + this.array[ index * this.itemSize ] = toHalfFloat( x ); + + return this; + + } + + getY( index ) { + + let y = fromHalfFloat( this.array[ index * this.itemSize + 1 ] ); + + if ( this.normalized ) y = denormalize( y, this.array ); + + return y; + + } + + setY( index, y ) { + + if ( this.normalized ) y = normalize$1( y, this.array ); + + this.array[ index * this.itemSize + 1 ] = toHalfFloat( y ); + + return this; + + } + + getZ( index ) { + + let z = fromHalfFloat( this.array[ index * this.itemSize + 2 ] ); + + if ( this.normalized ) z = denormalize( z, this.array ); + + return z; + + } + + setZ( index, z ) { + + if ( this.normalized ) z = normalize$1( z, this.array ); + + this.array[ index * this.itemSize + 2 ] = toHalfFloat( z ); + + return this; + + } + + getW( index ) { + + let w = fromHalfFloat( this.array[ index * this.itemSize + 3 ] ); + + if ( this.normalized ) w = denormalize( w, this.array ); + + return w; + + } + + setW( index, w ) { + + if ( this.normalized ) w = normalize$1( w, this.array ); + + this.array[ index * this.itemSize + 3 ] = toHalfFloat( w ); + + return this; + + } + + setXY( index, x, y ) { + + index *= this.itemSize; + + if ( this.normalized ) { + + x = normalize$1( x, this.array ); + y = normalize$1( y, this.array ); + + } + + this.array[ index + 0 ] = toHalfFloat( x ); + this.array[ index + 1 ] = toHalfFloat( y ); + + return this; + + } + + setXYZ( index, x, y, z ) { + + index *= this.itemSize; + + if ( this.normalized ) { + + x = normalize$1( x, this.array ); + y = normalize$1( y, this.array ); + z = normalize$1( z, this.array ); + + } + + this.array[ index + 0 ] = toHalfFloat( x ); + this.array[ index + 1 ] = toHalfFloat( y ); + this.array[ index + 2 ] = toHalfFloat( z ); + + return this; + + } + + setXYZW( index, x, y, z, w ) { + + index *= this.itemSize; + + if ( this.normalized ) { + + x = normalize$1( x, this.array ); + y = normalize$1( y, this.array ); + z = normalize$1( z, this.array ); + w = normalize$1( w, this.array ); + + } + + this.array[ index + 0 ] = toHalfFloat( x ); + this.array[ index + 1 ] = toHalfFloat( y ); + this.array[ index + 2 ] = toHalfFloat( z ); + this.array[ index + 3 ] = toHalfFloat( w ); + + return this; + + } + +} + + +class Float32BufferAttribute extends BufferAttribute { + + constructor( array, itemSize, normalized ) { + + super( new Float32Array( array ), itemSize, normalized ); + + } + +} + +let _id$6 = 0; + +const _m1 = /*@__PURE__*/ new Matrix4(); +const _obj = /*@__PURE__*/ new Object3D(); +const _offset = /*@__PURE__*/ new Vector3(); +const _box$2 = /*@__PURE__*/ new Box3(); +const _boxMorphTargets = /*@__PURE__*/ new Box3(); +const _vector$8 = /*@__PURE__*/ new Vector3(); + +class BufferGeometry extends EventDispatcher { + + constructor() { + + super(); + + this.isBufferGeometry = true; + + Object.defineProperty( this, 'id', { value: _id$6 ++ } ); + + this.uuid = generateUUID(); + + this.name = ''; + this.type = 'BufferGeometry'; + + this.index = null; + this.attributes = {}; + + this.morphAttributes = {}; + this.morphTargetsRelative = false; + + this.groups = []; + + this.boundingBox = null; + this.boundingSphere = null; + + this.drawRange = { start: 0, count: Infinity }; + + this.userData = {}; + + } + + getIndex() { + + return this.index; + + } + + setIndex( index ) { + + if ( Array.isArray( index ) ) { + + this.index = new ( arrayNeedsUint32$1( index ) ? Uint32BufferAttribute : Uint16BufferAttribute )( index, 1 ); + + } else { + + this.index = index; + + } + + return this; + + } + + getAttribute( name ) { + + return this.attributes[ name ]; + + } + + setAttribute( name, attribute ) { + + this.attributes[ name ] = attribute; + + return this; + + } + + deleteAttribute( name ) { + + delete this.attributes[ name ]; + + return this; + + } + + hasAttribute( name ) { + + return this.attributes[ name ] !== undefined; + + } + + addGroup( start, count, materialIndex = 0 ) { + + this.groups.push( { + + start: start, + count: count, + materialIndex: materialIndex + + } ); + + } + + clearGroups() { + + this.groups = []; + + } + + setDrawRange( start, count ) { + + this.drawRange.start = start; + this.drawRange.count = count; + + } + + applyMatrix4( matrix ) { + + const position = this.attributes.position; + + if ( position !== undefined ) { + + position.applyMatrix4( matrix ); + + position.needsUpdate = true; + + } + + const normal = this.attributes.normal; + + if ( normal !== undefined ) { + + const normalMatrix = new Matrix3().getNormalMatrix( matrix ); + + normal.applyNormalMatrix( normalMatrix ); + + normal.needsUpdate = true; + + } + + const tangent = this.attributes.tangent; + + if ( tangent !== undefined ) { + + tangent.transformDirection( matrix ); + + tangent.needsUpdate = true; + + } + + if ( this.boundingBox !== null ) { + + this.computeBoundingBox(); + + } + + if ( this.boundingSphere !== null ) { + + this.computeBoundingSphere(); + + } + + return this; + + } + + applyQuaternion( q ) { + + _m1.makeRotationFromQuaternion( q ); + + this.applyMatrix4( _m1 ); + + return this; + + } + + rotateX( angle ) { + + // rotate geometry around world x-axis + + _m1.makeRotationX( angle ); + + this.applyMatrix4( _m1 ); + + return this; + + } + + rotateY( angle ) { + + // rotate geometry around world y-axis + + _m1.makeRotationY( angle ); + + this.applyMatrix4( _m1 ); + + return this; + + } + + rotateZ( angle ) { + + // rotate geometry around world z-axis + + _m1.makeRotationZ( angle ); + + this.applyMatrix4( _m1 ); + + return this; + + } + + translate( x, y, z ) { + + // translate geometry + + _m1.makeTranslation( x, y, z ); + + this.applyMatrix4( _m1 ); + + return this; + + } + + scale( x, y, z ) { + + // scale geometry + + _m1.makeScale( x, y, z ); + + this.applyMatrix4( _m1 ); + + return this; + + } + + lookAt( vector ) { + + _obj.lookAt( vector ); + + _obj.updateMatrix(); + + this.applyMatrix4( _obj.matrix ); + + return this; + + } + + center() { + + this.computeBoundingBox(); + + this.boundingBox.getCenter( _offset ).negate(); + + this.translate( _offset.x, _offset.y, _offset.z ); + + return this; + + } + + setFromPoints( points ) { + + const position = []; + + for ( let i = 0, l = points.length; i < l; i ++ ) { + + const point = points[ i ]; + position.push( point.x, point.y, point.z || 0 ); + + } + + this.setAttribute( 'position', new Float32BufferAttribute( position, 3 ) ); + + return this; + + } + + computeBoundingBox() { + + if ( this.boundingBox === null ) { + + this.boundingBox = new Box3(); + + } + + const position = this.attributes.position; + const morphAttributesPosition = this.morphAttributes.position; + + if ( position && position.isGLBufferAttribute ) { + + console.error( 'THREE.BufferGeometry.computeBoundingBox(): GLBufferAttribute requires a manual bounding box.', this ); + + this.boundingBox.set( + new Vector3( - Infinity, - Infinity, - Infinity ), + new Vector3( + Infinity, + Infinity, + Infinity ) + ); + + return; + + } + + if ( position !== undefined ) { + + this.boundingBox.setFromBufferAttribute( position ); + + // process morph attributes if present + + if ( morphAttributesPosition ) { + + for ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) { + + const morphAttribute = morphAttributesPosition[ i ]; + _box$2.setFromBufferAttribute( morphAttribute ); + + if ( this.morphTargetsRelative ) { + + _vector$8.addVectors( this.boundingBox.min, _box$2.min ); + this.boundingBox.expandByPoint( _vector$8 ); + + _vector$8.addVectors( this.boundingBox.max, _box$2.max ); + this.boundingBox.expandByPoint( _vector$8 ); + + } else { + + this.boundingBox.expandByPoint( _box$2.min ); + this.boundingBox.expandByPoint( _box$2.max ); + + } + + } + + } + + } else { + + this.boundingBox.makeEmpty(); + + } + + if ( isNaN( this.boundingBox.min.x ) || isNaN( this.boundingBox.min.y ) || isNaN( this.boundingBox.min.z ) ) { + + console.error( 'THREE.BufferGeometry.computeBoundingBox(): Computed min/max have NaN values. The "position" attribute is likely to have NaN values.', this ); + + } + + } + + computeBoundingSphere() { + + if ( this.boundingSphere === null ) { + + this.boundingSphere = new Sphere(); + + } + + const position = this.attributes.position; + const morphAttributesPosition = this.morphAttributes.position; + + if ( position && position.isGLBufferAttribute ) { + + console.error( 'THREE.BufferGeometry.computeBoundingSphere(): GLBufferAttribute requires a manual bounding sphere.', this ); + + this.boundingSphere.set( new Vector3(), Infinity ); + + return; + + } + + if ( position ) { + + // first, find the center of the bounding sphere + + const center = this.boundingSphere.center; + + _box$2.setFromBufferAttribute( position ); + + // process morph attributes if present + + if ( morphAttributesPosition ) { + + for ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) { + + const morphAttribute = morphAttributesPosition[ i ]; + _boxMorphTargets.setFromBufferAttribute( morphAttribute ); + + if ( this.morphTargetsRelative ) { + + _vector$8.addVectors( _box$2.min, _boxMorphTargets.min ); + _box$2.expandByPoint( _vector$8 ); + + _vector$8.addVectors( _box$2.max, _boxMorphTargets.max ); + _box$2.expandByPoint( _vector$8 ); + + } else { + + _box$2.expandByPoint( _boxMorphTargets.min ); + _box$2.expandByPoint( _boxMorphTargets.max ); + + } + + } + + } + + _box$2.getCenter( center ); + + // second, try to find a boundingSphere with a radius smaller than the + // boundingSphere of the boundingBox: sqrt(3) smaller in the best case + + let maxRadiusSq = 0; + + for ( let i = 0, il = position.count; i < il; i ++ ) { + + _vector$8.fromBufferAttribute( position, i ); + + maxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( _vector$8 ) ); + + } + + // process morph attributes if present + + if ( morphAttributesPosition ) { + + for ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) { + + const morphAttribute = morphAttributesPosition[ i ]; + const morphTargetsRelative = this.morphTargetsRelative; + + for ( let j = 0, jl = morphAttribute.count; j < jl; j ++ ) { + + _vector$8.fromBufferAttribute( morphAttribute, j ); + + if ( morphTargetsRelative ) { + + _offset.fromBufferAttribute( position, j ); + _vector$8.add( _offset ); + + } + + maxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( _vector$8 ) ); + + } + + } + + } + + this.boundingSphere.radius = Math.sqrt( maxRadiusSq ); + + if ( isNaN( this.boundingSphere.radius ) ) { + + console.error( 'THREE.BufferGeometry.computeBoundingSphere(): Computed radius is NaN. The "position" attribute is likely to have NaN values.', this ); + + } + + } + + } + + computeTangents() { + + const index = this.index; + const attributes = this.attributes; + + // based on http://www.terathon.com/code/tangent.html + // (per vertex tangents) + + if ( index === null || + attributes.position === undefined || + attributes.normal === undefined || + attributes.uv === undefined ) { + + console.error( 'THREE.BufferGeometry: .computeTangents() failed. Missing required attributes (index, position, normal or uv)' ); + return; + + } + + const positionAttribute = attributes.position; + const normalAttribute = attributes.normal; + const uvAttribute = attributes.uv; + + if ( this.hasAttribute( 'tangent' ) === false ) { + + this.setAttribute( 'tangent', new BufferAttribute( new Float32Array( 4 * positionAttribute.count ), 4 ) ); + + } + + const tangentAttribute = this.getAttribute( 'tangent' ); + + const tan1 = [], tan2 = []; + + for ( let i = 0; i < positionAttribute.count; i ++ ) { + + tan1[ i ] = new Vector3(); + tan2[ i ] = new Vector3(); + + } + + const vA = new Vector3(), + vB = new Vector3(), + vC = new Vector3(), + + uvA = new Vector2(), + uvB = new Vector2(), + uvC = new Vector2(), + + sdir = new Vector3(), + tdir = new Vector3(); + + function handleTriangle( a, b, c ) { + + vA.fromBufferAttribute( positionAttribute, a ); + vB.fromBufferAttribute( positionAttribute, b ); + vC.fromBufferAttribute( positionAttribute, c ); + + uvA.fromBufferAttribute( uvAttribute, a ); + uvB.fromBufferAttribute( uvAttribute, b ); + uvC.fromBufferAttribute( uvAttribute, c ); + + vB.sub( vA ); + vC.sub( vA ); + + uvB.sub( uvA ); + uvC.sub( uvA ); + + const r = 1.0 / ( uvB.x * uvC.y - uvC.x * uvB.y ); + + // silently ignore degenerate uv triangles having coincident or colinear vertices + + if ( ! isFinite( r ) ) return; + + sdir.copy( vB ).multiplyScalar( uvC.y ).addScaledVector( vC, - uvB.y ).multiplyScalar( r ); + tdir.copy( vC ).multiplyScalar( uvB.x ).addScaledVector( vB, - uvC.x ).multiplyScalar( r ); + + tan1[ a ].add( sdir ); + tan1[ b ].add( sdir ); + tan1[ c ].add( sdir ); + + tan2[ a ].add( tdir ); + tan2[ b ].add( tdir ); + tan2[ c ].add( tdir ); + + } + + let groups = this.groups; + + if ( groups.length === 0 ) { + + groups = [ { + start: 0, + count: index.count + } ]; + + } + + for ( let i = 0, il = groups.length; i < il; ++ i ) { + + const group = groups[ i ]; + + const start = group.start; + const count = group.count; + + for ( let j = start, jl = start + count; j < jl; j += 3 ) { + + handleTriangle( + index.getX( j + 0 ), + index.getX( j + 1 ), + index.getX( j + 2 ) + ); + + } + + } + + const tmp = new Vector3(), tmp2 = new Vector3(); + const n = new Vector3(), n2 = new Vector3(); + + function handleVertex( v ) { + + n.fromBufferAttribute( normalAttribute, v ); + n2.copy( n ); + + const t = tan1[ v ]; + + // Gram-Schmidt orthogonalize + + tmp.copy( t ); + tmp.sub( n.multiplyScalar( n.dot( t ) ) ).normalize(); + + // Calculate handedness + + tmp2.crossVectors( n2, t ); + const test = tmp2.dot( tan2[ v ] ); + const w = ( test < 0.0 ) ? - 1.0 : 1.0; + + tangentAttribute.setXYZW( v, tmp.x, tmp.y, tmp.z, w ); + + } + + for ( let i = 0, il = groups.length; i < il; ++ i ) { + + const group = groups[ i ]; + + const start = group.start; + const count = group.count; + + for ( let j = start, jl = start + count; j < jl; j += 3 ) { + + handleVertex( index.getX( j + 0 ) ); + handleVertex( index.getX( j + 1 ) ); + handleVertex( index.getX( j + 2 ) ); + + } + + } + + } + + computeVertexNormals() { + + const index = this.index; + const positionAttribute = this.getAttribute( 'position' ); + + if ( positionAttribute !== undefined ) { + + let normalAttribute = this.getAttribute( 'normal' ); + + if ( normalAttribute === undefined ) { + + normalAttribute = new BufferAttribute( new Float32Array( positionAttribute.count * 3 ), 3 ); + this.setAttribute( 'normal', normalAttribute ); + + } else { + + // reset existing normals to zero + + for ( let i = 0, il = normalAttribute.count; i < il; i ++ ) { + + normalAttribute.setXYZ( i, 0, 0, 0 ); + + } + + } + + const pA = new Vector3(), pB = new Vector3(), pC = new Vector3(); + const nA = new Vector3(), nB = new Vector3(), nC = new Vector3(); + const cb = new Vector3(), ab = new Vector3(); + + // indexed elements + + if ( index ) { + + for ( let i = 0, il = index.count; i < il; i += 3 ) { + + const vA = index.getX( i + 0 ); + const vB = index.getX( i + 1 ); + const vC = index.getX( i + 2 ); + + pA.fromBufferAttribute( positionAttribute, vA ); + pB.fromBufferAttribute( positionAttribute, vB ); + pC.fromBufferAttribute( positionAttribute, vC ); + + cb.subVectors( pC, pB ); + ab.subVectors( pA, pB ); + cb.cross( ab ); + + nA.fromBufferAttribute( normalAttribute, vA ); + nB.fromBufferAttribute( normalAttribute, vB ); + nC.fromBufferAttribute( normalAttribute, vC ); + + nA.add( cb ); + nB.add( cb ); + nC.add( cb ); + + normalAttribute.setXYZ( vA, nA.x, nA.y, nA.z ); + normalAttribute.setXYZ( vB, nB.x, nB.y, nB.z ); + normalAttribute.setXYZ( vC, nC.x, nC.y, nC.z ); + + } + + } else { + + // non-indexed elements (unconnected triangle soup) + + for ( let i = 0, il = positionAttribute.count; i < il; i += 3 ) { + + pA.fromBufferAttribute( positionAttribute, i + 0 ); + pB.fromBufferAttribute( positionAttribute, i + 1 ); + pC.fromBufferAttribute( positionAttribute, i + 2 ); + + cb.subVectors( pC, pB ); + ab.subVectors( pA, pB ); + cb.cross( ab ); + + normalAttribute.setXYZ( i + 0, cb.x, cb.y, cb.z ); + normalAttribute.setXYZ( i + 1, cb.x, cb.y, cb.z ); + normalAttribute.setXYZ( i + 2, cb.x, cb.y, cb.z ); + + } + + } + + this.normalizeNormals(); + + normalAttribute.needsUpdate = true; + + } + + } + + normalizeNormals() { + + const normals = this.attributes.normal; + + for ( let i = 0, il = normals.count; i < il; i ++ ) { + + _vector$8.fromBufferAttribute( normals, i ); + + _vector$8.normalize(); + + normals.setXYZ( i, _vector$8.x, _vector$8.y, _vector$8.z ); + + } + + } + + toNonIndexed() { + + function convertBufferAttribute( attribute, indices ) { + + const array = attribute.array; + const itemSize = attribute.itemSize; + const normalized = attribute.normalized; + + const array2 = new array.constructor( indices.length * itemSize ); + + let index = 0, index2 = 0; + + for ( let i = 0, l = indices.length; i < l; i ++ ) { + + if ( attribute.isInterleavedBufferAttribute ) { + + index = indices[ i ] * attribute.data.stride + attribute.offset; + + } else { + + index = indices[ i ] * itemSize; + + } + + for ( let j = 0; j < itemSize; j ++ ) { + + array2[ index2 ++ ] = array[ index ++ ]; + + } + + } + + return new BufferAttribute( array2, itemSize, normalized ); + + } + + // + + if ( this.index === null ) { + + console.warn( 'THREE.BufferGeometry.toNonIndexed(): BufferGeometry is already non-indexed.' ); + return this; + + } + + const geometry2 = new BufferGeometry(); + + const indices = this.index.array; + const attributes = this.attributes; + + // attributes + + for ( const name in attributes ) { + + const attribute = attributes[ name ]; + + const newAttribute = convertBufferAttribute( attribute, indices ); + + geometry2.setAttribute( name, newAttribute ); + + } + + // morph attributes + + const morphAttributes = this.morphAttributes; + + for ( const name in morphAttributes ) { + + const morphArray = []; + const morphAttribute = morphAttributes[ name ]; // morphAttribute: array of Float32BufferAttributes + + for ( let i = 0, il = morphAttribute.length; i < il; i ++ ) { + + const attribute = morphAttribute[ i ]; + + const newAttribute = convertBufferAttribute( attribute, indices ); + + morphArray.push( newAttribute ); + + } + + geometry2.morphAttributes[ name ] = morphArray; + + } + + geometry2.morphTargetsRelative = this.morphTargetsRelative; + + // groups + + const groups = this.groups; + + for ( let i = 0, l = groups.length; i < l; i ++ ) { + + const group = groups[ i ]; + geometry2.addGroup( group.start, group.count, group.materialIndex ); + + } + + return geometry2; + + } + + toJSON() { + + const data = { + metadata: { + version: 4.6, + type: 'BufferGeometry', + generator: 'BufferGeometry.toJSON' + } + }; + + // standard BufferGeometry serialization + + data.uuid = this.uuid; + data.type = this.type; + if ( this.name !== '' ) data.name = this.name; + if ( Object.keys( this.userData ).length > 0 ) data.userData = this.userData; + + if ( this.parameters !== undefined ) { + + const parameters = this.parameters; + + for ( const key in parameters ) { + + if ( parameters[ key ] !== undefined ) data[ key ] = parameters[ key ]; + + } + + return data; + + } + + // for simplicity the code assumes attributes are not shared across geometries, see #15811 + + data.data = { attributes: {} }; + + const index = this.index; + + if ( index !== null ) { + + data.data.index = { + type: index.array.constructor.name, + array: Array.prototype.slice.call( index.array ) + }; + + } + + const attributes = this.attributes; + + for ( const key in attributes ) { + + const attribute = attributes[ key ]; + + data.data.attributes[ key ] = attribute.toJSON( data.data ); + + } + + const morphAttributes = {}; + let hasMorphAttributes = false; + + for ( const key in this.morphAttributes ) { + + const attributeArray = this.morphAttributes[ key ]; + + const array = []; + + for ( let i = 0, il = attributeArray.length; i < il; i ++ ) { + + const attribute = attributeArray[ i ]; + + array.push( attribute.toJSON( data.data ) ); + + } + + if ( array.length > 0 ) { + + morphAttributes[ key ] = array; + + hasMorphAttributes = true; + + } + + } + + if ( hasMorphAttributes ) { + + data.data.morphAttributes = morphAttributes; + data.data.morphTargetsRelative = this.morphTargetsRelative; + + } + + const groups = this.groups; + + if ( groups.length > 0 ) { + + data.data.groups = JSON.parse( JSON.stringify( groups ) ); + + } + + const boundingSphere = this.boundingSphere; + + if ( boundingSphere !== null ) { + + data.data.boundingSphere = { + center: boundingSphere.center.toArray(), + radius: boundingSphere.radius + }; + + } + + return data; + + } + + clone() { + + return new this.constructor().copy( this ); + + } + + copy( source ) { + + // reset + + this.index = null; + this.attributes = {}; + this.morphAttributes = {}; + this.groups = []; + this.boundingBox = null; + this.boundingSphere = null; + + // used for storing cloned, shared data + + const data = {}; + + // name + + this.name = source.name; + + // index + + const index = source.index; + + if ( index !== null ) { + + this.setIndex( index.clone( data ) ); + + } + + // attributes + + const attributes = source.attributes; + + for ( const name in attributes ) { + + const attribute = attributes[ name ]; + this.setAttribute( name, attribute.clone( data ) ); + + } + + // morph attributes + + const morphAttributes = source.morphAttributes; + + for ( const name in morphAttributes ) { + + const array = []; + const morphAttribute = morphAttributes[ name ]; // morphAttribute: array of Float32BufferAttributes + + for ( let i = 0, l = morphAttribute.length; i < l; i ++ ) { + + array.push( morphAttribute[ i ].clone( data ) ); + + } + + this.morphAttributes[ name ] = array; + + } + + this.morphTargetsRelative = source.morphTargetsRelative; + + // groups + + const groups = source.groups; + + for ( let i = 0, l = groups.length; i < l; i ++ ) { + + const group = groups[ i ]; + this.addGroup( group.start, group.count, group.materialIndex ); + + } + + // bounding box + + const boundingBox = source.boundingBox; + + if ( boundingBox !== null ) { + + this.boundingBox = boundingBox.clone(); + + } + + // bounding sphere + + const boundingSphere = source.boundingSphere; + + if ( boundingSphere !== null ) { + + this.boundingSphere = boundingSphere.clone(); + + } + + // draw range + + this.drawRange.start = source.drawRange.start; + this.drawRange.count = source.drawRange.count; + + // user data + + this.userData = source.userData; + + return this; + + } + + dispose() { + + this.dispatchEvent( { type: 'dispose' } ); + + } + +} + +const _inverseMatrix$3 = /*@__PURE__*/ new Matrix4(); +const _ray$3 = /*@__PURE__*/ new Ray(); +const _sphere$6 = /*@__PURE__*/ new Sphere(); +const _sphereHitAt = /*@__PURE__*/ new Vector3(); + +const _vA$1 = /*@__PURE__*/ new Vector3(); +const _vB$1 = /*@__PURE__*/ new Vector3(); +const _vC$1 = /*@__PURE__*/ new Vector3(); + +const _tempA = /*@__PURE__*/ new Vector3(); +const _morphA = /*@__PURE__*/ new Vector3(); + +const _uvA$1 = /*@__PURE__*/ new Vector2(); +const _uvB$1 = /*@__PURE__*/ new Vector2(); +const _uvC$1 = /*@__PURE__*/ new Vector2(); + +const _normalA = /*@__PURE__*/ new Vector3(); +const _normalB = /*@__PURE__*/ new Vector3(); +const _normalC = /*@__PURE__*/ new Vector3(); + +const _intersectionPoint = /*@__PURE__*/ new Vector3(); +const _intersectionPointWorld = /*@__PURE__*/ new Vector3(); + +class Mesh extends Object3D { + + constructor( geometry = new BufferGeometry(), material = new MeshBasicMaterial() ) { + + super(); + + this.isMesh = true; + + this.type = 'Mesh'; + + this.geometry = geometry; + this.material = material; + + this.updateMorphTargets(); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + if ( source.morphTargetInfluences !== undefined ) { + + this.morphTargetInfluences = source.morphTargetInfluences.slice(); + + } + + if ( source.morphTargetDictionary !== undefined ) { + + this.morphTargetDictionary = Object.assign( {}, source.morphTargetDictionary ); + + } + + this.material = Array.isArray( source.material ) ? source.material.slice() : source.material; + this.geometry = source.geometry; + + return this; + + } + + updateMorphTargets() { + + const geometry = this.geometry; + + const morphAttributes = geometry.morphAttributes; + const keys = Object.keys( morphAttributes ); + + if ( keys.length > 0 ) { + + const morphAttribute = morphAttributes[ keys[ 0 ] ]; + + if ( morphAttribute !== undefined ) { + + this.morphTargetInfluences = []; + this.morphTargetDictionary = {}; + + for ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) { + + const name = morphAttribute[ m ].name || String( m ); + + this.morphTargetInfluences.push( 0 ); + this.morphTargetDictionary[ name ] = m; + + } + + } + + } + + } + + getVertexPosition( index, target ) { + + const geometry = this.geometry; + const position = geometry.attributes.position; + const morphPosition = geometry.morphAttributes.position; + const morphTargetsRelative = geometry.morphTargetsRelative; + + target.fromBufferAttribute( position, index ); + + const morphInfluences = this.morphTargetInfluences; + + if ( morphPosition && morphInfluences ) { + + _morphA.set( 0, 0, 0 ); + + for ( let i = 0, il = morphPosition.length; i < il; i ++ ) { + + const influence = morphInfluences[ i ]; + const morphAttribute = morphPosition[ i ]; + + if ( influence === 0 ) continue; + + _tempA.fromBufferAttribute( morphAttribute, index ); + + if ( morphTargetsRelative ) { + + _morphA.addScaledVector( _tempA, influence ); + + } else { + + _morphA.addScaledVector( _tempA.sub( target ), influence ); + + } + + } + + target.add( _morphA ); + + } + + return target; + + } + + raycast( raycaster, intersects ) { + + const geometry = this.geometry; + const material = this.material; + const matrixWorld = this.matrixWorld; + + if ( material === undefined ) return; + + // test with bounding sphere in world space + + if ( geometry.boundingSphere === null ) geometry.computeBoundingSphere(); + + _sphere$6.copy( geometry.boundingSphere ); + _sphere$6.applyMatrix4( matrixWorld ); + + // check distance from ray origin to bounding sphere + + _ray$3.copy( raycaster.ray ).recast( raycaster.near ); + + if ( _sphere$6.containsPoint( _ray$3.origin ) === false ) { + + if ( _ray$3.intersectSphere( _sphere$6, _sphereHitAt ) === null ) return; + + if ( _ray$3.origin.distanceToSquared( _sphereHitAt ) > ( raycaster.far - raycaster.near ) ** 2 ) return; + + } + + // convert ray to local space of mesh + + _inverseMatrix$3.copy( matrixWorld ).invert(); + _ray$3.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$3 ); + + // test with bounding box in local space + + if ( geometry.boundingBox !== null ) { + + if ( _ray$3.intersectsBox( geometry.boundingBox ) === false ) return; + + } + + // test for intersections with geometry + + this._computeIntersections( raycaster, intersects, _ray$3 ); + + } + + _computeIntersections( raycaster, intersects, rayLocalSpace ) { + + let intersection; + + const geometry = this.geometry; + const material = this.material; + + const index = geometry.index; + const position = geometry.attributes.position; + const uv = geometry.attributes.uv; + const uv1 = geometry.attributes.uv1; + const normal = geometry.attributes.normal; + const groups = geometry.groups; + const drawRange = geometry.drawRange; + + if ( index !== null ) { + + // indexed buffer geometry + + if ( Array.isArray( material ) ) { + + for ( let i = 0, il = groups.length; i < il; i ++ ) { + + const group = groups[ i ]; + const groupMaterial = material[ group.materialIndex ]; + + const start = Math.max( group.start, drawRange.start ); + const end = Math.min( index.count, Math.min( ( group.start + group.count ), ( drawRange.start + drawRange.count ) ) ); + + for ( let j = start, jl = end; j < jl; j += 3 ) { + + const a = index.getX( j ); + const b = index.getX( j + 1 ); + const c = index.getX( j + 2 ); + + intersection = checkGeometryIntersection( this, groupMaterial, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c ); + + if ( intersection ) { + + intersection.faceIndex = Math.floor( j / 3 ); // triangle number in indexed buffer semantics + intersection.face.materialIndex = group.materialIndex; + intersects.push( intersection ); + + } + + } + + } + + } else { + + const start = Math.max( 0, drawRange.start ); + const end = Math.min( index.count, ( drawRange.start + drawRange.count ) ); + + for ( let i = start, il = end; i < il; i += 3 ) { + + const a = index.getX( i ); + const b = index.getX( i + 1 ); + const c = index.getX( i + 2 ); + + intersection = checkGeometryIntersection( this, material, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c ); + + if ( intersection ) { + + intersection.faceIndex = Math.floor( i / 3 ); // triangle number in indexed buffer semantics + intersects.push( intersection ); + + } + + } + + } + + } else if ( position !== undefined ) { + + // non-indexed buffer geometry + + if ( Array.isArray( material ) ) { + + for ( let i = 0, il = groups.length; i < il; i ++ ) { + + const group = groups[ i ]; + const groupMaterial = material[ group.materialIndex ]; + + const start = Math.max( group.start, drawRange.start ); + const end = Math.min( position.count, Math.min( ( group.start + group.count ), ( drawRange.start + drawRange.count ) ) ); + + for ( let j = start, jl = end; j < jl; j += 3 ) { + + const a = j; + const b = j + 1; + const c = j + 2; + + intersection = checkGeometryIntersection( this, groupMaterial, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c ); + + if ( intersection ) { + + intersection.faceIndex = Math.floor( j / 3 ); // triangle number in non-indexed buffer semantics + intersection.face.materialIndex = group.materialIndex; + intersects.push( intersection ); + + } + + } + + } + + } else { + + const start = Math.max( 0, drawRange.start ); + const end = Math.min( position.count, ( drawRange.start + drawRange.count ) ); + + for ( let i = start, il = end; i < il; i += 3 ) { + + const a = i; + const b = i + 1; + const c = i + 2; + + intersection = checkGeometryIntersection( this, material, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c ); + + if ( intersection ) { + + intersection.faceIndex = Math.floor( i / 3 ); // triangle number in non-indexed buffer semantics + intersects.push( intersection ); + + } + + } + + } + + } + + } + +} + +function checkIntersection$1( object, material, raycaster, ray, pA, pB, pC, point ) { + + let intersect; + + if ( material.side === BackSide ) { + + intersect = ray.intersectTriangle( pC, pB, pA, true, point ); + + } else { + + intersect = ray.intersectTriangle( pA, pB, pC, ( material.side === FrontSide ), point ); + + } + + if ( intersect === null ) return null; + + _intersectionPointWorld.copy( point ); + _intersectionPointWorld.applyMatrix4( object.matrixWorld ); + + const distance = raycaster.ray.origin.distanceTo( _intersectionPointWorld ); + + if ( distance < raycaster.near || distance > raycaster.far ) return null; + + return { + distance: distance, + point: _intersectionPointWorld.clone(), + object: object + }; + +} + +function checkGeometryIntersection( object, material, raycaster, ray, uv, uv1, normal, a, b, c ) { + + object.getVertexPosition( a, _vA$1 ); + object.getVertexPosition( b, _vB$1 ); + object.getVertexPosition( c, _vC$1 ); + + const intersection = checkIntersection$1( object, material, raycaster, ray, _vA$1, _vB$1, _vC$1, _intersectionPoint ); + + if ( intersection ) { + + if ( uv ) { + + _uvA$1.fromBufferAttribute( uv, a ); + _uvB$1.fromBufferAttribute( uv, b ); + _uvC$1.fromBufferAttribute( uv, c ); + + intersection.uv = Triangle.getInterpolation( _intersectionPoint, _vA$1, _vB$1, _vC$1, _uvA$1, _uvB$1, _uvC$1, new Vector2() ); + + } + + if ( uv1 ) { + + _uvA$1.fromBufferAttribute( uv1, a ); + _uvB$1.fromBufferAttribute( uv1, b ); + _uvC$1.fromBufferAttribute( uv1, c ); + + intersection.uv1 = Triangle.getInterpolation( _intersectionPoint, _vA$1, _vB$1, _vC$1, _uvA$1, _uvB$1, _uvC$1, new Vector2() ); + + } + + if ( normal ) { + + _normalA.fromBufferAttribute( normal, a ); + _normalB.fromBufferAttribute( normal, b ); + _normalC.fromBufferAttribute( normal, c ); + + intersection.normal = Triangle.getInterpolation( _intersectionPoint, _vA$1, _vB$1, _vC$1, _normalA, _normalB, _normalC, new Vector3() ); + + if ( intersection.normal.dot( ray.direction ) > 0 ) { + + intersection.normal.multiplyScalar( - 1 ); + + } + + } + + const face = { + a: a, + b: b, + c: c, + normal: new Vector3(), + materialIndex: 0 + }; + + Triangle.getNormal( _vA$1, _vB$1, _vC$1, face.normal ); + + intersection.face = face; + + } + + return intersection; + +} + +class BoxGeometry extends BufferGeometry { + + constructor( width = 1, height = 1, depth = 1, widthSegments = 1, heightSegments = 1, depthSegments = 1 ) { + + super(); + + this.type = 'BoxGeometry'; + + this.parameters = { + width: width, + height: height, + depth: depth, + widthSegments: widthSegments, + heightSegments: heightSegments, + depthSegments: depthSegments + }; + + const scope = this; + + // segments + + widthSegments = Math.floor( widthSegments ); + heightSegments = Math.floor( heightSegments ); + depthSegments = Math.floor( depthSegments ); + + // buffers + + const indices = []; + const vertices = []; + const normals = []; + const uvs = []; + + // helper variables + + let numberOfVertices = 0; + let groupStart = 0; + + // build each side of the box geometry + + buildPlane( 'z', 'y', 'x', - 1, - 1, depth, height, width, depthSegments, heightSegments, 0 ); // px + buildPlane( 'z', 'y', 'x', 1, - 1, depth, height, - width, depthSegments, heightSegments, 1 ); // nx + buildPlane( 'x', 'z', 'y', 1, 1, width, depth, height, widthSegments, depthSegments, 2 ); // py + buildPlane( 'x', 'z', 'y', 1, - 1, width, depth, - height, widthSegments, depthSegments, 3 ); // ny + buildPlane( 'x', 'y', 'z', 1, - 1, width, height, depth, widthSegments, heightSegments, 4 ); // pz + buildPlane( 'x', 'y', 'z', - 1, - 1, width, height, - depth, widthSegments, heightSegments, 5 ); // nz + + // build geometry + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + + function buildPlane( u, v, w, udir, vdir, width, height, depth, gridX, gridY, materialIndex ) { + + const segmentWidth = width / gridX; + const segmentHeight = height / gridY; + + const widthHalf = width / 2; + const heightHalf = height / 2; + const depthHalf = depth / 2; + + const gridX1 = gridX + 1; + const gridY1 = gridY + 1; + + let vertexCounter = 0; + let groupCount = 0; + + const vector = new Vector3(); + + // generate vertices, normals and uvs + + for ( let iy = 0; iy < gridY1; iy ++ ) { + + const y = iy * segmentHeight - heightHalf; + + for ( let ix = 0; ix < gridX1; ix ++ ) { + + const x = ix * segmentWidth - widthHalf; + + // set values to correct vector component + + vector[ u ] = x * udir; + vector[ v ] = y * vdir; + vector[ w ] = depthHalf; + + // now apply vector to vertex buffer + + vertices.push( vector.x, vector.y, vector.z ); + + // set values to correct vector component + + vector[ u ] = 0; + vector[ v ] = 0; + vector[ w ] = depth > 0 ? 1 : - 1; + + // now apply vector to normal buffer + + normals.push( vector.x, vector.y, vector.z ); + + // uvs + + uvs.push( ix / gridX ); + uvs.push( 1 - ( iy / gridY ) ); + + // counters + + vertexCounter += 1; + + } + + } + + // indices + + // 1. you need three indices to draw a single face + // 2. a single segment consists of two faces + // 3. so we need to generate six (2*3) indices per segment + + for ( let iy = 0; iy < gridY; iy ++ ) { + + for ( let ix = 0; ix < gridX; ix ++ ) { + + const a = numberOfVertices + ix + gridX1 * iy; + const b = numberOfVertices + ix + gridX1 * ( iy + 1 ); + const c = numberOfVertices + ( ix + 1 ) + gridX1 * ( iy + 1 ); + const d = numberOfVertices + ( ix + 1 ) + gridX1 * iy; + + // faces + + indices.push( a, b, d ); + indices.push( b, c, d ); + + // increase counter + + groupCount += 6; + + } + + } + + // add a group to the geometry. this will ensure multi material support + + scope.addGroup( groupStart, groupCount, materialIndex ); + + // calculate new start value for groups + + groupStart += groupCount; + + // update total number of vertices + + numberOfVertices += vertexCounter; + + } + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + static fromJSON( data ) { + + return new BoxGeometry( data.width, data.height, data.depth, data.widthSegments, data.heightSegments, data.depthSegments ); + + } + +} + +/** + * Uniform Utilities + */ + +function cloneUniforms( src ) { + + const dst = {}; + + for ( const u in src ) { + + dst[ u ] = {}; + + for ( const p in src[ u ] ) { + + const property = src[ u ][ p ]; + + if ( property && ( property.isColor || + property.isMatrix3 || property.isMatrix4 || + property.isVector2 || property.isVector3 || property.isVector4 || + property.isTexture || property.isQuaternion ) ) { + + if ( property.isRenderTargetTexture ) { + + console.warn( 'UniformsUtils: Textures of render targets cannot be cloned via cloneUniforms() or mergeUniforms().' ); + dst[ u ][ p ] = null; + + } else { + + dst[ u ][ p ] = property.clone(); + + } + + } else if ( Array.isArray( property ) ) { + + dst[ u ][ p ] = property.slice(); + + } else { + + dst[ u ][ p ] = property; + + } + + } + + } + + return dst; + +} + +function cloneUniformsGroups( src ) { + + const dst = []; + + for ( let u = 0; u < src.length; u ++ ) { + + dst.push( src[ u ].clone() ); + + } + + return dst; + +} + +var default_vertex = /* glsl */` +void main() { + gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 ); +} +`; + +var default_fragment = /* glsl */` +void main() { + gl_FragColor = vec4( 1.0, 0.0, 0.0, 1.0 ); +} +`; + +class ShaderMaterial extends Material { + + constructor( parameters ) { + + super(); + + this.isShaderMaterial = true; + + this.type = 'ShaderMaterial'; + + this.defines = {}; + this.uniforms = {}; + this.uniformsGroups = []; + + this.vertexShader = default_vertex; + this.fragmentShader = default_fragment; + + this.linewidth = 1; + + this.wireframe = false; + this.wireframeLinewidth = 1; + + this.fog = false; // set to use scene fog + this.lights = false; // set to use scene lights + this.clipping = false; // set to use user-defined clipping planes + + this.forceSinglePass = true; + + this.extensions = { + clipCullDistance: false, // set to use vertex shader clipping + multiDraw: false // set to use vertex shader multi_draw / enable gl_DrawID + }; + + // When rendered geometry doesn't include these attributes but the material does, + // use these default values in WebGL. This avoids errors when buffer data is missing. + this.defaultAttributeValues = { + 'color': [ 1, 1, 1 ], + 'uv': [ 0, 0 ], + 'uv1': [ 0, 0 ] + }; + + this.index0AttributeName = undefined; + this.uniformsNeedUpdate = false; + + this.glslVersion = null; + + if ( parameters !== undefined ) { + + this.setValues( parameters ); + + } + + } + + copy( source ) { + + super.copy( source ); + + this.fragmentShader = source.fragmentShader; + this.vertexShader = source.vertexShader; + + this.uniforms = cloneUniforms( source.uniforms ); + this.uniformsGroups = cloneUniformsGroups( source.uniformsGroups ); + + this.defines = Object.assign( {}, source.defines ); + + this.wireframe = source.wireframe; + this.wireframeLinewidth = source.wireframeLinewidth; + + this.fog = source.fog; + this.lights = source.lights; + this.clipping = source.clipping; + + this.extensions = Object.assign( {}, source.extensions ); + + this.glslVersion = source.glslVersion; + + return this; + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + data.glslVersion = this.glslVersion; + data.uniforms = {}; + + for ( const name in this.uniforms ) { + + const uniform = this.uniforms[ name ]; + const value = uniform.value; + + if ( value && value.isTexture ) { + + data.uniforms[ name ] = { + type: 't', + value: value.toJSON( meta ).uuid + }; + + } else if ( value && value.isColor ) { + + data.uniforms[ name ] = { + type: 'c', + value: value.getHex() + }; + + } else if ( value && value.isVector2 ) { + + data.uniforms[ name ] = { + type: 'v2', + value: value.toArray() + }; + + } else if ( value && value.isVector3 ) { + + data.uniforms[ name ] = { + type: 'v3', + value: value.toArray() + }; + + } else if ( value && value.isVector4 ) { + + data.uniforms[ name ] = { + type: 'v4', + value: value.toArray() + }; + + } else if ( value && value.isMatrix3 ) { + + data.uniforms[ name ] = { + type: 'm3', + value: value.toArray() + }; + + } else if ( value && value.isMatrix4 ) { + + data.uniforms[ name ] = { + type: 'm4', + value: value.toArray() + }; + + } else { + + data.uniforms[ name ] = { + value: value + }; + + // note: the array variants v2v, v3v, v4v, m4v and tv are not supported so far + + } + + } + + if ( Object.keys( this.defines ).length > 0 ) data.defines = this.defines; + + data.vertexShader = this.vertexShader; + data.fragmentShader = this.fragmentShader; + + data.lights = this.lights; + data.clipping = this.clipping; + + const extensions = {}; + + for ( const key in this.extensions ) { + + if ( this.extensions[ key ] === true ) extensions[ key ] = true; + + } + + if ( Object.keys( extensions ).length > 0 ) data.extensions = extensions; + + return data; + + } + +} + +class Camera extends Object3D { + + constructor() { + + super(); + + this.isCamera = true; + + this.type = 'Camera'; + + this.matrixWorldInverse = new Matrix4(); + + this.projectionMatrix = new Matrix4(); + this.projectionMatrixInverse = new Matrix4(); + + this.coordinateSystem = WebGLCoordinateSystem; + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.matrixWorldInverse.copy( source.matrixWorldInverse ); + + this.projectionMatrix.copy( source.projectionMatrix ); + this.projectionMatrixInverse.copy( source.projectionMatrixInverse ); + + this.coordinateSystem = source.coordinateSystem; + + return this; + + } + + getWorldDirection( target ) { + + return super.getWorldDirection( target ).negate(); + + } + + updateMatrixWorld( force ) { + + super.updateMatrixWorld( force ); + + this.matrixWorldInverse.copy( this.matrixWorld ).invert(); + + } + + updateWorldMatrix( updateParents, updateChildren ) { + + super.updateWorldMatrix( updateParents, updateChildren ); + + this.matrixWorldInverse.copy( this.matrixWorld ).invert(); + + } + + clone() { + + return new this.constructor().copy( this ); + + } + +} + +const _v3$1 = /*@__PURE__*/ new Vector3(); +const _minTarget = /*@__PURE__*/ new Vector2(); +const _maxTarget = /*@__PURE__*/ new Vector2(); + + +class PerspectiveCamera extends Camera { + + constructor( fov = 50, aspect = 1, near = 0.1, far = 2000 ) { + + super(); + + this.isPerspectiveCamera = true; + + this.type = 'PerspectiveCamera'; + + this.fov = fov; + this.zoom = 1; + + this.near = near; + this.far = far; + this.focus = 10; + + this.aspect = aspect; + this.view = null; + + this.filmGauge = 35; // width of the film (default in millimeters) + this.filmOffset = 0; // horizontal film offset (same unit as gauge) + + this.updateProjectionMatrix(); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.fov = source.fov; + this.zoom = source.zoom; + + this.near = source.near; + this.far = source.far; + this.focus = source.focus; + + this.aspect = source.aspect; + this.view = source.view === null ? null : Object.assign( {}, source.view ); + + this.filmGauge = source.filmGauge; + this.filmOffset = source.filmOffset; + + return this; + + } + + /** + * Sets the FOV by focal length in respect to the current .filmGauge. + * + * The default film gauge is 35, so that the focal length can be specified for + * a 35mm (full frame) camera. + * + * Values for focal length and film gauge must have the same unit. + */ + setFocalLength( focalLength ) { + + /** see {@link http://www.bobatkins.com/photography/technical/field_of_view.html} */ + const vExtentSlope = 0.5 * this.getFilmHeight() / focalLength; + + this.fov = RAD2DEG * 2 * Math.atan( vExtentSlope ); + this.updateProjectionMatrix(); + + } + + /** + * Calculates the focal length from the current .fov and .filmGauge. + */ + getFocalLength() { + + const vExtentSlope = Math.tan( DEG2RAD * 0.5 * this.fov ); + + return 0.5 * this.getFilmHeight() / vExtentSlope; + + } + + getEffectiveFOV() { + + return RAD2DEG * 2 * Math.atan( + Math.tan( DEG2RAD * 0.5 * this.fov ) / this.zoom ); + + } + + getFilmWidth() { + + // film not completely covered in portrait format (aspect < 1) + return this.filmGauge * Math.min( this.aspect, 1 ); + + } + + getFilmHeight() { + + // film not completely covered in landscape format (aspect > 1) + return this.filmGauge / Math.max( this.aspect, 1 ); + + } + + /** + * Computes the 2D bounds of the camera's viewable rectangle at a given distance along the viewing direction. + * Sets minTarget and maxTarget to the coordinates of the lower-left and upper-right corners of the view rectangle. + */ + getViewBounds( distance, minTarget, maxTarget ) { + + _v3$1.set( - 1, - 1, 0.5 ).applyMatrix4( this.projectionMatrixInverse ); + + minTarget.set( _v3$1.x, _v3$1.y ).multiplyScalar( - distance / _v3$1.z ); + + _v3$1.set( 1, 1, 0.5 ).applyMatrix4( this.projectionMatrixInverse ); + + maxTarget.set( _v3$1.x, _v3$1.y ).multiplyScalar( - distance / _v3$1.z ); + + } + + /** + * Computes the width and height of the camera's viewable rectangle at a given distance along the viewing direction. + * Copies the result into the target Vector2, where x is width and y is height. + */ + getViewSize( distance, target ) { + + this.getViewBounds( distance, _minTarget, _maxTarget ); + + return target.subVectors( _maxTarget, _minTarget ); + + } + + /** + * Sets an offset in a larger frustum. This is useful for multi-window or + * multi-monitor/multi-machine setups. + * + * For example, if you have 3x2 monitors and each monitor is 1920x1080 and + * the monitors are in grid like this + * + * +---+---+---+ + * | A | B | C | + * +---+---+---+ + * | D | E | F | + * +---+---+---+ + * + * then for each monitor you would call it like this + * + * const w = 1920; + * const h = 1080; + * const fullWidth = w * 3; + * const fullHeight = h * 2; + * + * --A-- + * camera.setViewOffset( fullWidth, fullHeight, w * 0, h * 0, w, h ); + * --B-- + * camera.setViewOffset( fullWidth, fullHeight, w * 1, h * 0, w, h ); + * --C-- + * camera.setViewOffset( fullWidth, fullHeight, w * 2, h * 0, w, h ); + * --D-- + * camera.setViewOffset( fullWidth, fullHeight, w * 0, h * 1, w, h ); + * --E-- + * camera.setViewOffset( fullWidth, fullHeight, w * 1, h * 1, w, h ); + * --F-- + * camera.setViewOffset( fullWidth, fullHeight, w * 2, h * 1, w, h ); + * + * Note there is no reason monitors have to be the same size or in a grid. + */ + setViewOffset( fullWidth, fullHeight, x, y, width, height ) { + + this.aspect = fullWidth / fullHeight; + + if ( this.view === null ) { + + this.view = { + enabled: true, + fullWidth: 1, + fullHeight: 1, + offsetX: 0, + offsetY: 0, + width: 1, + height: 1 + }; + + } + + this.view.enabled = true; + this.view.fullWidth = fullWidth; + this.view.fullHeight = fullHeight; + this.view.offsetX = x; + this.view.offsetY = y; + this.view.width = width; + this.view.height = height; + + this.updateProjectionMatrix(); + + } + + clearViewOffset() { + + if ( this.view !== null ) { + + this.view.enabled = false; + + } + + this.updateProjectionMatrix(); + + } + + updateProjectionMatrix() { + + const near = this.near; + let top = near * Math.tan( DEG2RAD * 0.5 * this.fov ) / this.zoom; + let height = 2 * top; + let width = this.aspect * height; + let left = - 0.5 * width; + const view = this.view; + + if ( this.view !== null && this.view.enabled ) { + + const fullWidth = view.fullWidth, + fullHeight = view.fullHeight; + + left += view.offsetX * width / fullWidth; + top -= view.offsetY * height / fullHeight; + width *= view.width / fullWidth; + height *= view.height / fullHeight; + + } + + const skew = this.filmOffset; + if ( skew !== 0 ) left += near * skew / this.getFilmWidth(); + + this.projectionMatrix.makePerspective( left, left + width, top, top - height, near, this.far, this.coordinateSystem ); + + this.projectionMatrixInverse.copy( this.projectionMatrix ).invert(); + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + data.object.fov = this.fov; + data.object.zoom = this.zoom; + + data.object.near = this.near; + data.object.far = this.far; + data.object.focus = this.focus; + + data.object.aspect = this.aspect; + + if ( this.view !== null ) data.object.view = Object.assign( {}, this.view ); + + data.object.filmGauge = this.filmGauge; + data.object.filmOffset = this.filmOffset; + + return data; + + } + +} + +const fov = - 90; // negative fov is not an error +const aspect = 1; + +class CubeCamera extends Object3D { + + constructor( near, far, renderTarget ) { + + super(); + + this.type = 'CubeCamera'; + + this.renderTarget = renderTarget; + this.coordinateSystem = null; + this.activeMipmapLevel = 0; + + const cameraPX = new PerspectiveCamera( fov, aspect, near, far ); + cameraPX.layers = this.layers; + this.add( cameraPX ); + + const cameraNX = new PerspectiveCamera( fov, aspect, near, far ); + cameraNX.layers = this.layers; + this.add( cameraNX ); + + const cameraPY = new PerspectiveCamera( fov, aspect, near, far ); + cameraPY.layers = this.layers; + this.add( cameraPY ); + + const cameraNY = new PerspectiveCamera( fov, aspect, near, far ); + cameraNY.layers = this.layers; + this.add( cameraNY ); + + const cameraPZ = new PerspectiveCamera( fov, aspect, near, far ); + cameraPZ.layers = this.layers; + this.add( cameraPZ ); + + const cameraNZ = new PerspectiveCamera( fov, aspect, near, far ); + cameraNZ.layers = this.layers; + this.add( cameraNZ ); + + } + + updateCoordinateSystem() { + + const coordinateSystem = this.coordinateSystem; + + const cameras = this.children.concat(); + + const [ cameraPX, cameraNX, cameraPY, cameraNY, cameraPZ, cameraNZ ] = cameras; + + for ( const camera of cameras ) this.remove( camera ); + + if ( coordinateSystem === WebGLCoordinateSystem ) { + + cameraPX.up.set( 0, 1, 0 ); + cameraPX.lookAt( 1, 0, 0 ); + + cameraNX.up.set( 0, 1, 0 ); + cameraNX.lookAt( - 1, 0, 0 ); + + cameraPY.up.set( 0, 0, - 1 ); + cameraPY.lookAt( 0, 1, 0 ); + + cameraNY.up.set( 0, 0, 1 ); + cameraNY.lookAt( 0, - 1, 0 ); + + cameraPZ.up.set( 0, 1, 0 ); + cameraPZ.lookAt( 0, 0, 1 ); + + cameraNZ.up.set( 0, 1, 0 ); + cameraNZ.lookAt( 0, 0, - 1 ); + + } else if ( coordinateSystem === WebGPUCoordinateSystem ) { + + cameraPX.up.set( 0, - 1, 0 ); + cameraPX.lookAt( - 1, 0, 0 ); + + cameraNX.up.set( 0, - 1, 0 ); + cameraNX.lookAt( 1, 0, 0 ); + + cameraPY.up.set( 0, 0, 1 ); + cameraPY.lookAt( 0, 1, 0 ); + + cameraNY.up.set( 0, 0, - 1 ); + cameraNY.lookAt( 0, - 1, 0 ); + + cameraPZ.up.set( 0, - 1, 0 ); + cameraPZ.lookAt( 0, 0, 1 ); + + cameraNZ.up.set( 0, - 1, 0 ); + cameraNZ.lookAt( 0, 0, - 1 ); + + } else { + + throw new Error( 'THREE.CubeCamera.updateCoordinateSystem(): Invalid coordinate system: ' + coordinateSystem ); + + } + + for ( const camera of cameras ) { + + this.add( camera ); + + camera.updateMatrixWorld(); + + } + + } + + update( renderer, scene ) { + + if ( this.parent === null ) this.updateMatrixWorld(); + + const { renderTarget, activeMipmapLevel } = this; + + if ( this.coordinateSystem !== renderer.coordinateSystem ) { + + this.coordinateSystem = renderer.coordinateSystem; + + this.updateCoordinateSystem(); + + } + + const [ cameraPX, cameraNX, cameraPY, cameraNY, cameraPZ, cameraNZ ] = this.children; + + const currentRenderTarget = renderer.getRenderTarget(); + const currentActiveCubeFace = renderer.getActiveCubeFace(); + const currentActiveMipmapLevel = renderer.getActiveMipmapLevel(); + + const currentXrEnabled = renderer.xr.enabled; + + renderer.xr.enabled = false; + + const generateMipmaps = renderTarget.texture.generateMipmaps; + + renderTarget.texture.generateMipmaps = false; + + renderer.setRenderTarget( renderTarget, 0, activeMipmapLevel ); + renderer.render( scene, cameraPX ); + + renderer.setRenderTarget( renderTarget, 1, activeMipmapLevel ); + renderer.render( scene, cameraNX ); + + renderer.setRenderTarget( renderTarget, 2, activeMipmapLevel ); + renderer.render( scene, cameraPY ); + + renderer.setRenderTarget( renderTarget, 3, activeMipmapLevel ); + renderer.render( scene, cameraNY ); + + renderer.setRenderTarget( renderTarget, 4, activeMipmapLevel ); + renderer.render( scene, cameraPZ ); + + // mipmaps are generated during the last call of render() + // at this point, all sides of the cube render target are defined + + renderTarget.texture.generateMipmaps = generateMipmaps; + + renderer.setRenderTarget( renderTarget, 5, activeMipmapLevel ); + renderer.render( scene, cameraNZ ); + + renderer.setRenderTarget( currentRenderTarget, currentActiveCubeFace, currentActiveMipmapLevel ); + + renderer.xr.enabled = currentXrEnabled; + + renderTarget.texture.needsPMREMUpdate = true; + + } + +} + +class CubeTexture extends Texture { + + constructor( images, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace ) { + + images = images !== undefined ? images : []; + mapping = mapping !== undefined ? mapping : CubeReflectionMapping; + + super( images, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace ); + + this.isCubeTexture = true; + + this.flipY = false; + + } + + get images() { + + return this.image; + + } + + set images( value ) { + + this.image = value; + + } + +} + +class WebGLCubeRenderTarget extends WebGLRenderTarget { + + constructor( size = 1, options = {} ) { + + super( size, size, options ); + + this.isWebGLCubeRenderTarget = true; + + const image = { width: size, height: size, depth: 1 }; + const images = [ image, image, image, image, image, image ]; + + this.texture = new CubeTexture( images, options.mapping, options.wrapS, options.wrapT, options.magFilter, options.minFilter, options.format, options.type, options.anisotropy, options.colorSpace ); + + // By convention -- likely based on the RenderMan spec from the 1990's -- cube maps are specified by WebGL (and three.js) + // in a coordinate system in which positive-x is to the right when looking up the positive-z axis -- in other words, + // in a left-handed coordinate system. By continuing this convention, preexisting cube maps continued to render correctly. + + // three.js uses a right-handed coordinate system. So environment maps used in three.js appear to have px and nx swapped + // and the flag isRenderTargetTexture controls this conversion. The flip is not required when using WebGLCubeRenderTarget.texture + // as a cube texture (this is detected when isRenderTargetTexture is set to true for cube textures). + + this.texture.isRenderTargetTexture = true; + + this.texture.generateMipmaps = options.generateMipmaps !== undefined ? options.generateMipmaps : false; + this.texture.minFilter = options.minFilter !== undefined ? options.minFilter : LinearFilter; + + } + + fromEquirectangularTexture( renderer, texture ) { + + this.texture.type = texture.type; + this.texture.colorSpace = texture.colorSpace; + + this.texture.generateMipmaps = texture.generateMipmaps; + this.texture.minFilter = texture.minFilter; + this.texture.magFilter = texture.magFilter; + + const shader = { + + uniforms: { + tEquirect: { value: null }, + }, + + vertexShader: /* glsl */` + + varying vec3 vWorldDirection; + + vec3 transformDirection( in vec3 dir, in mat4 matrix ) { + + return normalize( ( matrix * vec4( dir, 0.0 ) ).xyz ); + + } + + void main() { + + vWorldDirection = transformDirection( position, modelMatrix ); + + #include + #include + + } + `, + + fragmentShader: /* glsl */` + + uniform sampler2D tEquirect; + + varying vec3 vWorldDirection; + + #include + + void main() { + + vec3 direction = normalize( vWorldDirection ); + + vec2 sampleUV = equirectUv( direction ); + + gl_FragColor = texture2D( tEquirect, sampleUV ); + + } + ` + }; + + const geometry = new BoxGeometry( 5, 5, 5 ); + + const material = new ShaderMaterial( { + + name: 'CubemapFromEquirect', + + uniforms: cloneUniforms( shader.uniforms ), + vertexShader: shader.vertexShader, + fragmentShader: shader.fragmentShader, + side: BackSide, + blending: NoBlending + + } ); + + material.uniforms.tEquirect.value = texture; + + const mesh = new Mesh( geometry, material ); + + const currentMinFilter = texture.minFilter; + + // Avoid blurred poles + if ( texture.minFilter === LinearMipmapLinearFilter ) texture.minFilter = LinearFilter; + + const camera = new CubeCamera( 1, 10, this ); + camera.update( renderer, mesh ); + + texture.minFilter = currentMinFilter; + + mesh.geometry.dispose(); + mesh.material.dispose(); + + return this; + + } + + clear( renderer, color, depth, stencil ) { + + const currentRenderTarget = renderer.getRenderTarget(); + + for ( let i = 0; i < 6; i ++ ) { + + renderer.setRenderTarget( this, i ); + + renderer.clear( color, depth, stencil ); + + } + + renderer.setRenderTarget( currentRenderTarget ); + + } + +} + +class FogExp2 { + + constructor( color, density = 0.00025 ) { + + this.isFogExp2 = true; + + this.name = ''; + + this.color = new Color( color ); + this.density = density; + + } + + clone() { + + return new FogExp2( this.color, this.density ); + + } + + toJSON( /* meta */ ) { + + return { + type: 'FogExp2', + name: this.name, + color: this.color.getHex(), + density: this.density + }; + + } + +} + +class Fog { + + constructor( color, near = 1, far = 1000 ) { + + this.isFog = true; + + this.name = ''; + + this.color = new Color( color ); + + this.near = near; + this.far = far; + + } + + clone() { + + return new Fog( this.color, this.near, this.far ); + + } + + toJSON( /* meta */ ) { + + return { + type: 'Fog', + name: this.name, + color: this.color.getHex(), + near: this.near, + far: this.far + }; + + } + +} + +class Scene extends Object3D { + + constructor() { + + super(); + + this.isScene = true; + + this.type = 'Scene'; + + this.background = null; + this.environment = null; + this.fog = null; + + this.backgroundBlurriness = 0; + this.backgroundIntensity = 1; + this.backgroundRotation = new Euler(); + + this.environmentIntensity = 1; + this.environmentRotation = new Euler(); + + this.overrideMaterial = null; + + if ( typeof __THREE_DEVTOOLS__ !== 'undefined' ) { + + __THREE_DEVTOOLS__.dispatchEvent( new CustomEvent( 'observe', { detail: this } ) ); + + } + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + if ( source.background !== null ) this.background = source.background.clone(); + if ( source.environment !== null ) this.environment = source.environment.clone(); + if ( source.fog !== null ) this.fog = source.fog.clone(); + + this.backgroundBlurriness = source.backgroundBlurriness; + this.backgroundIntensity = source.backgroundIntensity; + this.backgroundRotation.copy( source.backgroundRotation ); + + this.environmentIntensity = source.environmentIntensity; + this.environmentRotation.copy( source.environmentRotation ); + + if ( source.overrideMaterial !== null ) this.overrideMaterial = source.overrideMaterial.clone(); + + this.matrixAutoUpdate = source.matrixAutoUpdate; + + return this; + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + if ( this.fog !== null ) data.object.fog = this.fog.toJSON(); + + if ( this.backgroundBlurriness > 0 ) data.object.backgroundBlurriness = this.backgroundBlurriness; + if ( this.backgroundIntensity !== 1 ) data.object.backgroundIntensity = this.backgroundIntensity; + data.object.backgroundRotation = this.backgroundRotation.toArray(); + + if ( this.environmentIntensity !== 1 ) data.object.environmentIntensity = this.environmentIntensity; + data.object.environmentRotation = this.environmentRotation.toArray(); + + return data; + + } + +} + +class InterleavedBuffer { + + constructor( array, stride ) { + + this.isInterleavedBuffer = true; + + this.array = array; + this.stride = stride; + this.count = array !== undefined ? array.length / stride : 0; + + this.usage = StaticDrawUsage; + this._updateRange = { offset: 0, count: - 1 }; + this.updateRanges = []; + + this.version = 0; + + this.uuid = generateUUID(); + + } + + onUploadCallback() {} + + set needsUpdate( value ) { + + if ( value === true ) this.version ++; + + } + + get updateRange() { + + warnOnce( 'THREE.InterleavedBuffer: updateRange() is deprecated and will be removed in r169. Use addUpdateRange() instead.' ); // @deprecated, r159 + return this._updateRange; + + } + + setUsage( value ) { + + this.usage = value; + + return this; + + } + + addUpdateRange( start, count ) { + + this.updateRanges.push( { start, count } ); + + } + + clearUpdateRanges() { + + this.updateRanges.length = 0; + + } + + copy( source ) { + + this.array = new source.array.constructor( source.array ); + this.count = source.count; + this.stride = source.stride; + this.usage = source.usage; + + return this; + + } + + copyAt( index1, attribute, index2 ) { + + index1 *= this.stride; + index2 *= attribute.stride; + + for ( let i = 0, l = this.stride; i < l; i ++ ) { + + this.array[ index1 + i ] = attribute.array[ index2 + i ]; + + } + + return this; + + } + + set( value, offset = 0 ) { + + this.array.set( value, offset ); + + return this; + + } + + clone( data ) { + + if ( data.arrayBuffers === undefined ) { + + data.arrayBuffers = {}; + + } + + if ( this.array.buffer._uuid === undefined ) { + + this.array.buffer._uuid = generateUUID(); + + } + + if ( data.arrayBuffers[ this.array.buffer._uuid ] === undefined ) { + + data.arrayBuffers[ this.array.buffer._uuid ] = this.array.slice( 0 ).buffer; + + } + + const array = new this.array.constructor( data.arrayBuffers[ this.array.buffer._uuid ] ); + + const ib = new this.constructor( array, this.stride ); + ib.setUsage( this.usage ); + + return ib; + + } + + onUpload( callback ) { + + this.onUploadCallback = callback; + + return this; + + } + + toJSON( data ) { + + if ( data.arrayBuffers === undefined ) { + + data.arrayBuffers = {}; + + } + + // generate UUID for array buffer if necessary + + if ( this.array.buffer._uuid === undefined ) { + + this.array.buffer._uuid = generateUUID(); + + } + + if ( data.arrayBuffers[ this.array.buffer._uuid ] === undefined ) { + + data.arrayBuffers[ this.array.buffer._uuid ] = Array.from( new Uint32Array( this.array.buffer ) ); + + } + + // + + return { + uuid: this.uuid, + buffer: this.array.buffer._uuid, + type: this.array.constructor.name, + stride: this.stride + }; + + } + +} + +const _vector$7 = /*@__PURE__*/ new Vector3(); + +class InterleavedBufferAttribute { + + constructor( interleavedBuffer, itemSize, offset, normalized = false ) { + + this.isInterleavedBufferAttribute = true; + + this.name = ''; + + this.data = interleavedBuffer; + this.itemSize = itemSize; + this.offset = offset; + + this.normalized = normalized; + + } + + get count() { + + return this.data.count; + + } + + get array() { + + return this.data.array; + + } + + set needsUpdate( value ) { + + this.data.needsUpdate = value; + + } + + applyMatrix4( m ) { + + for ( let i = 0, l = this.data.count; i < l; i ++ ) { + + _vector$7.fromBufferAttribute( this, i ); + + _vector$7.applyMatrix4( m ); + + this.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z ); + + } + + return this; + + } + + applyNormalMatrix( m ) { + + for ( let i = 0, l = this.count; i < l; i ++ ) { + + _vector$7.fromBufferAttribute( this, i ); + + _vector$7.applyNormalMatrix( m ); + + this.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z ); + + } + + return this; + + } + + transformDirection( m ) { + + for ( let i = 0, l = this.count; i < l; i ++ ) { + + _vector$7.fromBufferAttribute( this, i ); + + _vector$7.transformDirection( m ); + + this.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z ); + + } + + return this; + + } + + getComponent( index, component ) { + + let value = this.array[ index * this.data.stride + this.offset + component ]; + + if ( this.normalized ) value = denormalize( value, this.array ); + + return value; + + } + + setComponent( index, component, value ) { + + if ( this.normalized ) value = normalize$1( value, this.array ); + + this.data.array[ index * this.data.stride + this.offset + component ] = value; + + return this; + + } + + setX( index, x ) { + + if ( this.normalized ) x = normalize$1( x, this.array ); + + this.data.array[ index * this.data.stride + this.offset ] = x; + + return this; + + } + + setY( index, y ) { + + if ( this.normalized ) y = normalize$1( y, this.array ); + + this.data.array[ index * this.data.stride + this.offset + 1 ] = y; + + return this; + + } + + setZ( index, z ) { + + if ( this.normalized ) z = normalize$1( z, this.array ); + + this.data.array[ index * this.data.stride + this.offset + 2 ] = z; + + return this; + + } + + setW( index, w ) { + + if ( this.normalized ) w = normalize$1( w, this.array ); + + this.data.array[ index * this.data.stride + this.offset + 3 ] = w; + + return this; + + } + + getX( index ) { + + let x = this.data.array[ index * this.data.stride + this.offset ]; + + if ( this.normalized ) x = denormalize( x, this.array ); + + return x; + + } + + getY( index ) { + + let y = this.data.array[ index * this.data.stride + this.offset + 1 ]; + + if ( this.normalized ) y = denormalize( y, this.array ); + + return y; + + } + + getZ( index ) { + + let z = this.data.array[ index * this.data.stride + this.offset + 2 ]; + + if ( this.normalized ) z = denormalize( z, this.array ); + + return z; + + } + + getW( index ) { + + let w = this.data.array[ index * this.data.stride + this.offset + 3 ]; + + if ( this.normalized ) w = denormalize( w, this.array ); + + return w; + + } + + setXY( index, x, y ) { + + index = index * this.data.stride + this.offset; + + if ( this.normalized ) { + + x = normalize$1( x, this.array ); + y = normalize$1( y, this.array ); + + } + + this.data.array[ index + 0 ] = x; + this.data.array[ index + 1 ] = y; + + return this; + + } + + setXYZ( index, x, y, z ) { + + index = index * this.data.stride + this.offset; + + if ( this.normalized ) { + + x = normalize$1( x, this.array ); + y = normalize$1( y, this.array ); + z = normalize$1( z, this.array ); + + } + + this.data.array[ index + 0 ] = x; + this.data.array[ index + 1 ] = y; + this.data.array[ index + 2 ] = z; + + return this; + + } + + setXYZW( index, x, y, z, w ) { + + index = index * this.data.stride + this.offset; + + if ( this.normalized ) { + + x = normalize$1( x, this.array ); + y = normalize$1( y, this.array ); + z = normalize$1( z, this.array ); + w = normalize$1( w, this.array ); + + } + + this.data.array[ index + 0 ] = x; + this.data.array[ index + 1 ] = y; + this.data.array[ index + 2 ] = z; + this.data.array[ index + 3 ] = w; + + return this; + + } + + clone( data ) { + + if ( data === undefined ) { + + console.log( 'THREE.InterleavedBufferAttribute.clone(): Cloning an interleaved buffer attribute will de-interleave buffer data.' ); + + const array = []; + + for ( let i = 0; i < this.count; i ++ ) { + + const index = i * this.data.stride + this.offset; + + for ( let j = 0; j < this.itemSize; j ++ ) { + + array.push( this.data.array[ index + j ] ); + + } + + } + + return new BufferAttribute( new this.array.constructor( array ), this.itemSize, this.normalized ); + + } else { + + if ( data.interleavedBuffers === undefined ) { + + data.interleavedBuffers = {}; + + } + + if ( data.interleavedBuffers[ this.data.uuid ] === undefined ) { + + data.interleavedBuffers[ this.data.uuid ] = this.data.clone( data ); + + } + + return new InterleavedBufferAttribute( data.interleavedBuffers[ this.data.uuid ], this.itemSize, this.offset, this.normalized ); + + } + + } + + toJSON( data ) { + + if ( data === undefined ) { + + console.log( 'THREE.InterleavedBufferAttribute.toJSON(): Serializing an interleaved buffer attribute will de-interleave buffer data.' ); + + const array = []; + + for ( let i = 0; i < this.count; i ++ ) { + + const index = i * this.data.stride + this.offset; + + for ( let j = 0; j < this.itemSize; j ++ ) { + + array.push( this.data.array[ index + j ] ); + + } + + } + + // de-interleave data and save it as an ordinary buffer attribute for now + + return { + itemSize: this.itemSize, + type: this.array.constructor.name, + array: array, + normalized: this.normalized + }; + + } else { + + // save as true interleaved attribute + + if ( data.interleavedBuffers === undefined ) { + + data.interleavedBuffers = {}; + + } + + if ( data.interleavedBuffers[ this.data.uuid ] === undefined ) { + + data.interleavedBuffers[ this.data.uuid ] = this.data.toJSON( data ); + + } + + return { + isInterleavedBufferAttribute: true, + itemSize: this.itemSize, + data: this.data.uuid, + offset: this.offset, + normalized: this.normalized + }; + + } + + } + +} + +class SpriteMaterial extends Material { + + constructor( parameters ) { + + super(); + + this.isSpriteMaterial = true; + + this.type = 'SpriteMaterial'; + + this.color = new Color( 0xffffff ); + + this.map = null; + + this.alphaMap = null; + + this.rotation = 0; + + this.sizeAttenuation = true; + + this.transparent = true; + + this.fog = true; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.color.copy( source.color ); + + this.map = source.map; + + this.alphaMap = source.alphaMap; + + this.rotation = source.rotation; + + this.sizeAttenuation = source.sizeAttenuation; + + this.fog = source.fog; + + return this; + + } + +} + +let _geometry$1; + +const _intersectPoint = /*@__PURE__*/ new Vector3(); +const _worldScale = /*@__PURE__*/ new Vector3(); +const _mvPosition = /*@__PURE__*/ new Vector3(); + +const _alignedPosition = /*@__PURE__*/ new Vector2(); +const _rotatedPosition = /*@__PURE__*/ new Vector2(); +const _viewWorldMatrix = /*@__PURE__*/ new Matrix4(); + +const _vA = /*@__PURE__*/ new Vector3(); +const _vB = /*@__PURE__*/ new Vector3(); +const _vC = /*@__PURE__*/ new Vector3(); + +const _uvA = /*@__PURE__*/ new Vector2(); +const _uvB = /*@__PURE__*/ new Vector2(); +const _uvC = /*@__PURE__*/ new Vector2(); + +class Sprite extends Object3D { + + constructor( material = new SpriteMaterial() ) { + + super(); + + this.isSprite = true; + + this.type = 'Sprite'; + + if ( _geometry$1 === undefined ) { + + _geometry$1 = new BufferGeometry(); + + const float32Array = new Float32Array( [ + - 0.5, - 0.5, 0, 0, 0, + 0.5, - 0.5, 0, 1, 0, + 0.5, 0.5, 0, 1, 1, + - 0.5, 0.5, 0, 0, 1 + ] ); + + const interleavedBuffer = new InterleavedBuffer( float32Array, 5 ); + + _geometry$1.setIndex( [ 0, 1, 2, 0, 2, 3 ] ); + _geometry$1.setAttribute( 'position', new InterleavedBufferAttribute( interleavedBuffer, 3, 0, false ) ); + _geometry$1.setAttribute( 'uv', new InterleavedBufferAttribute( interleavedBuffer, 2, 3, false ) ); + + } + + this.geometry = _geometry$1; + this.material = material; + + this.center = new Vector2( 0.5, 0.5 ); + + } + + raycast( raycaster, intersects ) { + + if ( raycaster.camera === null ) { + + console.error( 'THREE.Sprite: "Raycaster.camera" needs to be set in order to raycast against sprites.' ); + + } + + _worldScale.setFromMatrixScale( this.matrixWorld ); + + _viewWorldMatrix.copy( raycaster.camera.matrixWorld ); + this.modelViewMatrix.multiplyMatrices( raycaster.camera.matrixWorldInverse, this.matrixWorld ); + + _mvPosition.setFromMatrixPosition( this.modelViewMatrix ); + + if ( raycaster.camera.isPerspectiveCamera && this.material.sizeAttenuation === false ) { + + _worldScale.multiplyScalar( - _mvPosition.z ); + + } + + const rotation = this.material.rotation; + let sin, cos; + + if ( rotation !== 0 ) { + + cos = Math.cos( rotation ); + sin = Math.sin( rotation ); + + } + + const center = this.center; + + transformVertex( _vA.set( - 0.5, - 0.5, 0 ), _mvPosition, center, _worldScale, sin, cos ); + transformVertex( _vB.set( 0.5, - 0.5, 0 ), _mvPosition, center, _worldScale, sin, cos ); + transformVertex( _vC.set( 0.5, 0.5, 0 ), _mvPosition, center, _worldScale, sin, cos ); + + _uvA.set( 0, 0 ); + _uvB.set( 1, 0 ); + _uvC.set( 1, 1 ); + + // check first triangle + let intersect = raycaster.ray.intersectTriangle( _vA, _vB, _vC, false, _intersectPoint ); + + if ( intersect === null ) { + + // check second triangle + transformVertex( _vB.set( - 0.5, 0.5, 0 ), _mvPosition, center, _worldScale, sin, cos ); + _uvB.set( 0, 1 ); + + intersect = raycaster.ray.intersectTriangle( _vA, _vC, _vB, false, _intersectPoint ); + if ( intersect === null ) { + + return; + + } + + } + + const distance = raycaster.ray.origin.distanceTo( _intersectPoint ); + + if ( distance < raycaster.near || distance > raycaster.far ) return; + + intersects.push( { + + distance: distance, + point: _intersectPoint.clone(), + uv: Triangle.getInterpolation( _intersectPoint, _vA, _vB, _vC, _uvA, _uvB, _uvC, new Vector2() ), + face: null, + object: this + + } ); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + if ( source.center !== undefined ) this.center.copy( source.center ); + + this.material = source.material; + + return this; + + } + +} + +function transformVertex( vertexPosition, mvPosition, center, scale, sin, cos ) { + + // compute position in camera space + _alignedPosition.subVectors( vertexPosition, center ).addScalar( 0.5 ).multiply( scale ); + + // to check if rotation is not zero + if ( sin !== undefined ) { + + _rotatedPosition.x = ( cos * _alignedPosition.x ) - ( sin * _alignedPosition.y ); + _rotatedPosition.y = ( sin * _alignedPosition.x ) + ( cos * _alignedPosition.y ); + + } else { + + _rotatedPosition.copy( _alignedPosition ); + + } + + + vertexPosition.copy( mvPosition ); + vertexPosition.x += _rotatedPosition.x; + vertexPosition.y += _rotatedPosition.y; + + // transform to world space + vertexPosition.applyMatrix4( _viewWorldMatrix ); + +} + +const _v1$2 = /*@__PURE__*/ new Vector3(); +const _v2$1 = /*@__PURE__*/ new Vector3(); + +class LOD extends Object3D { + + constructor() { + + super(); + + this._currentLevel = 0; + + this.type = 'LOD'; + + Object.defineProperties( this, { + levels: { + enumerable: true, + value: [] + }, + isLOD: { + value: true, + } + } ); + + this.autoUpdate = true; + + } + + copy( source ) { + + super.copy( source, false ); + + const levels = source.levels; + + for ( let i = 0, l = levels.length; i < l; i ++ ) { + + const level = levels[ i ]; + + this.addLevel( level.object.clone(), level.distance, level.hysteresis ); + + } + + this.autoUpdate = source.autoUpdate; + + return this; + + } + + addLevel( object, distance = 0, hysteresis = 0 ) { + + distance = Math.abs( distance ); + + const levels = this.levels; + + let l; + + for ( l = 0; l < levels.length; l ++ ) { + + if ( distance < levels[ l ].distance ) { + + break; + + } + + } + + levels.splice( l, 0, { distance: distance, hysteresis: hysteresis, object: object } ); + + this.add( object ); + + return this; + + } + + getCurrentLevel() { + + return this._currentLevel; + + } + + + + getObjectForDistance( distance ) { + + const levels = this.levels; + + if ( levels.length > 0 ) { + + let i, l; + + for ( i = 1, l = levels.length; i < l; i ++ ) { + + let levelDistance = levels[ i ].distance; + + if ( levels[ i ].object.visible ) { + + levelDistance -= levelDistance * levels[ i ].hysteresis; + + } + + if ( distance < levelDistance ) { + + break; + + } + + } + + return levels[ i - 1 ].object; + + } + + return null; + + } + + raycast( raycaster, intersects ) { + + const levels = this.levels; + + if ( levels.length > 0 ) { + + _v1$2.setFromMatrixPosition( this.matrixWorld ); + + const distance = raycaster.ray.origin.distanceTo( _v1$2 ); + + this.getObjectForDistance( distance ).raycast( raycaster, intersects ); + + } + + } + + update( camera ) { + + const levels = this.levels; + + if ( levels.length > 1 ) { + + _v1$2.setFromMatrixPosition( camera.matrixWorld ); + _v2$1.setFromMatrixPosition( this.matrixWorld ); + + const distance = _v1$2.distanceTo( _v2$1 ) / camera.zoom; + + levels[ 0 ].object.visible = true; + + let i, l; + + for ( i = 1, l = levels.length; i < l; i ++ ) { + + let levelDistance = levels[ i ].distance; + + if ( levels[ i ].object.visible ) { + + levelDistance -= levelDistance * levels[ i ].hysteresis; + + } + + if ( distance >= levelDistance ) { + + levels[ i - 1 ].object.visible = false; + levels[ i ].object.visible = true; + + } else { + + break; + + } + + } + + this._currentLevel = i - 1; + + for ( ; i < l; i ++ ) { + + levels[ i ].object.visible = false; + + } + + } + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + if ( this.autoUpdate === false ) data.object.autoUpdate = false; + + data.object.levels = []; + + const levels = this.levels; + + for ( let i = 0, l = levels.length; i < l; i ++ ) { + + const level = levels[ i ]; + + data.object.levels.push( { + object: level.object.uuid, + distance: level.distance, + hysteresis: level.hysteresis + } ); + + } + + return data; + + } + +} + +const _basePosition = /*@__PURE__*/ new Vector3(); + +const _skinIndex = /*@__PURE__*/ new Vector4(); +const _skinWeight = /*@__PURE__*/ new Vector4(); + +const _vector3$1 = /*@__PURE__*/ new Vector3(); +const _matrix4 = /*@__PURE__*/ new Matrix4(); +const _vertex = /*@__PURE__*/ new Vector3(); + +const _sphere$5 = /*@__PURE__*/ new Sphere(); +const _inverseMatrix$2 = /*@__PURE__*/ new Matrix4(); +const _ray$2 = /*@__PURE__*/ new Ray(); + +class SkinnedMesh extends Mesh { + + constructor( geometry, material ) { + + super( geometry, material ); + + this.isSkinnedMesh = true; + + this.type = 'SkinnedMesh'; + + this.bindMode = AttachedBindMode; + this.bindMatrix = new Matrix4(); + this.bindMatrixInverse = new Matrix4(); + + this.boundingBox = null; + this.boundingSphere = null; + + } + + computeBoundingBox() { + + const geometry = this.geometry; + + if ( this.boundingBox === null ) { + + this.boundingBox = new Box3(); + + } + + this.boundingBox.makeEmpty(); + + const positionAttribute = geometry.getAttribute( 'position' ); + + for ( let i = 0; i < positionAttribute.count; i ++ ) { + + this.getVertexPosition( i, _vertex ); + this.boundingBox.expandByPoint( _vertex ); + + } + + } + + computeBoundingSphere() { + + const geometry = this.geometry; + + if ( this.boundingSphere === null ) { + + this.boundingSphere = new Sphere(); + + } + + this.boundingSphere.makeEmpty(); + + const positionAttribute = geometry.getAttribute( 'position' ); + + for ( let i = 0; i < positionAttribute.count; i ++ ) { + + this.getVertexPosition( i, _vertex ); + this.boundingSphere.expandByPoint( _vertex ); + + } + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.bindMode = source.bindMode; + this.bindMatrix.copy( source.bindMatrix ); + this.bindMatrixInverse.copy( source.bindMatrixInverse ); + + this.skeleton = source.skeleton; + + if ( source.boundingBox !== null ) this.boundingBox = source.boundingBox.clone(); + if ( source.boundingSphere !== null ) this.boundingSphere = source.boundingSphere.clone(); + + return this; + + } + + raycast( raycaster, intersects ) { + + const material = this.material; + const matrixWorld = this.matrixWorld; + + if ( material === undefined ) return; + + // test with bounding sphere in world space + + if ( this.boundingSphere === null ) this.computeBoundingSphere(); + + _sphere$5.copy( this.boundingSphere ); + _sphere$5.applyMatrix4( matrixWorld ); + + if ( raycaster.ray.intersectsSphere( _sphere$5 ) === false ) return; + + // convert ray to local space of skinned mesh + + _inverseMatrix$2.copy( matrixWorld ).invert(); + _ray$2.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$2 ); + + // test with bounding box in local space + + if ( this.boundingBox !== null ) { + + if ( _ray$2.intersectsBox( this.boundingBox ) === false ) return; + + } + + // test for intersections with geometry + + this._computeIntersections( raycaster, intersects, _ray$2 ); + + } + + getVertexPosition( index, target ) { + + super.getVertexPosition( index, target ); + + this.applyBoneTransform( index, target ); + + return target; + + } + + bind( skeleton, bindMatrix ) { + + this.skeleton = skeleton; + + if ( bindMatrix === undefined ) { + + this.updateMatrixWorld( true ); + + this.skeleton.calculateInverses(); + + bindMatrix = this.matrixWorld; + + } + + this.bindMatrix.copy( bindMatrix ); + this.bindMatrixInverse.copy( bindMatrix ).invert(); + + } + + pose() { + + this.skeleton.pose(); + + } + + normalizeSkinWeights() { + + const vector = new Vector4(); + + const skinWeight = this.geometry.attributes.skinWeight; + + for ( let i = 0, l = skinWeight.count; i < l; i ++ ) { + + vector.fromBufferAttribute( skinWeight, i ); + + const scale = 1.0 / vector.manhattanLength(); + + if ( scale !== Infinity ) { + + vector.multiplyScalar( scale ); + + } else { + + vector.set( 1, 0, 0, 0 ); // do something reasonable + + } + + skinWeight.setXYZW( i, vector.x, vector.y, vector.z, vector.w ); + + } + + } + + updateMatrixWorld( force ) { + + super.updateMatrixWorld( force ); + + if ( this.bindMode === AttachedBindMode ) { + + this.bindMatrixInverse.copy( this.matrixWorld ).invert(); + + } else if ( this.bindMode === DetachedBindMode ) { + + this.bindMatrixInverse.copy( this.bindMatrix ).invert(); + + } else { + + console.warn( 'THREE.SkinnedMesh: Unrecognized bindMode: ' + this.bindMode ); + + } + + } + + applyBoneTransform( index, vector ) { + + const skeleton = this.skeleton; + const geometry = this.geometry; + + _skinIndex.fromBufferAttribute( geometry.attributes.skinIndex, index ); + _skinWeight.fromBufferAttribute( geometry.attributes.skinWeight, index ); + + _basePosition.copy( vector ).applyMatrix4( this.bindMatrix ); + + vector.set( 0, 0, 0 ); + + for ( let i = 0; i < 4; i ++ ) { + + const weight = _skinWeight.getComponent( i ); + + if ( weight !== 0 ) { + + const boneIndex = _skinIndex.getComponent( i ); + + _matrix4.multiplyMatrices( skeleton.bones[ boneIndex ].matrixWorld, skeleton.boneInverses[ boneIndex ] ); + + vector.addScaledVector( _vector3$1.copy( _basePosition ).applyMatrix4( _matrix4 ), weight ); + + } + + } + + return vector.applyMatrix4( this.bindMatrixInverse ); + + } + +} + +class Bone extends Object3D { + + constructor() { + + super(); + + this.isBone = true; + + this.type = 'Bone'; + + } + +} + +class DataTexture extends Texture { + + constructor( data = null, width = 1, height = 1, format, type, mapping, wrapS, wrapT, magFilter = NearestFilter, minFilter = NearestFilter, anisotropy, colorSpace ) { + + super( null, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace ); + + this.isDataTexture = true; + + this.image = { data: data, width: width, height: height }; + + this.generateMipmaps = false; + this.flipY = false; + this.unpackAlignment = 1; + + } + +} + +const _offsetMatrix = /*@__PURE__*/ new Matrix4(); +const _identityMatrix$1 = /*@__PURE__*/ new Matrix4(); + +class Skeleton { + + constructor( bones = [], boneInverses = [] ) { + + this.uuid = generateUUID(); + + this.bones = bones.slice( 0 ); + this.boneInverses = boneInverses; + this.boneMatrices = null; + + this.boneTexture = null; + + this.init(); + + } + + init() { + + const bones = this.bones; + const boneInverses = this.boneInverses; + + this.boneMatrices = new Float32Array( bones.length * 16 ); + + // calculate inverse bone matrices if necessary + + if ( boneInverses.length === 0 ) { + + this.calculateInverses(); + + } else { + + // handle special case + + if ( bones.length !== boneInverses.length ) { + + console.warn( 'THREE.Skeleton: Number of inverse bone matrices does not match amount of bones.' ); + + this.boneInverses = []; + + for ( let i = 0, il = this.bones.length; i < il; i ++ ) { + + this.boneInverses.push( new Matrix4() ); + + } + + } + + } + + } + + calculateInverses() { + + this.boneInverses.length = 0; + + for ( let i = 0, il = this.bones.length; i < il; i ++ ) { + + const inverse = new Matrix4(); + + if ( this.bones[ i ] ) { + + inverse.copy( this.bones[ i ].matrixWorld ).invert(); + + } + + this.boneInverses.push( inverse ); + + } + + } + + pose() { + + // recover the bind-time world matrices + + for ( let i = 0, il = this.bones.length; i < il; i ++ ) { + + const bone = this.bones[ i ]; + + if ( bone ) { + + bone.matrixWorld.copy( this.boneInverses[ i ] ).invert(); + + } + + } + + // compute the local matrices, positions, rotations and scales + + for ( let i = 0, il = this.bones.length; i < il; i ++ ) { + + const bone = this.bones[ i ]; + + if ( bone ) { + + if ( bone.parent && bone.parent.isBone ) { + + bone.matrix.copy( bone.parent.matrixWorld ).invert(); + bone.matrix.multiply( bone.matrixWorld ); + + } else { + + bone.matrix.copy( bone.matrixWorld ); + + } + + bone.matrix.decompose( bone.position, bone.quaternion, bone.scale ); + + } + + } + + } + + update() { + + const bones = this.bones; + const boneInverses = this.boneInverses; + const boneMatrices = this.boneMatrices; + const boneTexture = this.boneTexture; + + // flatten bone matrices to array + + for ( let i = 0, il = bones.length; i < il; i ++ ) { + + // compute the offset between the current and the original transform + + const matrix = bones[ i ] ? bones[ i ].matrixWorld : _identityMatrix$1; + + _offsetMatrix.multiplyMatrices( matrix, boneInverses[ i ] ); + _offsetMatrix.toArray( boneMatrices, i * 16 ); + + } + + if ( boneTexture !== null ) { + + boneTexture.needsUpdate = true; + + } + + } + + clone() { + + return new Skeleton( this.bones, this.boneInverses ); + + } + + computeBoneTexture() { + + // layout (1 matrix = 4 pixels) + // RGBA RGBA RGBA RGBA (=> column1, column2, column3, column4) + // with 8x8 pixel texture max 16 bones * 4 pixels = (8 * 8) + // 16x16 pixel texture max 64 bones * 4 pixels = (16 * 16) + // 32x32 pixel texture max 256 bones * 4 pixels = (32 * 32) + // 64x64 pixel texture max 1024 bones * 4 pixels = (64 * 64) + + let size = Math.sqrt( this.bones.length * 4 ); // 4 pixels needed for 1 matrix + size = Math.ceil( size / 4 ) * 4; + size = Math.max( size, 4 ); + + const boneMatrices = new Float32Array( size * size * 4 ); // 4 floats per RGBA pixel + boneMatrices.set( this.boneMatrices ); // copy current values + + const boneTexture = new DataTexture( boneMatrices, size, size, RGBAFormat, FloatType ); + boneTexture.needsUpdate = true; + + this.boneMatrices = boneMatrices; + this.boneTexture = boneTexture; + + return this; + + } + + getBoneByName( name ) { + + for ( let i = 0, il = this.bones.length; i < il; i ++ ) { + + const bone = this.bones[ i ]; + + if ( bone.name === name ) { + + return bone; + + } + + } + + return undefined; + + } + + dispose( ) { + + if ( this.boneTexture !== null ) { + + this.boneTexture.dispose(); + + this.boneTexture = null; + + } + + } + + fromJSON( json, bones ) { + + this.uuid = json.uuid; + + for ( let i = 0, l = json.bones.length; i < l; i ++ ) { + + const uuid = json.bones[ i ]; + let bone = bones[ uuid ]; + + if ( bone === undefined ) { + + console.warn( 'THREE.Skeleton: No bone found with UUID:', uuid ); + bone = new Bone(); + + } + + this.bones.push( bone ); + this.boneInverses.push( new Matrix4().fromArray( json.boneInverses[ i ] ) ); + + } + + this.init(); + + return this; + + } + + toJSON() { + + const data = { + metadata: { + version: 4.6, + type: 'Skeleton', + generator: 'Skeleton.toJSON' + }, + bones: [], + boneInverses: [] + }; + + data.uuid = this.uuid; + + const bones = this.bones; + const boneInverses = this.boneInverses; + + for ( let i = 0, l = bones.length; i < l; i ++ ) { + + const bone = bones[ i ]; + data.bones.push( bone.uuid ); + + const boneInverse = boneInverses[ i ]; + data.boneInverses.push( boneInverse.toArray() ); + + } + + return data; + + } + +} + +class InstancedBufferAttribute extends BufferAttribute { + + constructor( array, itemSize, normalized, meshPerAttribute = 1 ) { + + super( array, itemSize, normalized ); + + this.isInstancedBufferAttribute = true; + + this.meshPerAttribute = meshPerAttribute; + + } + + copy( source ) { + + super.copy( source ); + + this.meshPerAttribute = source.meshPerAttribute; + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.meshPerAttribute = this.meshPerAttribute; + + data.isInstancedBufferAttribute = true; + + return data; + + } + +} + +const _instanceLocalMatrix = /*@__PURE__*/ new Matrix4(); +const _instanceWorldMatrix = /*@__PURE__*/ new Matrix4(); + +const _instanceIntersects = []; + +const _box3 = /*@__PURE__*/ new Box3(); +const _identity = /*@__PURE__*/ new Matrix4(); +const _mesh$1 = /*@__PURE__*/ new Mesh(); +const _sphere$4 = /*@__PURE__*/ new Sphere(); + +class InstancedMesh extends Mesh { + + constructor( geometry, material, count ) { + + super( geometry, material ); + + this.isInstancedMesh = true; + + this.instanceMatrix = new InstancedBufferAttribute( new Float32Array( count * 16 ), 16 ); + this.instanceColor = null; + this.morphTexture = null; + + this.count = count; + + this.boundingBox = null; + this.boundingSphere = null; + + for ( let i = 0; i < count; i ++ ) { + + this.setMatrixAt( i, _identity ); + + } + + } + + computeBoundingBox() { + + const geometry = this.geometry; + const count = this.count; + + if ( this.boundingBox === null ) { + + this.boundingBox = new Box3(); + + } + + if ( geometry.boundingBox === null ) { + + geometry.computeBoundingBox(); + + } + + this.boundingBox.makeEmpty(); + + for ( let i = 0; i < count; i ++ ) { + + this.getMatrixAt( i, _instanceLocalMatrix ); + + _box3.copy( geometry.boundingBox ).applyMatrix4( _instanceLocalMatrix ); + + this.boundingBox.union( _box3 ); + + } + + } + + computeBoundingSphere() { + + const geometry = this.geometry; + const count = this.count; + + if ( this.boundingSphere === null ) { + + this.boundingSphere = new Sphere(); + + } + + if ( geometry.boundingSphere === null ) { + + geometry.computeBoundingSphere(); + + } + + this.boundingSphere.makeEmpty(); + + for ( let i = 0; i < count; i ++ ) { + + this.getMatrixAt( i, _instanceLocalMatrix ); + + _sphere$4.copy( geometry.boundingSphere ).applyMatrix4( _instanceLocalMatrix ); + + this.boundingSphere.union( _sphere$4 ); + + } + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.instanceMatrix.copy( source.instanceMatrix ); + + if ( source.morphTexture !== null ) this.morphTexture = source.morphTexture.clone(); + if ( source.instanceColor !== null ) this.instanceColor = source.instanceColor.clone(); + + this.count = source.count; + + if ( source.boundingBox !== null ) this.boundingBox = source.boundingBox.clone(); + if ( source.boundingSphere !== null ) this.boundingSphere = source.boundingSphere.clone(); + + return this; + + } + + getColorAt( index, color ) { + + color.fromArray( this.instanceColor.array, index * 3 ); + + } + + getMatrixAt( index, matrix ) { + + matrix.fromArray( this.instanceMatrix.array, index * 16 ); + + } + + getMorphAt( index, object ) { + + const objectInfluences = object.morphTargetInfluences; + + const array = this.morphTexture.source.data.data; + + const len = objectInfluences.length + 1; // All influences + the baseInfluenceSum + + const dataIndex = index * len + 1; // Skip the baseInfluenceSum at the beginning + + for ( let i = 0; i < objectInfluences.length; i ++ ) { + + objectInfluences[ i ] = array[ dataIndex + i ]; + + } + + } + + raycast( raycaster, intersects ) { + + const matrixWorld = this.matrixWorld; + const raycastTimes = this.count; + + _mesh$1.geometry = this.geometry; + _mesh$1.material = this.material; + + if ( _mesh$1.material === undefined ) return; + + // test with bounding sphere first + + if ( this.boundingSphere === null ) this.computeBoundingSphere(); + + _sphere$4.copy( this.boundingSphere ); + _sphere$4.applyMatrix4( matrixWorld ); + + if ( raycaster.ray.intersectsSphere( _sphere$4 ) === false ) return; + + // now test each instance + + for ( let instanceId = 0; instanceId < raycastTimes; instanceId ++ ) { + + // calculate the world matrix for each instance + + this.getMatrixAt( instanceId, _instanceLocalMatrix ); + + _instanceWorldMatrix.multiplyMatrices( matrixWorld, _instanceLocalMatrix ); + + // the mesh represents this single instance + + _mesh$1.matrixWorld = _instanceWorldMatrix; + + _mesh$1.raycast( raycaster, _instanceIntersects ); + + // process the result of raycast + + for ( let i = 0, l = _instanceIntersects.length; i < l; i ++ ) { + + const intersect = _instanceIntersects[ i ]; + intersect.instanceId = instanceId; + intersect.object = this; + intersects.push( intersect ); + + } + + _instanceIntersects.length = 0; + + } + + } + + setColorAt( index, color ) { + + if ( this.instanceColor === null ) { + + this.instanceColor = new InstancedBufferAttribute( new Float32Array( this.instanceMatrix.count * 3 ), 3 ); + + } + + color.toArray( this.instanceColor.array, index * 3 ); + + } + + setMatrixAt( index, matrix ) { + + matrix.toArray( this.instanceMatrix.array, index * 16 ); + + } + + setMorphAt( index, object ) { + + const objectInfluences = object.morphTargetInfluences; + + const len = objectInfluences.length + 1; // morphBaseInfluence + all influences + + if ( this.morphTexture === null ) { + + this.morphTexture = new DataTexture( new Float32Array( len * this.count ), len, this.count, RedFormat, FloatType ); + + } + + const array = this.morphTexture.source.data.data; + + let morphInfluencesSum = 0; + + for ( let i = 0; i < objectInfluences.length; i ++ ) { + + morphInfluencesSum += objectInfluences[ i ]; + + } + + const morphBaseInfluence = this.geometry.morphTargetsRelative ? 1 : 1 - morphInfluencesSum; + + const dataIndex = len * index; + + array[ dataIndex ] = morphBaseInfluence; + + array.set( objectInfluences, dataIndex + 1 ); + + } + + updateMorphTargets() { + + } + + dispose() { + + this.dispatchEvent( { type: 'dispose' } ); + + if ( this.morphTexture !== null ) { + + this.morphTexture.dispose(); + this.morphTexture = null; + + } + + return this; + + } + +} + +const _vector1 = /*@__PURE__*/ new Vector3(); +const _vector2 = /*@__PURE__*/ new Vector3(); +const _normalMatrix = /*@__PURE__*/ new Matrix3(); + +class Plane { + + constructor( normal = new Vector3( 1, 0, 0 ), constant = 0 ) { + + this.isPlane = true; + + // normal is assumed to be normalized + + this.normal = normal; + this.constant = constant; + + } + + set( normal, constant ) { + + this.normal.copy( normal ); + this.constant = constant; + + return this; + + } + + setComponents( x, y, z, w ) { + + this.normal.set( x, y, z ); + this.constant = w; + + return this; + + } + + setFromNormalAndCoplanarPoint( normal, point ) { + + this.normal.copy( normal ); + this.constant = - point.dot( this.normal ); + + return this; + + } + + setFromCoplanarPoints( a, b, c ) { + + const normal = _vector1.subVectors( c, b ).cross( _vector2.subVectors( a, b ) ).normalize(); + + // Q: should an error be thrown if normal is zero (e.g. degenerate plane)? + + this.setFromNormalAndCoplanarPoint( normal, a ); + + return this; + + } + + copy( plane ) { + + this.normal.copy( plane.normal ); + this.constant = plane.constant; + + return this; + + } + + normalize() { + + // Note: will lead to a divide by zero if the plane is invalid. + + const inverseNormalLength = 1.0 / this.normal.length(); + this.normal.multiplyScalar( inverseNormalLength ); + this.constant *= inverseNormalLength; + + return this; + + } + + negate() { + + this.constant *= - 1; + this.normal.negate(); + + return this; + + } + + distanceToPoint( point ) { + + return this.normal.dot( point ) + this.constant; + + } + + distanceToSphere( sphere ) { + + return this.distanceToPoint( sphere.center ) - sphere.radius; + + } + + projectPoint( point, target ) { + + return target.copy( point ).addScaledVector( this.normal, - this.distanceToPoint( point ) ); + + } + + intersectLine( line, target ) { + + const direction = line.delta( _vector1 ); + + const denominator = this.normal.dot( direction ); + + if ( denominator === 0 ) { + + // line is coplanar, return origin + if ( this.distanceToPoint( line.start ) === 0 ) { + + return target.copy( line.start ); + + } + + // Unsure if this is the correct method to handle this case. + return null; + + } + + const t = - ( line.start.dot( this.normal ) + this.constant ) / denominator; + + if ( t < 0 || t > 1 ) { + + return null; + + } + + return target.copy( line.start ).addScaledVector( direction, t ); + + } + + intersectsLine( line ) { + + // Note: this tests if a line intersects the plane, not whether it (or its end-points) are coplanar with it. + + const startSign = this.distanceToPoint( line.start ); + const endSign = this.distanceToPoint( line.end ); + + return ( startSign < 0 && endSign > 0 ) || ( endSign < 0 && startSign > 0 ); + + } + + intersectsBox( box ) { + + return box.intersectsPlane( this ); + + } + + intersectsSphere( sphere ) { + + return sphere.intersectsPlane( this ); + + } + + coplanarPoint( target ) { + + return target.copy( this.normal ).multiplyScalar( - this.constant ); + + } + + applyMatrix4( matrix, optionalNormalMatrix ) { + + const normalMatrix = optionalNormalMatrix || _normalMatrix.getNormalMatrix( matrix ); + + const referencePoint = this.coplanarPoint( _vector1 ).applyMatrix4( matrix ); + + const normal = this.normal.applyMatrix3( normalMatrix ).normalize(); + + this.constant = - referencePoint.dot( normal ); + + return this; + + } + + translate( offset ) { + + this.constant -= offset.dot( this.normal ); + + return this; + + } + + equals( plane ) { + + return plane.normal.equals( this.normal ) && ( plane.constant === this.constant ); + + } + + clone() { + + return new this.constructor().copy( this ); + + } + +} + +const _sphere$3 = /*@__PURE__*/ new Sphere(); +const _vector$6 = /*@__PURE__*/ new Vector3(); + +class Frustum { + + constructor( p0 = new Plane(), p1 = new Plane(), p2 = new Plane(), p3 = new Plane(), p4 = new Plane(), p5 = new Plane() ) { + + this.planes = [ p0, p1, p2, p3, p4, p5 ]; + + } + + set( p0, p1, p2, p3, p4, p5 ) { + + const planes = this.planes; + + planes[ 0 ].copy( p0 ); + planes[ 1 ].copy( p1 ); + planes[ 2 ].copy( p2 ); + planes[ 3 ].copy( p3 ); + planes[ 4 ].copy( p4 ); + planes[ 5 ].copy( p5 ); + + return this; + + } + + copy( frustum ) { + + const planes = this.planes; + + for ( let i = 0; i < 6; i ++ ) { + + planes[ i ].copy( frustum.planes[ i ] ); + + } + + return this; + + } + + setFromProjectionMatrix( m, coordinateSystem = WebGLCoordinateSystem ) { + + const planes = this.planes; + const me = m.elements; + const me0 = me[ 0 ], me1 = me[ 1 ], me2 = me[ 2 ], me3 = me[ 3 ]; + const me4 = me[ 4 ], me5 = me[ 5 ], me6 = me[ 6 ], me7 = me[ 7 ]; + const me8 = me[ 8 ], me9 = me[ 9 ], me10 = me[ 10 ], me11 = me[ 11 ]; + const me12 = me[ 12 ], me13 = me[ 13 ], me14 = me[ 14 ], me15 = me[ 15 ]; + + planes[ 0 ].setComponents( me3 - me0, me7 - me4, me11 - me8, me15 - me12 ).normalize(); + planes[ 1 ].setComponents( me3 + me0, me7 + me4, me11 + me8, me15 + me12 ).normalize(); + planes[ 2 ].setComponents( me3 + me1, me7 + me5, me11 + me9, me15 + me13 ).normalize(); + planes[ 3 ].setComponents( me3 - me1, me7 - me5, me11 - me9, me15 - me13 ).normalize(); + planes[ 4 ].setComponents( me3 - me2, me7 - me6, me11 - me10, me15 - me14 ).normalize(); + + if ( coordinateSystem === WebGLCoordinateSystem ) { + + planes[ 5 ].setComponents( me3 + me2, me7 + me6, me11 + me10, me15 + me14 ).normalize(); + + } else if ( coordinateSystem === WebGPUCoordinateSystem ) { + + planes[ 5 ].setComponents( me2, me6, me10, me14 ).normalize(); + + } else { + + throw new Error( 'THREE.Frustum.setFromProjectionMatrix(): Invalid coordinate system: ' + coordinateSystem ); + + } + + return this; + + } + + intersectsObject( object ) { + + if ( object.boundingSphere !== undefined ) { + + if ( object.boundingSphere === null ) object.computeBoundingSphere(); + + _sphere$3.copy( object.boundingSphere ).applyMatrix4( object.matrixWorld ); + + } else { + + const geometry = object.geometry; + + if ( geometry.boundingSphere === null ) geometry.computeBoundingSphere(); + + _sphere$3.copy( geometry.boundingSphere ).applyMatrix4( object.matrixWorld ); + + } + + return this.intersectsSphere( _sphere$3 ); + + } + + intersectsSprite( sprite ) { + + _sphere$3.center.set( 0, 0, 0 ); + _sphere$3.radius = 0.7071067811865476; + _sphere$3.applyMatrix4( sprite.matrixWorld ); + + return this.intersectsSphere( _sphere$3 ); + + } + + intersectsSphere( sphere ) { + + const planes = this.planes; + const center = sphere.center; + const negRadius = - sphere.radius; + + for ( let i = 0; i < 6; i ++ ) { + + const distance = planes[ i ].distanceToPoint( center ); + + if ( distance < negRadius ) { + + return false; + + } + + } + + return true; + + } + + intersectsBox( box ) { + + const planes = this.planes; + + for ( let i = 0; i < 6; i ++ ) { + + const plane = planes[ i ]; + + // corner at max distance + + _vector$6.x = plane.normal.x > 0 ? box.max.x : box.min.x; + _vector$6.y = plane.normal.y > 0 ? box.max.y : box.min.y; + _vector$6.z = plane.normal.z > 0 ? box.max.z : box.min.z; + + if ( plane.distanceToPoint( _vector$6 ) < 0 ) { + + return false; + + } + + } + + return true; + + } + + containsPoint( point ) { + + const planes = this.planes; + + for ( let i = 0; i < 6; i ++ ) { + + if ( planes[ i ].distanceToPoint( point ) < 0 ) { + + return false; + + } + + } + + return true; + + } + + clone() { + + return new this.constructor().copy( this ); + + } + +} + +function sortOpaque( a, b ) { + + return a.z - b.z; + +} + +function sortTransparent( a, b ) { + + return b.z - a.z; + +} + +class MultiDrawRenderList { + + constructor() { + + this.index = 0; + this.pool = []; + this.list = []; + + } + + push( drawRange, z, index ) { + + const pool = this.pool; + const list = this.list; + if ( this.index >= pool.length ) { + + pool.push( { + + start: - 1, + count: - 1, + z: - 1, + index: - 1, + + } ); + + } + + const item = pool[ this.index ]; + list.push( item ); + this.index ++; + + item.start = drawRange.start; + item.count = drawRange.count; + item.z = z; + item.index = index; + + } + + reset() { + + this.list.length = 0; + this.index = 0; + + } + +} + +const _matrix$1 = /*@__PURE__*/ new Matrix4(); +const _invMatrixWorld = /*@__PURE__*/ new Matrix4(); +const _identityMatrix = /*@__PURE__*/ new Matrix4(); +const _whiteColor = /*@__PURE__*/ new Color( 1, 1, 1 ); +const _projScreenMatrix$3 = /*@__PURE__*/ new Matrix4(); +const _frustum$1 = /*@__PURE__*/ new Frustum(); +const _box$1 = /*@__PURE__*/ new Box3(); +const _sphere$2 = /*@__PURE__*/ new Sphere(); +const _vector$5 = /*@__PURE__*/ new Vector3(); +const _forward = /*@__PURE__*/ new Vector3(); +const _temp = /*@__PURE__*/ new Vector3(); +const _renderList = /*@__PURE__*/ new MultiDrawRenderList(); +const _mesh = /*@__PURE__*/ new Mesh(); +const _batchIntersects = []; + +// @TODO: SkinnedMesh support? +// @TODO: geometry.groups support? +// @TODO: geometry.drawRange support? +// @TODO: geometry.morphAttributes support? +// @TODO: Support uniform parameter per geometry +// @TODO: Add an "optimize" function to pack geometry and remove data gaps + +// copies data from attribute "src" into "target" starting at "targetOffset" +function copyAttributeData( src, target, targetOffset = 0 ) { + + const itemSize = target.itemSize; + if ( src.isInterleavedBufferAttribute || src.array.constructor !== target.array.constructor ) { + + // use the component getters and setters if the array data cannot + // be copied directly + const vertexCount = src.count; + for ( let i = 0; i < vertexCount; i ++ ) { + + for ( let c = 0; c < itemSize; c ++ ) { + + target.setComponent( i + targetOffset, c, src.getComponent( i, c ) ); + + } + + } + + } else { + + // faster copy approach using typed array set function + target.array.set( src.array, targetOffset * itemSize ); + + } + + target.needsUpdate = true; + +} + +class BatchedMesh extends Mesh { + + get maxInstanceCount() { + + return this._maxInstanceCount; + + } + + constructor( maxInstanceCount, maxVertexCount, maxIndexCount = maxVertexCount * 2, material ) { + + super( new BufferGeometry(), material ); + + this.isBatchedMesh = true; + this.perObjectFrustumCulled = true; + this.sortObjects = true; + this.boundingBox = null; + this.boundingSphere = null; + this.customSort = null; + + // stores visible, active, and geometry id per object + this._drawInfo = []; + + // geometry information + this._drawRanges = []; + this._reservedRanges = []; + this._bounds = []; + + this._maxInstanceCount = maxInstanceCount; + this._maxVertexCount = maxVertexCount; + this._maxIndexCount = maxIndexCount; + + this._geometryInitialized = false; + this._geometryCount = 0; + this._multiDrawCounts = new Int32Array( maxInstanceCount ); + this._multiDrawStarts = new Int32Array( maxInstanceCount ); + this._multiDrawCount = 0; + this._multiDrawInstances = null; + this._visibilityChanged = true; + + // Local matrix per geometry by using data texture + this._matricesTexture = null; + this._indirectTexture = null; + this._colorsTexture = null; + + this._initMatricesTexture(); + this._initIndirectTexture(); + + } + + _initMatricesTexture() { + + // layout (1 matrix = 4 pixels) + // RGBA RGBA RGBA RGBA (=> column1, column2, column3, column4) + // with 8x8 pixel texture max 16 matrices * 4 pixels = (8 * 8) + // 16x16 pixel texture max 64 matrices * 4 pixels = (16 * 16) + // 32x32 pixel texture max 256 matrices * 4 pixels = (32 * 32) + // 64x64 pixel texture max 1024 matrices * 4 pixels = (64 * 64) + + let size = Math.sqrt( this._maxInstanceCount * 4 ); // 4 pixels needed for 1 matrix + size = Math.ceil( size / 4 ) * 4; + size = Math.max( size, 4 ); + + const matricesArray = new Float32Array( size * size * 4 ); // 4 floats per RGBA pixel + const matricesTexture = new DataTexture( matricesArray, size, size, RGBAFormat, FloatType ); + + this._matricesTexture = matricesTexture; + + } + + _initIndirectTexture() { + + let size = Math.sqrt( this._maxInstanceCount ); + size = Math.ceil( size ); + + const indirectArray = new Uint32Array( size * size ); + const indirectTexture = new DataTexture( indirectArray, size, size, RedIntegerFormat, UnsignedIntType ); + + this._indirectTexture = indirectTexture; + + } + + _initColorsTexture() { + + let size = Math.sqrt( this._maxIndexCount ); + size = Math.ceil( size ); + + // 4 floats per RGBA pixel initialized to white + const colorsArray = new Float32Array( size * size * 4 ).fill( 1 ); + const colorsTexture = new DataTexture( colorsArray, size, size, RGBAFormat, FloatType ); + colorsTexture.colorSpace = ColorManagement.workingColorSpace; + + this._colorsTexture = colorsTexture; + + } + + _initializeGeometry( reference ) { + + const geometry = this.geometry; + const maxVertexCount = this._maxVertexCount; + const maxIndexCount = this._maxIndexCount; + if ( this._geometryInitialized === false ) { + + for ( const attributeName in reference.attributes ) { + + const srcAttribute = reference.getAttribute( attributeName ); + const { array, itemSize, normalized } = srcAttribute; + + const dstArray = new array.constructor( maxVertexCount * itemSize ); + const dstAttribute = new BufferAttribute( dstArray, itemSize, normalized ); + + geometry.setAttribute( attributeName, dstAttribute ); + + } + + if ( reference.getIndex() !== null ) { + + // Reserve last u16 index for primitive restart. + const indexArray = maxVertexCount > 65535 + ? new Uint32Array( maxIndexCount ) + : new Uint16Array( maxIndexCount ); + + geometry.setIndex( new BufferAttribute( indexArray, 1 ) ); + + } + + this._geometryInitialized = true; + + } + + } + + // Make sure the geometry is compatible with the existing combined geometry attributes + _validateGeometry( geometry ) { + + // check to ensure the geometries are using consistent attributes and indices + const batchGeometry = this.geometry; + if ( Boolean( geometry.getIndex() ) !== Boolean( batchGeometry.getIndex() ) ) { + + throw new Error( 'BatchedMesh: All geometries must consistently have "index".' ); + + } + + for ( const attributeName in batchGeometry.attributes ) { + + if ( ! geometry.hasAttribute( attributeName ) ) { + + throw new Error( `BatchedMesh: Added geometry missing "${ attributeName }". All geometries must have consistent attributes.` ); + + } + + const srcAttribute = geometry.getAttribute( attributeName ); + const dstAttribute = batchGeometry.getAttribute( attributeName ); + if ( srcAttribute.itemSize !== dstAttribute.itemSize || srcAttribute.normalized !== dstAttribute.normalized ) { + + throw new Error( 'BatchedMesh: All attributes must have a consistent itemSize and normalized value.' ); + + } + + } + + } + + setCustomSort( func ) { + + this.customSort = func; + return this; + + } + + computeBoundingBox() { + + if ( this.boundingBox === null ) { + + this.boundingBox = new Box3(); + + } + + const geometryCount = this._geometryCount; + const boundingBox = this.boundingBox; + const drawInfo = this._drawInfo; + + boundingBox.makeEmpty(); + for ( let i = 0; i < geometryCount; i ++ ) { + + if ( drawInfo[ i ].active === false ) continue; + + const geometryId = drawInfo[ i ].geometryIndex; + this.getMatrixAt( i, _matrix$1 ); + this.getBoundingBoxAt( geometryId, _box$1 ).applyMatrix4( _matrix$1 ); + boundingBox.union( _box$1 ); + + } + + } + + computeBoundingSphere() { + + if ( this.boundingSphere === null ) { + + this.boundingSphere = new Sphere(); + + } + + const boundingSphere = this.boundingSphere; + const drawInfo = this._drawInfo; + + boundingSphere.makeEmpty(); + for ( let i = 0, l = drawInfo.length; i < l; i ++ ) { + + if ( drawInfo[ i ].active === false ) continue; + + const geometryId = drawInfo[ i ].geometryIndex; + this.getMatrixAt( i, _matrix$1 ); + this.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 ); + boundingSphere.union( _sphere$2 ); + + } + + } + + addInstance( geometryId ) { + + // ensure we're not over geometry + if ( this._drawInfo.length >= this._maxInstanceCount ) { + + throw new Error( 'BatchedMesh: Maximum item count reached.' ); + + } + + this._drawInfo.push( { + + visible: true, + active: true, + geometryIndex: geometryId, + + } ); + + // initialize the matrix + const drawId = this._drawInfo.length - 1; + const matricesTexture = this._matricesTexture; + const matricesArray = matricesTexture.image.data; + _identityMatrix.toArray( matricesArray, drawId * 16 ); + matricesTexture.needsUpdate = true; + + const colorsTexture = this._colorsTexture; + if ( colorsTexture ) { + + _whiteColor.toArray( colorsTexture.image.data, drawId * 4 ); + colorsTexture.needsUpdate = true; + + } + + return drawId; + + } + + addGeometry( geometry, vertexCount = - 1, indexCount = - 1 ) { + + this._initializeGeometry( geometry ); + + this._validateGeometry( geometry ); + + // ensure we're not over geometry + if ( this._drawInfo.length >= this._maxInstanceCount ) { + + throw new Error( 'BatchedMesh: Maximum item count reached.' ); + + } + + // get the necessary range fo the geometry + const reservedRange = { + vertexStart: - 1, + vertexCount: - 1, + indexStart: - 1, + indexCount: - 1, + }; + + let lastRange = null; + const reservedRanges = this._reservedRanges; + const drawRanges = this._drawRanges; + const bounds = this._bounds; + if ( this._geometryCount !== 0 ) { + + lastRange = reservedRanges[ reservedRanges.length - 1 ]; + + } + + if ( vertexCount === - 1 ) { + + reservedRange.vertexCount = geometry.getAttribute( 'position' ).count; + + } else { + + reservedRange.vertexCount = vertexCount; + + } + + if ( lastRange === null ) { + + reservedRange.vertexStart = 0; + + } else { + + reservedRange.vertexStart = lastRange.vertexStart + lastRange.vertexCount; + + } + + const index = geometry.getIndex(); + const hasIndex = index !== null; + if ( hasIndex ) { + + if ( indexCount === - 1 ) { + + reservedRange.indexCount = index.count; + + } else { + + reservedRange.indexCount = indexCount; + + } + + if ( lastRange === null ) { + + reservedRange.indexStart = 0; + + } else { + + reservedRange.indexStart = lastRange.indexStart + lastRange.indexCount; + + } + + } + + if ( + reservedRange.indexStart !== - 1 && + reservedRange.indexStart + reservedRange.indexCount > this._maxIndexCount || + reservedRange.vertexStart + reservedRange.vertexCount > this._maxVertexCount + ) { + + throw new Error( 'BatchedMesh: Reserved space request exceeds the maximum buffer size.' ); + + } + + // update id + const geometryId = this._geometryCount; + this._geometryCount ++; + + // add the reserved range and draw range objects + reservedRanges.push( reservedRange ); + drawRanges.push( { + start: hasIndex ? reservedRange.indexStart : reservedRange.vertexStart, + count: - 1 + } ); + bounds.push( { + boxInitialized: false, + box: new Box3(), + + sphereInitialized: false, + sphere: new Sphere() + } ); + + // update the geometry + this.setGeometryAt( geometryId, geometry ); + + return geometryId; + + } + + setGeometryAt( geometryId, geometry ) { + + if ( geometryId >= this._geometryCount ) { + + throw new Error( 'BatchedMesh: Maximum geometry count reached.' ); + + } + + this._validateGeometry( geometry ); + + const batchGeometry = this.geometry; + const hasIndex = batchGeometry.getIndex() !== null; + const dstIndex = batchGeometry.getIndex(); + const srcIndex = geometry.getIndex(); + const reservedRange = this._reservedRanges[ geometryId ]; + if ( + hasIndex && + srcIndex.count > reservedRange.indexCount || + geometry.attributes.position.count > reservedRange.vertexCount + ) { + + throw new Error( 'BatchedMesh: Reserved space not large enough for provided geometry.' ); + + } + + // copy geometry over + const vertexStart = reservedRange.vertexStart; + const vertexCount = reservedRange.vertexCount; + for ( const attributeName in batchGeometry.attributes ) { + + // copy attribute data + const srcAttribute = geometry.getAttribute( attributeName ); + const dstAttribute = batchGeometry.getAttribute( attributeName ); + copyAttributeData( srcAttribute, dstAttribute, vertexStart ); + + // fill the rest in with zeroes + const itemSize = srcAttribute.itemSize; + for ( let i = srcAttribute.count, l = vertexCount; i < l; i ++ ) { + + const index = vertexStart + i; + for ( let c = 0; c < itemSize; c ++ ) { + + dstAttribute.setComponent( index, c, 0 ); + + } + + } + + dstAttribute.needsUpdate = true; + dstAttribute.addUpdateRange( vertexStart * itemSize, vertexCount * itemSize ); + + } + + // copy index + if ( hasIndex ) { + + const indexStart = reservedRange.indexStart; + + // copy index data over + for ( let i = 0; i < srcIndex.count; i ++ ) { + + dstIndex.setX( indexStart + i, vertexStart + srcIndex.getX( i ) ); + + } + + // fill the rest in with zeroes + for ( let i = srcIndex.count, l = reservedRange.indexCount; i < l; i ++ ) { + + dstIndex.setX( indexStart + i, vertexStart ); + + } + + dstIndex.needsUpdate = true; + dstIndex.addUpdateRange( indexStart, reservedRange.indexCount ); + + } + + // store the bounding boxes + const bound = this._bounds[ geometryId ]; + if ( geometry.boundingBox !== null ) { + + bound.box.copy( geometry.boundingBox ); + bound.boxInitialized = true; + + } else { + + bound.boxInitialized = false; + + } + + if ( geometry.boundingSphere !== null ) { + + bound.sphere.copy( geometry.boundingSphere ); + bound.sphereInitialized = true; + + } else { + + bound.sphereInitialized = false; + + } + + // set drawRange count + const drawRange = this._drawRanges[ geometryId ]; + const posAttr = geometry.getAttribute( 'position' ); + drawRange.count = hasIndex ? srcIndex.count : posAttr.count; + this._visibilityChanged = true; + + return geometryId; + + } + + /* + deleteGeometry( geometryId ) { + + // TODO: delete geometry and associated instances + + } + */ + + /* + deleteInstance( instanceId ) { + + // Note: User needs to call optimize() afterward to pack the data. + + const drawInfo = this._drawInfo; + if ( instanceId >= drawInfo.length || drawInfo[ instanceId ].active === false ) { + + return this; + + } + + drawInfo[ instanceId ].active = false; + this._visibilityChanged = true; + + return this; + + } + */ + + // get bounding box and compute it if it doesn't exist + getBoundingBoxAt( geometryId, target ) { + + if ( geometryId >= this._geometryCount ) { + + return null; + + } + + // compute bounding box + const bound = this._bounds[ geometryId ]; + const box = bound.box; + const geometry = this.geometry; + if ( bound.boxInitialized === false ) { + + box.makeEmpty(); + + const index = geometry.index; + const position = geometry.attributes.position; + const drawRange = this._drawRanges[ geometryId ]; + for ( let i = drawRange.start, l = drawRange.start + drawRange.count; i < l; i ++ ) { + + let iv = i; + if ( index ) { + + iv = index.getX( iv ); + + } + + box.expandByPoint( _vector$5.fromBufferAttribute( position, iv ) ); + + } + + bound.boxInitialized = true; + + } + + target.copy( box ); + return target; + + } + + // get bounding sphere and compute it if it doesn't exist + getBoundingSphereAt( geometryId, target ) { + + if ( geometryId >= this._geometryCount ) { + + return null; + + } + + // compute bounding sphere + const bound = this._bounds[ geometryId ]; + const sphere = bound.sphere; + const geometry = this.geometry; + if ( bound.sphereInitialized === false ) { + + sphere.makeEmpty(); + + this.getBoundingBoxAt( geometryId, _box$1 ); + _box$1.getCenter( sphere.center ); + + const index = geometry.index; + const position = geometry.attributes.position; + const drawRange = this._drawRanges[ geometryId ]; + + let maxRadiusSq = 0; + for ( let i = drawRange.start, l = drawRange.start + drawRange.count; i < l; i ++ ) { + + let iv = i; + if ( index ) { + + iv = index.getX( iv ); + + } + + _vector$5.fromBufferAttribute( position, iv ); + maxRadiusSq = Math.max( maxRadiusSq, sphere.center.distanceToSquared( _vector$5 ) ); + + } + + sphere.radius = Math.sqrt( maxRadiusSq ); + bound.sphereInitialized = true; + + } + + target.copy( sphere ); + return target; + + } + + setMatrixAt( instanceId, matrix ) { + + // @TODO: Map geometryId to index of the arrays because + // optimize() can make geometryId mismatch the index + + const drawInfo = this._drawInfo; + const matricesTexture = this._matricesTexture; + const matricesArray = this._matricesTexture.image.data; + if ( instanceId >= drawInfo.length || drawInfo[ instanceId ].active === false ) { + + return this; + + } + + matrix.toArray( matricesArray, instanceId * 16 ); + matricesTexture.needsUpdate = true; + + return this; + + } + + getMatrixAt( instanceId, matrix ) { + + const drawInfo = this._drawInfo; + const matricesArray = this._matricesTexture.image.data; + if ( instanceId >= drawInfo.length || drawInfo[ instanceId ].active === false ) { + + return null; + + } + + return matrix.fromArray( matricesArray, instanceId * 16 ); + + } + + setColorAt( instanceId, color ) { + + if ( this._colorsTexture === null ) { + + this._initColorsTexture(); + + } + + // @TODO: Map id to index of the arrays because + // optimize() can make id mismatch the index + + const colorsTexture = this._colorsTexture; + const colorsArray = this._colorsTexture.image.data; + const drawInfo = this._drawInfo; + if ( instanceId >= drawInfo.length || drawInfo[ instanceId ].active === false ) { + + return this; + + } + + color.toArray( colorsArray, instanceId * 4 ); + colorsTexture.needsUpdate = true; + + return this; + + } + + getColorAt( instanceId, color ) { + + const colorsArray = this._colorsTexture.image.data; + const drawInfo = this._drawInfo; + if ( instanceId >= drawInfo.length || drawInfo[ instanceId ].active === false ) { + + return null; + + } + + return color.fromArray( colorsArray, instanceId * 4 ); + + } + + setVisibleAt( instanceId, value ) { + + // if the geometry is out of range, not active, or visibility state + // does not change then return early + const drawInfo = this._drawInfo; + if ( + instanceId >= drawInfo.length || + drawInfo[ instanceId ].active === false || + drawInfo[ instanceId ].visible === value + ) { + + return this; + + } + + drawInfo[ instanceId ].visible = value; + this._visibilityChanged = true; + + return this; + + } + + getVisibleAt( instanceId ) { + + // return early if the geometry is out of range or not active + const drawInfo = this._drawInfo; + if ( instanceId >= drawInfo.length || drawInfo[ instanceId ].active === false ) { + + return false; + + } + + return drawInfo[ instanceId ].visible; + + } + + raycast( raycaster, intersects ) { + + const drawInfo = this._drawInfo; + const drawRanges = this._drawRanges; + const matrixWorld = this.matrixWorld; + const batchGeometry = this.geometry; + + // iterate over each geometry + _mesh.material = this.material; + _mesh.geometry.index = batchGeometry.index; + _mesh.geometry.attributes = batchGeometry.attributes; + if ( _mesh.geometry.boundingBox === null ) { + + _mesh.geometry.boundingBox = new Box3(); + + } + + if ( _mesh.geometry.boundingSphere === null ) { + + _mesh.geometry.boundingSphere = new Sphere(); + + } + + for ( let i = 0, l = drawInfo.length; i < l; i ++ ) { + + if ( ! drawInfo[ i ].visible || ! drawInfo[ i ].active ) { + + continue; + + } + + const geometryId = drawInfo[ i ].geometryIndex; + const drawRange = drawRanges[ geometryId ]; + _mesh.geometry.setDrawRange( drawRange.start, drawRange.count ); + + // ge the intersects + this.getMatrixAt( i, _mesh.matrixWorld ).premultiply( matrixWorld ); + this.getBoundingBoxAt( geometryId, _mesh.geometry.boundingBox ); + this.getBoundingSphereAt( geometryId, _mesh.geometry.boundingSphere ); + _mesh.raycast( raycaster, _batchIntersects ); + + // add batch id to the intersects + for ( let j = 0, l = _batchIntersects.length; j < l; j ++ ) { + + const intersect = _batchIntersects[ j ]; + intersect.object = this; + intersect.batchId = i; + intersects.push( intersect ); + + } + + _batchIntersects.length = 0; + + } + + _mesh.material = null; + _mesh.geometry.index = null; + _mesh.geometry.attributes = {}; + _mesh.geometry.setDrawRange( 0, Infinity ); + + } + + copy( source ) { + + super.copy( source ); + + this.geometry = source.geometry.clone(); + this.perObjectFrustumCulled = source.perObjectFrustumCulled; + this.sortObjects = source.sortObjects; + this.boundingBox = source.boundingBox !== null ? source.boundingBox.clone() : null; + this.boundingSphere = source.boundingSphere !== null ? source.boundingSphere.clone() : null; + + this._drawRanges = source._drawRanges.map( range => ( { ...range } ) ); + this._reservedRanges = source._reservedRanges.map( range => ( { ...range } ) ); + + this._drawInfo = source._drawInfo.map( inf => ( { ...inf } ) ); + this._bounds = source._bounds.map( bound => ( { + boxInitialized: bound.boxInitialized, + box: bound.box.clone(), + + sphereInitialized: bound.sphereInitialized, + sphere: bound.sphere.clone() + } ) ); + + this._maxInstanceCount = source._maxInstanceCount; + this._maxVertexCount = source._maxVertexCount; + this._maxIndexCount = source._maxIndexCount; + + this._geometryInitialized = source._geometryInitialized; + this._geometryCount = source._geometryCount; + this._multiDrawCounts = source._multiDrawCounts.slice(); + this._multiDrawStarts = source._multiDrawStarts.slice(); + + this._matricesTexture = source._matricesTexture.clone(); + this._matricesTexture.image.data = this._matricesTexture.image.slice(); + + if ( this._colorsTexture !== null ) { + + this._colorsTexture = source._colorsTexture.clone(); + this._colorsTexture.image.data = this._colorsTexture.image.slice(); + + } + + return this; + + } + + dispose() { + + // Assuming the geometry is not shared with other meshes + this.geometry.dispose(); + + this._matricesTexture.dispose(); + this._matricesTexture = null; + + this._indirectTexture.dispose(); + this._indirectTexture = null; + + if ( this._colorsTexture !== null ) { + + this._colorsTexture.dispose(); + this._colorsTexture = null; + + } + + return this; + + } + + onBeforeRender( renderer, scene, camera, geometry, material/*, _group*/ ) { + + // if visibility has not changed and frustum culling and object sorting is not required + // then skip iterating over all items + if ( ! this._visibilityChanged && ! this.perObjectFrustumCulled && ! this.sortObjects ) { + + return; + + } + + // the indexed version of the multi draw function requires specifying the start + // offset in bytes. + const index = geometry.getIndex(); + const bytesPerElement = index === null ? 1 : index.array.BYTES_PER_ELEMENT; + + const drawInfo = this._drawInfo; + const multiDrawStarts = this._multiDrawStarts; + const multiDrawCounts = this._multiDrawCounts; + const drawRanges = this._drawRanges; + const perObjectFrustumCulled = this.perObjectFrustumCulled; + const indirectTexture = this._indirectTexture; + const indirectArray = indirectTexture.image.data; + + // prepare the frustum in the local frame + if ( perObjectFrustumCulled ) { + + _projScreenMatrix$3 + .multiplyMatrices( camera.projectionMatrix, camera.matrixWorldInverse ) + .multiply( this.matrixWorld ); + _frustum$1.setFromProjectionMatrix( + _projScreenMatrix$3, + renderer.coordinateSystem + ); + + } + + let count = 0; + if ( this.sortObjects ) { + + // get the camera position in the local frame + _invMatrixWorld.copy( this.matrixWorld ).invert(); + _vector$5.setFromMatrixPosition( camera.matrixWorld ).applyMatrix4( _invMatrixWorld ); + _forward.set( 0, 0, - 1 ).transformDirection( camera.matrixWorld ).transformDirection( _invMatrixWorld ); + + for ( let i = 0, l = drawInfo.length; i < l; i ++ ) { + + if ( drawInfo[ i ].visible && drawInfo[ i ].active ) { + + const geometryId = drawInfo[ i ].geometryIndex; + + // get the bounds in world space + this.getMatrixAt( i, _matrix$1 ); + this.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 ); + + // determine whether the batched geometry is within the frustum + let culled = false; + if ( perObjectFrustumCulled ) { + + culled = ! _frustum$1.intersectsSphere( _sphere$2 ); + + } + + if ( ! culled ) { + + // get the distance from camera used for sorting + const z = _temp.subVectors( _sphere$2.center, _vector$5 ).dot( _forward ); + _renderList.push( drawRanges[ geometryId ], z, i ); + + } + + } + + } + + // Sort the draw ranges and prep for rendering + const list = _renderList.list; + const customSort = this.customSort; + if ( customSort === null ) { + + list.sort( material.transparent ? sortTransparent : sortOpaque ); + + } else { + + customSort.call( this, list, camera ); + + } + + for ( let i = 0, l = list.length; i < l; i ++ ) { + + const item = list[ i ]; + multiDrawStarts[ count ] = item.start * bytesPerElement; + multiDrawCounts[ count ] = item.count; + indirectArray[ count ] = item.index; + count ++; + + } + + _renderList.reset(); + + } else { + + for ( let i = 0, l = drawInfo.length; i < l; i ++ ) { + + if ( drawInfo[ i ].visible && drawInfo[ i ].active ) { + + const geometryId = drawInfo[ i ].geometryIndex; + + // determine whether the batched geometry is within the frustum + let culled = false; + if ( perObjectFrustumCulled ) { + + // get the bounds in world space + this.getMatrixAt( i, _matrix$1 ); + this.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 ); + culled = ! _frustum$1.intersectsSphere( _sphere$2 ); + + } + + if ( ! culled ) { + + const range = drawRanges[ geometryId ]; + multiDrawStarts[ count ] = range.start * bytesPerElement; + multiDrawCounts[ count ] = range.count; + indirectArray[ count ] = i; + count ++; + + } + + } + + } + + } + + indirectTexture.needsUpdate = true; + this._multiDrawCount = count; + this._visibilityChanged = false; + + } + + onBeforeShadow( renderer, object, camera, shadowCamera, geometry, depthMaterial/* , group */ ) { + + this.onBeforeRender( renderer, null, shadowCamera, geometry, depthMaterial ); + + } + +} + +class LineBasicMaterial extends Material { + + constructor( parameters ) { + + super(); + + this.isLineBasicMaterial = true; + + this.type = 'LineBasicMaterial'; + + this.color = new Color( 0xffffff ); + + this.map = null; + + this.linewidth = 1; + this.linecap = 'round'; + this.linejoin = 'round'; + + this.fog = true; + + this.setValues( parameters ); + + } + + + copy( source ) { + + super.copy( source ); + + this.color.copy( source.color ); + + this.map = source.map; + + this.linewidth = source.linewidth; + this.linecap = source.linecap; + this.linejoin = source.linejoin; + + this.fog = source.fog; + + return this; + + } + +} + +const _vStart = /*@__PURE__*/ new Vector3(); +const _vEnd = /*@__PURE__*/ new Vector3(); + +const _inverseMatrix$1 = /*@__PURE__*/ new Matrix4(); +const _ray$1 = /*@__PURE__*/ new Ray(); +const _sphere$1 = /*@__PURE__*/ new Sphere(); + +const _intersectPointOnRay = /*@__PURE__*/ new Vector3(); +const _intersectPointOnSegment = /*@__PURE__*/ new Vector3(); + +class Line extends Object3D { + + constructor( geometry = new BufferGeometry(), material = new LineBasicMaterial() ) { + + super(); + + this.isLine = true; + + this.type = 'Line'; + + this.geometry = geometry; + this.material = material; + + this.updateMorphTargets(); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.material = Array.isArray( source.material ) ? source.material.slice() : source.material; + this.geometry = source.geometry; + + return this; + + } + + computeLineDistances() { + + const geometry = this.geometry; + + // we assume non-indexed geometry + + if ( geometry.index === null ) { + + const positionAttribute = geometry.attributes.position; + const lineDistances = [ 0 ]; + + for ( let i = 1, l = positionAttribute.count; i < l; i ++ ) { + + _vStart.fromBufferAttribute( positionAttribute, i - 1 ); + _vEnd.fromBufferAttribute( positionAttribute, i ); + + lineDistances[ i ] = lineDistances[ i - 1 ]; + lineDistances[ i ] += _vStart.distanceTo( _vEnd ); + + } + + geometry.setAttribute( 'lineDistance', new Float32BufferAttribute( lineDistances, 1 ) ); + + } else { + + console.warn( 'THREE.Line.computeLineDistances(): Computation only possible with non-indexed BufferGeometry.' ); + + } + + return this; + + } + + raycast( raycaster, intersects ) { + + const geometry = this.geometry; + const matrixWorld = this.matrixWorld; + const threshold = raycaster.params.Line.threshold; + const drawRange = geometry.drawRange; + + // Checking boundingSphere distance to ray + + if ( geometry.boundingSphere === null ) geometry.computeBoundingSphere(); + + _sphere$1.copy( geometry.boundingSphere ); + _sphere$1.applyMatrix4( matrixWorld ); + _sphere$1.radius += threshold; + + if ( raycaster.ray.intersectsSphere( _sphere$1 ) === false ) return; + + // + + _inverseMatrix$1.copy( matrixWorld ).invert(); + _ray$1.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$1 ); + + const localThreshold = threshold / ( ( this.scale.x + this.scale.y + this.scale.z ) / 3 ); + const localThresholdSq = localThreshold * localThreshold; + + const step = this.isLineSegments ? 2 : 1; + + const index = geometry.index; + const attributes = geometry.attributes; + const positionAttribute = attributes.position; + + if ( index !== null ) { + + const start = Math.max( 0, drawRange.start ); + const end = Math.min( index.count, ( drawRange.start + drawRange.count ) ); + + for ( let i = start, l = end - 1; i < l; i += step ) { + + const a = index.getX( i ); + const b = index.getX( i + 1 ); + + const intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, a, b ); + + if ( intersect ) { + + intersects.push( intersect ); + + } + + } + + if ( this.isLineLoop ) { + + const a = index.getX( end - 1 ); + const b = index.getX( start ); + + const intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, a, b ); + + if ( intersect ) { + + intersects.push( intersect ); + + } + + } + + } else { + + const start = Math.max( 0, drawRange.start ); + const end = Math.min( positionAttribute.count, ( drawRange.start + drawRange.count ) ); + + for ( let i = start, l = end - 1; i < l; i += step ) { + + const intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, i, i + 1 ); + + if ( intersect ) { + + intersects.push( intersect ); + + } + + } + + if ( this.isLineLoop ) { + + const intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, end - 1, start ); + + if ( intersect ) { + + intersects.push( intersect ); + + } + + } + + } + + } + + updateMorphTargets() { + + const geometry = this.geometry; + + const morphAttributes = geometry.morphAttributes; + const keys = Object.keys( morphAttributes ); + + if ( keys.length > 0 ) { + + const morphAttribute = morphAttributes[ keys[ 0 ] ]; + + if ( morphAttribute !== undefined ) { + + this.morphTargetInfluences = []; + this.morphTargetDictionary = {}; + + for ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) { + + const name = morphAttribute[ m ].name || String( m ); + + this.morphTargetInfluences.push( 0 ); + this.morphTargetDictionary[ name ] = m; + + } + + } + + } + + } + +} + +function checkIntersection( object, raycaster, ray, thresholdSq, a, b ) { + + const positionAttribute = object.geometry.attributes.position; + + _vStart.fromBufferAttribute( positionAttribute, a ); + _vEnd.fromBufferAttribute( positionAttribute, b ); + + const distSq = ray.distanceSqToSegment( _vStart, _vEnd, _intersectPointOnRay, _intersectPointOnSegment ); + + if ( distSq > thresholdSq ) return; + + _intersectPointOnRay.applyMatrix4( object.matrixWorld ); // Move back to world space for distance calculation + + const distance = raycaster.ray.origin.distanceTo( _intersectPointOnRay ); + + if ( distance < raycaster.near || distance > raycaster.far ) return; + + return { + + distance: distance, + // What do we want? intersection point on the ray or on the segment?? + // point: raycaster.ray.at( distance ), + point: _intersectPointOnSegment.clone().applyMatrix4( object.matrixWorld ), + index: a, + face: null, + faceIndex: null, + object: object + + }; + +} + +const _start = /*@__PURE__*/ new Vector3(); +const _end = /*@__PURE__*/ new Vector3(); + +class LineSegments extends Line { + + constructor( geometry, material ) { + + super( geometry, material ); + + this.isLineSegments = true; + + this.type = 'LineSegments'; + + } + + computeLineDistances() { + + const geometry = this.geometry; + + // we assume non-indexed geometry + + if ( geometry.index === null ) { + + const positionAttribute = geometry.attributes.position; + const lineDistances = []; + + for ( let i = 0, l = positionAttribute.count; i < l; i += 2 ) { + + _start.fromBufferAttribute( positionAttribute, i ); + _end.fromBufferAttribute( positionAttribute, i + 1 ); + + lineDistances[ i ] = ( i === 0 ) ? 0 : lineDistances[ i - 1 ]; + lineDistances[ i + 1 ] = lineDistances[ i ] + _start.distanceTo( _end ); + + } + + geometry.setAttribute( 'lineDistance', new Float32BufferAttribute( lineDistances, 1 ) ); + + } else { + + console.warn( 'THREE.LineSegments.computeLineDistances(): Computation only possible with non-indexed BufferGeometry.' ); + + } + + return this; + + } + +} + +class LineLoop extends Line { + + constructor( geometry, material ) { + + super( geometry, material ); + + this.isLineLoop = true; + + this.type = 'LineLoop'; + + } + +} + +class PointsMaterial extends Material { + + constructor( parameters ) { + + super(); + + this.isPointsMaterial = true; + + this.type = 'PointsMaterial'; + + this.color = new Color( 0xffffff ); + + this.map = null; + + this.alphaMap = null; + + this.size = 1; + this.sizeAttenuation = true; + + this.fog = true; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.color.copy( source.color ); + + this.map = source.map; + + this.alphaMap = source.alphaMap; + + this.size = source.size; + this.sizeAttenuation = source.sizeAttenuation; + + this.fog = source.fog; + + return this; + + } + +} + +const _inverseMatrix = /*@__PURE__*/ new Matrix4(); +const _ray = /*@__PURE__*/ new Ray(); +const _sphere = /*@__PURE__*/ new Sphere(); +const _position$2 = /*@__PURE__*/ new Vector3(); + +class Points extends Object3D { + + constructor( geometry = new BufferGeometry(), material = new PointsMaterial() ) { + + super(); + + this.isPoints = true; + + this.type = 'Points'; + + this.geometry = geometry; + this.material = material; + + this.updateMorphTargets(); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.material = Array.isArray( source.material ) ? source.material.slice() : source.material; + this.geometry = source.geometry; + + return this; + + } + + raycast( raycaster, intersects ) { + + const geometry = this.geometry; + const matrixWorld = this.matrixWorld; + const threshold = raycaster.params.Points.threshold; + const drawRange = geometry.drawRange; + + // Checking boundingSphere distance to ray + + if ( geometry.boundingSphere === null ) geometry.computeBoundingSphere(); + + _sphere.copy( geometry.boundingSphere ); + _sphere.applyMatrix4( matrixWorld ); + _sphere.radius += threshold; + + if ( raycaster.ray.intersectsSphere( _sphere ) === false ) return; + + // + + _inverseMatrix.copy( matrixWorld ).invert(); + _ray.copy( raycaster.ray ).applyMatrix4( _inverseMatrix ); + + const localThreshold = threshold / ( ( this.scale.x + this.scale.y + this.scale.z ) / 3 ); + const localThresholdSq = localThreshold * localThreshold; + + const index = geometry.index; + const attributes = geometry.attributes; + const positionAttribute = attributes.position; + + if ( index !== null ) { + + const start = Math.max( 0, drawRange.start ); + const end = Math.min( index.count, ( drawRange.start + drawRange.count ) ); + + for ( let i = start, il = end; i < il; i ++ ) { + + const a = index.getX( i ); + + _position$2.fromBufferAttribute( positionAttribute, a ); + + testPoint( _position$2, a, localThresholdSq, matrixWorld, raycaster, intersects, this ); + + } + + } else { + + const start = Math.max( 0, drawRange.start ); + const end = Math.min( positionAttribute.count, ( drawRange.start + drawRange.count ) ); + + for ( let i = start, l = end; i < l; i ++ ) { + + _position$2.fromBufferAttribute( positionAttribute, i ); + + testPoint( _position$2, i, localThresholdSq, matrixWorld, raycaster, intersects, this ); + + } + + } + + } + + updateMorphTargets() { + + const geometry = this.geometry; + + const morphAttributes = geometry.morphAttributes; + const keys = Object.keys( morphAttributes ); + + if ( keys.length > 0 ) { + + const morphAttribute = morphAttributes[ keys[ 0 ] ]; + + if ( morphAttribute !== undefined ) { + + this.morphTargetInfluences = []; + this.morphTargetDictionary = {}; + + for ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) { + + const name = morphAttribute[ m ].name || String( m ); + + this.morphTargetInfluences.push( 0 ); + this.morphTargetDictionary[ name ] = m; + + } + + } + + } + + } + +} + +function testPoint( point, index, localThresholdSq, matrixWorld, raycaster, intersects, object ) { + + const rayPointDistanceSq = _ray.distanceSqToPoint( point ); + + if ( rayPointDistanceSq < localThresholdSq ) { + + const intersectPoint = new Vector3(); + + _ray.closestPointToPoint( point, intersectPoint ); + intersectPoint.applyMatrix4( matrixWorld ); + + const distance = raycaster.ray.origin.distanceTo( intersectPoint ); + + if ( distance < raycaster.near || distance > raycaster.far ) return; + + intersects.push( { + + distance: distance, + distanceToRay: Math.sqrt( rayPointDistanceSq ), + point: intersectPoint, + index: index, + face: null, + object: object + + } ); + + } + +} + +class Group extends Object3D { + + constructor() { + + super(); + + this.isGroup = true; + + this.type = 'Group'; + + } + +} + +class VideoTexture extends Texture { + + constructor( video, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ) { + + super( video, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ); + + this.isVideoTexture = true; + + this.minFilter = minFilter !== undefined ? minFilter : LinearFilter; + this.magFilter = magFilter !== undefined ? magFilter : LinearFilter; + + this.generateMipmaps = false; + + const scope = this; + + function updateVideo() { + + scope.needsUpdate = true; + video.requestVideoFrameCallback( updateVideo ); + + } + + if ( 'requestVideoFrameCallback' in video ) { + + video.requestVideoFrameCallback( updateVideo ); + + } + + } + + clone() { + + return new this.constructor( this.image ).copy( this ); + + } + + update() { + + const video = this.image; + const hasVideoFrameCallback = 'requestVideoFrameCallback' in video; + + if ( hasVideoFrameCallback === false && video.readyState >= video.HAVE_CURRENT_DATA ) { + + this.needsUpdate = true; + + } + + } + +} + +class FramebufferTexture extends Texture { + + constructor( width, height ) { + + super( { width, height } ); + + this.isFramebufferTexture = true; + + this.magFilter = NearestFilter; + this.minFilter = NearestFilter; + + this.generateMipmaps = false; + + this.needsUpdate = true; + + } + +} + +class CompressedTexture extends Texture { + + constructor( mipmaps, width, height, format, type, mapping, wrapS, wrapT, magFilter, minFilter, anisotropy, colorSpace ) { + + super( null, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace ); + + this.isCompressedTexture = true; + + this.image = { width: width, height: height }; + this.mipmaps = mipmaps; + + // no flipping for cube textures + // (also flipping doesn't work for compressed textures ) + + this.flipY = false; + + // can't generate mipmaps for compressed textures + // mips must be embedded in DDS files + + this.generateMipmaps = false; + + } + +} + +class CompressedArrayTexture extends CompressedTexture { + + constructor( mipmaps, width, height, depth, format, type ) { + + super( mipmaps, width, height, format, type ); + + this.isCompressedArrayTexture = true; + this.image.depth = depth; + this.wrapR = ClampToEdgeWrapping; + + this.layerUpdates = new Set(); + + } + + addLayerUpdate( layerIndex ) { + + this.layerUpdates.add( layerIndex ); + + } + + clearLayerUpdates() { + + this.layerUpdates.clear(); + + } + +} + +class CompressedCubeTexture extends CompressedTexture { + + constructor( images, format, type ) { + + super( undefined, images[ 0 ].width, images[ 0 ].height, format, type, CubeReflectionMapping ); + + this.isCompressedCubeTexture = true; + this.isCubeTexture = true; + + this.image = images; + + } + +} + +class CanvasTexture extends Texture { + + constructor( canvas, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ) { + + super( canvas, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ); + + this.isCanvasTexture = true; + + this.needsUpdate = true; + + } + +} + +class DepthTexture extends Texture { + + constructor( width, height, type, mapping, wrapS, wrapT, magFilter, minFilter, anisotropy, format = DepthFormat ) { + + if ( format !== DepthFormat && format !== DepthStencilFormat ) { + + throw new Error( 'DepthTexture format must be either THREE.DepthFormat or THREE.DepthStencilFormat' ); + + } + + if ( type === undefined && format === DepthFormat ) type = UnsignedIntType; + if ( type === undefined && format === DepthStencilFormat ) type = UnsignedInt248Type; + + super( null, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ); + + this.isDepthTexture = true; + + this.image = { width: width, height: height }; + + this.magFilter = magFilter !== undefined ? magFilter : NearestFilter; + this.minFilter = minFilter !== undefined ? minFilter : NearestFilter; + + this.flipY = false; + this.generateMipmaps = false; + + this.compareFunction = null; + + } + + + copy( source ) { + + super.copy( source ); + + this.compareFunction = source.compareFunction; + + return this; + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + if ( this.compareFunction !== null ) data.compareFunction = this.compareFunction; + + return data; + + } + +} + +/** + * Extensible curve object. + * + * Some common of curve methods: + * .getPoint( t, optionalTarget ), .getTangent( t, optionalTarget ) + * .getPointAt( u, optionalTarget ), .getTangentAt( u, optionalTarget ) + * .getPoints(), .getSpacedPoints() + * .getLength() + * .updateArcLengths() + * + * This following curves inherit from THREE.Curve: + * + * -- 2D curves -- + * THREE.ArcCurve + * THREE.CubicBezierCurve + * THREE.EllipseCurve + * THREE.LineCurve + * THREE.QuadraticBezierCurve + * THREE.SplineCurve + * + * -- 3D curves -- + * THREE.CatmullRomCurve3 + * THREE.CubicBezierCurve3 + * THREE.LineCurve3 + * THREE.QuadraticBezierCurve3 + * + * A series of curves can be represented as a THREE.CurvePath. + * + **/ + +class Curve { + + constructor() { + + this.type = 'Curve'; + + this.arcLengthDivisions = 200; + + } + + // Virtual base class method to overwrite and implement in subclasses + // - t [0 .. 1] + + getPoint( /* t, optionalTarget */ ) { + + console.warn( 'THREE.Curve: .getPoint() not implemented.' ); + return null; + + } + + // Get point at relative position in curve according to arc length + // - u [0 .. 1] + + getPointAt( u, optionalTarget ) { + + const t = this.getUtoTmapping( u ); + return this.getPoint( t, optionalTarget ); + + } + + // Get sequence of points using getPoint( t ) + + getPoints( divisions = 5 ) { + + const points = []; + + for ( let d = 0; d <= divisions; d ++ ) { + + points.push( this.getPoint( d / divisions ) ); + + } + + return points; + + } + + // Get sequence of points using getPointAt( u ) + + getSpacedPoints( divisions = 5 ) { + + const points = []; + + for ( let d = 0; d <= divisions; d ++ ) { + + points.push( this.getPointAt( d / divisions ) ); + + } + + return points; + + } + + // Get total curve arc length + + getLength() { + + const lengths = this.getLengths(); + return lengths[ lengths.length - 1 ]; + + } + + // Get list of cumulative segment lengths + + getLengths( divisions = this.arcLengthDivisions ) { + + if ( this.cacheArcLengths && + ( this.cacheArcLengths.length === divisions + 1 ) && + ! this.needsUpdate ) { + + return this.cacheArcLengths; + + } + + this.needsUpdate = false; + + const cache = []; + let current, last = this.getPoint( 0 ); + let sum = 0; + + cache.push( 0 ); + + for ( let p = 1; p <= divisions; p ++ ) { + + current = this.getPoint( p / divisions ); + sum += current.distanceTo( last ); + cache.push( sum ); + last = current; + + } + + this.cacheArcLengths = cache; + + return cache; // { sums: cache, sum: sum }; Sum is in the last element. + + } + + updateArcLengths() { + + this.needsUpdate = true; + this.getLengths(); + + } + + // Given u ( 0 .. 1 ), get a t to find p. This gives you points which are equidistant + + getUtoTmapping( u, distance ) { + + const arcLengths = this.getLengths(); + + let i = 0; + const il = arcLengths.length; + + let targetArcLength; // The targeted u distance value to get + + if ( distance ) { + + targetArcLength = distance; + + } else { + + targetArcLength = u * arcLengths[ il - 1 ]; + + } + + // binary search for the index with largest value smaller than target u distance + + let low = 0, high = il - 1, comparison; + + while ( low <= high ) { + + i = Math.floor( low + ( high - low ) / 2 ); // less likely to overflow, though probably not issue here, JS doesn't really have integers, all numbers are floats + + comparison = arcLengths[ i ] - targetArcLength; + + if ( comparison < 0 ) { + + low = i + 1; + + } else if ( comparison > 0 ) { + + high = i - 1; + + } else { + + high = i; + break; + + // DONE + + } + + } + + i = high; + + if ( arcLengths[ i ] === targetArcLength ) { + + return i / ( il - 1 ); + + } + + // we could get finer grain at lengths, or use simple interpolation between two points + + const lengthBefore = arcLengths[ i ]; + const lengthAfter = arcLengths[ i + 1 ]; + + const segmentLength = lengthAfter - lengthBefore; + + // determine where we are between the 'before' and 'after' points + + const segmentFraction = ( targetArcLength - lengthBefore ) / segmentLength; + + // add that fractional amount to t + + const t = ( i + segmentFraction ) / ( il - 1 ); + + return t; + + } + + // Returns a unit vector tangent at t + // In case any sub curve does not implement its tangent derivation, + // 2 points a small delta apart will be used to find its gradient + // which seems to give a reasonable approximation + + getTangent( t, optionalTarget ) { + + const delta = 0.0001; + let t1 = t - delta; + let t2 = t + delta; + + // Capping in case of danger + + if ( t1 < 0 ) t1 = 0; + if ( t2 > 1 ) t2 = 1; + + const pt1 = this.getPoint( t1 ); + const pt2 = this.getPoint( t2 ); + + const tangent = optionalTarget || ( ( pt1.isVector2 ) ? new Vector2() : new Vector3() ); + + tangent.copy( pt2 ).sub( pt1 ).normalize(); + + return tangent; + + } + + getTangentAt( u, optionalTarget ) { + + const t = this.getUtoTmapping( u ); + return this.getTangent( t, optionalTarget ); + + } + + computeFrenetFrames( segments, closed ) { + + // see http://www.cs.indiana.edu/pub/techreports/TR425.pdf + + const normal = new Vector3(); + + const tangents = []; + const normals = []; + const binormals = []; + + const vec = new Vector3(); + const mat = new Matrix4(); + + // compute the tangent vectors for each segment on the curve + + for ( let i = 0; i <= segments; i ++ ) { + + const u = i / segments; + + tangents[ i ] = this.getTangentAt( u, new Vector3() ); + + } + + // select an initial normal vector perpendicular to the first tangent vector, + // and in the direction of the minimum tangent xyz component + + normals[ 0 ] = new Vector3(); + binormals[ 0 ] = new Vector3(); + let min = Number.MAX_VALUE; + const tx = Math.abs( tangents[ 0 ].x ); + const ty = Math.abs( tangents[ 0 ].y ); + const tz = Math.abs( tangents[ 0 ].z ); + + if ( tx <= min ) { + + min = tx; + normal.set( 1, 0, 0 ); + + } + + if ( ty <= min ) { + + min = ty; + normal.set( 0, 1, 0 ); + + } + + if ( tz <= min ) { + + normal.set( 0, 0, 1 ); + + } + + vec.crossVectors( tangents[ 0 ], normal ).normalize(); + + normals[ 0 ].crossVectors( tangents[ 0 ], vec ); + binormals[ 0 ].crossVectors( tangents[ 0 ], normals[ 0 ] ); + + + // compute the slowly-varying normal and binormal vectors for each segment on the curve + + for ( let i = 1; i <= segments; i ++ ) { + + normals[ i ] = normals[ i - 1 ].clone(); + + binormals[ i ] = binormals[ i - 1 ].clone(); + + vec.crossVectors( tangents[ i - 1 ], tangents[ i ] ); + + if ( vec.length() > Number.EPSILON ) { + + vec.normalize(); + + const theta = Math.acos( clamp$1( tangents[ i - 1 ].dot( tangents[ i ] ), - 1, 1 ) ); // clamp for floating pt errors + + normals[ i ].applyMatrix4( mat.makeRotationAxis( vec, theta ) ); + + } + + binormals[ i ].crossVectors( tangents[ i ], normals[ i ] ); + + } + + // if the curve is closed, postprocess the vectors so the first and last normal vectors are the same + + if ( closed === true ) { + + let theta = Math.acos( clamp$1( normals[ 0 ].dot( normals[ segments ] ), - 1, 1 ) ); + theta /= segments; + + if ( tangents[ 0 ].dot( vec.crossVectors( normals[ 0 ], normals[ segments ] ) ) > 0 ) { + + theta = - theta; + + } + + for ( let i = 1; i <= segments; i ++ ) { + + // twist a little... + normals[ i ].applyMatrix4( mat.makeRotationAxis( tangents[ i ], theta * i ) ); + binormals[ i ].crossVectors( tangents[ i ], normals[ i ] ); + + } + + } + + return { + tangents: tangents, + normals: normals, + binormals: binormals + }; + + } + + clone() { + + return new this.constructor().copy( this ); + + } + + copy( source ) { + + this.arcLengthDivisions = source.arcLengthDivisions; + + return this; + + } + + toJSON() { + + const data = { + metadata: { + version: 4.6, + type: 'Curve', + generator: 'Curve.toJSON' + } + }; + + data.arcLengthDivisions = this.arcLengthDivisions; + data.type = this.type; + + return data; + + } + + fromJSON( json ) { + + this.arcLengthDivisions = json.arcLengthDivisions; + + return this; + + } + +} + +class EllipseCurve extends Curve { + + constructor( aX = 0, aY = 0, xRadius = 1, yRadius = 1, aStartAngle = 0, aEndAngle = Math.PI * 2, aClockwise = false, aRotation = 0 ) { + + super(); + + this.isEllipseCurve = true; + + this.type = 'EllipseCurve'; + + this.aX = aX; + this.aY = aY; + + this.xRadius = xRadius; + this.yRadius = yRadius; + + this.aStartAngle = aStartAngle; + this.aEndAngle = aEndAngle; + + this.aClockwise = aClockwise; + + this.aRotation = aRotation; + + } + + getPoint( t, optionalTarget = new Vector2() ) { + + const point = optionalTarget; + + const twoPi = Math.PI * 2; + let deltaAngle = this.aEndAngle - this.aStartAngle; + const samePoints = Math.abs( deltaAngle ) < Number.EPSILON; + + // ensures that deltaAngle is 0 .. 2 PI + while ( deltaAngle < 0 ) deltaAngle += twoPi; + while ( deltaAngle > twoPi ) deltaAngle -= twoPi; + + if ( deltaAngle < Number.EPSILON ) { + + if ( samePoints ) { + + deltaAngle = 0; + + } else { + + deltaAngle = twoPi; + + } + + } + + if ( this.aClockwise === true && ! samePoints ) { + + if ( deltaAngle === twoPi ) { + + deltaAngle = - twoPi; + + } else { + + deltaAngle = deltaAngle - twoPi; + + } + + } + + const angle = this.aStartAngle + t * deltaAngle; + let x = this.aX + this.xRadius * Math.cos( angle ); + let y = this.aY + this.yRadius * Math.sin( angle ); + + if ( this.aRotation !== 0 ) { + + const cos = Math.cos( this.aRotation ); + const sin = Math.sin( this.aRotation ); + + const tx = x - this.aX; + const ty = y - this.aY; + + // Rotate the point about the center of the ellipse. + x = tx * cos - ty * sin + this.aX; + y = tx * sin + ty * cos + this.aY; + + } + + return point.set( x, y ); + + } + + copy( source ) { + + super.copy( source ); + + this.aX = source.aX; + this.aY = source.aY; + + this.xRadius = source.xRadius; + this.yRadius = source.yRadius; + + this.aStartAngle = source.aStartAngle; + this.aEndAngle = source.aEndAngle; + + this.aClockwise = source.aClockwise; + + this.aRotation = source.aRotation; + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.aX = this.aX; + data.aY = this.aY; + + data.xRadius = this.xRadius; + data.yRadius = this.yRadius; + + data.aStartAngle = this.aStartAngle; + data.aEndAngle = this.aEndAngle; + + data.aClockwise = this.aClockwise; + + data.aRotation = this.aRotation; + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.aX = json.aX; + this.aY = json.aY; + + this.xRadius = json.xRadius; + this.yRadius = json.yRadius; + + this.aStartAngle = json.aStartAngle; + this.aEndAngle = json.aEndAngle; + + this.aClockwise = json.aClockwise; + + this.aRotation = json.aRotation; + + return this; + + } + +} + +class ArcCurve extends EllipseCurve { + + constructor( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) { + + super( aX, aY, aRadius, aRadius, aStartAngle, aEndAngle, aClockwise ); + + this.isArcCurve = true; + + this.type = 'ArcCurve'; + + } + +} + +/** + * Centripetal CatmullRom Curve - which is useful for avoiding + * cusps and self-intersections in non-uniform catmull rom curves. + * http://www.cemyuksel.com/research/catmullrom_param/catmullrom.pdf + * + * curve.type accepts centripetal(default), chordal and catmullrom + * curve.tension is used for catmullrom which defaults to 0.5 + */ + + +/* +Based on an optimized c++ solution in + - http://stackoverflow.com/questions/9489736/catmull-rom-curve-with-no-cusps-and-no-self-intersections/ + - http://ideone.com/NoEbVM + +This CubicPoly class could be used for reusing some variables and calculations, +but for three.js curve use, it could be possible inlined and flatten into a single function call +which can be placed in CurveUtils. +*/ + +function CubicPoly() { + + let c0 = 0, c1 = 0, c2 = 0, c3 = 0; + + /* + * Compute coefficients for a cubic polynomial + * p(s) = c0 + c1*s + c2*s^2 + c3*s^3 + * such that + * p(0) = x0, p(1) = x1 + * and + * p'(0) = t0, p'(1) = t1. + */ + function init( x0, x1, t0, t1 ) { + + c0 = x0; + c1 = t0; + c2 = - 3 * x0 + 3 * x1 - 2 * t0 - t1; + c3 = 2 * x0 - 2 * x1 + t0 + t1; + + } + + return { + + initCatmullRom: function ( x0, x1, x2, x3, tension ) { + + init( x1, x2, tension * ( x2 - x0 ), tension * ( x3 - x1 ) ); + + }, + + initNonuniformCatmullRom: function ( x0, x1, x2, x3, dt0, dt1, dt2 ) { + + // compute tangents when parameterized in [t1,t2] + let t1 = ( x1 - x0 ) / dt0 - ( x2 - x0 ) / ( dt0 + dt1 ) + ( x2 - x1 ) / dt1; + let t2 = ( x2 - x1 ) / dt1 - ( x3 - x1 ) / ( dt1 + dt2 ) + ( x3 - x2 ) / dt2; + + // rescale tangents for parametrization in [0,1] + t1 *= dt1; + t2 *= dt1; + + init( x1, x2, t1, t2 ); + + }, + + calc: function ( t ) { + + const t2 = t * t; + const t3 = t2 * t; + return c0 + c1 * t + c2 * t2 + c3 * t3; + + } + + }; + +} + +// + +const tmp = /*@__PURE__*/ new Vector3(); +const px = /*@__PURE__*/ new CubicPoly(); +const py = /*@__PURE__*/ new CubicPoly(); +const pz = /*@__PURE__*/ new CubicPoly(); + +class CatmullRomCurve3 extends Curve { + + constructor( points = [], closed = false, curveType = 'centripetal', tension = 0.5 ) { + + super(); + + this.isCatmullRomCurve3 = true; + + this.type = 'CatmullRomCurve3'; + + this.points = points; + this.closed = closed; + this.curveType = curveType; + this.tension = tension; + + } + + getPoint( t, optionalTarget = new Vector3() ) { + + const point = optionalTarget; + + const points = this.points; + const l = points.length; + + const p = ( l - ( this.closed ? 0 : 1 ) ) * t; + let intPoint = Math.floor( p ); + let weight = p - intPoint; + + if ( this.closed ) { + + intPoint += intPoint > 0 ? 0 : ( Math.floor( Math.abs( intPoint ) / l ) + 1 ) * l; + + } else if ( weight === 0 && intPoint === l - 1 ) { + + intPoint = l - 2; + weight = 1; + + } + + let p0, p3; // 4 points (p1 & p2 defined below) + + if ( this.closed || intPoint > 0 ) { + + p0 = points[ ( intPoint - 1 ) % l ]; + + } else { + + // extrapolate first point + tmp.subVectors( points[ 0 ], points[ 1 ] ).add( points[ 0 ] ); + p0 = tmp; + + } + + const p1 = points[ intPoint % l ]; + const p2 = points[ ( intPoint + 1 ) % l ]; + + if ( this.closed || intPoint + 2 < l ) { + + p3 = points[ ( intPoint + 2 ) % l ]; + + } else { + + // extrapolate last point + tmp.subVectors( points[ l - 1 ], points[ l - 2 ] ).add( points[ l - 1 ] ); + p3 = tmp; + + } + + if ( this.curveType === 'centripetal' || this.curveType === 'chordal' ) { + + // init Centripetal / Chordal Catmull-Rom + const pow = this.curveType === 'chordal' ? 0.5 : 0.25; + let dt0 = Math.pow( p0.distanceToSquared( p1 ), pow ); + let dt1 = Math.pow( p1.distanceToSquared( p2 ), pow ); + let dt2 = Math.pow( p2.distanceToSquared( p3 ), pow ); + + // safety check for repeated points + if ( dt1 < 1e-4 ) dt1 = 1.0; + if ( dt0 < 1e-4 ) dt0 = dt1; + if ( dt2 < 1e-4 ) dt2 = dt1; + + px.initNonuniformCatmullRom( p0.x, p1.x, p2.x, p3.x, dt0, dt1, dt2 ); + py.initNonuniformCatmullRom( p0.y, p1.y, p2.y, p3.y, dt0, dt1, dt2 ); + pz.initNonuniformCatmullRom( p0.z, p1.z, p2.z, p3.z, dt0, dt1, dt2 ); + + } else if ( this.curveType === 'catmullrom' ) { + + px.initCatmullRom( p0.x, p1.x, p2.x, p3.x, this.tension ); + py.initCatmullRom( p0.y, p1.y, p2.y, p3.y, this.tension ); + pz.initCatmullRom( p0.z, p1.z, p2.z, p3.z, this.tension ); + + } + + point.set( + px.calc( weight ), + py.calc( weight ), + pz.calc( weight ) + ); + + return point; + + } + + copy( source ) { + + super.copy( source ); + + this.points = []; + + for ( let i = 0, l = source.points.length; i < l; i ++ ) { + + const point = source.points[ i ]; + + this.points.push( point.clone() ); + + } + + this.closed = source.closed; + this.curveType = source.curveType; + this.tension = source.tension; + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.points = []; + + for ( let i = 0, l = this.points.length; i < l; i ++ ) { + + const point = this.points[ i ]; + data.points.push( point.toArray() ); + + } + + data.closed = this.closed; + data.curveType = this.curveType; + data.tension = this.tension; + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.points = []; + + for ( let i = 0, l = json.points.length; i < l; i ++ ) { + + const point = json.points[ i ]; + this.points.push( new Vector3().fromArray( point ) ); + + } + + this.closed = json.closed; + this.curveType = json.curveType; + this.tension = json.tension; + + return this; + + } + +} + +/** + * Bezier Curves formulas obtained from + * https://en.wikipedia.org/wiki/B%C3%A9zier_curve + */ + +function CatmullRom( t, p0, p1, p2, p3 ) { + + const v0 = ( p2 - p0 ) * 0.5; + const v1 = ( p3 - p1 ) * 0.5; + const t2 = t * t; + const t3 = t * t2; + return ( 2 * p1 - 2 * p2 + v0 + v1 ) * t3 + ( - 3 * p1 + 3 * p2 - 2 * v0 - v1 ) * t2 + v0 * t + p1; + +} + +// + +function QuadraticBezierP0( t, p ) { + + const k = 1 - t; + return k * k * p; + +} + +function QuadraticBezierP1( t, p ) { + + return 2 * ( 1 - t ) * t * p; + +} + +function QuadraticBezierP2( t, p ) { + + return t * t * p; + +} + +function QuadraticBezier( t, p0, p1, p2 ) { + + return QuadraticBezierP0( t, p0 ) + QuadraticBezierP1( t, p1 ) + + QuadraticBezierP2( t, p2 ); + +} + +// + +function CubicBezierP0( t, p ) { + + const k = 1 - t; + return k * k * k * p; + +} + +function CubicBezierP1( t, p ) { + + const k = 1 - t; + return 3 * k * k * t * p; + +} + +function CubicBezierP2( t, p ) { + + return 3 * ( 1 - t ) * t * t * p; + +} + +function CubicBezierP3( t, p ) { + + return t * t * t * p; + +} + +function CubicBezier( t, p0, p1, p2, p3 ) { + + return CubicBezierP0( t, p0 ) + CubicBezierP1( t, p1 ) + CubicBezierP2( t, p2 ) + + CubicBezierP3( t, p3 ); + +} + +class CubicBezierCurve extends Curve { + + constructor( v0 = new Vector2(), v1 = new Vector2(), v2 = new Vector2(), v3 = new Vector2() ) { + + super(); + + this.isCubicBezierCurve = true; + + this.type = 'CubicBezierCurve'; + + this.v0 = v0; + this.v1 = v1; + this.v2 = v2; + this.v3 = v3; + + } + + getPoint( t, optionalTarget = new Vector2() ) { + + const point = optionalTarget; + + const v0 = this.v0, v1 = this.v1, v2 = this.v2, v3 = this.v3; + + point.set( + CubicBezier( t, v0.x, v1.x, v2.x, v3.x ), + CubicBezier( t, v0.y, v1.y, v2.y, v3.y ) + ); + + return point; + + } + + copy( source ) { + + super.copy( source ); + + this.v0.copy( source.v0 ); + this.v1.copy( source.v1 ); + this.v2.copy( source.v2 ); + this.v3.copy( source.v3 ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.v0 = this.v0.toArray(); + data.v1 = this.v1.toArray(); + data.v2 = this.v2.toArray(); + data.v3 = this.v3.toArray(); + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.v0.fromArray( json.v0 ); + this.v1.fromArray( json.v1 ); + this.v2.fromArray( json.v2 ); + this.v3.fromArray( json.v3 ); + + return this; + + } + +} + +class CubicBezierCurve3 extends Curve { + + constructor( v0 = new Vector3(), v1 = new Vector3(), v2 = new Vector3(), v3 = new Vector3() ) { + + super(); + + this.isCubicBezierCurve3 = true; + + this.type = 'CubicBezierCurve3'; + + this.v0 = v0; + this.v1 = v1; + this.v2 = v2; + this.v3 = v3; + + } + + getPoint( t, optionalTarget = new Vector3() ) { + + const point = optionalTarget; + + const v0 = this.v0, v1 = this.v1, v2 = this.v2, v3 = this.v3; + + point.set( + CubicBezier( t, v0.x, v1.x, v2.x, v3.x ), + CubicBezier( t, v0.y, v1.y, v2.y, v3.y ), + CubicBezier( t, v0.z, v1.z, v2.z, v3.z ) + ); + + return point; + + } + + copy( source ) { + + super.copy( source ); + + this.v0.copy( source.v0 ); + this.v1.copy( source.v1 ); + this.v2.copy( source.v2 ); + this.v3.copy( source.v3 ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.v0 = this.v0.toArray(); + data.v1 = this.v1.toArray(); + data.v2 = this.v2.toArray(); + data.v3 = this.v3.toArray(); + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.v0.fromArray( json.v0 ); + this.v1.fromArray( json.v1 ); + this.v2.fromArray( json.v2 ); + this.v3.fromArray( json.v3 ); + + return this; + + } + +} + +class LineCurve extends Curve { + + constructor( v1 = new Vector2(), v2 = new Vector2() ) { + + super(); + + this.isLineCurve = true; + + this.type = 'LineCurve'; + + this.v1 = v1; + this.v2 = v2; + + } + + getPoint( t, optionalTarget = new Vector2() ) { + + const point = optionalTarget; + + if ( t === 1 ) { + + point.copy( this.v2 ); + + } else { + + point.copy( this.v2 ).sub( this.v1 ); + point.multiplyScalar( t ).add( this.v1 ); + + } + + return point; + + } + + // Line curve is linear, so we can overwrite default getPointAt + getPointAt( u, optionalTarget ) { + + return this.getPoint( u, optionalTarget ); + + } + + getTangent( t, optionalTarget = new Vector2() ) { + + return optionalTarget.subVectors( this.v2, this.v1 ).normalize(); + + } + + getTangentAt( u, optionalTarget ) { + + return this.getTangent( u, optionalTarget ); + + } + + copy( source ) { + + super.copy( source ); + + this.v1.copy( source.v1 ); + this.v2.copy( source.v2 ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.v1 = this.v1.toArray(); + data.v2 = this.v2.toArray(); + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.v1.fromArray( json.v1 ); + this.v2.fromArray( json.v2 ); + + return this; + + } + +} + +class LineCurve3 extends Curve { + + constructor( v1 = new Vector3(), v2 = new Vector3() ) { + + super(); + + this.isLineCurve3 = true; + + this.type = 'LineCurve3'; + + this.v1 = v1; + this.v2 = v2; + + } + + getPoint( t, optionalTarget = new Vector3() ) { + + const point = optionalTarget; + + if ( t === 1 ) { + + point.copy( this.v2 ); + + } else { + + point.copy( this.v2 ).sub( this.v1 ); + point.multiplyScalar( t ).add( this.v1 ); + + } + + return point; + + } + + // Line curve is linear, so we can overwrite default getPointAt + getPointAt( u, optionalTarget ) { + + return this.getPoint( u, optionalTarget ); + + } + + getTangent( t, optionalTarget = new Vector3() ) { + + return optionalTarget.subVectors( this.v2, this.v1 ).normalize(); + + } + + getTangentAt( u, optionalTarget ) { + + return this.getTangent( u, optionalTarget ); + + } + + copy( source ) { + + super.copy( source ); + + this.v1.copy( source.v1 ); + this.v2.copy( source.v2 ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.v1 = this.v1.toArray(); + data.v2 = this.v2.toArray(); + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.v1.fromArray( json.v1 ); + this.v2.fromArray( json.v2 ); + + return this; + + } + +} + +class QuadraticBezierCurve extends Curve { + + constructor( v0 = new Vector2(), v1 = new Vector2(), v2 = new Vector2() ) { + + super(); + + this.isQuadraticBezierCurve = true; + + this.type = 'QuadraticBezierCurve'; + + this.v0 = v0; + this.v1 = v1; + this.v2 = v2; + + } + + getPoint( t, optionalTarget = new Vector2() ) { + + const point = optionalTarget; + + const v0 = this.v0, v1 = this.v1, v2 = this.v2; + + point.set( + QuadraticBezier( t, v0.x, v1.x, v2.x ), + QuadraticBezier( t, v0.y, v1.y, v2.y ) + ); + + return point; + + } + + copy( source ) { + + super.copy( source ); + + this.v0.copy( source.v0 ); + this.v1.copy( source.v1 ); + this.v2.copy( source.v2 ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.v0 = this.v0.toArray(); + data.v1 = this.v1.toArray(); + data.v2 = this.v2.toArray(); + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.v0.fromArray( json.v0 ); + this.v1.fromArray( json.v1 ); + this.v2.fromArray( json.v2 ); + + return this; + + } + +} + +class QuadraticBezierCurve3 extends Curve { + + constructor( v0 = new Vector3(), v1 = new Vector3(), v2 = new Vector3() ) { + + super(); + + this.isQuadraticBezierCurve3 = true; + + this.type = 'QuadraticBezierCurve3'; + + this.v0 = v0; + this.v1 = v1; + this.v2 = v2; + + } + + getPoint( t, optionalTarget = new Vector3() ) { + + const point = optionalTarget; + + const v0 = this.v0, v1 = this.v1, v2 = this.v2; + + point.set( + QuadraticBezier( t, v0.x, v1.x, v2.x ), + QuadraticBezier( t, v0.y, v1.y, v2.y ), + QuadraticBezier( t, v0.z, v1.z, v2.z ) + ); + + return point; + + } + + copy( source ) { + + super.copy( source ); + + this.v0.copy( source.v0 ); + this.v1.copy( source.v1 ); + this.v2.copy( source.v2 ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.v0 = this.v0.toArray(); + data.v1 = this.v1.toArray(); + data.v2 = this.v2.toArray(); + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.v0.fromArray( json.v0 ); + this.v1.fromArray( json.v1 ); + this.v2.fromArray( json.v2 ); + + return this; + + } + +} + +class SplineCurve extends Curve { + + constructor( points = [] ) { + + super(); + + this.isSplineCurve = true; + + this.type = 'SplineCurve'; + + this.points = points; + + } + + getPoint( t, optionalTarget = new Vector2() ) { + + const point = optionalTarget; + + const points = this.points; + const p = ( points.length - 1 ) * t; + + const intPoint = Math.floor( p ); + const weight = p - intPoint; + + const p0 = points[ intPoint === 0 ? intPoint : intPoint - 1 ]; + const p1 = points[ intPoint ]; + const p2 = points[ intPoint > points.length - 2 ? points.length - 1 : intPoint + 1 ]; + const p3 = points[ intPoint > points.length - 3 ? points.length - 1 : intPoint + 2 ]; + + point.set( + CatmullRom( weight, p0.x, p1.x, p2.x, p3.x ), + CatmullRom( weight, p0.y, p1.y, p2.y, p3.y ) + ); + + return point; + + } + + copy( source ) { + + super.copy( source ); + + this.points = []; + + for ( let i = 0, l = source.points.length; i < l; i ++ ) { + + const point = source.points[ i ]; + + this.points.push( point.clone() ); + + } + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.points = []; + + for ( let i = 0, l = this.points.length; i < l; i ++ ) { + + const point = this.points[ i ]; + data.points.push( point.toArray() ); + + } + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.points = []; + + for ( let i = 0, l = json.points.length; i < l; i ++ ) { + + const point = json.points[ i ]; + this.points.push( new Vector2().fromArray( point ) ); + + } + + return this; + + } + +} + +var Curves = /*#__PURE__*/Object.freeze({ + __proto__: null, + ArcCurve: ArcCurve, + CatmullRomCurve3: CatmullRomCurve3, + CubicBezierCurve: CubicBezierCurve, + CubicBezierCurve3: CubicBezierCurve3, + EllipseCurve: EllipseCurve, + LineCurve: LineCurve, + LineCurve3: LineCurve3, + QuadraticBezierCurve: QuadraticBezierCurve, + QuadraticBezierCurve3: QuadraticBezierCurve3, + SplineCurve: SplineCurve +}); + +/************************************************************** + * Curved Path - a curve path is simply a array of connected + * curves, but retains the api of a curve + **************************************************************/ + +class CurvePath extends Curve { + + constructor() { + + super(); + + this.type = 'CurvePath'; + + this.curves = []; + this.autoClose = false; // Automatically closes the path + + } + + add( curve ) { + + this.curves.push( curve ); + + } + + closePath() { + + // Add a line curve if start and end of lines are not connected + const startPoint = this.curves[ 0 ].getPoint( 0 ); + const endPoint = this.curves[ this.curves.length - 1 ].getPoint( 1 ); + + if ( ! startPoint.equals( endPoint ) ) { + + const lineType = ( startPoint.isVector2 === true ) ? 'LineCurve' : 'LineCurve3'; + this.curves.push( new Curves[ lineType ]( endPoint, startPoint ) ); + + } + + return this; + + } + + // To get accurate point with reference to + // entire path distance at time t, + // following has to be done: + + // 1. Length of each sub path have to be known + // 2. Locate and identify type of curve + // 3. Get t for the curve + // 4. Return curve.getPointAt(t') + + getPoint( t, optionalTarget ) { + + const d = t * this.getLength(); + const curveLengths = this.getCurveLengths(); + let i = 0; + + // To think about boundaries points. + + while ( i < curveLengths.length ) { + + if ( curveLengths[ i ] >= d ) { + + const diff = curveLengths[ i ] - d; + const curve = this.curves[ i ]; + + const segmentLength = curve.getLength(); + const u = segmentLength === 0 ? 0 : 1 - diff / segmentLength; + + return curve.getPointAt( u, optionalTarget ); + + } + + i ++; + + } + + return null; + + // loop where sum != 0, sum > d , sum+1 1 && ! points[ points.length - 1 ].equals( points[ 0 ] ) ) { + + points.push( points[ 0 ] ); + + } + + return points; + + } + + copy( source ) { + + super.copy( source ); + + this.curves = []; + + for ( let i = 0, l = source.curves.length; i < l; i ++ ) { + + const curve = source.curves[ i ]; + + this.curves.push( curve.clone() ); + + } + + this.autoClose = source.autoClose; + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.autoClose = this.autoClose; + data.curves = []; + + for ( let i = 0, l = this.curves.length; i < l; i ++ ) { + + const curve = this.curves[ i ]; + data.curves.push( curve.toJSON() ); + + } + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.autoClose = json.autoClose; + this.curves = []; + + for ( let i = 0, l = json.curves.length; i < l; i ++ ) { + + const curve = json.curves[ i ]; + this.curves.push( new Curves[ curve.type ]().fromJSON( curve ) ); + + } + + return this; + + } + +} + +class Path extends CurvePath { + + constructor( points ) { + + super(); + + this.type = 'Path'; + + this.currentPoint = new Vector2(); + + if ( points ) { + + this.setFromPoints( points ); + + } + + } + + setFromPoints( points ) { + + this.moveTo( points[ 0 ].x, points[ 0 ].y ); + + for ( let i = 1, l = points.length; i < l; i ++ ) { + + this.lineTo( points[ i ].x, points[ i ].y ); + + } + + return this; + + } + + moveTo( x, y ) { + + this.currentPoint.set( x, y ); // TODO consider referencing vectors instead of copying? + + return this; + + } + + lineTo( x, y ) { + + const curve = new LineCurve( this.currentPoint.clone(), new Vector2( x, y ) ); + this.curves.push( curve ); + + this.currentPoint.set( x, y ); + + return this; + + } + + quadraticCurveTo( aCPx, aCPy, aX, aY ) { + + const curve = new QuadraticBezierCurve( + this.currentPoint.clone(), + new Vector2( aCPx, aCPy ), + new Vector2( aX, aY ) + ); + + this.curves.push( curve ); + + this.currentPoint.set( aX, aY ); + + return this; + + } + + bezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY ) { + + const curve = new CubicBezierCurve( + this.currentPoint.clone(), + new Vector2( aCP1x, aCP1y ), + new Vector2( aCP2x, aCP2y ), + new Vector2( aX, aY ) + ); + + this.curves.push( curve ); + + this.currentPoint.set( aX, aY ); + + return this; + + } + + splineThru( pts /*Array of Vector*/ ) { + + const npts = [ this.currentPoint.clone() ].concat( pts ); + + const curve = new SplineCurve( npts ); + this.curves.push( curve ); + + this.currentPoint.copy( pts[ pts.length - 1 ] ); + + return this; + + } + + arc( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) { + + const x0 = this.currentPoint.x; + const y0 = this.currentPoint.y; + + this.absarc( aX + x0, aY + y0, aRadius, + aStartAngle, aEndAngle, aClockwise ); + + return this; + + } + + absarc( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) { + + this.absellipse( aX, aY, aRadius, aRadius, aStartAngle, aEndAngle, aClockwise ); + + return this; + + } + + ellipse( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ) { + + const x0 = this.currentPoint.x; + const y0 = this.currentPoint.y; + + this.absellipse( aX + x0, aY + y0, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ); + + return this; + + } + + absellipse( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ) { + + const curve = new EllipseCurve( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ); + + if ( this.curves.length > 0 ) { + + // if a previous curve is present, attempt to join + const firstPoint = curve.getPoint( 0 ); + + if ( ! firstPoint.equals( this.currentPoint ) ) { + + this.lineTo( firstPoint.x, firstPoint.y ); + + } + + } + + this.curves.push( curve ); + + const lastPoint = curve.getPoint( 1 ); + this.currentPoint.copy( lastPoint ); + + return this; + + } + + copy( source ) { + + super.copy( source ); + + this.currentPoint.copy( source.currentPoint ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.currentPoint = this.currentPoint.toArray(); + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.currentPoint.fromArray( json.currentPoint ); + + return this; + + } + +} + +class LatheGeometry extends BufferGeometry { + + constructor( points = [ new Vector2( 0, - 0.5 ), new Vector2( 0.5, 0 ), new Vector2( 0, 0.5 ) ], segments = 12, phiStart = 0, phiLength = Math.PI * 2 ) { + + super(); + + this.type = 'LatheGeometry'; + + this.parameters = { + points: points, + segments: segments, + phiStart: phiStart, + phiLength: phiLength + }; + + segments = Math.floor( segments ); + + // clamp phiLength so it's in range of [ 0, 2PI ] + + phiLength = clamp$1( phiLength, 0, Math.PI * 2 ); + + // buffers + + const indices = []; + const vertices = []; + const uvs = []; + const initNormals = []; + const normals = []; + + // helper variables + + const inverseSegments = 1.0 / segments; + const vertex = new Vector3(); + const uv = new Vector2(); + const normal = new Vector3(); + const curNormal = new Vector3(); + const prevNormal = new Vector3(); + let dx = 0; + let dy = 0; + + // pre-compute normals for initial "meridian" + + for ( let j = 0; j <= ( points.length - 1 ); j ++ ) { + + switch ( j ) { + + case 0: // special handling for 1st vertex on path + + dx = points[ j + 1 ].x - points[ j ].x; + dy = points[ j + 1 ].y - points[ j ].y; + + normal.x = dy * 1.0; + normal.y = - dx; + normal.z = dy * 0.0; + + prevNormal.copy( normal ); + + normal.normalize(); + + initNormals.push( normal.x, normal.y, normal.z ); + + break; + + case ( points.length - 1 ): // special handling for last Vertex on path + + initNormals.push( prevNormal.x, prevNormal.y, prevNormal.z ); + + break; + + default: // default handling for all vertices in between + + dx = points[ j + 1 ].x - points[ j ].x; + dy = points[ j + 1 ].y - points[ j ].y; + + normal.x = dy * 1.0; + normal.y = - dx; + normal.z = dy * 0.0; + + curNormal.copy( normal ); + + normal.x += prevNormal.x; + normal.y += prevNormal.y; + normal.z += prevNormal.z; + + normal.normalize(); + + initNormals.push( normal.x, normal.y, normal.z ); + + prevNormal.copy( curNormal ); + + } + + } + + // generate vertices, uvs and normals + + for ( let i = 0; i <= segments; i ++ ) { + + const phi = phiStart + i * inverseSegments * phiLength; + + const sin = Math.sin( phi ); + const cos = Math.cos( phi ); + + for ( let j = 0; j <= ( points.length - 1 ); j ++ ) { + + // vertex + + vertex.x = points[ j ].x * sin; + vertex.y = points[ j ].y; + vertex.z = points[ j ].x * cos; + + vertices.push( vertex.x, vertex.y, vertex.z ); + + // uv + + uv.x = i / segments; + uv.y = j / ( points.length - 1 ); + + uvs.push( uv.x, uv.y ); + + // normal + + const x = initNormals[ 3 * j + 0 ] * sin; + const y = initNormals[ 3 * j + 1 ]; + const z = initNormals[ 3 * j + 0 ] * cos; + + normals.push( x, y, z ); + + } + + } + + // indices + + for ( let i = 0; i < segments; i ++ ) { + + for ( let j = 0; j < ( points.length - 1 ); j ++ ) { + + const base = j + i * points.length; + + const a = base; + const b = base + points.length; + const c = base + points.length + 1; + const d = base + 1; + + // faces + + indices.push( a, b, d ); + indices.push( c, d, b ); + + } + + } + + // build geometry + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + static fromJSON( data ) { + + return new LatheGeometry( data.points, data.segments, data.phiStart, data.phiLength ); + + } + +} + +class CapsuleGeometry extends LatheGeometry { + + constructor( radius = 1, length = 1, capSegments = 4, radialSegments = 8 ) { + + const path = new Path(); + path.absarc( 0, - length / 2, radius, Math.PI * 1.5, 0 ); + path.absarc( 0, length / 2, radius, 0, Math.PI * 0.5 ); + + super( path.getPoints( capSegments ), radialSegments ); + + this.type = 'CapsuleGeometry'; + + this.parameters = { + radius: radius, + length: length, + capSegments: capSegments, + radialSegments: radialSegments, + }; + + } + + static fromJSON( data ) { + + return new CapsuleGeometry( data.radius, data.length, data.capSegments, data.radialSegments ); + + } + +} + +class CircleGeometry extends BufferGeometry { + + constructor( radius = 1, segments = 32, thetaStart = 0, thetaLength = Math.PI * 2 ) { + + super(); + + this.type = 'CircleGeometry'; + + this.parameters = { + radius: radius, + segments: segments, + thetaStart: thetaStart, + thetaLength: thetaLength + }; + + segments = Math.max( 3, segments ); + + // buffers + + const indices = []; + const vertices = []; + const normals = []; + const uvs = []; + + // helper variables + + const vertex = new Vector3(); + const uv = new Vector2(); + + // center point + + vertices.push( 0, 0, 0 ); + normals.push( 0, 0, 1 ); + uvs.push( 0.5, 0.5 ); + + for ( let s = 0, i = 3; s <= segments; s ++, i += 3 ) { + + const segment = thetaStart + s / segments * thetaLength; + + // vertex + + vertex.x = radius * Math.cos( segment ); + vertex.y = radius * Math.sin( segment ); + + vertices.push( vertex.x, vertex.y, vertex.z ); + + // normal + + normals.push( 0, 0, 1 ); + + // uvs + + uv.x = ( vertices[ i ] / radius + 1 ) / 2; + uv.y = ( vertices[ i + 1 ] / radius + 1 ) / 2; + + uvs.push( uv.x, uv.y ); + + } + + // indices + + for ( let i = 1; i <= segments; i ++ ) { + + indices.push( i, i + 1, 0 ); + + } + + // build geometry + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + static fromJSON( data ) { + + return new CircleGeometry( data.radius, data.segments, data.thetaStart, data.thetaLength ); + + } + +} + +class CylinderGeometry extends BufferGeometry { + + constructor( radiusTop = 1, radiusBottom = 1, height = 1, radialSegments = 32, heightSegments = 1, openEnded = false, thetaStart = 0, thetaLength = Math.PI * 2 ) { + + super(); + + this.type = 'CylinderGeometry'; + + this.parameters = { + radiusTop: radiusTop, + radiusBottom: radiusBottom, + height: height, + radialSegments: radialSegments, + heightSegments: heightSegments, + openEnded: openEnded, + thetaStart: thetaStart, + thetaLength: thetaLength + }; + + const scope = this; + + radialSegments = Math.floor( radialSegments ); + heightSegments = Math.floor( heightSegments ); + + // buffers + + const indices = []; + const vertices = []; + const normals = []; + const uvs = []; + + // helper variables + + let index = 0; + const indexArray = []; + const halfHeight = height / 2; + let groupStart = 0; + + // generate geometry + + generateTorso(); + + if ( openEnded === false ) { + + if ( radiusTop > 0 ) generateCap( true ); + if ( radiusBottom > 0 ) generateCap( false ); + + } + + // build geometry + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + + function generateTorso() { + + const normal = new Vector3(); + const vertex = new Vector3(); + + let groupCount = 0; + + // this will be used to calculate the normal + const slope = ( radiusBottom - radiusTop ) / height; + + // generate vertices, normals and uvs + + for ( let y = 0; y <= heightSegments; y ++ ) { + + const indexRow = []; + + const v = y / heightSegments; + + // calculate the radius of the current row + + const radius = v * ( radiusBottom - radiusTop ) + radiusTop; + + for ( let x = 0; x <= radialSegments; x ++ ) { + + const u = x / radialSegments; + + const theta = u * thetaLength + thetaStart; + + const sinTheta = Math.sin( theta ); + const cosTheta = Math.cos( theta ); + + // vertex + + vertex.x = radius * sinTheta; + vertex.y = - v * height + halfHeight; + vertex.z = radius * cosTheta; + vertices.push( vertex.x, vertex.y, vertex.z ); + + // normal + + normal.set( sinTheta, slope, cosTheta ).normalize(); + normals.push( normal.x, normal.y, normal.z ); + + // uv + + uvs.push( u, 1 - v ); + + // save index of vertex in respective row + + indexRow.push( index ++ ); + + } + + // now save vertices of the row in our index array + + indexArray.push( indexRow ); + + } + + // generate indices + + for ( let x = 0; x < radialSegments; x ++ ) { + + for ( let y = 0; y < heightSegments; y ++ ) { + + // we use the index array to access the correct indices + + const a = indexArray[ y ][ x ]; + const b = indexArray[ y + 1 ][ x ]; + const c = indexArray[ y + 1 ][ x + 1 ]; + const d = indexArray[ y ][ x + 1 ]; + + // faces + + indices.push( a, b, d ); + indices.push( b, c, d ); + + // update group counter + + groupCount += 6; + + } + + } + + // add a group to the geometry. this will ensure multi material support + + scope.addGroup( groupStart, groupCount, 0 ); + + // calculate new start value for groups + + groupStart += groupCount; + + } + + function generateCap( top ) { + + // save the index of the first center vertex + const centerIndexStart = index; + + const uv = new Vector2(); + const vertex = new Vector3(); + + let groupCount = 0; + + const radius = ( top === true ) ? radiusTop : radiusBottom; + const sign = ( top === true ) ? 1 : - 1; + + // first we generate the center vertex data of the cap. + // because the geometry needs one set of uvs per face, + // we must generate a center vertex per face/segment + + for ( let x = 1; x <= radialSegments; x ++ ) { + + // vertex + + vertices.push( 0, halfHeight * sign, 0 ); + + // normal + + normals.push( 0, sign, 0 ); + + // uv + + uvs.push( 0.5, 0.5 ); + + // increase index + + index ++; + + } + + // save the index of the last center vertex + const centerIndexEnd = index; + + // now we generate the surrounding vertices, normals and uvs + + for ( let x = 0; x <= radialSegments; x ++ ) { + + const u = x / radialSegments; + const theta = u * thetaLength + thetaStart; + + const cosTheta = Math.cos( theta ); + const sinTheta = Math.sin( theta ); + + // vertex + + vertex.x = radius * sinTheta; + vertex.y = halfHeight * sign; + vertex.z = radius * cosTheta; + vertices.push( vertex.x, vertex.y, vertex.z ); + + // normal + + normals.push( 0, sign, 0 ); + + // uv + + uv.x = ( cosTheta * 0.5 ) + 0.5; + uv.y = ( sinTheta * 0.5 * sign ) + 0.5; + uvs.push( uv.x, uv.y ); + + // increase index + + index ++; + + } + + // generate indices + + for ( let x = 0; x < radialSegments; x ++ ) { + + const c = centerIndexStart + x; + const i = centerIndexEnd + x; + + if ( top === true ) { + + // face top + + indices.push( i, i + 1, c ); + + } else { + + // face bottom + + indices.push( i + 1, i, c ); + + } + + groupCount += 3; + + } + + // add a group to the geometry. this will ensure multi material support + + scope.addGroup( groupStart, groupCount, top === true ? 1 : 2 ); + + // calculate new start value for groups + + groupStart += groupCount; + + } + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + static fromJSON( data ) { + + return new CylinderGeometry( data.radiusTop, data.radiusBottom, data.height, data.radialSegments, data.heightSegments, data.openEnded, data.thetaStart, data.thetaLength ); + + } + +} + +class ConeGeometry extends CylinderGeometry { + + constructor( radius = 1, height = 1, radialSegments = 32, heightSegments = 1, openEnded = false, thetaStart = 0, thetaLength = Math.PI * 2 ) { + + super( 0, radius, height, radialSegments, heightSegments, openEnded, thetaStart, thetaLength ); + + this.type = 'ConeGeometry'; + + this.parameters = { + radius: radius, + height: height, + radialSegments: radialSegments, + heightSegments: heightSegments, + openEnded: openEnded, + thetaStart: thetaStart, + thetaLength: thetaLength + }; + + } + + static fromJSON( data ) { + + return new ConeGeometry( data.radius, data.height, data.radialSegments, data.heightSegments, data.openEnded, data.thetaStart, data.thetaLength ); + + } + +} + +class PolyhedronGeometry extends BufferGeometry { + + constructor( vertices = [], indices = [], radius = 1, detail = 0 ) { + + super(); + + this.type = 'PolyhedronGeometry'; + + this.parameters = { + vertices: vertices, + indices: indices, + radius: radius, + detail: detail + }; + + // default buffer data + + const vertexBuffer = []; + const uvBuffer = []; + + // the subdivision creates the vertex buffer data + + subdivide( detail ); + + // all vertices should lie on a conceptual sphere with a given radius + + applyRadius( radius ); + + // finally, create the uv data + + generateUVs(); + + // build non-indexed geometry + + this.setAttribute( 'position', new Float32BufferAttribute( vertexBuffer, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( vertexBuffer.slice(), 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvBuffer, 2 ) ); + + if ( detail === 0 ) { + + this.computeVertexNormals(); // flat normals + + } else { + + this.normalizeNormals(); // smooth normals + + } + + // helper functions + + function subdivide( detail ) { + + const a = new Vector3(); + const b = new Vector3(); + const c = new Vector3(); + + // iterate over all faces and apply a subdivision with the given detail value + + for ( let i = 0; i < indices.length; i += 3 ) { + + // get the vertices of the face + + getVertexByIndex( indices[ i + 0 ], a ); + getVertexByIndex( indices[ i + 1 ], b ); + getVertexByIndex( indices[ i + 2 ], c ); + + // perform subdivision + + subdivideFace( a, b, c, detail ); + + } + + } + + function subdivideFace( a, b, c, detail ) { + + const cols = detail + 1; + + // we use this multidimensional array as a data structure for creating the subdivision + + const v = []; + + // construct all of the vertices for this subdivision + + for ( let i = 0; i <= cols; i ++ ) { + + v[ i ] = []; + + const aj = a.clone().lerp( c, i / cols ); + const bj = b.clone().lerp( c, i / cols ); + + const rows = cols - i; + + for ( let j = 0; j <= rows; j ++ ) { + + if ( j === 0 && i === cols ) { + + v[ i ][ j ] = aj; + + } else { + + v[ i ][ j ] = aj.clone().lerp( bj, j / rows ); + + } + + } + + } + + // construct all of the faces + + for ( let i = 0; i < cols; i ++ ) { + + for ( let j = 0; j < 2 * ( cols - i ) - 1; j ++ ) { + + const k = Math.floor( j / 2 ); + + if ( j % 2 === 0 ) { + + pushVertex( v[ i ][ k + 1 ] ); + pushVertex( v[ i + 1 ][ k ] ); + pushVertex( v[ i ][ k ] ); + + } else { + + pushVertex( v[ i ][ k + 1 ] ); + pushVertex( v[ i + 1 ][ k + 1 ] ); + pushVertex( v[ i + 1 ][ k ] ); + + } + + } + + } + + } + + function applyRadius( radius ) { + + const vertex = new Vector3(); + + // iterate over the entire buffer and apply the radius to each vertex + + for ( let i = 0; i < vertexBuffer.length; i += 3 ) { + + vertex.x = vertexBuffer[ i + 0 ]; + vertex.y = vertexBuffer[ i + 1 ]; + vertex.z = vertexBuffer[ i + 2 ]; + + vertex.normalize().multiplyScalar( radius ); + + vertexBuffer[ i + 0 ] = vertex.x; + vertexBuffer[ i + 1 ] = vertex.y; + vertexBuffer[ i + 2 ] = vertex.z; + + } + + } + + function generateUVs() { + + const vertex = new Vector3(); + + for ( let i = 0; i < vertexBuffer.length; i += 3 ) { + + vertex.x = vertexBuffer[ i + 0 ]; + vertex.y = vertexBuffer[ i + 1 ]; + vertex.z = vertexBuffer[ i + 2 ]; + + const u = azimuth( vertex ) / 2 / Math.PI + 0.5; + const v = inclination( vertex ) / Math.PI + 0.5; + uvBuffer.push( u, 1 - v ); + + } + + correctUVs(); + + correctSeam(); + + } + + function correctSeam() { + + // handle case when face straddles the seam, see #3269 + + for ( let i = 0; i < uvBuffer.length; i += 6 ) { + + // uv data of a single face + + const x0 = uvBuffer[ i + 0 ]; + const x1 = uvBuffer[ i + 2 ]; + const x2 = uvBuffer[ i + 4 ]; + + const max = Math.max( x0, x1, x2 ); + const min = Math.min( x0, x1, x2 ); + + // 0.9 is somewhat arbitrary + + if ( max > 0.9 && min < 0.1 ) { + + if ( x0 < 0.2 ) uvBuffer[ i + 0 ] += 1; + if ( x1 < 0.2 ) uvBuffer[ i + 2 ] += 1; + if ( x2 < 0.2 ) uvBuffer[ i + 4 ] += 1; + + } + + } + + } + + function pushVertex( vertex ) { + + vertexBuffer.push( vertex.x, vertex.y, vertex.z ); + + } + + function getVertexByIndex( index, vertex ) { + + const stride = index * 3; + + vertex.x = vertices[ stride + 0 ]; + vertex.y = vertices[ stride + 1 ]; + vertex.z = vertices[ stride + 2 ]; + + } + + function correctUVs() { + + const a = new Vector3(); + const b = new Vector3(); + const c = new Vector3(); + + const centroid = new Vector3(); + + const uvA = new Vector2(); + const uvB = new Vector2(); + const uvC = new Vector2(); + + for ( let i = 0, j = 0; i < vertexBuffer.length; i += 9, j += 6 ) { + + a.set( vertexBuffer[ i + 0 ], vertexBuffer[ i + 1 ], vertexBuffer[ i + 2 ] ); + b.set( vertexBuffer[ i + 3 ], vertexBuffer[ i + 4 ], vertexBuffer[ i + 5 ] ); + c.set( vertexBuffer[ i + 6 ], vertexBuffer[ i + 7 ], vertexBuffer[ i + 8 ] ); + + uvA.set( uvBuffer[ j + 0 ], uvBuffer[ j + 1 ] ); + uvB.set( uvBuffer[ j + 2 ], uvBuffer[ j + 3 ] ); + uvC.set( uvBuffer[ j + 4 ], uvBuffer[ j + 5 ] ); + + centroid.copy( a ).add( b ).add( c ).divideScalar( 3 ); + + const azi = azimuth( centroid ); + + correctUV( uvA, j + 0, a, azi ); + correctUV( uvB, j + 2, b, azi ); + correctUV( uvC, j + 4, c, azi ); + + } + + } + + function correctUV( uv, stride, vector, azimuth ) { + + if ( ( azimuth < 0 ) && ( uv.x === 1 ) ) { + + uvBuffer[ stride ] = uv.x - 1; + + } + + if ( ( vector.x === 0 ) && ( vector.z === 0 ) ) { + + uvBuffer[ stride ] = azimuth / 2 / Math.PI + 0.5; + + } + + } + + // Angle around the Y axis, counter-clockwise when looking from above. + + function azimuth( vector ) { + + return Math.atan2( vector.z, - vector.x ); + + } + + + // Angle above the XZ plane. + + function inclination( vector ) { + + return Math.atan2( - vector.y, Math.sqrt( ( vector.x * vector.x ) + ( vector.z * vector.z ) ) ); + + } + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + static fromJSON( data ) { + + return new PolyhedronGeometry( data.vertices, data.indices, data.radius, data.details ); + + } + +} + +class DodecahedronGeometry extends PolyhedronGeometry { + + constructor( radius = 1, detail = 0 ) { + + const t = ( 1 + Math.sqrt( 5 ) ) / 2; + const r = 1 / t; + + const vertices = [ + + // (±1, ±1, ±1) + - 1, - 1, - 1, - 1, - 1, 1, + - 1, 1, - 1, - 1, 1, 1, + 1, - 1, - 1, 1, - 1, 1, + 1, 1, - 1, 1, 1, 1, + + // (0, ±1/φ, ±φ) + 0, - r, - t, 0, - r, t, + 0, r, - t, 0, r, t, + + // (±1/φ, ±φ, 0) + - r, - t, 0, - r, t, 0, + r, - t, 0, r, t, 0, + + // (±φ, 0, ±1/φ) + - t, 0, - r, t, 0, - r, + - t, 0, r, t, 0, r + ]; + + const indices = [ + 3, 11, 7, 3, 7, 15, 3, 15, 13, + 7, 19, 17, 7, 17, 6, 7, 6, 15, + 17, 4, 8, 17, 8, 10, 17, 10, 6, + 8, 0, 16, 8, 16, 2, 8, 2, 10, + 0, 12, 1, 0, 1, 18, 0, 18, 16, + 6, 10, 2, 6, 2, 13, 6, 13, 15, + 2, 16, 18, 2, 18, 3, 2, 3, 13, + 18, 1, 9, 18, 9, 11, 18, 11, 3, + 4, 14, 12, 4, 12, 0, 4, 0, 8, + 11, 9, 5, 11, 5, 19, 11, 19, 7, + 19, 5, 14, 19, 14, 4, 19, 4, 17, + 1, 12, 14, 1, 14, 5, 1, 5, 9 + ]; + + super( vertices, indices, radius, detail ); + + this.type = 'DodecahedronGeometry'; + + this.parameters = { + radius: radius, + detail: detail + }; + + } + + static fromJSON( data ) { + + return new DodecahedronGeometry( data.radius, data.detail ); + + } + +} + +const _v0 = /*@__PURE__*/ new Vector3(); +const _v1$1 = /*@__PURE__*/ new Vector3(); +const _normal$1 = /*@__PURE__*/ new Vector3(); +const _triangle = /*@__PURE__*/ new Triangle(); + +class EdgesGeometry extends BufferGeometry { + + constructor( geometry = null, thresholdAngle = 1 ) { + + super(); + + this.type = 'EdgesGeometry'; + + this.parameters = { + geometry: geometry, + thresholdAngle: thresholdAngle + }; + + if ( geometry !== null ) { + + const precisionPoints = 4; + const precision = Math.pow( 10, precisionPoints ); + const thresholdDot = Math.cos( DEG2RAD * thresholdAngle ); + + const indexAttr = geometry.getIndex(); + const positionAttr = geometry.getAttribute( 'position' ); + const indexCount = indexAttr ? indexAttr.count : positionAttr.count; + + const indexArr = [ 0, 0, 0 ]; + const vertKeys = [ 'a', 'b', 'c' ]; + const hashes = new Array( 3 ); + + const edgeData = {}; + const vertices = []; + for ( let i = 0; i < indexCount; i += 3 ) { + + if ( indexAttr ) { + + indexArr[ 0 ] = indexAttr.getX( i ); + indexArr[ 1 ] = indexAttr.getX( i + 1 ); + indexArr[ 2 ] = indexAttr.getX( i + 2 ); + + } else { + + indexArr[ 0 ] = i; + indexArr[ 1 ] = i + 1; + indexArr[ 2 ] = i + 2; + + } + + const { a, b, c } = _triangle; + a.fromBufferAttribute( positionAttr, indexArr[ 0 ] ); + b.fromBufferAttribute( positionAttr, indexArr[ 1 ] ); + c.fromBufferAttribute( positionAttr, indexArr[ 2 ] ); + _triangle.getNormal( _normal$1 ); + + // create hashes for the edge from the vertices + hashes[ 0 ] = `${ Math.round( a.x * precision ) },${ Math.round( a.y * precision ) },${ Math.round( a.z * precision ) }`; + hashes[ 1 ] = `${ Math.round( b.x * precision ) },${ Math.round( b.y * precision ) },${ Math.round( b.z * precision ) }`; + hashes[ 2 ] = `${ Math.round( c.x * precision ) },${ Math.round( c.y * precision ) },${ Math.round( c.z * precision ) }`; + + // skip degenerate triangles + if ( hashes[ 0 ] === hashes[ 1 ] || hashes[ 1 ] === hashes[ 2 ] || hashes[ 2 ] === hashes[ 0 ] ) { + + continue; + + } + + // iterate over every edge + for ( let j = 0; j < 3; j ++ ) { + + // get the first and next vertex making up the edge + const jNext = ( j + 1 ) % 3; + const vecHash0 = hashes[ j ]; + const vecHash1 = hashes[ jNext ]; + const v0 = _triangle[ vertKeys[ j ] ]; + const v1 = _triangle[ vertKeys[ jNext ] ]; + + const hash = `${ vecHash0 }_${ vecHash1 }`; + const reverseHash = `${ vecHash1 }_${ vecHash0 }`; + + if ( reverseHash in edgeData && edgeData[ reverseHash ] ) { + + // if we found a sibling edge add it into the vertex array if + // it meets the angle threshold and delete the edge from the map. + if ( _normal$1.dot( edgeData[ reverseHash ].normal ) <= thresholdDot ) { + + vertices.push( v0.x, v0.y, v0.z ); + vertices.push( v1.x, v1.y, v1.z ); + + } + + edgeData[ reverseHash ] = null; + + } else if ( ! ( hash in edgeData ) ) { + + // if we've already got an edge here then skip adding a new one + edgeData[ hash ] = { + + index0: indexArr[ j ], + index1: indexArr[ jNext ], + normal: _normal$1.clone(), + + }; + + } + + } + + } + + // iterate over all remaining, unmatched edges and add them to the vertex array + for ( const key in edgeData ) { + + if ( edgeData[ key ] ) { + + const { index0, index1 } = edgeData[ key ]; + _v0.fromBufferAttribute( positionAttr, index0 ); + _v1$1.fromBufferAttribute( positionAttr, index1 ); + + vertices.push( _v0.x, _v0.y, _v0.z ); + vertices.push( _v1$1.x, _v1$1.y, _v1$1.z ); + + } + + } + + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + + } + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + +} + +class Shape extends Path { + + constructor( points ) { + + super( points ); + + this.uuid = generateUUID(); + + this.type = 'Shape'; + + this.holes = []; + + } + + getPointsHoles( divisions ) { + + const holesPts = []; + + for ( let i = 0, l = this.holes.length; i < l; i ++ ) { + + holesPts[ i ] = this.holes[ i ].getPoints( divisions ); + + } + + return holesPts; + + } + + // get points of shape and holes (keypoints based on segments parameter) + + extractPoints( divisions ) { + + return { + + shape: this.getPoints( divisions ), + holes: this.getPointsHoles( divisions ) + + }; + + } + + copy( source ) { + + super.copy( source ); + + this.holes = []; + + for ( let i = 0, l = source.holes.length; i < l; i ++ ) { + + const hole = source.holes[ i ]; + + this.holes.push( hole.clone() ); + + } + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.uuid = this.uuid; + data.holes = []; + + for ( let i = 0, l = this.holes.length; i < l; i ++ ) { + + const hole = this.holes[ i ]; + data.holes.push( hole.toJSON() ); + + } + + return data; + + } + + fromJSON( json ) { + + super.fromJSON( json ); + + this.uuid = json.uuid; + this.holes = []; + + for ( let i = 0, l = json.holes.length; i < l; i ++ ) { + + const hole = json.holes[ i ]; + this.holes.push( new Path().fromJSON( hole ) ); + + } + + return this; + + } + +} + +/** + * Port from https://github.com/mapbox/earcut (v2.2.4) + */ + +const Earcut = { + + triangulate: function ( data, holeIndices, dim = 2 ) { + + const hasHoles = holeIndices && holeIndices.length; + const outerLen = hasHoles ? holeIndices[ 0 ] * dim : data.length; + let outerNode = linkedList( data, 0, outerLen, dim, true ); + const triangles = []; + + if ( ! outerNode || outerNode.next === outerNode.prev ) return triangles; + + let minX, minY, maxX, maxY, x, y, invSize; + + if ( hasHoles ) outerNode = eliminateHoles( data, holeIndices, outerNode, dim ); + + // if the shape is not too simple, we'll use z-order curve hash later; calculate polygon bbox + if ( data.length > 80 * dim ) { + + minX = maxX = data[ 0 ]; + minY = maxY = data[ 1 ]; + + for ( let i = dim; i < outerLen; i += dim ) { + + x = data[ i ]; + y = data[ i + 1 ]; + if ( x < minX ) minX = x; + if ( y < minY ) minY = y; + if ( x > maxX ) maxX = x; + if ( y > maxY ) maxY = y; + + } + + // minX, minY and invSize are later used to transform coords into integers for z-order calculation + invSize = Math.max( maxX - minX, maxY - minY ); + invSize = invSize !== 0 ? 32767 / invSize : 0; + + } + + earcutLinked( outerNode, triangles, dim, minX, minY, invSize, 0 ); + + return triangles; + + } + +}; + +// create a circular doubly linked list from polygon points in the specified winding order +function linkedList( data, start, end, dim, clockwise ) { + + let i, last; + + if ( clockwise === ( signedArea( data, start, end, dim ) > 0 ) ) { + + for ( i = start; i < end; i += dim ) last = insertNode( i, data[ i ], data[ i + 1 ], last ); + + } else { + + for ( i = end - dim; i >= start; i -= dim ) last = insertNode( i, data[ i ], data[ i + 1 ], last ); + + } + + if ( last && equals$1( last, last.next ) ) { + + removeNode( last ); + last = last.next; + + } + + return last; + +} + +// eliminate colinear or duplicate points +function filterPoints( start, end ) { + + if ( ! start ) return start; + if ( ! end ) end = start; + + let p = start, + again; + do { + + again = false; + + if ( ! p.steiner && ( equals$1( p, p.next ) || area( p.prev, p, p.next ) === 0 ) ) { + + removeNode( p ); + p = end = p.prev; + if ( p === p.next ) break; + again = true; + + } else { + + p = p.next; + + } + + } while ( again || p !== end ); + + return end; + +} + +// main ear slicing loop which triangulates a polygon (given as a linked list) +function earcutLinked( ear, triangles, dim, minX, minY, invSize, pass ) { + + if ( ! ear ) return; + + // interlink polygon nodes in z-order + if ( ! pass && invSize ) indexCurve( ear, minX, minY, invSize ); + + let stop = ear, + prev, next; + + // iterate through ears, slicing them one by one + while ( ear.prev !== ear.next ) { + + prev = ear.prev; + next = ear.next; + + if ( invSize ? isEarHashed( ear, minX, minY, invSize ) : isEar( ear ) ) { + + // cut off the triangle + triangles.push( prev.i / dim | 0 ); + triangles.push( ear.i / dim | 0 ); + triangles.push( next.i / dim | 0 ); + + removeNode( ear ); + + // skipping the next vertex leads to less sliver triangles + ear = next.next; + stop = next.next; + + continue; + + } + + ear = next; + + // if we looped through the whole remaining polygon and can't find any more ears + if ( ear === stop ) { + + // try filtering points and slicing again + if ( ! pass ) { + + earcutLinked( filterPoints( ear ), triangles, dim, minX, minY, invSize, 1 ); + + // if this didn't work, try curing all small self-intersections locally + + } else if ( pass === 1 ) { + + ear = cureLocalIntersections( filterPoints( ear ), triangles, dim ); + earcutLinked( ear, triangles, dim, minX, minY, invSize, 2 ); + + // as a last resort, try splitting the remaining polygon into two + + } else if ( pass === 2 ) { + + splitEarcut( ear, triangles, dim, minX, minY, invSize ); + + } + + break; + + } + + } + +} + +// check whether a polygon node forms a valid ear with adjacent nodes +function isEar( ear ) { + + const a = ear.prev, + b = ear, + c = ear.next; + + if ( area( a, b, c ) >= 0 ) return false; // reflex, can't be an ear + + // now make sure we don't have other points inside the potential ear + const ax = a.x, bx = b.x, cx = c.x, ay = a.y, by = b.y, cy = c.y; + + // triangle bbox; min & max are calculated like this for speed + const x0 = ax < bx ? ( ax < cx ? ax : cx ) : ( bx < cx ? bx : cx ), + y0 = ay < by ? ( ay < cy ? ay : cy ) : ( by < cy ? by : cy ), + x1 = ax > bx ? ( ax > cx ? ax : cx ) : ( bx > cx ? bx : cx ), + y1 = ay > by ? ( ay > cy ? ay : cy ) : ( by > cy ? by : cy ); + + let p = c.next; + while ( p !== a ) { + + if ( p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 && + pointInTriangle( ax, ay, bx, by, cx, cy, p.x, p.y ) && + area( p.prev, p, p.next ) >= 0 ) return false; + p = p.next; + + } + + return true; + +} + +function isEarHashed( ear, minX, minY, invSize ) { + + const a = ear.prev, + b = ear, + c = ear.next; + + if ( area( a, b, c ) >= 0 ) return false; // reflex, can't be an ear + + const ax = a.x, bx = b.x, cx = c.x, ay = a.y, by = b.y, cy = c.y; + + // triangle bbox; min & max are calculated like this for speed + const x0 = ax < bx ? ( ax < cx ? ax : cx ) : ( bx < cx ? bx : cx ), + y0 = ay < by ? ( ay < cy ? ay : cy ) : ( by < cy ? by : cy ), + x1 = ax > bx ? ( ax > cx ? ax : cx ) : ( bx > cx ? bx : cx ), + y1 = ay > by ? ( ay > cy ? ay : cy ) : ( by > cy ? by : cy ); + + // z-order range for the current triangle bbox; + const minZ = zOrder( x0, y0, minX, minY, invSize ), + maxZ = zOrder( x1, y1, minX, minY, invSize ); + + let p = ear.prevZ, + n = ear.nextZ; + + // look for points inside the triangle in both directions + while ( p && p.z >= minZ && n && n.z <= maxZ ) { + + if ( p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 && p !== a && p !== c && + pointInTriangle( ax, ay, bx, by, cx, cy, p.x, p.y ) && area( p.prev, p, p.next ) >= 0 ) return false; + p = p.prevZ; + + if ( n.x >= x0 && n.x <= x1 && n.y >= y0 && n.y <= y1 && n !== a && n !== c && + pointInTriangle( ax, ay, bx, by, cx, cy, n.x, n.y ) && area( n.prev, n, n.next ) >= 0 ) return false; + n = n.nextZ; + + } + + // look for remaining points in decreasing z-order + while ( p && p.z >= minZ ) { + + if ( p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 && p !== a && p !== c && + pointInTriangle( ax, ay, bx, by, cx, cy, p.x, p.y ) && area( p.prev, p, p.next ) >= 0 ) return false; + p = p.prevZ; + + } + + // look for remaining points in increasing z-order + while ( n && n.z <= maxZ ) { + + if ( n.x >= x0 && n.x <= x1 && n.y >= y0 && n.y <= y1 && n !== a && n !== c && + pointInTriangle( ax, ay, bx, by, cx, cy, n.x, n.y ) && area( n.prev, n, n.next ) >= 0 ) return false; + n = n.nextZ; + + } + + return true; + +} + +// go through all polygon nodes and cure small local self-intersections +function cureLocalIntersections( start, triangles, dim ) { + + let p = start; + do { + + const a = p.prev, + b = p.next.next; + + if ( ! equals$1( a, b ) && intersects( a, p, p.next, b ) && locallyInside( a, b ) && locallyInside( b, a ) ) { + + triangles.push( a.i / dim | 0 ); + triangles.push( p.i / dim | 0 ); + triangles.push( b.i / dim | 0 ); + + // remove two nodes involved + removeNode( p ); + removeNode( p.next ); + + p = start = b; + + } + + p = p.next; + + } while ( p !== start ); + + return filterPoints( p ); + +} + +// try splitting polygon into two and triangulate them independently +function splitEarcut( start, triangles, dim, minX, minY, invSize ) { + + // look for a valid diagonal that divides the polygon into two + let a = start; + do { + + let b = a.next.next; + while ( b !== a.prev ) { + + if ( a.i !== b.i && isValidDiagonal( a, b ) ) { + + // split the polygon in two by the diagonal + let c = splitPolygon( a, b ); + + // filter colinear points around the cuts + a = filterPoints( a, a.next ); + c = filterPoints( c, c.next ); + + // run earcut on each half + earcutLinked( a, triangles, dim, minX, minY, invSize, 0 ); + earcutLinked( c, triangles, dim, minX, minY, invSize, 0 ); + return; + + } + + b = b.next; + + } + + a = a.next; + + } while ( a !== start ); + +} + +// link every hole into the outer loop, producing a single-ring polygon without holes +function eliminateHoles( data, holeIndices, outerNode, dim ) { + + const queue = []; + let i, len, start, end, list; + + for ( i = 0, len = holeIndices.length; i < len; i ++ ) { + + start = holeIndices[ i ] * dim; + end = i < len - 1 ? holeIndices[ i + 1 ] * dim : data.length; + list = linkedList( data, start, end, dim, false ); + if ( list === list.next ) list.steiner = true; + queue.push( getLeftmost( list ) ); + + } + + queue.sort( compareX ); + + // process holes from left to right + for ( i = 0; i < queue.length; i ++ ) { + + outerNode = eliminateHole( queue[ i ], outerNode ); + + } + + return outerNode; + +} + +function compareX( a, b ) { + + return a.x - b.x; + +} + +// find a bridge between vertices that connects hole with an outer ring and link it +function eliminateHole( hole, outerNode ) { + + const bridge = findHoleBridge( hole, outerNode ); + if ( ! bridge ) { + + return outerNode; + + } + + const bridgeReverse = splitPolygon( bridge, hole ); + + // filter collinear points around the cuts + filterPoints( bridgeReverse, bridgeReverse.next ); + return filterPoints( bridge, bridge.next ); + +} + +// David Eberly's algorithm for finding a bridge between hole and outer polygon +function findHoleBridge( hole, outerNode ) { + + let p = outerNode, + qx = - Infinity, + m; + + const hx = hole.x, hy = hole.y; + + // find a segment intersected by a ray from the hole's leftmost point to the left; + // segment's endpoint with lesser x will be potential connection point + do { + + if ( hy <= p.y && hy >= p.next.y && p.next.y !== p.y ) { + + const x = p.x + ( hy - p.y ) * ( p.next.x - p.x ) / ( p.next.y - p.y ); + if ( x <= hx && x > qx ) { + + qx = x; + m = p.x < p.next.x ? p : p.next; + if ( x === hx ) return m; // hole touches outer segment; pick leftmost endpoint + + } + + } + + p = p.next; + + } while ( p !== outerNode ); + + if ( ! m ) return null; + + // look for points inside the triangle of hole point, segment intersection and endpoint; + // if there are no points found, we have a valid connection; + // otherwise choose the point of the minimum angle with the ray as connection point + + const stop = m, + mx = m.x, + my = m.y; + let tanMin = Infinity, tan; + + p = m; + + do { + + if ( hx >= p.x && p.x >= mx && hx !== p.x && + pointInTriangle( hy < my ? hx : qx, hy, mx, my, hy < my ? qx : hx, hy, p.x, p.y ) ) { + + tan = Math.abs( hy - p.y ) / ( hx - p.x ); // tangential + + if ( locallyInside( p, hole ) && ( tan < tanMin || ( tan === tanMin && ( p.x > m.x || ( p.x === m.x && sectorContainsSector( m, p ) ) ) ) ) ) { + + m = p; + tanMin = tan; + + } + + } + + p = p.next; + + } while ( p !== stop ); + + return m; + +} + +// whether sector in vertex m contains sector in vertex p in the same coordinates +function sectorContainsSector( m, p ) { + + return area( m.prev, m, p.prev ) < 0 && area( p.next, m, m.next ) < 0; + +} + +// interlink polygon nodes in z-order +function indexCurve( start, minX, minY, invSize ) { + + let p = start; + do { + + if ( p.z === 0 ) p.z = zOrder( p.x, p.y, minX, minY, invSize ); + p.prevZ = p.prev; + p.nextZ = p.next; + p = p.next; + + } while ( p !== start ); + + p.prevZ.nextZ = null; + p.prevZ = null; + + sortLinked( p ); + +} + +// Simon Tatham's linked list merge sort algorithm +// http://www.chiark.greenend.org.uk/~sgtatham/algorithms/listsort.html +function sortLinked( list ) { + + let i, p, q, e, tail, numMerges, pSize, qSize, + inSize = 1; + + do { + + p = list; + list = null; + tail = null; + numMerges = 0; + + while ( p ) { + + numMerges ++; + q = p; + pSize = 0; + for ( i = 0; i < inSize; i ++ ) { + + pSize ++; + q = q.nextZ; + if ( ! q ) break; + + } + + qSize = inSize; + + while ( pSize > 0 || ( qSize > 0 && q ) ) { + + if ( pSize !== 0 && ( qSize === 0 || ! q || p.z <= q.z ) ) { + + e = p; + p = p.nextZ; + pSize --; + + } else { + + e = q; + q = q.nextZ; + qSize --; + + } + + if ( tail ) tail.nextZ = e; + else list = e; + + e.prevZ = tail; + tail = e; + + } + + p = q; + + } + + tail.nextZ = null; + inSize *= 2; + + } while ( numMerges > 1 ); + + return list; + +} + +// z-order of a point given coords and inverse of the longer side of data bbox +function zOrder( x, y, minX, minY, invSize ) { + + // coords are transformed into non-negative 15-bit integer range + x = ( x - minX ) * invSize | 0; + y = ( y - minY ) * invSize | 0; + + x = ( x | ( x << 8 ) ) & 0x00FF00FF; + x = ( x | ( x << 4 ) ) & 0x0F0F0F0F; + x = ( x | ( x << 2 ) ) & 0x33333333; + x = ( x | ( x << 1 ) ) & 0x55555555; + + y = ( y | ( y << 8 ) ) & 0x00FF00FF; + y = ( y | ( y << 4 ) ) & 0x0F0F0F0F; + y = ( y | ( y << 2 ) ) & 0x33333333; + y = ( y | ( y << 1 ) ) & 0x55555555; + + return x | ( y << 1 ); + +} + +// find the leftmost node of a polygon ring +function getLeftmost( start ) { + + let p = start, + leftmost = start; + do { + + if ( p.x < leftmost.x || ( p.x === leftmost.x && p.y < leftmost.y ) ) leftmost = p; + p = p.next; + + } while ( p !== start ); + + return leftmost; + +} + +// check if a point lies within a convex triangle +function pointInTriangle( ax, ay, bx, by, cx, cy, px, py ) { + + return ( cx - px ) * ( ay - py ) >= ( ax - px ) * ( cy - py ) && + ( ax - px ) * ( by - py ) >= ( bx - px ) * ( ay - py ) && + ( bx - px ) * ( cy - py ) >= ( cx - px ) * ( by - py ); + +} + +// check if a diagonal between two polygon nodes is valid (lies in polygon interior) +function isValidDiagonal( a, b ) { + + return a.next.i !== b.i && a.prev.i !== b.i && ! intersectsPolygon( a, b ) && // dones't intersect other edges + ( locallyInside( a, b ) && locallyInside( b, a ) && middleInside( a, b ) && // locally visible + ( area( a.prev, a, b.prev ) || area( a, b.prev, b ) ) || // does not create opposite-facing sectors + equals$1( a, b ) && area( a.prev, a, a.next ) > 0 && area( b.prev, b, b.next ) > 0 ); // special zero-length case + +} + +// signed area of a triangle +function area( p, q, r ) { + + return ( q.y - p.y ) * ( r.x - q.x ) - ( q.x - p.x ) * ( r.y - q.y ); + +} + +// check if two points are equal +function equals$1( p1, p2 ) { + + return p1.x === p2.x && p1.y === p2.y; + +} + +// check if two segments intersect +function intersects( p1, q1, p2, q2 ) { + + const o1 = sign$1( area( p1, q1, p2 ) ); + const o2 = sign$1( area( p1, q1, q2 ) ); + const o3 = sign$1( area( p2, q2, p1 ) ); + const o4 = sign$1( area( p2, q2, q1 ) ); + + if ( o1 !== o2 && o3 !== o4 ) return true; // general case + + if ( o1 === 0 && onSegment( p1, p2, q1 ) ) return true; // p1, q1 and p2 are collinear and p2 lies on p1q1 + if ( o2 === 0 && onSegment( p1, q2, q1 ) ) return true; // p1, q1 and q2 are collinear and q2 lies on p1q1 + if ( o3 === 0 && onSegment( p2, p1, q2 ) ) return true; // p2, q2 and p1 are collinear and p1 lies on p2q2 + if ( o4 === 0 && onSegment( p2, q1, q2 ) ) return true; // p2, q2 and q1 are collinear and q1 lies on p2q2 + + return false; + +} + +// for collinear points p, q, r, check if point q lies on segment pr +function onSegment( p, q, r ) { + + return q.x <= Math.max( p.x, r.x ) && q.x >= Math.min( p.x, r.x ) && q.y <= Math.max( p.y, r.y ) && q.y >= Math.min( p.y, r.y ); + +} + +function sign$1( num ) { + + return num > 0 ? 1 : num < 0 ? - 1 : 0; + +} + +// check if a polygon diagonal intersects any polygon segments +function intersectsPolygon( a, b ) { + + let p = a; + do { + + if ( p.i !== a.i && p.next.i !== a.i && p.i !== b.i && p.next.i !== b.i && + intersects( p, p.next, a, b ) ) return true; + p = p.next; + + } while ( p !== a ); + + return false; + +} + +// check if a polygon diagonal is locally inside the polygon +function locallyInside( a, b ) { + + return area( a.prev, a, a.next ) < 0 ? + area( a, b, a.next ) >= 0 && area( a, a.prev, b ) >= 0 : + area( a, b, a.prev ) < 0 || area( a, a.next, b ) < 0; + +} + +// check if the middle point of a polygon diagonal is inside the polygon +function middleInside( a, b ) { + + let p = a, + inside = false; + const px = ( a.x + b.x ) / 2, + py = ( a.y + b.y ) / 2; + do { + + if ( ( ( p.y > py ) !== ( p.next.y > py ) ) && p.next.y !== p.y && + ( px < ( p.next.x - p.x ) * ( py - p.y ) / ( p.next.y - p.y ) + p.x ) ) + inside = ! inside; + p = p.next; + + } while ( p !== a ); + + return inside; + +} + +// link two polygon vertices with a bridge; if the vertices belong to the same ring, it splits polygon into two; +// if one belongs to the outer ring and another to a hole, it merges it into a single ring +function splitPolygon( a, b ) { + + const a2 = new Node$1( a.i, a.x, a.y ), + b2 = new Node$1( b.i, b.x, b.y ), + an = a.next, + bp = b.prev; + + a.next = b; + b.prev = a; + + a2.next = an; + an.prev = a2; + + b2.next = a2; + a2.prev = b2; + + bp.next = b2; + b2.prev = bp; + + return b2; + +} + +// create a node and optionally link it with previous one (in a circular doubly linked list) +function insertNode( i, x, y, last ) { + + const p = new Node$1( i, x, y ); + + if ( ! last ) { + + p.prev = p; + p.next = p; + + } else { + + p.next = last.next; + p.prev = last; + last.next.prev = p; + last.next = p; + + } + + return p; + +} + +function removeNode( p ) { + + p.next.prev = p.prev; + p.prev.next = p.next; + + if ( p.prevZ ) p.prevZ.nextZ = p.nextZ; + if ( p.nextZ ) p.nextZ.prevZ = p.prevZ; + +} + +function Node$1( i, x, y ) { + + // vertex index in coordinates array + this.i = i; + + // vertex coordinates + this.x = x; + this.y = y; + + // previous and next vertex nodes in a polygon ring + this.prev = null; + this.next = null; + + // z-order curve value + this.z = 0; + + // previous and next nodes in z-order + this.prevZ = null; + this.nextZ = null; + + // indicates whether this is a steiner point + this.steiner = false; + +} + +function signedArea( data, start, end, dim ) { + + let sum = 0; + for ( let i = start, j = end - dim; i < end; i += dim ) { + + sum += ( data[ j ] - data[ i ] ) * ( data[ i + 1 ] + data[ j + 1 ] ); + j = i; + + } + + return sum; + +} + +class ShapeUtils { + + // calculate area of the contour polygon + + static area( contour ) { + + const n = contour.length; + let a = 0.0; + + for ( let p = n - 1, q = 0; q < n; p = q ++ ) { + + a += contour[ p ].x * contour[ q ].y - contour[ q ].x * contour[ p ].y; + + } + + return a * 0.5; + + } + + static isClockWise( pts ) { + + return ShapeUtils.area( pts ) < 0; + + } + + static triangulateShape( contour, holes ) { + + const vertices = []; // flat array of vertices like [ x0,y0, x1,y1, x2,y2, ... ] + const holeIndices = []; // array of hole indices + const faces = []; // final array of vertex indices like [ [ a,b,d ], [ b,c,d ] ] + + removeDupEndPts( contour ); + addContour( vertices, contour ); + + // + + let holeIndex = contour.length; + + holes.forEach( removeDupEndPts ); + + for ( let i = 0; i < holes.length; i ++ ) { + + holeIndices.push( holeIndex ); + holeIndex += holes[ i ].length; + addContour( vertices, holes[ i ] ); + + } + + // + + const triangles = Earcut.triangulate( vertices, holeIndices ); + + // + + for ( let i = 0; i < triangles.length; i += 3 ) { + + faces.push( triangles.slice( i, i + 3 ) ); + + } + + return faces; + + } + +} + +function removeDupEndPts( points ) { + + const l = points.length; + + if ( l > 2 && points[ l - 1 ].equals( points[ 0 ] ) ) { + + points.pop(); + + } + +} + +function addContour( vertices, contour ) { + + for ( let i = 0; i < contour.length; i ++ ) { + + vertices.push( contour[ i ].x ); + vertices.push( contour[ i ].y ); + + } + +} + +/** + * Creates extruded geometry from a path shape. + * + * parameters = { + * + * curveSegments: , // number of points on the curves + * steps: , // number of points for z-side extrusions / used for subdividing segments of extrude spline too + * depth: , // Depth to extrude the shape + * + * bevelEnabled: , // turn on bevel + * bevelThickness: , // how deep into the original shape bevel goes + * bevelSize: , // how far from shape outline (including bevelOffset) is bevel + * bevelOffset: , // how far from shape outline does bevel start + * bevelSegments: , // number of bevel layers + * + * extrudePath: // curve to extrude shape along + * + * UVGenerator: // object that provides UV generator functions + * + * } + */ + + +class ExtrudeGeometry extends BufferGeometry { + + constructor( shapes = new Shape( [ new Vector2( 0.5, 0.5 ), new Vector2( - 0.5, 0.5 ), new Vector2( - 0.5, - 0.5 ), new Vector2( 0.5, - 0.5 ) ] ), options = {} ) { + + super(); + + this.type = 'ExtrudeGeometry'; + + this.parameters = { + shapes: shapes, + options: options + }; + + shapes = Array.isArray( shapes ) ? shapes : [ shapes ]; + + const scope = this; + + const verticesArray = []; + const uvArray = []; + + for ( let i = 0, l = shapes.length; i < l; i ++ ) { + + const shape = shapes[ i ]; + addShape( shape ); + + } + + // build geometry + + this.setAttribute( 'position', new Float32BufferAttribute( verticesArray, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvArray, 2 ) ); + + this.computeVertexNormals(); + + // functions + + function addShape( shape ) { + + const placeholder = []; + + // options + + const curveSegments = options.curveSegments !== undefined ? options.curveSegments : 12; + const steps = options.steps !== undefined ? options.steps : 1; + const depth = options.depth !== undefined ? options.depth : 1; + + let bevelEnabled = options.bevelEnabled !== undefined ? options.bevelEnabled : true; + let bevelThickness = options.bevelThickness !== undefined ? options.bevelThickness : 0.2; + let bevelSize = options.bevelSize !== undefined ? options.bevelSize : bevelThickness - 0.1; + let bevelOffset = options.bevelOffset !== undefined ? options.bevelOffset : 0; + let bevelSegments = options.bevelSegments !== undefined ? options.bevelSegments : 3; + + const extrudePath = options.extrudePath; + + const uvgen = options.UVGenerator !== undefined ? options.UVGenerator : WorldUVGenerator; + + // + + let extrudePts, extrudeByPath = false; + let splineTube, binormal, normal, position2; + + if ( extrudePath ) { + + extrudePts = extrudePath.getSpacedPoints( steps ); + + extrudeByPath = true; + bevelEnabled = false; // bevels not supported for path extrusion + + // SETUP TNB variables + + // TODO1 - have a .isClosed in spline? + + splineTube = extrudePath.computeFrenetFrames( steps, false ); + + // console.log(splineTube, 'splineTube', splineTube.normals.length, 'steps', steps, 'extrudePts', extrudePts.length); + + binormal = new Vector3(); + normal = new Vector3(); + position2 = new Vector3(); + + } + + // Safeguards if bevels are not enabled + + if ( ! bevelEnabled ) { + + bevelSegments = 0; + bevelThickness = 0; + bevelSize = 0; + bevelOffset = 0; + + } + + // Variables initialization + + const shapePoints = shape.extractPoints( curveSegments ); + + let vertices = shapePoints.shape; + const holes = shapePoints.holes; + + const reverse = ! ShapeUtils.isClockWise( vertices ); + + if ( reverse ) { + + vertices = vertices.reverse(); + + // Maybe we should also check if holes are in the opposite direction, just to be safe ... + + for ( let h = 0, hl = holes.length; h < hl; h ++ ) { + + const ahole = holes[ h ]; + + if ( ShapeUtils.isClockWise( ahole ) ) { + + holes[ h ] = ahole.reverse(); + + } + + } + + } + + + const faces = ShapeUtils.triangulateShape( vertices, holes ); + + /* Vertices */ + + const contour = vertices; // vertices has all points but contour has only points of circumference + + for ( let h = 0, hl = holes.length; h < hl; h ++ ) { + + const ahole = holes[ h ]; + + vertices = vertices.concat( ahole ); + + } + + + function scalePt2( pt, vec, size ) { + + if ( ! vec ) console.error( 'THREE.ExtrudeGeometry: vec does not exist' ); + + return pt.clone().addScaledVector( vec, size ); + + } + + const vlen = vertices.length, flen = faces.length; + + + // Find directions for point movement + + + function getBevelVec( inPt, inPrev, inNext ) { + + // computes for inPt the corresponding point inPt' on a new contour + // shifted by 1 unit (length of normalized vector) to the left + // if we walk along contour clockwise, this new contour is outside the old one + // + // inPt' is the intersection of the two lines parallel to the two + // adjacent edges of inPt at a distance of 1 unit on the left side. + + let v_trans_x, v_trans_y, shrink_by; // resulting translation vector for inPt + + // good reading for geometry algorithms (here: line-line intersection) + // http://geomalgorithms.com/a05-_intersect-1.html + + const v_prev_x = inPt.x - inPrev.x, + v_prev_y = inPt.y - inPrev.y; + const v_next_x = inNext.x - inPt.x, + v_next_y = inNext.y - inPt.y; + + const v_prev_lensq = ( v_prev_x * v_prev_x + v_prev_y * v_prev_y ); + + // check for collinear edges + const collinear0 = ( v_prev_x * v_next_y - v_prev_y * v_next_x ); + + if ( Math.abs( collinear0 ) > Number.EPSILON ) { + + // not collinear + + // length of vectors for normalizing + + const v_prev_len = Math.sqrt( v_prev_lensq ); + const v_next_len = Math.sqrt( v_next_x * v_next_x + v_next_y * v_next_y ); + + // shift adjacent points by unit vectors to the left + + const ptPrevShift_x = ( inPrev.x - v_prev_y / v_prev_len ); + const ptPrevShift_y = ( inPrev.y + v_prev_x / v_prev_len ); + + const ptNextShift_x = ( inNext.x - v_next_y / v_next_len ); + const ptNextShift_y = ( inNext.y + v_next_x / v_next_len ); + + // scaling factor for v_prev to intersection point + + const sf = ( ( ptNextShift_x - ptPrevShift_x ) * v_next_y - + ( ptNextShift_y - ptPrevShift_y ) * v_next_x ) / + ( v_prev_x * v_next_y - v_prev_y * v_next_x ); + + // vector from inPt to intersection point + + v_trans_x = ( ptPrevShift_x + v_prev_x * sf - inPt.x ); + v_trans_y = ( ptPrevShift_y + v_prev_y * sf - inPt.y ); + + // Don't normalize!, otherwise sharp corners become ugly + // but prevent crazy spikes + const v_trans_lensq = ( v_trans_x * v_trans_x + v_trans_y * v_trans_y ); + if ( v_trans_lensq <= 2 ) { + + return new Vector2( v_trans_x, v_trans_y ); + + } else { + + shrink_by = Math.sqrt( v_trans_lensq / 2 ); + + } + + } else { + + // handle special case of collinear edges + + let direction_eq = false; // assumes: opposite + + if ( v_prev_x > Number.EPSILON ) { + + if ( v_next_x > Number.EPSILON ) { + + direction_eq = true; + + } + + } else { + + if ( v_prev_x < - Number.EPSILON ) { + + if ( v_next_x < - Number.EPSILON ) { + + direction_eq = true; + + } + + } else { + + if ( Math.sign( v_prev_y ) === Math.sign( v_next_y ) ) { + + direction_eq = true; + + } + + } + + } + + if ( direction_eq ) { + + // console.log("Warning: lines are a straight sequence"); + v_trans_x = - v_prev_y; + v_trans_y = v_prev_x; + shrink_by = Math.sqrt( v_prev_lensq ); + + } else { + + // console.log("Warning: lines are a straight spike"); + v_trans_x = v_prev_x; + v_trans_y = v_prev_y; + shrink_by = Math.sqrt( v_prev_lensq / 2 ); + + } + + } + + return new Vector2( v_trans_x / shrink_by, v_trans_y / shrink_by ); + + } + + + const contourMovements = []; + + for ( let i = 0, il = contour.length, j = il - 1, k = i + 1; i < il; i ++, j ++, k ++ ) { + + if ( j === il ) j = 0; + if ( k === il ) k = 0; + + // (j)---(i)---(k) + // console.log('i,j,k', i, j , k) + + contourMovements[ i ] = getBevelVec( contour[ i ], contour[ j ], contour[ k ] ); + + } + + const holesMovements = []; + let oneHoleMovements, verticesMovements = contourMovements.concat(); + + for ( let h = 0, hl = holes.length; h < hl; h ++ ) { + + const ahole = holes[ h ]; + + oneHoleMovements = []; + + for ( let i = 0, il = ahole.length, j = il - 1, k = i + 1; i < il; i ++, j ++, k ++ ) { + + if ( j === il ) j = 0; + if ( k === il ) k = 0; + + // (j)---(i)---(k) + oneHoleMovements[ i ] = getBevelVec( ahole[ i ], ahole[ j ], ahole[ k ] ); + + } + + holesMovements.push( oneHoleMovements ); + verticesMovements = verticesMovements.concat( oneHoleMovements ); + + } + + + // Loop bevelSegments, 1 for the front, 1 for the back + + for ( let b = 0; b < bevelSegments; b ++ ) { + + //for ( b = bevelSegments; b > 0; b -- ) { + + const t = b / bevelSegments; + const z = bevelThickness * Math.cos( t * Math.PI / 2 ); + const bs = bevelSize * Math.sin( t * Math.PI / 2 ) + bevelOffset; + + // contract shape + + for ( let i = 0, il = contour.length; i < il; i ++ ) { + + const vert = scalePt2( contour[ i ], contourMovements[ i ], bs ); + + v( vert.x, vert.y, - z ); + + } + + // expand holes + + for ( let h = 0, hl = holes.length; h < hl; h ++ ) { + + const ahole = holes[ h ]; + oneHoleMovements = holesMovements[ h ]; + + for ( let i = 0, il = ahole.length; i < il; i ++ ) { + + const vert = scalePt2( ahole[ i ], oneHoleMovements[ i ], bs ); + + v( vert.x, vert.y, - z ); + + } + + } + + } + + const bs = bevelSize + bevelOffset; + + // Back facing vertices + + for ( let i = 0; i < vlen; i ++ ) { + + const vert = bevelEnabled ? scalePt2( vertices[ i ], verticesMovements[ i ], bs ) : vertices[ i ]; + + if ( ! extrudeByPath ) { + + v( vert.x, vert.y, 0 ); + + } else { + + // v( vert.x, vert.y + extrudePts[ 0 ].y, extrudePts[ 0 ].x ); + + normal.copy( splineTube.normals[ 0 ] ).multiplyScalar( vert.x ); + binormal.copy( splineTube.binormals[ 0 ] ).multiplyScalar( vert.y ); + + position2.copy( extrudePts[ 0 ] ).add( normal ).add( binormal ); + + v( position2.x, position2.y, position2.z ); + + } + + } + + // Add stepped vertices... + // Including front facing vertices + + for ( let s = 1; s <= steps; s ++ ) { + + for ( let i = 0; i < vlen; i ++ ) { + + const vert = bevelEnabled ? scalePt2( vertices[ i ], verticesMovements[ i ], bs ) : vertices[ i ]; + + if ( ! extrudeByPath ) { + + v( vert.x, vert.y, depth / steps * s ); + + } else { + + // v( vert.x, vert.y + extrudePts[ s - 1 ].y, extrudePts[ s - 1 ].x ); + + normal.copy( splineTube.normals[ s ] ).multiplyScalar( vert.x ); + binormal.copy( splineTube.binormals[ s ] ).multiplyScalar( vert.y ); + + position2.copy( extrudePts[ s ] ).add( normal ).add( binormal ); + + v( position2.x, position2.y, position2.z ); + + } + + } + + } + + + // Add bevel segments planes + + //for ( b = 1; b <= bevelSegments; b ++ ) { + for ( let b = bevelSegments - 1; b >= 0; b -- ) { + + const t = b / bevelSegments; + const z = bevelThickness * Math.cos( t * Math.PI / 2 ); + const bs = bevelSize * Math.sin( t * Math.PI / 2 ) + bevelOffset; + + // contract shape + + for ( let i = 0, il = contour.length; i < il; i ++ ) { + + const vert = scalePt2( contour[ i ], contourMovements[ i ], bs ); + v( vert.x, vert.y, depth + z ); + + } + + // expand holes + + for ( let h = 0, hl = holes.length; h < hl; h ++ ) { + + const ahole = holes[ h ]; + oneHoleMovements = holesMovements[ h ]; + + for ( let i = 0, il = ahole.length; i < il; i ++ ) { + + const vert = scalePt2( ahole[ i ], oneHoleMovements[ i ], bs ); + + if ( ! extrudeByPath ) { + + v( vert.x, vert.y, depth + z ); + + } else { + + v( vert.x, vert.y + extrudePts[ steps - 1 ].y, extrudePts[ steps - 1 ].x + z ); + + } + + } + + } + + } + + /* Faces */ + + // Top and bottom faces + + buildLidFaces(); + + // Sides faces + + buildSideFaces(); + + + ///// Internal functions + + function buildLidFaces() { + + const start = verticesArray.length / 3; + + if ( bevelEnabled ) { + + let layer = 0; // steps + 1 + let offset = vlen * layer; + + // Bottom faces + + for ( let i = 0; i < flen; i ++ ) { + + const face = faces[ i ]; + f3( face[ 2 ] + offset, face[ 1 ] + offset, face[ 0 ] + offset ); + + } + + layer = steps + bevelSegments * 2; + offset = vlen * layer; + + // Top faces + + for ( let i = 0; i < flen; i ++ ) { + + const face = faces[ i ]; + f3( face[ 0 ] + offset, face[ 1 ] + offset, face[ 2 ] + offset ); + + } + + } else { + + // Bottom faces + + for ( let i = 0; i < flen; i ++ ) { + + const face = faces[ i ]; + f3( face[ 2 ], face[ 1 ], face[ 0 ] ); + + } + + // Top faces + + for ( let i = 0; i < flen; i ++ ) { + + const face = faces[ i ]; + f3( face[ 0 ] + vlen * steps, face[ 1 ] + vlen * steps, face[ 2 ] + vlen * steps ); + + } + + } + + scope.addGroup( start, verticesArray.length / 3 - start, 0 ); + + } + + // Create faces for the z-sides of the shape + + function buildSideFaces() { + + const start = verticesArray.length / 3; + let layeroffset = 0; + sidewalls( contour, layeroffset ); + layeroffset += contour.length; + + for ( let h = 0, hl = holes.length; h < hl; h ++ ) { + + const ahole = holes[ h ]; + sidewalls( ahole, layeroffset ); + + //, true + layeroffset += ahole.length; + + } + + + scope.addGroup( start, verticesArray.length / 3 - start, 1 ); + + + } + + function sidewalls( contour, layeroffset ) { + + let i = contour.length; + + while ( -- i >= 0 ) { + + const j = i; + let k = i - 1; + if ( k < 0 ) k = contour.length - 1; + + //console.log('b', i,j, i-1, k,vertices.length); + + for ( let s = 0, sl = ( steps + bevelSegments * 2 ); s < sl; s ++ ) { + + const slen1 = vlen * s; + const slen2 = vlen * ( s + 1 ); + + const a = layeroffset + j + slen1, + b = layeroffset + k + slen1, + c = layeroffset + k + slen2, + d = layeroffset + j + slen2; + + f4( a, b, c, d ); + + } + + } + + } + + function v( x, y, z ) { + + placeholder.push( x ); + placeholder.push( y ); + placeholder.push( z ); + + } + + + function f3( a, b, c ) { + + addVertex( a ); + addVertex( b ); + addVertex( c ); + + const nextIndex = verticesArray.length / 3; + const uvs = uvgen.generateTopUV( scope, verticesArray, nextIndex - 3, nextIndex - 2, nextIndex - 1 ); + + addUV( uvs[ 0 ] ); + addUV( uvs[ 1 ] ); + addUV( uvs[ 2 ] ); + + } + + function f4( a, b, c, d ) { + + addVertex( a ); + addVertex( b ); + addVertex( d ); + + addVertex( b ); + addVertex( c ); + addVertex( d ); + + + const nextIndex = verticesArray.length / 3; + const uvs = uvgen.generateSideWallUV( scope, verticesArray, nextIndex - 6, nextIndex - 3, nextIndex - 2, nextIndex - 1 ); + + addUV( uvs[ 0 ] ); + addUV( uvs[ 1 ] ); + addUV( uvs[ 3 ] ); + + addUV( uvs[ 1 ] ); + addUV( uvs[ 2 ] ); + addUV( uvs[ 3 ] ); + + } + + function addVertex( index ) { + + verticesArray.push( placeholder[ index * 3 + 0 ] ); + verticesArray.push( placeholder[ index * 3 + 1 ] ); + verticesArray.push( placeholder[ index * 3 + 2 ] ); + + } + + + function addUV( vector2 ) { + + uvArray.push( vector2.x ); + uvArray.push( vector2.y ); + + } + + } + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + const shapes = this.parameters.shapes; + const options = this.parameters.options; + + return toJSON$1( shapes, options, data ); + + } + + static fromJSON( data, shapes ) { + + const geometryShapes = []; + + for ( let j = 0, jl = data.shapes.length; j < jl; j ++ ) { + + const shape = shapes[ data.shapes[ j ] ]; + + geometryShapes.push( shape ); + + } + + const extrudePath = data.options.extrudePath; + + if ( extrudePath !== undefined ) { + + data.options.extrudePath = new Curves[ extrudePath.type ]().fromJSON( extrudePath ); + + } + + return new ExtrudeGeometry( geometryShapes, data.options ); + + } + +} + +const WorldUVGenerator = { + + generateTopUV: function ( geometry, vertices, indexA, indexB, indexC ) { + + const a_x = vertices[ indexA * 3 ]; + const a_y = vertices[ indexA * 3 + 1 ]; + const b_x = vertices[ indexB * 3 ]; + const b_y = vertices[ indexB * 3 + 1 ]; + const c_x = vertices[ indexC * 3 ]; + const c_y = vertices[ indexC * 3 + 1 ]; + + return [ + new Vector2( a_x, a_y ), + new Vector2( b_x, b_y ), + new Vector2( c_x, c_y ) + ]; + + }, + + generateSideWallUV: function ( geometry, vertices, indexA, indexB, indexC, indexD ) { + + const a_x = vertices[ indexA * 3 ]; + const a_y = vertices[ indexA * 3 + 1 ]; + const a_z = vertices[ indexA * 3 + 2 ]; + const b_x = vertices[ indexB * 3 ]; + const b_y = vertices[ indexB * 3 + 1 ]; + const b_z = vertices[ indexB * 3 + 2 ]; + const c_x = vertices[ indexC * 3 ]; + const c_y = vertices[ indexC * 3 + 1 ]; + const c_z = vertices[ indexC * 3 + 2 ]; + const d_x = vertices[ indexD * 3 ]; + const d_y = vertices[ indexD * 3 + 1 ]; + const d_z = vertices[ indexD * 3 + 2 ]; + + if ( Math.abs( a_y - b_y ) < Math.abs( a_x - b_x ) ) { + + return [ + new Vector2( a_x, 1 - a_z ), + new Vector2( b_x, 1 - b_z ), + new Vector2( c_x, 1 - c_z ), + new Vector2( d_x, 1 - d_z ) + ]; + + } else { + + return [ + new Vector2( a_y, 1 - a_z ), + new Vector2( b_y, 1 - b_z ), + new Vector2( c_y, 1 - c_z ), + new Vector2( d_y, 1 - d_z ) + ]; + + } + + } + +}; + +function toJSON$1( shapes, options, data ) { + + data.shapes = []; + + if ( Array.isArray( shapes ) ) { + + for ( let i = 0, l = shapes.length; i < l; i ++ ) { + + const shape = shapes[ i ]; + + data.shapes.push( shape.uuid ); + + } + + } else { + + data.shapes.push( shapes.uuid ); + + } + + data.options = Object.assign( {}, options ); + + if ( options.extrudePath !== undefined ) data.options.extrudePath = options.extrudePath.toJSON(); + + return data; + +} + +class IcosahedronGeometry extends PolyhedronGeometry { + + constructor( radius = 1, detail = 0 ) { + + const t = ( 1 + Math.sqrt( 5 ) ) / 2; + + const vertices = [ + - 1, t, 0, 1, t, 0, - 1, - t, 0, 1, - t, 0, + 0, - 1, t, 0, 1, t, 0, - 1, - t, 0, 1, - t, + t, 0, - 1, t, 0, 1, - t, 0, - 1, - t, 0, 1 + ]; + + const indices = [ + 0, 11, 5, 0, 5, 1, 0, 1, 7, 0, 7, 10, 0, 10, 11, + 1, 5, 9, 5, 11, 4, 11, 10, 2, 10, 7, 6, 7, 1, 8, + 3, 9, 4, 3, 4, 2, 3, 2, 6, 3, 6, 8, 3, 8, 9, + 4, 9, 5, 2, 4, 11, 6, 2, 10, 8, 6, 7, 9, 8, 1 + ]; + + super( vertices, indices, radius, detail ); + + this.type = 'IcosahedronGeometry'; + + this.parameters = { + radius: radius, + detail: detail + }; + + } + + static fromJSON( data ) { + + return new IcosahedronGeometry( data.radius, data.detail ); + + } + +} + +class OctahedronGeometry extends PolyhedronGeometry { + + constructor( radius = 1, detail = 0 ) { + + const vertices = [ + 1, 0, 0, - 1, 0, 0, 0, 1, 0, + 0, - 1, 0, 0, 0, 1, 0, 0, - 1 + ]; + + const indices = [ + 0, 2, 4, 0, 4, 3, 0, 3, 5, + 0, 5, 2, 1, 2, 5, 1, 5, 3, + 1, 3, 4, 1, 4, 2 + ]; + + super( vertices, indices, radius, detail ); + + this.type = 'OctahedronGeometry'; + + this.parameters = { + radius: radius, + detail: detail + }; + + } + + static fromJSON( data ) { + + return new OctahedronGeometry( data.radius, data.detail ); + + } + +} + +class PlaneGeometry extends BufferGeometry { + + constructor( width = 1, height = 1, widthSegments = 1, heightSegments = 1 ) { + + super(); + + this.type = 'PlaneGeometry'; + + this.parameters = { + width: width, + height: height, + widthSegments: widthSegments, + heightSegments: heightSegments + }; + + const width_half = width / 2; + const height_half = height / 2; + + const gridX = Math.floor( widthSegments ); + const gridY = Math.floor( heightSegments ); + + const gridX1 = gridX + 1; + const gridY1 = gridY + 1; + + const segment_width = width / gridX; + const segment_height = height / gridY; + + // + + const indices = []; + const vertices = []; + const normals = []; + const uvs = []; + + for ( let iy = 0; iy < gridY1; iy ++ ) { + + const y = iy * segment_height - height_half; + + for ( let ix = 0; ix < gridX1; ix ++ ) { + + const x = ix * segment_width - width_half; + + vertices.push( x, - y, 0 ); + + normals.push( 0, 0, 1 ); + + uvs.push( ix / gridX ); + uvs.push( 1 - ( iy / gridY ) ); + + } + + } + + for ( let iy = 0; iy < gridY; iy ++ ) { + + for ( let ix = 0; ix < gridX; ix ++ ) { + + const a = ix + gridX1 * iy; + const b = ix + gridX1 * ( iy + 1 ); + const c = ( ix + 1 ) + gridX1 * ( iy + 1 ); + const d = ( ix + 1 ) + gridX1 * iy; + + indices.push( a, b, d ); + indices.push( b, c, d ); + + } + + } + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + static fromJSON( data ) { + + return new PlaneGeometry( data.width, data.height, data.widthSegments, data.heightSegments ); + + } + +} + +class RingGeometry extends BufferGeometry { + + constructor( innerRadius = 0.5, outerRadius = 1, thetaSegments = 32, phiSegments = 1, thetaStart = 0, thetaLength = Math.PI * 2 ) { + + super(); + + this.type = 'RingGeometry'; + + this.parameters = { + innerRadius: innerRadius, + outerRadius: outerRadius, + thetaSegments: thetaSegments, + phiSegments: phiSegments, + thetaStart: thetaStart, + thetaLength: thetaLength + }; + + thetaSegments = Math.max( 3, thetaSegments ); + phiSegments = Math.max( 1, phiSegments ); + + // buffers + + const indices = []; + const vertices = []; + const normals = []; + const uvs = []; + + // some helper variables + + let radius = innerRadius; + const radiusStep = ( ( outerRadius - innerRadius ) / phiSegments ); + const vertex = new Vector3(); + const uv = new Vector2(); + + // generate vertices, normals and uvs + + for ( let j = 0; j <= phiSegments; j ++ ) { + + for ( let i = 0; i <= thetaSegments; i ++ ) { + + // values are generate from the inside of the ring to the outside + + const segment = thetaStart + i / thetaSegments * thetaLength; + + // vertex + + vertex.x = radius * Math.cos( segment ); + vertex.y = radius * Math.sin( segment ); + + vertices.push( vertex.x, vertex.y, vertex.z ); + + // normal + + normals.push( 0, 0, 1 ); + + // uv + + uv.x = ( vertex.x / outerRadius + 1 ) / 2; + uv.y = ( vertex.y / outerRadius + 1 ) / 2; + + uvs.push( uv.x, uv.y ); + + } + + // increase the radius for next row of vertices + + radius += radiusStep; + + } + + // indices + + for ( let j = 0; j < phiSegments; j ++ ) { + + const thetaSegmentLevel = j * ( thetaSegments + 1 ); + + for ( let i = 0; i < thetaSegments; i ++ ) { + + const segment = i + thetaSegmentLevel; + + const a = segment; + const b = segment + thetaSegments + 1; + const c = segment + thetaSegments + 2; + const d = segment + 1; + + // faces + + indices.push( a, b, d ); + indices.push( b, c, d ); + + } + + } + + // build geometry + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + static fromJSON( data ) { + + return new RingGeometry( data.innerRadius, data.outerRadius, data.thetaSegments, data.phiSegments, data.thetaStart, data.thetaLength ); + + } + +} + +class ShapeGeometry extends BufferGeometry { + + constructor( shapes = new Shape( [ new Vector2( 0, 0.5 ), new Vector2( - 0.5, - 0.5 ), new Vector2( 0.5, - 0.5 ) ] ), curveSegments = 12 ) { + + super(); + + this.type = 'ShapeGeometry'; + + this.parameters = { + shapes: shapes, + curveSegments: curveSegments + }; + + // buffers + + const indices = []; + const vertices = []; + const normals = []; + const uvs = []; + + // helper variables + + let groupStart = 0; + let groupCount = 0; + + // allow single and array values for "shapes" parameter + + if ( Array.isArray( shapes ) === false ) { + + addShape( shapes ); + + } else { + + for ( let i = 0; i < shapes.length; i ++ ) { + + addShape( shapes[ i ] ); + + this.addGroup( groupStart, groupCount, i ); // enables MultiMaterial support + + groupStart += groupCount; + groupCount = 0; + + } + + } + + // build geometry + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + + + // helper functions + + function addShape( shape ) { + + const indexOffset = vertices.length / 3; + const points = shape.extractPoints( curveSegments ); + + let shapeVertices = points.shape; + const shapeHoles = points.holes; + + // check direction of vertices + + if ( ShapeUtils.isClockWise( shapeVertices ) === false ) { + + shapeVertices = shapeVertices.reverse(); + + } + + for ( let i = 0, l = shapeHoles.length; i < l; i ++ ) { + + const shapeHole = shapeHoles[ i ]; + + if ( ShapeUtils.isClockWise( shapeHole ) === true ) { + + shapeHoles[ i ] = shapeHole.reverse(); + + } + + } + + const faces = ShapeUtils.triangulateShape( shapeVertices, shapeHoles ); + + // join vertices of inner and outer paths to a single array + + for ( let i = 0, l = shapeHoles.length; i < l; i ++ ) { + + const shapeHole = shapeHoles[ i ]; + shapeVertices = shapeVertices.concat( shapeHole ); + + } + + // vertices, normals, uvs + + for ( let i = 0, l = shapeVertices.length; i < l; i ++ ) { + + const vertex = shapeVertices[ i ]; + + vertices.push( vertex.x, vertex.y, 0 ); + normals.push( 0, 0, 1 ); + uvs.push( vertex.x, vertex.y ); // world uvs + + } + + // indices + + for ( let i = 0, l = faces.length; i < l; i ++ ) { + + const face = faces[ i ]; + + const a = face[ 0 ] + indexOffset; + const b = face[ 1 ] + indexOffset; + const c = face[ 2 ] + indexOffset; + + indices.push( a, b, c ); + groupCount += 3; + + } + + } + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + const shapes = this.parameters.shapes; + + return toJSON( shapes, data ); + + } + + static fromJSON( data, shapes ) { + + const geometryShapes = []; + + for ( let j = 0, jl = data.shapes.length; j < jl; j ++ ) { + + const shape = shapes[ data.shapes[ j ] ]; + + geometryShapes.push( shape ); + + } + + return new ShapeGeometry( geometryShapes, data.curveSegments ); + + } + +} + +function toJSON( shapes, data ) { + + data.shapes = []; + + if ( Array.isArray( shapes ) ) { + + for ( let i = 0, l = shapes.length; i < l; i ++ ) { + + const shape = shapes[ i ]; + + data.shapes.push( shape.uuid ); + + } + + } else { + + data.shapes.push( shapes.uuid ); + + } + + return data; + +} + +class SphereGeometry extends BufferGeometry { + + constructor( radius = 1, widthSegments = 32, heightSegments = 16, phiStart = 0, phiLength = Math.PI * 2, thetaStart = 0, thetaLength = Math.PI ) { + + super(); + + this.type = 'SphereGeometry'; + + this.parameters = { + radius: radius, + widthSegments: widthSegments, + heightSegments: heightSegments, + phiStart: phiStart, + phiLength: phiLength, + thetaStart: thetaStart, + thetaLength: thetaLength + }; + + widthSegments = Math.max( 3, Math.floor( widthSegments ) ); + heightSegments = Math.max( 2, Math.floor( heightSegments ) ); + + const thetaEnd = Math.min( thetaStart + thetaLength, Math.PI ); + + let index = 0; + const grid = []; + + const vertex = new Vector3(); + const normal = new Vector3(); + + // buffers + + const indices = []; + const vertices = []; + const normals = []; + const uvs = []; + + // generate vertices, normals and uvs + + for ( let iy = 0; iy <= heightSegments; iy ++ ) { + + const verticesRow = []; + + const v = iy / heightSegments; + + // special case for the poles + + let uOffset = 0; + + if ( iy === 0 && thetaStart === 0 ) { + + uOffset = 0.5 / widthSegments; + + } else if ( iy === heightSegments && thetaEnd === Math.PI ) { + + uOffset = - 0.5 / widthSegments; + + } + + for ( let ix = 0; ix <= widthSegments; ix ++ ) { + + const u = ix / widthSegments; + + // vertex + + vertex.x = - radius * Math.cos( phiStart + u * phiLength ) * Math.sin( thetaStart + v * thetaLength ); + vertex.y = radius * Math.cos( thetaStart + v * thetaLength ); + vertex.z = radius * Math.sin( phiStart + u * phiLength ) * Math.sin( thetaStart + v * thetaLength ); + + vertices.push( vertex.x, vertex.y, vertex.z ); + + // normal + + normal.copy( vertex ).normalize(); + normals.push( normal.x, normal.y, normal.z ); + + // uv + + uvs.push( u + uOffset, 1 - v ); + + verticesRow.push( index ++ ); + + } + + grid.push( verticesRow ); + + } + + // indices + + for ( let iy = 0; iy < heightSegments; iy ++ ) { + + for ( let ix = 0; ix < widthSegments; ix ++ ) { + + const a = grid[ iy ][ ix + 1 ]; + const b = grid[ iy ][ ix ]; + const c = grid[ iy + 1 ][ ix ]; + const d = grid[ iy + 1 ][ ix + 1 ]; + + if ( iy !== 0 || thetaStart > 0 ) indices.push( a, b, d ); + if ( iy !== heightSegments - 1 || thetaEnd < Math.PI ) indices.push( b, c, d ); + + } + + } + + // build geometry + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + static fromJSON( data ) { + + return new SphereGeometry( data.radius, data.widthSegments, data.heightSegments, data.phiStart, data.phiLength, data.thetaStart, data.thetaLength ); + + } + +} + +class TetrahedronGeometry extends PolyhedronGeometry { + + constructor( radius = 1, detail = 0 ) { + + const vertices = [ + 1, 1, 1, - 1, - 1, 1, - 1, 1, - 1, 1, - 1, - 1 + ]; + + const indices = [ + 2, 1, 0, 0, 3, 2, 1, 3, 0, 2, 3, 1 + ]; + + super( vertices, indices, radius, detail ); + + this.type = 'TetrahedronGeometry'; + + this.parameters = { + radius: radius, + detail: detail + }; + + } + + static fromJSON( data ) { + + return new TetrahedronGeometry( data.radius, data.detail ); + + } + +} + +class TorusGeometry extends BufferGeometry { + + constructor( radius = 1, tube = 0.4, radialSegments = 12, tubularSegments = 48, arc = Math.PI * 2 ) { + + super(); + + this.type = 'TorusGeometry'; + + this.parameters = { + radius: radius, + tube: tube, + radialSegments: radialSegments, + tubularSegments: tubularSegments, + arc: arc + }; + + radialSegments = Math.floor( radialSegments ); + tubularSegments = Math.floor( tubularSegments ); + + // buffers + + const indices = []; + const vertices = []; + const normals = []; + const uvs = []; + + // helper variables + + const center = new Vector3(); + const vertex = new Vector3(); + const normal = new Vector3(); + + // generate vertices, normals and uvs + + for ( let j = 0; j <= radialSegments; j ++ ) { + + for ( let i = 0; i <= tubularSegments; i ++ ) { + + const u = i / tubularSegments * arc; + const v = j / radialSegments * Math.PI * 2; + + // vertex + + vertex.x = ( radius + tube * Math.cos( v ) ) * Math.cos( u ); + vertex.y = ( radius + tube * Math.cos( v ) ) * Math.sin( u ); + vertex.z = tube * Math.sin( v ); + + vertices.push( vertex.x, vertex.y, vertex.z ); + + // normal + + center.x = radius * Math.cos( u ); + center.y = radius * Math.sin( u ); + normal.subVectors( vertex, center ).normalize(); + + normals.push( normal.x, normal.y, normal.z ); + + // uv + + uvs.push( i / tubularSegments ); + uvs.push( j / radialSegments ); + + } + + } + + // generate indices + + for ( let j = 1; j <= radialSegments; j ++ ) { + + for ( let i = 1; i <= tubularSegments; i ++ ) { + + // indices + + const a = ( tubularSegments + 1 ) * j + i - 1; + const b = ( tubularSegments + 1 ) * ( j - 1 ) + i - 1; + const c = ( tubularSegments + 1 ) * ( j - 1 ) + i; + const d = ( tubularSegments + 1 ) * j + i; + + // faces + + indices.push( a, b, d ); + indices.push( b, c, d ); + + } + + } + + // build geometry + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + static fromJSON( data ) { + + return new TorusGeometry( data.radius, data.tube, data.radialSegments, data.tubularSegments, data.arc ); + + } + +} + +class TorusKnotGeometry extends BufferGeometry { + + constructor( radius = 1, tube = 0.4, tubularSegments = 64, radialSegments = 8, p = 2, q = 3 ) { + + super(); + + this.type = 'TorusKnotGeometry'; + + this.parameters = { + radius: radius, + tube: tube, + tubularSegments: tubularSegments, + radialSegments: radialSegments, + p: p, + q: q + }; + + tubularSegments = Math.floor( tubularSegments ); + radialSegments = Math.floor( radialSegments ); + + // buffers + + const indices = []; + const vertices = []; + const normals = []; + const uvs = []; + + // helper variables + + const vertex = new Vector3(); + const normal = new Vector3(); + + const P1 = new Vector3(); + const P2 = new Vector3(); + + const B = new Vector3(); + const T = new Vector3(); + const N = new Vector3(); + + // generate vertices, normals and uvs + + for ( let i = 0; i <= tubularSegments; ++ i ) { + + // the radian "u" is used to calculate the position on the torus curve of the current tubular segment + + const u = i / tubularSegments * p * Math.PI * 2; + + // now we calculate two points. P1 is our current position on the curve, P2 is a little farther ahead. + // these points are used to create a special "coordinate space", which is necessary to calculate the correct vertex positions + + calculatePositionOnCurve( u, p, q, radius, P1 ); + calculatePositionOnCurve( u + 0.01, p, q, radius, P2 ); + + // calculate orthonormal basis + + T.subVectors( P2, P1 ); + N.addVectors( P2, P1 ); + B.crossVectors( T, N ); + N.crossVectors( B, T ); + + // normalize B, N. T can be ignored, we don't use it + + B.normalize(); + N.normalize(); + + for ( let j = 0; j <= radialSegments; ++ j ) { + + // now calculate the vertices. they are nothing more than an extrusion of the torus curve. + // because we extrude a shape in the xy-plane, there is no need to calculate a z-value. + + const v = j / radialSegments * Math.PI * 2; + const cx = - tube * Math.cos( v ); + const cy = tube * Math.sin( v ); + + // now calculate the final vertex position. + // first we orient the extrusion with our basis vectors, then we add it to the current position on the curve + + vertex.x = P1.x + ( cx * N.x + cy * B.x ); + vertex.y = P1.y + ( cx * N.y + cy * B.y ); + vertex.z = P1.z + ( cx * N.z + cy * B.z ); + + vertices.push( vertex.x, vertex.y, vertex.z ); + + // normal (P1 is always the center/origin of the extrusion, thus we can use it to calculate the normal) + + normal.subVectors( vertex, P1 ).normalize(); + + normals.push( normal.x, normal.y, normal.z ); + + // uv + + uvs.push( i / tubularSegments ); + uvs.push( j / radialSegments ); + + } + + } + + // generate indices + + for ( let j = 1; j <= tubularSegments; j ++ ) { + + for ( let i = 1; i <= radialSegments; i ++ ) { + + // indices + + const a = ( radialSegments + 1 ) * ( j - 1 ) + ( i - 1 ); + const b = ( radialSegments + 1 ) * j + ( i - 1 ); + const c = ( radialSegments + 1 ) * j + i; + const d = ( radialSegments + 1 ) * ( j - 1 ) + i; + + // faces + + indices.push( a, b, d ); + indices.push( b, c, d ); + + } + + } + + // build geometry + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + + // this function calculates the current position on the torus curve + + function calculatePositionOnCurve( u, p, q, radius, position ) { + + const cu = Math.cos( u ); + const su = Math.sin( u ); + const quOverP = q / p * u; + const cs = Math.cos( quOverP ); + + position.x = radius * ( 2 + cs ) * 0.5 * cu; + position.y = radius * ( 2 + cs ) * su * 0.5; + position.z = radius * Math.sin( quOverP ) * 0.5; + + } + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + static fromJSON( data ) { + + return new TorusKnotGeometry( data.radius, data.tube, data.tubularSegments, data.radialSegments, data.p, data.q ); + + } + +} + +class TubeGeometry extends BufferGeometry { + + constructor( path = new QuadraticBezierCurve3( new Vector3( - 1, - 1, 0 ), new Vector3( - 1, 1, 0 ), new Vector3( 1, 1, 0 ) ), tubularSegments = 64, radius = 1, radialSegments = 8, closed = false ) { + + super(); + + this.type = 'TubeGeometry'; + + this.parameters = { + path: path, + tubularSegments: tubularSegments, + radius: radius, + radialSegments: radialSegments, + closed: closed + }; + + const frames = path.computeFrenetFrames( tubularSegments, closed ); + + // expose internals + + this.tangents = frames.tangents; + this.normals = frames.normals; + this.binormals = frames.binormals; + + // helper variables + + const vertex = new Vector3(); + const normal = new Vector3(); + const uv = new Vector2(); + let P = new Vector3(); + + // buffer + + const vertices = []; + const normals = []; + const uvs = []; + const indices = []; + + // create buffer data + + generateBufferData(); + + // build geometry + + this.setIndex( indices ); + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + this.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) ); + + // functions + + function generateBufferData() { + + for ( let i = 0; i < tubularSegments; i ++ ) { + + generateSegment( i ); + + } + + // if the geometry is not closed, generate the last row of vertices and normals + // at the regular position on the given path + // + // if the geometry is closed, duplicate the first row of vertices and normals (uvs will differ) + + generateSegment( ( closed === false ) ? tubularSegments : 0 ); + + // uvs are generated in a separate function. + // this makes it easy compute correct values for closed geometries + + generateUVs(); + + // finally create faces + + generateIndices(); + + } + + function generateSegment( i ) { + + // we use getPointAt to sample evenly distributed points from the given path + + P = path.getPointAt( i / tubularSegments, P ); + + // retrieve corresponding normal and binormal + + const N = frames.normals[ i ]; + const B = frames.binormals[ i ]; + + // generate normals and vertices for the current segment + + for ( let j = 0; j <= radialSegments; j ++ ) { + + const v = j / radialSegments * Math.PI * 2; + + const sin = Math.sin( v ); + const cos = - Math.cos( v ); + + // normal + + normal.x = ( cos * N.x + sin * B.x ); + normal.y = ( cos * N.y + sin * B.y ); + normal.z = ( cos * N.z + sin * B.z ); + normal.normalize(); + + normals.push( normal.x, normal.y, normal.z ); + + // vertex + + vertex.x = P.x + radius * normal.x; + vertex.y = P.y + radius * normal.y; + vertex.z = P.z + radius * normal.z; + + vertices.push( vertex.x, vertex.y, vertex.z ); + + } + + } + + function generateIndices() { + + for ( let j = 1; j <= tubularSegments; j ++ ) { + + for ( let i = 1; i <= radialSegments; i ++ ) { + + const a = ( radialSegments + 1 ) * ( j - 1 ) + ( i - 1 ); + const b = ( radialSegments + 1 ) * j + ( i - 1 ); + const c = ( radialSegments + 1 ) * j + i; + const d = ( radialSegments + 1 ) * ( j - 1 ) + i; + + // faces + + indices.push( a, b, d ); + indices.push( b, c, d ); + + } + + } + + } + + function generateUVs() { + + for ( let i = 0; i <= tubularSegments; i ++ ) { + + for ( let j = 0; j <= radialSegments; j ++ ) { + + uv.x = i / tubularSegments; + uv.y = j / radialSegments; + + uvs.push( uv.x, uv.y ); + + } + + } + + } + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.path = this.parameters.path.toJSON(); + + return data; + + } + + static fromJSON( data ) { + + // This only works for built-in curves (e.g. CatmullRomCurve3). + // User defined curves or instances of CurvePath will not be deserialized. + return new TubeGeometry( + new Curves[ data.path.type ]().fromJSON( data.path ), + data.tubularSegments, + data.radius, + data.radialSegments, + data.closed + ); + + } + +} + +class WireframeGeometry extends BufferGeometry { + + constructor( geometry = null ) { + + super(); + + this.type = 'WireframeGeometry'; + + this.parameters = { + geometry: geometry + }; + + if ( geometry !== null ) { + + // buffer + + const vertices = []; + const edges = new Set(); + + // helper variables + + const start = new Vector3(); + const end = new Vector3(); + + if ( geometry.index !== null ) { + + // indexed BufferGeometry + + const position = geometry.attributes.position; + const indices = geometry.index; + let groups = geometry.groups; + + if ( groups.length === 0 ) { + + groups = [ { start: 0, count: indices.count, materialIndex: 0 } ]; + + } + + // create a data structure that contains all edges without duplicates + + for ( let o = 0, ol = groups.length; o < ol; ++ o ) { + + const group = groups[ o ]; + + const groupStart = group.start; + const groupCount = group.count; + + for ( let i = groupStart, l = ( groupStart + groupCount ); i < l; i += 3 ) { + + for ( let j = 0; j < 3; j ++ ) { + + const index1 = indices.getX( i + j ); + const index2 = indices.getX( i + ( j + 1 ) % 3 ); + + start.fromBufferAttribute( position, index1 ); + end.fromBufferAttribute( position, index2 ); + + if ( isUniqueEdge( start, end, edges ) === true ) { + + vertices.push( start.x, start.y, start.z ); + vertices.push( end.x, end.y, end.z ); + + } + + } + + } + + } + + } else { + + // non-indexed BufferGeometry + + const position = geometry.attributes.position; + + for ( let i = 0, l = ( position.count / 3 ); i < l; i ++ ) { + + for ( let j = 0; j < 3; j ++ ) { + + // three edges per triangle, an edge is represented as (index1, index2) + // e.g. the first triangle has the following edges: (0,1),(1,2),(2,0) + + const index1 = 3 * i + j; + const index2 = 3 * i + ( ( j + 1 ) % 3 ); + + start.fromBufferAttribute( position, index1 ); + end.fromBufferAttribute( position, index2 ); + + if ( isUniqueEdge( start, end, edges ) === true ) { + + vertices.push( start.x, start.y, start.z ); + vertices.push( end.x, end.y, end.z ); + + } + + } + + } + + } + + // build geometry + + this.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + + } + + } + + copy( source ) { + + super.copy( source ); + + this.parameters = Object.assign( {}, source.parameters ); + + return this; + + } + +} + +function isUniqueEdge( start, end, edges ) { + + const hash1 = `${start.x},${start.y},${start.z}-${end.x},${end.y},${end.z}`; + const hash2 = `${end.x},${end.y},${end.z}-${start.x},${start.y},${start.z}`; // coincident edge + + if ( edges.has( hash1 ) === true || edges.has( hash2 ) === true ) { + + return false; + + } else { + + edges.add( hash1 ); + edges.add( hash2 ); + return true; + + } + +} + +var Geometries$1 = /*#__PURE__*/Object.freeze({ + __proto__: null, + BoxGeometry: BoxGeometry, + CapsuleGeometry: CapsuleGeometry, + CircleGeometry: CircleGeometry, + ConeGeometry: ConeGeometry, + CylinderGeometry: CylinderGeometry, + DodecahedronGeometry: DodecahedronGeometry, + EdgesGeometry: EdgesGeometry, + ExtrudeGeometry: ExtrudeGeometry, + IcosahedronGeometry: IcosahedronGeometry, + LatheGeometry: LatheGeometry, + OctahedronGeometry: OctahedronGeometry, + PlaneGeometry: PlaneGeometry, + PolyhedronGeometry: PolyhedronGeometry, + RingGeometry: RingGeometry, + ShapeGeometry: ShapeGeometry, + SphereGeometry: SphereGeometry, + TetrahedronGeometry: TetrahedronGeometry, + TorusGeometry: TorusGeometry, + TorusKnotGeometry: TorusKnotGeometry, + TubeGeometry: TubeGeometry, + WireframeGeometry: WireframeGeometry +}); + +class ShadowMaterial extends Material { + + constructor( parameters ) { + + super(); + + this.isShadowMaterial = true; + + this.type = 'ShadowMaterial'; + + this.color = new Color( 0x000000 ); + this.transparent = true; + + this.fog = true; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.color.copy( source.color ); + + this.fog = source.fog; + + return this; + + } + +} + +class RawShaderMaterial extends ShaderMaterial { + + constructor( parameters ) { + + super( parameters ); + + this.isRawShaderMaterial = true; + + this.type = 'RawShaderMaterial'; + + } + +} + +class MeshStandardMaterial extends Material { + + constructor( parameters ) { + + super(); + + this.isMeshStandardMaterial = true; + + this.defines = { 'STANDARD': '' }; + + this.type = 'MeshStandardMaterial'; + + this.color = new Color( 0xffffff ); // diffuse + this.roughness = 1.0; + this.metalness = 0.0; + + this.map = null; + + this.lightMap = null; + this.lightMapIntensity = 1.0; + + this.aoMap = null; + this.aoMapIntensity = 1.0; + + this.emissive = new Color( 0x000000 ); + this.emissiveIntensity = 1.0; + this.emissiveMap = null; + + this.bumpMap = null; + this.bumpScale = 1; + + this.normalMap = null; + this.normalMapType = TangentSpaceNormalMap; + this.normalScale = new Vector2( 1, 1 ); + + this.displacementMap = null; + this.displacementScale = 1; + this.displacementBias = 0; + + this.roughnessMap = null; + + this.metalnessMap = null; + + this.alphaMap = null; + + this.envMap = null; + this.envMapRotation = new Euler(); + this.envMapIntensity = 1.0; + + this.wireframe = false; + this.wireframeLinewidth = 1; + this.wireframeLinecap = 'round'; + this.wireframeLinejoin = 'round'; + + this.flatShading = false; + + this.fog = true; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.defines = { 'STANDARD': '' }; + + this.color.copy( source.color ); + this.roughness = source.roughness; + this.metalness = source.metalness; + + this.map = source.map; + + this.lightMap = source.lightMap; + this.lightMapIntensity = source.lightMapIntensity; + + this.aoMap = source.aoMap; + this.aoMapIntensity = source.aoMapIntensity; + + this.emissive.copy( source.emissive ); + this.emissiveMap = source.emissiveMap; + this.emissiveIntensity = source.emissiveIntensity; + + this.bumpMap = source.bumpMap; + this.bumpScale = source.bumpScale; + + this.normalMap = source.normalMap; + this.normalMapType = source.normalMapType; + this.normalScale.copy( source.normalScale ); + + this.displacementMap = source.displacementMap; + this.displacementScale = source.displacementScale; + this.displacementBias = source.displacementBias; + + this.roughnessMap = source.roughnessMap; + + this.metalnessMap = source.metalnessMap; + + this.alphaMap = source.alphaMap; + + this.envMap = source.envMap; + this.envMapRotation.copy( source.envMapRotation ); + this.envMapIntensity = source.envMapIntensity; + + this.wireframe = source.wireframe; + this.wireframeLinewidth = source.wireframeLinewidth; + this.wireframeLinecap = source.wireframeLinecap; + this.wireframeLinejoin = source.wireframeLinejoin; + + this.flatShading = source.flatShading; + + this.fog = source.fog; + + return this; + + } + +} + +class MeshPhysicalMaterial extends MeshStandardMaterial { + + constructor( parameters ) { + + super(); + + this.isMeshPhysicalMaterial = true; + + this.defines = { + + 'STANDARD': '', + 'PHYSICAL': '' + + }; + + this.type = 'MeshPhysicalMaterial'; + + this.anisotropyRotation = 0; + this.anisotropyMap = null; + + this.clearcoatMap = null; + this.clearcoatRoughness = 0.0; + this.clearcoatRoughnessMap = null; + this.clearcoatNormalScale = new Vector2( 1, 1 ); + this.clearcoatNormalMap = null; + + this.ior = 1.5; + + Object.defineProperty( this, 'reflectivity', { + get: function () { + + return ( clamp$1( 2.5 * ( this.ior - 1 ) / ( this.ior + 1 ), 0, 1 ) ); + + }, + set: function ( reflectivity ) { + + this.ior = ( 1 + 0.4 * reflectivity ) / ( 1 - 0.4 * reflectivity ); + + } + } ); + + this.iridescenceMap = null; + this.iridescenceIOR = 1.3; + this.iridescenceThicknessRange = [ 100, 400 ]; + this.iridescenceThicknessMap = null; + + this.sheenColor = new Color( 0x000000 ); + this.sheenColorMap = null; + this.sheenRoughness = 1.0; + this.sheenRoughnessMap = null; + + this.transmissionMap = null; + + this.thickness = 0; + this.thicknessMap = null; + this.attenuationDistance = Infinity; + this.attenuationColor = new Color( 1, 1, 1 ); + + this.specularIntensity = 1.0; + this.specularIntensityMap = null; + this.specularColor = new Color( 1, 1, 1 ); + this.specularColorMap = null; + + this._anisotropy = 0; + this._clearcoat = 0; + this._dispersion = 0; + this._iridescence = 0; + this._sheen = 0.0; + this._transmission = 0; + + this.setValues( parameters ); + + } + + get anisotropy() { + + return this._anisotropy; + + } + + set anisotropy( value ) { + + if ( this._anisotropy > 0 !== value > 0 ) { + + this.version ++; + + } + + this._anisotropy = value; + + } + + get clearcoat() { + + return this._clearcoat; + + } + + set clearcoat( value ) { + + if ( this._clearcoat > 0 !== value > 0 ) { + + this.version ++; + + } + + this._clearcoat = value; + + } + + get iridescence() { + + return this._iridescence; + + } + + set iridescence( value ) { + + if ( this._iridescence > 0 !== value > 0 ) { + + this.version ++; + + } + + this._iridescence = value; + + } + + get dispersion() { + + return this._dispersion; + + } + + set dispersion( value ) { + + if ( this._dispersion > 0 !== value > 0 ) { + + this.version ++; + + } + + this._dispersion = value; + + } + + get sheen() { + + return this._sheen; + + } + + set sheen( value ) { + + if ( this._sheen > 0 !== value > 0 ) { + + this.version ++; + + } + + this._sheen = value; + + } + + get transmission() { + + return this._transmission; + + } + + set transmission( value ) { + + if ( this._transmission > 0 !== value > 0 ) { + + this.version ++; + + } + + this._transmission = value; + + } + + copy( source ) { + + super.copy( source ); + + this.defines = { + + 'STANDARD': '', + 'PHYSICAL': '' + + }; + + this.anisotropy = source.anisotropy; + this.anisotropyRotation = source.anisotropyRotation; + this.anisotropyMap = source.anisotropyMap; + + this.clearcoat = source.clearcoat; + this.clearcoatMap = source.clearcoatMap; + this.clearcoatRoughness = source.clearcoatRoughness; + this.clearcoatRoughnessMap = source.clearcoatRoughnessMap; + this.clearcoatNormalMap = source.clearcoatNormalMap; + this.clearcoatNormalScale.copy( source.clearcoatNormalScale ); + + this.dispersion = source.dispersion; + this.ior = source.ior; + + this.iridescence = source.iridescence; + this.iridescenceMap = source.iridescenceMap; + this.iridescenceIOR = source.iridescenceIOR; + this.iridescenceThicknessRange = [ ...source.iridescenceThicknessRange ]; + this.iridescenceThicknessMap = source.iridescenceThicknessMap; + + this.sheen = source.sheen; + this.sheenColor.copy( source.sheenColor ); + this.sheenColorMap = source.sheenColorMap; + this.sheenRoughness = source.sheenRoughness; + this.sheenRoughnessMap = source.sheenRoughnessMap; + + this.transmission = source.transmission; + this.transmissionMap = source.transmissionMap; + + this.thickness = source.thickness; + this.thicknessMap = source.thicknessMap; + this.attenuationDistance = source.attenuationDistance; + this.attenuationColor.copy( source.attenuationColor ); + + this.specularIntensity = source.specularIntensity; + this.specularIntensityMap = source.specularIntensityMap; + this.specularColor.copy( source.specularColor ); + this.specularColorMap = source.specularColorMap; + + return this; + + } + +} + +class MeshPhongMaterial extends Material { + + constructor( parameters ) { + + super(); + + this.isMeshPhongMaterial = true; + + this.type = 'MeshPhongMaterial'; + + this.color = new Color( 0xffffff ); // diffuse + this.specular = new Color( 0x111111 ); + this.shininess = 30; + + this.map = null; + + this.lightMap = null; + this.lightMapIntensity = 1.0; + + this.aoMap = null; + this.aoMapIntensity = 1.0; + + this.emissive = new Color( 0x000000 ); + this.emissiveIntensity = 1.0; + this.emissiveMap = null; + + this.bumpMap = null; + this.bumpScale = 1; + + this.normalMap = null; + this.normalMapType = TangentSpaceNormalMap; + this.normalScale = new Vector2( 1, 1 ); + + this.displacementMap = null; + this.displacementScale = 1; + this.displacementBias = 0; + + this.specularMap = null; + + this.alphaMap = null; + + this.envMap = null; + this.envMapRotation = new Euler(); + this.combine = MultiplyOperation; + this.reflectivity = 1; + this.refractionRatio = 0.98; + + this.wireframe = false; + this.wireframeLinewidth = 1; + this.wireframeLinecap = 'round'; + this.wireframeLinejoin = 'round'; + + this.flatShading = false; + + this.fog = true; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.color.copy( source.color ); + this.specular.copy( source.specular ); + this.shininess = source.shininess; + + this.map = source.map; + + this.lightMap = source.lightMap; + this.lightMapIntensity = source.lightMapIntensity; + + this.aoMap = source.aoMap; + this.aoMapIntensity = source.aoMapIntensity; + + this.emissive.copy( source.emissive ); + this.emissiveMap = source.emissiveMap; + this.emissiveIntensity = source.emissiveIntensity; + + this.bumpMap = source.bumpMap; + this.bumpScale = source.bumpScale; + + this.normalMap = source.normalMap; + this.normalMapType = source.normalMapType; + this.normalScale.copy( source.normalScale ); + + this.displacementMap = source.displacementMap; + this.displacementScale = source.displacementScale; + this.displacementBias = source.displacementBias; + + this.specularMap = source.specularMap; + + this.alphaMap = source.alphaMap; + + this.envMap = source.envMap; + this.envMapRotation.copy( source.envMapRotation ); + this.combine = source.combine; + this.reflectivity = source.reflectivity; + this.refractionRatio = source.refractionRatio; + + this.wireframe = source.wireframe; + this.wireframeLinewidth = source.wireframeLinewidth; + this.wireframeLinecap = source.wireframeLinecap; + this.wireframeLinejoin = source.wireframeLinejoin; + + this.flatShading = source.flatShading; + + this.fog = source.fog; + + return this; + + } + +} + +class MeshToonMaterial extends Material { + + constructor( parameters ) { + + super(); + + this.isMeshToonMaterial = true; + + this.defines = { 'TOON': '' }; + + this.type = 'MeshToonMaterial'; + + this.color = new Color( 0xffffff ); + + this.map = null; + this.gradientMap = null; + + this.lightMap = null; + this.lightMapIntensity = 1.0; + + this.aoMap = null; + this.aoMapIntensity = 1.0; + + this.emissive = new Color( 0x000000 ); + this.emissiveIntensity = 1.0; + this.emissiveMap = null; + + this.bumpMap = null; + this.bumpScale = 1; + + this.normalMap = null; + this.normalMapType = TangentSpaceNormalMap; + this.normalScale = new Vector2( 1, 1 ); + + this.displacementMap = null; + this.displacementScale = 1; + this.displacementBias = 0; + + this.alphaMap = null; + + this.wireframe = false; + this.wireframeLinewidth = 1; + this.wireframeLinecap = 'round'; + this.wireframeLinejoin = 'round'; + + this.fog = true; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.color.copy( source.color ); + + this.map = source.map; + this.gradientMap = source.gradientMap; + + this.lightMap = source.lightMap; + this.lightMapIntensity = source.lightMapIntensity; + + this.aoMap = source.aoMap; + this.aoMapIntensity = source.aoMapIntensity; + + this.emissive.copy( source.emissive ); + this.emissiveMap = source.emissiveMap; + this.emissiveIntensity = source.emissiveIntensity; + + this.bumpMap = source.bumpMap; + this.bumpScale = source.bumpScale; + + this.normalMap = source.normalMap; + this.normalMapType = source.normalMapType; + this.normalScale.copy( source.normalScale ); + + this.displacementMap = source.displacementMap; + this.displacementScale = source.displacementScale; + this.displacementBias = source.displacementBias; + + this.alphaMap = source.alphaMap; + + this.wireframe = source.wireframe; + this.wireframeLinewidth = source.wireframeLinewidth; + this.wireframeLinecap = source.wireframeLinecap; + this.wireframeLinejoin = source.wireframeLinejoin; + + this.fog = source.fog; + + return this; + + } + +} + +class MeshNormalMaterial extends Material { + + constructor( parameters ) { + + super(); + + this.isMeshNormalMaterial = true; + + this.type = 'MeshNormalMaterial'; + + this.bumpMap = null; + this.bumpScale = 1; + + this.normalMap = null; + this.normalMapType = TangentSpaceNormalMap; + this.normalScale = new Vector2( 1, 1 ); + + this.displacementMap = null; + this.displacementScale = 1; + this.displacementBias = 0; + + this.wireframe = false; + this.wireframeLinewidth = 1; + + this.flatShading = false; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.bumpMap = source.bumpMap; + this.bumpScale = source.bumpScale; + + this.normalMap = source.normalMap; + this.normalMapType = source.normalMapType; + this.normalScale.copy( source.normalScale ); + + this.displacementMap = source.displacementMap; + this.displacementScale = source.displacementScale; + this.displacementBias = source.displacementBias; + + this.wireframe = source.wireframe; + this.wireframeLinewidth = source.wireframeLinewidth; + + this.flatShading = source.flatShading; + + return this; + + } + +} + +class MeshLambertMaterial extends Material { + + constructor( parameters ) { + + super(); + + this.isMeshLambertMaterial = true; + + this.type = 'MeshLambertMaterial'; + + this.color = new Color( 0xffffff ); // diffuse + + this.map = null; + + this.lightMap = null; + this.lightMapIntensity = 1.0; + + this.aoMap = null; + this.aoMapIntensity = 1.0; + + this.emissive = new Color( 0x000000 ); + this.emissiveIntensity = 1.0; + this.emissiveMap = null; + + this.bumpMap = null; + this.bumpScale = 1; + + this.normalMap = null; + this.normalMapType = TangentSpaceNormalMap; + this.normalScale = new Vector2( 1, 1 ); + + this.displacementMap = null; + this.displacementScale = 1; + this.displacementBias = 0; + + this.specularMap = null; + + this.alphaMap = null; + + this.envMap = null; + this.envMapRotation = new Euler(); + this.combine = MultiplyOperation; + this.reflectivity = 1; + this.refractionRatio = 0.98; + + this.wireframe = false; + this.wireframeLinewidth = 1; + this.wireframeLinecap = 'round'; + this.wireframeLinejoin = 'round'; + + this.flatShading = false; + + this.fog = true; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.color.copy( source.color ); + + this.map = source.map; + + this.lightMap = source.lightMap; + this.lightMapIntensity = source.lightMapIntensity; + + this.aoMap = source.aoMap; + this.aoMapIntensity = source.aoMapIntensity; + + this.emissive.copy( source.emissive ); + this.emissiveMap = source.emissiveMap; + this.emissiveIntensity = source.emissiveIntensity; + + this.bumpMap = source.bumpMap; + this.bumpScale = source.bumpScale; + + this.normalMap = source.normalMap; + this.normalMapType = source.normalMapType; + this.normalScale.copy( source.normalScale ); + + this.displacementMap = source.displacementMap; + this.displacementScale = source.displacementScale; + this.displacementBias = source.displacementBias; + + this.specularMap = source.specularMap; + + this.alphaMap = source.alphaMap; + + this.envMap = source.envMap; + this.envMapRotation.copy( source.envMapRotation ); + this.combine = source.combine; + this.reflectivity = source.reflectivity; + this.refractionRatio = source.refractionRatio; + + this.wireframe = source.wireframe; + this.wireframeLinewidth = source.wireframeLinewidth; + this.wireframeLinecap = source.wireframeLinecap; + this.wireframeLinejoin = source.wireframeLinejoin; + + this.flatShading = source.flatShading; + + this.fog = source.fog; + + return this; + + } + +} + +class MeshDepthMaterial extends Material { + + constructor( parameters ) { + + super(); + + this.isMeshDepthMaterial = true; + + this.type = 'MeshDepthMaterial'; + + this.depthPacking = BasicDepthPacking; + + this.map = null; + + this.alphaMap = null; + + this.displacementMap = null; + this.displacementScale = 1; + this.displacementBias = 0; + + this.wireframe = false; + this.wireframeLinewidth = 1; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.depthPacking = source.depthPacking; + + this.map = source.map; + + this.alphaMap = source.alphaMap; + + this.displacementMap = source.displacementMap; + this.displacementScale = source.displacementScale; + this.displacementBias = source.displacementBias; + + this.wireframe = source.wireframe; + this.wireframeLinewidth = source.wireframeLinewidth; + + return this; + + } + +} + +class MeshDistanceMaterial extends Material { + + constructor( parameters ) { + + super(); + + this.isMeshDistanceMaterial = true; + + this.type = 'MeshDistanceMaterial'; + + this.map = null; + + this.alphaMap = null; + + this.displacementMap = null; + this.displacementScale = 1; + this.displacementBias = 0; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.map = source.map; + + this.alphaMap = source.alphaMap; + + this.displacementMap = source.displacementMap; + this.displacementScale = source.displacementScale; + this.displacementBias = source.displacementBias; + + return this; + + } + +} + +class MeshMatcapMaterial extends Material { + + constructor( parameters ) { + + super(); + + this.isMeshMatcapMaterial = true; + + this.defines = { 'MATCAP': '' }; + + this.type = 'MeshMatcapMaterial'; + + this.color = new Color( 0xffffff ); // diffuse + + this.matcap = null; + + this.map = null; + + this.bumpMap = null; + this.bumpScale = 1; + + this.normalMap = null; + this.normalMapType = TangentSpaceNormalMap; + this.normalScale = new Vector2( 1, 1 ); + + this.displacementMap = null; + this.displacementScale = 1; + this.displacementBias = 0; + + this.alphaMap = null; + + this.flatShading = false; + + this.fog = true; + + this.setValues( parameters ); + + } + + + copy( source ) { + + super.copy( source ); + + this.defines = { 'MATCAP': '' }; + + this.color.copy( source.color ); + + this.matcap = source.matcap; + + this.map = source.map; + + this.bumpMap = source.bumpMap; + this.bumpScale = source.bumpScale; + + this.normalMap = source.normalMap; + this.normalMapType = source.normalMapType; + this.normalScale.copy( source.normalScale ); + + this.displacementMap = source.displacementMap; + this.displacementScale = source.displacementScale; + this.displacementBias = source.displacementBias; + + this.alphaMap = source.alphaMap; + + this.flatShading = source.flatShading; + + this.fog = source.fog; + + return this; + + } + +} + +class LineDashedMaterial extends LineBasicMaterial { + + constructor( parameters ) { + + super(); + + this.isLineDashedMaterial = true; + + this.type = 'LineDashedMaterial'; + + this.scale = 1; + this.dashSize = 3; + this.gapSize = 1; + + this.setValues( parameters ); + + } + + copy( source ) { + + super.copy( source ); + + this.scale = source.scale; + this.dashSize = source.dashSize; + this.gapSize = source.gapSize; + + return this; + + } + +} + +// converts an array to a specific type +function convertArray( array, type, forceClone ) { + + if ( ! array || // let 'undefined' and 'null' pass + ! forceClone && array.constructor === type ) return array; + + if ( typeof type.BYTES_PER_ELEMENT === 'number' ) { + + return new type( array ); // create typed array + + } + + return Array.prototype.slice.call( array ); // create Array + +} + +function isTypedArray( object ) { + + return ArrayBuffer.isView( object ) && + ! ( object instanceof DataView ); + +} + +// returns an array by which times and values can be sorted +function getKeyframeOrder( times ) { + + function compareTime( i, j ) { + + return times[ i ] - times[ j ]; + + } + + const n = times.length; + const result = new Array( n ); + for ( let i = 0; i !== n; ++ i ) result[ i ] = i; + + result.sort( compareTime ); + + return result; + +} + +// uses the array previously returned by 'getKeyframeOrder' to sort data +function sortedArray( values, stride, order ) { + + const nValues = values.length; + const result = new values.constructor( nValues ); + + for ( let i = 0, dstOffset = 0; dstOffset !== nValues; ++ i ) { + + const srcOffset = order[ i ] * stride; + + for ( let j = 0; j !== stride; ++ j ) { + + result[ dstOffset ++ ] = values[ srcOffset + j ]; + + } + + } + + return result; + +} + +// function for parsing AOS keyframe formats +function flattenJSON( jsonKeys, times, values, valuePropertyName ) { + + let i = 1, key = jsonKeys[ 0 ]; + + while ( key !== undefined && key[ valuePropertyName ] === undefined ) { + + key = jsonKeys[ i ++ ]; + + } + + if ( key === undefined ) return; // no data + + let value = key[ valuePropertyName ]; + if ( value === undefined ) return; // no data + + if ( Array.isArray( value ) ) { + + do { + + value = key[ valuePropertyName ]; + + if ( value !== undefined ) { + + times.push( key.time ); + values.push.apply( values, value ); // push all elements + + } + + key = jsonKeys[ i ++ ]; + + } while ( key !== undefined ); + + } else if ( value.toArray !== undefined ) { + + // ...assume THREE.Math-ish + + do { + + value = key[ valuePropertyName ]; + + if ( value !== undefined ) { + + times.push( key.time ); + value.toArray( values, values.length ); + + } + + key = jsonKeys[ i ++ ]; + + } while ( key !== undefined ); + + } else { + + // otherwise push as-is + + do { + + value = key[ valuePropertyName ]; + + if ( value !== undefined ) { + + times.push( key.time ); + values.push( value ); + + } + + key = jsonKeys[ i ++ ]; + + } while ( key !== undefined ); + + } + +} + +function subclip( sourceClip, name, startFrame, endFrame, fps = 30 ) { + + const clip = sourceClip.clone(); + + clip.name = name; + + const tracks = []; + + for ( let i = 0; i < clip.tracks.length; ++ i ) { + + const track = clip.tracks[ i ]; + const valueSize = track.getValueSize(); + + const times = []; + const values = []; + + for ( let j = 0; j < track.times.length; ++ j ) { + + const frame = track.times[ j ] * fps; + + if ( frame < startFrame || frame >= endFrame ) continue; + + times.push( track.times[ j ] ); + + for ( let k = 0; k < valueSize; ++ k ) { + + values.push( track.values[ j * valueSize + k ] ); + + } + + } + + if ( times.length === 0 ) continue; + + track.times = convertArray( times, track.times.constructor ); + track.values = convertArray( values, track.values.constructor ); + + tracks.push( track ); + + } + + clip.tracks = tracks; + + // find minimum .times value across all tracks in the trimmed clip + + let minStartTime = Infinity; + + for ( let i = 0; i < clip.tracks.length; ++ i ) { + + if ( minStartTime > clip.tracks[ i ].times[ 0 ] ) { + + minStartTime = clip.tracks[ i ].times[ 0 ]; + + } + + } + + // shift all tracks such that clip begins at t=0 + + for ( let i = 0; i < clip.tracks.length; ++ i ) { + + clip.tracks[ i ].shift( - 1 * minStartTime ); + + } + + clip.resetDuration(); + + return clip; + +} + +function makeClipAdditive( targetClip, referenceFrame = 0, referenceClip = targetClip, fps = 30 ) { + + if ( fps <= 0 ) fps = 30; + + const numTracks = referenceClip.tracks.length; + const referenceTime = referenceFrame / fps; + + // Make each track's values relative to the values at the reference frame + for ( let i = 0; i < numTracks; ++ i ) { + + const referenceTrack = referenceClip.tracks[ i ]; + const referenceTrackType = referenceTrack.ValueTypeName; + + // Skip this track if it's non-numeric + if ( referenceTrackType === 'bool' || referenceTrackType === 'string' ) continue; + + // Find the track in the target clip whose name and type matches the reference track + const targetTrack = targetClip.tracks.find( function ( track ) { + + return track.name === referenceTrack.name + && track.ValueTypeName === referenceTrackType; + + } ); + + if ( targetTrack === undefined ) continue; + + let referenceOffset = 0; + const referenceValueSize = referenceTrack.getValueSize(); + + if ( referenceTrack.createInterpolant.isInterpolantFactoryMethodGLTFCubicSpline ) { + + referenceOffset = referenceValueSize / 3; + + } + + let targetOffset = 0; + const targetValueSize = targetTrack.getValueSize(); + + if ( targetTrack.createInterpolant.isInterpolantFactoryMethodGLTFCubicSpline ) { + + targetOffset = targetValueSize / 3; + + } + + const lastIndex = referenceTrack.times.length - 1; + let referenceValue; + + // Find the value to subtract out of the track + if ( referenceTime <= referenceTrack.times[ 0 ] ) { + + // Reference frame is earlier than the first keyframe, so just use the first keyframe + const startIndex = referenceOffset; + const endIndex = referenceValueSize - referenceOffset; + referenceValue = referenceTrack.values.slice( startIndex, endIndex ); + + } else if ( referenceTime >= referenceTrack.times[ lastIndex ] ) { + + // Reference frame is after the last keyframe, so just use the last keyframe + const startIndex = lastIndex * referenceValueSize + referenceOffset; + const endIndex = startIndex + referenceValueSize - referenceOffset; + referenceValue = referenceTrack.values.slice( startIndex, endIndex ); + + } else { + + // Interpolate to the reference value + const interpolant = referenceTrack.createInterpolant(); + const startIndex = referenceOffset; + const endIndex = referenceValueSize - referenceOffset; + interpolant.evaluate( referenceTime ); + referenceValue = interpolant.resultBuffer.slice( startIndex, endIndex ); + + } + + // Conjugate the quaternion + if ( referenceTrackType === 'quaternion' ) { + + const referenceQuat = new Quaternion().fromArray( referenceValue ).normalize().conjugate(); + referenceQuat.toArray( referenceValue ); + + } + + // Subtract the reference value from all of the track values + + const numTimes = targetTrack.times.length; + for ( let j = 0; j < numTimes; ++ j ) { + + const valueStart = j * targetValueSize + targetOffset; + + if ( referenceTrackType === 'quaternion' ) { + + // Multiply the conjugate for quaternion track types + Quaternion.multiplyQuaternionsFlat( + targetTrack.values, + valueStart, + referenceValue, + 0, + targetTrack.values, + valueStart + ); + + } else { + + const valueEnd = targetValueSize - targetOffset * 2; + + // Subtract each value for all other numeric track types + for ( let k = 0; k < valueEnd; ++ k ) { + + targetTrack.values[ valueStart + k ] -= referenceValue[ k ]; + + } + + } + + } + + } + + targetClip.blendMode = AdditiveAnimationBlendMode; + + return targetClip; + +} + +const AnimationUtils = { + convertArray: convertArray, + isTypedArray: isTypedArray, + getKeyframeOrder: getKeyframeOrder, + sortedArray: sortedArray, + flattenJSON: flattenJSON, + subclip: subclip, + makeClipAdditive: makeClipAdditive +}; + +/** + * Abstract base class of interpolants over parametric samples. + * + * The parameter domain is one dimensional, typically the time or a path + * along a curve defined by the data. + * + * The sample values can have any dimensionality and derived classes may + * apply special interpretations to the data. + * + * This class provides the interval seek in a Template Method, deferring + * the actual interpolation to derived classes. + * + * Time complexity is O(1) for linear access crossing at most two points + * and O(log N) for random access, where N is the number of positions. + * + * References: + * + * http://www.oodesign.com/template-method-pattern.html + * + */ + +class Interpolant { + + constructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) { + + this.parameterPositions = parameterPositions; + this._cachedIndex = 0; + + this.resultBuffer = resultBuffer !== undefined ? + resultBuffer : new sampleValues.constructor( sampleSize ); + this.sampleValues = sampleValues; + this.valueSize = sampleSize; + + this.settings = null; + this.DefaultSettings_ = {}; + + } + + evaluate( t ) { + + const pp = this.parameterPositions; + let i1 = this._cachedIndex, + t1 = pp[ i1 ], + t0 = pp[ i1 - 1 ]; + + validate_interval: { + + seek: { + + let right; + + linear_scan: { + + //- See http://jsperf.com/comparison-to-undefined/3 + //- slower code: + //- + //- if ( t >= t1 || t1 === undefined ) { + forward_scan: if ( ! ( t < t1 ) ) { + + for ( let giveUpAt = i1 + 2; ; ) { + + if ( t1 === undefined ) { + + if ( t < t0 ) break forward_scan; + + // after end + + i1 = pp.length; + this._cachedIndex = i1; + return this.copySampleValue_( i1 - 1 ); + + } + + if ( i1 === giveUpAt ) break; // this loop + + t0 = t1; + t1 = pp[ ++ i1 ]; + + if ( t < t1 ) { + + // we have arrived at the sought interval + break seek; + + } + + } + + // prepare binary search on the right side of the index + right = pp.length; + break linear_scan; + + } + + //- slower code: + //- if ( t < t0 || t0 === undefined ) { + if ( ! ( t >= t0 ) ) { + + // looping? + + const t1global = pp[ 1 ]; + + if ( t < t1global ) { + + i1 = 2; // + 1, using the scan for the details + t0 = t1global; + + } + + // linear reverse scan + + for ( let giveUpAt = i1 - 2; ; ) { + + if ( t0 === undefined ) { + + // before start + + this._cachedIndex = 0; + return this.copySampleValue_( 0 ); + + } + + if ( i1 === giveUpAt ) break; // this loop + + t1 = t0; + t0 = pp[ -- i1 - 1 ]; + + if ( t >= t0 ) { + + // we have arrived at the sought interval + break seek; + + } + + } + + // prepare binary search on the left side of the index + right = i1; + i1 = 0; + break linear_scan; + + } + + // the interval is valid + + break validate_interval; + + } // linear scan + + // binary search + + while ( i1 < right ) { + + const mid = ( i1 + right ) >>> 1; + + if ( t < pp[ mid ] ) { + + right = mid; + + } else { + + i1 = mid + 1; + + } + + } + + t1 = pp[ i1 ]; + t0 = pp[ i1 - 1 ]; + + // check boundary cases, again + + if ( t0 === undefined ) { + + this._cachedIndex = 0; + return this.copySampleValue_( 0 ); + + } + + if ( t1 === undefined ) { + + i1 = pp.length; + this._cachedIndex = i1; + return this.copySampleValue_( i1 - 1 ); + + } + + } // seek + + this._cachedIndex = i1; + + this.intervalChanged_( i1, t0, t1 ); + + } // validate_interval + + return this.interpolate_( i1, t0, t, t1 ); + + } + + getSettings_() { + + return this.settings || this.DefaultSettings_; + + } + + copySampleValue_( index ) { + + // copies a sample value to the result buffer + + const result = this.resultBuffer, + values = this.sampleValues, + stride = this.valueSize, + offset = index * stride; + + for ( let i = 0; i !== stride; ++ i ) { + + result[ i ] = values[ offset + i ]; + + } + + return result; + + } + + // Template methods for derived classes: + + interpolate_( /* i1, t0, t, t1 */ ) { + + throw new Error( 'call to abstract method' ); + // implementations shall return this.resultBuffer + + } + + intervalChanged_( /* i1, t0, t1 */ ) { + + // empty + + } + +} + +/** + * Fast and simple cubic spline interpolant. + * + * It was derived from a Hermitian construction setting the first derivative + * at each sample position to the linear slope between neighboring positions + * over their parameter interval. + */ + +class CubicInterpolant extends Interpolant { + + constructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) { + + super( parameterPositions, sampleValues, sampleSize, resultBuffer ); + + this._weightPrev = - 0; + this._offsetPrev = - 0; + this._weightNext = - 0; + this._offsetNext = - 0; + + this.DefaultSettings_ = { + + endingStart: ZeroCurvatureEnding, + endingEnd: ZeroCurvatureEnding + + }; + + } + + intervalChanged_( i1, t0, t1 ) { + + const pp = this.parameterPositions; + let iPrev = i1 - 2, + iNext = i1 + 1, + + tPrev = pp[ iPrev ], + tNext = pp[ iNext ]; + + if ( tPrev === undefined ) { + + switch ( this.getSettings_().endingStart ) { + + case ZeroSlopeEnding: + + // f'(t0) = 0 + iPrev = i1; + tPrev = 2 * t0 - t1; + + break; + + case WrapAroundEnding: + + // use the other end of the curve + iPrev = pp.length - 2; + tPrev = t0 + pp[ iPrev ] - pp[ iPrev + 1 ]; + + break; + + default: // ZeroCurvatureEnding + + // f''(t0) = 0 a.k.a. Natural Spline + iPrev = i1; + tPrev = t1; + + } + + } + + if ( tNext === undefined ) { + + switch ( this.getSettings_().endingEnd ) { + + case ZeroSlopeEnding: + + // f'(tN) = 0 + iNext = i1; + tNext = 2 * t1 - t0; + + break; + + case WrapAroundEnding: + + // use the other end of the curve + iNext = 1; + tNext = t1 + pp[ 1 ] - pp[ 0 ]; + + break; + + default: // ZeroCurvatureEnding + + // f''(tN) = 0, a.k.a. Natural Spline + iNext = i1 - 1; + tNext = t0; + + } + + } + + const halfDt = ( t1 - t0 ) * 0.5, + stride = this.valueSize; + + this._weightPrev = halfDt / ( t0 - tPrev ); + this._weightNext = halfDt / ( tNext - t1 ); + this._offsetPrev = iPrev * stride; + this._offsetNext = iNext * stride; + + } + + interpolate_( i1, t0, t, t1 ) { + + const result = this.resultBuffer, + values = this.sampleValues, + stride = this.valueSize, + + o1 = i1 * stride, o0 = o1 - stride, + oP = this._offsetPrev, oN = this._offsetNext, + wP = this._weightPrev, wN = this._weightNext, + + p = ( t - t0 ) / ( t1 - t0 ), + pp = p * p, + ppp = pp * p; + + // evaluate polynomials + + const sP = - wP * ppp + 2 * wP * pp - wP * p; + const s0 = ( 1 + wP ) * ppp + ( - 1.5 - 2 * wP ) * pp + ( - 0.5 + wP ) * p + 1; + const s1 = ( - 1 - wN ) * ppp + ( 1.5 + wN ) * pp + 0.5 * p; + const sN = wN * ppp - wN * pp; + + // combine data linearly + + for ( let i = 0; i !== stride; ++ i ) { + + result[ i ] = + sP * values[ oP + i ] + + s0 * values[ o0 + i ] + + s1 * values[ o1 + i ] + + sN * values[ oN + i ]; + + } + + return result; + + } + +} + +class LinearInterpolant extends Interpolant { + + constructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) { + + super( parameterPositions, sampleValues, sampleSize, resultBuffer ); + + } + + interpolate_( i1, t0, t, t1 ) { + + const result = this.resultBuffer, + values = this.sampleValues, + stride = this.valueSize, + + offset1 = i1 * stride, + offset0 = offset1 - stride, + + weight1 = ( t - t0 ) / ( t1 - t0 ), + weight0 = 1 - weight1; + + for ( let i = 0; i !== stride; ++ i ) { + + result[ i ] = + values[ offset0 + i ] * weight0 + + values[ offset1 + i ] * weight1; + + } + + return result; + + } + +} + +/** + * + * Interpolant that evaluates to the sample value at the position preceding + * the parameter. + */ + +class DiscreteInterpolant extends Interpolant { + + constructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) { + + super( parameterPositions, sampleValues, sampleSize, resultBuffer ); + + } + + interpolate_( i1 /*, t0, t, t1 */ ) { + + return this.copySampleValue_( i1 - 1 ); + + } + +} + +class KeyframeTrack { + + constructor( name, times, values, interpolation ) { + + if ( name === undefined ) throw new Error( 'THREE.KeyframeTrack: track name is undefined' ); + if ( times === undefined || times.length === 0 ) throw new Error( 'THREE.KeyframeTrack: no keyframes in track named ' + name ); + + this.name = name; + + this.times = convertArray( times, this.TimeBufferType ); + this.values = convertArray( values, this.ValueBufferType ); + + this.setInterpolation( interpolation || this.DefaultInterpolation ); + + } + + // Serialization (in static context, because of constructor invocation + // and automatic invocation of .toJSON): + + static toJSON( track ) { + + const trackType = track.constructor; + + let json; + + // derived classes can define a static toJSON method + if ( trackType.toJSON !== this.toJSON ) { + + json = trackType.toJSON( track ); + + } else { + + // by default, we assume the data can be serialized as-is + json = { + + 'name': track.name, + 'times': convertArray( track.times, Array ), + 'values': convertArray( track.values, Array ) + + }; + + const interpolation = track.getInterpolation(); + + if ( interpolation !== track.DefaultInterpolation ) { + + json.interpolation = interpolation; + + } + + } + + json.type = track.ValueTypeName; // mandatory + + return json; + + } + + InterpolantFactoryMethodDiscrete( result ) { + + return new DiscreteInterpolant( this.times, this.values, this.getValueSize(), result ); + + } + + InterpolantFactoryMethodLinear( result ) { + + return new LinearInterpolant( this.times, this.values, this.getValueSize(), result ); + + } + + InterpolantFactoryMethodSmooth( result ) { + + return new CubicInterpolant( this.times, this.values, this.getValueSize(), result ); + + } + + setInterpolation( interpolation ) { + + let factoryMethod; + + switch ( interpolation ) { + + case InterpolateDiscrete: + + factoryMethod = this.InterpolantFactoryMethodDiscrete; + + break; + + case InterpolateLinear: + + factoryMethod = this.InterpolantFactoryMethodLinear; + + break; + + case InterpolateSmooth: + + factoryMethod = this.InterpolantFactoryMethodSmooth; + + break; + + } + + if ( factoryMethod === undefined ) { + + const message = 'unsupported interpolation for ' + + this.ValueTypeName + ' keyframe track named ' + this.name; + + if ( this.createInterpolant === undefined ) { + + // fall back to default, unless the default itself is messed up + if ( interpolation !== this.DefaultInterpolation ) { + + this.setInterpolation( this.DefaultInterpolation ); + + } else { + + throw new Error( message ); // fatal, in this case + + } + + } + + console.warn( 'THREE.KeyframeTrack:', message ); + return this; + + } + + this.createInterpolant = factoryMethod; + + return this; + + } + + getInterpolation() { + + switch ( this.createInterpolant ) { + + case this.InterpolantFactoryMethodDiscrete: + + return InterpolateDiscrete; + + case this.InterpolantFactoryMethodLinear: + + return InterpolateLinear; + + case this.InterpolantFactoryMethodSmooth: + + return InterpolateSmooth; + + } + + } + + getValueSize() { + + return this.values.length / this.times.length; + + } + + // move all keyframes either forwards or backwards in time + shift( timeOffset ) { + + if ( timeOffset !== 0.0 ) { + + const times = this.times; + + for ( let i = 0, n = times.length; i !== n; ++ i ) { + + times[ i ] += timeOffset; + + } + + } + + return this; + + } + + // scale all keyframe times by a factor (useful for frame <-> seconds conversions) + scale( timeScale ) { + + if ( timeScale !== 1.0 ) { + + const times = this.times; + + for ( let i = 0, n = times.length; i !== n; ++ i ) { + + times[ i ] *= timeScale; + + } + + } + + return this; + + } + + // removes keyframes before and after animation without changing any values within the range [startTime, endTime]. + // IMPORTANT: We do not shift around keys to the start of the track time, because for interpolated keys this will change their values + trim( startTime, endTime ) { + + const times = this.times, + nKeys = times.length; + + let from = 0, + to = nKeys - 1; + + while ( from !== nKeys && times[ from ] < startTime ) { + + ++ from; + + } + + while ( to !== - 1 && times[ to ] > endTime ) { + + -- to; + + } + + ++ to; // inclusive -> exclusive bound + + if ( from !== 0 || to !== nKeys ) { + + // empty tracks are forbidden, so keep at least one keyframe + if ( from >= to ) { + + to = Math.max( to, 1 ); + from = to - 1; + + } + + const stride = this.getValueSize(); + this.times = times.slice( from, to ); + this.values = this.values.slice( from * stride, to * stride ); + + } + + return this; + + } + + // ensure we do not get a GarbageInGarbageOut situation, make sure tracks are at least minimally viable + validate() { + + let valid = true; + + const valueSize = this.getValueSize(); + if ( valueSize - Math.floor( valueSize ) !== 0 ) { + + console.error( 'THREE.KeyframeTrack: Invalid value size in track.', this ); + valid = false; + + } + + const times = this.times, + values = this.values, + + nKeys = times.length; + + if ( nKeys === 0 ) { + + console.error( 'THREE.KeyframeTrack: Track is empty.', this ); + valid = false; + + } + + let prevTime = null; + + for ( let i = 0; i !== nKeys; i ++ ) { + + const currTime = times[ i ]; + + if ( typeof currTime === 'number' && isNaN( currTime ) ) { + + console.error( 'THREE.KeyframeTrack: Time is not a valid number.', this, i, currTime ); + valid = false; + break; + + } + + if ( prevTime !== null && prevTime > currTime ) { + + console.error( 'THREE.KeyframeTrack: Out of order keys.', this, i, currTime, prevTime ); + valid = false; + break; + + } + + prevTime = currTime; + + } + + if ( values !== undefined ) { + + if ( isTypedArray( values ) ) { + + for ( let i = 0, n = values.length; i !== n; ++ i ) { + + const value = values[ i ]; + + if ( isNaN( value ) ) { + + console.error( 'THREE.KeyframeTrack: Value is not a valid number.', this, i, value ); + valid = false; + break; + + } + + } + + } + + } + + return valid; + + } + + // removes equivalent sequential keys as common in morph target sequences + // (0,0,0,0,1,1,1,0,0,0,0,0,0,0) --> (0,0,1,1,0,0) + optimize() { + + // times or values may be shared with other tracks, so overwriting is unsafe + const times = this.times.slice(), + values = this.values.slice(), + stride = this.getValueSize(), + + smoothInterpolation = this.getInterpolation() === InterpolateSmooth, + + lastIndex = times.length - 1; + + let writeIndex = 1; + + for ( let i = 1; i < lastIndex; ++ i ) { + + let keep = false; + + const time = times[ i ]; + const timeNext = times[ i + 1 ]; + + // remove adjacent keyframes scheduled at the same time + + if ( time !== timeNext && ( i !== 1 || time !== times[ 0 ] ) ) { + + if ( ! smoothInterpolation ) { + + // remove unnecessary keyframes same as their neighbors + + const offset = i * stride, + offsetP = offset - stride, + offsetN = offset + stride; + + for ( let j = 0; j !== stride; ++ j ) { + + const value = values[ offset + j ]; + + if ( value !== values[ offsetP + j ] || + value !== values[ offsetN + j ] ) { + + keep = true; + break; + + } + + } + + } else { + + keep = true; + + } + + } + + // in-place compaction + + if ( keep ) { + + if ( i !== writeIndex ) { + + times[ writeIndex ] = times[ i ]; + + const readOffset = i * stride, + writeOffset = writeIndex * stride; + + for ( let j = 0; j !== stride; ++ j ) { + + values[ writeOffset + j ] = values[ readOffset + j ]; + + } + + } + + ++ writeIndex; + + } + + } + + // flush last keyframe (compaction looks ahead) + + if ( lastIndex > 0 ) { + + times[ writeIndex ] = times[ lastIndex ]; + + for ( let readOffset = lastIndex * stride, writeOffset = writeIndex * stride, j = 0; j !== stride; ++ j ) { + + values[ writeOffset + j ] = values[ readOffset + j ]; + + } + + ++ writeIndex; + + } + + if ( writeIndex !== times.length ) { + + this.times = times.slice( 0, writeIndex ); + this.values = values.slice( 0, writeIndex * stride ); + + } else { + + this.times = times; + this.values = values; + + } + + return this; + + } + + clone() { + + const times = this.times.slice(); + const values = this.values.slice(); + + const TypedKeyframeTrack = this.constructor; + const track = new TypedKeyframeTrack( this.name, times, values ); + + // Interpolant argument to constructor is not saved, so copy the factory method directly. + track.createInterpolant = this.createInterpolant; + + return track; + + } + +} + +KeyframeTrack.prototype.TimeBufferType = Float32Array; +KeyframeTrack.prototype.ValueBufferType = Float32Array; +KeyframeTrack.prototype.DefaultInterpolation = InterpolateLinear; + +/** + * A Track of Boolean keyframe values. + */ +class BooleanKeyframeTrack extends KeyframeTrack { + + // No interpolation parameter because only InterpolateDiscrete is valid. + constructor( name, times, values ) { + + super( name, times, values ); + + } + +} + +BooleanKeyframeTrack.prototype.ValueTypeName = 'bool'; +BooleanKeyframeTrack.prototype.ValueBufferType = Array; +BooleanKeyframeTrack.prototype.DefaultInterpolation = InterpolateDiscrete; +BooleanKeyframeTrack.prototype.InterpolantFactoryMethodLinear = undefined; +BooleanKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined; + +/** + * A Track of keyframe values that represent color. + */ +class ColorKeyframeTrack extends KeyframeTrack {} + +ColorKeyframeTrack.prototype.ValueTypeName = 'color'; + +/** + * A Track of numeric keyframe values. + */ +class NumberKeyframeTrack extends KeyframeTrack {} + +NumberKeyframeTrack.prototype.ValueTypeName = 'number'; + +/** + * Spherical linear unit quaternion interpolant. + */ + +class QuaternionLinearInterpolant extends Interpolant { + + constructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) { + + super( parameterPositions, sampleValues, sampleSize, resultBuffer ); + + } + + interpolate_( i1, t0, t, t1 ) { + + const result = this.resultBuffer, + values = this.sampleValues, + stride = this.valueSize, + + alpha = ( t - t0 ) / ( t1 - t0 ); + + let offset = i1 * stride; + + for ( let end = offset + stride; offset !== end; offset += 4 ) { + + Quaternion.slerpFlat( result, 0, values, offset - stride, values, offset, alpha ); + + } + + return result; + + } + +} + +/** + * A Track of quaternion keyframe values. + */ +class QuaternionKeyframeTrack extends KeyframeTrack { + + InterpolantFactoryMethodLinear( result ) { + + return new QuaternionLinearInterpolant( this.times, this.values, this.getValueSize(), result ); + + } + +} + +QuaternionKeyframeTrack.prototype.ValueTypeName = 'quaternion'; +// ValueBufferType is inherited +// DefaultInterpolation is inherited; +QuaternionKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined; + +/** + * A Track that interpolates Strings + */ +class StringKeyframeTrack extends KeyframeTrack { + + // No interpolation parameter because only InterpolateDiscrete is valid. + constructor( name, times, values ) { + + super( name, times, values ); + + } + +} + +StringKeyframeTrack.prototype.ValueTypeName = 'string'; +StringKeyframeTrack.prototype.ValueBufferType = Array; +StringKeyframeTrack.prototype.DefaultInterpolation = InterpolateDiscrete; +StringKeyframeTrack.prototype.InterpolantFactoryMethodLinear = undefined; +StringKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined; + +/** + * A Track of vectored keyframe values. + */ +class VectorKeyframeTrack extends KeyframeTrack {} + +VectorKeyframeTrack.prototype.ValueTypeName = 'vector'; + +class AnimationClip { + + constructor( name = '', duration = - 1, tracks = [], blendMode = NormalAnimationBlendMode ) { + + this.name = name; + this.tracks = tracks; + this.duration = duration; + this.blendMode = blendMode; + + this.uuid = generateUUID(); + + // this means it should figure out its duration by scanning the tracks + if ( this.duration < 0 ) { + + this.resetDuration(); + + } + + } + + + static parse( json ) { + + const tracks = [], + jsonTracks = json.tracks, + frameTime = 1.0 / ( json.fps || 1.0 ); + + for ( let i = 0, n = jsonTracks.length; i !== n; ++ i ) { + + tracks.push( parseKeyframeTrack( jsonTracks[ i ] ).scale( frameTime ) ); + + } + + const clip = new this( json.name, json.duration, tracks, json.blendMode ); + clip.uuid = json.uuid; + + return clip; + + } + + static toJSON( clip ) { + + const tracks = [], + clipTracks = clip.tracks; + + const json = { + + 'name': clip.name, + 'duration': clip.duration, + 'tracks': tracks, + 'uuid': clip.uuid, + 'blendMode': clip.blendMode + + }; + + for ( let i = 0, n = clipTracks.length; i !== n; ++ i ) { + + tracks.push( KeyframeTrack.toJSON( clipTracks[ i ] ) ); + + } + + return json; + + } + + static CreateFromMorphTargetSequence( name, morphTargetSequence, fps, noLoop ) { + + const numMorphTargets = morphTargetSequence.length; + const tracks = []; + + for ( let i = 0; i < numMorphTargets; i ++ ) { + + let times = []; + let values = []; + + times.push( + ( i + numMorphTargets - 1 ) % numMorphTargets, + i, + ( i + 1 ) % numMorphTargets ); + + values.push( 0, 1, 0 ); + + const order = getKeyframeOrder( times ); + times = sortedArray( times, 1, order ); + values = sortedArray( values, 1, order ); + + // if there is a key at the first frame, duplicate it as the + // last frame as well for perfect loop. + if ( ! noLoop && times[ 0 ] === 0 ) { + + times.push( numMorphTargets ); + values.push( values[ 0 ] ); + + } + + tracks.push( + new NumberKeyframeTrack( + '.morphTargetInfluences[' + morphTargetSequence[ i ].name + ']', + times, values + ).scale( 1.0 / fps ) ); + + } + + return new this( name, - 1, tracks ); + + } + + static findByName( objectOrClipArray, name ) { + + let clipArray = objectOrClipArray; + + if ( ! Array.isArray( objectOrClipArray ) ) { + + const o = objectOrClipArray; + clipArray = o.geometry && o.geometry.animations || o.animations; + + } + + for ( let i = 0; i < clipArray.length; i ++ ) { + + if ( clipArray[ i ].name === name ) { + + return clipArray[ i ]; + + } + + } + + return null; + + } + + static CreateClipsFromMorphTargetSequences( morphTargets, fps, noLoop ) { + + const animationToMorphTargets = {}; + + // tested with https://regex101.com/ on trick sequences + // such flamingo_flyA_003, flamingo_run1_003, crdeath0059 + const pattern = /^([\w-]*?)([\d]+)$/; + + // sort morph target names into animation groups based + // patterns like Walk_001, Walk_002, Run_001, Run_002 + for ( let i = 0, il = morphTargets.length; i < il; i ++ ) { + + const morphTarget = morphTargets[ i ]; + const parts = morphTarget.name.match( pattern ); + + if ( parts && parts.length > 1 ) { + + const name = parts[ 1 ]; + + let animationMorphTargets = animationToMorphTargets[ name ]; + + if ( ! animationMorphTargets ) { + + animationToMorphTargets[ name ] = animationMorphTargets = []; + + } + + animationMorphTargets.push( morphTarget ); + + } + + } + + const clips = []; + + for ( const name in animationToMorphTargets ) { + + clips.push( this.CreateFromMorphTargetSequence( name, animationToMorphTargets[ name ], fps, noLoop ) ); + + } + + return clips; + + } + + // parse the animation.hierarchy format + static parseAnimation( animation, bones ) { + + if ( ! animation ) { + + console.error( 'THREE.AnimationClip: No animation in JSONLoader data.' ); + return null; + + } + + const addNonemptyTrack = function ( trackType, trackName, animationKeys, propertyName, destTracks ) { + + // only return track if there are actually keys. + if ( animationKeys.length !== 0 ) { + + const times = []; + const values = []; + + flattenJSON( animationKeys, times, values, propertyName ); + + // empty keys are filtered out, so check again + if ( times.length !== 0 ) { + + destTracks.push( new trackType( trackName, times, values ) ); + + } + + } + + }; + + const tracks = []; + + const clipName = animation.name || 'default'; + const fps = animation.fps || 30; + const blendMode = animation.blendMode; + + // automatic length determination in AnimationClip. + let duration = animation.length || - 1; + + const hierarchyTracks = animation.hierarchy || []; + + for ( let h = 0; h < hierarchyTracks.length; h ++ ) { + + const animationKeys = hierarchyTracks[ h ].keys; + + // skip empty tracks + if ( ! animationKeys || animationKeys.length === 0 ) continue; + + // process morph targets + if ( animationKeys[ 0 ].morphTargets ) { + + // figure out all morph targets used in this track + const morphTargetNames = {}; + + let k; + + for ( k = 0; k < animationKeys.length; k ++ ) { + + if ( animationKeys[ k ].morphTargets ) { + + for ( let m = 0; m < animationKeys[ k ].morphTargets.length; m ++ ) { + + morphTargetNames[ animationKeys[ k ].morphTargets[ m ] ] = - 1; + + } + + } + + } + + // create a track for each morph target with all zero + // morphTargetInfluences except for the keys in which + // the morphTarget is named. + for ( const morphTargetName in morphTargetNames ) { + + const times = []; + const values = []; + + for ( let m = 0; m !== animationKeys[ k ].morphTargets.length; ++ m ) { + + const animationKey = animationKeys[ k ]; + + times.push( animationKey.time ); + values.push( ( animationKey.morphTarget === morphTargetName ) ? 1 : 0 ); + + } + + tracks.push( new NumberKeyframeTrack( '.morphTargetInfluence[' + morphTargetName + ']', times, values ) ); + + } + + duration = morphTargetNames.length * fps; + + } else { + + // ...assume skeletal animation + + const boneName = '.bones[' + bones[ h ].name + ']'; + + addNonemptyTrack( + VectorKeyframeTrack, boneName + '.position', + animationKeys, 'pos', tracks ); + + addNonemptyTrack( + QuaternionKeyframeTrack, boneName + '.quaternion', + animationKeys, 'rot', tracks ); + + addNonemptyTrack( + VectorKeyframeTrack, boneName + '.scale', + animationKeys, 'scl', tracks ); + + } + + } + + if ( tracks.length === 0 ) { + + return null; + + } + + const clip = new this( clipName, duration, tracks, blendMode ); + + return clip; + + } + + resetDuration() { + + const tracks = this.tracks; + let duration = 0; + + for ( let i = 0, n = tracks.length; i !== n; ++ i ) { + + const track = this.tracks[ i ]; + + duration = Math.max( duration, track.times[ track.times.length - 1 ] ); + + } + + this.duration = duration; + + return this; + + } + + trim() { + + for ( let i = 0; i < this.tracks.length; i ++ ) { + + this.tracks[ i ].trim( 0, this.duration ); + + } + + return this; + + } + + validate() { + + let valid = true; + + for ( let i = 0; i < this.tracks.length; i ++ ) { + + valid = valid && this.tracks[ i ].validate(); + + } + + return valid; + + } + + optimize() { + + for ( let i = 0; i < this.tracks.length; i ++ ) { + + this.tracks[ i ].optimize(); + + } + + return this; + + } + + clone() { + + const tracks = []; + + for ( let i = 0; i < this.tracks.length; i ++ ) { + + tracks.push( this.tracks[ i ].clone() ); + + } + + return new this.constructor( this.name, this.duration, tracks, this.blendMode ); + + } + + toJSON() { + + return this.constructor.toJSON( this ); + + } + +} + +function getTrackTypeForValueTypeName( typeName ) { + + switch ( typeName.toLowerCase() ) { + + case 'scalar': + case 'double': + case 'float': + case 'number': + case 'integer': + + return NumberKeyframeTrack; + + case 'vector': + case 'vector2': + case 'vector3': + case 'vector4': + + return VectorKeyframeTrack; + + case 'color': + + return ColorKeyframeTrack; + + case 'quaternion': + + return QuaternionKeyframeTrack; + + case 'bool': + case 'boolean': + + return BooleanKeyframeTrack; + + case 'string': + + return StringKeyframeTrack; + + } + + throw new Error( 'THREE.KeyframeTrack: Unsupported typeName: ' + typeName ); + +} + +function parseKeyframeTrack( json ) { + + if ( json.type === undefined ) { + + throw new Error( 'THREE.KeyframeTrack: track type undefined, can not parse' ); + + } + + const trackType = getTrackTypeForValueTypeName( json.type ); + + if ( json.times === undefined ) { + + const times = [], values = []; + + flattenJSON( json.keys, times, values, 'value' ); + + json.times = times; + json.values = values; + + } + + // derived classes can define a static parse method + if ( trackType.parse !== undefined ) { + + return trackType.parse( json ); + + } else { + + // by default, we assume a constructor compatible with the base + return new trackType( json.name, json.times, json.values, json.interpolation ); + + } + +} + +const Cache = { + + enabled: false, + + files: {}, + + add: function ( key, file ) { + + if ( this.enabled === false ) return; + + // console.log( 'THREE.Cache', 'Adding key:', key ); + + this.files[ key ] = file; + + }, + + get: function ( key ) { + + if ( this.enabled === false ) return; + + // console.log( 'THREE.Cache', 'Checking key:', key ); + + return this.files[ key ]; + + }, + + remove: function ( key ) { + + delete this.files[ key ]; + + }, + + clear: function () { + + this.files = {}; + + } + +}; + +class LoadingManager { + + constructor( onLoad, onProgress, onError ) { + + const scope = this; + + let isLoading = false; + let itemsLoaded = 0; + let itemsTotal = 0; + let urlModifier = undefined; + const handlers = []; + + // Refer to #5689 for the reason why we don't set .onStart + // in the constructor + + this.onStart = undefined; + this.onLoad = onLoad; + this.onProgress = onProgress; + this.onError = onError; + + this.itemStart = function ( url ) { + + itemsTotal ++; + + if ( isLoading === false ) { + + if ( scope.onStart !== undefined ) { + + scope.onStart( url, itemsLoaded, itemsTotal ); + + } + + } + + isLoading = true; + + }; + + this.itemEnd = function ( url ) { + + itemsLoaded ++; + + if ( scope.onProgress !== undefined ) { + + scope.onProgress( url, itemsLoaded, itemsTotal ); + + } + + if ( itemsLoaded === itemsTotal ) { + + isLoading = false; + + if ( scope.onLoad !== undefined ) { + + scope.onLoad(); + + } + + } + + }; + + this.itemError = function ( url ) { + + if ( scope.onError !== undefined ) { + + scope.onError( url ); + + } + + }; + + this.resolveURL = function ( url ) { + + if ( urlModifier ) { + + return urlModifier( url ); + + } + + return url; + + }; + + this.setURLModifier = function ( transform ) { + + urlModifier = transform; + + return this; + + }; + + this.addHandler = function ( regex, loader ) { + + handlers.push( regex, loader ); + + return this; + + }; + + this.removeHandler = function ( regex ) { + + const index = handlers.indexOf( regex ); + + if ( index !== - 1 ) { + + handlers.splice( index, 2 ); + + } + + return this; + + }; + + this.getHandler = function ( file ) { + + for ( let i = 0, l = handlers.length; i < l; i += 2 ) { + + const regex = handlers[ i ]; + const loader = handlers[ i + 1 ]; + + if ( regex.global ) regex.lastIndex = 0; // see #17920 + + if ( regex.test( file ) ) { + + return loader; + + } + + } + + return null; + + }; + + } + +} + +const DefaultLoadingManager = /*@__PURE__*/ new LoadingManager(); + +class Loader { + + constructor( manager ) { + + this.manager = ( manager !== undefined ) ? manager : DefaultLoadingManager; + + this.crossOrigin = 'anonymous'; + this.withCredentials = false; + this.path = ''; + this.resourcePath = ''; + this.requestHeader = {}; + + } + + load( /* url, onLoad, onProgress, onError */ ) {} + + loadAsync( url, onProgress ) { + + const scope = this; + + return new Promise( function ( resolve, reject ) { + + scope.load( url, resolve, onProgress, reject ); + + } ); + + } + + parse( /* data */ ) {} + + setCrossOrigin( crossOrigin ) { + + this.crossOrigin = crossOrigin; + return this; + + } + + setWithCredentials( value ) { + + this.withCredentials = value; + return this; + + } + + setPath( path ) { + + this.path = path; + return this; + + } + + setResourcePath( resourcePath ) { + + this.resourcePath = resourcePath; + return this; + + } + + setRequestHeader( requestHeader ) { + + this.requestHeader = requestHeader; + return this; + + } + +} + +Loader.DEFAULT_MATERIAL_NAME = '__DEFAULT'; + +const loading = {}; + +class HttpError extends Error { + + constructor( message, response ) { + + super( message ); + this.response = response; + + } + +} + +class FileLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + } + + load( url, onLoad, onProgress, onError ) { + + if ( url === undefined ) url = ''; + + if ( this.path !== undefined ) url = this.path + url; + + url = this.manager.resolveURL( url ); + + const cached = Cache.get( url ); + + if ( cached !== undefined ) { + + this.manager.itemStart( url ); + + setTimeout( () => { + + if ( onLoad ) onLoad( cached ); + + this.manager.itemEnd( url ); + + }, 0 ); + + return cached; + + } + + // Check if request is duplicate + + if ( loading[ url ] !== undefined ) { + + loading[ url ].push( { + + onLoad: onLoad, + onProgress: onProgress, + onError: onError + + } ); + + return; + + } + + // Initialise array for duplicate requests + loading[ url ] = []; + + loading[ url ].push( { + onLoad: onLoad, + onProgress: onProgress, + onError: onError, + } ); + + // create request + const req = new Request( url, { + headers: new Headers( this.requestHeader ), + credentials: this.withCredentials ? 'include' : 'same-origin', + // An abort controller could be added within a future PR + } ); + + // record states ( avoid data race ) + const mimeType = this.mimeType; + const responseType = this.responseType; + + // start the fetch + fetch( req ) + .then( response => { + + if ( response.status === 200 || response.status === 0 ) { + + // Some browsers return HTTP Status 0 when using non-http protocol + // e.g. 'file://' or 'data://'. Handle as success. + + if ( response.status === 0 ) { + + console.warn( 'THREE.FileLoader: HTTP Status 0 received.' ); + + } + + // Workaround: Checking if response.body === undefined for Alipay browser #23548 + + if ( typeof ReadableStream === 'undefined' || response.body === undefined || response.body.getReader === undefined ) { + + return response; + + } + + const callbacks = loading[ url ]; + const reader = response.body.getReader(); + + // Nginx needs X-File-Size check + // https://serverfault.com/questions/482875/why-does-nginx-remove-content-length-header-for-chunked-content + const contentLength = response.headers.get( 'X-File-Size' ) || response.headers.get( 'Content-Length' ); + const total = contentLength ? parseInt( contentLength ) : 0; + const lengthComputable = total !== 0; + let loaded = 0; + + // periodically read data into the new stream tracking while download progress + const stream = new ReadableStream( { + start( controller ) { + + readData(); + + function readData() { + + reader.read().then( ( { done, value } ) => { + + if ( done ) { + + controller.close(); + + } else { + + loaded += value.byteLength; + + const event = new ProgressEvent( 'progress', { lengthComputable, loaded, total } ); + for ( let i = 0, il = callbacks.length; i < il; i ++ ) { + + const callback = callbacks[ i ]; + if ( callback.onProgress ) callback.onProgress( event ); + + } + + controller.enqueue( value ); + readData(); + + } + + }, ( e ) => { + + controller.error( e ); + + } ); + + } + + } + + } ); + + return new Response( stream ); + + } else { + + throw new HttpError( `fetch for "${response.url}" responded with ${response.status}: ${response.statusText}`, response ); + + } + + } ) + .then( response => { + + switch ( responseType ) { + + case 'arraybuffer': + + return response.arrayBuffer(); + + case 'blob': + + return response.blob(); + + case 'document': + + return response.text() + .then( text => { + + const parser = new DOMParser(); + return parser.parseFromString( text, mimeType ); + + } ); + + case 'json': + + return response.json(); + + default: + + if ( mimeType === undefined ) { + + return response.text(); + + } else { + + // sniff encoding + const re = /charset="?([^;"\s]*)"?/i; + const exec = re.exec( mimeType ); + const label = exec && exec[ 1 ] ? exec[ 1 ].toLowerCase() : undefined; + const decoder = new TextDecoder( label ); + return response.arrayBuffer().then( ab => decoder.decode( ab ) ); + + } + + } + + } ) + .then( data => { + + // Add to cache only on HTTP success, so that we do not cache + // error response bodies as proper responses to requests. + Cache.add( url, data ); + + const callbacks = loading[ url ]; + delete loading[ url ]; + + for ( let i = 0, il = callbacks.length; i < il; i ++ ) { + + const callback = callbacks[ i ]; + if ( callback.onLoad ) callback.onLoad( data ); + + } + + } ) + .catch( err => { + + // Abort errors and other errors are handled the same + + const callbacks = loading[ url ]; + + if ( callbacks === undefined ) { + + // When onLoad was called and url was deleted in `loading` + this.manager.itemError( url ); + throw err; + + } + + delete loading[ url ]; + + for ( let i = 0, il = callbacks.length; i < il; i ++ ) { + + const callback = callbacks[ i ]; + if ( callback.onError ) callback.onError( err ); + + } + + this.manager.itemError( url ); + + } ) + .finally( () => { + + this.manager.itemEnd( url ); + + } ); + + this.manager.itemStart( url ); + + } + + setResponseType( value ) { + + this.responseType = value; + return this; + + } + + setMimeType( value ) { + + this.mimeType = value; + return this; + + } + +} + +class AnimationLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + } + + load( url, onLoad, onProgress, onError ) { + + const scope = this; + + const loader = new FileLoader( this.manager ); + loader.setPath( this.path ); + loader.setRequestHeader( this.requestHeader ); + loader.setWithCredentials( this.withCredentials ); + loader.load( url, function ( text ) { + + try { + + onLoad( scope.parse( JSON.parse( text ) ) ); + + } catch ( e ) { + + if ( onError ) { + + onError( e ); + + } else { + + console.error( e ); + + } + + scope.manager.itemError( url ); + + } + + }, onProgress, onError ); + + } + + parse( json ) { + + const animations = []; + + for ( let i = 0; i < json.length; i ++ ) { + + const clip = AnimationClip.parse( json[ i ] ); + + animations.push( clip ); + + } + + return animations; + + } + +} + +/** + * Abstract Base class to block based textures loader (dds, pvr, ...) + * + * Sub classes have to implement the parse() method which will be used in load(). + */ + +class CompressedTextureLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + } + + load( url, onLoad, onProgress, onError ) { + + const scope = this; + + const images = []; + + const texture = new CompressedTexture(); + + const loader = new FileLoader( this.manager ); + loader.setPath( this.path ); + loader.setResponseType( 'arraybuffer' ); + loader.setRequestHeader( this.requestHeader ); + loader.setWithCredentials( scope.withCredentials ); + + let loaded = 0; + + function loadTexture( i ) { + + loader.load( url[ i ], function ( buffer ) { + + const texDatas = scope.parse( buffer, true ); + + images[ i ] = { + width: texDatas.width, + height: texDatas.height, + format: texDatas.format, + mipmaps: texDatas.mipmaps + }; + + loaded += 1; + + if ( loaded === 6 ) { + + if ( texDatas.mipmapCount === 1 ) texture.minFilter = LinearFilter; + + texture.image = images; + texture.format = texDatas.format; + texture.needsUpdate = true; + + if ( onLoad ) onLoad( texture ); + + } + + }, onProgress, onError ); + + } + + if ( Array.isArray( url ) ) { + + for ( let i = 0, il = url.length; i < il; ++ i ) { + + loadTexture( i ); + + } + + } else { + + // compressed cubemap texture stored in a single DDS file + + loader.load( url, function ( buffer ) { + + const texDatas = scope.parse( buffer, true ); + + if ( texDatas.isCubemap ) { + + const faces = texDatas.mipmaps.length / texDatas.mipmapCount; + + for ( let f = 0; f < faces; f ++ ) { + + images[ f ] = { mipmaps: [] }; + + for ( let i = 0; i < texDatas.mipmapCount; i ++ ) { + + images[ f ].mipmaps.push( texDatas.mipmaps[ f * texDatas.mipmapCount + i ] ); + images[ f ].format = texDatas.format; + images[ f ].width = texDatas.width; + images[ f ].height = texDatas.height; + + } + + } + + texture.image = images; + + } else { + + texture.image.width = texDatas.width; + texture.image.height = texDatas.height; + texture.mipmaps = texDatas.mipmaps; + + } + + if ( texDatas.mipmapCount === 1 ) { + + texture.minFilter = LinearFilter; + + } + + texture.format = texDatas.format; + texture.needsUpdate = true; + + if ( onLoad ) onLoad( texture ); + + }, onProgress, onError ); + + } + + return texture; + + } + +} + +class ImageLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + } + + load( url, onLoad, onProgress, onError ) { + + if ( this.path !== undefined ) url = this.path + url; + + url = this.manager.resolveURL( url ); + + const scope = this; + + const cached = Cache.get( url ); + + if ( cached !== undefined ) { + + scope.manager.itemStart( url ); + + setTimeout( function () { + + if ( onLoad ) onLoad( cached ); + + scope.manager.itemEnd( url ); + + }, 0 ); + + return cached; + + } + + const image = createElementNS( 'img' ); + + function onImageLoad() { + + removeEventListeners(); + + Cache.add( url, this ); + + if ( onLoad ) onLoad( this ); + + scope.manager.itemEnd( url ); + + } + + function onImageError( event ) { + + removeEventListeners(); + + if ( onError ) onError( event ); + + scope.manager.itemError( url ); + scope.manager.itemEnd( url ); + + } + + function removeEventListeners() { + + image.removeEventListener( 'load', onImageLoad, false ); + image.removeEventListener( 'error', onImageError, false ); + + } + + image.addEventListener( 'load', onImageLoad, false ); + image.addEventListener( 'error', onImageError, false ); + + if ( url.slice( 0, 5 ) !== 'data:' ) { + + if ( this.crossOrigin !== undefined ) image.crossOrigin = this.crossOrigin; + + } + + scope.manager.itemStart( url ); + + image.src = url; + + return image; + + } + +} + +class CubeTextureLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + } + + load( urls, onLoad, onProgress, onError ) { + + const texture = new CubeTexture(); + texture.colorSpace = SRGBColorSpace; + + const loader = new ImageLoader( this.manager ); + loader.setCrossOrigin( this.crossOrigin ); + loader.setPath( this.path ); + + let loaded = 0; + + function loadTexture( i ) { + + loader.load( urls[ i ], function ( image ) { + + texture.images[ i ] = image; + + loaded ++; + + if ( loaded === 6 ) { + + texture.needsUpdate = true; + + if ( onLoad ) onLoad( texture ); + + } + + }, undefined, onError ); + + } + + for ( let i = 0; i < urls.length; ++ i ) { + + loadTexture( i ); + + } + + return texture; + + } + +} + +/** + * Abstract Base class to load generic binary textures formats (rgbe, hdr, ...) + * + * Sub classes have to implement the parse() method which will be used in load(). + */ + +class DataTextureLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + } + + load( url, onLoad, onProgress, onError ) { + + const scope = this; + + const texture = new DataTexture(); + + const loader = new FileLoader( this.manager ); + loader.setResponseType( 'arraybuffer' ); + loader.setRequestHeader( this.requestHeader ); + loader.setPath( this.path ); + loader.setWithCredentials( scope.withCredentials ); + loader.load( url, function ( buffer ) { + + let texData; + + try { + + texData = scope.parse( buffer ); + + } catch ( error ) { + + if ( onError !== undefined ) { + + onError( error ); + + } else { + + console.error( error ); + return; + + } + + } + + if ( texData.image !== undefined ) { + + texture.image = texData.image; + + } else if ( texData.data !== undefined ) { + + texture.image.width = texData.width; + texture.image.height = texData.height; + texture.image.data = texData.data; + + } + + texture.wrapS = texData.wrapS !== undefined ? texData.wrapS : ClampToEdgeWrapping; + texture.wrapT = texData.wrapT !== undefined ? texData.wrapT : ClampToEdgeWrapping; + + texture.magFilter = texData.magFilter !== undefined ? texData.magFilter : LinearFilter; + texture.minFilter = texData.minFilter !== undefined ? texData.minFilter : LinearFilter; + + texture.anisotropy = texData.anisotropy !== undefined ? texData.anisotropy : 1; + + if ( texData.colorSpace !== undefined ) { + + texture.colorSpace = texData.colorSpace; + + } + + if ( texData.flipY !== undefined ) { + + texture.flipY = texData.flipY; + + } + + if ( texData.format !== undefined ) { + + texture.format = texData.format; + + } + + if ( texData.type !== undefined ) { + + texture.type = texData.type; + + } + + if ( texData.mipmaps !== undefined ) { + + texture.mipmaps = texData.mipmaps; + texture.minFilter = LinearMipmapLinearFilter; // presumably... + + } + + if ( texData.mipmapCount === 1 ) { + + texture.minFilter = LinearFilter; + + } + + if ( texData.generateMipmaps !== undefined ) { + + texture.generateMipmaps = texData.generateMipmaps; + + } + + texture.needsUpdate = true; + + if ( onLoad ) onLoad( texture, texData ); + + }, onProgress, onError ); + + + return texture; + + } + +} + +class TextureLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + } + + load( url, onLoad, onProgress, onError ) { + + const texture = new Texture(); + + const loader = new ImageLoader( this.manager ); + loader.setCrossOrigin( this.crossOrigin ); + loader.setPath( this.path ); + + loader.load( url, function ( image ) { + + texture.image = image; + texture.needsUpdate = true; + + if ( onLoad !== undefined ) { + + onLoad( texture ); + + } + + }, onProgress, onError ); + + return texture; + + } + +} + +class Light extends Object3D { + + constructor( color, intensity = 1 ) { + + super(); + + this.isLight = true; + + this.type = 'Light'; + + this.color = new Color( color ); + this.intensity = intensity; + + } + + dispose() { + + // Empty here in base class; some subclasses override. + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.color.copy( source.color ); + this.intensity = source.intensity; + + return this; + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + data.object.color = this.color.getHex(); + data.object.intensity = this.intensity; + + if ( this.groundColor !== undefined ) data.object.groundColor = this.groundColor.getHex(); + + if ( this.distance !== undefined ) data.object.distance = this.distance; + if ( this.angle !== undefined ) data.object.angle = this.angle; + if ( this.decay !== undefined ) data.object.decay = this.decay; + if ( this.penumbra !== undefined ) data.object.penumbra = this.penumbra; + + if ( this.shadow !== undefined ) data.object.shadow = this.shadow.toJSON(); + if ( this.target !== undefined ) data.object.target = this.target.uuid; + + return data; + + } + +} + +class HemisphereLight extends Light { + + constructor( skyColor, groundColor, intensity ) { + + super( skyColor, intensity ); + + this.isHemisphereLight = true; + + this.type = 'HemisphereLight'; + + this.position.copy( Object3D.DEFAULT_UP ); + this.updateMatrix(); + + this.groundColor = new Color( groundColor ); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.groundColor.copy( source.groundColor ); + + return this; + + } + +} + +const _projScreenMatrix$2 = /*@__PURE__*/ new Matrix4(); +const _lightPositionWorld$1 = /*@__PURE__*/ new Vector3(); +const _lookTarget$1 = /*@__PURE__*/ new Vector3(); + +class LightShadow { + + constructor( camera ) { + + this.camera = camera; + + this.intensity = 1; + + this.bias = 0; + this.normalBias = 0; + this.radius = 1; + this.blurSamples = 8; + + this.mapSize = new Vector2( 512, 512 ); + + this.map = null; + this.mapPass = null; + this.matrix = new Matrix4(); + + this.autoUpdate = true; + this.needsUpdate = false; + + this._frustum = new Frustum(); + this._frameExtents = new Vector2( 1, 1 ); + + this._viewportCount = 1; + + this._viewports = [ + + new Vector4( 0, 0, 1, 1 ) + + ]; + + } + + getViewportCount() { + + return this._viewportCount; + + } + + getFrustum() { + + return this._frustum; + + } + + updateMatrices( light ) { + + const shadowCamera = this.camera; + const shadowMatrix = this.matrix; + + _lightPositionWorld$1.setFromMatrixPosition( light.matrixWorld ); + shadowCamera.position.copy( _lightPositionWorld$1 ); + + _lookTarget$1.setFromMatrixPosition( light.target.matrixWorld ); + shadowCamera.lookAt( _lookTarget$1 ); + shadowCamera.updateMatrixWorld(); + + _projScreenMatrix$2.multiplyMatrices( shadowCamera.projectionMatrix, shadowCamera.matrixWorldInverse ); + this._frustum.setFromProjectionMatrix( _projScreenMatrix$2 ); + + shadowMatrix.set( + 0.5, 0.0, 0.0, 0.5, + 0.0, 0.5, 0.0, 0.5, + 0.0, 0.0, 0.5, 0.5, + 0.0, 0.0, 0.0, 1.0 + ); + + shadowMatrix.multiply( _projScreenMatrix$2 ); + + } + + getViewport( viewportIndex ) { + + return this._viewports[ viewportIndex ]; + + } + + getFrameExtents() { + + return this._frameExtents; + + } + + dispose() { + + if ( this.map ) { + + this.map.dispose(); + + } + + if ( this.mapPass ) { + + this.mapPass.dispose(); + + } + + } + + copy( source ) { + + this.camera = source.camera.clone(); + + this.intensity = source.intensity; + + this.bias = source.bias; + this.radius = source.radius; + + this.mapSize.copy( source.mapSize ); + + return this; + + } + + clone() { + + return new this.constructor().copy( this ); + + } + + toJSON() { + + const object = {}; + + if ( this.intensity !== 1 ) object.intensity = this.intensity; + if ( this.bias !== 0 ) object.bias = this.bias; + if ( this.normalBias !== 0 ) object.normalBias = this.normalBias; + if ( this.radius !== 1 ) object.radius = this.radius; + if ( this.mapSize.x !== 512 || this.mapSize.y !== 512 ) object.mapSize = this.mapSize.toArray(); + + object.camera = this.camera.toJSON( false ).object; + delete object.camera.matrix; + + return object; + + } + +} + +class SpotLightShadow extends LightShadow { + + constructor() { + + super( new PerspectiveCamera( 50, 1, 0.5, 500 ) ); + + this.isSpotLightShadow = true; + + this.focus = 1; + + } + + updateMatrices( light ) { + + const camera = this.camera; + + const fov = RAD2DEG * 2 * light.angle * this.focus; + const aspect = this.mapSize.width / this.mapSize.height; + const far = light.distance || camera.far; + + if ( fov !== camera.fov || aspect !== camera.aspect || far !== camera.far ) { + + camera.fov = fov; + camera.aspect = aspect; + camera.far = far; + camera.updateProjectionMatrix(); + + } + + super.updateMatrices( light ); + + } + + copy( source ) { + + super.copy( source ); + + this.focus = source.focus; + + return this; + + } + +} + +class SpotLight extends Light { + + constructor( color, intensity, distance = 0, angle = Math.PI / 3, penumbra = 0, decay = 2 ) { + + super( color, intensity ); + + this.isSpotLight = true; + + this.type = 'SpotLight'; + + this.position.copy( Object3D.DEFAULT_UP ); + this.updateMatrix(); + + this.target = new Object3D(); + + this.distance = distance; + this.angle = angle; + this.penumbra = penumbra; + this.decay = decay; + + this.map = null; + + this.shadow = new SpotLightShadow(); + + } + + get power() { + + // compute the light's luminous power (in lumens) from its intensity (in candela) + // by convention for a spotlight, luminous power (lm) = π * luminous intensity (cd) + return this.intensity * Math.PI; + + } + + set power( power ) { + + // set the light's intensity (in candela) from the desired luminous power (in lumens) + this.intensity = power / Math.PI; + + } + + dispose() { + + this.shadow.dispose(); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.distance = source.distance; + this.angle = source.angle; + this.penumbra = source.penumbra; + this.decay = source.decay; + + this.target = source.target.clone(); + + this.shadow = source.shadow.clone(); + + return this; + + } + +} + +const _projScreenMatrix$1 = /*@__PURE__*/ new Matrix4(); +const _lightPositionWorld = /*@__PURE__*/ new Vector3(); +const _lookTarget = /*@__PURE__*/ new Vector3(); + +class PointLightShadow extends LightShadow { + + constructor() { + + super( new PerspectiveCamera( 90, 1, 0.5, 500 ) ); + + this.isPointLightShadow = true; + + this._frameExtents = new Vector2( 4, 2 ); + + this._viewportCount = 6; + + this._viewports = [ + // These viewports map a cube-map onto a 2D texture with the + // following orientation: + // + // xzXZ + // y Y + // + // X - Positive x direction + // x - Negative x direction + // Y - Positive y direction + // y - Negative y direction + // Z - Positive z direction + // z - Negative z direction + + // positive X + new Vector4( 2, 1, 1, 1 ), + // negative X + new Vector4( 0, 1, 1, 1 ), + // positive Z + new Vector4( 3, 1, 1, 1 ), + // negative Z + new Vector4( 1, 1, 1, 1 ), + // positive Y + new Vector4( 3, 0, 1, 1 ), + // negative Y + new Vector4( 1, 0, 1, 1 ) + ]; + + this._cubeDirections = [ + new Vector3( 1, 0, 0 ), new Vector3( - 1, 0, 0 ), new Vector3( 0, 0, 1 ), + new Vector3( 0, 0, - 1 ), new Vector3( 0, 1, 0 ), new Vector3( 0, - 1, 0 ) + ]; + + this._cubeUps = [ + new Vector3( 0, 1, 0 ), new Vector3( 0, 1, 0 ), new Vector3( 0, 1, 0 ), + new Vector3( 0, 1, 0 ), new Vector3( 0, 0, 1 ), new Vector3( 0, 0, - 1 ) + ]; + + } + + updateMatrices( light, viewportIndex = 0 ) { + + const camera = this.camera; + const shadowMatrix = this.matrix; + + const far = light.distance || camera.far; + + if ( far !== camera.far ) { + + camera.far = far; + camera.updateProjectionMatrix(); + + } + + _lightPositionWorld.setFromMatrixPosition( light.matrixWorld ); + camera.position.copy( _lightPositionWorld ); + + _lookTarget.copy( camera.position ); + _lookTarget.add( this._cubeDirections[ viewportIndex ] ); + camera.up.copy( this._cubeUps[ viewportIndex ] ); + camera.lookAt( _lookTarget ); + camera.updateMatrixWorld(); + + shadowMatrix.makeTranslation( - _lightPositionWorld.x, - _lightPositionWorld.y, - _lightPositionWorld.z ); + + _projScreenMatrix$1.multiplyMatrices( camera.projectionMatrix, camera.matrixWorldInverse ); + this._frustum.setFromProjectionMatrix( _projScreenMatrix$1 ); + + } + +} + +class PointLight extends Light { + + constructor( color, intensity, distance = 0, decay = 2 ) { + + super( color, intensity ); + + this.isPointLight = true; + + this.type = 'PointLight'; + + this.distance = distance; + this.decay = decay; + + this.shadow = new PointLightShadow(); + + } + + get power() { + + // compute the light's luminous power (in lumens) from its intensity (in candela) + // for an isotropic light source, luminous power (lm) = 4 π luminous intensity (cd) + return this.intensity * 4 * Math.PI; + + } + + set power( power ) { + + // set the light's intensity (in candela) from the desired luminous power (in lumens) + this.intensity = power / ( 4 * Math.PI ); + + } + + dispose() { + + this.shadow.dispose(); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.distance = source.distance; + this.decay = source.decay; + + this.shadow = source.shadow.clone(); + + return this; + + } + +} + +class OrthographicCamera extends Camera { + + constructor( left = - 1, right = 1, top = 1, bottom = - 1, near = 0.1, far = 2000 ) { + + super(); + + this.isOrthographicCamera = true; + + this.type = 'OrthographicCamera'; + + this.zoom = 1; + this.view = null; + + this.left = left; + this.right = right; + this.top = top; + this.bottom = bottom; + + this.near = near; + this.far = far; + + this.updateProjectionMatrix(); + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.left = source.left; + this.right = source.right; + this.top = source.top; + this.bottom = source.bottom; + this.near = source.near; + this.far = source.far; + + this.zoom = source.zoom; + this.view = source.view === null ? null : Object.assign( {}, source.view ); + + return this; + + } + + setViewOffset( fullWidth, fullHeight, x, y, width, height ) { + + if ( this.view === null ) { + + this.view = { + enabled: true, + fullWidth: 1, + fullHeight: 1, + offsetX: 0, + offsetY: 0, + width: 1, + height: 1 + }; + + } + + this.view.enabled = true; + this.view.fullWidth = fullWidth; + this.view.fullHeight = fullHeight; + this.view.offsetX = x; + this.view.offsetY = y; + this.view.width = width; + this.view.height = height; + + this.updateProjectionMatrix(); + + } + + clearViewOffset() { + + if ( this.view !== null ) { + + this.view.enabled = false; + + } + + this.updateProjectionMatrix(); + + } + + updateProjectionMatrix() { + + const dx = ( this.right - this.left ) / ( 2 * this.zoom ); + const dy = ( this.top - this.bottom ) / ( 2 * this.zoom ); + const cx = ( this.right + this.left ) / 2; + const cy = ( this.top + this.bottom ) / 2; + + let left = cx - dx; + let right = cx + dx; + let top = cy + dy; + let bottom = cy - dy; + + if ( this.view !== null && this.view.enabled ) { + + const scaleW = ( this.right - this.left ) / this.view.fullWidth / this.zoom; + const scaleH = ( this.top - this.bottom ) / this.view.fullHeight / this.zoom; + + left += scaleW * this.view.offsetX; + right = left + scaleW * this.view.width; + top -= scaleH * this.view.offsetY; + bottom = top - scaleH * this.view.height; + + } + + this.projectionMatrix.makeOrthographic( left, right, top, bottom, this.near, this.far, this.coordinateSystem ); + + this.projectionMatrixInverse.copy( this.projectionMatrix ).invert(); + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + data.object.zoom = this.zoom; + data.object.left = this.left; + data.object.right = this.right; + data.object.top = this.top; + data.object.bottom = this.bottom; + data.object.near = this.near; + data.object.far = this.far; + + if ( this.view !== null ) data.object.view = Object.assign( {}, this.view ); + + return data; + + } + +} + +class DirectionalLightShadow extends LightShadow { + + constructor() { + + super( new OrthographicCamera( - 5, 5, 5, - 5, 0.5, 500 ) ); + + this.isDirectionalLightShadow = true; + + } + +} + +class DirectionalLight extends Light { + + constructor( color, intensity ) { + + super( color, intensity ); + + this.isDirectionalLight = true; + + this.type = 'DirectionalLight'; + + this.position.copy( Object3D.DEFAULT_UP ); + this.updateMatrix(); + + this.target = new Object3D(); + + this.shadow = new DirectionalLightShadow(); + + } + + dispose() { + + this.shadow.dispose(); + + } + + copy( source ) { + + super.copy( source ); + + this.target = source.target.clone(); + this.shadow = source.shadow.clone(); + + return this; + + } + +} + +class AmbientLight extends Light { + + constructor( color, intensity ) { + + super( color, intensity ); + + this.isAmbientLight = true; + + this.type = 'AmbientLight'; + + } + +} + +class RectAreaLight extends Light { + + constructor( color, intensity, width = 10, height = 10 ) { + + super( color, intensity ); + + this.isRectAreaLight = true; + + this.type = 'RectAreaLight'; + + this.width = width; + this.height = height; + + } + + get power() { + + // compute the light's luminous power (in lumens) from its intensity (in nits) + return this.intensity * this.width * this.height * Math.PI; + + } + + set power( power ) { + + // set the light's intensity (in nits) from the desired luminous power (in lumens) + this.intensity = power / ( this.width * this.height * Math.PI ); + + } + + copy( source ) { + + super.copy( source ); + + this.width = source.width; + this.height = source.height; + + return this; + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + data.object.width = this.width; + data.object.height = this.height; + + return data; + + } + +} + +/** + * Primary reference: + * https://graphics.stanford.edu/papers/envmap/envmap.pdf + * + * Secondary reference: + * https://www.ppsloan.org/publications/StupidSH36.pdf + */ + +// 3-band SH defined by 9 coefficients + +class SphericalHarmonics3 { + + constructor() { + + this.isSphericalHarmonics3 = true; + + this.coefficients = []; + + for ( let i = 0; i < 9; i ++ ) { + + this.coefficients.push( new Vector3() ); + + } + + } + + set( coefficients ) { + + for ( let i = 0; i < 9; i ++ ) { + + this.coefficients[ i ].copy( coefficients[ i ] ); + + } + + return this; + + } + + zero() { + + for ( let i = 0; i < 9; i ++ ) { + + this.coefficients[ i ].set( 0, 0, 0 ); + + } + + return this; + + } + + // get the radiance in the direction of the normal + // target is a Vector3 + getAt( normal, target ) { + + // normal is assumed to be unit length + + const x = normal.x, y = normal.y, z = normal.z; + + const coeff = this.coefficients; + + // band 0 + target.copy( coeff[ 0 ] ).multiplyScalar( 0.282095 ); + + // band 1 + target.addScaledVector( coeff[ 1 ], 0.488603 * y ); + target.addScaledVector( coeff[ 2 ], 0.488603 * z ); + target.addScaledVector( coeff[ 3 ], 0.488603 * x ); + + // band 2 + target.addScaledVector( coeff[ 4 ], 1.092548 * ( x * y ) ); + target.addScaledVector( coeff[ 5 ], 1.092548 * ( y * z ) ); + target.addScaledVector( coeff[ 6 ], 0.315392 * ( 3.0 * z * z - 1.0 ) ); + target.addScaledVector( coeff[ 7 ], 1.092548 * ( x * z ) ); + target.addScaledVector( coeff[ 8 ], 0.546274 * ( x * x - y * y ) ); + + return target; + + } + + // get the irradiance (radiance convolved with cosine lobe) in the direction of the normal + // target is a Vector3 + // https://graphics.stanford.edu/papers/envmap/envmap.pdf + getIrradianceAt( normal, target ) { + + // normal is assumed to be unit length + + const x = normal.x, y = normal.y, z = normal.z; + + const coeff = this.coefficients; + + // band 0 + target.copy( coeff[ 0 ] ).multiplyScalar( 0.886227 ); // π * 0.282095 + + // band 1 + target.addScaledVector( coeff[ 1 ], 2.0 * 0.511664 * y ); // ( 2 * π / 3 ) * 0.488603 + target.addScaledVector( coeff[ 2 ], 2.0 * 0.511664 * z ); + target.addScaledVector( coeff[ 3 ], 2.0 * 0.511664 * x ); + + // band 2 + target.addScaledVector( coeff[ 4 ], 2.0 * 0.429043 * x * y ); // ( π / 4 ) * 1.092548 + target.addScaledVector( coeff[ 5 ], 2.0 * 0.429043 * y * z ); + target.addScaledVector( coeff[ 6 ], 0.743125 * z * z - 0.247708 ); // ( π / 4 ) * 0.315392 * 3 + target.addScaledVector( coeff[ 7 ], 2.0 * 0.429043 * x * z ); + target.addScaledVector( coeff[ 8 ], 0.429043 * ( x * x - y * y ) ); // ( π / 4 ) * 0.546274 + + return target; + + } + + add( sh ) { + + for ( let i = 0; i < 9; i ++ ) { + + this.coefficients[ i ].add( sh.coefficients[ i ] ); + + } + + return this; + + } + + addScaledSH( sh, s ) { + + for ( let i = 0; i < 9; i ++ ) { + + this.coefficients[ i ].addScaledVector( sh.coefficients[ i ], s ); + + } + + return this; + + } + + scale( s ) { + + for ( let i = 0; i < 9; i ++ ) { + + this.coefficients[ i ].multiplyScalar( s ); + + } + + return this; + + } + + lerp( sh, alpha ) { + + for ( let i = 0; i < 9; i ++ ) { + + this.coefficients[ i ].lerp( sh.coefficients[ i ], alpha ); + + } + + return this; + + } + + equals( sh ) { + + for ( let i = 0; i < 9; i ++ ) { + + if ( ! this.coefficients[ i ].equals( sh.coefficients[ i ] ) ) { + + return false; + + } + + } + + return true; + + } + + copy( sh ) { + + return this.set( sh.coefficients ); + + } + + clone() { + + return new this.constructor().copy( this ); + + } + + fromArray( array, offset = 0 ) { + + const coefficients = this.coefficients; + + for ( let i = 0; i < 9; i ++ ) { + + coefficients[ i ].fromArray( array, offset + ( i * 3 ) ); + + } + + return this; + + } + + toArray( array = [], offset = 0 ) { + + const coefficients = this.coefficients; + + for ( let i = 0; i < 9; i ++ ) { + + coefficients[ i ].toArray( array, offset + ( i * 3 ) ); + + } + + return array; + + } + + // evaluate the basis functions + // shBasis is an Array[ 9 ] + static getBasisAt( normal, shBasis ) { + + // normal is assumed to be unit length + + const x = normal.x, y = normal.y, z = normal.z; + + // band 0 + shBasis[ 0 ] = 0.282095; + + // band 1 + shBasis[ 1 ] = 0.488603 * y; + shBasis[ 2 ] = 0.488603 * z; + shBasis[ 3 ] = 0.488603 * x; + + // band 2 + shBasis[ 4 ] = 1.092548 * x * y; + shBasis[ 5 ] = 1.092548 * y * z; + shBasis[ 6 ] = 0.315392 * ( 3 * z * z - 1 ); + shBasis[ 7 ] = 1.092548 * x * z; + shBasis[ 8 ] = 0.546274 * ( x * x - y * y ); + + } + +} + +class LightProbe extends Light { + + constructor( sh = new SphericalHarmonics3(), intensity = 1 ) { + + super( undefined, intensity ); + + this.isLightProbe = true; + + this.sh = sh; + + } + + copy( source ) { + + super.copy( source ); + + this.sh.copy( source.sh ); + + return this; + + } + + fromJSON( json ) { + + this.intensity = json.intensity; // TODO: Move this bit to Light.fromJSON(); + this.sh.fromArray( json.sh ); + + return this; + + } + + toJSON( meta ) { + + const data = super.toJSON( meta ); + + data.object.sh = this.sh.toArray(); + + return data; + + } + +} + +class MaterialLoader extends Loader { + + constructor( manager ) { + + super( manager ); + this.textures = {}; + + } + + load( url, onLoad, onProgress, onError ) { + + const scope = this; + + const loader = new FileLoader( scope.manager ); + loader.setPath( scope.path ); + loader.setRequestHeader( scope.requestHeader ); + loader.setWithCredentials( scope.withCredentials ); + loader.load( url, function ( text ) { + + try { + + onLoad( scope.parse( JSON.parse( text ) ) ); + + } catch ( e ) { + + if ( onError ) { + + onError( e ); + + } else { + + console.error( e ); + + } + + scope.manager.itemError( url ); + + } + + }, onProgress, onError ); + + } + + parse( json ) { + + const textures = this.textures; + + function getTexture( name ) { + + if ( textures[ name ] === undefined ) { + + console.warn( 'THREE.MaterialLoader: Undefined texture', name ); + + } + + return textures[ name ]; + + } + + const material = MaterialLoader.createMaterialFromType( json.type ); + + if ( json.uuid !== undefined ) material.uuid = json.uuid; + if ( json.name !== undefined ) material.name = json.name; + if ( json.color !== undefined && material.color !== undefined ) material.color.setHex( json.color ); + if ( json.roughness !== undefined ) material.roughness = json.roughness; + if ( json.metalness !== undefined ) material.metalness = json.metalness; + if ( json.sheen !== undefined ) material.sheen = json.sheen; + if ( json.sheenColor !== undefined ) material.sheenColor = new Color().setHex( json.sheenColor ); + if ( json.sheenRoughness !== undefined ) material.sheenRoughness = json.sheenRoughness; + if ( json.emissive !== undefined && material.emissive !== undefined ) material.emissive.setHex( json.emissive ); + if ( json.specular !== undefined && material.specular !== undefined ) material.specular.setHex( json.specular ); + if ( json.specularIntensity !== undefined ) material.specularIntensity = json.specularIntensity; + if ( json.specularColor !== undefined && material.specularColor !== undefined ) material.specularColor.setHex( json.specularColor ); + if ( json.shininess !== undefined ) material.shininess = json.shininess; + if ( json.clearcoat !== undefined ) material.clearcoat = json.clearcoat; + if ( json.clearcoatRoughness !== undefined ) material.clearcoatRoughness = json.clearcoatRoughness; + if ( json.dispersion !== undefined ) material.dispersion = json.dispersion; + if ( json.iridescence !== undefined ) material.iridescence = json.iridescence; + if ( json.iridescenceIOR !== undefined ) material.iridescenceIOR = json.iridescenceIOR; + if ( json.iridescenceThicknessRange !== undefined ) material.iridescenceThicknessRange = json.iridescenceThicknessRange; + if ( json.transmission !== undefined ) material.transmission = json.transmission; + if ( json.thickness !== undefined ) material.thickness = json.thickness; + if ( json.attenuationDistance !== undefined ) material.attenuationDistance = json.attenuationDistance; + if ( json.attenuationColor !== undefined && material.attenuationColor !== undefined ) material.attenuationColor.setHex( json.attenuationColor ); + if ( json.anisotropy !== undefined ) material.anisotropy = json.anisotropy; + if ( json.anisotropyRotation !== undefined ) material.anisotropyRotation = json.anisotropyRotation; + if ( json.fog !== undefined ) material.fog = json.fog; + if ( json.flatShading !== undefined ) material.flatShading = json.flatShading; + if ( json.blending !== undefined ) material.blending = json.blending; + if ( json.combine !== undefined ) material.combine = json.combine; + if ( json.side !== undefined ) material.side = json.side; + if ( json.shadowSide !== undefined ) material.shadowSide = json.shadowSide; + if ( json.opacity !== undefined ) material.opacity = json.opacity; + if ( json.transparent !== undefined ) material.transparent = json.transparent; + if ( json.alphaTest !== undefined ) material.alphaTest = json.alphaTest; + if ( json.alphaHash !== undefined ) material.alphaHash = json.alphaHash; + if ( json.depthFunc !== undefined ) material.depthFunc = json.depthFunc; + if ( json.depthTest !== undefined ) material.depthTest = json.depthTest; + if ( json.depthWrite !== undefined ) material.depthWrite = json.depthWrite; + if ( json.colorWrite !== undefined ) material.colorWrite = json.colorWrite; + if ( json.blendSrc !== undefined ) material.blendSrc = json.blendSrc; + if ( json.blendDst !== undefined ) material.blendDst = json.blendDst; + if ( json.blendEquation !== undefined ) material.blendEquation = json.blendEquation; + if ( json.blendSrcAlpha !== undefined ) material.blendSrcAlpha = json.blendSrcAlpha; + if ( json.blendDstAlpha !== undefined ) material.blendDstAlpha = json.blendDstAlpha; + if ( json.blendEquationAlpha !== undefined ) material.blendEquationAlpha = json.blendEquationAlpha; + if ( json.blendColor !== undefined && material.blendColor !== undefined ) material.blendColor.setHex( json.blendColor ); + if ( json.blendAlpha !== undefined ) material.blendAlpha = json.blendAlpha; + if ( json.stencilWriteMask !== undefined ) material.stencilWriteMask = json.stencilWriteMask; + if ( json.stencilFunc !== undefined ) material.stencilFunc = json.stencilFunc; + if ( json.stencilRef !== undefined ) material.stencilRef = json.stencilRef; + if ( json.stencilFuncMask !== undefined ) material.stencilFuncMask = json.stencilFuncMask; + if ( json.stencilFail !== undefined ) material.stencilFail = json.stencilFail; + if ( json.stencilZFail !== undefined ) material.stencilZFail = json.stencilZFail; + if ( json.stencilZPass !== undefined ) material.stencilZPass = json.stencilZPass; + if ( json.stencilWrite !== undefined ) material.stencilWrite = json.stencilWrite; + + if ( json.wireframe !== undefined ) material.wireframe = json.wireframe; + if ( json.wireframeLinewidth !== undefined ) material.wireframeLinewidth = json.wireframeLinewidth; + if ( json.wireframeLinecap !== undefined ) material.wireframeLinecap = json.wireframeLinecap; + if ( json.wireframeLinejoin !== undefined ) material.wireframeLinejoin = json.wireframeLinejoin; + + if ( json.rotation !== undefined ) material.rotation = json.rotation; + + if ( json.linewidth !== undefined ) material.linewidth = json.linewidth; + if ( json.dashSize !== undefined ) material.dashSize = json.dashSize; + if ( json.gapSize !== undefined ) material.gapSize = json.gapSize; + if ( json.scale !== undefined ) material.scale = json.scale; + + if ( json.polygonOffset !== undefined ) material.polygonOffset = json.polygonOffset; + if ( json.polygonOffsetFactor !== undefined ) material.polygonOffsetFactor = json.polygonOffsetFactor; + if ( json.polygonOffsetUnits !== undefined ) material.polygonOffsetUnits = json.polygonOffsetUnits; + + if ( json.dithering !== undefined ) material.dithering = json.dithering; + + if ( json.alphaToCoverage !== undefined ) material.alphaToCoverage = json.alphaToCoverage; + if ( json.premultipliedAlpha !== undefined ) material.premultipliedAlpha = json.premultipliedAlpha; + if ( json.forceSinglePass !== undefined ) material.forceSinglePass = json.forceSinglePass; + + if ( json.visible !== undefined ) material.visible = json.visible; + + if ( json.toneMapped !== undefined ) material.toneMapped = json.toneMapped; + + if ( json.userData !== undefined ) material.userData = json.userData; + + if ( json.vertexColors !== undefined ) { + + if ( typeof json.vertexColors === 'number' ) { + + material.vertexColors = ( json.vertexColors > 0 ) ? true : false; + + } else { + + material.vertexColors = json.vertexColors; + + } + + } + + // Shader Material + + if ( json.uniforms !== undefined ) { + + for ( const name in json.uniforms ) { + + const uniform = json.uniforms[ name ]; + + material.uniforms[ name ] = {}; + + switch ( uniform.type ) { + + case 't': + material.uniforms[ name ].value = getTexture( uniform.value ); + break; + + case 'c': + material.uniforms[ name ].value = new Color().setHex( uniform.value ); + break; + + case 'v2': + material.uniforms[ name ].value = new Vector2().fromArray( uniform.value ); + break; + + case 'v3': + material.uniforms[ name ].value = new Vector3().fromArray( uniform.value ); + break; + + case 'v4': + material.uniforms[ name ].value = new Vector4().fromArray( uniform.value ); + break; + + case 'm3': + material.uniforms[ name ].value = new Matrix3().fromArray( uniform.value ); + break; + + case 'm4': + material.uniforms[ name ].value = new Matrix4().fromArray( uniform.value ); + break; + + default: + material.uniforms[ name ].value = uniform.value; + + } + + } + + } + + if ( json.defines !== undefined ) material.defines = json.defines; + if ( json.vertexShader !== undefined ) material.vertexShader = json.vertexShader; + if ( json.fragmentShader !== undefined ) material.fragmentShader = json.fragmentShader; + if ( json.glslVersion !== undefined ) material.glslVersion = json.glslVersion; + + if ( json.extensions !== undefined ) { + + for ( const key in json.extensions ) { + + material.extensions[ key ] = json.extensions[ key ]; + + } + + } + + if ( json.lights !== undefined ) material.lights = json.lights; + if ( json.clipping !== undefined ) material.clipping = json.clipping; + + // for PointsMaterial + + if ( json.size !== undefined ) material.size = json.size; + if ( json.sizeAttenuation !== undefined ) material.sizeAttenuation = json.sizeAttenuation; + + // maps + + if ( json.map !== undefined ) material.map = getTexture( json.map ); + if ( json.matcap !== undefined ) material.matcap = getTexture( json.matcap ); + + if ( json.alphaMap !== undefined ) material.alphaMap = getTexture( json.alphaMap ); + + if ( json.bumpMap !== undefined ) material.bumpMap = getTexture( json.bumpMap ); + if ( json.bumpScale !== undefined ) material.bumpScale = json.bumpScale; + + if ( json.normalMap !== undefined ) material.normalMap = getTexture( json.normalMap ); + if ( json.normalMapType !== undefined ) material.normalMapType = json.normalMapType; + if ( json.normalScale !== undefined ) { + + let normalScale = json.normalScale; + + if ( Array.isArray( normalScale ) === false ) { + + // Blender exporter used to export a scalar. See #7459 + + normalScale = [ normalScale, normalScale ]; + + } + + material.normalScale = new Vector2().fromArray( normalScale ); + + } + + if ( json.displacementMap !== undefined ) material.displacementMap = getTexture( json.displacementMap ); + if ( json.displacementScale !== undefined ) material.displacementScale = json.displacementScale; + if ( json.displacementBias !== undefined ) material.displacementBias = json.displacementBias; + + if ( json.roughnessMap !== undefined ) material.roughnessMap = getTexture( json.roughnessMap ); + if ( json.metalnessMap !== undefined ) material.metalnessMap = getTexture( json.metalnessMap ); + + if ( json.emissiveMap !== undefined ) material.emissiveMap = getTexture( json.emissiveMap ); + if ( json.emissiveIntensity !== undefined ) material.emissiveIntensity = json.emissiveIntensity; + + if ( json.specularMap !== undefined ) material.specularMap = getTexture( json.specularMap ); + if ( json.specularIntensityMap !== undefined ) material.specularIntensityMap = getTexture( json.specularIntensityMap ); + if ( json.specularColorMap !== undefined ) material.specularColorMap = getTexture( json.specularColorMap ); + + if ( json.envMap !== undefined ) material.envMap = getTexture( json.envMap ); + if ( json.envMapRotation !== undefined ) material.envMapRotation.fromArray( json.envMapRotation ); + if ( json.envMapIntensity !== undefined ) material.envMapIntensity = json.envMapIntensity; + + if ( json.reflectivity !== undefined ) material.reflectivity = json.reflectivity; + if ( json.refractionRatio !== undefined ) material.refractionRatio = json.refractionRatio; + + if ( json.lightMap !== undefined ) material.lightMap = getTexture( json.lightMap ); + if ( json.lightMapIntensity !== undefined ) material.lightMapIntensity = json.lightMapIntensity; + + if ( json.aoMap !== undefined ) material.aoMap = getTexture( json.aoMap ); + if ( json.aoMapIntensity !== undefined ) material.aoMapIntensity = json.aoMapIntensity; + + if ( json.gradientMap !== undefined ) material.gradientMap = getTexture( json.gradientMap ); + + if ( json.clearcoatMap !== undefined ) material.clearcoatMap = getTexture( json.clearcoatMap ); + if ( json.clearcoatRoughnessMap !== undefined ) material.clearcoatRoughnessMap = getTexture( json.clearcoatRoughnessMap ); + if ( json.clearcoatNormalMap !== undefined ) material.clearcoatNormalMap = getTexture( json.clearcoatNormalMap ); + if ( json.clearcoatNormalScale !== undefined ) material.clearcoatNormalScale = new Vector2().fromArray( json.clearcoatNormalScale ); + + if ( json.iridescenceMap !== undefined ) material.iridescenceMap = getTexture( json.iridescenceMap ); + if ( json.iridescenceThicknessMap !== undefined ) material.iridescenceThicknessMap = getTexture( json.iridescenceThicknessMap ); + + if ( json.transmissionMap !== undefined ) material.transmissionMap = getTexture( json.transmissionMap ); + if ( json.thicknessMap !== undefined ) material.thicknessMap = getTexture( json.thicknessMap ); + + if ( json.anisotropyMap !== undefined ) material.anisotropyMap = getTexture( json.anisotropyMap ); + + if ( json.sheenColorMap !== undefined ) material.sheenColorMap = getTexture( json.sheenColorMap ); + if ( json.sheenRoughnessMap !== undefined ) material.sheenRoughnessMap = getTexture( json.sheenRoughnessMap ); + + return material; + + } + + setTextures( value ) { + + this.textures = value; + return this; + + } + + static createMaterialFromType( type ) { + + const materialLib = { + ShadowMaterial, + SpriteMaterial, + RawShaderMaterial, + ShaderMaterial, + PointsMaterial, + MeshPhysicalMaterial, + MeshStandardMaterial, + MeshPhongMaterial, + MeshToonMaterial, + MeshNormalMaterial, + MeshLambertMaterial, + MeshDepthMaterial, + MeshDistanceMaterial, + MeshBasicMaterial, + MeshMatcapMaterial, + LineDashedMaterial, + LineBasicMaterial, + Material + }; + + return new materialLib[ type ](); + + } + +} + +class LoaderUtils { + + static decodeText( array ) { // @deprecated, r165 + + console.warn( 'THREE.LoaderUtils: decodeText() has been deprecated with r165 and will be removed with r175. Use TextDecoder instead.' ); + + if ( typeof TextDecoder !== 'undefined' ) { + + return new TextDecoder().decode( array ); + + } + + // Avoid the String.fromCharCode.apply(null, array) shortcut, which + // throws a "maximum call stack size exceeded" error for large arrays. + + let s = ''; + + for ( let i = 0, il = array.length; i < il; i ++ ) { + + // Implicitly assumes little-endian. + s += String.fromCharCode( array[ i ] ); + + } + + try { + + // merges multi-byte utf-8 characters. + + return decodeURIComponent( escape( s ) ); + + } catch ( e ) { // see #16358 + + return s; + + } + + } + + static extractUrlBase( url ) { + + const index = url.lastIndexOf( '/' ); + + if ( index === - 1 ) return './'; + + return url.slice( 0, index + 1 ); + + } + + static resolveURL( url, path ) { + + // Invalid URL + if ( typeof url !== 'string' || url === '' ) return ''; + + // Host Relative URL + if ( /^https?:\/\//i.test( path ) && /^\//.test( url ) ) { + + path = path.replace( /(^https?:\/\/[^\/]+).*/i, '$1' ); + + } + + // Absolute URL http://,https://,// + if ( /^(https?:)?\/\//i.test( url ) ) return url; + + // Data URI + if ( /^data:.*,.*$/i.test( url ) ) return url; + + // Blob URL + if ( /^blob:.*$/i.test( url ) ) return url; + + // Relative URL + return path + url; + + } + +} + +class InstancedBufferGeometry extends BufferGeometry { + + constructor() { + + super(); + + this.isInstancedBufferGeometry = true; + + this.type = 'InstancedBufferGeometry'; + this.instanceCount = Infinity; + + } + + copy( source ) { + + super.copy( source ); + + this.instanceCount = source.instanceCount; + + return this; + + } + + toJSON() { + + const data = super.toJSON(); + + data.instanceCount = this.instanceCount; + + data.isInstancedBufferGeometry = true; + + return data; + + } + +} + +class BufferGeometryLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + } + + load( url, onLoad, onProgress, onError ) { + + const scope = this; + + const loader = new FileLoader( scope.manager ); + loader.setPath( scope.path ); + loader.setRequestHeader( scope.requestHeader ); + loader.setWithCredentials( scope.withCredentials ); + loader.load( url, function ( text ) { + + try { + + onLoad( scope.parse( JSON.parse( text ) ) ); + + } catch ( e ) { + + if ( onError ) { + + onError( e ); + + } else { + + console.error( e ); + + } + + scope.manager.itemError( url ); + + } + + }, onProgress, onError ); + + } + + parse( json ) { + + const interleavedBufferMap = {}; + const arrayBufferMap = {}; + + function getInterleavedBuffer( json, uuid ) { + + if ( interleavedBufferMap[ uuid ] !== undefined ) return interleavedBufferMap[ uuid ]; + + const interleavedBuffers = json.interleavedBuffers; + const interleavedBuffer = interleavedBuffers[ uuid ]; + + const buffer = getArrayBuffer( json, interleavedBuffer.buffer ); + + const array = getTypedArray( interleavedBuffer.type, buffer ); + const ib = new InterleavedBuffer( array, interleavedBuffer.stride ); + ib.uuid = interleavedBuffer.uuid; + + interleavedBufferMap[ uuid ] = ib; + + return ib; + + } + + function getArrayBuffer( json, uuid ) { + + if ( arrayBufferMap[ uuid ] !== undefined ) return arrayBufferMap[ uuid ]; + + const arrayBuffers = json.arrayBuffers; + const arrayBuffer = arrayBuffers[ uuid ]; + + const ab = new Uint32Array( arrayBuffer ).buffer; + + arrayBufferMap[ uuid ] = ab; + + return ab; + + } + + const geometry = json.isInstancedBufferGeometry ? new InstancedBufferGeometry() : new BufferGeometry(); + + const index = json.data.index; + + if ( index !== undefined ) { + + const typedArray = getTypedArray( index.type, index.array ); + geometry.setIndex( new BufferAttribute( typedArray, 1 ) ); + + } + + const attributes = json.data.attributes; + + for ( const key in attributes ) { + + const attribute = attributes[ key ]; + let bufferAttribute; + + if ( attribute.isInterleavedBufferAttribute ) { + + const interleavedBuffer = getInterleavedBuffer( json.data, attribute.data ); + bufferAttribute = new InterleavedBufferAttribute( interleavedBuffer, attribute.itemSize, attribute.offset, attribute.normalized ); + + } else { + + const typedArray = getTypedArray( attribute.type, attribute.array ); + const bufferAttributeConstr = attribute.isInstancedBufferAttribute ? InstancedBufferAttribute : BufferAttribute; + bufferAttribute = new bufferAttributeConstr( typedArray, attribute.itemSize, attribute.normalized ); + + } + + if ( attribute.name !== undefined ) bufferAttribute.name = attribute.name; + if ( attribute.usage !== undefined ) bufferAttribute.setUsage( attribute.usage ); + + geometry.setAttribute( key, bufferAttribute ); + + } + + const morphAttributes = json.data.morphAttributes; + + if ( morphAttributes ) { + + for ( const key in morphAttributes ) { + + const attributeArray = morphAttributes[ key ]; + + const array = []; + + for ( let i = 0, il = attributeArray.length; i < il; i ++ ) { + + const attribute = attributeArray[ i ]; + let bufferAttribute; + + if ( attribute.isInterleavedBufferAttribute ) { + + const interleavedBuffer = getInterleavedBuffer( json.data, attribute.data ); + bufferAttribute = new InterleavedBufferAttribute( interleavedBuffer, attribute.itemSize, attribute.offset, attribute.normalized ); + + } else { + + const typedArray = getTypedArray( attribute.type, attribute.array ); + bufferAttribute = new BufferAttribute( typedArray, attribute.itemSize, attribute.normalized ); + + } + + if ( attribute.name !== undefined ) bufferAttribute.name = attribute.name; + array.push( bufferAttribute ); + + } + + geometry.morphAttributes[ key ] = array; + + } + + } + + const morphTargetsRelative = json.data.morphTargetsRelative; + + if ( morphTargetsRelative ) { + + geometry.morphTargetsRelative = true; + + } + + const groups = json.data.groups || json.data.drawcalls || json.data.offsets; + + if ( groups !== undefined ) { + + for ( let i = 0, n = groups.length; i !== n; ++ i ) { + + const group = groups[ i ]; + + geometry.addGroup( group.start, group.count, group.materialIndex ); + + } + + } + + const boundingSphere = json.data.boundingSphere; + + if ( boundingSphere !== undefined ) { + + const center = new Vector3(); + + if ( boundingSphere.center !== undefined ) { + + center.fromArray( boundingSphere.center ); + + } + + geometry.boundingSphere = new Sphere( center, boundingSphere.radius ); + + } + + if ( json.name ) geometry.name = json.name; + if ( json.userData ) geometry.userData = json.userData; + + return geometry; + + } + +} + +class ObjectLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + } + + load( url, onLoad, onProgress, onError ) { + + const scope = this; + + const path = ( this.path === '' ) ? LoaderUtils.extractUrlBase( url ) : this.path; + this.resourcePath = this.resourcePath || path; + + const loader = new FileLoader( this.manager ); + loader.setPath( this.path ); + loader.setRequestHeader( this.requestHeader ); + loader.setWithCredentials( this.withCredentials ); + loader.load( url, function ( text ) { + + let json = null; + + try { + + json = JSON.parse( text ); + + } catch ( error ) { + + if ( onError !== undefined ) onError( error ); + + console.error( 'THREE:ObjectLoader: Can\'t parse ' + url + '.', error.message ); + + return; + + } + + const metadata = json.metadata; + + if ( metadata === undefined || metadata.type === undefined || metadata.type.toLowerCase() === 'geometry' ) { + + if ( onError !== undefined ) onError( new Error( 'THREE.ObjectLoader: Can\'t load ' + url ) ); + + console.error( 'THREE.ObjectLoader: Can\'t load ' + url ); + return; + + } + + scope.parse( json, onLoad ); + + }, onProgress, onError ); + + } + + async loadAsync( url, onProgress ) { + + const scope = this; + + const path = ( this.path === '' ) ? LoaderUtils.extractUrlBase( url ) : this.path; + this.resourcePath = this.resourcePath || path; + + const loader = new FileLoader( this.manager ); + loader.setPath( this.path ); + loader.setRequestHeader( this.requestHeader ); + loader.setWithCredentials( this.withCredentials ); + + const text = await loader.loadAsync( url, onProgress ); + + const json = JSON.parse( text ); + + const metadata = json.metadata; + + if ( metadata === undefined || metadata.type === undefined || metadata.type.toLowerCase() === 'geometry' ) { + + throw new Error( 'THREE.ObjectLoader: Can\'t load ' + url ); + + } + + return await scope.parseAsync( json ); + + } + + parse( json, onLoad ) { + + const animations = this.parseAnimations( json.animations ); + const shapes = this.parseShapes( json.shapes ); + const geometries = this.parseGeometries( json.geometries, shapes ); + + const images = this.parseImages( json.images, function () { + + if ( onLoad !== undefined ) onLoad( object ); + + } ); + + const textures = this.parseTextures( json.textures, images ); + const materials = this.parseMaterials( json.materials, textures ); + + const object = this.parseObject( json.object, geometries, materials, textures, animations ); + const skeletons = this.parseSkeletons( json.skeletons, object ); + + this.bindSkeletons( object, skeletons ); + this.bindLightTargets( object ); + + // + + if ( onLoad !== undefined ) { + + let hasImages = false; + + for ( const uuid in images ) { + + if ( images[ uuid ].data instanceof HTMLImageElement ) { + + hasImages = true; + break; + + } + + } + + if ( hasImages === false ) onLoad( object ); + + } + + return object; + + } + + async parseAsync( json ) { + + const animations = this.parseAnimations( json.animations ); + const shapes = this.parseShapes( json.shapes ); + const geometries = this.parseGeometries( json.geometries, shapes ); + + const images = await this.parseImagesAsync( json.images ); + + const textures = this.parseTextures( json.textures, images ); + const materials = this.parseMaterials( json.materials, textures ); + + const object = this.parseObject( json.object, geometries, materials, textures, animations ); + const skeletons = this.parseSkeletons( json.skeletons, object ); + + this.bindSkeletons( object, skeletons ); + + return object; + + } + + parseShapes( json ) { + + const shapes = {}; + + if ( json !== undefined ) { + + for ( let i = 0, l = json.length; i < l; i ++ ) { + + const shape = new Shape().fromJSON( json[ i ] ); + + shapes[ shape.uuid ] = shape; + + } + + } + + return shapes; + + } + + parseSkeletons( json, object ) { + + const skeletons = {}; + const bones = {}; + + // generate bone lookup table + + object.traverse( function ( child ) { + + if ( child.isBone ) bones[ child.uuid ] = child; + + } ); + + // create skeletons + + if ( json !== undefined ) { + + for ( let i = 0, l = json.length; i < l; i ++ ) { + + const skeleton = new Skeleton().fromJSON( json[ i ], bones ); + + skeletons[ skeleton.uuid ] = skeleton; + + } + + } + + return skeletons; + + } + + parseGeometries( json, shapes ) { + + const geometries = {}; + + if ( json !== undefined ) { + + const bufferGeometryLoader = new BufferGeometryLoader(); + + for ( let i = 0, l = json.length; i < l; i ++ ) { + + let geometry; + const data = json[ i ]; + + switch ( data.type ) { + + case 'BufferGeometry': + case 'InstancedBufferGeometry': + + geometry = bufferGeometryLoader.parse( data ); + break; + + default: + + if ( data.type in Geometries$1 ) { + + geometry = Geometries$1[ data.type ].fromJSON( data, shapes ); + + } else { + + console.warn( `THREE.ObjectLoader: Unsupported geometry type "${ data.type }"` ); + + } + + } + + geometry.uuid = data.uuid; + + if ( data.name !== undefined ) geometry.name = data.name; + if ( data.userData !== undefined ) geometry.userData = data.userData; + + geometries[ data.uuid ] = geometry; + + } + + } + + return geometries; + + } + + parseMaterials( json, textures ) { + + const cache = {}; // MultiMaterial + const materials = {}; + + if ( json !== undefined ) { + + const loader = new MaterialLoader(); + loader.setTextures( textures ); + + for ( let i = 0, l = json.length; i < l; i ++ ) { + + const data = json[ i ]; + + if ( cache[ data.uuid ] === undefined ) { + + cache[ data.uuid ] = loader.parse( data ); + + } + + materials[ data.uuid ] = cache[ data.uuid ]; + + } + + } + + return materials; + + } + + parseAnimations( json ) { + + const animations = {}; + + if ( json !== undefined ) { + + for ( let i = 0; i < json.length; i ++ ) { + + const data = json[ i ]; + + const clip = AnimationClip.parse( data ); + + animations[ clip.uuid ] = clip; + + } + + } + + return animations; + + } + + parseImages( json, onLoad ) { + + const scope = this; + const images = {}; + + let loader; + + function loadImage( url ) { + + scope.manager.itemStart( url ); + + return loader.load( url, function () { + + scope.manager.itemEnd( url ); + + }, undefined, function () { + + scope.manager.itemError( url ); + scope.manager.itemEnd( url ); + + } ); + + } + + function deserializeImage( image ) { + + if ( typeof image === 'string' ) { + + const url = image; + + const path = /^(\/\/)|([a-z]+:(\/\/)?)/i.test( url ) ? url : scope.resourcePath + url; + + return loadImage( path ); + + } else { + + if ( image.data ) { + + return { + data: getTypedArray( image.type, image.data ), + width: image.width, + height: image.height + }; + + } else { + + return null; + + } + + } + + } + + if ( json !== undefined && json.length > 0 ) { + + const manager = new LoadingManager( onLoad ); + + loader = new ImageLoader( manager ); + loader.setCrossOrigin( this.crossOrigin ); + + for ( let i = 0, il = json.length; i < il; i ++ ) { + + const image = json[ i ]; + const url = image.url; + + if ( Array.isArray( url ) ) { + + // load array of images e.g CubeTexture + + const imageArray = []; + + for ( let j = 0, jl = url.length; j < jl; j ++ ) { + + const currentUrl = url[ j ]; + + const deserializedImage = deserializeImage( currentUrl ); + + if ( deserializedImage !== null ) { + + if ( deserializedImage instanceof HTMLImageElement ) { + + imageArray.push( deserializedImage ); + + } else { + + // special case: handle array of data textures for cube textures + + imageArray.push( new DataTexture( deserializedImage.data, deserializedImage.width, deserializedImage.height ) ); + + } + + } + + } + + images[ image.uuid ] = new Source( imageArray ); + + } else { + + // load single image + + const deserializedImage = deserializeImage( image.url ); + images[ image.uuid ] = new Source( deserializedImage ); + + + } + + } + + } + + return images; + + } + + async parseImagesAsync( json ) { + + const scope = this; + const images = {}; + + let loader; + + async function deserializeImage( image ) { + + if ( typeof image === 'string' ) { + + const url = image; + + const path = /^(\/\/)|([a-z]+:(\/\/)?)/i.test( url ) ? url : scope.resourcePath + url; + + return await loader.loadAsync( path ); + + } else { + + if ( image.data ) { + + return { + data: getTypedArray( image.type, image.data ), + width: image.width, + height: image.height + }; + + } else { + + return null; + + } + + } + + } + + if ( json !== undefined && json.length > 0 ) { + + loader = new ImageLoader( this.manager ); + loader.setCrossOrigin( this.crossOrigin ); + + for ( let i = 0, il = json.length; i < il; i ++ ) { + + const image = json[ i ]; + const url = image.url; + + if ( Array.isArray( url ) ) { + + // load array of images e.g CubeTexture + + const imageArray = []; + + for ( let j = 0, jl = url.length; j < jl; j ++ ) { + + const currentUrl = url[ j ]; + + const deserializedImage = await deserializeImage( currentUrl ); + + if ( deserializedImage !== null ) { + + if ( deserializedImage instanceof HTMLImageElement ) { + + imageArray.push( deserializedImage ); + + } else { + + // special case: handle array of data textures for cube textures + + imageArray.push( new DataTexture( deserializedImage.data, deserializedImage.width, deserializedImage.height ) ); + + } + + } + + } + + images[ image.uuid ] = new Source( imageArray ); + + } else { + + // load single image + + const deserializedImage = await deserializeImage( image.url ); + images[ image.uuid ] = new Source( deserializedImage ); + + } + + } + + } + + return images; + + } + + parseTextures( json, images ) { + + function parseConstant( value, type ) { + + if ( typeof value === 'number' ) return value; + + console.warn( 'THREE.ObjectLoader.parseTexture: Constant should be in numeric form.', value ); + + return type[ value ]; + + } + + const textures = {}; + + if ( json !== undefined ) { + + for ( let i = 0, l = json.length; i < l; i ++ ) { + + const data = json[ i ]; + + if ( data.image === undefined ) { + + console.warn( 'THREE.ObjectLoader: No "image" specified for', data.uuid ); + + } + + if ( images[ data.image ] === undefined ) { + + console.warn( 'THREE.ObjectLoader: Undefined image', data.image ); + + } + + const source = images[ data.image ]; + const image = source.data; + + let texture; + + if ( Array.isArray( image ) ) { + + texture = new CubeTexture(); + + if ( image.length === 6 ) texture.needsUpdate = true; + + } else { + + if ( image && image.data ) { + + texture = new DataTexture(); + + } else { + + texture = new Texture(); + + } + + if ( image ) texture.needsUpdate = true; // textures can have undefined image data + + } + + texture.source = source; + + texture.uuid = data.uuid; + + if ( data.name !== undefined ) texture.name = data.name; + + if ( data.mapping !== undefined ) texture.mapping = parseConstant( data.mapping, TEXTURE_MAPPING ); + if ( data.channel !== undefined ) texture.channel = data.channel; + + if ( data.offset !== undefined ) texture.offset.fromArray( data.offset ); + if ( data.repeat !== undefined ) texture.repeat.fromArray( data.repeat ); + if ( data.center !== undefined ) texture.center.fromArray( data.center ); + if ( data.rotation !== undefined ) texture.rotation = data.rotation; + + if ( data.wrap !== undefined ) { + + texture.wrapS = parseConstant( data.wrap[ 0 ], TEXTURE_WRAPPING ); + texture.wrapT = parseConstant( data.wrap[ 1 ], TEXTURE_WRAPPING ); + + } + + if ( data.format !== undefined ) texture.format = data.format; + if ( data.internalFormat !== undefined ) texture.internalFormat = data.internalFormat; + if ( data.type !== undefined ) texture.type = data.type; + if ( data.colorSpace !== undefined ) texture.colorSpace = data.colorSpace; + + if ( data.minFilter !== undefined ) texture.minFilter = parseConstant( data.minFilter, TEXTURE_FILTER ); + if ( data.magFilter !== undefined ) texture.magFilter = parseConstant( data.magFilter, TEXTURE_FILTER ); + if ( data.anisotropy !== undefined ) texture.anisotropy = data.anisotropy; + + if ( data.flipY !== undefined ) texture.flipY = data.flipY; + + if ( data.generateMipmaps !== undefined ) texture.generateMipmaps = data.generateMipmaps; + if ( data.premultiplyAlpha !== undefined ) texture.premultiplyAlpha = data.premultiplyAlpha; + if ( data.unpackAlignment !== undefined ) texture.unpackAlignment = data.unpackAlignment; + if ( data.compareFunction !== undefined ) texture.compareFunction = data.compareFunction; + + if ( data.userData !== undefined ) texture.userData = data.userData; + + textures[ data.uuid ] = texture; + + } + + } + + return textures; + + } + + parseObject( data, geometries, materials, textures, animations ) { + + let object; + + function getGeometry( name ) { + + if ( geometries[ name ] === undefined ) { + + console.warn( 'THREE.ObjectLoader: Undefined geometry', name ); + + } + + return geometries[ name ]; + + } + + function getMaterial( name ) { + + if ( name === undefined ) return undefined; + + if ( Array.isArray( name ) ) { + + const array = []; + + for ( let i = 0, l = name.length; i < l; i ++ ) { + + const uuid = name[ i ]; + + if ( materials[ uuid ] === undefined ) { + + console.warn( 'THREE.ObjectLoader: Undefined material', uuid ); + + } + + array.push( materials[ uuid ] ); + + } + + return array; + + } + + if ( materials[ name ] === undefined ) { + + console.warn( 'THREE.ObjectLoader: Undefined material', name ); + + } + + return materials[ name ]; + + } + + function getTexture( uuid ) { + + if ( textures[ uuid ] === undefined ) { + + console.warn( 'THREE.ObjectLoader: Undefined texture', uuid ); + + } + + return textures[ uuid ]; + + } + + let geometry, material; + + switch ( data.type ) { + + case 'Scene': + + object = new Scene(); + + if ( data.background !== undefined ) { + + if ( Number.isInteger( data.background ) ) { + + object.background = new Color( data.background ); + + } else { + + object.background = getTexture( data.background ); + + } + + } + + if ( data.environment !== undefined ) { + + object.environment = getTexture( data.environment ); + + } + + if ( data.fog !== undefined ) { + + if ( data.fog.type === 'Fog' ) { + + object.fog = new Fog( data.fog.color, data.fog.near, data.fog.far ); + + } else if ( data.fog.type === 'FogExp2' ) { + + object.fog = new FogExp2( data.fog.color, data.fog.density ); + + } + + if ( data.fog.name !== '' ) { + + object.fog.name = data.fog.name; + + } + + } + + if ( data.backgroundBlurriness !== undefined ) object.backgroundBlurriness = data.backgroundBlurriness; + if ( data.backgroundIntensity !== undefined ) object.backgroundIntensity = data.backgroundIntensity; + if ( data.backgroundRotation !== undefined ) object.backgroundRotation.fromArray( data.backgroundRotation ); + + if ( data.environmentIntensity !== undefined ) object.environmentIntensity = data.environmentIntensity; + if ( data.environmentRotation !== undefined ) object.environmentRotation.fromArray( data.environmentRotation ); + + break; + + case 'PerspectiveCamera': + + object = new PerspectiveCamera( data.fov, data.aspect, data.near, data.far ); + + if ( data.focus !== undefined ) object.focus = data.focus; + if ( data.zoom !== undefined ) object.zoom = data.zoom; + if ( data.filmGauge !== undefined ) object.filmGauge = data.filmGauge; + if ( data.filmOffset !== undefined ) object.filmOffset = data.filmOffset; + if ( data.view !== undefined ) object.view = Object.assign( {}, data.view ); + + break; + + case 'OrthographicCamera': + + object = new OrthographicCamera( data.left, data.right, data.top, data.bottom, data.near, data.far ); + + if ( data.zoom !== undefined ) object.zoom = data.zoom; + if ( data.view !== undefined ) object.view = Object.assign( {}, data.view ); + + break; + + case 'AmbientLight': + + object = new AmbientLight( data.color, data.intensity ); + + break; + + case 'DirectionalLight': + + object = new DirectionalLight( data.color, data.intensity ); + object.target = data.target || ''; + + break; + + case 'PointLight': + + object = new PointLight( data.color, data.intensity, data.distance, data.decay ); + + break; + + case 'RectAreaLight': + + object = new RectAreaLight( data.color, data.intensity, data.width, data.height ); + + break; + + case 'SpotLight': + + object = new SpotLight( data.color, data.intensity, data.distance, data.angle, data.penumbra, data.decay ); + object.target = data.target || ''; + + break; + + case 'HemisphereLight': + + object = new HemisphereLight( data.color, data.groundColor, data.intensity ); + + break; + + case 'LightProbe': + + object = new LightProbe().fromJSON( data ); + + break; + + case 'SkinnedMesh': + + geometry = getGeometry( data.geometry ); + material = getMaterial( data.material ); + + object = new SkinnedMesh( geometry, material ); + + if ( data.bindMode !== undefined ) object.bindMode = data.bindMode; + if ( data.bindMatrix !== undefined ) object.bindMatrix.fromArray( data.bindMatrix ); + if ( data.skeleton !== undefined ) object.skeleton = data.skeleton; + + break; + + case 'Mesh': + + geometry = getGeometry( data.geometry ); + material = getMaterial( data.material ); + + object = new Mesh( geometry, material ); + + break; + + case 'InstancedMesh': + + geometry = getGeometry( data.geometry ); + material = getMaterial( data.material ); + const count = data.count; + const instanceMatrix = data.instanceMatrix; + const instanceColor = data.instanceColor; + + object = new InstancedMesh( geometry, material, count ); + object.instanceMatrix = new InstancedBufferAttribute( new Float32Array( instanceMatrix.array ), 16 ); + if ( instanceColor !== undefined ) object.instanceColor = new InstancedBufferAttribute( new Float32Array( instanceColor.array ), instanceColor.itemSize ); + + break; + + case 'BatchedMesh': + + geometry = getGeometry( data.geometry ); + material = getMaterial( data.material ); + + object = new BatchedMesh( data.maxInstanceCount, data.maxVertexCount, data.maxIndexCount, material ); + object.geometry = geometry; + object.perObjectFrustumCulled = data.perObjectFrustumCulled; + object.sortObjects = data.sortObjects; + + object._drawRanges = data.drawRanges; + object._reservedRanges = data.reservedRanges; + + object._visibility = data.visibility; + object._active = data.active; + object._bounds = data.bounds.map( bound => { + + const box = new Box3(); + box.min.fromArray( bound.boxMin ); + box.max.fromArray( bound.boxMax ); + + const sphere = new Sphere(); + sphere.radius = bound.sphereRadius; + sphere.center.fromArray( bound.sphereCenter ); + + return { + boxInitialized: bound.boxInitialized, + box: box, + + sphereInitialized: bound.sphereInitialized, + sphere: sphere + }; + + } ); + + object._maxInstanceCount = data.maxInstanceCount; + object._maxVertexCount = data.maxVertexCount; + object._maxIndexCount = data.maxIndexCount; + + object._geometryInitialized = data.geometryInitialized; + object._geometryCount = data.geometryCount; + + object._matricesTexture = getTexture( data.matricesTexture.uuid ); + if ( data.colorsTexture !== undefined ) object._colorsTexture = getTexture( data.colorsTexture.uuid ); + + break; + + case 'LOD': + + object = new LOD(); + + break; + + case 'Line': + + object = new Line( getGeometry( data.geometry ), getMaterial( data.material ) ); + + break; + + case 'LineLoop': + + object = new LineLoop( getGeometry( data.geometry ), getMaterial( data.material ) ); + + break; + + case 'LineSegments': + + object = new LineSegments( getGeometry( data.geometry ), getMaterial( data.material ) ); + + break; + + case 'PointCloud': + case 'Points': + + object = new Points( getGeometry( data.geometry ), getMaterial( data.material ) ); + + break; + + case 'Sprite': + + object = new Sprite( getMaterial( data.material ) ); + + break; + + case 'Group': + + object = new Group(); + + break; + + case 'Bone': + + object = new Bone(); + + break; + + default: + + object = new Object3D(); + + } + + object.uuid = data.uuid; + + if ( data.name !== undefined ) object.name = data.name; + + if ( data.matrix !== undefined ) { + + object.matrix.fromArray( data.matrix ); + + if ( data.matrixAutoUpdate !== undefined ) object.matrixAutoUpdate = data.matrixAutoUpdate; + if ( object.matrixAutoUpdate ) object.matrix.decompose( object.position, object.quaternion, object.scale ); + + } else { + + if ( data.position !== undefined ) object.position.fromArray( data.position ); + if ( data.rotation !== undefined ) object.rotation.fromArray( data.rotation ); + if ( data.quaternion !== undefined ) object.quaternion.fromArray( data.quaternion ); + if ( data.scale !== undefined ) object.scale.fromArray( data.scale ); + + } + + if ( data.up !== undefined ) object.up.fromArray( data.up ); + + if ( data.castShadow !== undefined ) object.castShadow = data.castShadow; + if ( data.receiveShadow !== undefined ) object.receiveShadow = data.receiveShadow; + + if ( data.shadow ) { + + if ( data.shadow.intensity !== undefined ) object.shadow.intensity = data.shadow.intensity; + if ( data.shadow.bias !== undefined ) object.shadow.bias = data.shadow.bias; + if ( data.shadow.normalBias !== undefined ) object.shadow.normalBias = data.shadow.normalBias; + if ( data.shadow.radius !== undefined ) object.shadow.radius = data.shadow.radius; + if ( data.shadow.mapSize !== undefined ) object.shadow.mapSize.fromArray( data.shadow.mapSize ); + if ( data.shadow.camera !== undefined ) object.shadow.camera = this.parseObject( data.shadow.camera ); + + } + + if ( data.visible !== undefined ) object.visible = data.visible; + if ( data.frustumCulled !== undefined ) object.frustumCulled = data.frustumCulled; + if ( data.renderOrder !== undefined ) object.renderOrder = data.renderOrder; + if ( data.userData !== undefined ) object.userData = data.userData; + if ( data.layers !== undefined ) object.layers.mask = data.layers; + + if ( data.children !== undefined ) { + + const children = data.children; + + for ( let i = 0; i < children.length; i ++ ) { + + object.add( this.parseObject( children[ i ], geometries, materials, textures, animations ) ); + + } + + } + + if ( data.animations !== undefined ) { + + const objectAnimations = data.animations; + + for ( let i = 0; i < objectAnimations.length; i ++ ) { + + const uuid = objectAnimations[ i ]; + + object.animations.push( animations[ uuid ] ); + + } + + } + + if ( data.type === 'LOD' ) { + + if ( data.autoUpdate !== undefined ) object.autoUpdate = data.autoUpdate; + + const levels = data.levels; + + for ( let l = 0; l < levels.length; l ++ ) { + + const level = levels[ l ]; + const child = object.getObjectByProperty( 'uuid', level.object ); + + if ( child !== undefined ) { + + object.addLevel( child, level.distance, level.hysteresis ); + + } + + } + + } + + return object; + + } + + bindSkeletons( object, skeletons ) { + + if ( Object.keys( skeletons ).length === 0 ) return; + + object.traverse( function ( child ) { + + if ( child.isSkinnedMesh === true && child.skeleton !== undefined ) { + + const skeleton = skeletons[ child.skeleton ]; + + if ( skeleton === undefined ) { + + console.warn( 'THREE.ObjectLoader: No skeleton found with UUID:', child.skeleton ); + + } else { + + child.bind( skeleton, child.bindMatrix ); + + } + + } + + } ); + + } + + bindLightTargets( object ) { + + object.traverse( function ( child ) { + + if ( child.isDirectionalLight || child.isSpotLight ) { + + const uuid = child.target; + + const target = object.getObjectByProperty( 'uuid', uuid ); + + if ( target !== undefined ) { + + child.target = target; + + } else { + + child.target = new Object3D(); + + } + + } + + } ); + + } + +} + +const TEXTURE_MAPPING = { + UVMapping: UVMapping, + CubeReflectionMapping: CubeReflectionMapping, + CubeRefractionMapping: CubeRefractionMapping, + EquirectangularReflectionMapping: EquirectangularReflectionMapping, + EquirectangularRefractionMapping: EquirectangularRefractionMapping, + CubeUVReflectionMapping: CubeUVReflectionMapping +}; + +const TEXTURE_WRAPPING = { + RepeatWrapping: RepeatWrapping, + ClampToEdgeWrapping: ClampToEdgeWrapping, + MirroredRepeatWrapping: MirroredRepeatWrapping +}; + +const TEXTURE_FILTER = { + NearestFilter: NearestFilter, + NearestMipmapNearestFilter: NearestMipmapNearestFilter, + NearestMipmapLinearFilter: NearestMipmapLinearFilter, + LinearFilter: LinearFilter, + LinearMipmapNearestFilter: LinearMipmapNearestFilter, + LinearMipmapLinearFilter: LinearMipmapLinearFilter +}; + +class ImageBitmapLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + this.isImageBitmapLoader = true; + + if ( typeof createImageBitmap === 'undefined' ) { + + console.warn( 'THREE.ImageBitmapLoader: createImageBitmap() not supported.' ); + + } + + if ( typeof fetch === 'undefined' ) { + + console.warn( 'THREE.ImageBitmapLoader: fetch() not supported.' ); + + } + + this.options = { premultiplyAlpha: 'none' }; + + } + + setOptions( options ) { + + this.options = options; + + return this; + + } + + load( url, onLoad, onProgress, onError ) { + + if ( url === undefined ) url = ''; + + if ( this.path !== undefined ) url = this.path + url; + + url = this.manager.resolveURL( url ); + + const scope = this; + + const cached = Cache.get( url ); + + if ( cached !== undefined ) { + + scope.manager.itemStart( url ); + + // If cached is a promise, wait for it to resolve + if ( cached.then ) { + + cached.then( imageBitmap => { + + if ( onLoad ) onLoad( imageBitmap ); + + scope.manager.itemEnd( url ); + + } ).catch( e => { + + if ( onError ) onError( e ); + + } ); + return; + + } + + // If cached is not a promise (i.e., it's already an imageBitmap) + setTimeout( function () { + + if ( onLoad ) onLoad( cached ); + + scope.manager.itemEnd( url ); + + }, 0 ); + + return cached; + + } + + const fetchOptions = {}; + fetchOptions.credentials = ( this.crossOrigin === 'anonymous' ) ? 'same-origin' : 'include'; + fetchOptions.headers = this.requestHeader; + + const promise = fetch( url, fetchOptions ).then( function ( res ) { + + return res.blob(); + + } ).then( function ( blob ) { + + return createImageBitmap( blob, Object.assign( scope.options, { colorSpaceConversion: 'none' } ) ); + + } ).then( function ( imageBitmap ) { + + Cache.add( url, imageBitmap ); + + if ( onLoad ) onLoad( imageBitmap ); + + scope.manager.itemEnd( url ); + + return imageBitmap; + + } ).catch( function ( e ) { + + if ( onError ) onError( e ); + + Cache.remove( url ); + + scope.manager.itemError( url ); + scope.manager.itemEnd( url ); + + } ); + + Cache.add( url, promise ); + scope.manager.itemStart( url ); + + } + +} + +let _context; + +class AudioContext { + + static getContext() { + + if ( _context === undefined ) { + + _context = new ( window.AudioContext || window.webkitAudioContext )(); + + } + + return _context; + + } + + static setContext( value ) { + + _context = value; + + } + +} + +class AudioLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + } + + load( url, onLoad, onProgress, onError ) { + + const scope = this; + + const loader = new FileLoader( this.manager ); + loader.setResponseType( 'arraybuffer' ); + loader.setPath( this.path ); + loader.setRequestHeader( this.requestHeader ); + loader.setWithCredentials( this.withCredentials ); + loader.load( url, function ( buffer ) { + + try { + + // Create a copy of the buffer. The `decodeAudioData` method + // detaches the buffer when complete, preventing reuse. + const bufferCopy = buffer.slice( 0 ); + + const context = AudioContext.getContext(); + context.decodeAudioData( bufferCopy, function ( audioBuffer ) { + + onLoad( audioBuffer ); + + } ).catch( handleError ); + + } catch ( e ) { + + handleError( e ); + + } + + }, onProgress, onError ); + + function handleError( e ) { + + if ( onError ) { + + onError( e ); + + } else { + + console.error( e ); + + } + + scope.manager.itemError( url ); + + } + + } + +} + +const _eyeRight = /*@__PURE__*/ new Matrix4(); +const _eyeLeft = /*@__PURE__*/ new Matrix4(); +const _projectionMatrix = /*@__PURE__*/ new Matrix4(); + +class StereoCamera { + + constructor() { + + this.type = 'StereoCamera'; + + this.aspect = 1; + + this.eyeSep = 0.064; + + this.cameraL = new PerspectiveCamera(); + this.cameraL.layers.enable( 1 ); + this.cameraL.matrixAutoUpdate = false; + + this.cameraR = new PerspectiveCamera(); + this.cameraR.layers.enable( 2 ); + this.cameraR.matrixAutoUpdate = false; + + this._cache = { + focus: null, + fov: null, + aspect: null, + near: null, + far: null, + zoom: null, + eyeSep: null + }; + + } + + update( camera ) { + + const cache = this._cache; + + const needsUpdate = cache.focus !== camera.focus || cache.fov !== camera.fov || + cache.aspect !== camera.aspect * this.aspect || cache.near !== camera.near || + cache.far !== camera.far || cache.zoom !== camera.zoom || cache.eyeSep !== this.eyeSep; + + if ( needsUpdate ) { + + cache.focus = camera.focus; + cache.fov = camera.fov; + cache.aspect = camera.aspect * this.aspect; + cache.near = camera.near; + cache.far = camera.far; + cache.zoom = camera.zoom; + cache.eyeSep = this.eyeSep; + + // Off-axis stereoscopic effect based on + // http://paulbourke.net/stereographics/stereorender/ + + _projectionMatrix.copy( camera.projectionMatrix ); + const eyeSepHalf = cache.eyeSep / 2; + const eyeSepOnProjection = eyeSepHalf * cache.near / cache.focus; + const ymax = ( cache.near * Math.tan( DEG2RAD * cache.fov * 0.5 ) ) / cache.zoom; + let xmin, xmax; + + // translate xOffset + + _eyeLeft.elements[ 12 ] = - eyeSepHalf; + _eyeRight.elements[ 12 ] = eyeSepHalf; + + // for left eye + + xmin = - ymax * cache.aspect + eyeSepOnProjection; + xmax = ymax * cache.aspect + eyeSepOnProjection; + + _projectionMatrix.elements[ 0 ] = 2 * cache.near / ( xmax - xmin ); + _projectionMatrix.elements[ 8 ] = ( xmax + xmin ) / ( xmax - xmin ); + + this.cameraL.projectionMatrix.copy( _projectionMatrix ); + + // for right eye + + xmin = - ymax * cache.aspect - eyeSepOnProjection; + xmax = ymax * cache.aspect - eyeSepOnProjection; + + _projectionMatrix.elements[ 0 ] = 2 * cache.near / ( xmax - xmin ); + _projectionMatrix.elements[ 8 ] = ( xmax + xmin ) / ( xmax - xmin ); + + this.cameraR.projectionMatrix.copy( _projectionMatrix ); + + } + + this.cameraL.matrixWorld.copy( camera.matrixWorld ).multiply( _eyeLeft ); + this.cameraR.matrixWorld.copy( camera.matrixWorld ).multiply( _eyeRight ); + + } + +} + +class ArrayCamera extends PerspectiveCamera { + + constructor( array = [] ) { + + super(); + + this.isArrayCamera = true; + + this.cameras = array; + + } + +} + +class Clock { + + constructor( autoStart = true ) { + + this.autoStart = autoStart; + + this.startTime = 0; + this.oldTime = 0; + this.elapsedTime = 0; + + this.running = false; + + } + + start() { + + this.startTime = now(); + + this.oldTime = this.startTime; + this.elapsedTime = 0; + this.running = true; + + } + + stop() { + + this.getElapsedTime(); + this.running = false; + this.autoStart = false; + + } + + getElapsedTime() { + + this.getDelta(); + return this.elapsedTime; + + } + + getDelta() { + + let diff = 0; + + if ( this.autoStart && ! this.running ) { + + this.start(); + return 0; + + } + + if ( this.running ) { + + const newTime = now(); + + diff = ( newTime - this.oldTime ) / 1000; + this.oldTime = newTime; + + this.elapsedTime += diff; + + } + + return diff; + + } + +} + +function now() { + + return ( typeof performance === 'undefined' ? Date : performance ).now(); // see #10732 + +} + +const _position$1 = /*@__PURE__*/ new Vector3(); +const _quaternion$1 = /*@__PURE__*/ new Quaternion(); +const _scale$1 = /*@__PURE__*/ new Vector3(); +const _orientation$1 = /*@__PURE__*/ new Vector3(); + +class AudioListener extends Object3D { + + constructor() { + + super(); + + this.type = 'AudioListener'; + + this.context = AudioContext.getContext(); + + this.gain = this.context.createGain(); + this.gain.connect( this.context.destination ); + + this.filter = null; + + this.timeDelta = 0; + + // private + + this._clock = new Clock(); + + } + + getInput() { + + return this.gain; + + } + + removeFilter() { + + if ( this.filter !== null ) { + + this.gain.disconnect( this.filter ); + this.filter.disconnect( this.context.destination ); + this.gain.connect( this.context.destination ); + this.filter = null; + + } + + return this; + + } + + getFilter() { + + return this.filter; + + } + + setFilter( value ) { + + if ( this.filter !== null ) { + + this.gain.disconnect( this.filter ); + this.filter.disconnect( this.context.destination ); + + } else { + + this.gain.disconnect( this.context.destination ); + + } + + this.filter = value; + this.gain.connect( this.filter ); + this.filter.connect( this.context.destination ); + + return this; + + } + + getMasterVolume() { + + return this.gain.gain.value; + + } + + setMasterVolume( value ) { + + this.gain.gain.setTargetAtTime( value, this.context.currentTime, 0.01 ); + + return this; + + } + + updateMatrixWorld( force ) { + + super.updateMatrixWorld( force ); + + const listener = this.context.listener; + const up = this.up; + + this.timeDelta = this._clock.getDelta(); + + this.matrixWorld.decompose( _position$1, _quaternion$1, _scale$1 ); + + _orientation$1.set( 0, 0, - 1 ).applyQuaternion( _quaternion$1 ); + + if ( listener.positionX ) { + + // code path for Chrome (see #14393) + + const endTime = this.context.currentTime + this.timeDelta; + + listener.positionX.linearRampToValueAtTime( _position$1.x, endTime ); + listener.positionY.linearRampToValueAtTime( _position$1.y, endTime ); + listener.positionZ.linearRampToValueAtTime( _position$1.z, endTime ); + listener.forwardX.linearRampToValueAtTime( _orientation$1.x, endTime ); + listener.forwardY.linearRampToValueAtTime( _orientation$1.y, endTime ); + listener.forwardZ.linearRampToValueAtTime( _orientation$1.z, endTime ); + listener.upX.linearRampToValueAtTime( up.x, endTime ); + listener.upY.linearRampToValueAtTime( up.y, endTime ); + listener.upZ.linearRampToValueAtTime( up.z, endTime ); + + } else { + + listener.setPosition( _position$1.x, _position$1.y, _position$1.z ); + listener.setOrientation( _orientation$1.x, _orientation$1.y, _orientation$1.z, up.x, up.y, up.z ); + + } + + } + +} + +class Audio extends Object3D { + + constructor( listener ) { + + super(); + + this.type = 'Audio'; + + this.listener = listener; + this.context = listener.context; + + this.gain = this.context.createGain(); + this.gain.connect( listener.getInput() ); + + this.autoplay = false; + + this.buffer = null; + this.detune = 0; + this.loop = false; + this.loopStart = 0; + this.loopEnd = 0; + this.offset = 0; + this.duration = undefined; + this.playbackRate = 1; + this.isPlaying = false; + this.hasPlaybackControl = true; + this.source = null; + this.sourceType = 'empty'; + + this._startedAt = 0; + this._progress = 0; + this._connected = false; + + this.filters = []; + + } + + getOutput() { + + return this.gain; + + } + + setNodeSource( audioNode ) { + + this.hasPlaybackControl = false; + this.sourceType = 'audioNode'; + this.source = audioNode; + this.connect(); + + return this; + + } + + setMediaElementSource( mediaElement ) { + + this.hasPlaybackControl = false; + this.sourceType = 'mediaNode'; + this.source = this.context.createMediaElementSource( mediaElement ); + this.connect(); + + return this; + + } + + setMediaStreamSource( mediaStream ) { + + this.hasPlaybackControl = false; + this.sourceType = 'mediaStreamNode'; + this.source = this.context.createMediaStreamSource( mediaStream ); + this.connect(); + + return this; + + } + + setBuffer( audioBuffer ) { + + this.buffer = audioBuffer; + this.sourceType = 'buffer'; + + if ( this.autoplay ) this.play(); + + return this; + + } + + play( delay = 0 ) { + + if ( this.isPlaying === true ) { + + console.warn( 'THREE.Audio: Audio is already playing.' ); + return; + + } + + if ( this.hasPlaybackControl === false ) { + + console.warn( 'THREE.Audio: this Audio has no playback control.' ); + return; + + } + + this._startedAt = this.context.currentTime + delay; + + const source = this.context.createBufferSource(); + source.buffer = this.buffer; + source.loop = this.loop; + source.loopStart = this.loopStart; + source.loopEnd = this.loopEnd; + source.onended = this.onEnded.bind( this ); + source.start( this._startedAt, this._progress + this.offset, this.duration ); + + this.isPlaying = true; + + this.source = source; + + this.setDetune( this.detune ); + this.setPlaybackRate( this.playbackRate ); + + return this.connect(); + + } + + pause() { + + if ( this.hasPlaybackControl === false ) { + + console.warn( 'THREE.Audio: this Audio has no playback control.' ); + return; + + } + + if ( this.isPlaying === true ) { + + // update current progress + + this._progress += Math.max( this.context.currentTime - this._startedAt, 0 ) * this.playbackRate; + + if ( this.loop === true ) { + + // ensure _progress does not exceed duration with looped audios + + this._progress = this._progress % ( this.duration || this.buffer.duration ); + + } + + this.source.stop(); + this.source.onended = null; + + this.isPlaying = false; + + } + + return this; + + } + + stop() { + + if ( this.hasPlaybackControl === false ) { + + console.warn( 'THREE.Audio: this Audio has no playback control.' ); + return; + + } + + this._progress = 0; + + if ( this.source !== null ) { + + this.source.stop(); + this.source.onended = null; + + } + + this.isPlaying = false; + + return this; + + } + + connect() { + + if ( this.filters.length > 0 ) { + + this.source.connect( this.filters[ 0 ] ); + + for ( let i = 1, l = this.filters.length; i < l; i ++ ) { + + this.filters[ i - 1 ].connect( this.filters[ i ] ); + + } + + this.filters[ this.filters.length - 1 ].connect( this.getOutput() ); + + } else { + + this.source.connect( this.getOutput() ); + + } + + this._connected = true; + + return this; + + } + + disconnect() { + + if ( this._connected === false ) { + + return; + + } + + if ( this.filters.length > 0 ) { + + this.source.disconnect( this.filters[ 0 ] ); + + for ( let i = 1, l = this.filters.length; i < l; i ++ ) { + + this.filters[ i - 1 ].disconnect( this.filters[ i ] ); + + } + + this.filters[ this.filters.length - 1 ].disconnect( this.getOutput() ); + + } else { + + this.source.disconnect( this.getOutput() ); + + } + + this._connected = false; + + return this; + + } + + getFilters() { + + return this.filters; + + } + + setFilters( value ) { + + if ( ! value ) value = []; + + if ( this._connected === true ) { + + this.disconnect(); + this.filters = value.slice(); + this.connect(); + + } else { + + this.filters = value.slice(); + + } + + return this; + + } + + setDetune( value ) { + + this.detune = value; + + if ( this.isPlaying === true && this.source.detune !== undefined ) { + + this.source.detune.setTargetAtTime( this.detune, this.context.currentTime, 0.01 ); + + } + + return this; + + } + + getDetune() { + + return this.detune; + + } + + getFilter() { + + return this.getFilters()[ 0 ]; + + } + + setFilter( filter ) { + + return this.setFilters( filter ? [ filter ] : [] ); + + } + + setPlaybackRate( value ) { + + if ( this.hasPlaybackControl === false ) { + + console.warn( 'THREE.Audio: this Audio has no playback control.' ); + return; + + } + + this.playbackRate = value; + + if ( this.isPlaying === true ) { + + this.source.playbackRate.setTargetAtTime( this.playbackRate, this.context.currentTime, 0.01 ); + + } + + return this; + + } + + getPlaybackRate() { + + return this.playbackRate; + + } + + onEnded() { + + this.isPlaying = false; + + } + + getLoop() { + + if ( this.hasPlaybackControl === false ) { + + console.warn( 'THREE.Audio: this Audio has no playback control.' ); + return false; + + } + + return this.loop; + + } + + setLoop( value ) { + + if ( this.hasPlaybackControl === false ) { + + console.warn( 'THREE.Audio: this Audio has no playback control.' ); + return; + + } + + this.loop = value; + + if ( this.isPlaying === true ) { + + this.source.loop = this.loop; + + } + + return this; + + } + + setLoopStart( value ) { + + this.loopStart = value; + + return this; + + } + + setLoopEnd( value ) { + + this.loopEnd = value; + + return this; + + } + + getVolume() { + + return this.gain.gain.value; + + } + + setVolume( value ) { + + this.gain.gain.setTargetAtTime( value, this.context.currentTime, 0.01 ); + + return this; + + } + +} + +const _position = /*@__PURE__*/ new Vector3(); +const _quaternion = /*@__PURE__*/ new Quaternion(); +const _scale = /*@__PURE__*/ new Vector3(); +const _orientation = /*@__PURE__*/ new Vector3(); + +class PositionalAudio extends Audio { + + constructor( listener ) { + + super( listener ); + + this.panner = this.context.createPanner(); + this.panner.panningModel = 'HRTF'; + this.panner.connect( this.gain ); + + } + + connect() { + + super.connect(); + + this.panner.connect( this.gain ); + + } + + disconnect() { + + super.disconnect(); + + this.panner.disconnect( this.gain ); + + } + + getOutput() { + + return this.panner; + + } + + getRefDistance() { + + return this.panner.refDistance; + + } + + setRefDistance( value ) { + + this.panner.refDistance = value; + + return this; + + } + + getRolloffFactor() { + + return this.panner.rolloffFactor; + + } + + setRolloffFactor( value ) { + + this.panner.rolloffFactor = value; + + return this; + + } + + getDistanceModel() { + + return this.panner.distanceModel; + + } + + setDistanceModel( value ) { + + this.panner.distanceModel = value; + + return this; + + } + + getMaxDistance() { + + return this.panner.maxDistance; + + } + + setMaxDistance( value ) { + + this.panner.maxDistance = value; + + return this; + + } + + setDirectionalCone( coneInnerAngle, coneOuterAngle, coneOuterGain ) { + + this.panner.coneInnerAngle = coneInnerAngle; + this.panner.coneOuterAngle = coneOuterAngle; + this.panner.coneOuterGain = coneOuterGain; + + return this; + + } + + updateMatrixWorld( force ) { + + super.updateMatrixWorld( force ); + + if ( this.hasPlaybackControl === true && this.isPlaying === false ) return; + + this.matrixWorld.decompose( _position, _quaternion, _scale ); + + _orientation.set( 0, 0, 1 ).applyQuaternion( _quaternion ); + + const panner = this.panner; + + if ( panner.positionX ) { + + // code path for Chrome and Firefox (see #14393) + + const endTime = this.context.currentTime + this.listener.timeDelta; + + panner.positionX.linearRampToValueAtTime( _position.x, endTime ); + panner.positionY.linearRampToValueAtTime( _position.y, endTime ); + panner.positionZ.linearRampToValueAtTime( _position.z, endTime ); + panner.orientationX.linearRampToValueAtTime( _orientation.x, endTime ); + panner.orientationY.linearRampToValueAtTime( _orientation.y, endTime ); + panner.orientationZ.linearRampToValueAtTime( _orientation.z, endTime ); + + } else { + + panner.setPosition( _position.x, _position.y, _position.z ); + panner.setOrientation( _orientation.x, _orientation.y, _orientation.z ); + + } + + } + +} + +class AudioAnalyser { + + constructor( audio, fftSize = 2048 ) { + + this.analyser = audio.context.createAnalyser(); + this.analyser.fftSize = fftSize; + + this.data = new Uint8Array( this.analyser.frequencyBinCount ); + + audio.getOutput().connect( this.analyser ); + + } + + + getFrequencyData() { + + this.analyser.getByteFrequencyData( this.data ); + + return this.data; + + } + + getAverageFrequency() { + + let value = 0; + const data = this.getFrequencyData(); + + for ( let i = 0; i < data.length; i ++ ) { + + value += data[ i ]; + + } + + return value / data.length; + + } + +} + +class PropertyMixer { + + constructor( binding, typeName, valueSize ) { + + this.binding = binding; + this.valueSize = valueSize; + + let mixFunction, + mixFunctionAdditive, + setIdentity; + + // buffer layout: [ incoming | accu0 | accu1 | orig | addAccu | (optional work) ] + // + // interpolators can use .buffer as their .result + // the data then goes to 'incoming' + // + // 'accu0' and 'accu1' are used frame-interleaved for + // the cumulative result and are compared to detect + // changes + // + // 'orig' stores the original state of the property + // + // 'add' is used for additive cumulative results + // + // 'work' is optional and is only present for quaternion types. It is used + // to store intermediate quaternion multiplication results + + switch ( typeName ) { + + case 'quaternion': + mixFunction = this._slerp; + mixFunctionAdditive = this._slerpAdditive; + setIdentity = this._setAdditiveIdentityQuaternion; + + this.buffer = new Float64Array( valueSize * 6 ); + this._workIndex = 5; + break; + + case 'string': + case 'bool': + mixFunction = this._select; + + // Use the regular mix function and for additive on these types, + // additive is not relevant for non-numeric types + mixFunctionAdditive = this._select; + + setIdentity = this._setAdditiveIdentityOther; + + this.buffer = new Array( valueSize * 5 ); + break; + + default: + mixFunction = this._lerp; + mixFunctionAdditive = this._lerpAdditive; + setIdentity = this._setAdditiveIdentityNumeric; + + this.buffer = new Float64Array( valueSize * 5 ); + + } + + this._mixBufferRegion = mixFunction; + this._mixBufferRegionAdditive = mixFunctionAdditive; + this._setIdentity = setIdentity; + this._origIndex = 3; + this._addIndex = 4; + + this.cumulativeWeight = 0; + this.cumulativeWeightAdditive = 0; + + this.useCount = 0; + this.referenceCount = 0; + + } + + // accumulate data in the 'incoming' region into 'accu' + accumulate( accuIndex, weight ) { + + // note: happily accumulating nothing when weight = 0, the caller knows + // the weight and shouldn't have made the call in the first place + + const buffer = this.buffer, + stride = this.valueSize, + offset = accuIndex * stride + stride; + + let currentWeight = this.cumulativeWeight; + + if ( currentWeight === 0 ) { + + // accuN := incoming * weight + + for ( let i = 0; i !== stride; ++ i ) { + + buffer[ offset + i ] = buffer[ i ]; + + } + + currentWeight = weight; + + } else { + + // accuN := accuN + incoming * weight + + currentWeight += weight; + const mix = weight / currentWeight; + this._mixBufferRegion( buffer, offset, 0, mix, stride ); + + } + + this.cumulativeWeight = currentWeight; + + } + + // accumulate data in the 'incoming' region into 'add' + accumulateAdditive( weight ) { + + const buffer = this.buffer, + stride = this.valueSize, + offset = stride * this._addIndex; + + if ( this.cumulativeWeightAdditive === 0 ) { + + // add = identity + + this._setIdentity(); + + } + + // add := add + incoming * weight + + this._mixBufferRegionAdditive( buffer, offset, 0, weight, stride ); + this.cumulativeWeightAdditive += weight; + + } + + // apply the state of 'accu' to the binding when accus differ + apply( accuIndex ) { + + const stride = this.valueSize, + buffer = this.buffer, + offset = accuIndex * stride + stride, + + weight = this.cumulativeWeight, + weightAdditive = this.cumulativeWeightAdditive, + + binding = this.binding; + + this.cumulativeWeight = 0; + this.cumulativeWeightAdditive = 0; + + if ( weight < 1 ) { + + // accuN := accuN + original * ( 1 - cumulativeWeight ) + + const originalValueOffset = stride * this._origIndex; + + this._mixBufferRegion( + buffer, offset, originalValueOffset, 1 - weight, stride ); + + } + + if ( weightAdditive > 0 ) { + + // accuN := accuN + additive accuN + + this._mixBufferRegionAdditive( buffer, offset, this._addIndex * stride, 1, stride ); + + } + + for ( let i = stride, e = stride + stride; i !== e; ++ i ) { + + if ( buffer[ i ] !== buffer[ i + stride ] ) { + + // value has changed -> update scene graph + + binding.setValue( buffer, offset ); + break; + + } + + } + + } + + // remember the state of the bound property and copy it to both accus + saveOriginalState() { + + const binding = this.binding; + + const buffer = this.buffer, + stride = this.valueSize, + + originalValueOffset = stride * this._origIndex; + + binding.getValue( buffer, originalValueOffset ); + + // accu[0..1] := orig -- initially detect changes against the original + for ( let i = stride, e = originalValueOffset; i !== e; ++ i ) { + + buffer[ i ] = buffer[ originalValueOffset + ( i % stride ) ]; + + } + + // Add to identity for additive + this._setIdentity(); + + this.cumulativeWeight = 0; + this.cumulativeWeightAdditive = 0; + + } + + // apply the state previously taken via 'saveOriginalState' to the binding + restoreOriginalState() { + + const originalValueOffset = this.valueSize * 3; + this.binding.setValue( this.buffer, originalValueOffset ); + + } + + _setAdditiveIdentityNumeric() { + + const startIndex = this._addIndex * this.valueSize; + const endIndex = startIndex + this.valueSize; + + for ( let i = startIndex; i < endIndex; i ++ ) { + + this.buffer[ i ] = 0; + + } + + } + + _setAdditiveIdentityQuaternion() { + + this._setAdditiveIdentityNumeric(); + this.buffer[ this._addIndex * this.valueSize + 3 ] = 1; + + } + + _setAdditiveIdentityOther() { + + const startIndex = this._origIndex * this.valueSize; + const targetIndex = this._addIndex * this.valueSize; + + for ( let i = 0; i < this.valueSize; i ++ ) { + + this.buffer[ targetIndex + i ] = this.buffer[ startIndex + i ]; + + } + + } + + + // mix functions + + _select( buffer, dstOffset, srcOffset, t, stride ) { + + if ( t >= 0.5 ) { + + for ( let i = 0; i !== stride; ++ i ) { + + buffer[ dstOffset + i ] = buffer[ srcOffset + i ]; + + } + + } + + } + + _slerp( buffer, dstOffset, srcOffset, t ) { + + Quaternion.slerpFlat( buffer, dstOffset, buffer, dstOffset, buffer, srcOffset, t ); + + } + + _slerpAdditive( buffer, dstOffset, srcOffset, t, stride ) { + + const workOffset = this._workIndex * stride; + + // Store result in intermediate buffer offset + Quaternion.multiplyQuaternionsFlat( buffer, workOffset, buffer, dstOffset, buffer, srcOffset ); + + // Slerp to the intermediate result + Quaternion.slerpFlat( buffer, dstOffset, buffer, dstOffset, buffer, workOffset, t ); + + } + + _lerp( buffer, dstOffset, srcOffset, t, stride ) { + + const s = 1 - t; + + for ( let i = 0; i !== stride; ++ i ) { + + const j = dstOffset + i; + + buffer[ j ] = buffer[ j ] * s + buffer[ srcOffset + i ] * t; + + } + + } + + _lerpAdditive( buffer, dstOffset, srcOffset, t, stride ) { + + for ( let i = 0; i !== stride; ++ i ) { + + const j = dstOffset + i; + + buffer[ j ] = buffer[ j ] + buffer[ srcOffset + i ] * t; + + } + + } + +} + +// Characters [].:/ are reserved for track binding syntax. +const _RESERVED_CHARS_RE = '\\[\\]\\.:\\/'; +const _reservedRe = new RegExp( '[' + _RESERVED_CHARS_RE + ']', 'g' ); + +// Attempts to allow node names from any language. ES5's `\w` regexp matches +// only latin characters, and the unicode \p{L} is not yet supported. So +// instead, we exclude reserved characters and match everything else. +const _wordChar = '[^' + _RESERVED_CHARS_RE + ']'; +const _wordCharOrDot = '[^' + _RESERVED_CHARS_RE.replace( '\\.', '' ) + ']'; + +// Parent directories, delimited by '/' or ':'. Currently unused, but must +// be matched to parse the rest of the track name. +const _directoryRe = /*@__PURE__*/ /((?:WC+[\/:])*)/.source.replace( 'WC', _wordChar ); + +// Target node. May contain word characters (a-zA-Z0-9_) and '.' or '-'. +const _nodeRe = /*@__PURE__*/ /(WCOD+)?/.source.replace( 'WCOD', _wordCharOrDot ); + +// Object on target node, and accessor. May not contain reserved +// characters. Accessor may contain any character except closing bracket. +const _objectRe = /*@__PURE__*/ /(?:\.(WC+)(?:\[(.+)\])?)?/.source.replace( 'WC', _wordChar ); + +// Property and accessor. May not contain reserved characters. Accessor may +// contain any non-bracket characters. +const _propertyRe = /*@__PURE__*/ /\.(WC+)(?:\[(.+)\])?/.source.replace( 'WC', _wordChar ); + +const _trackRe = new RegExp( '' + + '^' + + _directoryRe + + _nodeRe + + _objectRe + + _propertyRe + + '$' +); + +const _supportedObjectNames = [ 'material', 'materials', 'bones', 'map' ]; + +class Composite { + + constructor( targetGroup, path, optionalParsedPath ) { + + const parsedPath = optionalParsedPath || PropertyBinding.parseTrackName( path ); + + this._targetGroup = targetGroup; + this._bindings = targetGroup.subscribe_( path, parsedPath ); + + } + + getValue( array, offset ) { + + this.bind(); // bind all binding + + const firstValidIndex = this._targetGroup.nCachedObjects_, + binding = this._bindings[ firstValidIndex ]; + + // and only call .getValue on the first + if ( binding !== undefined ) binding.getValue( array, offset ); + + } + + setValue( array, offset ) { + + const bindings = this._bindings; + + for ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) { + + bindings[ i ].setValue( array, offset ); + + } + + } + + bind() { + + const bindings = this._bindings; + + for ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) { + + bindings[ i ].bind(); + + } + + } + + unbind() { + + const bindings = this._bindings; + + for ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) { + + bindings[ i ].unbind(); + + } + + } + +} + +// Note: This class uses a State pattern on a per-method basis: +// 'bind' sets 'this.getValue' / 'setValue' and shadows the +// prototype version of these methods with one that represents +// the bound state. When the property is not found, the methods +// become no-ops. +class PropertyBinding { + + constructor( rootNode, path, parsedPath ) { + + this.path = path; + this.parsedPath = parsedPath || PropertyBinding.parseTrackName( path ); + + this.node = PropertyBinding.findNode( rootNode, this.parsedPath.nodeName ); + + this.rootNode = rootNode; + + // initial state of these methods that calls 'bind' + this.getValue = this._getValue_unbound; + this.setValue = this._setValue_unbound; + + } + + + static create( root, path, parsedPath ) { + + if ( ! ( root && root.isAnimationObjectGroup ) ) { + + return new PropertyBinding( root, path, parsedPath ); + + } else { + + return new PropertyBinding.Composite( root, path, parsedPath ); + + } + + } + + /** + * Replaces spaces with underscores and removes unsupported characters from + * node names, to ensure compatibility with parseTrackName(). + * + * @param {string} name Node name to be sanitized. + * @return {string} + */ + static sanitizeNodeName( name ) { + + return name.replace( /\s/g, '_' ).replace( _reservedRe, '' ); + + } + + static parseTrackName( trackName ) { + + const matches = _trackRe.exec( trackName ); + + if ( matches === null ) { + + throw new Error( 'PropertyBinding: Cannot parse trackName: ' + trackName ); + + } + + const results = { + // directoryName: matches[ 1 ], // (tschw) currently unused + nodeName: matches[ 2 ], + objectName: matches[ 3 ], + objectIndex: matches[ 4 ], + propertyName: matches[ 5 ], // required + propertyIndex: matches[ 6 ] + }; + + const lastDot = results.nodeName && results.nodeName.lastIndexOf( '.' ); + + if ( lastDot !== undefined && lastDot !== - 1 ) { + + const objectName = results.nodeName.substring( lastDot + 1 ); + + // Object names must be checked against an allowlist. Otherwise, there + // is no way to parse 'foo.bar.baz': 'baz' must be a property, but + // 'bar' could be the objectName, or part of a nodeName (which can + // include '.' characters). + if ( _supportedObjectNames.indexOf( objectName ) !== - 1 ) { + + results.nodeName = results.nodeName.substring( 0, lastDot ); + results.objectName = objectName; + + } + + } + + if ( results.propertyName === null || results.propertyName.length === 0 ) { + + throw new Error( 'PropertyBinding: can not parse propertyName from trackName: ' + trackName ); + + } + + return results; + + } + + static findNode( root, nodeName ) { + + if ( nodeName === undefined || nodeName === '' || nodeName === '.' || nodeName === - 1 || nodeName === root.name || nodeName === root.uuid ) { + + return root; + + } + + // search into skeleton bones. + if ( root.skeleton ) { + + const bone = root.skeleton.getBoneByName( nodeName ); + + if ( bone !== undefined ) { + + return bone; + + } + + } + + // search into node subtree. + if ( root.children ) { + + const searchNodeSubtree = function ( children ) { + + for ( let i = 0; i < children.length; i ++ ) { + + const childNode = children[ i ]; + + if ( childNode.name === nodeName || childNode.uuid === nodeName ) { + + return childNode; + + } + + const result = searchNodeSubtree( childNode.children ); + + if ( result ) return result; + + } + + return null; + + }; + + const subTreeNode = searchNodeSubtree( root.children ); + + if ( subTreeNode ) { + + return subTreeNode; + + } + + } + + return null; + + } + + // these are used to "bind" a nonexistent property + _getValue_unavailable() {} + _setValue_unavailable() {} + + // Getters + + _getValue_direct( buffer, offset ) { + + buffer[ offset ] = this.targetObject[ this.propertyName ]; + + } + + _getValue_array( buffer, offset ) { + + const source = this.resolvedProperty; + + for ( let i = 0, n = source.length; i !== n; ++ i ) { + + buffer[ offset ++ ] = source[ i ]; + + } + + } + + _getValue_arrayElement( buffer, offset ) { + + buffer[ offset ] = this.resolvedProperty[ this.propertyIndex ]; + + } + + _getValue_toArray( buffer, offset ) { + + this.resolvedProperty.toArray( buffer, offset ); + + } + + // Direct + + _setValue_direct( buffer, offset ) { + + this.targetObject[ this.propertyName ] = buffer[ offset ]; + + } + + _setValue_direct_setNeedsUpdate( buffer, offset ) { + + this.targetObject[ this.propertyName ] = buffer[ offset ]; + this.targetObject.needsUpdate = true; + + } + + _setValue_direct_setMatrixWorldNeedsUpdate( buffer, offset ) { + + this.targetObject[ this.propertyName ] = buffer[ offset ]; + this.targetObject.matrixWorldNeedsUpdate = true; + + } + + // EntireArray + + _setValue_array( buffer, offset ) { + + const dest = this.resolvedProperty; + + for ( let i = 0, n = dest.length; i !== n; ++ i ) { + + dest[ i ] = buffer[ offset ++ ]; + + } + + } + + _setValue_array_setNeedsUpdate( buffer, offset ) { + + const dest = this.resolvedProperty; + + for ( let i = 0, n = dest.length; i !== n; ++ i ) { + + dest[ i ] = buffer[ offset ++ ]; + + } + + this.targetObject.needsUpdate = true; + + } + + _setValue_array_setMatrixWorldNeedsUpdate( buffer, offset ) { + + const dest = this.resolvedProperty; + + for ( let i = 0, n = dest.length; i !== n; ++ i ) { + + dest[ i ] = buffer[ offset ++ ]; + + } + + this.targetObject.matrixWorldNeedsUpdate = true; + + } + + // ArrayElement + + _setValue_arrayElement( buffer, offset ) { + + this.resolvedProperty[ this.propertyIndex ] = buffer[ offset ]; + + } + + _setValue_arrayElement_setNeedsUpdate( buffer, offset ) { + + this.resolvedProperty[ this.propertyIndex ] = buffer[ offset ]; + this.targetObject.needsUpdate = true; + + } + + _setValue_arrayElement_setMatrixWorldNeedsUpdate( buffer, offset ) { + + this.resolvedProperty[ this.propertyIndex ] = buffer[ offset ]; + this.targetObject.matrixWorldNeedsUpdate = true; + + } + + // HasToFromArray + + _setValue_fromArray( buffer, offset ) { + + this.resolvedProperty.fromArray( buffer, offset ); + + } + + _setValue_fromArray_setNeedsUpdate( buffer, offset ) { + + this.resolvedProperty.fromArray( buffer, offset ); + this.targetObject.needsUpdate = true; + + } + + _setValue_fromArray_setMatrixWorldNeedsUpdate( buffer, offset ) { + + this.resolvedProperty.fromArray( buffer, offset ); + this.targetObject.matrixWorldNeedsUpdate = true; + + } + + _getValue_unbound( targetArray, offset ) { + + this.bind(); + this.getValue( targetArray, offset ); + + } + + _setValue_unbound( sourceArray, offset ) { + + this.bind(); + this.setValue( sourceArray, offset ); + + } + + // create getter / setter pair for a property in the scene graph + bind() { + + let targetObject = this.node; + const parsedPath = this.parsedPath; + + const objectName = parsedPath.objectName; + const propertyName = parsedPath.propertyName; + let propertyIndex = parsedPath.propertyIndex; + + if ( ! targetObject ) { + + targetObject = PropertyBinding.findNode( this.rootNode, parsedPath.nodeName ); + + this.node = targetObject; + + } + + // set fail state so we can just 'return' on error + this.getValue = this._getValue_unavailable; + this.setValue = this._setValue_unavailable; + + // ensure there is a value node + if ( ! targetObject ) { + + console.warn( 'THREE.PropertyBinding: No target node found for track: ' + this.path + '.' ); + return; + + } + + if ( objectName ) { + + let objectIndex = parsedPath.objectIndex; + + // special cases were we need to reach deeper into the hierarchy to get the face materials.... + switch ( objectName ) { + + case 'materials': + + if ( ! targetObject.material ) { + + console.error( 'THREE.PropertyBinding: Can not bind to material as node does not have a material.', this ); + return; + + } + + if ( ! targetObject.material.materials ) { + + console.error( 'THREE.PropertyBinding: Can not bind to material.materials as node.material does not have a materials array.', this ); + return; + + } + + targetObject = targetObject.material.materials; + + break; + + case 'bones': + + if ( ! targetObject.skeleton ) { + + console.error( 'THREE.PropertyBinding: Can not bind to bones as node does not have a skeleton.', this ); + return; + + } + + // potential future optimization: skip this if propertyIndex is already an integer + // and convert the integer string to a true integer. + + targetObject = targetObject.skeleton.bones; + + // support resolving morphTarget names into indices. + for ( let i = 0; i < targetObject.length; i ++ ) { + + if ( targetObject[ i ].name === objectIndex ) { + + objectIndex = i; + break; + + } + + } + + break; + + case 'map': + + if ( 'map' in targetObject ) { + + targetObject = targetObject.map; + break; + + } + + if ( ! targetObject.material ) { + + console.error( 'THREE.PropertyBinding: Can not bind to material as node does not have a material.', this ); + return; + + } + + if ( ! targetObject.material.map ) { + + console.error( 'THREE.PropertyBinding: Can not bind to material.map as node.material does not have a map.', this ); + return; + + } + + targetObject = targetObject.material.map; + break; + + default: + + if ( targetObject[ objectName ] === undefined ) { + + console.error( 'THREE.PropertyBinding: Can not bind to objectName of node undefined.', this ); + return; + + } + + targetObject = targetObject[ objectName ]; + + } + + + if ( objectIndex !== undefined ) { + + if ( targetObject[ objectIndex ] === undefined ) { + + console.error( 'THREE.PropertyBinding: Trying to bind to objectIndex of objectName, but is undefined.', this, targetObject ); + return; + + } + + targetObject = targetObject[ objectIndex ]; + + } + + } + + // resolve property + const nodeProperty = targetObject[ propertyName ]; + + if ( nodeProperty === undefined ) { + + const nodeName = parsedPath.nodeName; + + console.error( 'THREE.PropertyBinding: Trying to update property for track: ' + nodeName + + '.' + propertyName + ' but it wasn\'t found.', targetObject ); + return; + + } + + // determine versioning scheme + let versioning = this.Versioning.None; + + this.targetObject = targetObject; + + if ( targetObject.needsUpdate !== undefined ) { // material + + versioning = this.Versioning.NeedsUpdate; + + } else if ( targetObject.matrixWorldNeedsUpdate !== undefined ) { // node transform + + versioning = this.Versioning.MatrixWorldNeedsUpdate; + + } + + // determine how the property gets bound + let bindingType = this.BindingType.Direct; + + if ( propertyIndex !== undefined ) { + + // access a sub element of the property array (only primitives are supported right now) + + if ( propertyName === 'morphTargetInfluences' ) { + + // potential optimization, skip this if propertyIndex is already an integer, and convert the integer string to a true integer. + + // support resolving morphTarget names into indices. + if ( ! targetObject.geometry ) { + + console.error( 'THREE.PropertyBinding: Can not bind to morphTargetInfluences because node does not have a geometry.', this ); + return; + + } + + if ( ! targetObject.geometry.morphAttributes ) { + + console.error( 'THREE.PropertyBinding: Can not bind to morphTargetInfluences because node does not have a geometry.morphAttributes.', this ); + return; + + } + + if ( targetObject.morphTargetDictionary[ propertyIndex ] !== undefined ) { + + propertyIndex = targetObject.morphTargetDictionary[ propertyIndex ]; + + } + + } + + bindingType = this.BindingType.ArrayElement; + + this.resolvedProperty = nodeProperty; + this.propertyIndex = propertyIndex; + + } else if ( nodeProperty.fromArray !== undefined && nodeProperty.toArray !== undefined ) { + + // must use copy for Object3D.Euler/Quaternion + + bindingType = this.BindingType.HasFromToArray; + + this.resolvedProperty = nodeProperty; + + } else if ( Array.isArray( nodeProperty ) ) { + + bindingType = this.BindingType.EntireArray; + + this.resolvedProperty = nodeProperty; + + } else { + + this.propertyName = propertyName; + + } + + // select getter / setter + this.getValue = this.GetterByBindingType[ bindingType ]; + this.setValue = this.SetterByBindingTypeAndVersioning[ bindingType ][ versioning ]; + + } + + unbind() { + + this.node = null; + + // back to the prototype version of getValue / setValue + // note: avoiding to mutate the shape of 'this' via 'delete' + this.getValue = this._getValue_unbound; + this.setValue = this._setValue_unbound; + + } + +} + +PropertyBinding.Composite = Composite; + +PropertyBinding.prototype.BindingType = { + Direct: 0, + EntireArray: 1, + ArrayElement: 2, + HasFromToArray: 3 +}; + +PropertyBinding.prototype.Versioning = { + None: 0, + NeedsUpdate: 1, + MatrixWorldNeedsUpdate: 2 +}; + +PropertyBinding.prototype.GetterByBindingType = [ + + PropertyBinding.prototype._getValue_direct, + PropertyBinding.prototype._getValue_array, + PropertyBinding.prototype._getValue_arrayElement, + PropertyBinding.prototype._getValue_toArray, + +]; + +PropertyBinding.prototype.SetterByBindingTypeAndVersioning = [ + + [ + // Direct + PropertyBinding.prototype._setValue_direct, + PropertyBinding.prototype._setValue_direct_setNeedsUpdate, + PropertyBinding.prototype._setValue_direct_setMatrixWorldNeedsUpdate, + + ], [ + + // EntireArray + + PropertyBinding.prototype._setValue_array, + PropertyBinding.prototype._setValue_array_setNeedsUpdate, + PropertyBinding.prototype._setValue_array_setMatrixWorldNeedsUpdate, + + ], [ + + // ArrayElement + PropertyBinding.prototype._setValue_arrayElement, + PropertyBinding.prototype._setValue_arrayElement_setNeedsUpdate, + PropertyBinding.prototype._setValue_arrayElement_setMatrixWorldNeedsUpdate, + + ], [ + + // HasToFromArray + PropertyBinding.prototype._setValue_fromArray, + PropertyBinding.prototype._setValue_fromArray_setNeedsUpdate, + PropertyBinding.prototype._setValue_fromArray_setMatrixWorldNeedsUpdate, + + ] + +]; + +/** + * + * A group of objects that receives a shared animation state. + * + * Usage: + * + * - Add objects you would otherwise pass as 'root' to the + * constructor or the .clipAction method of AnimationMixer. + * + * - Instead pass this object as 'root'. + * + * - You can also add and remove objects later when the mixer + * is running. + * + * Note: + * + * Objects of this class appear as one object to the mixer, + * so cache control of the individual objects must be done + * on the group. + * + * Limitation: + * + * - The animated properties must be compatible among the + * all objects in the group. + * + * - A single property can either be controlled through a + * target group or directly, but not both. + */ + +class AnimationObjectGroup { + + constructor() { + + this.isAnimationObjectGroup = true; + + this.uuid = generateUUID(); + + // cached objects followed by the active ones + this._objects = Array.prototype.slice.call( arguments ); + + this.nCachedObjects_ = 0; // threshold + // note: read by PropertyBinding.Composite + + const indices = {}; + this._indicesByUUID = indices; // for bookkeeping + + for ( let i = 0, n = arguments.length; i !== n; ++ i ) { + + indices[ arguments[ i ].uuid ] = i; + + } + + this._paths = []; // inside: string + this._parsedPaths = []; // inside: { we don't care, here } + this._bindings = []; // inside: Array< PropertyBinding > + this._bindingsIndicesByPath = {}; // inside: indices in these arrays + + const scope = this; + + this.stats = { + + objects: { + get total() { + + return scope._objects.length; + + }, + get inUse() { + + return this.total - scope.nCachedObjects_; + + } + }, + get bindingsPerObject() { + + return scope._bindings.length; + + } + + }; + + } + + add() { + + const objects = this._objects, + indicesByUUID = this._indicesByUUID, + paths = this._paths, + parsedPaths = this._parsedPaths, + bindings = this._bindings, + nBindings = bindings.length; + + let knownObject = undefined, + nObjects = objects.length, + nCachedObjects = this.nCachedObjects_; + + for ( let i = 0, n = arguments.length; i !== n; ++ i ) { + + const object = arguments[ i ], + uuid = object.uuid; + let index = indicesByUUID[ uuid ]; + + if ( index === undefined ) { + + // unknown object -> add it to the ACTIVE region + + index = nObjects ++; + indicesByUUID[ uuid ] = index; + objects.push( object ); + + // accounting is done, now do the same for all bindings + + for ( let j = 0, m = nBindings; j !== m; ++ j ) { + + bindings[ j ].push( new PropertyBinding( object, paths[ j ], parsedPaths[ j ] ) ); + + } + + } else if ( index < nCachedObjects ) { + + knownObject = objects[ index ]; + + // move existing object to the ACTIVE region + + const firstActiveIndex = -- nCachedObjects, + lastCachedObject = objects[ firstActiveIndex ]; + + indicesByUUID[ lastCachedObject.uuid ] = index; + objects[ index ] = lastCachedObject; + + indicesByUUID[ uuid ] = firstActiveIndex; + objects[ firstActiveIndex ] = object; + + // accounting is done, now do the same for all bindings + + for ( let j = 0, m = nBindings; j !== m; ++ j ) { + + const bindingsForPath = bindings[ j ], + lastCached = bindingsForPath[ firstActiveIndex ]; + + let binding = bindingsForPath[ index ]; + + bindingsForPath[ index ] = lastCached; + + if ( binding === undefined ) { + + // since we do not bother to create new bindings + // for objects that are cached, the binding may + // or may not exist + + binding = new PropertyBinding( object, paths[ j ], parsedPaths[ j ] ); + + } + + bindingsForPath[ firstActiveIndex ] = binding; + + } + + } else if ( objects[ index ] !== knownObject ) { + + console.error( 'THREE.AnimationObjectGroup: Different objects with the same UUID ' + + 'detected. Clean the caches or recreate your infrastructure when reloading scenes.' ); + + } // else the object is already where we want it to be + + } // for arguments + + this.nCachedObjects_ = nCachedObjects; + + } + + remove() { + + const objects = this._objects, + indicesByUUID = this._indicesByUUID, + bindings = this._bindings, + nBindings = bindings.length; + + let nCachedObjects = this.nCachedObjects_; + + for ( let i = 0, n = arguments.length; i !== n; ++ i ) { + + const object = arguments[ i ], + uuid = object.uuid, + index = indicesByUUID[ uuid ]; + + if ( index !== undefined && index >= nCachedObjects ) { + + // move existing object into the CACHED region + + const lastCachedIndex = nCachedObjects ++, + firstActiveObject = objects[ lastCachedIndex ]; + + indicesByUUID[ firstActiveObject.uuid ] = index; + objects[ index ] = firstActiveObject; + + indicesByUUID[ uuid ] = lastCachedIndex; + objects[ lastCachedIndex ] = object; + + // accounting is done, now do the same for all bindings + + for ( let j = 0, m = nBindings; j !== m; ++ j ) { + + const bindingsForPath = bindings[ j ], + firstActive = bindingsForPath[ lastCachedIndex ], + binding = bindingsForPath[ index ]; + + bindingsForPath[ index ] = firstActive; + bindingsForPath[ lastCachedIndex ] = binding; + + } + + } + + } // for arguments + + this.nCachedObjects_ = nCachedObjects; + + } + + // remove & forget + uncache() { + + const objects = this._objects, + indicesByUUID = this._indicesByUUID, + bindings = this._bindings, + nBindings = bindings.length; + + let nCachedObjects = this.nCachedObjects_, + nObjects = objects.length; + + for ( let i = 0, n = arguments.length; i !== n; ++ i ) { + + const object = arguments[ i ], + uuid = object.uuid, + index = indicesByUUID[ uuid ]; + + if ( index !== undefined ) { + + delete indicesByUUID[ uuid ]; + + if ( index < nCachedObjects ) { + + // object is cached, shrink the CACHED region + + const firstActiveIndex = -- nCachedObjects, + lastCachedObject = objects[ firstActiveIndex ], + lastIndex = -- nObjects, + lastObject = objects[ lastIndex ]; + + // last cached object takes this object's place + indicesByUUID[ lastCachedObject.uuid ] = index; + objects[ index ] = lastCachedObject; + + // last object goes to the activated slot and pop + indicesByUUID[ lastObject.uuid ] = firstActiveIndex; + objects[ firstActiveIndex ] = lastObject; + objects.pop(); + + // accounting is done, now do the same for all bindings + + for ( let j = 0, m = nBindings; j !== m; ++ j ) { + + const bindingsForPath = bindings[ j ], + lastCached = bindingsForPath[ firstActiveIndex ], + last = bindingsForPath[ lastIndex ]; + + bindingsForPath[ index ] = lastCached; + bindingsForPath[ firstActiveIndex ] = last; + bindingsForPath.pop(); + + } + + } else { + + // object is active, just swap with the last and pop + + const lastIndex = -- nObjects, + lastObject = objects[ lastIndex ]; + + if ( lastIndex > 0 ) { + + indicesByUUID[ lastObject.uuid ] = index; + + } + + objects[ index ] = lastObject; + objects.pop(); + + // accounting is done, now do the same for all bindings + + for ( let j = 0, m = nBindings; j !== m; ++ j ) { + + const bindingsForPath = bindings[ j ]; + + bindingsForPath[ index ] = bindingsForPath[ lastIndex ]; + bindingsForPath.pop(); + + } + + } // cached or active + + } // if object is known + + } // for arguments + + this.nCachedObjects_ = nCachedObjects; + + } + + // Internal interface used by befriended PropertyBinding.Composite: + + subscribe_( path, parsedPath ) { + + // returns an array of bindings for the given path that is changed + // according to the contained objects in the group + + const indicesByPath = this._bindingsIndicesByPath; + let index = indicesByPath[ path ]; + const bindings = this._bindings; + + if ( index !== undefined ) return bindings[ index ]; + + const paths = this._paths, + parsedPaths = this._parsedPaths, + objects = this._objects, + nObjects = objects.length, + nCachedObjects = this.nCachedObjects_, + bindingsForPath = new Array( nObjects ); + + index = bindings.length; + + indicesByPath[ path ] = index; + + paths.push( path ); + parsedPaths.push( parsedPath ); + bindings.push( bindingsForPath ); + + for ( let i = nCachedObjects, n = objects.length; i !== n; ++ i ) { + + const object = objects[ i ]; + bindingsForPath[ i ] = new PropertyBinding( object, path, parsedPath ); + + } + + return bindingsForPath; + + } + + unsubscribe_( path ) { + + // tells the group to forget about a property path and no longer + // update the array previously obtained with 'subscribe_' + + const indicesByPath = this._bindingsIndicesByPath, + index = indicesByPath[ path ]; + + if ( index !== undefined ) { + + const paths = this._paths, + parsedPaths = this._parsedPaths, + bindings = this._bindings, + lastBindingsIndex = bindings.length - 1, + lastBindings = bindings[ lastBindingsIndex ], + lastBindingsPath = path[ lastBindingsIndex ]; + + indicesByPath[ lastBindingsPath ] = index; + + bindings[ index ] = lastBindings; + bindings.pop(); + + parsedPaths[ index ] = parsedPaths[ lastBindingsIndex ]; + parsedPaths.pop(); + + paths[ index ] = paths[ lastBindingsIndex ]; + paths.pop(); + + } + + } + +} + +class AnimationAction { + + constructor( mixer, clip, localRoot = null, blendMode = clip.blendMode ) { + + this._mixer = mixer; + this._clip = clip; + this._localRoot = localRoot; + this.blendMode = blendMode; + + const tracks = clip.tracks, + nTracks = tracks.length, + interpolants = new Array( nTracks ); + + const interpolantSettings = { + endingStart: ZeroCurvatureEnding, + endingEnd: ZeroCurvatureEnding + }; + + for ( let i = 0; i !== nTracks; ++ i ) { + + const interpolant = tracks[ i ].createInterpolant( null ); + interpolants[ i ] = interpolant; + interpolant.settings = interpolantSettings; + + } + + this._interpolantSettings = interpolantSettings; + + this._interpolants = interpolants; // bound by the mixer + + // inside: PropertyMixer (managed by the mixer) + this._propertyBindings = new Array( nTracks ); + + this._cacheIndex = null; // for the memory manager + this._byClipCacheIndex = null; // for the memory manager + + this._timeScaleInterpolant = null; + this._weightInterpolant = null; + + this.loop = LoopRepeat; + this._loopCount = - 1; + + // global mixer time when the action is to be started + // it's set back to 'null' upon start of the action + this._startTime = null; + + // scaled local time of the action + // gets clamped or wrapped to 0..clip.duration according to loop + this.time = 0; + + this.timeScale = 1; + this._effectiveTimeScale = 1; + + this.weight = 1; + this._effectiveWeight = 1; + + this.repetitions = Infinity; // no. of repetitions when looping + + this.paused = false; // true -> zero effective time scale + this.enabled = true; // false -> zero effective weight + + this.clampWhenFinished = false;// keep feeding the last frame? + + this.zeroSlopeAtStart = true;// for smooth interpolation w/o separate + this.zeroSlopeAtEnd = true;// clips for start, loop and end + + } + + // State & Scheduling + + play() { + + this._mixer._activateAction( this ); + + return this; + + } + + stop() { + + this._mixer._deactivateAction( this ); + + return this.reset(); + + } + + reset() { + + this.paused = false; + this.enabled = true; + + this.time = 0; // restart clip + this._loopCount = - 1;// forget previous loops + this._startTime = null;// forget scheduling + + return this.stopFading().stopWarping(); + + } + + isRunning() { + + return this.enabled && ! this.paused && this.timeScale !== 0 && + this._startTime === null && this._mixer._isActiveAction( this ); + + } + + // return true when play has been called + isScheduled() { + + return this._mixer._isActiveAction( this ); + + } + + startAt( time ) { + + this._startTime = time; + + return this; + + } + + setLoop( mode, repetitions ) { + + this.loop = mode; + this.repetitions = repetitions; + + return this; + + } + + // Weight + + // set the weight stopping any scheduled fading + // although .enabled = false yields an effective weight of zero, this + // method does *not* change .enabled, because it would be confusing + setEffectiveWeight( weight ) { + + this.weight = weight; + + // note: same logic as when updated at runtime + this._effectiveWeight = this.enabled ? weight : 0; + + return this.stopFading(); + + } + + // return the weight considering fading and .enabled + getEffectiveWeight() { + + return this._effectiveWeight; + + } + + fadeIn( duration ) { + + return this._scheduleFading( duration, 0, 1 ); + + } + + fadeOut( duration ) { + + return this._scheduleFading( duration, 1, 0 ); + + } + + crossFadeFrom( fadeOutAction, duration, warp ) { + + fadeOutAction.fadeOut( duration ); + this.fadeIn( duration ); + + if ( warp ) { + + const fadeInDuration = this._clip.duration, + fadeOutDuration = fadeOutAction._clip.duration, + + startEndRatio = fadeOutDuration / fadeInDuration, + endStartRatio = fadeInDuration / fadeOutDuration; + + fadeOutAction.warp( 1.0, startEndRatio, duration ); + this.warp( endStartRatio, 1.0, duration ); + + } + + return this; + + } + + crossFadeTo( fadeInAction, duration, warp ) { + + return fadeInAction.crossFadeFrom( this, duration, warp ); + + } + + stopFading() { + + const weightInterpolant = this._weightInterpolant; + + if ( weightInterpolant !== null ) { + + this._weightInterpolant = null; + this._mixer._takeBackControlInterpolant( weightInterpolant ); + + } + + return this; + + } + + // Time Scale Control + + // set the time scale stopping any scheduled warping + // although .paused = true yields an effective time scale of zero, this + // method does *not* change .paused, because it would be confusing + setEffectiveTimeScale( timeScale ) { + + this.timeScale = timeScale; + this._effectiveTimeScale = this.paused ? 0 : timeScale; + + return this.stopWarping(); + + } + + // return the time scale considering warping and .paused + getEffectiveTimeScale() { + + return this._effectiveTimeScale; + + } + + setDuration( duration ) { + + this.timeScale = this._clip.duration / duration; + + return this.stopWarping(); + + } + + syncWith( action ) { + + this.time = action.time; + this.timeScale = action.timeScale; + + return this.stopWarping(); + + } + + halt( duration ) { + + return this.warp( this._effectiveTimeScale, 0, duration ); + + } + + warp( startTimeScale, endTimeScale, duration ) { + + const mixer = this._mixer, + now = mixer.time, + timeScale = this.timeScale; + + let interpolant = this._timeScaleInterpolant; + + if ( interpolant === null ) { + + interpolant = mixer._lendControlInterpolant(); + this._timeScaleInterpolant = interpolant; + + } + + const times = interpolant.parameterPositions, + values = interpolant.sampleValues; + + times[ 0 ] = now; + times[ 1 ] = now + duration; + + values[ 0 ] = startTimeScale / timeScale; + values[ 1 ] = endTimeScale / timeScale; + + return this; + + } + + stopWarping() { + + const timeScaleInterpolant = this._timeScaleInterpolant; + + if ( timeScaleInterpolant !== null ) { + + this._timeScaleInterpolant = null; + this._mixer._takeBackControlInterpolant( timeScaleInterpolant ); + + } + + return this; + + } + + // Object Accessors + + getMixer() { + + return this._mixer; + + } + + getClip() { + + return this._clip; + + } + + getRoot() { + + return this._localRoot || this._mixer._root; + + } + + // Interna + + _update( time, deltaTime, timeDirection, accuIndex ) { + + // called by the mixer + + if ( ! this.enabled ) { + + // call ._updateWeight() to update ._effectiveWeight + + this._updateWeight( time ); + return; + + } + + const startTime = this._startTime; + + if ( startTime !== null ) { + + // check for scheduled start of action + + const timeRunning = ( time - startTime ) * timeDirection; + if ( timeRunning < 0 || timeDirection === 0 ) { + + deltaTime = 0; + + } else { + + + this._startTime = null; // unschedule + deltaTime = timeDirection * timeRunning; + + } + + } + + // apply time scale and advance time + + deltaTime *= this._updateTimeScale( time ); + const clipTime = this._updateTime( deltaTime ); + + // note: _updateTime may disable the action resulting in + // an effective weight of 0 + + const weight = this._updateWeight( time ); + + if ( weight > 0 ) { + + const interpolants = this._interpolants; + const propertyMixers = this._propertyBindings; + + switch ( this.blendMode ) { + + case AdditiveAnimationBlendMode: + + for ( let j = 0, m = interpolants.length; j !== m; ++ j ) { + + interpolants[ j ].evaluate( clipTime ); + propertyMixers[ j ].accumulateAdditive( weight ); + + } + + break; + + case NormalAnimationBlendMode: + default: + + for ( let j = 0, m = interpolants.length; j !== m; ++ j ) { + + interpolants[ j ].evaluate( clipTime ); + propertyMixers[ j ].accumulate( accuIndex, weight ); + + } + + } + + } + + } + + _updateWeight( time ) { + + let weight = 0; + + if ( this.enabled ) { + + weight = this.weight; + const interpolant = this._weightInterpolant; + + if ( interpolant !== null ) { + + const interpolantValue = interpolant.evaluate( time )[ 0 ]; + + weight *= interpolantValue; + + if ( time > interpolant.parameterPositions[ 1 ] ) { + + this.stopFading(); + + if ( interpolantValue === 0 ) { + + // faded out, disable + this.enabled = false; + + } + + } + + } + + } + + this._effectiveWeight = weight; + return weight; + + } + + _updateTimeScale( time ) { + + let timeScale = 0; + + if ( ! this.paused ) { + + timeScale = this.timeScale; + + const interpolant = this._timeScaleInterpolant; + + if ( interpolant !== null ) { + + const interpolantValue = interpolant.evaluate( time )[ 0 ]; + + timeScale *= interpolantValue; + + if ( time > interpolant.parameterPositions[ 1 ] ) { + + this.stopWarping(); + + if ( timeScale === 0 ) { + + // motion has halted, pause + this.paused = true; + + } else { + + // warp done - apply final time scale + this.timeScale = timeScale; + + } + + } + + } + + } + + this._effectiveTimeScale = timeScale; + return timeScale; + + } + + _updateTime( deltaTime ) { + + const duration = this._clip.duration; + const loop = this.loop; + + let time = this.time + deltaTime; + let loopCount = this._loopCount; + + const pingPong = ( loop === LoopPingPong ); + + if ( deltaTime === 0 ) { + + if ( loopCount === - 1 ) return time; + + return ( pingPong && ( loopCount & 1 ) === 1 ) ? duration - time : time; + + } + + if ( loop === LoopOnce ) { + + if ( loopCount === - 1 ) { + + // just started + + this._loopCount = 0; + this._setEndings( true, true, false ); + + } + + handle_stop: { + + if ( time >= duration ) { + + time = duration; + + } else if ( time < 0 ) { + + time = 0; + + } else { + + this.time = time; + + break handle_stop; + + } + + if ( this.clampWhenFinished ) this.paused = true; + else this.enabled = false; + + this.time = time; + + this._mixer.dispatchEvent( { + type: 'finished', action: this, + direction: deltaTime < 0 ? - 1 : 1 + } ); + + } + + } else { // repetitive Repeat or PingPong + + if ( loopCount === - 1 ) { + + // just started + + if ( deltaTime >= 0 ) { + + loopCount = 0; + + this._setEndings( true, this.repetitions === 0, pingPong ); + + } else { + + // when looping in reverse direction, the initial + // transition through zero counts as a repetition, + // so leave loopCount at -1 + + this._setEndings( this.repetitions === 0, true, pingPong ); + + } + + } + + if ( time >= duration || time < 0 ) { + + // wrap around + + const loopDelta = Math.floor( time / duration ); // signed + time -= duration * loopDelta; + + loopCount += Math.abs( loopDelta ); + + const pending = this.repetitions - loopCount; + + if ( pending <= 0 ) { + + // have to stop (switch state, clamp time, fire event) + + if ( this.clampWhenFinished ) this.paused = true; + else this.enabled = false; + + time = deltaTime > 0 ? duration : 0; + + this.time = time; + + this._mixer.dispatchEvent( { + type: 'finished', action: this, + direction: deltaTime > 0 ? 1 : - 1 + } ); + + } else { + + // keep running + + if ( pending === 1 ) { + + // entering the last round + + const atStart = deltaTime < 0; + this._setEndings( atStart, ! atStart, pingPong ); + + } else { + + this._setEndings( false, false, pingPong ); + + } + + this._loopCount = loopCount; + + this.time = time; + + this._mixer.dispatchEvent( { + type: 'loop', action: this, loopDelta: loopDelta + } ); + + } + + } else { + + this.time = time; + + } + + if ( pingPong && ( loopCount & 1 ) === 1 ) { + + // invert time for the "pong round" + + return duration - time; + + } + + } + + return time; + + } + + _setEndings( atStart, atEnd, pingPong ) { + + const settings = this._interpolantSettings; + + if ( pingPong ) { + + settings.endingStart = ZeroSlopeEnding; + settings.endingEnd = ZeroSlopeEnding; + + } else { + + // assuming for LoopOnce atStart == atEnd == true + + if ( atStart ) { + + settings.endingStart = this.zeroSlopeAtStart ? ZeroSlopeEnding : ZeroCurvatureEnding; + + } else { + + settings.endingStart = WrapAroundEnding; + + } + + if ( atEnd ) { + + settings.endingEnd = this.zeroSlopeAtEnd ? ZeroSlopeEnding : ZeroCurvatureEnding; + + } else { + + settings.endingEnd = WrapAroundEnding; + + } + + } + + } + + _scheduleFading( duration, weightNow, weightThen ) { + + const mixer = this._mixer, now = mixer.time; + let interpolant = this._weightInterpolant; + + if ( interpolant === null ) { + + interpolant = mixer._lendControlInterpolant(); + this._weightInterpolant = interpolant; + + } + + const times = interpolant.parameterPositions, + values = interpolant.sampleValues; + + times[ 0 ] = now; + values[ 0 ] = weightNow; + times[ 1 ] = now + duration; + values[ 1 ] = weightThen; + + return this; + + } + +} + +const _controlInterpolantsResultBuffer = new Float32Array( 1 ); + + +class AnimationMixer extends EventDispatcher { + + constructor( root ) { + + super(); + + this._root = root; + this._initMemoryManager(); + this._accuIndex = 0; + this.time = 0; + this.timeScale = 1.0; + + } + + _bindAction( action, prototypeAction ) { + + const root = action._localRoot || this._root, + tracks = action._clip.tracks, + nTracks = tracks.length, + bindings = action._propertyBindings, + interpolants = action._interpolants, + rootUuid = root.uuid, + bindingsByRoot = this._bindingsByRootAndName; + + let bindingsByName = bindingsByRoot[ rootUuid ]; + + if ( bindingsByName === undefined ) { + + bindingsByName = {}; + bindingsByRoot[ rootUuid ] = bindingsByName; + + } + + for ( let i = 0; i !== nTracks; ++ i ) { + + const track = tracks[ i ], + trackName = track.name; + + let binding = bindingsByName[ trackName ]; + + if ( binding !== undefined ) { + + ++ binding.referenceCount; + bindings[ i ] = binding; + + } else { + + binding = bindings[ i ]; + + if ( binding !== undefined ) { + + // existing binding, make sure the cache knows + + if ( binding._cacheIndex === null ) { + + ++ binding.referenceCount; + this._addInactiveBinding( binding, rootUuid, trackName ); + + } + + continue; + + } + + const path = prototypeAction && prototypeAction. + _propertyBindings[ i ].binding.parsedPath; + + binding = new PropertyMixer( + PropertyBinding.create( root, trackName, path ), + track.ValueTypeName, track.getValueSize() ); + + ++ binding.referenceCount; + this._addInactiveBinding( binding, rootUuid, trackName ); + + bindings[ i ] = binding; + + } + + interpolants[ i ].resultBuffer = binding.buffer; + + } + + } + + _activateAction( action ) { + + if ( ! this._isActiveAction( action ) ) { + + if ( action._cacheIndex === null ) { + + // this action has been forgotten by the cache, but the user + // appears to be still using it -> rebind + + const rootUuid = ( action._localRoot || this._root ).uuid, + clipUuid = action._clip.uuid, + actionsForClip = this._actionsByClip[ clipUuid ]; + + this._bindAction( action, + actionsForClip && actionsForClip.knownActions[ 0 ] ); + + this._addInactiveAction( action, clipUuid, rootUuid ); + + } + + const bindings = action._propertyBindings; + + // increment reference counts / sort out state + for ( let i = 0, n = bindings.length; i !== n; ++ i ) { + + const binding = bindings[ i ]; + + if ( binding.useCount ++ === 0 ) { + + this._lendBinding( binding ); + binding.saveOriginalState(); + + } + + } + + this._lendAction( action ); + + } + + } + + _deactivateAction( action ) { + + if ( this._isActiveAction( action ) ) { + + const bindings = action._propertyBindings; + + // decrement reference counts / sort out state + for ( let i = 0, n = bindings.length; i !== n; ++ i ) { + + const binding = bindings[ i ]; + + if ( -- binding.useCount === 0 ) { + + binding.restoreOriginalState(); + this._takeBackBinding( binding ); + + } + + } + + this._takeBackAction( action ); + + } + + } + + // Memory manager + + _initMemoryManager() { + + this._actions = []; // 'nActiveActions' followed by inactive ones + this._nActiveActions = 0; + + this._actionsByClip = {}; + // inside: + // { + // knownActions: Array< AnimationAction > - used as prototypes + // actionByRoot: AnimationAction - lookup + // } + + + this._bindings = []; // 'nActiveBindings' followed by inactive ones + this._nActiveBindings = 0; + + this._bindingsByRootAndName = {}; // inside: Map< name, PropertyMixer > + + + this._controlInterpolants = []; // same game as above + this._nActiveControlInterpolants = 0; + + const scope = this; + + this.stats = { + + actions: { + get total() { + + return scope._actions.length; + + }, + get inUse() { + + return scope._nActiveActions; + + } + }, + bindings: { + get total() { + + return scope._bindings.length; + + }, + get inUse() { + + return scope._nActiveBindings; + + } + }, + controlInterpolants: { + get total() { + + return scope._controlInterpolants.length; + + }, + get inUse() { + + return scope._nActiveControlInterpolants; + + } + } + + }; + + } + + // Memory management for AnimationAction objects + + _isActiveAction( action ) { + + const index = action._cacheIndex; + return index !== null && index < this._nActiveActions; + + } + + _addInactiveAction( action, clipUuid, rootUuid ) { + + const actions = this._actions, + actionsByClip = this._actionsByClip; + + let actionsForClip = actionsByClip[ clipUuid ]; + + if ( actionsForClip === undefined ) { + + actionsForClip = { + + knownActions: [ action ], + actionByRoot: {} + + }; + + action._byClipCacheIndex = 0; + + actionsByClip[ clipUuid ] = actionsForClip; + + } else { + + const knownActions = actionsForClip.knownActions; + + action._byClipCacheIndex = knownActions.length; + knownActions.push( action ); + + } + + action._cacheIndex = actions.length; + actions.push( action ); + + actionsForClip.actionByRoot[ rootUuid ] = action; + + } + + _removeInactiveAction( action ) { + + const actions = this._actions, + lastInactiveAction = actions[ actions.length - 1 ], + cacheIndex = action._cacheIndex; + + lastInactiveAction._cacheIndex = cacheIndex; + actions[ cacheIndex ] = lastInactiveAction; + actions.pop(); + + action._cacheIndex = null; + + + const clipUuid = action._clip.uuid, + actionsByClip = this._actionsByClip, + actionsForClip = actionsByClip[ clipUuid ], + knownActionsForClip = actionsForClip.knownActions, + + lastKnownAction = + knownActionsForClip[ knownActionsForClip.length - 1 ], + + byClipCacheIndex = action._byClipCacheIndex; + + lastKnownAction._byClipCacheIndex = byClipCacheIndex; + knownActionsForClip[ byClipCacheIndex ] = lastKnownAction; + knownActionsForClip.pop(); + + action._byClipCacheIndex = null; + + + const actionByRoot = actionsForClip.actionByRoot, + rootUuid = ( action._localRoot || this._root ).uuid; + + delete actionByRoot[ rootUuid ]; + + if ( knownActionsForClip.length === 0 ) { + + delete actionsByClip[ clipUuid ]; + + } + + this._removeInactiveBindingsForAction( action ); + + } + + _removeInactiveBindingsForAction( action ) { + + const bindings = action._propertyBindings; + + for ( let i = 0, n = bindings.length; i !== n; ++ i ) { + + const binding = bindings[ i ]; + + if ( -- binding.referenceCount === 0 ) { + + this._removeInactiveBinding( binding ); + + } + + } + + } + + _lendAction( action ) { + + // [ active actions | inactive actions ] + // [ active actions >| inactive actions ] + // s a + // <-swap-> + // a s + + const actions = this._actions, + prevIndex = action._cacheIndex, + + lastActiveIndex = this._nActiveActions ++, + + firstInactiveAction = actions[ lastActiveIndex ]; + + action._cacheIndex = lastActiveIndex; + actions[ lastActiveIndex ] = action; + + firstInactiveAction._cacheIndex = prevIndex; + actions[ prevIndex ] = firstInactiveAction; + + } + + _takeBackAction( action ) { + + // [ active actions | inactive actions ] + // [ active actions |< inactive actions ] + // a s + // <-swap-> + // s a + + const actions = this._actions, + prevIndex = action._cacheIndex, + + firstInactiveIndex = -- this._nActiveActions, + + lastActiveAction = actions[ firstInactiveIndex ]; + + action._cacheIndex = firstInactiveIndex; + actions[ firstInactiveIndex ] = action; + + lastActiveAction._cacheIndex = prevIndex; + actions[ prevIndex ] = lastActiveAction; + + } + + // Memory management for PropertyMixer objects + + _addInactiveBinding( binding, rootUuid, trackName ) { + + const bindingsByRoot = this._bindingsByRootAndName, + bindings = this._bindings; + + let bindingByName = bindingsByRoot[ rootUuid ]; + + if ( bindingByName === undefined ) { + + bindingByName = {}; + bindingsByRoot[ rootUuid ] = bindingByName; + + } + + bindingByName[ trackName ] = binding; + + binding._cacheIndex = bindings.length; + bindings.push( binding ); + + } + + _removeInactiveBinding( binding ) { + + const bindings = this._bindings, + propBinding = binding.binding, + rootUuid = propBinding.rootNode.uuid, + trackName = propBinding.path, + bindingsByRoot = this._bindingsByRootAndName, + bindingByName = bindingsByRoot[ rootUuid ], + + lastInactiveBinding = bindings[ bindings.length - 1 ], + cacheIndex = binding._cacheIndex; + + lastInactiveBinding._cacheIndex = cacheIndex; + bindings[ cacheIndex ] = lastInactiveBinding; + bindings.pop(); + + delete bindingByName[ trackName ]; + + if ( Object.keys( bindingByName ).length === 0 ) { + + delete bindingsByRoot[ rootUuid ]; + + } + + } + + _lendBinding( binding ) { + + const bindings = this._bindings, + prevIndex = binding._cacheIndex, + + lastActiveIndex = this._nActiveBindings ++, + + firstInactiveBinding = bindings[ lastActiveIndex ]; + + binding._cacheIndex = lastActiveIndex; + bindings[ lastActiveIndex ] = binding; + + firstInactiveBinding._cacheIndex = prevIndex; + bindings[ prevIndex ] = firstInactiveBinding; + + } + + _takeBackBinding( binding ) { + + const bindings = this._bindings, + prevIndex = binding._cacheIndex, + + firstInactiveIndex = -- this._nActiveBindings, + + lastActiveBinding = bindings[ firstInactiveIndex ]; + + binding._cacheIndex = firstInactiveIndex; + bindings[ firstInactiveIndex ] = binding; + + lastActiveBinding._cacheIndex = prevIndex; + bindings[ prevIndex ] = lastActiveBinding; + + } + + + // Memory management of Interpolants for weight and time scale + + _lendControlInterpolant() { + + const interpolants = this._controlInterpolants, + lastActiveIndex = this._nActiveControlInterpolants ++; + + let interpolant = interpolants[ lastActiveIndex ]; + + if ( interpolant === undefined ) { + + interpolant = new LinearInterpolant( + new Float32Array( 2 ), new Float32Array( 2 ), + 1, _controlInterpolantsResultBuffer ); + + interpolant.__cacheIndex = lastActiveIndex; + interpolants[ lastActiveIndex ] = interpolant; + + } + + return interpolant; + + } + + _takeBackControlInterpolant( interpolant ) { + + const interpolants = this._controlInterpolants, + prevIndex = interpolant.__cacheIndex, + + firstInactiveIndex = -- this._nActiveControlInterpolants, + + lastActiveInterpolant = interpolants[ firstInactiveIndex ]; + + interpolant.__cacheIndex = firstInactiveIndex; + interpolants[ firstInactiveIndex ] = interpolant; + + lastActiveInterpolant.__cacheIndex = prevIndex; + interpolants[ prevIndex ] = lastActiveInterpolant; + + } + + // return an action for a clip optionally using a custom root target + // object (this method allocates a lot of dynamic memory in case a + // previously unknown clip/root combination is specified) + clipAction( clip, optionalRoot, blendMode ) { + + const root = optionalRoot || this._root, + rootUuid = root.uuid; + + let clipObject = typeof clip === 'string' ? AnimationClip.findByName( root, clip ) : clip; + + const clipUuid = clipObject !== null ? clipObject.uuid : clip; + + const actionsForClip = this._actionsByClip[ clipUuid ]; + let prototypeAction = null; + + if ( blendMode === undefined ) { + + if ( clipObject !== null ) { + + blendMode = clipObject.blendMode; + + } else { + + blendMode = NormalAnimationBlendMode; + + } + + } + + if ( actionsForClip !== undefined ) { + + const existingAction = actionsForClip.actionByRoot[ rootUuid ]; + + if ( existingAction !== undefined && existingAction.blendMode === blendMode ) { + + return existingAction; + + } + + // we know the clip, so we don't have to parse all + // the bindings again but can just copy + prototypeAction = actionsForClip.knownActions[ 0 ]; + + // also, take the clip from the prototype action + if ( clipObject === null ) + clipObject = prototypeAction._clip; + + } + + // clip must be known when specified via string + if ( clipObject === null ) return null; + + // allocate all resources required to run it + const newAction = new AnimationAction( this, clipObject, optionalRoot, blendMode ); + + this._bindAction( newAction, prototypeAction ); + + // and make the action known to the memory manager + this._addInactiveAction( newAction, clipUuid, rootUuid ); + + return newAction; + + } + + // get an existing action + existingAction( clip, optionalRoot ) { + + const root = optionalRoot || this._root, + rootUuid = root.uuid, + + clipObject = typeof clip === 'string' ? + AnimationClip.findByName( root, clip ) : clip, + + clipUuid = clipObject ? clipObject.uuid : clip, + + actionsForClip = this._actionsByClip[ clipUuid ]; + + if ( actionsForClip !== undefined ) { + + return actionsForClip.actionByRoot[ rootUuid ] || null; + + } + + return null; + + } + + // deactivates all previously scheduled actions + stopAllAction() { + + const actions = this._actions, + nActions = this._nActiveActions; + + for ( let i = nActions - 1; i >= 0; -- i ) { + + actions[ i ].stop(); + + } + + return this; + + } + + // advance the time and update apply the animation + update( deltaTime ) { + + deltaTime *= this.timeScale; + + const actions = this._actions, + nActions = this._nActiveActions, + + time = this.time += deltaTime, + timeDirection = Math.sign( deltaTime ), + + accuIndex = this._accuIndex ^= 1; + + // run active actions + + for ( let i = 0; i !== nActions; ++ i ) { + + const action = actions[ i ]; + + action._update( time, deltaTime, timeDirection, accuIndex ); + + } + + // update scene graph + + const bindings = this._bindings, + nBindings = this._nActiveBindings; + + for ( let i = 0; i !== nBindings; ++ i ) { + + bindings[ i ].apply( accuIndex ); + + } + + return this; + + } + + // Allows you to seek to a specific time in an animation. + setTime( timeInSeconds ) { + + this.time = 0; // Zero out time attribute for AnimationMixer object; + for ( let i = 0; i < this._actions.length; i ++ ) { + + this._actions[ i ].time = 0; // Zero out time attribute for all associated AnimationAction objects. + + } + + return this.update( timeInSeconds ); // Update used to set exact time. Returns "this" AnimationMixer object. + + } + + // return this mixer's root target object + getRoot() { + + return this._root; + + } + + // free all resources specific to a particular clip + uncacheClip( clip ) { + + const actions = this._actions, + clipUuid = clip.uuid, + actionsByClip = this._actionsByClip, + actionsForClip = actionsByClip[ clipUuid ]; + + if ( actionsForClip !== undefined ) { + + // note: just calling _removeInactiveAction would mess up the + // iteration state and also require updating the state we can + // just throw away + + const actionsToRemove = actionsForClip.knownActions; + + for ( let i = 0, n = actionsToRemove.length; i !== n; ++ i ) { + + const action = actionsToRemove[ i ]; + + this._deactivateAction( action ); + + const cacheIndex = action._cacheIndex, + lastInactiveAction = actions[ actions.length - 1 ]; + + action._cacheIndex = null; + action._byClipCacheIndex = null; + + lastInactiveAction._cacheIndex = cacheIndex; + actions[ cacheIndex ] = lastInactiveAction; + actions.pop(); + + this._removeInactiveBindingsForAction( action ); + + } + + delete actionsByClip[ clipUuid ]; + + } + + } + + // free all resources specific to a particular root target object + uncacheRoot( root ) { + + const rootUuid = root.uuid, + actionsByClip = this._actionsByClip; + + for ( const clipUuid in actionsByClip ) { + + const actionByRoot = actionsByClip[ clipUuid ].actionByRoot, + action = actionByRoot[ rootUuid ]; + + if ( action !== undefined ) { + + this._deactivateAction( action ); + this._removeInactiveAction( action ); + + } + + } + + const bindingsByRoot = this._bindingsByRootAndName, + bindingByName = bindingsByRoot[ rootUuid ]; + + if ( bindingByName !== undefined ) { + + for ( const trackName in bindingByName ) { + + const binding = bindingByName[ trackName ]; + binding.restoreOriginalState(); + this._removeInactiveBinding( binding ); + + } + + } + + } + + // remove a targeted clip from the cache + uncacheAction( clip, optionalRoot ) { + + const action = this.existingAction( clip, optionalRoot ); + + if ( action !== null ) { + + this._deactivateAction( action ); + this._removeInactiveAction( action ); + + } + + } + +} + +let Uniform$1 = class Uniform { + + constructor( value ) { + + this.value = value; + + } + + clone() { + + return new Uniform( this.value.clone === undefined ? this.value : this.value.clone() ); + + } + +}; + +let _id$5 = 0; + +let UniformsGroup$1 = class UniformsGroup extends EventDispatcher { + + constructor() { + + super(); + + this.isUniformsGroup = true; + + Object.defineProperty( this, 'id', { value: _id$5 ++ } ); + + this.name = ''; + + this.usage = StaticDrawUsage; + this.uniforms = []; + + } + + add( uniform ) { + + this.uniforms.push( uniform ); + + return this; + + } + + remove( uniform ) { + + const index = this.uniforms.indexOf( uniform ); + + if ( index !== - 1 ) this.uniforms.splice( index, 1 ); + + return this; + + } + + setName( name ) { + + this.name = name; + + return this; + + } + + setUsage( value ) { + + this.usage = value; + + return this; + + } + + dispose() { + + this.dispatchEvent( { type: 'dispose' } ); + + return this; + + } + + copy( source ) { + + this.name = source.name; + this.usage = source.usage; + + const uniformsSource = source.uniforms; + + this.uniforms.length = 0; + + for ( let i = 0, l = uniformsSource.length; i < l; i ++ ) { + + const uniforms = Array.isArray( uniformsSource[ i ] ) ? uniformsSource[ i ] : [ uniformsSource[ i ] ]; + + for ( let j = 0; j < uniforms.length; j ++ ) { + + this.uniforms.push( uniforms[ j ].clone() ); + + } + + } + + return this; + + } + + clone() { + + return new this.constructor().copy( this ); + + } + +}; + +class InstancedInterleavedBuffer extends InterleavedBuffer { + + constructor( array, stride, meshPerAttribute = 1 ) { + + super( array, stride ); + + this.isInstancedInterleavedBuffer = true; + + this.meshPerAttribute = meshPerAttribute; + + } + + copy( source ) { + + super.copy( source ); + + this.meshPerAttribute = source.meshPerAttribute; + + return this; + + } + + clone( data ) { + + const ib = super.clone( data ); + + ib.meshPerAttribute = this.meshPerAttribute; + + return ib; + + } + + toJSON( data ) { + + const json = super.toJSON( data ); + + json.isInstancedInterleavedBuffer = true; + json.meshPerAttribute = this.meshPerAttribute; + + return json; + + } + +} + +class GLBufferAttribute { + + constructor( buffer, type, itemSize, elementSize, count ) { + + this.isGLBufferAttribute = true; + + this.name = ''; + + this.buffer = buffer; + this.type = type; + this.itemSize = itemSize; + this.elementSize = elementSize; + this.count = count; + + this.version = 0; + + } + + set needsUpdate( value ) { + + if ( value === true ) this.version ++; + + } + + setBuffer( buffer ) { + + this.buffer = buffer; + + return this; + + } + + setType( type, elementSize ) { + + this.type = type; + this.elementSize = elementSize; + + return this; + + } + + setItemSize( itemSize ) { + + this.itemSize = itemSize; + + return this; + + } + + setCount( count ) { + + this.count = count; + + return this; + + } + +} + +const _matrix = /*@__PURE__*/ new Matrix4(); + +class Raycaster { + + constructor( origin, direction, near = 0, far = Infinity ) { + + this.ray = new Ray( origin, direction ); + // direction is assumed to be normalized (for accurate distance calculations) + + this.near = near; + this.far = far; + this.camera = null; + this.layers = new Layers(); + + this.params = { + Mesh: {}, + Line: { threshold: 1 }, + LOD: {}, + Points: { threshold: 1 }, + Sprite: {} + }; + + } + + set( origin, direction ) { + + // direction is assumed to be normalized (for accurate distance calculations) + + this.ray.set( origin, direction ); + + } + + setFromCamera( coords, camera ) { + + if ( camera.isPerspectiveCamera ) { + + this.ray.origin.setFromMatrixPosition( camera.matrixWorld ); + this.ray.direction.set( coords.x, coords.y, 0.5 ).unproject( camera ).sub( this.ray.origin ).normalize(); + this.camera = camera; + + } else if ( camera.isOrthographicCamera ) { + + this.ray.origin.set( coords.x, coords.y, ( camera.near + camera.far ) / ( camera.near - camera.far ) ).unproject( camera ); // set origin in plane of camera + this.ray.direction.set( 0, 0, - 1 ).transformDirection( camera.matrixWorld ); + this.camera = camera; + + } else { + + console.error( 'THREE.Raycaster: Unsupported camera type: ' + camera.type ); + + } + + } + + setFromXRController( controller ) { + + _matrix.identity().extractRotation( controller.matrixWorld ); + + this.ray.origin.setFromMatrixPosition( controller.matrixWorld ); + this.ray.direction.set( 0, 0, - 1 ).applyMatrix4( _matrix ); + + return this; + + } + + intersectObject( object, recursive = true, intersects = [] ) { + + intersect( object, this, intersects, recursive ); + + intersects.sort( ascSort ); + + return intersects; + + } + + intersectObjects( objects, recursive = true, intersects = [] ) { + + for ( let i = 0, l = objects.length; i < l; i ++ ) { + + intersect( objects[ i ], this, intersects, recursive ); + + } + + intersects.sort( ascSort ); + + return intersects; + + } + +} + +function ascSort( a, b ) { + + return a.distance - b.distance; + +} + +function intersect( object, raycaster, intersects, recursive ) { + + let propagate = true; + + if ( object.layers.test( raycaster.layers ) ) { + + const result = object.raycast( raycaster, intersects ); + + if ( result === false ) propagate = false; + + } + + if ( propagate === true && recursive === true ) { + + const children = object.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + intersect( children[ i ], raycaster, intersects, true ); + + } + + } + +} + +/** + * Ref: https://en.wikipedia.org/wiki/Spherical_coordinate_system + * + * phi (the polar angle) is measured from the positive y-axis. The positive y-axis is up. + * theta (the azimuthal angle) is measured from the positive z-axis. + */ +class Spherical { + + constructor( radius = 1, phi = 0, theta = 0 ) { + + this.radius = radius; + this.phi = phi; // polar angle + this.theta = theta; // azimuthal angle + + return this; + + } + + set( radius, phi, theta ) { + + this.radius = radius; + this.phi = phi; + this.theta = theta; + + return this; + + } + + copy( other ) { + + this.radius = other.radius; + this.phi = other.phi; + this.theta = other.theta; + + return this; + + } + + // restrict phi to be between EPS and PI-EPS + makeSafe() { + + const EPS = 0.000001; + this.phi = Math.max( EPS, Math.min( Math.PI - EPS, this.phi ) ); + + return this; + + } + + setFromVector3( v ) { + + return this.setFromCartesianCoords( v.x, v.y, v.z ); + + } + + setFromCartesianCoords( x, y, z ) { + + this.radius = Math.sqrt( x * x + y * y + z * z ); + + if ( this.radius === 0 ) { + + this.theta = 0; + this.phi = 0; + + } else { + + this.theta = Math.atan2( x, z ); + this.phi = Math.acos( clamp$1( y / this.radius, - 1, 1 ) ); + + } + + return this; + + } + + clone() { + + return new this.constructor().copy( this ); + + } + +} + +/** + * Ref: https://en.wikipedia.org/wiki/Cylindrical_coordinate_system + */ + +class Cylindrical { + + constructor( radius = 1, theta = 0, y = 0 ) { + + this.radius = radius; // distance from the origin to a point in the x-z plane + this.theta = theta; // counterclockwise angle in the x-z plane measured in radians from the positive z-axis + this.y = y; // height above the x-z plane + + return this; + + } + + set( radius, theta, y ) { + + this.radius = radius; + this.theta = theta; + this.y = y; + + return this; + + } + + copy( other ) { + + this.radius = other.radius; + this.theta = other.theta; + this.y = other.y; + + return this; + + } + + setFromVector3( v ) { + + return this.setFromCartesianCoords( v.x, v.y, v.z ); + + } + + setFromCartesianCoords( x, y, z ) { + + this.radius = Math.sqrt( x * x + z * z ); + this.theta = Math.atan2( x, z ); + this.y = y; + + return this; + + } + + clone() { + + return new this.constructor().copy( this ); + + } + +} + +const _vector$4 = /*@__PURE__*/ new Vector2(); + +class Box2 { + + constructor( min = new Vector2( + Infinity, + Infinity ), max = new Vector2( - Infinity, - Infinity ) ) { + + this.isBox2 = true; + + this.min = min; + this.max = max; + + } + + set( min, max ) { + + this.min.copy( min ); + this.max.copy( max ); + + return this; + + } + + setFromPoints( points ) { + + this.makeEmpty(); + + for ( let i = 0, il = points.length; i < il; i ++ ) { + + this.expandByPoint( points[ i ] ); + + } + + return this; + + } + + setFromCenterAndSize( center, size ) { + + const halfSize = _vector$4.copy( size ).multiplyScalar( 0.5 ); + this.min.copy( center ).sub( halfSize ); + this.max.copy( center ).add( halfSize ); + + return this; + + } + + clone() { + + return new this.constructor().copy( this ); + + } + + copy( box ) { + + this.min.copy( box.min ); + this.max.copy( box.max ); + + return this; + + } + + makeEmpty() { + + this.min.x = this.min.y = + Infinity; + this.max.x = this.max.y = - Infinity; + + return this; + + } + + isEmpty() { + + // this is a more robust check for empty than ( volume <= 0 ) because volume can get positive with two negative axes + + return ( this.max.x < this.min.x ) || ( this.max.y < this.min.y ); + + } + + getCenter( target ) { + + return this.isEmpty() ? target.set( 0, 0 ) : target.addVectors( this.min, this.max ).multiplyScalar( 0.5 ); + + } + + getSize( target ) { + + return this.isEmpty() ? target.set( 0, 0 ) : target.subVectors( this.max, this.min ); + + } + + expandByPoint( point ) { + + this.min.min( point ); + this.max.max( point ); + + return this; + + } + + expandByVector( vector ) { + + this.min.sub( vector ); + this.max.add( vector ); + + return this; + + } + + expandByScalar( scalar ) { + + this.min.addScalar( - scalar ); + this.max.addScalar( scalar ); + + return this; + + } + + containsPoint( point ) { + + return point.x < this.min.x || point.x > this.max.x || + point.y < this.min.y || point.y > this.max.y ? false : true; + + } + + containsBox( box ) { + + return this.min.x <= box.min.x && box.max.x <= this.max.x && + this.min.y <= box.min.y && box.max.y <= this.max.y; + + } + + getParameter( point, target ) { + + // This can potentially have a divide by zero if the box + // has a size dimension of 0. + + return target.set( + ( point.x - this.min.x ) / ( this.max.x - this.min.x ), + ( point.y - this.min.y ) / ( this.max.y - this.min.y ) + ); + + } + + intersectsBox( box ) { + + // using 4 splitting planes to rule out intersections + + return box.max.x < this.min.x || box.min.x > this.max.x || + box.max.y < this.min.y || box.min.y > this.max.y ? false : true; + + } + + clampPoint( point, target ) { + + return target.copy( point ).clamp( this.min, this.max ); + + } + + distanceToPoint( point ) { + + return this.clampPoint( point, _vector$4 ).distanceTo( point ); + + } + + intersect( box ) { + + this.min.max( box.min ); + this.max.min( box.max ); + + if ( this.isEmpty() ) this.makeEmpty(); + + return this; + + } + + union( box ) { + + this.min.min( box.min ); + this.max.max( box.max ); + + return this; + + } + + translate( offset ) { + + this.min.add( offset ); + this.max.add( offset ); + + return this; + + } + + equals( box ) { + + return box.min.equals( this.min ) && box.max.equals( this.max ); + + } + +} + +const _startP = /*@__PURE__*/ new Vector3(); +const _startEnd = /*@__PURE__*/ new Vector3(); + +class Line3 { + + constructor( start = new Vector3(), end = new Vector3() ) { + + this.start = start; + this.end = end; + + } + + set( start, end ) { + + this.start.copy( start ); + this.end.copy( end ); + + return this; + + } + + copy( line ) { + + this.start.copy( line.start ); + this.end.copy( line.end ); + + return this; + + } + + getCenter( target ) { + + return target.addVectors( this.start, this.end ).multiplyScalar( 0.5 ); + + } + + delta( target ) { + + return target.subVectors( this.end, this.start ); + + } + + distanceSq() { + + return this.start.distanceToSquared( this.end ); + + } + + distance() { + + return this.start.distanceTo( this.end ); + + } + + at( t, target ) { + + return this.delta( target ).multiplyScalar( t ).add( this.start ); + + } + + closestPointToPointParameter( point, clampToLine ) { + + _startP.subVectors( point, this.start ); + _startEnd.subVectors( this.end, this.start ); + + const startEnd2 = _startEnd.dot( _startEnd ); + const startEnd_startP = _startEnd.dot( _startP ); + + let t = startEnd_startP / startEnd2; + + if ( clampToLine ) { + + t = clamp$1( t, 0, 1 ); + + } + + return t; + + } + + closestPointToPoint( point, clampToLine, target ) { + + const t = this.closestPointToPointParameter( point, clampToLine ); + + return this.delta( target ).multiplyScalar( t ).add( this.start ); + + } + + applyMatrix4( matrix ) { + + this.start.applyMatrix4( matrix ); + this.end.applyMatrix4( matrix ); + + return this; + + } + + equals( line ) { + + return line.start.equals( this.start ) && line.end.equals( this.end ); + + } + + clone() { + + return new this.constructor().copy( this ); + + } + +} + +const _vector$3 = /*@__PURE__*/ new Vector3(); + +class SpotLightHelper extends Object3D { + + constructor( light, color ) { + + super(); + + this.light = light; + + this.matrixAutoUpdate = false; + + this.color = color; + + this.type = 'SpotLightHelper'; + + const geometry = new BufferGeometry(); + + const positions = [ + 0, 0, 0, 0, 0, 1, + 0, 0, 0, 1, 0, 1, + 0, 0, 0, - 1, 0, 1, + 0, 0, 0, 0, 1, 1, + 0, 0, 0, 0, - 1, 1 + ]; + + for ( let i = 0, j = 1, l = 32; i < l; i ++, j ++ ) { + + const p1 = ( i / l ) * Math.PI * 2; + const p2 = ( j / l ) * Math.PI * 2; + + positions.push( + Math.cos( p1 ), Math.sin( p1 ), 1, + Math.cos( p2 ), Math.sin( p2 ), 1 + ); + + } + + geometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) ); + + const material = new LineBasicMaterial( { fog: false, toneMapped: false } ); + + this.cone = new LineSegments( geometry, material ); + this.add( this.cone ); + + this.update(); + + } + + dispose() { + + this.cone.geometry.dispose(); + this.cone.material.dispose(); + + } + + update() { + + this.light.updateWorldMatrix( true, false ); + this.light.target.updateWorldMatrix( true, false ); + + // update the local matrix based on the parent and light target transforms + if ( this.parent ) { + + this.parent.updateWorldMatrix( true ); + + this.matrix + .copy( this.parent.matrixWorld ) + .invert() + .multiply( this.light.matrixWorld ); + + } else { + + this.matrix.copy( this.light.matrixWorld ); + + } + + this.matrixWorld.copy( this.light.matrixWorld ); + + const coneLength = this.light.distance ? this.light.distance : 1000; + const coneWidth = coneLength * Math.tan( this.light.angle ); + + this.cone.scale.set( coneWidth, coneWidth, coneLength ); + + _vector$3.setFromMatrixPosition( this.light.target.matrixWorld ); + + this.cone.lookAt( _vector$3 ); + + if ( this.color !== undefined ) { + + this.cone.material.color.set( this.color ); + + } else { + + this.cone.material.color.copy( this.light.color ); + + } + + } + +} + +const _vector$2 = /*@__PURE__*/ new Vector3(); +const _boneMatrix = /*@__PURE__*/ new Matrix4(); +const _matrixWorldInv = /*@__PURE__*/ new Matrix4(); + + +class SkeletonHelper extends LineSegments { + + constructor( object ) { + + const bones = getBoneList( object ); + + const geometry = new BufferGeometry(); + + const vertices = []; + const colors = []; + + const color1 = new Color( 0, 0, 1 ); + const color2 = new Color( 0, 1, 0 ); + + for ( let i = 0; i < bones.length; i ++ ) { + + const bone = bones[ i ]; + + if ( bone.parent && bone.parent.isBone ) { + + vertices.push( 0, 0, 0 ); + vertices.push( 0, 0, 0 ); + colors.push( color1.r, color1.g, color1.b ); + colors.push( color2.r, color2.g, color2.b ); + + } + + } + + geometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + geometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) ); + + const material = new LineBasicMaterial( { vertexColors: true, depthTest: false, depthWrite: false, toneMapped: false, transparent: true } ); + + super( geometry, material ); + + this.isSkeletonHelper = true; + + this.type = 'SkeletonHelper'; + + this.root = object; + this.bones = bones; + + this.matrix = object.matrixWorld; + this.matrixAutoUpdate = false; + + } + + updateMatrixWorld( force ) { + + const bones = this.bones; + + const geometry = this.geometry; + const position = geometry.getAttribute( 'position' ); + + _matrixWorldInv.copy( this.root.matrixWorld ).invert(); + + for ( let i = 0, j = 0; i < bones.length; i ++ ) { + + const bone = bones[ i ]; + + if ( bone.parent && bone.parent.isBone ) { + + _boneMatrix.multiplyMatrices( _matrixWorldInv, bone.matrixWorld ); + _vector$2.setFromMatrixPosition( _boneMatrix ); + position.setXYZ( j, _vector$2.x, _vector$2.y, _vector$2.z ); + + _boneMatrix.multiplyMatrices( _matrixWorldInv, bone.parent.matrixWorld ); + _vector$2.setFromMatrixPosition( _boneMatrix ); + position.setXYZ( j + 1, _vector$2.x, _vector$2.y, _vector$2.z ); + + j += 2; + + } + + } + + geometry.getAttribute( 'position' ).needsUpdate = true; + + super.updateMatrixWorld( force ); + + } + + dispose() { + + this.geometry.dispose(); + this.material.dispose(); + + } + +} + + +function getBoneList( object ) { + + const boneList = []; + + if ( object.isBone === true ) { + + boneList.push( object ); + + } + + for ( let i = 0; i < object.children.length; i ++ ) { + + boneList.push.apply( boneList, getBoneList( object.children[ i ] ) ); + + } + + return boneList; + +} + +class PointLightHelper extends Mesh { + + constructor( light, sphereSize, color ) { + + const geometry = new SphereGeometry( sphereSize, 4, 2 ); + const material = new MeshBasicMaterial( { wireframe: true, fog: false, toneMapped: false } ); + + super( geometry, material ); + + this.light = light; + + this.color = color; + + this.type = 'PointLightHelper'; + + this.matrix = this.light.matrixWorld; + this.matrixAutoUpdate = false; + + this.update(); + + + /* + // TODO: delete this comment? + const distanceGeometry = new THREE.IcosahedronGeometry( 1, 2 ); + const distanceMaterial = new THREE.MeshBasicMaterial( { color: hexColor, fog: false, wireframe: true, opacity: 0.1, transparent: true } ); + + this.lightSphere = new THREE.Mesh( bulbGeometry, bulbMaterial ); + this.lightDistance = new THREE.Mesh( distanceGeometry, distanceMaterial ); + + const d = light.distance; + + if ( d === 0.0 ) { + + this.lightDistance.visible = false; + + } else { + + this.lightDistance.scale.set( d, d, d ); + + } + + this.add( this.lightDistance ); + */ + + } + + dispose() { + + this.geometry.dispose(); + this.material.dispose(); + + } + + update() { + + this.light.updateWorldMatrix( true, false ); + + if ( this.color !== undefined ) { + + this.material.color.set( this.color ); + + } else { + + this.material.color.copy( this.light.color ); + + } + + /* + const d = this.light.distance; + + if ( d === 0.0 ) { + + this.lightDistance.visible = false; + + } else { + + this.lightDistance.visible = true; + this.lightDistance.scale.set( d, d, d ); + + } + */ + + } + +} + +const _vector$1 = /*@__PURE__*/ new Vector3(); +const _color1 = /*@__PURE__*/ new Color(); +const _color2 = /*@__PURE__*/ new Color(); + +class HemisphereLightHelper extends Object3D { + + constructor( light, size, color ) { + + super(); + + this.light = light; + + this.matrix = light.matrixWorld; + this.matrixAutoUpdate = false; + + this.color = color; + + this.type = 'HemisphereLightHelper'; + + const geometry = new OctahedronGeometry( size ); + geometry.rotateY( Math.PI * 0.5 ); + + this.material = new MeshBasicMaterial( { wireframe: true, fog: false, toneMapped: false } ); + if ( this.color === undefined ) this.material.vertexColors = true; + + const position = geometry.getAttribute( 'position' ); + const colors = new Float32Array( position.count * 3 ); + + geometry.setAttribute( 'color', new BufferAttribute( colors, 3 ) ); + + this.add( new Mesh( geometry, this.material ) ); + + this.update(); + + } + + dispose() { + + this.children[ 0 ].geometry.dispose(); + this.children[ 0 ].material.dispose(); + + } + + update() { + + const mesh = this.children[ 0 ]; + + if ( this.color !== undefined ) { + + this.material.color.set( this.color ); + + } else { + + const colors = mesh.geometry.getAttribute( 'color' ); + + _color1.copy( this.light.color ); + _color2.copy( this.light.groundColor ); + + for ( let i = 0, l = colors.count; i < l; i ++ ) { + + const color = ( i < ( l / 2 ) ) ? _color1 : _color2; + + colors.setXYZ( i, color.r, color.g, color.b ); + + } + + colors.needsUpdate = true; + + } + + this.light.updateWorldMatrix( true, false ); + + mesh.lookAt( _vector$1.setFromMatrixPosition( this.light.matrixWorld ).negate() ); + + } + +} + +class GridHelper extends LineSegments { + + constructor( size = 10, divisions = 10, color1 = 0x444444, color2 = 0x888888 ) { + + color1 = new Color( color1 ); + color2 = new Color( color2 ); + + const center = divisions / 2; + const step = size / divisions; + const halfSize = size / 2; + + const vertices = [], colors = []; + + for ( let i = 0, j = 0, k = - halfSize; i <= divisions; i ++, k += step ) { + + vertices.push( - halfSize, 0, k, halfSize, 0, k ); + vertices.push( k, 0, - halfSize, k, 0, halfSize ); + + const color = i === center ? color1 : color2; + + color.toArray( colors, j ); j += 3; + color.toArray( colors, j ); j += 3; + color.toArray( colors, j ); j += 3; + color.toArray( colors, j ); j += 3; + + } + + const geometry = new BufferGeometry(); + geometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + geometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) ); + + const material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } ); + + super( geometry, material ); + + this.type = 'GridHelper'; + + } + + dispose() { + + this.geometry.dispose(); + this.material.dispose(); + + } + +} + +class PolarGridHelper extends LineSegments { + + constructor( radius = 10, sectors = 16, rings = 8, divisions = 64, color1 = 0x444444, color2 = 0x888888 ) { + + color1 = new Color( color1 ); + color2 = new Color( color2 ); + + const vertices = []; + const colors = []; + + // create the sectors + + if ( sectors > 1 ) { + + for ( let i = 0; i < sectors; i ++ ) { + + const v = ( i / sectors ) * ( Math.PI * 2 ); + + const x = Math.sin( v ) * radius; + const z = Math.cos( v ) * radius; + + vertices.push( 0, 0, 0 ); + vertices.push( x, 0, z ); + + const color = ( i & 1 ) ? color1 : color2; + + colors.push( color.r, color.g, color.b ); + colors.push( color.r, color.g, color.b ); + + } + + } + + // create the rings + + for ( let i = 0; i < rings; i ++ ) { + + const color = ( i & 1 ) ? color1 : color2; + + const r = radius - ( radius / rings * i ); + + for ( let j = 0; j < divisions; j ++ ) { + + // first vertex + + let v = ( j / divisions ) * ( Math.PI * 2 ); + + let x = Math.sin( v ) * r; + let z = Math.cos( v ) * r; + + vertices.push( x, 0, z ); + colors.push( color.r, color.g, color.b ); + + // second vertex + + v = ( ( j + 1 ) / divisions ) * ( Math.PI * 2 ); + + x = Math.sin( v ) * r; + z = Math.cos( v ) * r; + + vertices.push( x, 0, z ); + colors.push( color.r, color.g, color.b ); + + } + + } + + const geometry = new BufferGeometry(); + geometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + geometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) ); + + const material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } ); + + super( geometry, material ); + + this.type = 'PolarGridHelper'; + + } + + dispose() { + + this.geometry.dispose(); + this.material.dispose(); + + } + +} + +const _v1 = /*@__PURE__*/ new Vector3(); +const _v2 = /*@__PURE__*/ new Vector3(); +const _v3 = /*@__PURE__*/ new Vector3(); + +class DirectionalLightHelper extends Object3D { + + constructor( light, size, color ) { + + super(); + + this.light = light; + + this.matrix = light.matrixWorld; + this.matrixAutoUpdate = false; + + this.color = color; + + this.type = 'DirectionalLightHelper'; + + if ( size === undefined ) size = 1; + + let geometry = new BufferGeometry(); + geometry.setAttribute( 'position', new Float32BufferAttribute( [ + - size, size, 0, + size, size, 0, + size, - size, 0, + - size, - size, 0, + - size, size, 0 + ], 3 ) ); + + const material = new LineBasicMaterial( { fog: false, toneMapped: false } ); + + this.lightPlane = new Line( geometry, material ); + this.add( this.lightPlane ); + + geometry = new BufferGeometry(); + geometry.setAttribute( 'position', new Float32BufferAttribute( [ 0, 0, 0, 0, 0, 1 ], 3 ) ); + + this.targetLine = new Line( geometry, material ); + this.add( this.targetLine ); + + this.update(); + + } + + dispose() { + + this.lightPlane.geometry.dispose(); + this.lightPlane.material.dispose(); + this.targetLine.geometry.dispose(); + this.targetLine.material.dispose(); + + } + + update() { + + this.light.updateWorldMatrix( true, false ); + this.light.target.updateWorldMatrix( true, false ); + + _v1.setFromMatrixPosition( this.light.matrixWorld ); + _v2.setFromMatrixPosition( this.light.target.matrixWorld ); + _v3.subVectors( _v2, _v1 ); + + this.lightPlane.lookAt( _v2 ); + + if ( this.color !== undefined ) { + + this.lightPlane.material.color.set( this.color ); + this.targetLine.material.color.set( this.color ); + + } else { + + this.lightPlane.material.color.copy( this.light.color ); + this.targetLine.material.color.copy( this.light.color ); + + } + + this.targetLine.lookAt( _v2 ); + this.targetLine.scale.z = _v3.length(); + + } + +} + +const _vector = /*@__PURE__*/ new Vector3(); +const _camera$1 = /*@__PURE__*/ new Camera(); + +/** + * - shows frustum, line of sight and up of the camera + * - suitable for fast updates + * - based on frustum visualization in lightgl.js shadowmap example + * https://github.com/evanw/lightgl.js/blob/master/tests/shadowmap.html + */ + +class CameraHelper extends LineSegments { + + constructor( camera ) { + + const geometry = new BufferGeometry(); + const material = new LineBasicMaterial( { color: 0xffffff, vertexColors: true, toneMapped: false } ); + + const vertices = []; + const colors = []; + + const pointMap = {}; + + // near + + addLine( 'n1', 'n2' ); + addLine( 'n2', 'n4' ); + addLine( 'n4', 'n3' ); + addLine( 'n3', 'n1' ); + + // far + + addLine( 'f1', 'f2' ); + addLine( 'f2', 'f4' ); + addLine( 'f4', 'f3' ); + addLine( 'f3', 'f1' ); + + // sides + + addLine( 'n1', 'f1' ); + addLine( 'n2', 'f2' ); + addLine( 'n3', 'f3' ); + addLine( 'n4', 'f4' ); + + // cone + + addLine( 'p', 'n1' ); + addLine( 'p', 'n2' ); + addLine( 'p', 'n3' ); + addLine( 'p', 'n4' ); + + // up + + addLine( 'u1', 'u2' ); + addLine( 'u2', 'u3' ); + addLine( 'u3', 'u1' ); + + // target + + addLine( 'c', 't' ); + addLine( 'p', 'c' ); + + // cross + + addLine( 'cn1', 'cn2' ); + addLine( 'cn3', 'cn4' ); + + addLine( 'cf1', 'cf2' ); + addLine( 'cf3', 'cf4' ); + + function addLine( a, b ) { + + addPoint( a ); + addPoint( b ); + + } + + function addPoint( id ) { + + vertices.push( 0, 0, 0 ); + colors.push( 0, 0, 0 ); + + if ( pointMap[ id ] === undefined ) { + + pointMap[ id ] = []; + + } + + pointMap[ id ].push( ( vertices.length / 3 ) - 1 ); + + } + + geometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + geometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) ); + + super( geometry, material ); + + this.type = 'CameraHelper'; + + this.camera = camera; + if ( this.camera.updateProjectionMatrix ) this.camera.updateProjectionMatrix(); + + this.matrix = camera.matrixWorld; + this.matrixAutoUpdate = false; + + this.pointMap = pointMap; + + this.update(); + + // colors + + const colorFrustum = new Color( 0xffaa00 ); + const colorCone = new Color( 0xff0000 ); + const colorUp = new Color( 0x00aaff ); + const colorTarget = new Color( 0xffffff ); + const colorCross = new Color( 0x333333 ); + + this.setColors( colorFrustum, colorCone, colorUp, colorTarget, colorCross ); + + } + + setColors( frustum, cone, up, target, cross ) { + + const geometry = this.geometry; + + const colorAttribute = geometry.getAttribute( 'color' ); + + // near + + colorAttribute.setXYZ( 0, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 1, frustum.r, frustum.g, frustum.b ); // n1, n2 + colorAttribute.setXYZ( 2, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 3, frustum.r, frustum.g, frustum.b ); // n2, n4 + colorAttribute.setXYZ( 4, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 5, frustum.r, frustum.g, frustum.b ); // n4, n3 + colorAttribute.setXYZ( 6, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 7, frustum.r, frustum.g, frustum.b ); // n3, n1 + + // far + + colorAttribute.setXYZ( 8, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 9, frustum.r, frustum.g, frustum.b ); // f1, f2 + colorAttribute.setXYZ( 10, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 11, frustum.r, frustum.g, frustum.b ); // f2, f4 + colorAttribute.setXYZ( 12, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 13, frustum.r, frustum.g, frustum.b ); // f4, f3 + colorAttribute.setXYZ( 14, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 15, frustum.r, frustum.g, frustum.b ); // f3, f1 + + // sides + + colorAttribute.setXYZ( 16, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 17, frustum.r, frustum.g, frustum.b ); // n1, f1 + colorAttribute.setXYZ( 18, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 19, frustum.r, frustum.g, frustum.b ); // n2, f2 + colorAttribute.setXYZ( 20, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 21, frustum.r, frustum.g, frustum.b ); // n3, f3 + colorAttribute.setXYZ( 22, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 23, frustum.r, frustum.g, frustum.b ); // n4, f4 + + // cone + + colorAttribute.setXYZ( 24, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 25, cone.r, cone.g, cone.b ); // p, n1 + colorAttribute.setXYZ( 26, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 27, cone.r, cone.g, cone.b ); // p, n2 + colorAttribute.setXYZ( 28, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 29, cone.r, cone.g, cone.b ); // p, n3 + colorAttribute.setXYZ( 30, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 31, cone.r, cone.g, cone.b ); // p, n4 + + // up + + colorAttribute.setXYZ( 32, up.r, up.g, up.b ); colorAttribute.setXYZ( 33, up.r, up.g, up.b ); // u1, u2 + colorAttribute.setXYZ( 34, up.r, up.g, up.b ); colorAttribute.setXYZ( 35, up.r, up.g, up.b ); // u2, u3 + colorAttribute.setXYZ( 36, up.r, up.g, up.b ); colorAttribute.setXYZ( 37, up.r, up.g, up.b ); // u3, u1 + + // target + + colorAttribute.setXYZ( 38, target.r, target.g, target.b ); colorAttribute.setXYZ( 39, target.r, target.g, target.b ); // c, t + colorAttribute.setXYZ( 40, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 41, cross.r, cross.g, cross.b ); // p, c + + // cross + + colorAttribute.setXYZ( 42, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 43, cross.r, cross.g, cross.b ); // cn1, cn2 + colorAttribute.setXYZ( 44, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 45, cross.r, cross.g, cross.b ); // cn3, cn4 + + colorAttribute.setXYZ( 46, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 47, cross.r, cross.g, cross.b ); // cf1, cf2 + colorAttribute.setXYZ( 48, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 49, cross.r, cross.g, cross.b ); // cf3, cf4 + + colorAttribute.needsUpdate = true; + + } + + update() { + + const geometry = this.geometry; + const pointMap = this.pointMap; + + const w = 1, h = 1; + + // we need just camera projection matrix inverse + // world matrix must be identity + + _camera$1.projectionMatrixInverse.copy( this.camera.projectionMatrixInverse ); + + // center / target + + setPoint( 'c', pointMap, geometry, _camera$1, 0, 0, - 1 ); + setPoint( 't', pointMap, geometry, _camera$1, 0, 0, 1 ); + + // near + + setPoint( 'n1', pointMap, geometry, _camera$1, - w, - h, - 1 ); + setPoint( 'n2', pointMap, geometry, _camera$1, w, - h, - 1 ); + setPoint( 'n3', pointMap, geometry, _camera$1, - w, h, - 1 ); + setPoint( 'n4', pointMap, geometry, _camera$1, w, h, - 1 ); + + // far + + setPoint( 'f1', pointMap, geometry, _camera$1, - w, - h, 1 ); + setPoint( 'f2', pointMap, geometry, _camera$1, w, - h, 1 ); + setPoint( 'f3', pointMap, geometry, _camera$1, - w, h, 1 ); + setPoint( 'f4', pointMap, geometry, _camera$1, w, h, 1 ); + + // up + + setPoint( 'u1', pointMap, geometry, _camera$1, w * 0.7, h * 1.1, - 1 ); + setPoint( 'u2', pointMap, geometry, _camera$1, - w * 0.7, h * 1.1, - 1 ); + setPoint( 'u3', pointMap, geometry, _camera$1, 0, h * 2, - 1 ); + + // cross + + setPoint( 'cf1', pointMap, geometry, _camera$1, - w, 0, 1 ); + setPoint( 'cf2', pointMap, geometry, _camera$1, w, 0, 1 ); + setPoint( 'cf3', pointMap, geometry, _camera$1, 0, - h, 1 ); + setPoint( 'cf4', pointMap, geometry, _camera$1, 0, h, 1 ); + + setPoint( 'cn1', pointMap, geometry, _camera$1, - w, 0, - 1 ); + setPoint( 'cn2', pointMap, geometry, _camera$1, w, 0, - 1 ); + setPoint( 'cn3', pointMap, geometry, _camera$1, 0, - h, - 1 ); + setPoint( 'cn4', pointMap, geometry, _camera$1, 0, h, - 1 ); + + geometry.getAttribute( 'position' ).needsUpdate = true; + + } + + dispose() { + + this.geometry.dispose(); + this.material.dispose(); + + } + +} + + +function setPoint( point, pointMap, geometry, camera, x, y, z ) { + + _vector.set( x, y, z ).unproject( camera ); + + const points = pointMap[ point ]; + + if ( points !== undefined ) { + + const position = geometry.getAttribute( 'position' ); + + for ( let i = 0, l = points.length; i < l; i ++ ) { + + position.setXYZ( points[ i ], _vector.x, _vector.y, _vector.z ); + + } + + } + +} + +const _box = /*@__PURE__*/ new Box3(); + +class BoxHelper extends LineSegments { + + constructor( object, color = 0xffff00 ) { + + const indices = new Uint16Array( [ 0, 1, 1, 2, 2, 3, 3, 0, 4, 5, 5, 6, 6, 7, 7, 4, 0, 4, 1, 5, 2, 6, 3, 7 ] ); + const positions = new Float32Array( 8 * 3 ); + + const geometry = new BufferGeometry(); + geometry.setIndex( new BufferAttribute( indices, 1 ) ); + geometry.setAttribute( 'position', new BufferAttribute( positions, 3 ) ); + + super( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) ); + + this.object = object; + this.type = 'BoxHelper'; + + this.matrixAutoUpdate = false; + + this.update(); + + } + + update( object ) { + + if ( object !== undefined ) { + + console.warn( 'THREE.BoxHelper: .update() has no longer arguments.' ); + + } + + if ( this.object !== undefined ) { + + _box.setFromObject( this.object ); + + } + + if ( _box.isEmpty() ) return; + + const min = _box.min; + const max = _box.max; + + /* + 5____4 + 1/___0/| + | 6__|_7 + 2/___3/ + + 0: max.x, max.y, max.z + 1: min.x, max.y, max.z + 2: min.x, min.y, max.z + 3: max.x, min.y, max.z + 4: max.x, max.y, min.z + 5: min.x, max.y, min.z + 6: min.x, min.y, min.z + 7: max.x, min.y, min.z + */ + + const position = this.geometry.attributes.position; + const array = position.array; + + array[ 0 ] = max.x; array[ 1 ] = max.y; array[ 2 ] = max.z; + array[ 3 ] = min.x; array[ 4 ] = max.y; array[ 5 ] = max.z; + array[ 6 ] = min.x; array[ 7 ] = min.y; array[ 8 ] = max.z; + array[ 9 ] = max.x; array[ 10 ] = min.y; array[ 11 ] = max.z; + array[ 12 ] = max.x; array[ 13 ] = max.y; array[ 14 ] = min.z; + array[ 15 ] = min.x; array[ 16 ] = max.y; array[ 17 ] = min.z; + array[ 18 ] = min.x; array[ 19 ] = min.y; array[ 20 ] = min.z; + array[ 21 ] = max.x; array[ 22 ] = min.y; array[ 23 ] = min.z; + + position.needsUpdate = true; + + this.geometry.computeBoundingSphere(); + + } + + setFromObject( object ) { + + this.object = object; + this.update(); + + return this; + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.object = source.object; + + return this; + + } + + dispose() { + + this.geometry.dispose(); + this.material.dispose(); + + } + +} + +class Box3Helper extends LineSegments { + + constructor( box, color = 0xffff00 ) { + + const indices = new Uint16Array( [ 0, 1, 1, 2, 2, 3, 3, 0, 4, 5, 5, 6, 6, 7, 7, 4, 0, 4, 1, 5, 2, 6, 3, 7 ] ); + + const positions = [ 1, 1, 1, - 1, 1, 1, - 1, - 1, 1, 1, - 1, 1, 1, 1, - 1, - 1, 1, - 1, - 1, - 1, - 1, 1, - 1, - 1 ]; + + const geometry = new BufferGeometry(); + + geometry.setIndex( new BufferAttribute( indices, 1 ) ); + + geometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) ); + + super( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) ); + + this.box = box; + + this.type = 'Box3Helper'; + + this.geometry.computeBoundingSphere(); + + } + + updateMatrixWorld( force ) { + + const box = this.box; + + if ( box.isEmpty() ) return; + + box.getCenter( this.position ); + + box.getSize( this.scale ); + + this.scale.multiplyScalar( 0.5 ); + + super.updateMatrixWorld( force ); + + } + + dispose() { + + this.geometry.dispose(); + this.material.dispose(); + + } + +} + +class PlaneHelper extends Line { + + constructor( plane, size = 1, hex = 0xffff00 ) { + + const color = hex; + + const positions = [ 1, - 1, 0, - 1, 1, 0, - 1, - 1, 0, 1, 1, 0, - 1, 1, 0, - 1, - 1, 0, 1, - 1, 0, 1, 1, 0 ]; + + const geometry = new BufferGeometry(); + geometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) ); + geometry.computeBoundingSphere(); + + super( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) ); + + this.type = 'PlaneHelper'; + + this.plane = plane; + + this.size = size; + + const positions2 = [ 1, 1, 0, - 1, 1, 0, - 1, - 1, 0, 1, 1, 0, - 1, - 1, 0, 1, - 1, 0 ]; + + const geometry2 = new BufferGeometry(); + geometry2.setAttribute( 'position', new Float32BufferAttribute( positions2, 3 ) ); + geometry2.computeBoundingSphere(); + + this.add( new Mesh( geometry2, new MeshBasicMaterial( { color: color, opacity: 0.2, transparent: true, depthWrite: false, toneMapped: false } ) ) ); + + } + + updateMatrixWorld( force ) { + + this.position.set( 0, 0, 0 ); + + this.scale.set( 0.5 * this.size, 0.5 * this.size, 1 ); + + this.lookAt( this.plane.normal ); + + this.translateZ( - this.plane.constant ); + + super.updateMatrixWorld( force ); + + } + + dispose() { + + this.geometry.dispose(); + this.material.dispose(); + this.children[ 0 ].geometry.dispose(); + this.children[ 0 ].material.dispose(); + + } + +} + +const _axis = /*@__PURE__*/ new Vector3(); +let _lineGeometry, _coneGeometry; + +class ArrowHelper extends Object3D { + + // dir is assumed to be normalized + + constructor( dir = new Vector3( 0, 0, 1 ), origin = new Vector3( 0, 0, 0 ), length = 1, color = 0xffff00, headLength = length * 0.2, headWidth = headLength * 0.2 ) { + + super(); + + this.type = 'ArrowHelper'; + + if ( _lineGeometry === undefined ) { + + _lineGeometry = new BufferGeometry(); + _lineGeometry.setAttribute( 'position', new Float32BufferAttribute( [ 0, 0, 0, 0, 1, 0 ], 3 ) ); + + _coneGeometry = new CylinderGeometry( 0, 0.5, 1, 5, 1 ); + _coneGeometry.translate( 0, - 0.5, 0 ); + + } + + this.position.copy( origin ); + + this.line = new Line( _lineGeometry, new LineBasicMaterial( { color: color, toneMapped: false } ) ); + this.line.matrixAutoUpdate = false; + this.add( this.line ); + + this.cone = new Mesh( _coneGeometry, new MeshBasicMaterial( { color: color, toneMapped: false } ) ); + this.cone.matrixAutoUpdate = false; + this.add( this.cone ); + + this.setDirection( dir ); + this.setLength( length, headLength, headWidth ); + + } + + setDirection( dir ) { + + // dir is assumed to be normalized + + if ( dir.y > 0.99999 ) { + + this.quaternion.set( 0, 0, 0, 1 ); + + } else if ( dir.y < - 0.99999 ) { + + this.quaternion.set( 1, 0, 0, 0 ); + + } else { + + _axis.set( dir.z, 0, - dir.x ).normalize(); + + const radians = Math.acos( dir.y ); + + this.quaternion.setFromAxisAngle( _axis, radians ); + + } + + } + + setLength( length, headLength = length * 0.2, headWidth = headLength * 0.2 ) { + + this.line.scale.set( 1, Math.max( 0.0001, length - headLength ), 1 ); // see #17458 + this.line.updateMatrix(); + + this.cone.scale.set( headWidth, headLength, headWidth ); + this.cone.position.y = length; + this.cone.updateMatrix(); + + } + + setColor( color ) { + + this.line.material.color.set( color ); + this.cone.material.color.set( color ); + + } + + copy( source ) { + + super.copy( source, false ); + + this.line.copy( source.line ); + this.cone.copy( source.cone ); + + return this; + + } + + dispose() { + + this.line.geometry.dispose(); + this.line.material.dispose(); + this.cone.geometry.dispose(); + this.cone.material.dispose(); + + } + +} + +class AxesHelper extends LineSegments { + + constructor( size = 1 ) { + + const vertices = [ + 0, 0, 0, size, 0, 0, + 0, 0, 0, 0, size, 0, + 0, 0, 0, 0, 0, size + ]; + + const colors = [ + 1, 0, 0, 1, 0.6, 0, + 0, 1, 0, 0.6, 1, 0, + 0, 0, 1, 0, 0.6, 1 + ]; + + const geometry = new BufferGeometry(); + geometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) ); + geometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) ); + + const material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } ); + + super( geometry, material ); + + this.type = 'AxesHelper'; + + } + + setColors( xAxisColor, yAxisColor, zAxisColor ) { + + const color = new Color(); + const array = this.geometry.attributes.color.array; + + color.set( xAxisColor ); + color.toArray( array, 0 ); + color.toArray( array, 3 ); + + color.set( yAxisColor ); + color.toArray( array, 6 ); + color.toArray( array, 9 ); + + color.set( zAxisColor ); + color.toArray( array, 12 ); + color.toArray( array, 15 ); + + this.geometry.attributes.color.needsUpdate = true; + + return this; + + } + + dispose() { + + this.geometry.dispose(); + this.material.dispose(); + + } + +} + +class ShapePath { + + constructor() { + + this.type = 'ShapePath'; + + this.color = new Color(); + + this.subPaths = []; + this.currentPath = null; + + } + + moveTo( x, y ) { + + this.currentPath = new Path(); + this.subPaths.push( this.currentPath ); + this.currentPath.moveTo( x, y ); + + return this; + + } + + lineTo( x, y ) { + + this.currentPath.lineTo( x, y ); + + return this; + + } + + quadraticCurveTo( aCPx, aCPy, aX, aY ) { + + this.currentPath.quadraticCurveTo( aCPx, aCPy, aX, aY ); + + return this; + + } + + bezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY ) { + + this.currentPath.bezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY ); + + return this; + + } + + splineThru( pts ) { + + this.currentPath.splineThru( pts ); + + return this; + + } + + toShapes( isCCW ) { + + function toShapesNoHoles( inSubpaths ) { + + const shapes = []; + + for ( let i = 0, l = inSubpaths.length; i < l; i ++ ) { + + const tmpPath = inSubpaths[ i ]; + + const tmpShape = new Shape(); + tmpShape.curves = tmpPath.curves; + + shapes.push( tmpShape ); + + } + + return shapes; + + } + + function isPointInsidePolygon( inPt, inPolygon ) { + + const polyLen = inPolygon.length; + + // inPt on polygon contour => immediate success or + // toggling of inside/outside at every single! intersection point of an edge + // with the horizontal line through inPt, left of inPt + // not counting lowerY endpoints of edges and whole edges on that line + let inside = false; + for ( let p = polyLen - 1, q = 0; q < polyLen; p = q ++ ) { + + let edgeLowPt = inPolygon[ p ]; + let edgeHighPt = inPolygon[ q ]; + + let edgeDx = edgeHighPt.x - edgeLowPt.x; + let edgeDy = edgeHighPt.y - edgeLowPt.y; + + if ( Math.abs( edgeDy ) > Number.EPSILON ) { + + // not parallel + if ( edgeDy < 0 ) { + + edgeLowPt = inPolygon[ q ]; edgeDx = - edgeDx; + edgeHighPt = inPolygon[ p ]; edgeDy = - edgeDy; + + } + + if ( ( inPt.y < edgeLowPt.y ) || ( inPt.y > edgeHighPt.y ) ) continue; + + if ( inPt.y === edgeLowPt.y ) { + + if ( inPt.x === edgeLowPt.x ) return true; // inPt is on contour ? + // continue; // no intersection or edgeLowPt => doesn't count !!! + + } else { + + const perpEdge = edgeDy * ( inPt.x - edgeLowPt.x ) - edgeDx * ( inPt.y - edgeLowPt.y ); + if ( perpEdge === 0 ) return true; // inPt is on contour ? + if ( perpEdge < 0 ) continue; + inside = ! inside; // true intersection left of inPt + + } + + } else { + + // parallel or collinear + if ( inPt.y !== edgeLowPt.y ) continue; // parallel + // edge lies on the same horizontal line as inPt + if ( ( ( edgeHighPt.x <= inPt.x ) && ( inPt.x <= edgeLowPt.x ) ) || + ( ( edgeLowPt.x <= inPt.x ) && ( inPt.x <= edgeHighPt.x ) ) ) return true; // inPt: Point on contour ! + // continue; + + } + + } + + return inside; + + } + + const isClockWise = ShapeUtils.isClockWise; + + const subPaths = this.subPaths; + if ( subPaths.length === 0 ) return []; + + let solid, tmpPath, tmpShape; + const shapes = []; + + if ( subPaths.length === 1 ) { + + tmpPath = subPaths[ 0 ]; + tmpShape = new Shape(); + tmpShape.curves = tmpPath.curves; + shapes.push( tmpShape ); + return shapes; + + } + + let holesFirst = ! isClockWise( subPaths[ 0 ].getPoints() ); + holesFirst = isCCW ? ! holesFirst : holesFirst; + + // console.log("Holes first", holesFirst); + + const betterShapeHoles = []; + const newShapes = []; + let newShapeHoles = []; + let mainIdx = 0; + let tmpPoints; + + newShapes[ mainIdx ] = undefined; + newShapeHoles[ mainIdx ] = []; + + for ( let i = 0, l = subPaths.length; i < l; i ++ ) { + + tmpPath = subPaths[ i ]; + tmpPoints = tmpPath.getPoints(); + solid = isClockWise( tmpPoints ); + solid = isCCW ? ! solid : solid; + + if ( solid ) { + + if ( ( ! holesFirst ) && ( newShapes[ mainIdx ] ) ) mainIdx ++; + + newShapes[ mainIdx ] = { s: new Shape(), p: tmpPoints }; + newShapes[ mainIdx ].s.curves = tmpPath.curves; + + if ( holesFirst ) mainIdx ++; + newShapeHoles[ mainIdx ] = []; + + //console.log('cw', i); + + } else { + + newShapeHoles[ mainIdx ].push( { h: tmpPath, p: tmpPoints[ 0 ] } ); + + //console.log('ccw', i); + + } + + } + + // only Holes? -> probably all Shapes with wrong orientation + if ( ! newShapes[ 0 ] ) return toShapesNoHoles( subPaths ); + + + if ( newShapes.length > 1 ) { + + let ambiguous = false; + let toChange = 0; + + for ( let sIdx = 0, sLen = newShapes.length; sIdx < sLen; sIdx ++ ) { + + betterShapeHoles[ sIdx ] = []; + + } + + for ( let sIdx = 0, sLen = newShapes.length; sIdx < sLen; sIdx ++ ) { + + const sho = newShapeHoles[ sIdx ]; + + for ( let hIdx = 0; hIdx < sho.length; hIdx ++ ) { + + const ho = sho[ hIdx ]; + let hole_unassigned = true; + + for ( let s2Idx = 0; s2Idx < newShapes.length; s2Idx ++ ) { + + if ( isPointInsidePolygon( ho.p, newShapes[ s2Idx ].p ) ) { + + if ( sIdx !== s2Idx ) toChange ++; + + if ( hole_unassigned ) { + + hole_unassigned = false; + betterShapeHoles[ s2Idx ].push( ho ); + + } else { + + ambiguous = true; + + } + + } + + } + + if ( hole_unassigned ) { + + betterShapeHoles[ sIdx ].push( ho ); + + } + + } + + } + + if ( toChange > 0 && ambiguous === false ) { + + newShapeHoles = betterShapeHoles; + + } + + } + + let tmpHoles; + + for ( let i = 0, il = newShapes.length; i < il; i ++ ) { + + tmpShape = newShapes[ i ].s; + shapes.push( tmpShape ); + tmpHoles = newShapeHoles[ i ]; + + for ( let j = 0, jl = tmpHoles.length; j < jl; j ++ ) { + + tmpShape.holes.push( tmpHoles[ j ].h ); + + } + + } + + //console.log("shape", shapes); + + return shapes; + + } + +} + +class WebGLMultipleRenderTargets extends WebGLRenderTarget { // @deprecated, r162 + + constructor( width = 1, height = 1, count = 1, options = {} ) { + + console.warn( 'THREE.WebGLMultipleRenderTargets has been deprecated and will be removed in r172. Use THREE.WebGLRenderTarget and set the "count" parameter to enable MRT.' ); + + super( width, height, { ...options, count } ); + + this.isWebGLMultipleRenderTargets = true; + + } + + get texture() { + + return this.textures; + + } + +} + +if ( self.GPUShaderStage === undefined ) { + + self.GPUShaderStage = { VERTEX: 1, FRAGMENT: 2, COMPUTE: 4 }; + +} + +// statics + +let isAvailable = navigator.gpu !== undefined; + + +if ( typeof window !== 'undefined' && isAvailable ) { + + isAvailable = await navigator.gpu.requestAdapter(); + +} + +class WebGPU { + + static isAvailable() { + + return Boolean( isAvailable ); + + } + + static getStaticAdapter() { + + return isAvailable; + + } + + static getErrorMessage() { + + const message = 'Your browser does not support WebGPU yet'; + + const element = document.createElement( 'div' ); + element.id = 'webgpumessage'; + element.style.fontFamily = 'monospace'; + element.style.fontSize = '13px'; + element.style.fontWeight = 'normal'; + element.style.textAlign = 'center'; + element.style.background = '#fff'; + element.style.color = '#000'; + element.style.padding = '1.5em'; + element.style.maxWidth = '400px'; + element.style.margin = '5em auto 0'; + + element.innerHTML = message; + + return element; + + } + +} + +class Animation { + + constructor( nodes, info ) { + + this.nodes = nodes; + this.info = info; + + this.animationLoop = null; + this.requestId = null; + + this._init(); + + } + + _init() { + + const update = ( time, frame ) => { + + this.requestId = self.requestAnimationFrame( update ); + + if ( this.info.autoReset === true ) this.info.reset(); + + this.nodes.nodeFrame.update(); + + this.info.frame = this.nodes.nodeFrame.frameId; + + if ( this.animationLoop !== null ) this.animationLoop( time, frame ); + + }; + + update(); + + } + + dispose() { + + self.cancelAnimationFrame( this.requestId ); + this.requestId = null; + + } + + setAnimationLoop( callback ) { + + this.animationLoop = callback; + + } + +} + +class ChainMap { + + constructor() { + + this.weakMap = new WeakMap(); + + } + + get( keys ) { + + let map = this.weakMap; + + for ( let i = 0; i < keys.length; i ++ ) { + + map = map.get( keys[ i ] ); + + if ( map === undefined ) return undefined; + + } + + return map.get( keys[ keys.length - 1 ] ); + + } + + set( keys, value ) { + + let map = this.weakMap; + + for ( let i = 0; i < keys.length; i ++ ) { + + const key = keys[ i ]; + + if ( map.has( key ) === false ) map.set( key, new WeakMap() ); + + map = map.get( key ); + + } + + return map.set( keys[ keys.length - 1 ], value ); + + } + + delete( keys ) { + + let map = this.weakMap; + + for ( let i = 0; i < keys.length; i ++ ) { + + map = map.get( keys[ i ] ); + + if ( map === undefined ) return false; + + } + + return map.delete( keys[ keys.length - 1 ] ); + + } + +} + +const _plane = new Plane(); + +let _clippingContextVersion = 0; + +class ClippingContext { + + constructor() { + + this.version = ++ _clippingContextVersion; + + this.globalClippingCount = 0; + + this.localClippingCount = 0; + this.localClippingEnabled = false; + this.localClipIntersection = false; + + this.planes = []; + + this.parentVersion = 0; + this.viewNormalMatrix = new Matrix3(); + + } + + projectPlanes( source, offset ) { + + const l = source.length; + const planes = this.planes; + + for ( let i = 0; i < l; i ++ ) { + + _plane.copy( source[ i ] ).applyMatrix4( this.viewMatrix, this.viewNormalMatrix ); + + const v = planes[ offset + i ]; + const normal = _plane.normal; + + v.x = - normal.x; + v.y = - normal.y; + v.z = - normal.z; + v.w = _plane.constant; + + } + + } + + updateGlobal( renderer, camera ) { + + const rendererClippingPlanes = renderer.clippingPlanes; + this.viewMatrix = camera.matrixWorldInverse; + + this.viewNormalMatrix.getNormalMatrix( this.viewMatrix ); + + let update = false; + + if ( Array.isArray( rendererClippingPlanes ) && rendererClippingPlanes.length !== 0 ) { + + const l = rendererClippingPlanes.length; + + if ( l !== this.globalClippingCount ) { + + const planes = []; + + for ( let i = 0; i < l; i ++ ) { + + planes.push( new Vector4() ); + + } + + this.globalClippingCount = l; + this.planes = planes; + + update = true; + + } + + this.projectPlanes( rendererClippingPlanes, 0 ); + + } else if ( this.globalClippingCount !== 0 ) { + + this.globalClippingCount = 0; + this.planes = []; + update = true; + + } + + if ( renderer.localClippingEnabled !== this.localClippingEnabled ) { + + this.localClippingEnabled = renderer.localClippingEnabled; + update = true; + + } + + if ( update ) this.version = _clippingContextVersion ++; + + } + + update( parent, material ) { + + let update = false; + + if ( this !== parent && parent.version !== this.parentVersion ) { + + this.globalClippingCount = material.isShadowNodeMaterial ? 0 : parent.globalClippingCount; + this.localClippingEnabled = parent.localClippingEnabled; + this.planes = Array.from( parent.planes ); + this.parentVersion = parent.version; + this.viewMatrix = parent.viewMatrix; + this.viewNormalMatrix = parent.viewNormalMatrix; + + update = true; + + } + + if ( this.localClippingEnabled ) { + + const localClippingPlanes = material.clippingPlanes; + + if ( ( Array.isArray( localClippingPlanes ) && localClippingPlanes.length !== 0 ) ) { + + const l = localClippingPlanes.length; + const planes = this.planes; + const offset = this.globalClippingCount; + + if ( update || l !== this.localClippingCount ) { + + planes.length = offset + l; + + for ( let i = 0; i < l; i ++ ) { + + planes[ offset + i ] = new Vector4(); + + } + + this.localClippingCount = l; + update = true; + + } + + this.projectPlanes( localClippingPlanes, offset ); + + + } else if ( this.localClippingCount !== 0 ) { + + this.localClippingCount = 0; + update = true; + + } + + if ( this.localClipIntersection !== material.clipIntersection ) { + + this.localClipIntersection = material.clipIntersection; + update = true; + + } + + } + + if ( update ) this.version = _clippingContextVersion ++; + + } + +} + +let id$4 = 0; + +function getKeys( obj ) { + + const keys = Object.keys( obj ); + + let proto = Object.getPrototypeOf( obj ); + + while ( proto ) { + + const descriptors = Object.getOwnPropertyDescriptors( proto ); + + for ( const key in descriptors ) { + + if ( descriptors[ key ] !== undefined ) { + + const descriptor = descriptors[ key ]; + + if ( descriptor && typeof descriptor.get === 'function' ) { + + keys.push( key ); + + } + + } + + } + + proto = Object.getPrototypeOf( proto ); + + } + + return keys; + +} + +class RenderObject { + + constructor( nodes, geometries, renderer, object, material, scene, camera, lightsNode, renderContext ) { + + this._nodes = nodes; + this._geometries = geometries; + + this.id = id$4 ++; + + this.renderer = renderer; + this.object = object; + this.material = material; + this.scene = scene; + this.camera = camera; + this.lightsNode = lightsNode; + this.context = renderContext; + + this.geometry = object.geometry; + this.version = material.version; + + this.drawRange = null; + + this.attributes = null; + this.pipeline = null; + this.vertexBuffers = null; + + this.updateClipping( renderContext.clippingContext ); + + this.clippingContextVersion = this.clippingContext.version; + + this.initialNodesCacheKey = this.getNodesCacheKey(); + this.initialCacheKey = this.getCacheKey(); + + this._nodeBuilderState = null; + this._bindings = null; + + this.onDispose = null; + + this.isRenderObject = true; + + this.onMaterialDispose = () => { + + this.dispose(); + + }; + + this.material.addEventListener( 'dispose', this.onMaterialDispose ); + + } + + updateClipping( parent ) { + + const material = this.material; + + let clippingContext = this.clippingContext; + + if ( Array.isArray( material.clippingPlanes ) ) { + + if ( clippingContext === parent || ! clippingContext ) { + + clippingContext = new ClippingContext(); + this.clippingContext = clippingContext; + + } + + clippingContext.update( parent, material ); + + } else if ( this.clippingContext !== parent ) { + + this.clippingContext = parent; + + } + + } + + get clippingNeedsUpdate() { + + if ( this.clippingContext.version === this.clippingContextVersion ) return false; + + this.clippingContextVersion = this.clippingContext.version; + + return true; + + } + + getNodeBuilderState() { + + return this._nodeBuilderState || ( this._nodeBuilderState = this._nodes.getForRender( this ) ); + + } + + getBindings() { + + return this._bindings || ( this._bindings = this.getNodeBuilderState().createBindings() ); + + } + + getIndex() { + + return this._geometries.getIndex( this ); + + } + + getChainArray() { + + return [ this.object, this.material, this.context, this.lightsNode ]; + + } + + getAttributes() { + + if ( this.attributes !== null ) return this.attributes; + + const nodeAttributes = this.getNodeBuilderState().nodeAttributes; + const geometry = this.geometry; + + const attributes = []; + const vertexBuffers = new Set(); + + for ( const nodeAttribute of nodeAttributes ) { + + const attribute = nodeAttribute.node && nodeAttribute.node.attribute ? nodeAttribute.node.attribute : geometry.getAttribute( nodeAttribute.name ); + + if ( attribute === undefined ) continue; + + attributes.push( attribute ); + + const bufferAttribute = attribute.isInterleavedBufferAttribute ? attribute.data : attribute; + vertexBuffers.add( bufferAttribute ); + + } + + this.attributes = attributes; + this.vertexBuffers = Array.from( vertexBuffers.values() ); + + return attributes; + + } + + getVertexBuffers() { + + if ( this.vertexBuffers === null ) this.getAttributes(); + + return this.vertexBuffers; + + } + + getMaterialCacheKey() { + + const { object, material } = this; + + let cacheKey = material.customProgramCacheKey(); + + for ( const property of getKeys( material ) ) { + + if ( /^(is[A-Z]|_)|^(visible|version|uuid|name|opacity|userData)$/.test( property ) ) continue; + + let value = material[ property ]; + + if ( value !== null ) { + + const type = typeof value; + + if ( type === 'number' ) value = value !== 0 ? '1' : '0'; // Convert to on/off, important for clearcoat, transmission, etc + else if ( type === 'object' ) value = '{}'; + + } + + cacheKey += /*property + ':' +*/ value + ','; + + } + + cacheKey += this.clippingContextVersion + ','; + + if ( object.skeleton ) { + + cacheKey += object.skeleton.bones.length + ','; + + } + + if ( object.morphTargetInfluences ) { + + cacheKey += object.morphTargetInfluences.length + ','; + + } + + if ( object.isBatchedMesh ) { + + cacheKey += object._matricesTexture.uuid + ','; + + if ( object._colorsTexture !== null ) { + + cacheKey += object._colorsTexture.uuid + ','; + + } + + } + + if ( object.count > 1 ) { + + cacheKey += object.count + ','; + + } + + return cacheKey; + + } + + get needsUpdate() { + + return this.initialNodesCacheKey !== this.getNodesCacheKey() || this.clippingNeedsUpdate; + + } + + getNodesCacheKey() { + + // Environment Nodes Cache Key + + return this._nodes.getCacheKey( this.scene, this.lightsNode ); + + } + + getCacheKey() { + + return this.getMaterialCacheKey() + ',' + this.getNodesCacheKey(); + + } + + dispose() { + + this.material.removeEventListener( 'dispose', this.onMaterialDispose ); + + this.onDispose(); + + } + +} + +class RenderObjects { + + constructor( renderer, nodes, geometries, pipelines, bindings, info ) { + + this.renderer = renderer; + this.nodes = nodes; + this.geometries = geometries; + this.pipelines = pipelines; + this.bindings = bindings; + this.info = info; + + this.chainMaps = {}; + + } + + get( object, material, scene, camera, lightsNode, renderContext, passId ) { + + const chainMap = this.getChainMap( passId ); + const chainArray = [ object, material, renderContext, lightsNode ]; + + let renderObject = chainMap.get( chainArray ); + + if ( renderObject === undefined ) { + + renderObject = this.createRenderObject( this.nodes, this.geometries, this.renderer, object, material, scene, camera, lightsNode, renderContext, passId ); + + chainMap.set( chainArray, renderObject ); + + } else { + + renderObject.updateClipping( renderContext.clippingContext ); + + if ( renderObject.version !== material.version || renderObject.needsUpdate ) { + + if ( renderObject.initialCacheKey !== renderObject.getCacheKey() ) { + + renderObject.dispose(); + + renderObject = this.get( object, material, scene, camera, lightsNode, renderContext, passId ); + + } else { + + renderObject.version = material.version; + + } + + } + + } + + return renderObject; + + } + + getChainMap( passId = 'default' ) { + + return this.chainMaps[ passId ] || ( this.chainMaps[ passId ] = new ChainMap() ); + + } + + dispose() { + + this.chainMaps = {}; + + } + + createRenderObject( nodes, geometries, renderer, object, material, scene, camera, lightsNode, renderContext, passId ) { + + const chainMap = this.getChainMap( passId ); + + const renderObject = new RenderObject( nodes, geometries, renderer, object, material, scene, camera, lightsNode, renderContext ); + + renderObject.onDispose = () => { + + this.pipelines.delete( renderObject ); + this.bindings.delete( renderObject ); + this.nodes.delete( renderObject ); + + chainMap.delete( renderObject.getChainArray() ); + + }; + + return renderObject; + + } + + +} + +class DataMap { + + constructor() { + + this.data = new WeakMap(); + + } + + get( object ) { + + let map = this.data.get( object ); + + if ( map === undefined ) { + + map = {}; + this.data.set( object, map ); + + } + + return map; + + } + + delete( object ) { + + let map; + + if ( this.data.has( object ) ) { + + map = this.data.get( object ); + + this.data.delete( object ); + + } + + return map; + + } + + has( object ) { + + return this.data.has( object ); + + } + + dispose() { + + this.data = new WeakMap(); + + } + +} + +const AttributeType = { + VERTEX: 1, + INDEX: 2, + STORAGE: 4 +}; + +// size of a chunk in bytes (STD140 layout) + +const GPU_CHUNK_BYTES = 16; + +// @TODO: Move to src/constants.js + +const BlendColorFactor = 211; +const OneMinusBlendColorFactor = 212; + +class Attributes extends DataMap { + + constructor( backend ) { + + super(); + + this.backend = backend; + + } + + delete( attribute ) { + + const attributeData = super.delete( attribute ); + + if ( attributeData !== undefined ) { + + this.backend.destroyAttribute( attribute ); + + } + + return attributeData; + + } + + update( attribute, type ) { + + const data = this.get( attribute ); + + if ( data.version === undefined ) { + + if ( type === AttributeType.VERTEX ) { + + this.backend.createAttribute( attribute ); + + } else if ( type === AttributeType.INDEX ) { + + this.backend.createIndexAttribute( attribute ); + + } else if ( type === AttributeType.STORAGE ) { + + this.backend.createStorageAttribute( attribute ); + + } + + data.version = this._getBufferAttribute( attribute ).version; + + } else { + + const bufferAttribute = this._getBufferAttribute( attribute ); + + if ( data.version < bufferAttribute.version || bufferAttribute.usage === DynamicDrawUsage ) { + + this.backend.updateAttribute( attribute ); + + data.version = bufferAttribute.version; + + } + + } + + } + + _getBufferAttribute( attribute ) { + + if ( attribute.isInterleavedBufferAttribute ) attribute = attribute.data; + + return attribute; + + } + +} + +function arrayNeedsUint32( array ) { + + // assumes larger values usually on last + + for ( let i = array.length - 1; i >= 0; -- i ) { + + if ( array[ i ] >= 65535 ) return true; // account for PRIMITIVE_RESTART_FIXED_INDEX, #24565 + + } + + return false; + +} + +function getWireframeVersion( geometry ) { + + return ( geometry.index !== null ) ? geometry.index.version : geometry.attributes.position.version; + +} + +function getWireframeIndex( geometry ) { + + const indices = []; + + const geometryIndex = geometry.index; + const geometryPosition = geometry.attributes.position; + + if ( geometryIndex !== null ) { + + const array = geometryIndex.array; + + for ( let i = 0, l = array.length; i < l; i += 3 ) { + + const a = array[ i + 0 ]; + const b = array[ i + 1 ]; + const c = array[ i + 2 ]; + + indices.push( a, b, b, c, c, a ); + + } + + } else { + + const array = geometryPosition.array; + + for ( let i = 0, l = ( array.length / 3 ) - 1; i < l; i += 3 ) { + + const a = i + 0; + const b = i + 1; + const c = i + 2; + + indices.push( a, b, b, c, c, a ); + + } + + } + + const attribute = new ( arrayNeedsUint32( indices ) ? Uint32BufferAttribute : Uint16BufferAttribute )( indices, 1 ); + attribute.version = getWireframeVersion( geometry ); + + return attribute; + +} + +class Geometries extends DataMap { + + constructor( attributes, info ) { + + super(); + + this.attributes = attributes; + this.info = info; + + this.wireframes = new WeakMap(); + + this.attributeCall = new WeakMap(); + + } + + has( renderObject ) { + + const geometry = renderObject.geometry; + + return super.has( geometry ) && this.get( geometry ).initialized === true; + + } + + updateForRender( renderObject ) { + + if ( this.has( renderObject ) === false ) this.initGeometry( renderObject ); + + this.updateAttributes( renderObject ); + + } + + initGeometry( renderObject ) { + + const geometry = renderObject.geometry; + const geometryData = this.get( geometry ); + + geometryData.initialized = true; + + this.info.memory.geometries ++; + + const onDispose = () => { + + this.info.memory.geometries --; + + const index = geometry.index; + const geometryAttributes = renderObject.getAttributes(); + + if ( index !== null ) { + + this.attributes.delete( index ); + + } + + for ( const geometryAttribute of geometryAttributes ) { + + this.attributes.delete( geometryAttribute ); + + } + + const wireframeAttribute = this.wireframes.get( geometry ); + + if ( wireframeAttribute !== undefined ) { + + this.attributes.delete( wireframeAttribute ); + + } + + geometry.removeEventListener( 'dispose', onDispose ); + + }; + + geometry.addEventListener( 'dispose', onDispose ); + + } + + updateAttributes( renderObject ) { + + const attributes = renderObject.getAttributes(); + + for ( const attribute of attributes ) { + + if ( attribute.isStorageBufferAttribute || attribute.isStorageInstancedBufferAttribute ) { + + this.updateAttribute( attribute, AttributeType.STORAGE ); + + } else { + + this.updateAttribute( attribute, AttributeType.VERTEX ); + + } + + } + + const index = this.getIndex( renderObject ); + + if ( index !== null ) { + + this.updateAttribute( index, AttributeType.INDEX ); + + } + + } + + updateAttribute( attribute, type ) { + + const callId = this.info.render.calls; + + if ( ! attribute.isInterleavedBufferAttribute ) { + + if ( this.attributeCall.get( attribute ) !== callId ) { + + this.attributes.update( attribute, type ); + + this.attributeCall.set( attribute, callId ); + + } + + } else { + + if ( this.attributeCall.get( attribute ) === undefined ) { + + this.attributes.update( attribute, type ); + + this.attributeCall.set( attribute, callId ); + + } else if ( this.attributeCall.get( attribute.data ) !== callId ) { + + this.attributes.update( attribute, type ); + + this.attributeCall.set( attribute.data, callId ); + + this.attributeCall.set( attribute, callId ); + + } + + } + + } + + getIndex( renderObject ) { + + const { geometry, material } = renderObject; + + let index = geometry.index; + + if ( material.wireframe === true ) { + + const wireframes = this.wireframes; + + let wireframeAttribute = wireframes.get( geometry ); + + if ( wireframeAttribute === undefined ) { + + wireframeAttribute = getWireframeIndex( geometry ); + + wireframes.set( geometry, wireframeAttribute ); + + } else if ( wireframeAttribute.version !== getWireframeVersion( geometry ) ) { + + this.attributes.delete( wireframeAttribute ); + + wireframeAttribute = getWireframeIndex( geometry ); + + wireframes.set( geometry, wireframeAttribute ); + + } + + index = wireframeAttribute; + + } + + return index; + + } + +} + +class Info { + + constructor() { + + this.autoReset = true; + + this.frame = 0; + this.calls = 0; + + this.render = { + calls: 0, + frameCalls: 0, + drawCalls: 0, + triangles: 0, + points: 0, + lines: 0, + timestamp: 0, + previousFrameCalls: 0, + timestampCalls: 0 + }; + + this.compute = { + calls: 0, + frameCalls: 0, + timestamp: 0, + previousFrameCalls: 0, + timestampCalls: 0 + }; + + this.memory = { + geometries: 0, + textures: 0 + }; + + } + + update( object, count, instanceCount ) { + + this.render.drawCalls ++; + + if ( object.isMesh || object.isSprite ) { + + this.render.triangles += instanceCount * ( count / 3 ); + + } else if ( object.isPoints ) { + + this.render.points += instanceCount * count; + + } else if ( object.isLineSegments ) { + + this.render.lines += instanceCount * ( count / 2 ); + + } else if ( object.isLine ) { + + this.render.lines += instanceCount * ( count - 1 ); + + } else { + + console.error( 'THREE.WebGPUInfo: Unknown object type.' ); + + } + + } + + updateTimestamp( type, time ) { + + if ( this[ type ].timestampCalls === 0 ) { + + this[ type ].timestamp = 0; + + } + + + this[ type ].timestamp += time; + + this[ type ].timestampCalls ++; + + + if ( this[ type ].timestampCalls >= this[ type ].previousFrameCalls ) { + + this[ type ].timestampCalls = 0; + + } + + + } + + reset() { + + const previousRenderFrameCalls = this.render.frameCalls; + this.render.previousFrameCalls = previousRenderFrameCalls; + + const previousComputeFrameCalls = this.compute.frameCalls; + this.compute.previousFrameCalls = previousComputeFrameCalls; + + + this.render.drawCalls = 0; + this.render.frameCalls = 0; + this.compute.frameCalls = 0; + + this.render.triangles = 0; + this.render.points = 0; + this.render.lines = 0; + + + } + + dispose() { + + this.reset(); + + this.calls = 0; + + this.render.calls = 0; + this.compute.calls = 0; + + this.render.timestamp = 0; + this.compute.timestamp = 0; + this.memory.geometries = 0; + this.memory.textures = 0; + + } + +} + +class Pipeline { + + constructor( cacheKey ) { + + this.cacheKey = cacheKey; + + this.usedTimes = 0; + + } + +} + +class RenderPipeline extends Pipeline { + + constructor( cacheKey, vertexProgram, fragmentProgram ) { + + super( cacheKey ); + + this.vertexProgram = vertexProgram; + this.fragmentProgram = fragmentProgram; + + } + +} + +class ComputePipeline extends Pipeline { + + constructor( cacheKey, computeProgram ) { + + super( cacheKey ); + + this.computeProgram = computeProgram; + + this.isComputePipeline = true; + + } + +} + +let _id$4 = 0; + +class ProgrammableStage { + + constructor( code, type, transforms = null, attributes = null ) { + + this.id = _id$4 ++; + + this.code = code; + this.stage = type; + this.transforms = transforms; + this.attributes = attributes; + + this.usedTimes = 0; + + } + +} + +class Pipelines extends DataMap { + + constructor( backend, nodes ) { + + super(); + + this.backend = backend; + this.nodes = nodes; + + this.bindings = null; // set by the bindings + + this.caches = new Map(); + this.programs = { + vertex: new Map(), + fragment: new Map(), + compute: new Map() + }; + + } + + getForCompute( computeNode, bindings ) { + + const { backend } = this; + + const data = this.get( computeNode ); + + if ( this._needsComputeUpdate( computeNode ) ) { + + const previousPipeline = data.pipeline; + + if ( previousPipeline ) { + + previousPipeline.usedTimes --; + previousPipeline.computeProgram.usedTimes --; + + } + + // get shader + + const nodeBuilderState = this.nodes.getForCompute( computeNode ); + + // programmable stage + + let stageCompute = this.programs.compute.get( nodeBuilderState.computeShader ); + + if ( stageCompute === undefined ) { + + if ( previousPipeline && previousPipeline.computeProgram.usedTimes === 0 ) this._releaseProgram( previousPipeline.computeProgram ); + + stageCompute = new ProgrammableStage( nodeBuilderState.computeShader, 'compute', nodeBuilderState.transforms, nodeBuilderState.nodeAttributes ); + this.programs.compute.set( nodeBuilderState.computeShader, stageCompute ); + + backend.createProgram( stageCompute ); + + } + + // determine compute pipeline + + const cacheKey = this._getComputeCacheKey( computeNode, stageCompute ); + + let pipeline = this.caches.get( cacheKey ); + + if ( pipeline === undefined ) { + + if ( previousPipeline && previousPipeline.usedTimes === 0 ) this._releasePipeline( previousPipeline ); + + pipeline = this._getComputePipeline( computeNode, stageCompute, cacheKey, bindings ); + + } + + // keep track of all used times + + pipeline.usedTimes ++; + stageCompute.usedTimes ++; + + // + + data.version = computeNode.version; + data.pipeline = pipeline; + + } + + return data.pipeline; + + } + + getForRender( renderObject, promises = null ) { + + const { backend } = this; + + const data = this.get( renderObject ); + + if ( this._needsRenderUpdate( renderObject ) ) { + + const previousPipeline = data.pipeline; + + if ( previousPipeline ) { + + previousPipeline.usedTimes --; + previousPipeline.vertexProgram.usedTimes --; + previousPipeline.fragmentProgram.usedTimes --; + + } + + // get shader + + const nodeBuilderState = renderObject.getNodeBuilderState(); + + // programmable stages + + let stageVertex = this.programs.vertex.get( nodeBuilderState.vertexShader ); + + if ( stageVertex === undefined ) { + + if ( previousPipeline && previousPipeline.vertexProgram.usedTimes === 0 ) this._releaseProgram( previousPipeline.vertexProgram ); + + stageVertex = new ProgrammableStage( nodeBuilderState.vertexShader, 'vertex' ); + this.programs.vertex.set( nodeBuilderState.vertexShader, stageVertex ); + + backend.createProgram( stageVertex ); + + } + + let stageFragment = this.programs.fragment.get( nodeBuilderState.fragmentShader ); + + if ( stageFragment === undefined ) { + + if ( previousPipeline && previousPipeline.fragmentProgram.usedTimes === 0 ) this._releaseProgram( previousPipeline.fragmentProgram ); + + stageFragment = new ProgrammableStage( nodeBuilderState.fragmentShader, 'fragment' ); + this.programs.fragment.set( nodeBuilderState.fragmentShader, stageFragment ); + + backend.createProgram( stageFragment ); + + } + + // determine render pipeline + + const cacheKey = this._getRenderCacheKey( renderObject, stageVertex, stageFragment ); + + let pipeline = this.caches.get( cacheKey ); + + if ( pipeline === undefined ) { + + if ( previousPipeline && previousPipeline.usedTimes === 0 ) this._releasePipeline( previousPipeline ); + + pipeline = this._getRenderPipeline( renderObject, stageVertex, stageFragment, cacheKey, promises ); + + } else { + + renderObject.pipeline = pipeline; + + } + + // keep track of all used times + + pipeline.usedTimes ++; + stageVertex.usedTimes ++; + stageFragment.usedTimes ++; + + // + + data.pipeline = pipeline; + + } + + return data.pipeline; + + } + + delete( object ) { + + const pipeline = this.get( object ).pipeline; + + if ( pipeline ) { + + // pipeline + + pipeline.usedTimes --; + + if ( pipeline.usedTimes === 0 ) this._releasePipeline( pipeline ); + + // programs + + if ( pipeline.isComputePipeline ) { + + pipeline.computeProgram.usedTimes --; + + if ( pipeline.computeProgram.usedTimes === 0 ) this._releaseProgram( pipeline.computeProgram ); + + } else { + + pipeline.fragmentProgram.usedTimes --; + pipeline.vertexProgram.usedTimes --; + + if ( pipeline.vertexProgram.usedTimes === 0 ) this._releaseProgram( pipeline.vertexProgram ); + if ( pipeline.fragmentProgram.usedTimes === 0 ) this._releaseProgram( pipeline.fragmentProgram ); + + } + + } + + return super.delete( object ); + + } + + dispose() { + + super.dispose(); + + this.caches = new Map(); + this.programs = { + vertex: new Map(), + fragment: new Map(), + compute: new Map() + }; + + } + + updateForRender( renderObject ) { + + this.getForRender( renderObject ); + + } + + _getComputePipeline( computeNode, stageCompute, cacheKey, bindings ) { + + // check for existing pipeline + + cacheKey = cacheKey || this._getComputeCacheKey( computeNode, stageCompute ); + + let pipeline = this.caches.get( cacheKey ); + + if ( pipeline === undefined ) { + + pipeline = new ComputePipeline( cacheKey, stageCompute ); + + this.caches.set( cacheKey, pipeline ); + + this.backend.createComputePipeline( pipeline, bindings ); + + } + + return pipeline; + + } + + _getRenderPipeline( renderObject, stageVertex, stageFragment, cacheKey, promises ) { + + // check for existing pipeline + + cacheKey = cacheKey || this._getRenderCacheKey( renderObject, stageVertex, stageFragment ); + + let pipeline = this.caches.get( cacheKey ); + + if ( pipeline === undefined ) { + + pipeline = new RenderPipeline( cacheKey, stageVertex, stageFragment ); + + this.caches.set( cacheKey, pipeline ); + + renderObject.pipeline = pipeline; + + this.backend.createRenderPipeline( renderObject, promises ); + + } + + return pipeline; + + } + + _getComputeCacheKey( computeNode, stageCompute ) { + + return computeNode.id + ',' + stageCompute.id; + + } + + _getRenderCacheKey( renderObject, stageVertex, stageFragment ) { + + return stageVertex.id + ',' + stageFragment.id + ',' + this.backend.getRenderCacheKey( renderObject ); + + } + + _releasePipeline( pipeline ) { + + this.caches.delete( pipeline.cacheKey ); + + } + + _releaseProgram( program ) { + + const code = program.code; + const stage = program.stage; + + this.programs[ stage ].delete( code ); + + } + + _needsComputeUpdate( computeNode ) { + + const data = this.get( computeNode ); + + return data.pipeline === undefined || data.version !== computeNode.version; + + } + + _needsRenderUpdate( renderObject ) { + + const data = this.get( renderObject ); + + return data.pipeline === undefined || this.backend.needsRenderUpdate( renderObject ); + + } + +} + +class Bindings extends DataMap { + + constructor( backend, nodes, textures, attributes, pipelines, info ) { + + super(); + + this.backend = backend; + this.textures = textures; + this.pipelines = pipelines; + this.attributes = attributes; + this.nodes = nodes; + this.info = info; + + this.pipelines.bindings = this; // assign bindings to pipelines + + } + + getForRender( renderObject ) { + + const bindings = renderObject.getBindings(); + + for ( const bindGroup of bindings ) { + + const groupData = this.get( bindGroup ); + + if ( groupData.bindGroup === undefined ) { + + // each object defines an array of bindings (ubos, textures, samplers etc.) + + this._init( bindGroup ); + + this.backend.createBindings( bindGroup, bindings ); + + groupData.bindGroup = bindGroup; + + } + + } + + return bindings; + + } + + getForCompute( computeNode ) { + + const bindings = this.nodes.getForCompute( computeNode ).bindings; + + for ( const bindGroup of bindings ) { + + const groupData = this.get( bindGroup ); + + if ( groupData.bindGroup === undefined ) { + + this._init( bindGroup ); + + this.backend.createBindings( bindGroup, bindings ); + + groupData.bindGroup = bindGroup; + + } + + } + + return bindings; + + } + + updateForCompute( computeNode ) { + + this._updateBindings( computeNode, this.getForCompute( computeNode ) ); + + } + + updateForRender( renderObject ) { + + this._updateBindings( renderObject, this.getForRender( renderObject ) ); + + } + + _updateBindings( object, bindings ) { + + for ( const bindGroup of bindings ) { + + this._update( object, bindGroup, bindings ); + + } + + } + + _init( bindGroup ) { + + for ( const binding of bindGroup.bindings ) { + + if ( binding.isSampledTexture ) { + + this.textures.updateTexture( binding.texture ); + + } else if ( binding.isStorageBuffer ) { + + const attribute = binding.attribute; + + this.attributes.update( attribute, AttributeType.STORAGE ); + + } + + } + + } + + _update( object, bindGroup, bindings ) { + + const { backend } = this; + + let needsBindingsUpdate = false; + + // iterate over all bindings and check if buffer updates or a new binding group is required + + for ( const binding of bindGroup.bindings ) { + + if ( binding.isNodeUniformsGroup ) { + + const updated = this.nodes.updateGroup( binding ); + + if ( ! updated ) continue; + + } + + if ( binding.isUniformBuffer ) { + + const updated = binding.update(); + + if ( updated ) { + + backend.updateBinding( binding ); + + } + + } else if ( binding.isSampler ) { + + binding.update(); + + } else if ( binding.isSampledTexture ) { + + const texture = binding.texture; + + if ( binding.needsBindingsUpdate ) needsBindingsUpdate = true; + + const updated = binding.update(); + + if ( updated ) { + + this.textures.updateTexture( binding.texture ); + + } + + const textureData = backend.get( binding.texture ); + + if ( backend.isWebGPUBackend === true && textureData.texture === undefined && textureData.externalTexture === undefined ) { + + // TODO: Remove this once we found why updated === false isn't bound to a texture in the WebGPU backend + console.error( 'Bindings._update: binding should be available:', binding, updated, binding.texture, binding.textureNode.value ); + + this.textures.updateTexture( binding.texture ); + needsBindingsUpdate = true; + + } + + if ( texture.isStorageTexture === true ) { + + const textureData = this.get( texture ); + + if ( binding.store === true ) { + + textureData.needsMipmap = true; + + } else if ( texture.generateMipmaps === true && this.textures.needsMipmaps( texture ) && textureData.needsMipmap === true ) { + + this.backend.generateMipmaps( texture ); + + textureData.needsMipmap = false; + + } + + } + + } + + } + + if ( needsBindingsUpdate === true ) { + + const pipeline = this.pipelines.getForRender( object ); + + this.backend.updateBindings( bindGroup, bindings, pipeline ); + + } + + } + +} + +const NodeShaderStage = { + VERTEX: 'vertex', + FRAGMENT: 'fragment' +}; + +const NodeUpdateType = { + NONE: 'none', + FRAME: 'frame', + RENDER: 'render', + OBJECT: 'object' +}; + +const NodeType = { + BOOLEAN: 'bool', + INTEGER: 'int', + FLOAT: 'float', + VECTOR2: 'vec2', + VECTOR3: 'vec3', + VECTOR4: 'vec4', + MATRIX2: 'mat2', + MATRIX3: 'mat3', + MATRIX4: 'mat4' +}; + +const defaultShaderStages = [ 'fragment', 'vertex' ]; +const defaultBuildStages = [ 'setup', 'analyze', 'generate' ]; +const shaderStages = [ ...defaultShaderStages, 'compute' ]; +const vectorComponents = [ 'x', 'y', 'z', 'w' ]; + +function getCacheKey( object, force = false ) { + + let cacheKey = '{'; + + if ( object.isNode === true ) { + + cacheKey += object.id; + + } + + for ( const { property, childNode } of getNodeChildren( object ) ) { + + cacheKey += ',' + property.slice( 0, - 4 ) + ':' + childNode.getCacheKey( force ); + + } + + cacheKey += '}'; + + return cacheKey; + +} + +function* getNodeChildren( node, toJSON = false ) { + + for ( const property in node ) { + + // Ignore private properties. + if ( property.startsWith( '_' ) === true ) continue; + + const object = node[ property ]; + + if ( Array.isArray( object ) === true ) { + + for ( let i = 0; i < object.length; i ++ ) { + + const child = object[ i ]; + + if ( child && ( child.isNode === true || toJSON && typeof child.toJSON === 'function' ) ) { + + yield { property, index: i, childNode: child }; + + } + + } + + } else if ( object && object.isNode === true ) { + + yield { property, childNode: object }; + + } else if ( typeof object === 'object' ) { + + for ( const subProperty in object ) { + + const child = object[ subProperty ]; + + if ( child && ( child.isNode === true || toJSON && typeof child.toJSON === 'function' ) ) { + + yield { property, index: subProperty, childNode: child }; + + } + + } + + } + + } + +} + +function getValueType( value ) { + + if ( value === undefined || value === null ) return null; + + const typeOf = typeof value; + + if ( value.isNode === true ) { + + return 'node'; + + } else if ( typeOf === 'number' ) { + + return 'float'; + + } else if ( typeOf === 'boolean' ) { + + return 'bool'; + + } else if ( typeOf === 'string' ) { + + return 'string'; + + } else if ( typeOf === 'function' ) { + + return 'shader'; + + } else if ( value.isVector2 === true ) { + + return 'vec2'; + + } else if ( value.isVector3 === true ) { + + return 'vec3'; + + } else if ( value.isVector4 === true ) { + + return 'vec4'; + + } else if ( value.isMatrix3 === true ) { + + return 'mat3'; + + } else if ( value.isMatrix4 === true ) { + + return 'mat4'; + + } else if ( value.isColor === true ) { + + return 'color'; + + } else if ( value instanceof ArrayBuffer ) { + + return 'ArrayBuffer'; + + } + + return null; + +} + +function getValueFromType( type, ...params ) { + + const last4 = type ? type.slice( - 4 ) : undefined; + + if ( params.length === 1 ) { // ensure same behaviour as in NodeBuilder.format() + + if ( last4 === 'vec2' ) params = [ params[ 0 ], params[ 0 ] ]; + else if ( last4 === 'vec3' ) params = [ params[ 0 ], params[ 0 ], params[ 0 ] ]; + else if ( last4 === 'vec4' ) params = [ params[ 0 ], params[ 0 ], params[ 0 ], params[ 0 ] ]; + + } + + if ( type === 'color' ) { + + return new Color( ...params ); + + } else if ( last4 === 'vec2' ) { + + return new Vector2( ...params ); + + } else if ( last4 === 'vec3' ) { + + return new Vector3( ...params ); + + } else if ( last4 === 'vec4' ) { + + return new Vector4( ...params ); + + } else if ( last4 === 'mat3' ) { + + return new Matrix3( ...params ); + + } else if ( last4 === 'mat4' ) { + + return new Matrix4( ...params ); + + } else if ( type === 'bool' ) { + + return params[ 0 ] || false; + + } else if ( ( type === 'float' ) || ( type === 'int' ) || ( type === 'uint' ) ) { + + return params[ 0 ] || 0; + + } else if ( type === 'string' ) { + + return params[ 0 ] || ''; + + } else if ( type === 'ArrayBuffer' ) { + + return base64ToArrayBuffer( params[ 0 ] ); + + } + + return null; + +} + +function arrayBufferToBase64( arrayBuffer ) { + + let chars = ''; + + const array = new Uint8Array( arrayBuffer ); + + for ( let i = 0; i < array.length; i ++ ) { + + chars += String.fromCharCode( array[ i ] ); + + } + + return btoa( chars ); + +} + +function base64ToArrayBuffer( base64 ) { + + return Uint8Array.from( atob( base64 ), c => c.charCodeAt( 0 ) ).buffer; + +} + +var NodeUtils = /*#__PURE__*/Object.freeze({ + __proto__: null, + arrayBufferToBase64: arrayBufferToBase64, + base64ToArrayBuffer: base64ToArrayBuffer, + getCacheKey: getCacheKey, + getNodeChildren: getNodeChildren, + getValueFromType: getValueFromType, + getValueType: getValueType +}); + +const NodeClasses = new Map(); + +let _nodeId = 0; + +class Node extends EventDispatcher { + + constructor( nodeType = null ) { + + super(); + + this.nodeType = nodeType; + + this.updateType = NodeUpdateType.NONE; + this.updateBeforeType = NodeUpdateType.NONE; + this.updateAfterType = NodeUpdateType.NONE; + + this.uuid = MathUtils.generateUUID(); + + this.version = 0; + + this._cacheKey = null; + this._cacheKeyVersion = 0; + + this.global = false; + + this.isNode = true; + + Object.defineProperty( this, 'id', { value: _nodeId ++ } ); + + } + + set needsUpdate( value ) { + + if ( value === true ) { + + this.version ++; + + } + + } + + get type() { + + return this.constructor.type; + + } + + onUpdate( callback, updateType ) { + + this.updateType = updateType; + this.update = callback.bind( this.getSelf() ); + + return this; + + } + + onFrameUpdate( callback ) { + + return this.onUpdate( callback, NodeUpdateType.FRAME ); + + } + + onRenderUpdate( callback ) { + + return this.onUpdate( callback, NodeUpdateType.RENDER ); + + } + + onObjectUpdate( callback ) { + + return this.onUpdate( callback, NodeUpdateType.OBJECT ); + + } + + onReference( callback ) { + + this.updateReference = callback.bind( this.getSelf() ); + + return this; + + } + + getSelf() { + + // Returns non-node object. + + return this.self || this; + + } + + updateReference( /*state*/ ) { + + return this; + + } + + isGlobal( /*builder*/ ) { + + return this.global; + + } + + * getChildren() { + + for ( const { childNode } of getNodeChildren( this ) ) { + + yield childNode; + + } + + } + + dispose() { + + this.dispatchEvent( { type: 'dispose' } ); + + } + + traverse( callback ) { + + callback( this ); + + for ( const childNode of this.getChildren() ) { + + childNode.traverse( callback ); + + } + + } + + getCacheKey( force = false ) { + + force = force || this.version !== this._cacheKeyVersion; + + if ( force === true || this._cacheKey === null ) { + + this._cacheKey = getCacheKey( this, force ); + this._cacheKeyVersion = this.version; + + } + + return this._cacheKey; + + } + + getHash( /*builder*/ ) { + + return this.uuid; + + } + + getUpdateType() { + + return this.updateType; + + } + + getUpdateBeforeType() { + + return this.updateBeforeType; + + } + + getUpdateAfterType() { + + return this.updateAfterType; + + } + + getElementType( builder ) { + + const type = this.getNodeType( builder ); + const elementType = builder.getElementType( type ); + + return elementType; + + } + + getNodeType( builder ) { + + const nodeProperties = builder.getNodeProperties( this ); + + if ( nodeProperties.outputNode ) { + + return nodeProperties.outputNode.getNodeType( builder ); + + } + + return this.nodeType; + + } + + getShared( builder ) { + + const hash = this.getHash( builder ); + const nodeFromHash = builder.getNodeFromHash( hash ); + + return nodeFromHash || this; + + } + + setup( builder ) { + + const nodeProperties = builder.getNodeProperties( this ); + + let index = 0; + + for ( const childNode of this.getChildren() ) { + + nodeProperties[ 'node' + index ++ ] = childNode; + + } + + // return a outputNode if exists + return null; + + } + + construct( builder ) { // @deprecated, r157 + + console.warn( 'THREE.Node: construct() is deprecated. Use setup() instead.' ); + + return this.setup( builder ); + + } + + increaseUsage( builder ) { + + const nodeData = builder.getDataFromNode( this ); + nodeData.usageCount = nodeData.usageCount === undefined ? 1 : nodeData.usageCount + 1; + + return nodeData.usageCount; + + } + + analyze( builder ) { + + const usageCount = this.increaseUsage( builder ); + + if ( usageCount === 1 ) { + + // node flow children + + const nodeProperties = builder.getNodeProperties( this ); + + for ( const childNode of Object.values( nodeProperties ) ) { + + if ( childNode && childNode.isNode === true ) { + + childNode.build( builder ); + + } + + } + + } + + } + + generate( builder, output ) { + + const { outputNode } = builder.getNodeProperties( this ); + + if ( outputNode && outputNode.isNode === true ) { + + return outputNode.build( builder, output ); + + } + + } + + updateBefore( /*frame*/ ) { + + console.warn( 'Abstract function.' ); + + } + + updateAfter( /*frame*/ ) { + + console.warn( 'Abstract function.' ); + + } + + update( /*frame*/ ) { + + console.warn( 'Abstract function.' ); + + } + + build( builder, output = null ) { + + const refNode = this.getShared( builder ); + + if ( this !== refNode ) { + + return refNode.build( builder, output ); + + } + + builder.addNode( this ); + builder.addChain( this ); + + /* Build stages expected results: + - "setup" -> Node + - "analyze" -> null + - "generate" -> String + */ + let result = null; + + const buildStage = builder.getBuildStage(); + + if ( buildStage === 'setup' ) { + + this.updateReference( builder ); + + const properties = builder.getNodeProperties( this ); + + if ( properties.initialized !== true ) { + + const stackNodesBeforeSetup = builder.stack.nodes.length; + + properties.initialized = true; + properties.outputNode = this.setup( builder ); + + if ( properties.outputNode !== null && builder.stack.nodes.length !== stackNodesBeforeSetup ) { + + properties.outputNode = builder.stack; + + } + + for ( const childNode of Object.values( properties ) ) { + + if ( childNode && childNode.isNode === true ) { + + childNode.build( builder ); + + } + + } + + } + + } else if ( buildStage === 'analyze' ) { + + this.analyze( builder ); + + } else if ( buildStage === 'generate' ) { + + const isGenerateOnce = this.generate.length === 1; + + if ( isGenerateOnce ) { + + const type = this.getNodeType( builder ); + const nodeData = builder.getDataFromNode( this ); + + result = nodeData.snippet; + + if ( result === undefined ) { + + result = this.generate( builder ) || ''; + + nodeData.snippet = result; + + } + + result = builder.format( result, type, output ); + + } else { + + result = this.generate( builder, output ) || ''; + + } + + } + + builder.removeChain( this ); + + return result; + + } + + getSerializeChildren() { + + return getNodeChildren( this ); + + } + + serialize( json ) { + + const nodeChildren = this.getSerializeChildren(); + + const inputNodes = {}; + + for ( const { property, index, childNode } of nodeChildren ) { + + if ( index !== undefined ) { + + if ( inputNodes[ property ] === undefined ) { + + inputNodes[ property ] = Number.isInteger( index ) ? [] : {}; + + } + + inputNodes[ property ][ index ] = childNode.toJSON( json.meta ).uuid; + + } else { + + inputNodes[ property ] = childNode.toJSON( json.meta ).uuid; + + } + + } + + if ( Object.keys( inputNodes ).length > 0 ) { + + json.inputNodes = inputNodes; + + } + + } + + deserialize( json ) { + + if ( json.inputNodes !== undefined ) { + + const nodes = json.meta.nodes; + + for ( const property in json.inputNodes ) { + + if ( Array.isArray( json.inputNodes[ property ] ) ) { + + const inputArray = []; + + for ( const uuid of json.inputNodes[ property ] ) { + + inputArray.push( nodes[ uuid ] ); + + } + + this[ property ] = inputArray; + + } else if ( typeof json.inputNodes[ property ] === 'object' ) { + + const inputObject = {}; + + for ( const subProperty in json.inputNodes[ property ] ) { + + const uuid = json.inputNodes[ property ][ subProperty ]; + + inputObject[ subProperty ] = nodes[ uuid ]; + + } + + this[ property ] = inputObject; + + } else { + + const uuid = json.inputNodes[ property ]; + + this[ property ] = nodes[ uuid ]; + + } + + } + + } + + } + + toJSON( meta ) { + + const { uuid, type } = this; + const isRoot = ( meta === undefined || typeof meta === 'string' ); + + if ( isRoot ) { + + meta = { + textures: {}, + images: {}, + nodes: {} + }; + + } + + // serialize + + let data = meta.nodes[ uuid ]; + + if ( data === undefined ) { + + data = { + uuid, + type, + meta, + metadata: { + version: 4.6, + type: 'Node', + generator: 'Node.toJSON' + } + }; + + if ( isRoot !== true ) meta.nodes[ data.uuid ] = data; + + this.serialize( data ); + + delete data.meta; + + } + + // TODO: Copied from Object3D.toJSON + + function extractFromCache( cache ) { + + const values = []; + + for ( const key in cache ) { + + const data = cache[ key ]; + delete data.metadata; + values.push( data ); + + } + + return values; + + } + + if ( isRoot ) { + + const textures = extractFromCache( meta.textures ); + const images = extractFromCache( meta.images ); + const nodes = extractFromCache( meta.nodes ); + + if ( textures.length > 0 ) data.textures = textures; + if ( images.length > 0 ) data.images = images; + if ( nodes.length > 0 ) data.nodes = nodes; + + } + + return data; + + } + +} + +function addNodeClass( type, nodeClass ) { + + if ( typeof nodeClass !== 'function' || ! type ) throw new Error( `Node class ${ type } is not a class` ); + if ( NodeClasses.has( type ) ) { + + console.warn( `Redefinition of node class ${ type }` ); + return; + + } + + NodeClasses.set( type, nodeClass ); + nodeClass.type = type; + +} + +function createNodeFromType( type ) { + + const Class = NodeClasses.get( type ); + + if ( Class !== undefined ) { + + return new Class(); + + } + +} + +class TempNode extends Node { + + constructor( type ) { + + super( type ); + + this.isTempNode = true; + + } + + hasDependencies( builder ) { + + return builder.getDataFromNode( this ).usageCount > 1; + + } + + build( builder, output ) { + + const buildStage = builder.getBuildStage(); + + if ( buildStage === 'generate' ) { + + const type = builder.getVectorType( this.getNodeType( builder, output ) ); + const nodeData = builder.getDataFromNode( this ); + + if ( nodeData.propertyName !== undefined ) { + + return builder.format( nodeData.propertyName, type, output ); + + } else if ( type !== 'void' && output !== 'void' && this.hasDependencies( builder ) ) { + + const snippet = super.build( builder, type ); + + const nodeVar = builder.getVarFromNode( this, null, type ); + const propertyName = builder.getPropertyName( nodeVar ); + + builder.addLineFlowCode( `${propertyName} = ${snippet}` ); + + nodeData.snippet = snippet; + nodeData.propertyName = propertyName; + + return builder.format( nodeData.propertyName, type, output ); + + } + + } + + return super.build( builder, output ); + + } + +} + +addNodeClass( 'TempNode', TempNode ); + +class ArrayElementNode extends Node { // @TODO: If extending from TempNode it breaks webgpu_compute + + constructor( node, indexNode ) { + + super(); + + this.node = node; + this.indexNode = indexNode; + + this.isArrayElementNode = true; + + } + + getNodeType( builder ) { + + return this.node.getElementType( builder ); + + } + + generate( builder ) { + + const nodeSnippet = this.node.build( builder ); + const indexSnippet = this.indexNode.build( builder, 'uint' ); + + return `${nodeSnippet}[ ${indexSnippet} ]`; + + } + +} + +addNodeClass( 'ArrayElementNode', ArrayElementNode ); + +class ConvertNode extends Node { + + constructor( node, convertTo ) { + + super(); + + this.node = node; + this.convertTo = convertTo; + + } + + getNodeType( builder ) { + + const requestType = this.node.getNodeType( builder ); + + let convertTo = null; + + for ( const overloadingType of this.convertTo.split( '|' ) ) { + + if ( convertTo === null || builder.getTypeLength( requestType ) === builder.getTypeLength( overloadingType ) ) { + + convertTo = overloadingType; + + } + + } + + return convertTo; + + } + + serialize( data ) { + + super.serialize( data ); + + data.convertTo = this.convertTo; + + } + + deserialize( data ) { + + super.deserialize( data ); + + this.convertTo = data.convertTo; + + } + + generate( builder, output ) { + + const node = this.node; + const type = this.getNodeType( builder ); + + const snippet = node.build( builder, type ); + + return builder.format( snippet, type, output ); + + } + +} + +addNodeClass( 'ConvertNode', ConvertNode ); + +class JoinNode extends TempNode { + + constructor( nodes = [], nodeType = null ) { + + super( nodeType ); + + this.nodes = nodes; + + } + + getNodeType( builder ) { + + if ( this.nodeType !== null ) { + + return builder.getVectorType( this.nodeType ); + + } + + return builder.getTypeFromLength( this.nodes.reduce( ( count, cur ) => count + builder.getTypeLength( cur.getNodeType( builder ) ), 0 ) ); + + } + + generate( builder, output ) { + + const type = this.getNodeType( builder ); + const nodes = this.nodes; + + const primitiveType = builder.getComponentType( type ); + + const snippetValues = []; + + for ( const input of nodes ) { + + let inputSnippet = input.build( builder ); + + const inputPrimitiveType = builder.getComponentType( input.getNodeType( builder ) ); + + if ( inputPrimitiveType !== primitiveType ) { + + inputSnippet = builder.format( inputSnippet, inputPrimitiveType, primitiveType ); + + } + + snippetValues.push( inputSnippet ); + + } + + const snippet = `${ builder.getType( type ) }( ${ snippetValues.join( ', ' ) } )`; + + return builder.format( snippet, type, output ); + + } + +} + +addNodeClass( 'JoinNode', JoinNode ); + +const stringVectorComponents = vectorComponents.join( '' ); + +class SplitNode extends Node { + + constructor( node, components = 'x' ) { + + super(); + + this.node = node; + this.components = components; + + this.isSplitNode = true; + + } + + getVectorLength() { + + let vectorLength = this.components.length; + + for ( const c of this.components ) { + + vectorLength = Math.max( vectorComponents.indexOf( c ) + 1, vectorLength ); + + } + + return vectorLength; + + } + + getComponentType( builder ) { + + return builder.getComponentType( this.node.getNodeType( builder ) ); + + } + + getNodeType( builder ) { + + return builder.getTypeFromLength( this.components.length, this.getComponentType( builder ) ); + + } + + generate( builder, output ) { + + const node = this.node; + const nodeTypeLength = builder.getTypeLength( node.getNodeType( builder ) ); + + let snippet = null; + + if ( nodeTypeLength > 1 ) { + + let type = null; + + const componentsLength = this.getVectorLength(); + + if ( componentsLength >= nodeTypeLength ) { + + // needed expand the input node + + type = builder.getTypeFromLength( this.getVectorLength(), this.getComponentType( builder ) ); + + } + + const nodeSnippet = node.build( builder, type ); + + if ( this.components.length === nodeTypeLength && this.components === stringVectorComponents.slice( 0, this.components.length ) ) { + + // unnecessary swizzle + + snippet = builder.format( nodeSnippet, type, output ); + + } else { + + snippet = builder.format( `${nodeSnippet}.${this.components}`, this.getNodeType( builder ), output ); + + } + + } else { + + // ignore .components if .node returns float/integer + + snippet = node.build( builder, output ); + + } + + return snippet; + + } + + serialize( data ) { + + super.serialize( data ); + + data.components = this.components; + + } + + deserialize( data ) { + + super.deserialize( data ); + + this.components = data.components; + + } + +} + +addNodeClass( 'SplitNode', SplitNode ); + +class SetNode extends TempNode { + + constructor( sourceNode, components, targetNode ) { + + super(); + + this.sourceNode = sourceNode; + this.components = components; + this.targetNode = targetNode; + + } + + getNodeType( builder ) { + + return this.sourceNode.getNodeType( builder ); + + } + + generate( builder ) { + + const { sourceNode, components, targetNode } = this; + + const sourceType = this.getNodeType( builder ); + const targetType = builder.getTypeFromLength( components.length ); + + const targetSnippet = targetNode.build( builder, targetType ); + const sourceSnippet = sourceNode.build( builder, sourceType ); + + const length = builder.getTypeLength( sourceType ); + const snippetValues = []; + + for ( let i = 0; i < length; i ++ ) { + + const component = vectorComponents[ i ]; + + if ( component === components[ 0 ] ) { + + snippetValues.push( targetSnippet ); + + i += components.length - 1; + + } else { + + snippetValues.push( sourceSnippet + '.' + component ); + + } + + } + + return `${ builder.getType( sourceType ) }( ${ snippetValues.join( ', ' ) } )`; + + } + +} + +addNodeClass( 'SetNode', SetNode ); + +class InputNode extends Node { + + constructor( value, nodeType = null ) { + + super( nodeType ); + + this.isInputNode = true; + + this.value = value; + this.precision = null; + + } + + getNodeType( /*builder*/ ) { + + if ( this.nodeType === null ) { + + return getValueType( this.value ); + + } + + return this.nodeType; + + } + + getInputType( builder ) { + + return this.getNodeType( builder ); + + } + + setPrecision( precision ) { + + this.precision = precision; + + return this; + + } + + serialize( data ) { + + super.serialize( data ); + + data.value = this.value; + + if ( this.value && this.value.toArray ) data.value = this.value.toArray(); + + data.valueType = getValueType( this.value ); + data.nodeType = this.nodeType; + + if ( data.valueType === 'ArrayBuffer' ) data.value = arrayBufferToBase64( data.value ); + + data.precision = this.precision; + + } + + deserialize( data ) { + + super.deserialize( data ); + + this.nodeType = data.nodeType; + this.value = Array.isArray( data.value ) ? getValueFromType( data.valueType, ...data.value ) : data.value; + + this.precision = data.precision || null; + + if ( this.value && this.value.fromArray ) this.value = this.value.fromArray( data.value ); + + } + + generate( /*builder, output*/ ) { + + console.warn( 'Abstract function.' ); + + } + +} + +addNodeClass( 'InputNode', InputNode ); + +class ConstNode extends InputNode { + + constructor( value, nodeType = null ) { + + super( value, nodeType ); + + this.isConstNode = true; + + } + + generateConst( builder ) { + + return builder.generateConst( this.getNodeType( builder ), this.value ); + + } + + generate( builder, output ) { + + const type = this.getNodeType( builder ); + + return builder.format( this.generateConst( builder ), type, output ); + + } + +} + +addNodeClass( 'ConstNode', ConstNode ); + +// + +let currentStack = null; + +const NodeElements = new Map(); // @TODO: Currently only a few nodes are added, probably also add others + +function addNodeElement( name, nodeElement ) { + + if ( NodeElements.has( name ) ) { + + console.warn( `Redefinition of node element ${ name }` ); + return; + + } + + if ( typeof nodeElement !== 'function' ) throw new Error( `Node element ${ name } is not a function` ); + + NodeElements.set( name, nodeElement ); + +} + +const parseSwizzle = ( props ) => props.replace( /r|s/g, 'x' ).replace( /g|t/g, 'y' ).replace( /b|p/g, 'z' ).replace( /a|q/g, 'w' ); + +const shaderNodeHandler = { + + setup( NodeClosure, params ) { + + const inputs = params.shift(); + + return NodeClosure( nodeObjects( inputs ), ...params ); + + }, + + get( node, prop, nodeObj ) { + + if ( typeof prop === 'string' && node[ prop ] === undefined ) { + + if ( node.isStackNode !== true && prop === 'assign' ) { + + return ( ...params ) => { + + currentStack.assign( nodeObj, ...params ); + + return nodeObj; + + }; + + } else if ( NodeElements.has( prop ) ) { + + const nodeElement = NodeElements.get( prop ); + + return node.isStackNode ? ( ...params ) => nodeObj.add( nodeElement( ...params ) ) : ( ...params ) => nodeElement( nodeObj, ...params ); + + } else if ( prop === 'self' ) { + + return node; + + } else if ( prop.endsWith( 'Assign' ) && NodeElements.has( prop.slice( 0, prop.length - 'Assign'.length ) ) ) { + + const nodeElement = NodeElements.get( prop.slice( 0, prop.length - 'Assign'.length ) ); + + return node.isStackNode ? ( ...params ) => nodeObj.assign( params[ 0 ], nodeElement( ...params ) ) : ( ...params ) => nodeObj.assign( nodeElement( nodeObj, ...params ) ); + + } else if ( /^[xyzwrgbastpq]{1,4}$/.test( prop ) === true ) { + + // accessing properties ( swizzle ) + + prop = parseSwizzle( prop ); + + return nodeObject( new SplitNode( nodeObj, prop ) ); + + } else if ( /^set[XYZWRGBASTPQ]{1,4}$/.test( prop ) === true ) { + + // set properties ( swizzle ) + + prop = parseSwizzle( prop.slice( 3 ).toLowerCase() ); + + // sort to xyzw sequence + + prop = prop.split( '' ).sort().join( '' ); + + return ( value ) => nodeObject( new SetNode( node, prop, value ) ); + + } else if ( prop === 'width' || prop === 'height' || prop === 'depth' ) { + + // accessing property + + if ( prop === 'width' ) prop = 'x'; + else if ( prop === 'height' ) prop = 'y'; + else if ( prop === 'depth' ) prop = 'z'; + + return nodeObject( new SplitNode( node, prop ) ); + + } else if ( /^\d+$/.test( prop ) === true ) { + + // accessing array + + return nodeObject( new ArrayElementNode( nodeObj, new ConstNode( Number( prop ), 'uint' ) ) ); + + } + + } + + return Reflect.get( node, prop, nodeObj ); + + }, + + set( node, prop, value, nodeObj ) { + + if ( typeof prop === 'string' && node[ prop ] === undefined ) { + + // setting properties + + if ( /^[xyzwrgbastpq]{1,4}$/.test( prop ) === true || prop === 'width' || prop === 'height' || prop === 'depth' || /^\d+$/.test( prop ) === true ) { + + nodeObj[ prop ].assign( value ); + + return true; + + } + + } + + return Reflect.set( node, prop, value, nodeObj ); + + } + +}; + +const nodeObjectsCacheMap = new WeakMap(); +const nodeBuilderFunctionsCacheMap = new WeakMap(); + +const ShaderNodeObject = function ( obj, altType = null ) { + + const type = getValueType( obj ); + + if ( type === 'node' ) { + + let nodeObject = nodeObjectsCacheMap.get( obj ); + + if ( nodeObject === undefined ) { + + nodeObject = new Proxy( obj, shaderNodeHandler ); + + nodeObjectsCacheMap.set( obj, nodeObject ); + nodeObjectsCacheMap.set( nodeObject, nodeObject ); + + } + + return nodeObject; + + } else if ( ( altType === null && ( type === 'float' || type === 'boolean' ) ) || ( type && type !== 'shader' && type !== 'string' ) ) { + + return nodeObject( getConstNode( obj, altType ) ); + + } else if ( type === 'shader' ) { + + return tslFn( obj ); + + } + + return obj; + +}; + +const ShaderNodeObjects = function ( objects, altType = null ) { + + for ( const name in objects ) { + + objects[ name ] = nodeObject( objects[ name ], altType ); + + } + + return objects; + +}; + +const ShaderNodeArray = function ( array, altType = null ) { + + const len = array.length; + + for ( let i = 0; i < len; i ++ ) { + + array[ i ] = nodeObject( array[ i ], altType ); + + } + + return array; + +}; + +const ShaderNodeProxy = function ( NodeClass, scope = null, factor = null, settings = null ) { + + const assignNode = ( node ) => nodeObject( settings !== null ? Object.assign( node, settings ) : node ); + + if ( scope === null ) { + + return ( ...params ) => { + + return assignNode( new NodeClass( ...nodeArray( params ) ) ); + + }; + + } else if ( factor !== null ) { + + factor = nodeObject( factor ); + + return ( ...params ) => { + + return assignNode( new NodeClass( scope, ...nodeArray( params ), factor ) ); + + }; + + } else { + + return ( ...params ) => { + + return assignNode( new NodeClass( scope, ...nodeArray( params ) ) ); + + }; + + } + +}; + +const ShaderNodeImmutable = function ( NodeClass, ...params ) { + + return nodeObject( new NodeClass( ...nodeArray( params ) ) ); + +}; + +class ShaderCallNodeInternal extends Node { + + constructor( shaderNode, inputNodes ) { + + super(); + + this.shaderNode = shaderNode; + this.inputNodes = inputNodes; + + } + + getNodeType( builder ) { + + const properties = builder.getNodeProperties( this ); + + if ( properties.outputNode === null ) { + + properties.outputNode = this.setupOutput( builder ); + + } + + return properties.outputNode.getNodeType( builder ); + + } + + call( builder ) { + + const { shaderNode, inputNodes } = this; + + if ( shaderNode.layout ) { + + let functionNodesCacheMap = nodeBuilderFunctionsCacheMap.get( builder.constructor ); + + if ( functionNodesCacheMap === undefined ) { + + functionNodesCacheMap = new WeakMap(); + + nodeBuilderFunctionsCacheMap.set( builder.constructor, functionNodesCacheMap ); + + } + + let functionNode = functionNodesCacheMap.get( shaderNode ); + + if ( functionNode === undefined ) { + + functionNode = nodeObject( builder.buildFunctionNode( shaderNode ) ); + + functionNodesCacheMap.set( shaderNode, functionNode ); + + } + + if ( builder.currentFunctionNode !== null ) { + + builder.currentFunctionNode.includes.push( functionNode ); + + } + + return nodeObject( functionNode.call( inputNodes ) ); + + } + + const jsFunc = shaderNode.jsFunc; + const outputNode = inputNodes !== null ? jsFunc( inputNodes, builder.stack, builder ) : jsFunc( builder.stack, builder ); + + return nodeObject( outputNode ); + + } + + setup( builder ) { + + const { outputNode } = builder.getNodeProperties( this ); + + return outputNode || this.setupOutput( builder ); + + } + + setupOutput( builder ) { + + builder.addStack(); + + builder.stack.outputNode = this.call( builder ); + + return builder.removeStack(); + + } + + generate( builder, output ) { + + const { outputNode } = builder.getNodeProperties( this ); + + if ( outputNode === null ) { + + // TSL: It's recommended to use `tslFn` in setup() pass. + + return this.call( builder ).build( builder, output ); + + } + + return super.generate( builder, output ); + + } + +} + +class ShaderNodeInternal extends Node { + + constructor( jsFunc ) { + + super(); + + this.jsFunc = jsFunc; + this.layout = null; + + this.global = true; + + } + + get isArrayInput() { + + return /^\((\s+)?\[/.test( this.jsFunc.toString() ); + + } + + setLayout( layout ) { + + this.layout = layout; + + return this; + + } + + call( inputs = null ) { + + nodeObjects( inputs ); + + return nodeObject( new ShaderCallNodeInternal( this, inputs ) ); + + } + + setup() { + + return this.call(); + + } + +} + +const bools = [ false, true ]; +const uints = [ 0, 1, 2, 3 ]; +const ints = [ - 1, - 2 ]; +const floats = [ 0.5, 1.5, 1 / 3, 1e-6, 1e6, Math.PI, Math.PI * 2, 1 / Math.PI, 2 / Math.PI, 1 / ( Math.PI * 2 ), Math.PI / 2 ]; + +const boolsCacheMap = new Map(); +for ( const bool of bools ) boolsCacheMap.set( bool, new ConstNode( bool ) ); + +const uintsCacheMap = new Map(); +for ( const uint of uints ) uintsCacheMap.set( uint, new ConstNode( uint, 'uint' ) ); + +const intsCacheMap = new Map( [ ...uintsCacheMap ].map( el => new ConstNode( el.value, 'int' ) ) ); +for ( const int of ints ) intsCacheMap.set( int, new ConstNode( int, 'int' ) ); + +const floatsCacheMap = new Map( [ ...intsCacheMap ].map( el => new ConstNode( el.value ) ) ); +for ( const float of floats ) floatsCacheMap.set( float, new ConstNode( float ) ); +for ( const float of floats ) floatsCacheMap.set( - float, new ConstNode( - float ) ); + +const cacheMaps = { bool: boolsCacheMap, uint: uintsCacheMap, ints: intsCacheMap, float: floatsCacheMap }; + +const constNodesCacheMap = new Map( [ ...boolsCacheMap, ...floatsCacheMap ] ); + +const getConstNode = ( value, type ) => { + + if ( constNodesCacheMap.has( value ) ) { + + return constNodesCacheMap.get( value ); + + } else if ( value.isNode === true ) { + + return value; + + } else { + + return new ConstNode( value, type ); + + } + +}; + +const safeGetNodeType = ( node ) => { + + try { + + return node.getNodeType(); + + } catch ( _ ) { + + return undefined; + + } + +}; + +const ConvertType = function ( type, cacheMap = null ) { + + return ( ...params ) => { + + if ( params.length === 0 || ( ! [ 'bool', 'float', 'int', 'uint' ].includes( type ) && params.every( param => typeof param !== 'object' ) ) ) { + + params = [ getValueFromType( type, ...params ) ]; + + } + + if ( params.length === 1 && cacheMap !== null && cacheMap.has( params[ 0 ] ) ) { + + return nodeObject( cacheMap.get( params[ 0 ] ) ); + + } + + if ( params.length === 1 ) { + + const node = getConstNode( params[ 0 ], type ); + if ( safeGetNodeType( node ) === type ) return nodeObject( node ); + return nodeObject( new ConvertNode( node, type ) ); + + } + + const nodes = params.map( param => getConstNode( param ) ); + return nodeObject( new JoinNode( nodes, type ) ); + + }; + +}; + +// exports + +const defined = ( value ) => value && value.value; + +// utils + +const getConstNodeType = ( value ) => ( value !== undefined && value !== null ) ? ( value.nodeType || value.convertTo || ( typeof value === 'string' ? value : null ) ) : null; + +// shader node base + +function ShaderNode( jsFunc ) { + + return new Proxy( new ShaderNodeInternal( jsFunc ), shaderNodeHandler ); + +} + +const nodeObject = ( val, altType = null ) => /* new */ ShaderNodeObject( val, altType ); +const nodeObjects = ( val, altType = null ) => new ShaderNodeObjects( val, altType ); +const nodeArray = ( val, altType = null ) => new ShaderNodeArray( val, altType ); +const nodeProxy = ( ...params ) => new ShaderNodeProxy( ...params ); +const nodeImmutable = ( ...params ) => new ShaderNodeImmutable( ...params ); + +const tslFn = ( jsFunc ) => { + + const shaderNode = new ShaderNode( jsFunc ); + + const fn = ( ...params ) => { + + let inputs; + + nodeObjects( params ); + + if ( params[ 0 ] && params[ 0 ].isNode ) { + + inputs = [ ...params ]; + + } else { + + inputs = params[ 0 ]; + + } + + return shaderNode.call( inputs ); + + }; + + fn.shaderNode = shaderNode; + fn.setLayout = ( layout ) => { + + shaderNode.setLayout( layout ); + + return fn; + + }; + + return fn; + +}; + +addNodeClass( 'ShaderNode', ShaderNode ); + +// + +addNodeElement( 'toGlobal', ( node ) => { + + node.global = true; + + return node; + +} ); + +// + +const setCurrentStack = ( stack ) => { + + currentStack = stack; + +}; + +const getCurrentStack = () => currentStack; + +const If = ( ...params ) => currentStack.if( ...params ); + +function append( node ) { + + if ( currentStack ) currentStack.add( node ); + + return node; + +} + +addNodeElement( 'append', append ); + +// types +// @TODO: Maybe export from ConstNode.js? + +const color = new ConvertType( 'color' ); + +const float = new ConvertType( 'float', cacheMaps.float ); +const int = new ConvertType( 'int', cacheMaps.ints ); +const uint = new ConvertType( 'uint', cacheMaps.uint ); +const bool = new ConvertType( 'bool', cacheMaps.bool ); + +const vec2 = new ConvertType( 'vec2' ); +const ivec2 = new ConvertType( 'ivec2' ); +const uvec2 = new ConvertType( 'uvec2' ); +const bvec2 = new ConvertType( 'bvec2' ); + +const vec3 = new ConvertType( 'vec3' ); +const ivec3 = new ConvertType( 'ivec3' ); +const uvec3 = new ConvertType( 'uvec3' ); +const bvec3 = new ConvertType( 'bvec3' ); + +const vec4 = new ConvertType( 'vec4' ); +const ivec4 = new ConvertType( 'ivec4' ); +const uvec4 = new ConvertType( 'uvec4' ); +const bvec4 = new ConvertType( 'bvec4' ); + +const mat2 = new ConvertType( 'mat2' ); +const imat2 = new ConvertType( 'imat2' ); +const umat2 = new ConvertType( 'umat2' ); +const bmat2 = new ConvertType( 'bmat2' ); + +const mat3 = new ConvertType( 'mat3' ); +const imat3 = new ConvertType( 'imat3' ); +const umat3 = new ConvertType( 'umat3' ); +const bmat3 = new ConvertType( 'bmat3' ); + +const mat4 = new ConvertType( 'mat4' ); +const imat4 = new ConvertType( 'imat4' ); +const umat4 = new ConvertType( 'umat4' ); +const bmat4 = new ConvertType( 'bmat4' ); + +const string = ( value = '' ) => nodeObject( new ConstNode( value, 'string' ) ); +const arrayBuffer = ( value ) => nodeObject( new ConstNode( value, 'ArrayBuffer' ) ); + +addNodeElement( 'toColor', color ); +addNodeElement( 'toFloat', float ); +addNodeElement( 'toInt', int ); +addNodeElement( 'toUint', uint ); +addNodeElement( 'toBool', bool ); +addNodeElement( 'toVec2', vec2 ); +addNodeElement( 'toIvec2', ivec2 ); +addNodeElement( 'toUvec2', uvec2 ); +addNodeElement( 'toBvec2', bvec2 ); +addNodeElement( 'toVec3', vec3 ); +addNodeElement( 'toIvec3', ivec3 ); +addNodeElement( 'toUvec3', uvec3 ); +addNodeElement( 'toBvec3', bvec3 ); +addNodeElement( 'toVec4', vec4 ); +addNodeElement( 'toIvec4', ivec4 ); +addNodeElement( 'toUvec4', uvec4 ); +addNodeElement( 'toBvec4', bvec4 ); +addNodeElement( 'toMat2', mat2 ); +addNodeElement( 'toImat2', imat2 ); +addNodeElement( 'toUmat2', umat2 ); +addNodeElement( 'toBmat2', bmat2 ); +addNodeElement( 'toMat3', mat3 ); +addNodeElement( 'toImat3', imat3 ); +addNodeElement( 'toUmat3', umat3 ); +addNodeElement( 'toBmat3', bmat3 ); +addNodeElement( 'toMat4', mat4 ); +addNodeElement( 'toImat4', imat4 ); +addNodeElement( 'toUmat4', umat4 ); +addNodeElement( 'toBmat4', bmat4 ); + +// basic nodes +// HACK - we cannot export them from the corresponding files because of the cyclic dependency +const element = nodeProxy( ArrayElementNode ); +const convert = ( node, types ) => nodeObject( new ConvertNode( nodeObject( node ), types ) ); +const split = ( node, channels ) => nodeObject( new SplitNode( nodeObject( node ), channels ) ); + +addNodeElement( 'element', element ); +addNodeElement( 'convert', convert ); + +class AssignNode extends TempNode { + + constructor( targetNode, sourceNode ) { + + super(); + + this.targetNode = targetNode; + this.sourceNode = sourceNode; + + } + + hasDependencies() { + + return false; + + } + + getNodeType( builder, output ) { + + return output !== 'void' ? this.targetNode.getNodeType( builder ) : 'void'; + + } + + needsSplitAssign( builder ) { + + const { targetNode } = this; + + if ( builder.isAvailable( 'swizzleAssign' ) === false && targetNode.isSplitNode && targetNode.components.length > 1 ) { + + const targetLength = builder.getTypeLength( targetNode.node.getNodeType( builder ) ); + const assignDiferentVector = vectorComponents.join( '' ).slice( 0, targetLength ) !== targetNode.components; + + return assignDiferentVector; + + } + + return false; + + } + + generate( builder, output ) { + + const { targetNode, sourceNode } = this; + + const needsSplitAssign = this.needsSplitAssign( builder ); + + const targetType = targetNode.getNodeType( builder ); + + const target = targetNode.context( { assign: true } ).build( builder ); + const source = sourceNode.build( builder, targetType ); + + const sourceType = sourceNode.getNodeType( builder ); + + const nodeData = builder.getDataFromNode( this ); + + // + + let snippet; + + if ( nodeData.initialized === true ) { + + if ( output !== 'void' ) { + + snippet = target; + + } + + } else if ( needsSplitAssign ) { + + const sourceVar = builder.getVarFromNode( this, null, targetType ); + const sourceProperty = builder.getPropertyName( sourceVar ); + + builder.addLineFlowCode( `${ sourceProperty } = ${ source }` ); + + const targetRoot = targetNode.node.context( { assign: true } ).build( builder ); + + for ( let i = 0; i < targetNode.components.length; i ++ ) { + + const component = targetNode.components[ i ]; + + builder.addLineFlowCode( `${ targetRoot }.${ component } = ${ sourceProperty }[ ${ i } ]` ); + + } + + if ( output !== 'void' ) { + + snippet = target; + + } + + } else { + + snippet = `${ target } = ${ source }`; + + if ( output === 'void' || sourceType === 'void' ) { + + builder.addLineFlowCode( snippet ); + + if ( output !== 'void' ) { + + snippet = target; + + } + + } + + } + + nodeData.initialized = true; + + return builder.format( snippet, targetType, output ); + + } + +} + +const assign = nodeProxy( AssignNode ); + +addNodeClass( 'AssignNode', AssignNode ); + +addNodeElement( 'assign', assign ); + +class VaryingNode extends Node { + + constructor( node, name = null ) { + + super(); + + this.node = node; + this.name = name; + + this.isVaryingNode = true; + + } + + isGlobal() { + + return true; + + } + + getHash( builder ) { + + return this.name || super.getHash( builder ); + + } + + getNodeType( builder ) { + + // VaryingNode is auto type + + return this.node.getNodeType( builder ); + + } + + setupVarying( builder ) { + + const properties = builder.getNodeProperties( this ); + + let varying = properties.varying; + + if ( varying === undefined ) { + + const name = this.name; + const type = this.getNodeType( builder ); + + properties.varying = varying = builder.getVaryingFromNode( this, name, type ); + properties.node = this.node; + + } + + // this property can be used to check if the varying can be optimized for a variable + varying.needsInterpolation || ( varying.needsInterpolation = ( builder.shaderStage === 'fragment' ) ); + + return varying; + + } + + setup( builder ) { + + this.setupVarying( builder ); + + } + + analyze( builder ) { + + this.setupVarying( builder ); + + return this.node.analyze( builder ); + + } + + generate( builder ) { + + const properties = builder.getNodeProperties( this ); + const varying = this.setupVarying( builder ); + + if ( properties.propertyName === undefined ) { + + const type = this.getNodeType( builder ); + const propertyName = builder.getPropertyName( varying, NodeShaderStage.VERTEX ); + + // force node run in vertex stage + builder.flowNodeFromShaderStage( NodeShaderStage.VERTEX, this.node, type, propertyName ); + + properties.propertyName = propertyName; + + } + + return builder.getPropertyName( varying ); + + } + +} + +const varying = nodeProxy( VaryingNode ); + +addNodeElement( 'varying', varying ); + +addNodeClass( 'VaryingNode', VaryingNode ); + +class AttributeNode extends Node { + + constructor( attributeName, nodeType = null, defaultNode = null ) { + + super( nodeType ); + + this.defaultNode = defaultNode; + + this.global = true; + + this._attributeName = attributeName; + + } + + getHash( builder ) { + + return this.getAttributeName( builder ); + + } + + getNodeType( builder ) { + + let nodeType = super.getNodeType( builder ); + + if ( nodeType === null ) { + + const attributeName = this.getAttributeName( builder ); + + if ( builder.hasGeometryAttribute( attributeName ) ) { + + const attribute = builder.geometry.getAttribute( attributeName ); + + nodeType = builder.getTypeFromAttribute( attribute ); + + } else { + + nodeType = 'float'; + + } + + } + + return nodeType; + + } + + setAttributeName( attributeName ) { + + this._attributeName = attributeName; + + return this; + + } + + getAttributeName( /*builder*/ ) { + + return this._attributeName; + + } + + generate( builder ) { + + const attributeName = this.getAttributeName( builder ); + const nodeType = this.getNodeType( builder ); + const geometryAttribute = builder.hasGeometryAttribute( attributeName ); + + if ( geometryAttribute === true ) { + + const attribute = builder.geometry.getAttribute( attributeName ); + const attributeType = builder.getTypeFromAttribute( attribute ); + + const nodeAttribute = builder.getAttribute( attributeName, attributeType ); + + if ( builder.shaderStage === 'vertex' ) { + + return builder.format( nodeAttribute.name, attributeType, nodeType ); + + } else { + + const nodeVarying = varying( this ); + + return nodeVarying.build( builder, nodeType ); + + } + + } else { + + console.warn( `AttributeNode: Vertex attribute "${ attributeName }" not found on geometry.` ); + + const { defaultNode } = this; + + if ( defaultNode !== null ) { + + return defaultNode.build( builder, nodeType ); + + } else { + + return builder.generateConst( nodeType ); + + } + + } + + } + +} + +const attribute = ( name, nodeType, defaultNode ) => nodeObject( new AttributeNode( name, nodeType, nodeObject( defaultNode ) ) ); + +addNodeClass( 'AttributeNode', AttributeNode ); + +class BypassNode extends Node { + + constructor( returnNode, callNode ) { + + super(); + + this.isBypassNode = true; + + this.outputNode = returnNode; + this.callNode = callNode; + + } + + getNodeType( builder ) { + + return this.outputNode.getNodeType( builder ); + + } + + generate( builder ) { + + const snippet = this.callNode.build( builder, 'void' ); + + if ( snippet !== '' ) { + + builder.addLineFlowCode( snippet ); + + } + + return this.outputNode.build( builder ); + + } + +} + +const bypass = nodeProxy( BypassNode ); + +addNodeElement( 'bypass', bypass ); + +addNodeClass( 'BypassNode', BypassNode ); + +class CacheNode extends Node { + + constructor( node, parent = true ) { + + super(); + + this.node = node; + this.parent = parent; + + this.isCacheNode = true; + + } + + getNodeType( builder ) { + + return this.node.getNodeType( builder ); + + } + + build( builder, ...params ) { + + const previousCache = builder.getCache(); + const cache = builder.getCacheFromNode( this, parent ); + + builder.setCache( cache ); + + const data = this.node.build( builder, ...params ); + + builder.setCache( previousCache ); + + return data; + + } + +} + +const cache = ( node, ...params ) => nodeObject( new CacheNode( nodeObject( node ), ...params ) ); + +addNodeElement( 'cache', cache ); + +addNodeClass( 'CacheNode', CacheNode ); + +class ContextNode extends Node { + + constructor( node, context = {} ) { + + super(); + + this.isContextNode = true; + + this.node = node; + this.context = context; + + } + + getNodeType( builder ) { + + return this.node.getNodeType( builder ); + + } + + analyze( builder ) { + + this.node.build( builder ); + + } + + setup( builder ) { + + const previousContext = builder.getContext(); + + builder.setContext( { ...builder.context, ...this.context } ); + + const node = this.node.build( builder ); + + builder.setContext( previousContext ); + + return node; + + } + + generate( builder, output ) { + + const previousContext = builder.getContext(); + + builder.setContext( { ...builder.context, ...this.context } ); + + const snippet = this.node.build( builder, output ); + + builder.setContext( previousContext ); + + return snippet; + + } + +} + +const context = nodeProxy( ContextNode ); +const label = ( node, name ) => context( node, { label: name } ); + +addNodeElement( 'context', context ); +addNodeElement( 'label', label ); + +addNodeClass( 'ContextNode', ContextNode ); + +class IndexNode extends Node { + + constructor( scope ) { + + super( 'uint' ); + + this.scope = scope; + + this.isInstanceIndexNode = true; + + } + + generate( builder ) { + + const nodeType = this.getNodeType( builder ); + const scope = this.scope; + + let propertyName; + + if ( scope === IndexNode.VERTEX ) { + + propertyName = builder.getVertexIndex(); + + } else if ( scope === IndexNode.INSTANCE ) { + + propertyName = builder.getInstanceIndex(); + + } else if ( scope === IndexNode.DRAW ) { + + propertyName = builder.getDrawIndex(); + + } else { + + throw new Error( 'THREE.IndexNode: Unknown scope: ' + scope ); + + } + + let output; + + if ( builder.shaderStage === 'vertex' || builder.shaderStage === 'compute' ) { + + output = propertyName; + + } else { + + const nodeVarying = varying( this ); + + output = nodeVarying.build( builder, nodeType ); + + } + + return output; + + } + +} + +IndexNode.VERTEX = 'vertex'; +IndexNode.INSTANCE = 'instance'; +IndexNode.DRAW = 'draw'; + +const vertexIndex = nodeImmutable( IndexNode, IndexNode.VERTEX ); +const instanceIndex = nodeImmutable( IndexNode, IndexNode.INSTANCE ); +const drawIndex = nodeImmutable( IndexNode, IndexNode.DRAW ); + +addNodeClass( 'IndexNode', IndexNode ); + +class LightingModel { + + start( /*input, stack, builder*/ ) { } + + finish( /*input, stack, builder*/ ) { } + + direct( /*input, stack, builder*/ ) { } + + directRectArea( /*input, stack, builder*/ ) {} + + indirectDiffuse( /*input, stack, builder*/ ) { } + + indirectSpecular( /*input, stack, builder*/ ) { } + + ambientOcclusion( /*input, stack, builder*/ ) { } + +} + +class VarNode extends Node { + + constructor( node, name = null ) { + + super(); + + this.node = node; + this.name = name; + + this.global = true; + + this.isVarNode = true; + + } + + getHash( builder ) { + + return this.name || super.getHash( builder ); + + } + + getNodeType( builder ) { + + return this.node.getNodeType( builder ); + + } + + generate( builder ) { + + const { node, name } = this; + + const nodeVar = builder.getVarFromNode( this, name, builder.getVectorType( this.getNodeType( builder ) ) ); + + const propertyName = builder.getPropertyName( nodeVar ); + + const snippet = node.build( builder, nodeVar.type ); + + builder.addLineFlowCode( `${propertyName} = ${snippet}` ); + + return propertyName; + + } + +} + +const temp = nodeProxy( VarNode ); + +addNodeElement( 'temp', temp ); // @TODO: Will be removed in the future +addNodeElement( 'toVar', ( ...params ) => temp( ...params ).append() ); + +addNodeClass( 'VarNode', VarNode ); + +class NodeAttribute { + + constructor( name, type, node = null ) { + + this.isNodeAttribute = true; + + this.name = name; + this.type = type; + this.node = node; + + } + +} + +class NodeUniform { + + constructor( name, type, node ) { + + this.isNodeUniform = true; + + this.name = name; + this.type = type; + this.node = node.getSelf(); + + } + + get value() { + + return this.node.value; + + } + + set value( val ) { + + this.node.value = val; + + } + + get id() { + + return this.node.id; + + } + + get groupNode() { + + return this.node.groupNode; + + } + +} + +class NodeVar { + + constructor( name, type ) { + + this.isNodeVar = true; + + this.name = name; + this.type = type; + + } + +} + +class NodeVarying extends NodeVar { + + constructor( name, type ) { + + super( name, type ); + + this.needsInterpolation = false; + + this.isNodeVarying = true; + + } + +} + +class NodeCode { + + constructor( name, type, code = '' ) { + + this.name = name; + this.type = type; + this.code = code; + + Object.defineProperty( this, 'isNodeCode', { value: true } ); + + } + +} + +class NodeKeywords { + + constructor() { + + this.keywords = []; + this.nodes = {}; + this.keywordsCallback = {}; + + } + + getNode( name ) { + + let node = this.nodes[ name ]; + + if ( node === undefined && this.keywordsCallback[ name ] !== undefined ) { + + node = this.keywordsCallback[ name ]( name ); + + this.nodes[ name ] = node; + + } + + return node; + + } + + addKeyword( name, callback ) { + + this.keywords.push( name ); + this.keywordsCallback[ name ] = callback; + + return this; + + } + + parse( code ) { + + const keywordNames = this.keywords; + + const regExp = new RegExp( `\\b${keywordNames.join( '\\b|\\b' )}\\b`, 'g' ); + + const codeKeywords = code.match( regExp ); + + const keywordNodes = []; + + if ( codeKeywords !== null ) { + + for ( const keyword of codeKeywords ) { + + const node = this.getNode( keyword ); + + if ( node !== undefined && keywordNodes.indexOf( node ) === - 1 ) { + + keywordNodes.push( node ); + + } + + } + + } + + return keywordNodes; + + } + + include( builder, code ) { + + const keywordNodes = this.parse( code ); + + for ( const keywordNode of keywordNodes ) { + + keywordNode.build( builder ); + + } + + } + +} + +let id$3 = 0; + +class NodeCache { + + constructor( parent = null ) { + + this.id = id$3 ++; + this.nodesData = new WeakMap(); + + this.parent = parent; + + } + + getData( node ) { + + let data = this.nodesData.get( node ); + + if ( data === undefined && this.parent !== null ) { + + data = this.parent.getData( node ); + + } + + return data; + + } + + setData( node, data ) { + + this.nodesData.set( node, data ); + + } + +} + +class PropertyNode extends Node { + + constructor( nodeType, name = null, varying = false ) { + + super( nodeType ); + + this.name = name; + this.varying = varying; + + this.isPropertyNode = true; + + } + + getHash( builder ) { + + return this.name || super.getHash( builder ); + + } + + isGlobal( /*builder*/ ) { + + return true; + + } + + generate( builder ) { + + let nodeVar; + + if ( this.varying === true ) { + + nodeVar = builder.getVaryingFromNode( this, this.name ); + nodeVar.needsInterpolation = true; + + } else { + + nodeVar = builder.getVarFromNode( this, this.name ); + + } + + return builder.getPropertyName( nodeVar ); + + } + +} + +const property = ( type, name ) => nodeObject( new PropertyNode( type, name ) ); +const varyingProperty = ( type, name ) => nodeObject( new PropertyNode( type, name, true ) ); + +const diffuseColor = nodeImmutable( PropertyNode, 'vec4', 'DiffuseColor' ); +const roughness = nodeImmutable( PropertyNode, 'float', 'Roughness' ); +const metalness = nodeImmutable( PropertyNode, 'float', 'Metalness' ); +const clearcoat = nodeImmutable( PropertyNode, 'float', 'Clearcoat' ); +const clearcoatRoughness = nodeImmutable( PropertyNode, 'float', 'ClearcoatRoughness' ); +const sheen = nodeImmutable( PropertyNode, 'vec3', 'Sheen' ); +const sheenRoughness = nodeImmutable( PropertyNode, 'float', 'SheenRoughness' ); +const iridescence = nodeImmutable( PropertyNode, 'float', 'Iridescence' ); +const iridescenceIOR = nodeImmutable( PropertyNode, 'float', 'IridescenceIOR' ); +const iridescenceThickness = nodeImmutable( PropertyNode, 'float', 'IridescenceThickness' ); +const alphaT = nodeImmutable( PropertyNode, 'float', 'AlphaT' ); +const anisotropy = nodeImmutable( PropertyNode, 'float', 'Anisotropy' ); +const anisotropyT = nodeImmutable( PropertyNode, 'vec3', 'AnisotropyT' ); +const anisotropyB = nodeImmutable( PropertyNode, 'vec3', 'AnisotropyB' ); +const specularColor = nodeImmutable( PropertyNode, 'color', 'SpecularColor' ); +const specularF90 = nodeImmutable( PropertyNode, 'float', 'SpecularF90' ); +const shininess = nodeImmutable( PropertyNode, 'float', 'Shininess' ); +const output = nodeImmutable( PropertyNode, 'vec4', 'Output' ); +const dashSize = nodeImmutable( PropertyNode, 'float', 'dashSize' ); +const gapSize = nodeImmutable( PropertyNode, 'float', 'gapSize' ); +const pointWidth = nodeImmutable( PropertyNode, 'float', 'pointWidth' ); +const ior = nodeImmutable( PropertyNode, 'float', 'IOR' ); +const transmission = nodeImmutable( PropertyNode, 'float', 'Transmission' ); +const thickness = nodeImmutable( PropertyNode, 'float', 'Thickness' ); +const attenuationDistance = nodeImmutable( PropertyNode, 'float', 'AttenuationDistance' ); +const attenuationColor = nodeImmutable( PropertyNode, 'color', 'AttenuationColor' ); +const dispersion = nodeImmutable( PropertyNode, 'float', 'Dispersion' ); + +addNodeClass( 'PropertyNode', PropertyNode ); + +class ParameterNode extends PropertyNode { + + constructor( nodeType, name = null ) { + + super( nodeType, name ); + + this.isParameterNode = true; + + } + + getHash() { + + return this.uuid; + + } + + generate() { + + return this.name; + + } + +} + +const parameter = ( type, name ) => nodeObject( new ParameterNode( type, name ) ); + +addNodeClass( 'ParameterNode', ParameterNode ); + +class CodeNode extends Node { + + constructor( code = '', includes = [], language = '' ) { + + super( 'code' ); + + this.isCodeNode = true; + + this.code = code; + this.language = language; + + this.includes = includes; + + } + + isGlobal() { + + return true; + + } + + setIncludes( includes ) { + + this.includes = includes; + + return this; + + } + + getIncludes( /*builder*/ ) { + + return this.includes; + + } + + generate( builder ) { + + const includes = this.getIncludes( builder ); + + for ( const include of includes ) { + + include.build( builder ); + + } + + const nodeCode = builder.getCodeFromNode( this, this.getNodeType( builder ) ); + nodeCode.code = this.code; + + return nodeCode.code; + + } + + serialize( data ) { + + super.serialize( data ); + + data.code = this.code; + data.language = this.language; + + } + + deserialize( data ) { + + super.deserialize( data ); + + this.code = data.code; + this.language = data.language; + + } + +} + +const code = nodeProxy( CodeNode ); + +const js = ( src, includes ) => code( src, includes, 'js' ); +const wgsl = ( src, includes ) => code( src, includes, 'wgsl' ); +const glsl = ( src, includes ) => code( src, includes, 'glsl' ); + +addNodeClass( 'CodeNode', CodeNode ); + +class FunctionNode extends CodeNode { + + constructor( code = '', includes = [], language = '' ) { + + super( code, includes, language ); + + this.keywords = {}; + + } + + getNodeType( builder ) { + + return this.getNodeFunction( builder ).type; + + } + + getInputs( builder ) { + + return this.getNodeFunction( builder ).inputs; + + } + + getNodeFunction( builder ) { + + const nodeData = builder.getDataFromNode( this ); + + let nodeFunction = nodeData.nodeFunction; + + if ( nodeFunction === undefined ) { + + nodeFunction = builder.parser.parseFunction( this.code ); + + nodeData.nodeFunction = nodeFunction; + + } + + return nodeFunction; + + } + + generate( builder, output ) { + + super.generate( builder ); + + const nodeFunction = this.getNodeFunction( builder ); + + const name = nodeFunction.name; + const type = nodeFunction.type; + + const nodeCode = builder.getCodeFromNode( this, type ); + + if ( name !== '' ) { + + // use a custom property name + + nodeCode.name = name; + + } + + const propertyName = builder.getPropertyName( nodeCode ); + + let code = this.getNodeFunction( builder ).getCode( propertyName ); + + const keywords = this.keywords; + const keywordsProperties = Object.keys( keywords ); + + if ( keywordsProperties.length > 0 ) { + + for ( const property of keywordsProperties ) { + + const propertyRegExp = new RegExp( `\\b${property}\\b`, 'g' ); + const nodeProperty = keywords[ property ].build( builder, 'property' ); + + code = code.replace( propertyRegExp, nodeProperty ); + + } + + } + + nodeCode.code = code + '\n'; + + if ( output === 'property' ) { + + return propertyName; + + } else { + + return builder.format( `${ propertyName }()`, type, output ); + + } + + } + +} + +const nativeFn = ( code, includes = [], language = '' ) => { + + for ( let i = 0; i < includes.length; i ++ ) { + + const include = includes[ i ]; + + // TSL Function: glslFn, wgslFn + + if ( typeof include === 'function' ) { + + includes[ i ] = include.functionNode; + + } + + } + + const functionNode = nodeObject( new FunctionNode( code, includes, language ) ); + + const fn = ( ...params ) => functionNode.call( ...params ); + fn.functionNode = functionNode; + + return fn; + +}; + +const glslFn = ( code, includes ) => nativeFn( code, includes, 'glsl' ); +const wgslFn = ( code, includes ) => nativeFn( code, includes, 'wgsl' ); + +addNodeClass( 'FunctionNode', FunctionNode ); + +class UniformGroupNode extends Node { + + constructor( name, shared = false ) { + + super( 'string' ); + + this.name = name; + this.version = 0; + + this.shared = shared; + + this.isUniformGroup = true; + + } + + set needsUpdate( value ) { + + if ( value === true ) this.version ++; + + } + +} + +const uniformGroup = ( name ) => new UniformGroupNode( name ); +const sharedUniformGroup = ( name ) => new UniformGroupNode( name, true ); + +const frameGroup = sharedUniformGroup( 'frame' ); +const renderGroup = sharedUniformGroup( 'render' ); +const objectGroup = uniformGroup( 'object' ); + +addNodeClass( 'UniformGroupNode', UniformGroupNode ); + +class UniformNode extends InputNode { + + constructor( value, nodeType = null ) { + + super( value, nodeType ); + + this.isUniformNode = true; + + this.name = ''; + this.groupNode = objectGroup; + + } + + label( name ) { + + this.name = name; + + return this; + + } + + setGroup( group ) { + + this.groupNode = group; + + return this; + + } + + getGroup() { + + return this.groupNode; + + } + + getUniformHash( builder ) { + + return this.getHash( builder ); + + } + + onUpdate( callback, updateType ) { + + const self = this.getSelf(); + + callback = callback.bind( self ); + + return super.onUpdate( ( frame ) => { + + const value = callback( frame, self ); + + if ( value !== undefined ) { + + this.value = value; + + } + + }, updateType ); + + } + + generate( builder, output ) { + + const type = this.getNodeType( builder ); + + const hash = this.getUniformHash( builder ); + + let sharedNode = builder.getNodeFromHash( hash ); + + if ( sharedNode === undefined ) { + + builder.setHashNode( this, hash ); + + sharedNode = this; + + } + + const sharedNodeType = sharedNode.getInputType( builder ); + + const nodeUniform = builder.getUniformFromNode( sharedNode, sharedNodeType, builder.shaderStage, this.name || builder.context.label ); + const propertyName = builder.getPropertyName( nodeUniform ); + + if ( builder.context.label !== undefined ) delete builder.context.label; + + return builder.format( propertyName, type, output ); + + } + +} + +const uniform = ( arg1, arg2 ) => { + + const nodeType = getConstNodeType( arg2 || arg1 ); + + // @TODO: get ConstNode from .traverse() in the future + const value = ( arg1 && arg1.isNode === true ) ? ( arg1.node && arg1.node.value ) || arg1.value : arg1; + + return nodeObject( new UniformNode( value, nodeType ) ); + +}; + +addNodeClass( 'UniformNode', UniformNode ); + +const uv = ( index ) => attribute( 'uv' + ( index > 0 ? index : '' ), 'vec2' ); + +class TextureSizeNode extends Node { + + constructor( textureNode, levelNode = null ) { + + super( 'uvec2' ); + + this.isTextureSizeNode = true; + + this.textureNode = textureNode; + this.levelNode = levelNode; + + } + + generate( builder, output ) { + + const textureProperty = this.textureNode.build( builder, 'property' ); + const levelNode = this.levelNode.build( builder, 'int' ); + + return builder.format( `${ builder.getMethod( 'textureDimensions' ) }( ${ textureProperty }, ${ levelNode } )`, this.getNodeType( builder ), output ); + + } + +} + +const textureSize = nodeProxy( TextureSizeNode ); + +addNodeElement( 'textureSize', textureSize ); + +addNodeClass( 'TextureSizeNode', TextureSizeNode ); + +class OperatorNode extends TempNode { + + constructor( op, aNode, bNode, ...params ) { + + super(); + + if ( params.length > 0 ) { + + let finalOp = new OperatorNode( op, aNode, bNode ); + + for ( let i = 0; i < params.length - 1; i ++ ) { + + finalOp = new OperatorNode( op, finalOp, params[ i ] ); + + } + + aNode = finalOp; + bNode = params[ params.length - 1 ]; + + } + + this.op = op; + this.aNode = aNode; + this.bNode = bNode; + + } + + getNodeType( builder, output ) { + + const op = this.op; + + const aNode = this.aNode; + const bNode = this.bNode; + + const typeA = aNode.getNodeType( builder ); + const typeB = typeof bNode !== 'undefined' ? bNode.getNodeType( builder ) : null; + + if ( typeA === 'void' || typeB === 'void' ) { + + return 'void'; + + } else if ( op === '%' ) { + + return typeA; + + } else if ( op === '~' || op === '&' || op === '|' || op === '^' || op === '>>' || op === '<<' ) { + + return builder.getIntegerType( typeA ); + + } else if ( op === '!' || op === '==' || op === '&&' || op === '||' || op === '^^' ) { + + return 'bool'; + + } else if ( op === '<' || op === '>' || op === '<=' || op === '>=' ) { + + const typeLength = output ? builder.getTypeLength( output ) : Math.max( builder.getTypeLength( typeA ), builder.getTypeLength( typeB ) ); + + return typeLength > 1 ? `bvec${ typeLength }` : 'bool'; + + } else { + + if ( typeA === 'float' && builder.isMatrix( typeB ) ) { + + return typeB; + + } else if ( builder.isMatrix( typeA ) && builder.isVector( typeB ) ) { + + // matrix x vector + + return builder.getVectorFromMatrix( typeA ); + + } else if ( builder.isVector( typeA ) && builder.isMatrix( typeB ) ) { + + // vector x matrix + + return builder.getVectorFromMatrix( typeB ); + + } else if ( builder.getTypeLength( typeB ) > builder.getTypeLength( typeA ) ) { + + // anytype x anytype: use the greater length vector + + return typeB; + + } + + return typeA; + + } + + } + + generate( builder, output ) { + + const op = this.op; + + const aNode = this.aNode; + const bNode = this.bNode; + + const type = this.getNodeType( builder, output ); + + let typeA = null; + let typeB = null; + + if ( type !== 'void' ) { + + typeA = aNode.getNodeType( builder ); + typeB = typeof bNode !== 'undefined' ? bNode.getNodeType( builder ) : null; + + if ( op === '<' || op === '>' || op === '<=' || op === '>=' || op === '==' ) { + + if ( builder.isVector( typeA ) ) { + + typeB = typeA; + + } else { + + typeA = typeB = 'float'; + + } + + } else if ( op === '>>' || op === '<<' ) { + + typeA = type; + typeB = builder.changeComponentType( typeB, 'uint' ); + + } else if ( builder.isMatrix( typeA ) && builder.isVector( typeB ) ) { + + // matrix x vector + + typeB = builder.getVectorFromMatrix( typeA ); + + } else if ( builder.isVector( typeA ) && builder.isMatrix( typeB ) ) { + + // vector x matrix + + typeA = builder.getVectorFromMatrix( typeB ); + + } else { + + // anytype x anytype + + typeA = typeB = type; + + } + + } else { + + typeA = typeB = type; + + } + + const a = aNode.build( builder, typeA ); + const b = typeof bNode !== 'undefined' ? bNode.build( builder, typeB ) : null; + + const outputLength = builder.getTypeLength( output ); + const fnOpSnippet = builder.getFunctionOperator( op ); + + if ( output !== 'void' ) { + + if ( op === '<' && outputLength > 1 ) { + + return builder.format( `${ builder.getMethod( 'lessThan' ) }( ${ a }, ${ b } )`, type, output ); + + } else if ( op === '<=' && outputLength > 1 ) { + + return builder.format( `${ builder.getMethod( 'lessThanEqual' ) }( ${ a }, ${ b } )`, type, output ); + + } else if ( op === '>' && outputLength > 1 ) { + + return builder.format( `${ builder.getMethod( 'greaterThan' ) }( ${ a }, ${ b } )`, type, output ); + + } else if ( op === '>=' && outputLength > 1 ) { + + return builder.format( `${ builder.getMethod( 'greaterThanEqual' ) }( ${ a }, ${ b } )`, type, output ); + + } else if ( op === '!' || op === '~' ) { + + return builder.format( `(${op}${a})`, typeA, output ); + + } else if ( fnOpSnippet ) { + + return builder.format( `${ fnOpSnippet }( ${ a }, ${ b } )`, type, output ); + + } else { + + return builder.format( `( ${ a } ${ op } ${ b } )`, type, output ); + + } + + } else if ( typeA !== 'void' ) { + + if ( fnOpSnippet ) { + + return builder.format( `${ fnOpSnippet }( ${ a }, ${ b } )`, type, output ); + + } else { + + return builder.format( `${ a } ${ op } ${ b }`, type, output ); + + } + + } + + } + + serialize( data ) { + + super.serialize( data ); + + data.op = this.op; + + } + + deserialize( data ) { + + super.deserialize( data ); + + this.op = data.op; + + } + +} + +const add = nodeProxy( OperatorNode, '+' ); +const sub = nodeProxy( OperatorNode, '-' ); +const mul = nodeProxy( OperatorNode, '*' ); +const div = nodeProxy( OperatorNode, '/' ); +const remainder = nodeProxy( OperatorNode, '%' ); +const equal = nodeProxy( OperatorNode, '==' ); +const notEqual = nodeProxy( OperatorNode, '!=' ); +const lessThan = nodeProxy( OperatorNode, '<' ); +const greaterThan = nodeProxy( OperatorNode, '>' ); +const lessThanEqual = nodeProxy( OperatorNode, '<=' ); +const greaterThanEqual = nodeProxy( OperatorNode, '>=' ); +const and = nodeProxy( OperatorNode, '&&' ); +const or = nodeProxy( OperatorNode, '||' ); +const not = nodeProxy( OperatorNode, '!' ); +const xor = nodeProxy( OperatorNode, '^^' ); +const bitAnd = nodeProxy( OperatorNode, '&' ); +const bitNot = nodeProxy( OperatorNode, '~' ); +const bitOr = nodeProxy( OperatorNode, '|' ); +const bitXor = nodeProxy( OperatorNode, '^' ); +const shiftLeft = nodeProxy( OperatorNode, '<<' ); +const shiftRight = nodeProxy( OperatorNode, '>>' ); + +addNodeElement( 'add', add ); +addNodeElement( 'sub', sub ); +addNodeElement( 'mul', mul ); +addNodeElement( 'div', div ); +addNodeElement( 'remainder', remainder ); +addNodeElement( 'equal', equal ); +addNodeElement( 'notEqual', notEqual ); +addNodeElement( 'lessThan', lessThan ); +addNodeElement( 'greaterThan', greaterThan ); +addNodeElement( 'lessThanEqual', lessThanEqual ); +addNodeElement( 'greaterThanEqual', greaterThanEqual ); +addNodeElement( 'and', and ); +addNodeElement( 'or', or ); +addNodeElement( 'not', not ); +addNodeElement( 'xor', xor ); +addNodeElement( 'bitAnd', bitAnd ); +addNodeElement( 'bitNot', bitNot ); +addNodeElement( 'bitOr', bitOr ); +addNodeElement( 'bitXor', bitXor ); +addNodeElement( 'shiftLeft', shiftLeft ); +addNodeElement( 'shiftRight', shiftRight ); + +addNodeClass( 'OperatorNode', OperatorNode ); + +class MathNode extends TempNode { + + constructor( method, aNode, bNode = null, cNode = null ) { + + super(); + + this.method = method; + + this.aNode = aNode; + this.bNode = bNode; + this.cNode = cNode; + + } + + getInputType( builder ) { + + const aType = this.aNode.getNodeType( builder ); + const bType = this.bNode ? this.bNode.getNodeType( builder ) : null; + const cType = this.cNode ? this.cNode.getNodeType( builder ) : null; + + const aLen = builder.isMatrix( aType ) ? 0 : builder.getTypeLength( aType ); + const bLen = builder.isMatrix( bType ) ? 0 : builder.getTypeLength( bType ); + const cLen = builder.isMatrix( cType ) ? 0 : builder.getTypeLength( cType ); + + if ( aLen > bLen && aLen > cLen ) { + + return aType; + + } else if ( bLen > cLen ) { + + return bType; + + } else if ( cLen > aLen ) { + + return cType; + + } + + return aType; + + } + + getNodeType( builder ) { + + const method = this.method; + + if ( method === MathNode.LENGTH || method === MathNode.DISTANCE || method === MathNode.DOT ) { + + return 'float'; + + } else if ( method === MathNode.CROSS ) { + + return 'vec3'; + + } else if ( method === MathNode.ALL ) { + + return 'bool'; + + } else if ( method === MathNode.EQUALS ) { + + return builder.changeComponentType( this.aNode.getNodeType( builder ), 'bool' ); + + } else if ( method === MathNode.MOD ) { + + return this.aNode.getNodeType( builder ); + + } else { + + return this.getInputType( builder ); + + } + + } + + generate( builder, output ) { + + const method = this.method; + + const type = this.getNodeType( builder ); + const inputType = this.getInputType( builder ); + + const a = this.aNode; + const b = this.bNode; + const c = this.cNode; + + const isWebGL = builder.renderer.isWebGLRenderer === true; + + if ( method === MathNode.TRANSFORM_DIRECTION ) { + + // dir can be either a direction vector or a normal vector + // upper-left 3x3 of matrix is assumed to be orthogonal + + let tA = a; + let tB = b; + + if ( builder.isMatrix( tA.getNodeType( builder ) ) ) { + + tB = vec4( vec3( tB ), 0.0 ); + + } else { + + tA = vec4( vec3( tA ), 0.0 ); + + } + + const mulNode = mul( tA, tB ).xyz; + + return normalize( mulNode ).build( builder, output ); + + } else if ( method === MathNode.NEGATE ) { + + return builder.format( '( - ' + a.build( builder, inputType ) + ' )', type, output ); + + } else if ( method === MathNode.ONE_MINUS ) { + + return sub( 1.0, a ).build( builder, output ); + + } else if ( method === MathNode.RECIPROCAL ) { + + return div( 1.0, a ).build( builder, output ); + + } else if ( method === MathNode.DIFFERENCE ) { + + return abs( sub( a, b ) ).build( builder, output ); + + } else { + + const params = []; + + if ( method === MathNode.CROSS || method === MathNode.MOD ) { + + params.push( + a.build( builder, type ), + b.build( builder, type ) + ); + + } else if ( method === MathNode.STEP ) { + + params.push( + a.build( builder, builder.getTypeLength( a.getNodeType( builder ) ) === 1 ? 'float' : inputType ), + b.build( builder, inputType ) + ); + + } else if ( ( isWebGL && ( method === MathNode.MIN || method === MathNode.MAX ) ) || method === MathNode.MOD ) { + + params.push( + a.build( builder, inputType ), + b.build( builder, builder.getTypeLength( b.getNodeType( builder ) ) === 1 ? 'float' : inputType ) + ); + + } else if ( method === MathNode.REFRACT ) { + + params.push( + a.build( builder, inputType ), + b.build( builder, inputType ), + c.build( builder, 'float' ) + ); + + } else if ( method === MathNode.MIX ) { + + params.push( + a.build( builder, inputType ), + b.build( builder, inputType ), + c.build( builder, builder.getTypeLength( c.getNodeType( builder ) ) === 1 ? 'float' : inputType ) + ); + + } else { + + params.push( a.build( builder, inputType ) ); + if ( b !== null ) params.push( b.build( builder, inputType ) ); + if ( c !== null ) params.push( c.build( builder, inputType ) ); + + } + + return builder.format( `${ builder.getMethod( method, type ) }( ${params.join( ', ' )} )`, type, output ); + + } + + } + + serialize( data ) { + + super.serialize( data ); + + data.method = this.method; + + } + + deserialize( data ) { + + super.deserialize( data ); + + this.method = data.method; + + } + +} + +// 1 input + +MathNode.ALL = 'all'; +MathNode.ANY = 'any'; +MathNode.EQUALS = 'equals'; + +MathNode.RADIANS = 'radians'; +MathNode.DEGREES = 'degrees'; +MathNode.EXP = 'exp'; +MathNode.EXP2 = 'exp2'; +MathNode.LOG = 'log'; +MathNode.LOG2 = 'log2'; +MathNode.SQRT = 'sqrt'; +MathNode.INVERSE_SQRT = 'inversesqrt'; +MathNode.FLOOR = 'floor'; +MathNode.CEIL = 'ceil'; +MathNode.NORMALIZE = 'normalize'; +MathNode.FRACT = 'fract'; +MathNode.SIN = 'sin'; +MathNode.COS = 'cos'; +MathNode.TAN = 'tan'; +MathNode.ASIN = 'asin'; +MathNode.ACOS = 'acos'; +MathNode.ATAN = 'atan'; +MathNode.ABS = 'abs'; +MathNode.SIGN = 'sign'; +MathNode.LENGTH = 'length'; +MathNode.NEGATE = 'negate'; +MathNode.ONE_MINUS = 'oneMinus'; +MathNode.DFDX = 'dFdx'; +MathNode.DFDY = 'dFdy'; +MathNode.ROUND = 'round'; +MathNode.RECIPROCAL = 'reciprocal'; +MathNode.TRUNC = 'trunc'; +MathNode.FWIDTH = 'fwidth'; +MathNode.BITCAST = 'bitcast'; +MathNode.TRANSPOSE = 'transpose'; + +// 2 inputs + +MathNode.ATAN2 = 'atan2'; +MathNode.MIN = 'min'; +MathNode.MAX = 'max'; +MathNode.MOD = 'mod'; +MathNode.STEP = 'step'; +MathNode.REFLECT = 'reflect'; +MathNode.DISTANCE = 'distance'; +MathNode.DIFFERENCE = 'difference'; +MathNode.DOT = 'dot'; +MathNode.CROSS = 'cross'; +MathNode.POW = 'pow'; +MathNode.TRANSFORM_DIRECTION = 'transformDirection'; + +// 3 inputs + +MathNode.MIX = 'mix'; +MathNode.CLAMP = 'clamp'; +MathNode.REFRACT = 'refract'; +MathNode.SMOOTHSTEP = 'smoothstep'; +MathNode.FACEFORWARD = 'faceforward'; + +const EPSILON = float( 1e-6 ); +const INFINITY = float( 1e6 ); +const PI = float( Math.PI ); +const PI2 = float( Math.PI * 2 ); + +const all = nodeProxy( MathNode, MathNode.ALL ); +const any = nodeProxy( MathNode, MathNode.ANY ); +const equals = nodeProxy( MathNode, MathNode.EQUALS ); + +const radians = nodeProxy( MathNode, MathNode.RADIANS ); +const degrees = nodeProxy( MathNode, MathNode.DEGREES ); +const exp = nodeProxy( MathNode, MathNode.EXP ); +const exp2 = nodeProxy( MathNode, MathNode.EXP2 ); +const log = nodeProxy( MathNode, MathNode.LOG ); +const log2 = nodeProxy( MathNode, MathNode.LOG2 ); +const sqrt = nodeProxy( MathNode, MathNode.SQRT ); +const inverseSqrt = nodeProxy( MathNode, MathNode.INVERSE_SQRT ); +const floor = nodeProxy( MathNode, MathNode.FLOOR ); +const ceil = nodeProxy( MathNode, MathNode.CEIL ); +const normalize = nodeProxy( MathNode, MathNode.NORMALIZE ); +const fract = nodeProxy( MathNode, MathNode.FRACT ); +const sin = nodeProxy( MathNode, MathNode.SIN ); +const cos = nodeProxy( MathNode, MathNode.COS ); +const tan = nodeProxy( MathNode, MathNode.TAN ); +const asin = nodeProxy( MathNode, MathNode.ASIN ); +const acos = nodeProxy( MathNode, MathNode.ACOS ); +const atan = nodeProxy( MathNode, MathNode.ATAN ); +const abs = nodeProxy( MathNode, MathNode.ABS ); +const sign = nodeProxy( MathNode, MathNode.SIGN ); +const length = nodeProxy( MathNode, MathNode.LENGTH ); +const negate = nodeProxy( MathNode, MathNode.NEGATE ); +const oneMinus = nodeProxy( MathNode, MathNode.ONE_MINUS ); +const dFdx = nodeProxy( MathNode, MathNode.DFDX ); +const dFdy = nodeProxy( MathNode, MathNode.DFDY ); +const round = nodeProxy( MathNode, MathNode.ROUND ); +const reciprocal = nodeProxy( MathNode, MathNode.RECIPROCAL ); +const trunc = nodeProxy( MathNode, MathNode.TRUNC ); +const fwidth = nodeProxy( MathNode, MathNode.FWIDTH ); +const bitcast = nodeProxy( MathNode, MathNode.BITCAST ); +const transpose = nodeProxy( MathNode, MathNode.TRANSPOSE ); + +const atan2 = nodeProxy( MathNode, MathNode.ATAN2 ); +const min$1 = nodeProxy( MathNode, MathNode.MIN ); +const max$1 = nodeProxy( MathNode, MathNode.MAX ); +const mod = nodeProxy( MathNode, MathNode.MOD ); +const step = nodeProxy( MathNode, MathNode.STEP ); +const reflect = nodeProxy( MathNode, MathNode.REFLECT ); +const distance = nodeProxy( MathNode, MathNode.DISTANCE ); +const difference = nodeProxy( MathNode, MathNode.DIFFERENCE ); +const dot = nodeProxy( MathNode, MathNode.DOT ); +const cross = nodeProxy( MathNode, MathNode.CROSS ); +const pow = nodeProxy( MathNode, MathNode.POW ); +const pow2 = nodeProxy( MathNode, MathNode.POW, 2 ); +const pow3 = nodeProxy( MathNode, MathNode.POW, 3 ); +const pow4 = nodeProxy( MathNode, MathNode.POW, 4 ); +const transformDirection = nodeProxy( MathNode, MathNode.TRANSFORM_DIRECTION ); + +const cbrt = ( a ) => mul( sign( a ), pow( abs( a ), 1.0 / 3.0 ) ); +const lengthSq = ( a ) => dot( a, a ); +const mix = nodeProxy( MathNode, MathNode.MIX ); +const clamp = ( value, low = 0, high = 1 ) => nodeObject( new MathNode( MathNode.CLAMP, nodeObject( value ), nodeObject( low ), nodeObject( high ) ) ); +const saturate = ( value ) => clamp( value ); +const refract = nodeProxy( MathNode, MathNode.REFRACT ); +const smoothstep = nodeProxy( MathNode, MathNode.SMOOTHSTEP ); +const faceForward = nodeProxy( MathNode, MathNode.FACEFORWARD ); + +const mixElement = ( t, e1, e2 ) => mix( e1, e2, t ); +const smoothstepElement = ( x, low, high ) => smoothstep( low, high, x ); + +addNodeElement( 'all', all ); +addNodeElement( 'any', any ); +addNodeElement( 'equals', equals ); + +addNodeElement( 'radians', radians ); +addNodeElement( 'degrees', degrees ); +addNodeElement( 'exp', exp ); +addNodeElement( 'exp2', exp2 ); +addNodeElement( 'log', log ); +addNodeElement( 'log2', log2 ); +addNodeElement( 'sqrt', sqrt ); +addNodeElement( 'inverseSqrt', inverseSqrt ); +addNodeElement( 'floor', floor ); +addNodeElement( 'ceil', ceil ); +addNodeElement( 'normalize', normalize ); +addNodeElement( 'fract', fract ); +addNodeElement( 'sin', sin ); +addNodeElement( 'cos', cos ); +addNodeElement( 'tan', tan ); +addNodeElement( 'asin', asin ); +addNodeElement( 'acos', acos ); +addNodeElement( 'atan', atan ); +addNodeElement( 'abs', abs ); +addNodeElement( 'sign', sign ); +addNodeElement( 'length', length ); +addNodeElement( 'lengthSq', lengthSq ); +addNodeElement( 'negate', negate ); +addNodeElement( 'oneMinus', oneMinus ); +addNodeElement( 'dFdx', dFdx ); +addNodeElement( 'dFdy', dFdy ); +addNodeElement( 'round', round ); +addNodeElement( 'reciprocal', reciprocal ); +addNodeElement( 'trunc', trunc ); +addNodeElement( 'fwidth', fwidth ); +addNodeElement( 'atan2', atan2 ); +addNodeElement( 'min', min$1 ); +addNodeElement( 'max', max$1 ); +addNodeElement( 'mod', mod ); +addNodeElement( 'step', step ); +addNodeElement( 'reflect', reflect ); +addNodeElement( 'distance', distance ); +addNodeElement( 'dot', dot ); +addNodeElement( 'cross', cross ); +addNodeElement( 'pow', pow ); +addNodeElement( 'pow2', pow2 ); +addNodeElement( 'pow3', pow3 ); +addNodeElement( 'pow4', pow4 ); +addNodeElement( 'transformDirection', transformDirection ); +addNodeElement( 'mix', mixElement ); +addNodeElement( 'clamp', clamp ); +addNodeElement( 'refract', refract ); +addNodeElement( 'smoothstep', smoothstepElement ); +addNodeElement( 'faceForward', faceForward ); +addNodeElement( 'difference', difference ); +addNodeElement( 'saturate', saturate ); +addNodeElement( 'cbrt', cbrt ); +addNodeElement( 'transpose', transpose ); + +addNodeClass( 'MathNode', MathNode ); + +const sRGBToLinearShader = tslFn( ( inputs ) => { + + const { value } = inputs; + const { rgb } = value; + + const a = rgb.mul( 0.9478672986 ).add( 0.0521327014 ).pow( 2.4 ); + const b = rgb.mul( 0.0773993808 ); + const factor = rgb.lessThanEqual( 0.04045 ); + + const rgbResult = mix( a, b, factor ); + + return vec4( rgbResult, value.a ); + +} ); + +const LinearTosRGBShader = tslFn( ( inputs ) => { + + const { value } = inputs; + const { rgb } = value; + + const a = rgb.pow( 0.41666 ).mul( 1.055 ).sub( 0.055 ); + const b = rgb.mul( 12.92 ); + const factor = rgb.lessThanEqual( 0.0031308 ); + + const rgbResult = mix( a, b, factor ); + + return vec4( rgbResult, value.a ); + +} ); + +const getColorSpaceMethod = ( colorSpace ) => { + + let method = null; + + if ( colorSpace === LinearSRGBColorSpace ) { + + method = 'Linear'; + + } else if ( colorSpace === SRGBColorSpace ) { + + method = 'sRGB'; + + } + + return method; + +}; + +const getMethod = ( source, target ) => { + + return getColorSpaceMethod( source ) + 'To' + getColorSpaceMethod( target ); + +}; + +class ColorSpaceNode extends TempNode { + + constructor( method, node ) { + + super( 'vec4' ); + + this.method = method; + this.node = node; + + } + + setup() { + + const { method, node } = this; + + if ( method === ColorSpaceNode.LINEAR_TO_LINEAR ) + return node; + + return Methods[ method ]( { value: node } ); + + } + +} + +ColorSpaceNode.LINEAR_TO_LINEAR = 'LinearToLinear'; +ColorSpaceNode.LINEAR_TO_sRGB = 'LinearTosRGB'; +ColorSpaceNode.sRGB_TO_LINEAR = 'sRGBToLinear'; + +const Methods = { + [ ColorSpaceNode.LINEAR_TO_sRGB ]: LinearTosRGBShader, + [ ColorSpaceNode.sRGB_TO_LINEAR ]: sRGBToLinearShader +}; + +const linearToColorSpace = ( node, colorSpace ) => nodeObject( new ColorSpaceNode( getMethod( LinearSRGBColorSpace, colorSpace ), nodeObject( node ) ) ); +const colorSpaceToLinear = ( node, colorSpace ) => nodeObject( new ColorSpaceNode( getMethod( colorSpace, LinearSRGBColorSpace ), nodeObject( node ) ) ); + +const linearTosRGB = nodeProxy( ColorSpaceNode, ColorSpaceNode.LINEAR_TO_sRGB ); +const sRGBToLinear = nodeProxy( ColorSpaceNode, ColorSpaceNode.sRGB_TO_LINEAR ); + +addNodeElement( 'linearTosRGB', linearTosRGB ); +addNodeElement( 'sRGBToLinear', sRGBToLinear ); +addNodeElement( 'linearToColorSpace', linearToColorSpace ); +addNodeElement( 'colorSpaceToLinear', colorSpaceToLinear ); + +addNodeClass( 'ColorSpaceNode', ColorSpaceNode ); + +class ExpressionNode extends Node { + + constructor( snippet = '', nodeType = 'void' ) { + + super( nodeType ); + + this.snippet = snippet; + + } + + generate( builder, output ) { + + const type = this.getNodeType( builder ); + const snippet = this.snippet; + + if ( type === 'void' ) { + + builder.addLineFlowCode( snippet ); + + } else { + + return builder.format( `( ${ snippet } )`, type, output ); + + } + + } + +} + +const expression = nodeProxy( ExpressionNode ); + +addNodeClass( 'ExpressionNode', ExpressionNode ); + +class MaxMipLevelNode extends UniformNode { + + constructor( textureNode ) { + + super( 0 ); + + this.textureNode = textureNode; + + this.updateType = NodeUpdateType.FRAME; + + } + + get texture() { + + return this.textureNode.value; + + } + + update() { + + const texture = this.texture; + const images = texture.images; + const image = ( images && images.length > 0 ) ? ( ( images[ 0 ] && images[ 0 ].image ) || images[ 0 ] ) : texture.image; + + if ( image && image.width !== undefined ) { + + const { width, height } = image; + + this.value = Math.log2( Math.max( width, height ) ); + + } + + } + +} + +const maxMipLevel = nodeProxy( MaxMipLevelNode ); + +addNodeClass( 'MaxMipLevelNode', MaxMipLevelNode ); + +class TextureNode extends UniformNode { + + constructor( value, uvNode = null, levelNode = null ) { + + super( value ); + + this.isTextureNode = true; + + this.uvNode = uvNode; + this.levelNode = levelNode; + this.compareNode = null; + this.depthNode = null; + this.gradNode = null; + + this.sampler = true; + this.updateMatrix = false; + this.updateType = NodeUpdateType.NONE; + + this.referenceNode = null; + + this._value = value; + + this.setUpdateMatrix( uvNode === null ); + + } + + set value( value ) { + + if ( this.referenceNode ) { + + this.referenceNode.value = value; + + } else { + + this._value = value; + + } + + } + + get value() { + + return this.referenceNode ? this.referenceNode.value : this._value; + + } + + getUniformHash( /*builder*/ ) { + + return this.value.uuid; + + } + + getNodeType( /*builder*/ ) { + + if ( this.value.isDepthTexture === true ) return 'float'; + + if ( this.value.type === UnsignedIntType ) { + + return 'uvec4'; + + } else if ( this.value.type === IntType ) { + + return 'ivec4'; + + } + + return 'vec4'; + + } + + getInputType( /*builder*/ ) { + + return 'texture'; + + } + + getDefaultUV() { + + return uv( this.value.channel ); + + } + + updateReference( /*state*/ ) { + + return this.value; + + } + + getTransformedUV( uvNode ) { + + const texture = this.value; + + return uniform( texture.matrix ).mul( vec3( uvNode, 1 ) ).xy; + + } + + setUpdateMatrix( value ) { + + this.updateMatrix = value; + this.updateType = value ? NodeUpdateType.FRAME : NodeUpdateType.NONE; + + return this; + + } + + setupUV( builder, uvNode ) { + + const texture = this.value; + + if ( builder.isFlipY() && ( texture.isRenderTargetTexture === true || texture.isFramebufferTexture === true || texture.isDepthTexture === true ) ) { + + uvNode = uvNode.setY( uvNode.y.oneMinus() ); + + } + + return uvNode; + + } + + setup( builder ) { + + const properties = builder.getNodeProperties( this ); + + // + + let uvNode = this.uvNode; + + if ( ( uvNode === null || builder.context.forceUVContext === true ) && builder.context.getUV ) { + + uvNode = builder.context.getUV( this ); + + } + + if ( ! uvNode ) uvNode = this.getDefaultUV(); + + if ( this.updateMatrix === true ) { + + uvNode = this.getTransformedUV( uvNode ); + + } + + uvNode = this.setupUV( builder, uvNode ); + + // + + let levelNode = this.levelNode; + + if ( levelNode === null && builder.context.getTextureLevel ) { + + levelNode = builder.context.getTextureLevel( this ); + + } + + // + + properties.uvNode = uvNode; + properties.levelNode = levelNode; + properties.compareNode = this.compareNode; + properties.gradNode = this.gradNode; + properties.depthNode = this.depthNode; + + } + + generateUV( builder, uvNode ) { + + return uvNode.build( builder, this.sampler === true ? 'vec2' : 'ivec2' ); + + } + + generateSnippet( builder, textureProperty, uvSnippet, levelSnippet, depthSnippet, compareSnippet, gradSnippet ) { + + const texture = this.value; + + let snippet; + + if ( levelSnippet ) { + + snippet = builder.generateTextureLevel( texture, textureProperty, uvSnippet, levelSnippet, depthSnippet ); + + } else if ( gradSnippet ) { + + snippet = builder.generateTextureGrad( texture, textureProperty, uvSnippet, gradSnippet, depthSnippet ); + + } else if ( compareSnippet ) { + + snippet = builder.generateTextureCompare( texture, textureProperty, uvSnippet, compareSnippet, depthSnippet ); + + } else if ( this.sampler === false ) { + + snippet = builder.generateTextureLoad( texture, textureProperty, uvSnippet, depthSnippet ); + + } else { + + snippet = builder.generateTexture( texture, textureProperty, uvSnippet, depthSnippet ); + + } + + return snippet; + + } + + generate( builder, output ) { + + const properties = builder.getNodeProperties( this ); + + const texture = this.value; + + if ( ! texture || texture.isTexture !== true ) { + + throw new Error( 'TextureNode: Need a three.js texture.' ); + + } + + const textureProperty = super.generate( builder, 'property' ); + + if ( output === 'sampler' ) { + + return textureProperty + '_sampler'; + + } else if ( builder.isReference( output ) ) { + + return textureProperty; + + } else { + + const nodeData = builder.getDataFromNode( this ); + + let propertyName = nodeData.propertyName; + + if ( propertyName === undefined ) { + + const { uvNode, levelNode, compareNode, depthNode, gradNode } = properties; + + const uvSnippet = this.generateUV( builder, uvNode ); + const levelSnippet = levelNode ? levelNode.build( builder, 'float' ) : null; + const depthSnippet = depthNode ? depthNode.build( builder, 'int' ) : null; + const compareSnippet = compareNode ? compareNode.build( builder, 'float' ) : null; + const gradSnippet = gradNode ? [ gradNode[ 0 ].build( builder, 'vec2' ), gradNode[ 1 ].build( builder, 'vec2' ) ] : null; + + const nodeVar = builder.getVarFromNode( this ); + + propertyName = builder.getPropertyName( nodeVar ); + + const snippet = this.generateSnippet( builder, textureProperty, uvSnippet, levelSnippet, depthSnippet, compareSnippet, gradSnippet ); + + builder.addLineFlowCode( `${propertyName} = ${snippet}` ); + + nodeData.snippet = snippet; + nodeData.propertyName = propertyName; + + } + + let snippet = propertyName; + const nodeType = this.getNodeType( builder ); + + if ( builder.needsColorSpaceToLinear( texture ) ) { + + snippet = colorSpaceToLinear( expression( snippet, nodeType ), texture.colorSpace ).setup( builder ).build( builder, nodeType ); + + } + + return builder.format( snippet, nodeType, output ); + + } + + } + + setSampler( value ) { + + this.sampler = value; + + return this; + + } + + getSampler() { + + return this.sampler; + + } + + // @TODO: Move to TSL + + uv( uvNode ) { + + const textureNode = this.clone(); + textureNode.uvNode = uvNode; + textureNode.referenceNode = this; + + return nodeObject( textureNode ); + + } + + blur( levelNode ) { + + const textureNode = this.clone(); + textureNode.levelNode = levelNode.mul( maxMipLevel( textureNode ) ); + textureNode.referenceNode = this; + + return nodeObject( textureNode ); + + } + + level( levelNode ) { + + const textureNode = this.clone(); + textureNode.levelNode = levelNode; + textureNode.referenceNode = this; + + return textureNode; + + } + + size( levelNode ) { + + return textureSize( this, levelNode ); + + } + + compare( compareNode ) { + + const textureNode = this.clone(); + textureNode.compareNode = nodeObject( compareNode ); + textureNode.referenceNode = this; + + return nodeObject( textureNode ); + + } + + grad( gradNodeX, gradNodeY ) { + + const textureNode = this.clone(); + textureNode.gradNode = [ nodeObject( gradNodeX ), nodeObject( gradNodeY ) ]; + + textureNode.referenceNode = this; + + return nodeObject( textureNode ); + + } + + depth( depthNode ) { + + const textureNode = this.clone(); + textureNode.depthNode = nodeObject( depthNode ); + textureNode.referenceNode = this; + + return nodeObject( textureNode ); + + } + + // -- + + serialize( data ) { + + super.serialize( data ); + + data.value = this.value.toJSON( data.meta ).uuid; + + } + + deserialize( data ) { + + super.deserialize( data ); + + this.value = data.meta.textures[ data.value ]; + + } + + update() { + + const texture = this.value; + + if ( texture.matrixAutoUpdate === true ) { + + texture.updateMatrix(); + + } + + } + + clone() { + + const newNode = new this.constructor( this.value, this.uvNode, this.levelNode ); + newNode.sampler = this.sampler; + + return newNode; + + } + +} + +const texture = nodeProxy( TextureNode ); +const textureLoad = ( ...params ) => texture( ...params ).setSampler( false ); + +//export const textureLevel = ( value, uv, level ) => texture( value, uv ).level( level ); + +const sampler = ( aTexture ) => ( aTexture.isNode === true ? aTexture : texture( aTexture ) ).convert( 'sampler' ); + +addNodeElement( 'texture', texture ); +//addNodeElement( 'textureLevel', textureLevel ); + +addNodeClass( 'TextureNode', TextureNode ); + +class BufferNode extends UniformNode { + + constructor( value, bufferType, bufferCount = 0 ) { + + super( value, bufferType ); + + this.isBufferNode = true; + + this.bufferType = bufferType; + this.bufferCount = bufferCount; + + } + + getElementType( builder ) { + + return this.getNodeType( builder ); + + } + + getInputType( /*builder*/ ) { + + return 'buffer'; + + } + +} + +const buffer = ( value, type, count ) => nodeObject( new BufferNode( value, type, count ) ); + +addNodeClass( 'BufferNode', BufferNode ); + +class UniformsElementNode extends ArrayElementNode { + + constructor( arrayBuffer, indexNode ) { + + super( arrayBuffer, indexNode ); + + this.isArrayBufferElementNode = true; + + } + + getNodeType( builder ) { + + return this.node.getElementType( builder ); + + } + + generate( builder ) { + + const snippet = super.generate( builder ); + const type = this.getNodeType(); + + return builder.format( snippet, 'vec4', type ); + + } + +} + +class UniformsNode extends BufferNode { + + constructor( value, elementType = null ) { + + super( null, 'vec4' ); + + this.array = value; + this.elementType = elementType; + + this._elementType = null; + this._elementLength = 0; + + this.updateType = NodeUpdateType.RENDER; + + this.isArrayBufferNode = true; + + } + + getElementType() { + + return this.elementType || this._elementType; + + } + + getElementLength() { + + return this._elementLength; + + } + + update( /*frame*/ ) { + + const { array, value } = this; + + const elementLength = this.getElementLength(); + const elementType = this.getElementType(); + + if ( elementLength === 1 ) { + + for ( let i = 0; i < array.length; i ++ ) { + + const index = i * 4; + + value[ index ] = array[ i ]; + + } + + } else if ( elementType === 'color' ) { + + for ( let i = 0; i < array.length; i ++ ) { + + const index = i * 4; + const vector = array[ i ]; + + value[ index ] = vector.r; + value[ index + 1 ] = vector.g; + value[ index + 2 ] = vector.b || 0; + //value[ index + 3 ] = vector.a || 0; + + } + + } else { + + for ( let i = 0; i < array.length; i ++ ) { + + const index = i * 4; + const vector = array[ i ]; + + value[ index ] = vector.x; + value[ index + 1 ] = vector.y; + value[ index + 2 ] = vector.z || 0; + value[ index + 3 ] = vector.w || 0; + + } + + } + + } + + setup( builder ) { + + const length = this.array.length; + + this._elementType = this.elementType === null ? getValueType( this.array[ 0 ] ) : this.elementType; + this._elementLength = builder.getTypeLength( this._elementType ); + + let arrayType = Float32Array; + + if ( this._elementType.charAt( 0 ) === 'i' ) arrayType = Int32Array; + else if ( this._elementType.charAt( 0 ) === 'u' ) arrayType = Uint32Array; + + this.value = new arrayType( length * 4 ); + this.bufferCount = length; + this.bufferType = builder.changeComponentType( 'vec4', builder.getComponentType( this._elementType ) ); + + return super.setup( builder ); + + } + + element( indexNode ) { + + return nodeObject( new UniformsElementNode( this, nodeObject( indexNode ) ) ); + + } + +} + +const uniforms = ( values, nodeType ) => nodeObject( new UniformsNode( values, nodeType ) ); + +addNodeClass( 'UniformsNode', UniformsNode ); + +class ReferenceElementNode extends ArrayElementNode { + + constructor( referenceNode, indexNode ) { + + super( referenceNode, indexNode ); + + this.referenceNode = referenceNode; + + this.isReferenceElementNode = true; + + } + + getNodeType() { + + return this.referenceNode.uniformType; + + } + + generate( builder ) { + + const snippet = super.generate( builder ); + const arrayType = this.referenceNode.getNodeType(); + const elementType = this.getNodeType(); + + return builder.format( snippet, arrayType, elementType ); + + } + +} + +class ReferenceNode extends Node { + + constructor( property, uniformType, object = null, count = null ) { + + super(); + + this.property = property; + this.uniformType = uniformType; + this.object = object; + this.count = count; + + this.properties = property.split( '.' ); + this.reference = null; + this.node = null; + + this.updateType = NodeUpdateType.OBJECT; + + } + + element( indexNode ) { + + return nodeObject( new ReferenceElementNode( this, nodeObject( indexNode ) ) ); + + } + + setNodeType( uniformType ) { + + let node = null; + + if ( this.count !== null ) { + + node = buffer( null, uniformType, this.count ); + + } else if ( Array.isArray( this.getValueFromReference() ) ) { + + node = uniforms( null, uniformType ); + + } else if ( uniformType === 'texture' ) { + + node = texture( null ); + + } else { + + node = uniform( null, uniformType ); + + } + + this.node = node; + + } + + getNodeType( builder ) { + + if ( this.node === null ) { + + this.updateValue(); + + } + + return this.node.getNodeType( builder ); + + } + + getValueFromReference( object = this.reference ) { + + const { properties } = this; + + let value = object[ properties[ 0 ] ]; + + for ( let i = 1; i < properties.length; i ++ ) { + + value = value[ properties[ i ] ]; + + } + + return value; + + } + + updateReference( state ) { + + this.reference = this.object !== null ? this.object : state.object; + + return this.reference; + + } + + setup() { + + this.updateValue(); + + return this.node; + + } + + update( /*frame*/ ) { + + this.updateValue(); + + } + + updateValue() { + + if ( this.node === null ) this.setNodeType( this.uniformType ); + + const value = this.getValueFromReference(); + + if ( Array.isArray( value ) ) { + + this.node.array = value; + + } else { + + this.node.value = value; + + } + + } + +} + +const reference = ( name, type, object ) => nodeObject( new ReferenceNode( name, type, object ) ); +const referenceBuffer = ( name, type, count, object ) => nodeObject( new ReferenceNode( name, type, object, count ) ); + +addNodeClass( 'ReferenceNode', ReferenceNode ); + +class MaterialReferenceNode extends ReferenceNode { + + constructor( property, inputType, material = null ) { + + super( property, inputType, material ); + + this.material = material; + + //this.updateType = NodeUpdateType.RENDER; + + } + + /*setNodeType( node ) { + + super.setNodeType( node ); + + this.node.groupNode = renderGroup; + + }*/ + + updateReference( state ) { + + this.reference = this.material !== null ? this.material : state.material; + + return this.reference; + + } + +} + +const materialReference = ( name, type, material ) => nodeObject( new MaterialReferenceNode( name, type, material ) ); + +addNodeClass( 'MaterialReferenceNode', MaterialReferenceNode ); + +const cameraGroup = /*#__PURE__*/ sharedUniformGroup( 'camera' ).onRenderUpdate( () => { + + cameraGroup.needsUpdate = true; + +} ); + +const cameraNear = /*#__PURE__*/ uniform( 'float' ).label( 'cameraNear' ).setGroup( cameraGroup ).onRenderUpdate( ( { camera } ) => camera.near ); +const cameraFar = /*#__PURE__*/ uniform( 'float' ).label( 'cameraFar' ).setGroup( cameraGroup ).onRenderUpdate( ( { camera } ) => camera.far ); +const cameraLogDepth = /*#__PURE__*/ uniform( 'float' ).label( 'cameraLogDepth' ).setGroup( cameraGroup ).onRenderUpdate( ( { camera } ) => 2.0 / ( Math.log( camera.far + 1.0 ) / Math.LN2 ) ); +const cameraProjectionMatrix = /*#__PURE__*/ uniform( 'mat4' ).label( 'cameraProjectionMatrix' ).setGroup( cameraGroup ).onRenderUpdate( ( { camera } ) => camera.projectionMatrix ); +const cameraProjectionMatrixInverse = /*#__PURE__*/ uniform( 'mat4' ).label( 'cameraProjectionMatrixInverse' ).setGroup( cameraGroup ).onRenderUpdate( ( { camera } ) => camera.projectionMatrixInverse ); +const cameraViewMatrix = /*#__PURE__*/ uniform( 'mat4' ).label( 'cameraViewMatrix' ).setGroup( cameraGroup ).onRenderUpdate( ( { camera } ) => camera.matrixWorldInverse ); +const cameraWorldMatrix = /*#__PURE__*/ uniform( 'mat4' ).label( 'cameraWorldMatrix' ).setGroup( cameraGroup ).onRenderUpdate( ( { camera } ) => camera.matrixWorld ); +const cameraNormalMatrix = /*#__PURE__*/ uniform( 'mat3' ).label( 'cameraNormalMatrix' ).setGroup( cameraGroup ).onRenderUpdate( ( { camera } ) => camera.normalMatrix ); +const cameraPosition = /*#__PURE__*/ uniform( new Vector3() ).label( 'cameraPosition' ).setGroup( cameraGroup ).onRenderUpdate( ( { camera }, self ) => self.value.setFromMatrixPosition( camera.matrixWorld ) ); + +class Object3DNode extends Node { + + constructor( scope = Object3DNode.VIEW_MATRIX, object3d = null ) { + + super(); + + this.scope = scope; + this.object3d = object3d; + + this.updateType = NodeUpdateType.OBJECT; + + this._uniformNode = new UniformNode( null ); + + } + + getNodeType() { + + const scope = this.scope; + + if ( scope === Object3DNode.WORLD_MATRIX || scope === Object3DNode.VIEW_MATRIX ) { + + return 'mat4'; + + } else if ( scope === Object3DNode.NORMAL_MATRIX ) { + + return 'mat3'; + + } else if ( scope === Object3DNode.POSITION || scope === Object3DNode.VIEW_POSITION || scope === Object3DNode.DIRECTION || scope === Object3DNode.SCALE ) { + + return 'vec3'; + + } + + } + + update( frame ) { + + const object = this.object3d; + const uniformNode = this._uniformNode; + const scope = this.scope; + + if ( scope === Object3DNode.VIEW_MATRIX ) { + + uniformNode.value = object.modelViewMatrix; + + } else if ( scope === Object3DNode.NORMAL_MATRIX ) { + + uniformNode.value = object.normalMatrix; + + } else if ( scope === Object3DNode.WORLD_MATRIX ) { + + uniformNode.value = object.matrixWorld; + + } else if ( scope === Object3DNode.POSITION ) { + + uniformNode.value = uniformNode.value || new Vector3(); + + uniformNode.value.setFromMatrixPosition( object.matrixWorld ); + + } else if ( scope === Object3DNode.SCALE ) { + + uniformNode.value = uniformNode.value || new Vector3(); + + uniformNode.value.setFromMatrixScale( object.matrixWorld ); + + } else if ( scope === Object3DNode.DIRECTION ) { + + uniformNode.value = uniformNode.value || new Vector3(); + + object.getWorldDirection( uniformNode.value ); + + } else if ( scope === Object3DNode.VIEW_POSITION ) { + + const camera = frame.camera; + + uniformNode.value = uniformNode.value || new Vector3(); + uniformNode.value.setFromMatrixPosition( object.matrixWorld ); + + uniformNode.value.applyMatrix4( camera.matrixWorldInverse ); + + } + + } + + generate( builder ) { + + const scope = this.scope; + + if ( scope === Object3DNode.WORLD_MATRIX || scope === Object3DNode.VIEW_MATRIX ) { + + this._uniformNode.nodeType = 'mat4'; + + } else if ( scope === Object3DNode.NORMAL_MATRIX ) { + + this._uniformNode.nodeType = 'mat3'; + + } else if ( scope === Object3DNode.POSITION || scope === Object3DNode.VIEW_POSITION || scope === Object3DNode.DIRECTION || scope === Object3DNode.SCALE ) { + + this._uniformNode.nodeType = 'vec3'; + + } + + return this._uniformNode.build( builder ); + + } + + serialize( data ) { + + super.serialize( data ); + + data.scope = this.scope; + + } + + deserialize( data ) { + + super.deserialize( data ); + + this.scope = data.scope; + + } + +} + +Object3DNode.VIEW_MATRIX = 'viewMatrix'; +Object3DNode.NORMAL_MATRIX = 'normalMatrix'; +Object3DNode.WORLD_MATRIX = 'worldMatrix'; +Object3DNode.POSITION = 'position'; +Object3DNode.SCALE = 'scale'; +Object3DNode.VIEW_POSITION = 'viewPosition'; +Object3DNode.DIRECTION = 'direction'; + +const objectDirection = nodeProxy( Object3DNode, Object3DNode.DIRECTION ); +const objectViewMatrix = nodeProxy( Object3DNode, Object3DNode.VIEW_MATRIX ); +const objectNormalMatrix = nodeProxy( Object3DNode, Object3DNode.NORMAL_MATRIX ); +const objectWorldMatrix = nodeProxy( Object3DNode, Object3DNode.WORLD_MATRIX ); +const objectPosition = nodeProxy( Object3DNode, Object3DNode.POSITION ); +const objectScale = nodeProxy( Object3DNode, Object3DNode.SCALE ); +const objectViewPosition = nodeProxy( Object3DNode, Object3DNode.VIEW_POSITION ); + +addNodeClass( 'Object3DNode', Object3DNode ); + +class ModelNode extends Object3DNode { + + constructor( scope = ModelNode.VIEW_MATRIX ) { + + super( scope ); + + } + + update( frame ) { + + this.object3d = frame.object; + + super.update( frame ); + + } + +} + +const modelDirection = nodeImmutable( ModelNode, ModelNode.DIRECTION ); +const modelViewMatrix = nodeImmutable( ModelNode, ModelNode.VIEW_MATRIX ).label( 'modelViewMatrix' ).temp( 'ModelViewMatrix' ); +const modelNormalMatrix = nodeImmutable( ModelNode, ModelNode.NORMAL_MATRIX ); +const modelWorldMatrix = nodeImmutable( ModelNode, ModelNode.WORLD_MATRIX ); +const modelPosition = nodeImmutable( ModelNode, ModelNode.POSITION ); +const modelScale = nodeImmutable( ModelNode, ModelNode.SCALE ); +const modelViewPosition = nodeImmutable( ModelNode, ModelNode.VIEW_POSITION ); +const modelWorldMatrixInverse = uniform( new Matrix4() ).onObjectUpdate( ( { object }, self ) => self.value.copy( object.matrixWorld ).invert() ); + +addNodeClass( 'ModelNode', ModelNode ); + +const normalGeometry = /*#__PURE__*/ attribute( 'normal', 'vec3', vec3( 0, 1, 0 ) ); +const normalLocal = /*#__PURE__*/ normalGeometry.toVar( 'normalLocal' ); +const normalView = /*#__PURE__*/ varying( modelNormalMatrix.mul( normalLocal ), 'v_normalView' ).normalize().toVar( 'normalView' ); +const normalWorld = /*#__PURE__*/ varying( normalView.transformDirection( cameraViewMatrix ), 'v_normalWorld' ).normalize().toVar( 'transformedNormalWorld' ); +const transformedNormalView = /*#__PURE__*/ property( 'vec3', 'transformedNormalView' ); +const transformedNormalWorld = /*#__PURE__*/ transformedNormalView.transformDirection( cameraViewMatrix ).normalize().toVar( 'transformedNormalWorld' ); +const transformedClearcoatNormalView = /*#__PURE__*/ property( 'vec3', 'transformedClearcoatNormalView' ); + +const _propertyCache = new Map(); + +class MaterialNode extends Node { + + constructor( scope ) { + + super(); + + this.scope = scope; + + } + + getCache( property, type ) { + + let node = _propertyCache.get( property ); + + if ( node === undefined ) { + + node = materialReference( property, type ); + + _propertyCache.set( property, node ); + + } + + return node; + + } + + getFloat( property ) { + + return this.getCache( property, 'float' ); + + } + + getColor( property ) { + + return this.getCache( property, 'color' ); + + } + + getTexture( property ) { + + return this.getCache( property === 'map' ? 'map' : property + 'Map', 'texture' ); + + } + + setup( builder ) { + + const material = builder.context.material; + const scope = this.scope; + + let node = null; + + if ( scope === MaterialNode.COLOR ) { + + const colorNode = this.getColor( scope ); + + if ( material.map && material.map.isTexture === true ) { + + node = colorNode.mul( this.getTexture( 'map' ) ); + + } else { + + node = colorNode; + + } + + } else if ( scope === MaterialNode.OPACITY ) { + + const opacityNode = this.getFloat( scope ); + + if ( material.alphaMap && material.alphaMap.isTexture === true ) { + + node = opacityNode.mul( this.getTexture( 'alpha' ) ); + + } else { + + node = opacityNode; + + } + + } else if ( scope === MaterialNode.SPECULAR_STRENGTH ) { + + if ( material.specularMap && material.specularMap.isTexture === true ) { + + node = this.getTexture( 'specular' ).r; + + } else { + + node = float( 1 ); + + } + + } else if ( scope === MaterialNode.SPECULAR_INTENSITY ) { + + const specularIntensity = this.getFloat( scope ); + + if ( material.specularMap ) { + + node = specularIntensity.mul( this.getTexture( scope ).a ); + + } else { + + node = specularIntensity; + + } + + } else if ( scope === MaterialNode.SPECULAR_COLOR ) { + + const specularColorNode = this.getColor( scope ); + + if ( material.specularColorMap && material.specularColorMap.isTexture === true ) { + + node = specularColorNode.mul( this.getTexture( scope ).rgb ); + + } else { + + node = specularColorNode; + + } + + } else if ( scope === MaterialNode.ROUGHNESS ) { // TODO: cleanup similar branches + + const roughnessNode = this.getFloat( scope ); + + if ( material.roughnessMap && material.roughnessMap.isTexture === true ) { + + node = roughnessNode.mul( this.getTexture( scope ).g ); + + } else { + + node = roughnessNode; + + } + + } else if ( scope === MaterialNode.METALNESS ) { + + const metalnessNode = this.getFloat( scope ); + + if ( material.metalnessMap && material.metalnessMap.isTexture === true ) { + + node = metalnessNode.mul( this.getTexture( scope ).b ); + + } else { + + node = metalnessNode; + + } + + } else if ( scope === MaterialNode.EMISSIVE ) { + + const emissiveNode = this.getColor( scope ); + + if ( material.emissiveMap && material.emissiveMap.isTexture === true ) { + + node = emissiveNode.mul( this.getTexture( scope ) ); + + } else { + + node = emissiveNode; + + } + + } else if ( scope === MaterialNode.NORMAL ) { + + if ( material.normalMap ) { + + node = this.getTexture( 'normal' ).normalMap( this.getCache( 'normalScale', 'vec2' ) ); + + } else if ( material.bumpMap ) { + + node = this.getTexture( 'bump' ).r.bumpMap( this.getFloat( 'bumpScale' ) ); + + } else { + + node = normalView; + + } + + } else if ( scope === MaterialNode.CLEARCOAT ) { + + const clearcoatNode = this.getFloat( scope ); + + if ( material.clearcoatMap && material.clearcoatMap.isTexture === true ) { + + node = clearcoatNode.mul( this.getTexture( scope ).r ); + + } else { + + node = clearcoatNode; + + } + + } else if ( scope === MaterialNode.CLEARCOAT_ROUGHNESS ) { + + const clearcoatRoughnessNode = this.getFloat( scope ); + + if ( material.clearcoatRoughnessMap && material.clearcoatRoughnessMap.isTexture === true ) { + + node = clearcoatRoughnessNode.mul( this.getTexture( scope ).r ); + + } else { + + node = clearcoatRoughnessNode; + + } + + } else if ( scope === MaterialNode.CLEARCOAT_NORMAL ) { + + if ( material.clearcoatNormalMap ) { + + node = this.getTexture( scope ).normalMap( this.getCache( scope + 'Scale', 'vec2' ) ); + + } else { + + node = normalView; + + } + + } else if ( scope === MaterialNode.SHEEN ) { + + const sheenNode = this.getColor( 'sheenColor' ).mul( this.getFloat( 'sheen' ) ); // Move this mul() to CPU + + if ( material.sheenColorMap && material.sheenColorMap.isTexture === true ) { + + node = sheenNode.mul( this.getTexture( 'sheenColor' ).rgb ); + + } else { + + node = sheenNode; + + } + + } else if ( scope === MaterialNode.SHEEN_ROUGHNESS ) { + + const sheenRoughnessNode = this.getFloat( scope ); + + if ( material.sheenRoughnessMap && material.sheenRoughnessMap.isTexture === true ) { + + node = sheenRoughnessNode.mul( this.getTexture( scope ).a ); + + } else { + + node = sheenRoughnessNode; + + } + + node = node.clamp( 0.07, 1.0 ); + + } else if ( scope === MaterialNode.ANISOTROPY ) { + + if ( material.anisotropyMap && material.anisotropyMap.isTexture === true ) { + + const anisotropyPolar = this.getTexture( scope ); + const anisotropyMat = mat2( materialAnisotropyVector.x, materialAnisotropyVector.y, materialAnisotropyVector.y.negate(), materialAnisotropyVector.x ); + + node = anisotropyMat.mul( anisotropyPolar.rg.mul( 2.0 ).sub( vec2( 1.0 ) ).normalize().mul( anisotropyPolar.b ) ); + + } else { + + node = materialAnisotropyVector; + + } + + } else if ( scope === MaterialNode.IRIDESCENCE_THICKNESS ) { + + const iridescenceThicknessMaximum = reference( '1', 'float', material.iridescenceThicknessRange ); + + if ( material.iridescenceThicknessMap ) { + + const iridescenceThicknessMinimum = reference( '0', 'float', material.iridescenceThicknessRange ); + + node = iridescenceThicknessMaximum.sub( iridescenceThicknessMinimum ).mul( this.getTexture( scope ).g ).add( iridescenceThicknessMinimum ); + + } else { + + node = iridescenceThicknessMaximum; + + } + + } else if ( scope === MaterialNode.TRANSMISSION ) { + + const transmissionNode = this.getFloat( scope ); + + if ( material.transmissionMap ) { + + node = transmissionNode.mul( this.getTexture( scope ).r ); + + } else { + + node = transmissionNode; + + } + + } else if ( scope === MaterialNode.THICKNESS ) { + + const thicknessNode = this.getFloat( scope ); + + if ( material.thicknessMap ) { + + node = thicknessNode.mul( this.getTexture( scope ).g ); + + } else { + + node = thicknessNode; + + } + + } else if ( scope === MaterialNode.IOR ) { + + node = this.getFloat( scope ); + + } else { + + const outputType = this.getNodeType( builder ); + + node = this.getCache( scope, outputType ); + + } + + return node; + + } + +} + +MaterialNode.ALPHA_TEST = 'alphaTest'; +MaterialNode.COLOR = 'color'; +MaterialNode.OPACITY = 'opacity'; +MaterialNode.SHININESS = 'shininess'; +MaterialNode.SPECULAR = 'specular'; +MaterialNode.SPECULAR_STRENGTH = 'specularStrength'; +MaterialNode.SPECULAR_INTENSITY = 'specularIntensity'; +MaterialNode.SPECULAR_COLOR = 'specularColor'; +MaterialNode.REFLECTIVITY = 'reflectivity'; +MaterialNode.ROUGHNESS = 'roughness'; +MaterialNode.METALNESS = 'metalness'; +MaterialNode.NORMAL = 'normal'; +MaterialNode.CLEARCOAT = 'clearcoat'; +MaterialNode.CLEARCOAT_ROUGHNESS = 'clearcoatRoughness'; +MaterialNode.CLEARCOAT_NORMAL = 'clearcoatNormal'; +MaterialNode.EMISSIVE = 'emissive'; +MaterialNode.ROTATION = 'rotation'; +MaterialNode.SHEEN = 'sheen'; +MaterialNode.SHEEN_ROUGHNESS = 'sheenRoughness'; +MaterialNode.ANISOTROPY = 'anisotropy'; +MaterialNode.IRIDESCENCE = 'iridescence'; +MaterialNode.IRIDESCENCE_IOR = 'iridescenceIOR'; +MaterialNode.IRIDESCENCE_THICKNESS = 'iridescenceThickness'; +MaterialNode.IOR = 'ior'; +MaterialNode.TRANSMISSION = 'transmission'; +MaterialNode.THICKNESS = 'thickness'; +MaterialNode.ATTENUATION_DISTANCE = 'attenuationDistance'; +MaterialNode.ATTENUATION_COLOR = 'attenuationColor'; +MaterialNode.LINE_SCALE = 'scale'; +MaterialNode.LINE_DASH_SIZE = 'dashSize'; +MaterialNode.LINE_GAP_SIZE = 'gapSize'; +MaterialNode.LINE_WIDTH = 'linewidth'; +MaterialNode.LINE_DASH_OFFSET = 'dashOffset'; +MaterialNode.POINT_WIDTH = 'pointWidth'; +MaterialNode.DISPERSION = 'dispersion'; + +const materialAlphaTest = nodeImmutable( MaterialNode, MaterialNode.ALPHA_TEST ); +const materialColor = nodeImmutable( MaterialNode, MaterialNode.COLOR ); +const materialShininess = nodeImmutable( MaterialNode, MaterialNode.SHININESS ); +const materialEmissive = nodeImmutable( MaterialNode, MaterialNode.EMISSIVE ); +const materialOpacity = nodeImmutable( MaterialNode, MaterialNode.OPACITY ); +const materialSpecular = nodeImmutable( MaterialNode, MaterialNode.SPECULAR ); + +const materialSpecularIntensity = nodeImmutable( MaterialNode, MaterialNode.SPECULAR_INTENSITY ); +const materialSpecularColor = nodeImmutable( MaterialNode, MaterialNode.SPECULAR_COLOR ); + +const materialSpecularStrength = nodeImmutable( MaterialNode, MaterialNode.SPECULAR_STRENGTH ); +const materialReflectivity = nodeImmutable( MaterialNode, MaterialNode.REFLECTIVITY ); +const materialRoughness = nodeImmutable( MaterialNode, MaterialNode.ROUGHNESS ); +const materialMetalness = nodeImmutable( MaterialNode, MaterialNode.METALNESS ); +const materialNormal = nodeImmutable( MaterialNode, MaterialNode.NORMAL ); +const materialClearcoat = nodeImmutable( MaterialNode, MaterialNode.CLEARCOAT ); +const materialClearcoatRoughness = nodeImmutable( MaterialNode, MaterialNode.CLEARCOAT_ROUGHNESS ); +const materialClearcoatNormal = nodeImmutable( MaterialNode, MaterialNode.CLEARCOAT_NORMAL ); +const materialRotation = nodeImmutable( MaterialNode, MaterialNode.ROTATION ); +const materialSheen = nodeImmutable( MaterialNode, MaterialNode.SHEEN ); +const materialSheenRoughness = nodeImmutable( MaterialNode, MaterialNode.SHEEN_ROUGHNESS ); +const materialAnisotropy = nodeImmutable( MaterialNode, MaterialNode.ANISOTROPY ); +const materialIridescence = nodeImmutable( MaterialNode, MaterialNode.IRIDESCENCE ); +const materialIridescenceIOR = nodeImmutable( MaterialNode, MaterialNode.IRIDESCENCE_IOR ); +const materialIridescenceThickness = nodeImmutable( MaterialNode, MaterialNode.IRIDESCENCE_THICKNESS ); +const materialTransmission = nodeImmutable( MaterialNode, MaterialNode.TRANSMISSION ); +const materialThickness = nodeImmutable( MaterialNode, MaterialNode.THICKNESS ); +const materialIOR = nodeImmutable( MaterialNode, MaterialNode.IOR ); +const materialAttenuationDistance = nodeImmutable( MaterialNode, MaterialNode.ATTENUATION_DISTANCE ); +const materialAttenuationColor = nodeImmutable( MaterialNode, MaterialNode.ATTENUATION_COLOR ); +const materialLineScale = nodeImmutable( MaterialNode, MaterialNode.LINE_SCALE ); +const materialLineDashSize = nodeImmutable( MaterialNode, MaterialNode.LINE_DASH_SIZE ); +const materialLineGapSize = nodeImmutable( MaterialNode, MaterialNode.LINE_GAP_SIZE ); +const materialLineWidth = nodeImmutable( MaterialNode, MaterialNode.LINE_WIDTH ); +const materialLineDashOffset = nodeImmutable( MaterialNode, MaterialNode.LINE_DASH_OFFSET ); +const materialPointWidth = nodeImmutable( MaterialNode, MaterialNode.POINT_WIDTH ); +const materialDispersion = nodeImmutable( MaterialNode, MaterialNode.DISPERSION ); +const materialAnisotropyVector = uniform( new Vector2() ).onReference( function ( frame ) { + + return frame.material; + +} ).onRenderUpdate( function ( { material } ) { + + this.value.set( material.anisotropy * Math.cos( material.anisotropyRotation ), material.anisotropy * Math.sin( material.anisotropyRotation ) ); + +} ); + +addNodeClass( 'MaterialNode', MaterialNode ); + +const positionGeometry = /*#__PURE__*/ attribute( 'position', 'vec3' ); +const positionLocal = /*#__PURE__*/ positionGeometry.toVar( 'positionLocal' ); +const positionWorld = /*#__PURE__*/ varying( modelWorldMatrix.mul( positionLocal ).xyz, 'v_positionWorld' ); +const positionWorldDirection = /*#__PURE__*/ varying( positionLocal.transformDirection( modelWorldMatrix ), 'v_positionWorldDirection' ).normalize().toVar( 'positionWorldDirection' ); +const positionView = /*#__PURE__*/ varying( modelViewMatrix.mul( positionLocal ).xyz, 'v_positionView' ); +const positionViewDirection = /*#__PURE__*/ varying( positionView.negate(), 'v_positionViewDirection' ).normalize().toVar( 'positionViewDirection' ); + +class ModelViewProjectionNode extends TempNode { + + constructor( positionNode = null ) { + + super( 'vec4' ); + + this.positionNode = positionNode; + + } + + setup( builder ) { + + if ( builder.shaderStage === 'fragment' ) { + + return varying( builder.context.mvp ); + + } + + const position = this.positionNode || positionLocal; + + return cameraProjectionMatrix.mul( modelViewMatrix ).mul( position ); + + } + +} + +const modelViewProjection = nodeProxy( ModelViewProjectionNode ); + +addNodeClass( 'ModelViewProjectionNode', ModelViewProjectionNode ); + +class BufferAttributeNode extends InputNode { + + constructor( value, bufferType = null, bufferStride = 0, bufferOffset = 0 ) { + + super( value, bufferType ); + + this.isBufferNode = true; + + this.bufferType = bufferType; + this.bufferStride = bufferStride; + this.bufferOffset = bufferOffset; + + this.usage = StaticDrawUsage; + this.instanced = false; + + this.attribute = null; + + this.global = true; + + if ( value && value.isBufferAttribute === true ) { + + this.attribute = value; + this.usage = value.usage; + this.instanced = value.isInstancedBufferAttribute; + + } + + } + + getHash( builder ) { + + if ( this.bufferStride === 0 && this.bufferOffset === 0 ) { + + let bufferData = builder.globalCache.getData( this.value ); + + if ( bufferData === undefined ) { + + bufferData = { + node: this + }; + + builder.globalCache.setData( this.value, bufferData ); + + } + + return bufferData.node.uuid; + + } + + return this.uuid; + + } + + getNodeType( builder ) { + + if ( this.bufferType === null ) { + + this.bufferType = builder.getTypeFromAttribute( this.attribute ); + + } + + return this.bufferType; + + } + + setup( builder ) { + + if ( this.attribute !== null ) return; + + const type = this.getNodeType( builder ); + const array = this.value; + const itemSize = builder.getTypeLength( type ); + const stride = this.bufferStride || itemSize; + const offset = this.bufferOffset; + + const buffer = array.isInterleavedBuffer === true ? array : new InterleavedBuffer( array, stride ); + const bufferAttribute = new InterleavedBufferAttribute( buffer, itemSize, offset ); + + buffer.setUsage( this.usage ); + + this.attribute = bufferAttribute; + this.attribute.isInstancedBufferAttribute = this.instanced; // @TODO: Add a possible: InstancedInterleavedBufferAttribute + + } + + generate( builder ) { + + const nodeType = this.getNodeType( builder ); + + const nodeAttribute = builder.getBufferAttributeFromNode( this, nodeType ); + const propertyName = builder.getPropertyName( nodeAttribute ); + + let output = null; + + if ( builder.shaderStage === 'vertex' || builder.shaderStage === 'compute' ) { + + this.name = propertyName; + + output = propertyName; + + } else { + + const nodeVarying = varying( this ); + + output = nodeVarying.build( builder, nodeType ); + + } + + return output; + + } + + getInputType( /*builder*/ ) { + + return 'bufferAttribute'; + + } + + setUsage( value ) { + + this.usage = value; + + if ( this.attribute && this.attribute.isBufferAttribute === true ) { + + this.attribute.usage = value; + + } + + return this; + + } + + setInstanced( value ) { + + this.instanced = value; + + return this; + + } + +} + +const bufferAttribute = ( array, type, stride, offset ) => nodeObject( new BufferAttributeNode( array, type, stride, offset ) ); +const dynamicBufferAttribute = ( array, type, stride, offset ) => bufferAttribute( array, type, stride, offset ).setUsage( DynamicDrawUsage ); + +const instancedBufferAttribute = ( array, type, stride, offset ) => bufferAttribute( array, type, stride, offset ).setInstanced( true ); +const instancedDynamicBufferAttribute = ( array, type, stride, offset ) => dynamicBufferAttribute( array, type, stride, offset ).setInstanced( true ); + +addNodeElement( 'toAttribute', ( bufferNode ) => bufferAttribute( bufferNode.value ) ); + +addNodeClass( 'BufferAttributeNode', BufferAttributeNode ); + +class InstanceNode extends Node { + + constructor( instanceMesh ) { + + super( 'void' ); + + this.instanceMesh = instanceMesh; + + this.instanceMatrixNode = null; + + this.instanceColorNode = null; + + this.updateType = NodeUpdateType.FRAME; + + this.buffer = null; + this.bufferColor = null; + + } + + setup( /*builder*/ ) { + + let instanceMatrixNode = this.instanceMatrixNode; + + const instanceMesh = this.instanceMesh; + + if ( instanceMatrixNode === null ) { + + const instanceAttribute = instanceMesh.instanceMatrix; + const buffer = new InstancedInterleavedBuffer( instanceAttribute.array, 16, 1 ); + + this.buffer = buffer; + const bufferFn = instanceAttribute.usage === DynamicDrawUsage ? instancedDynamicBufferAttribute : instancedBufferAttribute; + + const instanceBuffers = [ + // F.Signature -> bufferAttribute( array, type, stride, offset ) + bufferFn( buffer, 'vec4', 16, 0 ), + bufferFn( buffer, 'vec4', 16, 4 ), + bufferFn( buffer, 'vec4', 16, 8 ), + bufferFn( buffer, 'vec4', 16, 12 ) + ]; + + instanceMatrixNode = mat4( ...instanceBuffers ); + + this.instanceMatrixNode = instanceMatrixNode; + + } + + const instanceColorAttribute = instanceMesh.instanceColor; + + if ( instanceColorAttribute && this.instanceColorNode === null ) { + + const buffer = new InstancedBufferAttribute( instanceColorAttribute.array, 3 ); + const bufferFn = instanceColorAttribute.usage === DynamicDrawUsage ? instancedDynamicBufferAttribute : instancedBufferAttribute; + + this.bufferColor = buffer; + this.instanceColorNode = vec3( bufferFn( buffer, 'vec3', 3, 0 ) ); + + } + + // POSITION + + const instancePosition = instanceMatrixNode.mul( positionLocal ).xyz; + + // NORMAL + + const m = mat3( instanceMatrixNode[ 0 ].xyz, instanceMatrixNode[ 1 ].xyz, instanceMatrixNode[ 2 ].xyz ); + + const transformedNormal = normalLocal.div( vec3( m[ 0 ].dot( m[ 0 ] ), m[ 1 ].dot( m[ 1 ] ), m[ 2 ].dot( m[ 2 ] ) ) ); + + const instanceNormal = m.mul( transformedNormal ).xyz; + + // ASSIGNS + + positionLocal.assign( instancePosition ); + normalLocal.assign( instanceNormal ); + + // COLOR + + if ( this.instanceColorNode !== null ) { + + varyingProperty( 'vec3', 'vInstanceColor' ).assign( this.instanceColorNode ); + + } + + } + + update( /*frame*/ ) { + + if ( this.instanceMesh.instanceMatrix.usage !== DynamicDrawUsage && this.instanceMesh.instanceMatrix.version !== this.buffer.version ) { + + this.buffer.version = this.instanceMesh.instanceMatrix.version; + + } + + if ( this.instanceMesh.instanceColor && this.instanceMesh.instanceColor.usage !== DynamicDrawUsage && this.instanceMesh.instanceColor.version !== this.bufferColor.version ) { + + this.bufferColor.version = this.instanceMesh.instanceColor.version; + + } + + } + +} + +const instance = nodeProxy( InstanceNode ); + +addNodeClass( 'InstanceNode', InstanceNode ); + +const tangentGeometry = /*#__PURE__*/ tslFn( ( stack, builder ) => { + + if ( builder.geometry.hasAttribute( 'tangent' ) === false ) { + + builder.geometry.computeTangents(); + + } + + return attribute( 'tangent', 'vec4' ); + +} )(); + +const tangentLocal = /*#__PURE__*/ tangentGeometry.xyz.toVar( 'tangentLocal' ); +const tangentView = /*#__PURE__*/ varying( modelViewMatrix.mul( vec4( tangentLocal, 0 ) ).xyz, 'v_tangentView' ).normalize().toVar( 'tangentView' ); +const tangentWorld = /*#__PURE__*/ varying( tangentView.transformDirection( cameraViewMatrix ), 'v_tangentWorld' ).normalize().toVar( 'tangentWorld' ); +const transformedTangentView = /*#__PURE__*/ tangentView.toVar( 'transformedTangentView' ); +const transformedTangentWorld = /*#__PURE__*/ transformedTangentView.transformDirection( cameraViewMatrix ).normalize().toVar( 'transformedTangentWorld' ); + +class BatchNode extends Node { + + constructor( batchMesh ) { + + super( 'void' ); + + this.batchMesh = batchMesh; + + + this.instanceColorNode = null; + + this.batchingIdNode = null; + + } + + setup( builder ) { + + // POSITION + + if ( this.batchingIdNode === null ) { + + if ( builder.getDrawIndex() === null ) { + + this.batchingIdNode = instanceIndex; + + } else { + + this.batchingIdNode = drawIndex; + + } + + } + + const getIndirectIndex = tslFn( ( [ id ] ) => { + + const size = textureSize( textureLoad( this.batchMesh._indirectTexture ), 0 ); + const x = int( id ).remainder( int( size ) ); + const y = int( id ).div( int( size ) ); + return textureLoad( this.batchMesh._indirectTexture, ivec2( x, y ), null, 'uvec4' ).x; + + } ).setLayout( { + name: 'getIndirectIndex', + type: 'uint', + inputs: [ + { name: 'id', type: 'int' } + ] + } ); + + const matriceTexture = this.batchMesh._matricesTexture; + + const size = textureSize( textureLoad( matriceTexture ), 0 ); + const j = float( getIndirectIndex( int( this.batchingIdNode ) ) ).mul( 4 ).toVar(); + + const x = int( j.mod( size ) ); + const y = int( j ).div( int( size ) ); + const batchingMatrix = mat4( + textureLoad( matriceTexture, ivec2( x, y ) ), + textureLoad( matriceTexture, ivec2( x.add( 1 ), y ) ), + textureLoad( matriceTexture, ivec2( x.add( 2 ), y ) ), + textureLoad( matriceTexture, ivec2( x.add( 3 ), y ) ) + ); + + const bm = mat3( + batchingMatrix[ 0 ].xyz, + batchingMatrix[ 1 ].xyz, + batchingMatrix[ 2 ].xyz + ); + + positionLocal.assign( batchingMatrix.mul( positionLocal ) ); + + const transformedNormal = normalLocal.div( vec3( bm[ 0 ].dot( bm[ 0 ] ), bm[ 1 ].dot( bm[ 1 ] ), bm[ 2 ].dot( bm[ 2 ] ) ) ); + + const batchingNormal = bm.mul( transformedNormal ).xyz; + + normalLocal.assign( batchingNormal ); + + if ( builder.hasGeometryAttribute( 'tangent' ) ) { + + tangentLocal.mulAssign( bm ); + + } + + } + +} + +const batch = nodeProxy( BatchNode ); + +addNodeClass( 'batch', BatchNode ); + +class SkinningNode extends Node { + + constructor( skinnedMesh, useReference = false ) { + + super( 'void' ); + + this.skinnedMesh = skinnedMesh; + this.useReference = useReference; + + this.updateType = NodeUpdateType.OBJECT; + + // + + this.skinIndexNode = attribute( 'skinIndex', 'uvec4' ); + this.skinWeightNode = attribute( 'skinWeight', 'vec4' ); + + let bindMatrixNode, bindMatrixInverseNode, boneMatricesNode; + + if ( useReference ) { + + bindMatrixNode = reference( 'bindMatrix', 'mat4' ); + bindMatrixInverseNode = reference( 'bindMatrixInverse', 'mat4' ); + boneMatricesNode = referenceBuffer( 'skeleton.boneMatrices', 'mat4', skinnedMesh.skeleton.bones.length ); + + } else { + + bindMatrixNode = uniform( skinnedMesh.bindMatrix, 'mat4' ); + bindMatrixInverseNode = uniform( skinnedMesh.bindMatrixInverse, 'mat4' ); + boneMatricesNode = buffer( skinnedMesh.skeleton.boneMatrices, 'mat4', skinnedMesh.skeleton.bones.length ); + + } + + this.bindMatrixNode = bindMatrixNode; + this.bindMatrixInverseNode = bindMatrixInverseNode; + this.boneMatricesNode = boneMatricesNode; + + } + + setup( builder ) { + + const { skinIndexNode, skinWeightNode, bindMatrixNode, bindMatrixInverseNode, boneMatricesNode } = this; + + const boneMatX = boneMatricesNode.element( skinIndexNode.x ); + const boneMatY = boneMatricesNode.element( skinIndexNode.y ); + const boneMatZ = boneMatricesNode.element( skinIndexNode.z ); + const boneMatW = boneMatricesNode.element( skinIndexNode.w ); + + // POSITION + + const skinVertex = bindMatrixNode.mul( positionLocal ); + + const skinned = add( + boneMatX.mul( skinWeightNode.x ).mul( skinVertex ), + boneMatY.mul( skinWeightNode.y ).mul( skinVertex ), + boneMatZ.mul( skinWeightNode.z ).mul( skinVertex ), + boneMatW.mul( skinWeightNode.w ).mul( skinVertex ) + ); + + const skinPosition = bindMatrixInverseNode.mul( skinned ).xyz; + + // NORMAL + + let skinMatrix = add( + skinWeightNode.x.mul( boneMatX ), + skinWeightNode.y.mul( boneMatY ), + skinWeightNode.z.mul( boneMatZ ), + skinWeightNode.w.mul( boneMatW ) + ); + + skinMatrix = bindMatrixInverseNode.mul( skinMatrix ).mul( bindMatrixNode ); + + const skinNormal = skinMatrix.transformDirection( normalLocal ).xyz; + + // ASSIGNS + + positionLocal.assign( skinPosition ); + normalLocal.assign( skinNormal ); + + if ( builder.hasGeometryAttribute( 'tangent' ) ) { + + tangentLocal.assign( skinNormal ); + + } + + } + + generate( builder, output ) { + + if ( output !== 'void' ) { + + return positionLocal.build( builder, output ); + + } + + } + + update( frame ) { + + const object = this.useReference ? frame.object : this.skinnedMesh; + + object.skeleton.update(); + + } + +} + +const skinning = ( skinnedMesh ) => nodeObject( new SkinningNode( skinnedMesh ) ); +const skinningReference = ( skinnedMesh ) => nodeObject( new SkinningNode( skinnedMesh, true ) ); + +addNodeClass( 'SkinningNode', SkinningNode ); + +class LoopNode extends Node { + + constructor( params = [] ) { + + super(); + + this.params = params; + + } + + getVarName( index ) { + + return String.fromCharCode( 'i'.charCodeAt() + index ); + + } + + getProperties( builder ) { + + const properties = builder.getNodeProperties( this ); + + if ( properties.stackNode !== undefined ) return properties; + + // + + const inputs = {}; + + for ( let i = 0, l = this.params.length - 1; i < l; i ++ ) { + + const param = this.params[ i ]; + + const name = ( param.isNode !== true && param.name ) || this.getVarName( i ); + const type = ( param.isNode !== true && param.type ) || 'int'; + + inputs[ name ] = expression( name, type ); + + } + + const stack = builder.addStack(); // TODO: cache() it + + properties.returnsNode = this.params[ this.params.length - 1 ]( inputs, stack, builder ); + properties.stackNode = stack; + + builder.removeStack(); + + return properties; + + } + + getNodeType( builder ) { + + const { returnsNode } = this.getProperties( builder ); + + return returnsNode ? returnsNode.getNodeType( builder ) : 'void'; + + } + + setup( builder ) { + + // setup properties + + this.getProperties( builder ); + + } + + generate( builder ) { + + const properties = this.getProperties( builder ); + + const params = this.params; + const stackNode = properties.stackNode; + + for ( let i = 0, l = params.length - 1; i < l; i ++ ) { + + const param = params[ i ]; + + let start = null, end = null, name = null, type = null, condition = null, update = null; + + if ( param.isNode ) { + + type = 'int'; + name = this.getVarName( i ); + start = '0'; + end = param.build( builder, type ); + condition = '<'; + + } else { + + type = param.type || 'int'; + name = param.name || this.getVarName( i ); + start = param.start; + end = param.end; + condition = param.condition; + update = param.update; + + if ( typeof start === 'number' ) start = start.toString(); + else if ( start && start.isNode ) start = start.build( builder, type ); + + if ( typeof end === 'number' ) end = end.toString(); + else if ( end && end.isNode ) end = end.build( builder, type ); + + if ( start !== undefined && end === undefined ) { + + start = start + ' - 1'; + end = '0'; + condition = '>='; + + } else if ( end !== undefined && start === undefined ) { + + start = '0'; + condition = '<'; + + } + + if ( condition === undefined ) { + + if ( Number( start ) > Number( end ) ) { + + condition = '>='; + + } else { + + condition = '<'; + + } + + } + + } + + const internalParam = { start, end, condition }; + + // + + const startSnippet = internalParam.start; + const endSnippet = internalParam.end; + + let declarationSnippet = ''; + let conditionalSnippet = ''; + let updateSnippet = ''; + + if ( ! update ) { + + if ( type === 'int' || type === 'uint' ) { + + if ( condition.includes( '<' ) ) update = '++'; + else update = '--'; + + } else { + + if ( condition.includes( '<' ) ) update = '+= 1.'; + else update = '-= 1.'; + + } + + } + + declarationSnippet += builder.getVar( type, name ) + ' = ' + startSnippet; + + conditionalSnippet += name + ' ' + condition + ' ' + endSnippet; + updateSnippet += name + ' ' + update; + + const forSnippet = `for ( ${ declarationSnippet }; ${ conditionalSnippet }; ${ updateSnippet } )`; + + builder.addFlowCode( ( i === 0 ? '\n' : '' ) + builder.tab + forSnippet + ' {\n\n' ).addFlowTab(); + + } + + const stackSnippet = stackNode.build( builder, 'void' ); + + const returnsSnippet = properties.returnsNode ? properties.returnsNode.build( builder ) : ''; + + builder.removeFlowTab().addFlowCode( '\n' + builder.tab + stackSnippet ); + + for ( let i = 0, l = this.params.length - 1; i < l; i ++ ) { + + builder.addFlowCode( ( i === 0 ? '' : builder.tab ) + '}\n\n' ).removeFlowTab(); + + } + + builder.addFlowTab(); + + return returnsSnippet; + + } + +} + +const loop = ( ...params ) => nodeObject( new LoopNode( nodeArray( params, 'int' ) ) ).append(); +const Continue = () => expression( 'continue' ).append(); +const Break = () => expression( 'break' ).append(); + +addNodeElement( 'loop', ( returns, ...params ) => bypass( returns, loop( ...params ) ) ); + +addNodeClass( 'LoopNode', LoopNode ); + +const morphTextures = new WeakMap(); +const morphVec4 = new Vector4(); + +const getMorph = tslFn( ( { bufferMap, influence, stride, width, depth, offset } ) => { + + const texelIndex = int( vertexIndex ).mul( stride ).add( offset ); + + const y = texelIndex.div( width ); + const x = texelIndex.sub( y.mul( width ) ); + + const bufferAttrib = textureLoad( bufferMap, ivec2( x, y ) ).depth( depth ); + + return bufferAttrib.mul( influence ); + +} ); + +function getEntry( geometry ) { + + const hasMorphPosition = geometry.morphAttributes.position !== undefined; + const hasMorphNormals = geometry.morphAttributes.normal !== undefined; + const hasMorphColors = geometry.morphAttributes.color !== undefined; + + // instead of using attributes, the WebGL 2 code path encodes morph targets + // into an array of data textures. Each layer represents a single morph target. + + const morphAttribute = geometry.morphAttributes.position || geometry.morphAttributes.normal || geometry.morphAttributes.color; + const morphTargetsCount = ( morphAttribute !== undefined ) ? morphAttribute.length : 0; + + let entry = morphTextures.get( geometry ); + + if ( entry === undefined || entry.count !== morphTargetsCount ) { + + if ( entry !== undefined ) entry.texture.dispose(); + + const morphTargets = geometry.morphAttributes.position || []; + const morphNormals = geometry.morphAttributes.normal || []; + const morphColors = geometry.morphAttributes.color || []; + + let vertexDataCount = 0; + + if ( hasMorphPosition === true ) vertexDataCount = 1; + if ( hasMorphNormals === true ) vertexDataCount = 2; + if ( hasMorphColors === true ) vertexDataCount = 3; + + let width = geometry.attributes.position.count * vertexDataCount; + let height = 1; + + const maxTextureSize = 4096; // @TODO: Use 'capabilities.maxTextureSize' + + if ( width > maxTextureSize ) { + + height = Math.ceil( width / maxTextureSize ); + width = maxTextureSize; + + } + + const buffer = new Float32Array( width * height * 4 * morphTargetsCount ); + + const bufferTexture = new DataArrayTexture( buffer, width, height, morphTargetsCount ); + bufferTexture.type = FloatType; + bufferTexture.needsUpdate = true; + + // fill buffer + + const vertexDataStride = vertexDataCount * 4; + + for ( let i = 0; i < morphTargetsCount; i ++ ) { + + const morphTarget = morphTargets[ i ]; + const morphNormal = morphNormals[ i ]; + const morphColor = morphColors[ i ]; + + const offset = width * height * 4 * i; + + for ( let j = 0; j < morphTarget.count; j ++ ) { + + const stride = j * vertexDataStride; + + if ( hasMorphPosition === true ) { + + morphVec4.fromBufferAttribute( morphTarget, j ); + + buffer[ offset + stride + 0 ] = morphVec4.x; + buffer[ offset + stride + 1 ] = morphVec4.y; + buffer[ offset + stride + 2 ] = morphVec4.z; + buffer[ offset + stride + 3 ] = 0; + + } + + if ( hasMorphNormals === true ) { + + morphVec4.fromBufferAttribute( morphNormal, j ); + + buffer[ offset + stride + 4 ] = morphVec4.x; + buffer[ offset + stride + 5 ] = morphVec4.y; + buffer[ offset + stride + 6 ] = morphVec4.z; + buffer[ offset + stride + 7 ] = 0; + + } + + if ( hasMorphColors === true ) { + + morphVec4.fromBufferAttribute( morphColor, j ); + + buffer[ offset + stride + 8 ] = morphVec4.x; + buffer[ offset + stride + 9 ] = morphVec4.y; + buffer[ offset + stride + 10 ] = morphVec4.z; + buffer[ offset + stride + 11 ] = ( morphColor.itemSize === 4 ) ? morphVec4.w : 1; + + } + + } + + } + + entry = { + count: morphTargetsCount, + texture: bufferTexture, + stride: vertexDataCount, + size: new Vector2( width, height ) + }; + + morphTextures.set( geometry, entry ); + + function disposeTexture() { + + bufferTexture.dispose(); + + morphTextures.delete( geometry ); + + geometry.removeEventListener( 'dispose', disposeTexture ); + + } + + geometry.addEventListener( 'dispose', disposeTexture ); + + } + + return entry; + +} + + +class MorphNode extends Node { + + constructor( mesh ) { + + super( 'void' ); + + this.mesh = mesh; + this.morphBaseInfluence = uniform( 1 ); + + this.updateType = NodeUpdateType.OBJECT; + + } + + setup( builder ) { + + const { geometry } = builder; + + const hasMorphPosition = geometry.morphAttributes.position !== undefined; + const hasMorphNormals = geometry.morphAttributes.normal !== undefined; + + const morphAttribute = geometry.morphAttributes.position || geometry.morphAttributes.normal || geometry.morphAttributes.color; + const morphTargetsCount = ( morphAttribute !== undefined ) ? morphAttribute.length : 0; + + // nodes + + const { texture: bufferMap, stride, size } = getEntry( geometry ); + + if ( hasMorphPosition === true ) positionLocal.mulAssign( this.morphBaseInfluence ); + if ( hasMorphNormals === true ) normalLocal.mulAssign( this.morphBaseInfluence ); + + const width = int( size.width ); + + loop( morphTargetsCount, ( { i } ) => { + + const influence = float( 0 ).toVar(); + + if ( this.mesh.count > 1 && ( this.mesh.morphTexture !== null && this.mesh.morphTexture !== undefined ) ) { + + influence.assign( textureLoad( this.mesh.morphTexture, ivec2( int( i ).add( 1 ), int( instanceIndex ) ) ).r ); + + } else { + + influence.assign( reference( 'morphTargetInfluences', 'float' ).element( i ).toVar() ); + + } + + if ( hasMorphPosition === true ) { + + positionLocal.addAssign( getMorph( { + bufferMap, + influence, + stride, + width, + depth: i, + offset: int( 0 ) + } ) ); + + } + + if ( hasMorphNormals === true ) { + + normalLocal.addAssign( getMorph( { + bufferMap, + influence, + stride, + width, + depth: i, + offset: int( 1 ) + } ) ); + + } + + } ); + + } + + update() { + + const morphBaseInfluence = this.morphBaseInfluence; + + if ( this.mesh.geometry.morphTargetsRelative ) { + + morphBaseInfluence.value = 1; + + } else { + + morphBaseInfluence.value = 1 - this.mesh.morphTargetInfluences.reduce( ( a, b ) => a + b, 0 ); + + } + + } + +} + +const morphReference = nodeProxy( MorphNode ); + +addNodeClass( 'MorphNode', MorphNode ); + +const reflectView = /*#__PURE__*/ positionViewDirection.negate().reflect( transformedNormalView ); +const reflectVector = /*#__PURE__*/ reflectView.transformDirection( cameraViewMatrix ).toVar( 'reflectVector' ); + +class CubeTextureNode extends TextureNode { + + constructor( value, uvNode = null, levelNode = null ) { + + super( value, uvNode, levelNode ); + + this.isCubeTextureNode = true; + + } + + getInputType( /*builder*/ ) { + + return 'cubeTexture'; + + } + + getDefaultUV() { + + return reflectVector; + + } + + setUpdateMatrix( /*updateMatrix*/ ) { } // Ignore .updateMatrix for CubeTextureNode + + setupUV( builder, uvNode ) { + + const texture = this.value; + + if ( builder.renderer.coordinateSystem === WebGPUCoordinateSystem || ! texture.isRenderTargetTexture ) { + + return vec3( uvNode.x.negate(), uvNode.yz ); + + } else { + + return uvNode; + + } + + } + + generateUV( builder, cubeUV ) { + + return cubeUV.build( builder, 'vec3' ); + + } + +} + +const cubeTexture = nodeProxy( CubeTextureNode ); + +addNodeElement( 'cubeTexture', cubeTexture ); + +addNodeClass( 'CubeTextureNode', CubeTextureNode ); + +class LightingNode extends Node { + + constructor() { + + super( 'vec3' ); + + } + + generate( /*builder*/ ) { + + console.warn( 'Abstract function.' ); + + } + +} + +addNodeClass( 'LightingNode', LightingNode ); + +let overrideMaterial = null; + +class AnalyticLightNode extends LightingNode { + + constructor( light = null ) { + + super(); + + this.updateType = NodeUpdateType.FRAME; + + this.light = light; + + this.rtt = null; + this.shadowNode = null; + this.shadowMaskNode = null; + + this.color = new Color(); + this._defaultColorNode = uniform( this.color ); + + this.colorNode = this._defaultColorNode; + + this.isAnalyticLightNode = true; + + } + + getCacheKey() { + + return super.getCacheKey() + '-' + ( this.light.id + '-' + ( this.light.castShadow ? '1' : '0' ) ); + + } + + getHash() { + + return this.light.uuid; + + } + + setupShadow( builder ) { + + const { object } = builder; + + if ( object.receiveShadow === false ) return; + + let shadowNode = this.shadowNode; + + if ( shadowNode === null ) { + + if ( overrideMaterial === null ) { + + overrideMaterial = builder.createNodeMaterial(); + overrideMaterial.fragmentNode = vec4( 0, 0, 0, 1 ); + overrideMaterial.isShadowNodeMaterial = true; // Use to avoid other overrideMaterial override material.fragmentNode unintentionally when using material.shadowNode + + } + + const shadow = this.light.shadow; + const rtt = builder.createRenderTarget( shadow.mapSize.width, shadow.mapSize.height ); + + const depthTexture = new DepthTexture(); + depthTexture.minFilter = NearestFilter; + depthTexture.magFilter = NearestFilter; + depthTexture.image.width = shadow.mapSize.width; + depthTexture.image.height = shadow.mapSize.height; + depthTexture.compareFunction = LessCompare; + + rtt.depthTexture = depthTexture; + + shadow.camera.updateProjectionMatrix(); + + // + + const shadowIntensity = reference( 'intensity', 'float', shadow ); + const bias = reference( 'bias', 'float', shadow ); + const normalBias = reference( 'normalBias', 'float', shadow ); + + const position = object.material.shadowPositionNode || positionWorld; + + let shadowCoord = uniform( shadow.matrix ).mul( position.add( normalWorld.mul( normalBias ) ) ); + shadowCoord = shadowCoord.xyz.div( shadowCoord.w ); + + const frustumTest = shadowCoord.x.greaterThanEqual( 0 ) + .and( shadowCoord.x.lessThanEqual( 1 ) ) + .and( shadowCoord.y.greaterThanEqual( 0 ) ) + .and( shadowCoord.y.lessThanEqual( 1 ) ) + .and( shadowCoord.z.lessThanEqual( 1 ) ); + + let coordZ = shadowCoord.z.add( bias ); + + if ( builder.renderer.coordinateSystem === WebGPUCoordinateSystem ) { + + coordZ = coordZ.mul( 2 ).sub( 1 ); // WebGPU: Convertion [ 0, 1 ] to [ - 1, 1 ] + + } + + shadowCoord = vec3( + shadowCoord.x, + shadowCoord.y.oneMinus(), // follow webgpu standards + coordZ + ); + + const textureCompare = ( depthTexture, shadowCoord, compare ) => texture( depthTexture, shadowCoord ).compare( compare ); + //const textureCompare = ( depthTexture, shadowCoord, compare ) => compare.step( texture( depthTexture, shadowCoord ) ); + + // BasicShadowMap + + shadowNode = textureCompare( depthTexture, shadowCoord.xy, shadowCoord.z ); + + // PCFShadowMap + /* + const mapSize = reference( 'mapSize', 'vec2', shadow ); + const radius = reference( 'radius', 'float', shadow ); + + const texelSize = vec2( 1 ).div( mapSize ); + const dx0 = texelSize.x.negate().mul( radius ); + const dy0 = texelSize.y.negate().mul( radius ); + const dx1 = texelSize.x.mul( radius ); + const dy1 = texelSize.y.mul( radius ); + const dx2 = dx0.mul( 2 ); + const dy2 = dy0.mul( 2 ); + const dx3 = dx1.mul( 2 ); + const dy3 = dy1.mul( 2 ); + + shadowNode = add( + textureCompare( depthTexture, shadowCoord.xy.add( vec2( dx0, dy0 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( 0, dy0 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( dx1, dy0 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( dx2, dy2 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( 0, dy2 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( dx3, dy2 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( dx0, 0 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( dx2, 0 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy, shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( dx3, 0 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( dx1, 0 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( dx2, dy3 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( 0, dy3 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( dx3, dy3 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( dx0, dy1 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( 0, dy1 ) ), shadowCoord.z ), + textureCompare( depthTexture, shadowCoord.xy.add( vec2( dx1, dy1 ) ), shadowCoord.z ) + ).mul( 1 / 17 ); + */ + // + + const shadowColor = texture( rtt.texture, shadowCoord ); + const shadowMaskNode = frustumTest.mix( 1, shadowNode.mix( shadowColor.a.mix( 1, shadowColor ), 1 ) ); + + this.rtt = rtt; + this.colorNode = this.colorNode.mul( mix( 1, shadowMaskNode, shadowIntensity ) ); + + this.shadowNode = shadowNode; + this.shadowMaskNode = shadowMaskNode; + + // + + this.updateBeforeType = NodeUpdateType.RENDER; + + } + + } + + setup( builder ) { + + if ( this.light.castShadow ) this.setupShadow( builder ); + else if ( this.shadowNode !== null ) this.disposeShadow(); + + } + + updateShadow( frame ) { + + const { rtt, light } = this; + const { renderer, scene, camera } = frame; + + const currentOverrideMaterial = scene.overrideMaterial; + + scene.overrideMaterial = overrideMaterial; + + rtt.setSize( light.shadow.mapSize.width, light.shadow.mapSize.height ); + + light.shadow.updateMatrices( light ); + light.shadow.camera.layers.mask = camera.layers.mask; + + const currentToneMapping = renderer.toneMapping; + const currentRenderTarget = renderer.getRenderTarget(); + const currentRenderObjectFunction = renderer.getRenderObjectFunction(); + + renderer.setRenderObjectFunction( ( object, ...params ) => { + + if ( object.castShadow === true ) { + + renderer.renderObject( object, ...params ); + + } + + } ); + + renderer.setRenderTarget( rtt ); + renderer.toneMapping = NoToneMapping; + + renderer.render( scene, light.shadow.camera ); + + renderer.setRenderTarget( currentRenderTarget ); + renderer.setRenderObjectFunction( currentRenderObjectFunction ); + + renderer.toneMapping = currentToneMapping; + + scene.overrideMaterial = currentOverrideMaterial; + + } + + disposeShadow() { + + this.rtt.dispose(); + + this.shadowNode = null; + this.shadowMaskNode = null; + this.rtt = null; + + this.colorNode = this._defaultColorNode; + + } + + updateBefore( frame ) { + + const { light } = this; + + if ( light.castShadow ) this.updateShadow( frame ); + + } + + update( /*frame*/ ) { + + const { light } = this; + + this.color.copy( light.color ).multiplyScalar( light.intensity ); + + } + +} + +addNodeClass( 'AnalyticLightNode', AnalyticLightNode ); + +const LightNodes = new WeakMap(); + +const sortLights = ( lights ) => { + + return lights.sort( ( a, b ) => a.id - b.id ); + +}; + +class LightsNode extends Node { + + constructor( lightNodes = [] ) { + + super( 'vec3' ); + + this.totalDiffuseNode = vec3().temp( 'totalDiffuse' ); + this.totalSpecularNode = vec3().temp( 'totalSpecular' ); + + this.outgoingLightNode = vec3().temp( 'outgoingLight' ); + + this.lightNodes = lightNodes; + + this._hash = null; + + } + + get hasLight() { + + return this.lightNodes.length > 0; + + } + + getHash() { + + if ( this._hash === null ) { + + const hash = []; + + for ( const lightNode of this.lightNodes ) { + + hash.push( lightNode.getHash() ); + + } + + this._hash = 'lights-' + hash.join( ',' ); + + } + + return this._hash; + + } + + analyze( builder ) { + + const properties = builder.getDataFromNode( this ); + + for ( const node of properties.nodes ) { + + node.build( builder ); + + } + + } + + setup( builder ) { + + const context = builder.context; + const lightingModel = context.lightingModel; + + let outgoingLightNode = this.outgoingLightNode; + + if ( lightingModel ) { + + const { lightNodes, totalDiffuseNode, totalSpecularNode } = this; + + context.outgoingLight = outgoingLightNode; + + const stack = builder.addStack(); + + // + + const properties = builder.getDataFromNode( this ); + properties.nodes = stack.nodes; + + // + + lightingModel.start( context, stack, builder ); + + // lights + + for ( const lightNode of lightNodes ) { + + lightNode.build( builder ); + + } + + // + + lightingModel.indirectDiffuse( context, stack, builder ); + lightingModel.indirectSpecular( context, stack, builder ); + lightingModel.ambientOcclusion( context, stack, builder ); + + // + + const { backdrop, backdropAlpha } = context; + const { directDiffuse, directSpecular, indirectDiffuse, indirectSpecular } = context.reflectedLight; + + let totalDiffuse = directDiffuse.add( indirectDiffuse ); + + if ( backdrop !== null ) { + + if ( backdropAlpha !== null ) { + + totalDiffuse = vec3( backdropAlpha.mix( totalDiffuse, backdrop ) ); + + } else { + + totalDiffuse = vec3( backdrop ); + + } + + context.material.transparent = true; + + } + + totalDiffuseNode.assign( totalDiffuse ); + totalSpecularNode.assign( directSpecular.add( indirectSpecular ) ); + + outgoingLightNode.assign( totalDiffuseNode.add( totalSpecularNode ) ); + + // + + lightingModel.finish( context, stack, builder ); + + // + + outgoingLightNode = outgoingLightNode.bypass( builder.removeStack() ); + + } + + return outgoingLightNode; + + } + + _getLightNodeById( id ) { + + for ( const lightNode of this.lightNodes ) { + + if ( lightNode.isAnalyticLightNode && lightNode.light.id === id ) { + + return lightNode; + + } + + } + + return null; + + } + + fromLights( lights = [] ) { + + const lightNodes = []; + + lights = sortLights( lights ); + + for ( const light of lights ) { + + let lightNode = this._getLightNodeById( light.id ); + + if ( lightNode === null ) { + + const lightClass = light.constructor; + const lightNodeClass = LightNodes.has( lightClass ) ? LightNodes.get( lightClass ) : AnalyticLightNode; + + lightNode = nodeObject( new lightNodeClass( light ) ); + + } + + lightNodes.push( lightNode ); + + } + + this.lightNodes = lightNodes; + this._hash = null; + + return this; + + } + +} + +const lights = ( lights ) => nodeObject( new LightsNode().fromLights( lights ) ); +const lightsNode = nodeProxy( LightsNode ); + +function addLightNode( lightClass, lightNodeClass ) { + + if ( LightNodes.has( lightClass ) ) { + + console.warn( `Redefinition of light node ${ lightNodeClass.type }` ); + return; + + } + + if ( typeof lightClass !== 'function' ) throw new Error( `Light ${ lightClass.name } is not a class` ); + if ( typeof lightNodeClass !== 'function' || ! lightNodeClass.type ) throw new Error( `Light node ${ lightNodeClass.type } is not a class` ); + + LightNodes.set( lightClass, lightNodeClass ); + +} + +class AONode extends LightingNode { + + constructor( aoNode = null ) { + + super(); + + this.aoNode = aoNode; + + } + + setup( builder ) { + + const aoIntensity = 1; + const aoNode = this.aoNode.x.sub( 1.0 ).mul( aoIntensity ).add( 1.0 ); + + builder.context.ambientOcclusion.mulAssign( aoNode ); + + } + +} + +addNodeClass( 'AONode', AONode ); + +class LightingContextNode extends ContextNode { + + constructor( node, lightingModel = null, backdropNode = null, backdropAlphaNode = null ) { + + super( node ); + + this.lightingModel = lightingModel; + this.backdropNode = backdropNode; + this.backdropAlphaNode = backdropAlphaNode; + + this._context = null; + + } + + getContext() { + + const { backdropNode, backdropAlphaNode } = this; + + const directDiffuse = vec3().temp( 'directDiffuse' ), + directSpecular = vec3().temp( 'directSpecular' ), + indirectDiffuse = vec3().temp( 'indirectDiffuse' ), + indirectSpecular = vec3().temp( 'indirectSpecular' ); + + const reflectedLight = { + directDiffuse, + directSpecular, + indirectDiffuse, + indirectSpecular + }; + + const context = { + radiance: vec3().temp( 'radiance' ), + irradiance: vec3().temp( 'irradiance' ), + iblIrradiance: vec3().temp( 'iblIrradiance' ), + ambientOcclusion: float( 1 ).temp( 'ambientOcclusion' ), + reflectedLight, + backdrop: backdropNode, + backdropAlpha: backdropAlphaNode + }; + + return context; + + } + + setup( builder ) { + + this.context = this._context || ( this._context = this.getContext() ); + this.context.lightingModel = this.lightingModel || builder.context.lightingModel; + + return super.setup( builder ); + + } + +} + +const lightingContext = nodeProxy( LightingContextNode ); + +addNodeElement( 'lightingContext', lightingContext ); + +addNodeClass( 'LightingContextNode', LightingContextNode ); + +const getBitangent = ( crossNormalTangent ) => crossNormalTangent.mul( tangentGeometry.w ).xyz; + +const bitangentGeometry = /*#__PURE__*/ varying( getBitangent( normalGeometry.cross( tangentGeometry ) ), 'v_bitangentGeometry' ).normalize().toVar( 'bitangentGeometry' ); +const bitangentLocal = /*#__PURE__*/ varying( getBitangent( normalLocal.cross( tangentLocal ) ), 'v_bitangentLocal' ).normalize().toVar( 'bitangentLocal' ); +const bitangentView = /*#__PURE__*/ varying( getBitangent( normalView.cross( tangentView ) ), 'v_bitangentView' ).normalize().toVar( 'bitangentView' ); +const bitangentWorld = /*#__PURE__*/ varying( getBitangent( normalWorld.cross( tangentWorld ) ), 'v_bitangentWorld' ).normalize().toVar( 'bitangentWorld' ); +const transformedBitangentView = /*#__PURE__*/ getBitangent( transformedNormalView.cross( transformedTangentView ) ).normalize().toVar( 'transformedBitangentView' ); +const transformedBitangentWorld = /*#__PURE__*/ transformedBitangentView.transformDirection( cameraViewMatrix ).normalize().toVar( 'transformedBitangentWorld' ); + +const TBNViewMatrix = mat3( tangentView, bitangentView, normalView ); + +const parallaxDirection = positionViewDirection.mul( TBNViewMatrix )/*.normalize()*/; +const parallaxUV = ( uv, scale ) => uv.sub( parallaxDirection.mul( scale ) ); + +const transformedBentNormalView = ( () => { + + // https://google.github.io/filament/Filament.md.html#lighting/imagebasedlights/anisotropy + + let bentNormal = anisotropyB.cross( positionViewDirection ); + bentNormal = bentNormal.cross( anisotropyB ).normalize(); + bentNormal = mix( bentNormal, transformedNormalView, anisotropy.mul( roughness.oneMinus() ).oneMinus().pow2().pow2() ).normalize(); + + return bentNormal; + + +} )(); + +class CondNode extends Node { + + constructor( condNode, ifNode, elseNode = null ) { + + super(); + + this.condNode = condNode; + + this.ifNode = ifNode; + this.elseNode = elseNode; + + } + + getNodeType( builder ) { + + const ifType = this.ifNode.getNodeType( builder ); + + if ( this.elseNode !== null ) { + + const elseType = this.elseNode.getNodeType( builder ); + + if ( builder.getTypeLength( elseType ) > builder.getTypeLength( ifType ) ) { + + return elseType; + + } + + } + + return ifType; + + } + + setup( builder ) { + + const properties = builder.getNodeProperties( this ); + properties.condNode = this.condNode.cache(); + properties.ifNode = this.ifNode.cache(); + properties.elseNode = this.elseNode ? this.elseNode.cache() : null; + + } + + generate( builder, output ) { + + const type = this.getNodeType( builder ); + + const nodeData = builder.getDataFromNode( this ); + + if ( nodeData.nodeProperty !== undefined ) { + + return nodeData.nodeProperty; + + } + + const { condNode, ifNode, elseNode } = builder.getNodeProperties( this ); + + const needsOutput = output !== 'void'; + const nodeProperty = needsOutput ? property( type ).build( builder ) : ''; + + nodeData.nodeProperty = nodeProperty; + + const nodeSnippet = condNode.build( builder, 'bool' ); + + builder.addFlowCode( `\n${ builder.tab }if ( ${ nodeSnippet } ) {\n\n` ).addFlowTab(); + + let ifSnippet = ifNode.build( builder, type ); + + if ( ifSnippet ) { + + if ( needsOutput ) { + + ifSnippet = nodeProperty + ' = ' + ifSnippet + ';'; + + } else { + + ifSnippet = 'return ' + ifSnippet + ';'; + + } + + } + + builder.removeFlowTab().addFlowCode( builder.tab + '\t' + ifSnippet + '\n\n' + builder.tab + '}' ); + + if ( elseNode !== null ) { + + builder.addFlowCode( ' else {\n\n' ).addFlowTab(); + + let elseSnippet = elseNode.build( builder, type ); + + if ( elseSnippet ) { + + if ( needsOutput ) { + + elseSnippet = nodeProperty + ' = ' + elseSnippet + ';'; + + } else { + + elseSnippet = 'return ' + elseSnippet + ';'; + + } + + } + + builder.removeFlowTab().addFlowCode( builder.tab + '\t' + elseSnippet + '\n\n' + builder.tab + '}\n\n' ); + + } else { + + builder.addFlowCode( '\n\n' ); + + } + + return builder.format( nodeProperty, type, output ); + + } + +} + +const cond = nodeProxy( CondNode ); + +addNodeElement( 'cond', cond ); + +addNodeClass( 'CondNode', CondNode ); + +// These defines must match with PMREMGenerator + +const cubeUV_r0 = float( 1.0 ); +const cubeUV_m0 = float( - 2.0 ); +const cubeUV_r1 = float( 0.8 ); +const cubeUV_m1 = float( - 1.0 ); +const cubeUV_r4 = float( 0.4 ); +const cubeUV_m4 = float( 2.0 ); +const cubeUV_r5 = float( 0.305 ); +const cubeUV_m5 = float( 3.0 ); +const cubeUV_r6 = float( 0.21 ); +const cubeUV_m6 = float( 4.0 ); + +const cubeUV_minMipLevel = float( 4.0 ); +const cubeUV_minTileSize = float( 16.0 ); + +// These shader functions convert between the UV coordinates of a single face of +// a cubemap, the 0-5 integer index of a cube face, and the direction vector for +// sampling a textureCube (not generally normalized ). + +const getFace = tslFn( ( [ direction ] ) => { + + const absDirection = vec3( abs( direction ) ).toVar(); + const face = float( - 1.0 ).toVar(); + + If( absDirection.x.greaterThan( absDirection.z ), () => { + + If( absDirection.x.greaterThan( absDirection.y ), () => { + + face.assign( cond( direction.x.greaterThan( 0.0 ), 0.0, 3.0 ) ); + + } ).else( () => { + + face.assign( cond( direction.y.greaterThan( 0.0 ), 1.0, 4.0 ) ); + + } ); + + } ).else( () => { + + If( absDirection.z.greaterThan( absDirection.y ), () => { + + face.assign( cond( direction.z.greaterThan( 0.0 ), 2.0, 5.0 ) ); + + } ).else( () => { + + face.assign( cond( direction.y.greaterThan( 0.0 ), 1.0, 4.0 ) ); + + } ); + + } ); + + return face; + +} ).setLayout( { + name: 'getFace', + type: 'float', + inputs: [ + { name: 'direction', type: 'vec3' } + ] +} ); + +// RH coordinate system; PMREM face-indexing convention +const getUV = tslFn( ( [ direction, face ] ) => { + + const uv = vec2().toVar(); + + If( face.equal( 0.0 ), () => { + + uv.assign( vec2( direction.z, direction.y ).div( abs( direction.x ) ) ); // pos x + + } ).elseif( face.equal( 1.0 ), () => { + + uv.assign( vec2( direction.x.negate(), direction.z.negate() ).div( abs( direction.y ) ) ); // pos y + + } ).elseif( face.equal( 2.0 ), () => { + + uv.assign( vec2( direction.x.negate(), direction.y ).div( abs( direction.z ) ) ); // pos z + + } ).elseif( face.equal( 3.0 ), () => { + + uv.assign( vec2( direction.z.negate(), direction.y ).div( abs( direction.x ) ) ); // neg x + + } ).elseif( face.equal( 4.0 ), () => { + + uv.assign( vec2( direction.x.negate(), direction.z ).div( abs( direction.y ) ) ); // neg y + + } ).else( () => { + + uv.assign( vec2( direction.x, direction.y ).div( abs( direction.z ) ) ); // neg z + + } ); + + return mul( 0.5, uv.add( 1.0 ) ); + +} ).setLayout( { + name: 'getUV', + type: 'vec2', + inputs: [ + { name: 'direction', type: 'vec3' }, + { name: 'face', type: 'float' } + ] +} ); + +const roughnessToMip = tslFn( ( [ roughness ] ) => { + + const mip = float( 0.0 ).toVar(); + + If( roughness.greaterThanEqual( cubeUV_r1 ), () => { + + mip.assign( cubeUV_r0.sub( roughness ).mul( cubeUV_m1.sub( cubeUV_m0 ) ).div( cubeUV_r0.sub( cubeUV_r1 ) ).add( cubeUV_m0 ) ); + + } ).elseif( roughness.greaterThanEqual( cubeUV_r4 ), () => { + + mip.assign( cubeUV_r1.sub( roughness ).mul( cubeUV_m4.sub( cubeUV_m1 ) ).div( cubeUV_r1.sub( cubeUV_r4 ) ).add( cubeUV_m1 ) ); + + } ).elseif( roughness.greaterThanEqual( cubeUV_r5 ), () => { + + mip.assign( cubeUV_r4.sub( roughness ).mul( cubeUV_m5.sub( cubeUV_m4 ) ).div( cubeUV_r4.sub( cubeUV_r5 ) ).add( cubeUV_m4 ) ); + + } ).elseif( roughness.greaterThanEqual( cubeUV_r6 ), () => { + + mip.assign( cubeUV_r5.sub( roughness ).mul( cubeUV_m6.sub( cubeUV_m5 ) ).div( cubeUV_r5.sub( cubeUV_r6 ) ).add( cubeUV_m5 ) ); + + } ).else( () => { + + mip.assign( float( - 2.0 ).mul( log2( mul( 1.16, roughness ) ) ) ); // 1.16 = 1.79^0.25 + + } ); + + return mip; + +} ).setLayout( { + name: 'roughnessToMip', + type: 'float', + inputs: [ + { name: 'roughness', type: 'float' } + ] +} ); + +// RH coordinate system; PMREM face-indexing convention +const getDirection = tslFn( ( [ uv_immutable, face ] ) => { + + const uv = uv_immutable.toVar(); + uv.assign( mul( 2.0, uv ).sub( 1.0 ) ); + const direction = vec3( uv, 1.0 ).toVar(); + + If( face.equal( 0.0 ), () => { + + direction.assign( direction.zyx ); // ( 1, v, u ) pos x + + } ).elseif( face.equal( 1.0 ), () => { + + direction.assign( direction.xzy ); + direction.xz.mulAssign( - 1.0 ); // ( -u, 1, -v ) pos y + + } ).elseif( face.equal( 2.0 ), () => { + + direction.x.mulAssign( - 1.0 ); // ( -u, v, 1 ) pos z + + } ).elseif( face.equal( 3.0 ), () => { + + direction.assign( direction.zyx ); + direction.xz.mulAssign( - 1.0 ); // ( -1, v, -u ) neg x + + } ).elseif( face.equal( 4.0 ), () => { + + direction.assign( direction.xzy ); + direction.xy.mulAssign( - 1.0 ); // ( -u, -1, v ) neg y + + } ).elseif( face.equal( 5.0 ), () => { + + direction.z.mulAssign( - 1.0 ); // ( u, v, -1 ) neg zS + + } ); + + return direction; + +} ).setLayout( { + name: 'getDirection', + type: 'vec3', + inputs: [ + { name: 'uv', type: 'vec2' }, + { name: 'face', type: 'float' } + ] +} ); + +// + +const textureCubeUV = tslFn( ( [ envMap, sampleDir_immutable, roughness_immutable, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP ] ) => { + + const roughness = float( roughness_immutable ); + const sampleDir = vec3( sampleDir_immutable ); + + const mip = clamp( roughnessToMip( roughness ), cubeUV_m0, CUBEUV_MAX_MIP ); + const mipF = fract( mip ); + const mipInt = floor( mip ); + const color0 = vec3( bilinearCubeUV( envMap, sampleDir, mipInt, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP ) ).toVar(); + + If( mipF.notEqual( 0.0 ), () => { + + const color1 = vec3( bilinearCubeUV( envMap, sampleDir, mipInt.add( 1.0 ), CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP ) ).toVar(); + + color0.assign( mix( color0, color1, mipF ) ); + + } ); + + return color0; + +} ); + +const bilinearCubeUV = tslFn( ( [ envMap, direction_immutable, mipInt_immutable, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP ] ) => { + + const mipInt = float( mipInt_immutable ).toVar(); + const direction = vec3( direction_immutable ); + const face = float( getFace( direction ) ).toVar(); + const filterInt = float( max$1( cubeUV_minMipLevel.sub( mipInt ), 0.0 ) ).toVar(); + mipInt.assign( max$1( mipInt, cubeUV_minMipLevel ) ); + const faceSize = float( exp2( mipInt ) ).toVar(); + const uv = vec2( getUV( direction, face ).mul( faceSize.sub( 2.0 ) ).add( 1.0 ) ).toVar(); + + If( face.greaterThan( 2.0 ), () => { + + uv.y.addAssign( faceSize ); + face.subAssign( 3.0 ); + + } ); + + uv.x.addAssign( face.mul( faceSize ) ); + uv.x.addAssign( filterInt.mul( mul( 3.0, cubeUV_minTileSize ) ) ); + uv.y.addAssign( mul( 4.0, exp2( CUBEUV_MAX_MIP ).sub( faceSize ) ) ); + uv.x.mulAssign( CUBEUV_TEXEL_WIDTH ); + uv.y.mulAssign( CUBEUV_TEXEL_HEIGHT ); + + return envMap.uv( uv ).grad( vec2(), vec2() ); // disable anisotropic filtering + +} ); + +const getSample = tslFn( ( { envMap, mipInt, outputDirection, theta, axis, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP } ) => { + + const cosTheta = cos( theta ); + + // Rodrigues' axis-angle rotation + const sampleDirection = outputDirection.mul( cosTheta ) + .add( axis.cross( outputDirection ).mul( sin( theta ) ) ) + .add( axis.mul( axis.dot( outputDirection ).mul( cosTheta.oneMinus() ) ) ); + + return bilinearCubeUV( envMap, sampleDirection, mipInt, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP ); + +} ); + +const blur = tslFn( ( { n, latitudinal, poleAxis, outputDirection, weights, samples, dTheta, mipInt, envMap, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP } ) => { + + const axis = vec3( cond( latitudinal, poleAxis, cross( poleAxis, outputDirection ) ) ).toVar(); + + If( all( axis.equals( vec3( 0.0 ) ) ), () => { + + axis.assign( vec3( outputDirection.z, 0.0, outputDirection.x.negate() ) ); + + } ); + + axis.assign( normalize( axis ) ); + + const gl_FragColor = vec3().toVar(); + gl_FragColor.addAssign( weights.element( int( 0 ) ).mul( getSample( { theta: 0.0, axis, outputDirection, mipInt, envMap, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP } ) ) ); + + loop( { start: int( 1 ), end: n }, ( { i } ) => { + + If( i.greaterThanEqual( samples ), () => { + + Break(); + + } ); + + const theta = float( dTheta.mul( float( i ) ) ).toVar(); + gl_FragColor.addAssign( weights.element( i ).mul( getSample( { theta: theta.mul( - 1.0 ), axis, outputDirection, mipInt, envMap, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP } ) ) ); + gl_FragColor.addAssign( weights.element( i ).mul( getSample( { theta, axis, outputDirection, mipInt, envMap, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP } ) ) ); + + } ); + + return vec4( gl_FragColor, 1 ); + +} ); + +let _generator = null; + +const _cache = new WeakMap(); + +function _generateCubeUVSize( imageHeight ) { + + const maxMip = Math.log2( imageHeight ) - 2; + + const texelHeight = 1.0 / imageHeight; + + const texelWidth = 1.0 / ( 3 * Math.max( Math.pow( 2, maxMip ), 7 * 16 ) ); + + return { texelWidth, texelHeight, maxMip }; + +} + +function _getPMREMFromTexture( texture ) { + + let cacheTexture = _cache.get( texture ); + + const pmremVersion = cacheTexture !== undefined ? cacheTexture.pmremVersion : - 1; + + if ( pmremVersion !== texture.pmremVersion ) { + + if ( texture.isCubeTexture ) { + + if ( texture.source.data.some( ( texture ) => texture === undefined ) ) { + + throw new Error( 'PMREMNode: Undefined texture in CubeTexture. Use onLoad callback or async loader' ); + + } + + cacheTexture = _generator.fromCubemap( texture, cacheTexture ); + + } else { + + if ( texture.image === undefined ) { + + throw new Error( 'PMREMNode: Undefined image in Texture. Use onLoad callback or async loader' ); + + } + + cacheTexture = _generator.fromEquirectangular( texture, cacheTexture ); + + } + + cacheTexture.pmremVersion = texture.pmremVersion; + + _cache.set( texture, cacheTexture ); + + } + + return cacheTexture.texture; + +} + +class PMREMNode extends TempNode { + + constructor( value, uvNode = null, levelNode = null ) { + + super( 'vec3' ); + + this._value = value; + this._pmrem = null; + + this.uvNode = uvNode; + this.levelNode = levelNode; + + this._generator = null; + this._texture = texture( null ); + this._width = uniform( 0 ); + this._height = uniform( 0 ); + this._maxMip = uniform( 0 ); + + this.updateBeforeType = NodeUpdateType.RENDER; + + } + + set value( value ) { + + this._value = value; + this._pmrem = null; + + } + + get value() { + + return this._value; + + } + + updateFromTexture( texture ) { + + const cubeUVSize = _generateCubeUVSize( texture.image.height ); + + this._texture.value = texture; + this._width.value = cubeUVSize.texelWidth; + this._height.value = cubeUVSize.texelHeight; + this._maxMip.value = cubeUVSize.maxMip; + + } + + updateBefore() { + + let pmrem = this._pmrem; + + const pmremVersion = pmrem ? pmrem.pmremVersion : - 1; + const texture = this._value; + + if ( pmremVersion !== texture.pmremVersion ) { + + if ( texture.isPMREMTexture === true ) { + + pmrem = texture; + + } else { + + pmrem = _getPMREMFromTexture( texture ); + + } + + this._pmrem = pmrem; + + this.updateFromTexture( pmrem ); + + } + + } + + setup( builder ) { + + if ( _generator === null ) { + + _generator = builder.createPMREMGenerator(); + + } + + // + + this.updateBefore( builder ); + + // + + let uvNode = this.uvNode; + + if ( uvNode === null && builder.context.getUV ) { + + uvNode = builder.context.getUV( this ); + + } + + // + + const texture = this.value; + + if ( builder.renderer.coordinateSystem === WebGLCoordinateSystem && texture.isPMREMTexture !== true && texture.isRenderTargetTexture === true ) { + + uvNode = vec3( uvNode.x.negate(), uvNode.yz ); + + } + + // + + let levelNode = this.levelNode; + + if ( levelNode === null && builder.context.getTextureLevel ) { + + levelNode = builder.context.getTextureLevel( this ); + + } + + // + + return textureCubeUV( this._texture, uvNode, levelNode, this._width, this._height, this._maxMip ); + + } + +} + +const pmremTexture = nodeProxy( PMREMNode ); + +addNodeClass( 'PMREMNode', PMREMNode ); + +const envNodeCache = new WeakMap(); + +class EnvironmentNode extends LightingNode { + + constructor( envNode = null ) { + + super(); + + this.envNode = envNode; + + } + + setup( builder ) { + + let envNode = this.envNode; + + if ( envNode.isTextureNode ) { + + let cacheEnvNode = envNodeCache.get( envNode.value ); + + if ( cacheEnvNode === undefined ) { + + cacheEnvNode = pmremTexture( envNode.value ); + + envNodeCache.set( envNode.value, cacheEnvNode ); + + } + + envNode = cacheEnvNode; + + } + + // + + const { material } = builder; + + const envMap = material.envMap; + const intensity = envMap ? reference( 'envMapIntensity', 'float', builder.material ) : reference( 'environmentIntensity', 'float', builder.scene ); // @TODO: Add materialEnvIntensity in MaterialNode + + const useAnisotropy = material.useAnisotropy === true || material.anisotropy > 0; + const radianceNormalView = useAnisotropy ? transformedBentNormalView : transformedNormalView; + + const radiance = context( envNode, createRadianceContext( roughness, radianceNormalView ) ).mul( intensity ); + const irradiance = context( envNode, createIrradianceContext( transformedNormalWorld ) ).mul( Math.PI ).mul( intensity ); + + const isolateRadiance = cache( radiance ); + const isolateIrradiance = cache( irradiance ); + + // + + builder.context.radiance.addAssign( isolateRadiance ); + + builder.context.iblIrradiance.addAssign( isolateIrradiance ); + + // + + const clearcoatRadiance = builder.context.lightingModel.clearcoatRadiance; + + if ( clearcoatRadiance ) { + + const clearcoatRadianceContext = context( envNode, createRadianceContext( clearcoatRoughness, transformedClearcoatNormalView ) ).mul( intensity ); + const isolateClearcoatRadiance = cache( clearcoatRadianceContext ); + + clearcoatRadiance.addAssign( isolateClearcoatRadiance ); + + } + + } + +} + +const createRadianceContext = ( roughnessNode, normalViewNode ) => { + + let reflectVec = null; + + return { + getUV: () => { + + if ( reflectVec === null ) { + + reflectVec = positionViewDirection.negate().reflect( normalViewNode ); + + // Mixing the reflection with the normal is more accurate and keeps rough objects from gathering light from behind their tangent plane. + reflectVec = roughnessNode.mul( roughnessNode ).mix( reflectVec, normalViewNode ).normalize(); + + reflectVec = reflectVec.transformDirection( cameraViewMatrix ); + + } + + return reflectVec; + + }, + getTextureLevel: () => { + + return roughnessNode; + + } + }; + +}; + +const createIrradianceContext = ( normalWorldNode ) => { + + return { + getUV: () => { + + return normalWorldNode; + + }, + getTextureLevel: () => { + + return float( 1.0 ); + + } + }; + +}; + +addNodeClass( 'EnvironmentNode', EnvironmentNode ); + +class IrradianceNode extends LightingNode { + + constructor( node ) { + + super(); + + this.node = node; + + } + + setup( builder ) { + + builder.context.irradiance.addAssign( this.node ); + + } + +} + +addNodeClass( 'IrradianceNode', IrradianceNode ); + +let resolution, viewportResult; + +class ViewportNode extends Node { + + constructor( scope ) { + + super(); + + this.scope = scope; + + this.isViewportNode = true; + + } + + getNodeType() { + + if ( this.scope === ViewportNode.VIEWPORT ) return 'vec4'; + else if ( this.scope === ViewportNode.COORDINATE ) return 'vec3'; + else return 'vec2'; + + } + + getUpdateType() { + + let updateType = NodeUpdateType.NONE; + + if ( this.scope === ViewportNode.RESOLUTION || this.scope === ViewportNode.VIEWPORT ) { + + updateType = NodeUpdateType.RENDER; + + } + + this.updateType = updateType; + + return updateType; + + } + + update( { renderer } ) { + + if ( this.scope === ViewportNode.VIEWPORT ) { + + renderer.getViewport( viewportResult ); + + } else { + + renderer.getDrawingBufferSize( resolution ); + + } + + } + + setup( /*builder*/ ) { + + const scope = this.scope; + + let output = null; + + if ( scope === ViewportNode.RESOLUTION ) { + + output = uniform( resolution || ( resolution = new Vector2() ) ); + + } else if ( scope === ViewportNode.VIEWPORT ) { + + output = uniform( viewportResult || ( viewportResult = new Vector4() ) ); + + } else { + + output = viewportCoordinate.div( viewportResolution ); + + let outX = output.x; + let outY = output.y; + + if ( /bottom/i.test( scope ) ) outY = outY.oneMinus(); + if ( /right/i.test( scope ) ) outX = outX.oneMinus(); + + output = vec2( outX, outY ); + + } + + return output; + + } + + generate( builder ) { + + if ( this.scope === ViewportNode.COORDINATE ) { + + let coord = builder.getFragCoord(); + + if ( builder.isFlipY() ) { + + // follow webgpu standards + + const resolution = builder.getNodeProperties( viewportResolution ).outputNode.build( builder ); + + coord = `${ builder.getType( 'vec3' ) }( ${ coord }.x, ${ resolution }.y - ${ coord }.y, ${ coord }.z )`; + + } + + return coord; + + } + + return super.generate( builder ); + + } + +} + +ViewportNode.COORDINATE = 'coordinate'; +ViewportNode.RESOLUTION = 'resolution'; +ViewportNode.VIEWPORT = 'viewport'; +ViewportNode.TOP_LEFT = 'topLeft'; +ViewportNode.BOTTOM_LEFT = 'bottomLeft'; +ViewportNode.TOP_RIGHT = 'topRight'; +ViewportNode.BOTTOM_RIGHT = 'bottomRight'; + +const viewportCoordinate = nodeImmutable( ViewportNode, ViewportNode.COORDINATE ); +const viewportResolution = nodeImmutable( ViewportNode, ViewportNode.RESOLUTION ); +const viewport = nodeImmutable( ViewportNode, ViewportNode.VIEWPORT ); +const viewportTopLeft = nodeImmutable( ViewportNode, ViewportNode.TOP_LEFT ); +const viewportBottomLeft = nodeImmutable( ViewportNode, ViewportNode.BOTTOM_LEFT ); +const viewportTopRight = nodeImmutable( ViewportNode, ViewportNode.TOP_RIGHT ); +const viewportBottomRight = nodeImmutable( ViewportNode, ViewportNode.BOTTOM_RIGHT ); + +addNodeClass( 'ViewportNode', ViewportNode ); + +const _size$4 = new Vector2(); + +class ViewportTextureNode extends TextureNode { + + constructor( uvNode = viewportTopLeft, levelNode = null, framebufferTexture = null ) { + + if ( framebufferTexture === null ) { + + framebufferTexture = new FramebufferTexture(); + framebufferTexture.minFilter = LinearMipmapLinearFilter; + + } + + super( framebufferTexture, uvNode, levelNode ); + + this.generateMipmaps = false; + + this.isOutputTextureNode = true; + + this.updateBeforeType = NodeUpdateType.FRAME; + + } + + updateBefore( frame ) { + + const renderer = frame.renderer; + renderer.getDrawingBufferSize( _size$4 ); + + // + + const framebufferTexture = this.value; + + if ( framebufferTexture.image.width !== _size$4.width || framebufferTexture.image.height !== _size$4.height ) { + + framebufferTexture.image.width = _size$4.width; + framebufferTexture.image.height = _size$4.height; + framebufferTexture.needsUpdate = true; + + } + + // + + const currentGenerateMipmaps = framebufferTexture.generateMipmaps; + framebufferTexture.generateMipmaps = this.generateMipmaps; + + renderer.copyFramebufferToTexture( framebufferTexture ); + + framebufferTexture.generateMipmaps = currentGenerateMipmaps; + + } + + clone() { + + const viewportTextureNode = new this.constructor( this.uvNode, this.levelNode, this.value ); + viewportTextureNode.generateMipmaps = this.generateMipmaps; + + return viewportTextureNode; + + } + +} + +const viewportTexture = nodeProxy( ViewportTextureNode ); +const viewportMipTexture = nodeProxy( ViewportTextureNode, null, null, { generateMipmaps: true } ); + +addNodeElement( 'viewportTexture', viewportTexture ); +addNodeElement( 'viewportMipTexture', viewportMipTexture ); + +addNodeClass( 'ViewportTextureNode', ViewportTextureNode ); + +let sharedDepthbuffer = null; + +class ViewportDepthTextureNode extends ViewportTextureNode { + + constructor( uvNode = viewportTopLeft, levelNode = null ) { + + if ( sharedDepthbuffer === null ) { + + sharedDepthbuffer = new DepthTexture(); + + } + + super( uvNode, levelNode, sharedDepthbuffer ); + + } + +} + +const viewportDepthTexture = nodeProxy( ViewportDepthTextureNode ); + +addNodeElement( 'viewportDepthTexture', viewportDepthTexture ); + +addNodeClass( 'ViewportDepthTextureNode', ViewportDepthTextureNode ); + +class ViewportDepthNode extends Node { + + constructor( scope, valueNode = null ) { + + super( 'float' ); + + this.scope = scope; + this.valueNode = valueNode; + + this.isViewportDepthNode = true; + + } + + generate( builder ) { + + const { scope } = this; + + if ( scope === ViewportDepthNode.DEPTH ) { + + return builder.getFragDepth(); + + } + + return super.generate( builder ); + + } + + setup( { camera } ) { + + const { scope } = this; + const texture = this.valueNode; + + let node = null; + + if ( scope === ViewportDepthNode.DEPTH ) { + + if ( texture !== null ) { + + node = depthBase().assign( texture ); + + } else { + + if ( camera.isPerspectiveCamera ) { + + node = viewZToPerspectiveDepth( positionView.z, cameraNear, cameraFar ); + + } else { + + node = viewZToOrthographicDepth( positionView.z, cameraNear, cameraFar ); + + } + + } + + } else if ( scope === ViewportDepthNode.LINEAR_DEPTH ) { + + if ( texture !== null ) { + + if ( camera.isPerspectiveCamera ) { + + const viewZ = perspectiveDepthToViewZ( texture, cameraNear, cameraFar ); + + node = viewZToOrthographicDepth( viewZ, cameraNear, cameraFar ); + + } else { + + node = texture; + + } + + } else { + + node = viewZToOrthographicDepth( positionView.z, cameraNear, cameraFar ); + + } + + } + + return node; + + } + +} + +// NOTE: viewZ, the z-coordinate in camera space, is negative for points in front of the camera + +// -near maps to 0; -far maps to 1 +const viewZToOrthographicDepth = ( viewZ, near, far ) => viewZ.add( near ).div( near.sub( far ) ); + +// maps orthographic depth in [ 0, 1 ] to viewZ +const orthographicDepthToViewZ = ( depth, near, far ) => near.sub( far ).mul( depth ).sub( near ); + +// NOTE: https://twitter.com/gonnavis/status/1377183786949959682 + +// -near maps to 0; -far maps to 1 +const viewZToPerspectiveDepth = ( viewZ, near, far ) => near.add( viewZ ).mul( far ).div( far.sub( near ).mul( viewZ ) ); + +// maps perspective depth in [ 0, 1 ] to viewZ +const perspectiveDepthToViewZ = ( depth, near, far ) => near.mul( far ).div( far.sub( near ).mul( depth ).sub( far ) ); + +ViewportDepthNode.DEPTH = 'depth'; +ViewportDepthNode.LINEAR_DEPTH = 'linearDepth'; + +const depthBase = nodeProxy( ViewportDepthNode, ViewportDepthNode.DEPTH ); + +const depth = nodeImmutable( ViewportDepthNode, ViewportDepthNode.DEPTH ); +const linearDepth = nodeProxy( ViewportDepthNode, ViewportDepthNode.LINEAR_DEPTH ); +const viewportLinearDepth = linearDepth( viewportDepthTexture() ); + +depth.assign = ( value ) => depthBase( value ); + +addNodeClass( 'ViewportDepthNode', ViewportDepthNode ); + +class ClippingNode extends Node { + + constructor( scope = ClippingNode.DEFAULT ) { + + super(); + + this.scope = scope; + + } + + setup( builder ) { + + super.setup( builder ); + + const clippingContext = builder.clippingContext; + const { localClipIntersection, localClippingCount, globalClippingCount } = clippingContext; + + const numClippingPlanes = globalClippingCount + localClippingCount; + const numUnionClippingPlanes = localClipIntersection ? numClippingPlanes - localClippingCount : numClippingPlanes; + + if ( this.scope === ClippingNode.ALPHA_TO_COVERAGE ) { + + return this.setupAlphaToCoverage( clippingContext.planes, numClippingPlanes, numUnionClippingPlanes ); + + } else { + + return this.setupDefault( clippingContext.planes, numClippingPlanes, numUnionClippingPlanes ); + + } + + } + + setupAlphaToCoverage( planes, numClippingPlanes, numUnionClippingPlanes ) { + + return tslFn( () => { + + const clippingPlanes = uniforms( planes ); + + const distanceToPlane = property( 'float', 'distanceToPlane' ); + const distanceGradient = property( 'float', 'distanceToGradient' ); + + const clipOpacity = property( 'float', 'clipOpacity' ); + + clipOpacity.assign( 1 ); + + let plane; + + loop( numUnionClippingPlanes, ( { i } ) => { + + plane = clippingPlanes.element( i ); + + distanceToPlane.assign( positionView.dot( plane.xyz ).negate().add( plane.w ) ); + distanceGradient.assign( distanceToPlane.fwidth().div( 2.0 ) ); + + clipOpacity.mulAssign( smoothstep( distanceGradient.negate(), distanceGradient, distanceToPlane ) ); + + clipOpacity.equal( 0.0 ).discard(); + + } ); + + if ( numUnionClippingPlanes < numClippingPlanes ) { + + const unionClipOpacity = property( 'float', 'unionclipOpacity' ); + + unionClipOpacity.assign( 1 ); + + loop( { start: numUnionClippingPlanes, end: numClippingPlanes }, ( { i } ) => { + + plane = clippingPlanes.element( i ); + + distanceToPlane.assign( positionView.dot( plane.xyz ).negate().add( plane.w ) ); + distanceGradient.assign( distanceToPlane.fwidth().div( 2.0 ) ); + + unionClipOpacity.mulAssign( smoothstep( distanceGradient.negate(), distanceGradient, distanceToPlane ).oneMinus() ); + + } ); + + clipOpacity.mulAssign( unionClipOpacity.oneMinus() ); + + } + + diffuseColor.a.mulAssign( clipOpacity ); + + diffuseColor.a.equal( 0.0 ).discard(); + + } )(); + + } + + setupDefault( planes, numClippingPlanes, numUnionClippingPlanes ) { + + return tslFn( () => { + + const clippingPlanes = uniforms( planes ); + + let plane; + + loop( numUnionClippingPlanes, ( { i } ) => { + + plane = clippingPlanes.element( i ); + positionView.dot( plane.xyz ).greaterThan( plane.w ).discard(); + + } ); + + if ( numUnionClippingPlanes < numClippingPlanes ) { + + const clipped = property( 'bool', 'clipped' ); + + clipped.assign( true ); + + loop( { start: numUnionClippingPlanes, end: numClippingPlanes }, ( { i } ) => { + + plane = clippingPlanes.element( i ); + clipped.assign( positionView.dot( plane.xyz ).greaterThan( plane.w ).and( clipped ) ); + + } ); + + clipped.discard(); + + } + + } )(); + + } + +} + +ClippingNode.ALPHA_TO_COVERAGE = 'alphaToCoverage'; +ClippingNode.DEFAULT = 'default'; + +const clipping = () => nodeObject( new ClippingNode() ); + +const clippingAlpha = () => nodeObject( new ClippingNode( ClippingNode.ALPHA_TO_COVERAGE ) ); + +class FrontFacingNode extends Node { + + constructor() { + + super( 'bool' ); + + this.isFrontFacingNode = true; + + } + + generate( builder ) { + + const { renderer, material } = builder; + + if ( renderer.coordinateSystem === WebGLCoordinateSystem ) { + + if ( material.side === BackSide ) { + + return 'false'; + + } + + } + + return builder.getFrontFacing(); + + } + +} + +const frontFacing = nodeImmutable( FrontFacingNode ); +const faceDirection = float( frontFacing ).mul( 2.0 ).sub( 1.0 ); + +addNodeClass( 'FrontFacingNode', FrontFacingNode ); + +const NodeMaterials = new Map(); + +class NodeMaterial extends Material { + + constructor() { + + super(); + + this.isNodeMaterial = true; + + this.type = this.constructor.type; + + this.forceSinglePass = false; + + this.fog = true; + this.lights = true; + this.normals = true; + + this.lightsNode = null; + this.envNode = null; + this.aoNode = null; + + this.colorNode = null; + this.normalNode = null; + this.opacityNode = null; + this.backdropNode = null; + this.backdropAlphaNode = null; + this.alphaTestNode = null; + + this.positionNode = null; + + this.depthNode = null; + this.shadowNode = null; + this.shadowPositionNode = null; + + this.outputNode = null; + + this.fragmentNode = null; + this.vertexNode = null; + + } + + customProgramCacheKey() { + + return this.type + getCacheKey( this ); + + } + + build( builder ) { + + this.setup( builder ); + + } + + setup( builder ) { + + // < VERTEX STAGE > + + builder.addStack(); + + builder.stack.outputNode = this.vertexNode || this.setupPosition( builder ); + + builder.addFlow( 'vertex', builder.removeStack() ); + + // < FRAGMENT STAGE > + + builder.addStack(); + + let resultNode; + + const clippingNode = this.setupClipping( builder ); + + if ( this.depthWrite === true ) this.setupDepth( builder ); + + if ( this.fragmentNode === null ) { + + if ( this.normals === true ) this.setupNormal( builder ); + + this.setupDiffuseColor( builder ); + this.setupVariants( builder ); + + const outgoingLightNode = this.setupLighting( builder ); + + if ( clippingNode !== null ) builder.stack.add( clippingNode ); + + // force unsigned floats - useful for RenderTargets + + const basicOutput = vec4( outgoingLightNode, diffuseColor.a ).max( 0 ); + + resultNode = this.setupOutput( builder, basicOutput ); + + // OUTPUT NODE + + output.assign( resultNode ); + + // + + if ( this.outputNode !== null ) resultNode = this.outputNode; + + } else { + + let fragmentNode = this.fragmentNode; + + if ( fragmentNode.isOutputStructNode !== true ) { + + fragmentNode = vec4( fragmentNode ); + + } + + resultNode = this.setupOutput( builder, fragmentNode ); + + } + + builder.stack.outputNode = resultNode; + + builder.addFlow( 'fragment', builder.removeStack() ); + + } + + setupClipping( builder ) { + + if ( builder.clippingContext === null ) return null; + + const { globalClippingCount, localClippingCount } = builder.clippingContext; + + let result = null; + + if ( globalClippingCount || localClippingCount ) { + + if ( this.alphaToCoverage ) { + + // to be added to flow when the color/alpha value has been determined + result = clippingAlpha(); + + } else { + + builder.stack.add( clipping() ); + + } + + } + + return result; + + } + + setupDepth( builder ) { + + const { renderer } = builder; + + // Depth + + let depthNode = this.depthNode; + + if ( depthNode === null && renderer.logarithmicDepthBuffer === true ) { + + const fragDepth = modelViewProjection().w.add( 1 ); + + depthNode = fragDepth.log2().mul( cameraLogDepth ).mul( 0.5 ); + + } + + if ( depthNode !== null ) { + + depth.assign( depthNode ).append(); + + } + + } + + setupPosition( builder ) { + + const { object } = builder; + const geometry = object.geometry; + + builder.addStack(); + + // Vertex + + if ( geometry.morphAttributes.position || geometry.morphAttributes.normal || geometry.morphAttributes.color ) { + + morphReference( object ).append(); + + } + + if ( object.isSkinnedMesh === true ) { + + skinningReference( object ).append(); + + } + + if ( this.displacementMap ) { + + const displacementMap = materialReference( 'displacementMap', 'texture' ); + const displacementScale = materialReference( 'displacementScale', 'float' ); + const displacementBias = materialReference( 'displacementBias', 'float' ); + + positionLocal.addAssign( normalLocal.normalize().mul( ( displacementMap.x.mul( displacementScale ).add( displacementBias ) ) ) ); + + } + + if ( object.isBatchedMesh ) { + + batch( object ).append(); + + } + + if ( ( object.instanceMatrix && object.instanceMatrix.isInstancedBufferAttribute === true ) ) { + + instance( object ).append(); + + } + + if ( this.positionNode !== null ) { + + positionLocal.assign( this.positionNode ); + + } + + const mvp = modelViewProjection(); + + builder.context.vertex = builder.removeStack(); + builder.context.mvp = mvp; + + return mvp; + + } + + setupDiffuseColor( { object, geometry } ) { + + let colorNode = this.colorNode ? vec4( this.colorNode ) : materialColor; + + // VERTEX COLORS + + if ( this.vertexColors === true && geometry.hasAttribute( 'color' ) ) { + + colorNode = vec4( colorNode.xyz.mul( attribute( 'color', 'vec3' ) ), colorNode.a ); + + } + + // Instanced colors + + if ( object.instanceColor ) { + + const instanceColor = varyingProperty( 'vec3', 'vInstanceColor' ); + + colorNode = instanceColor.mul( colorNode ); + + } + + // COLOR + + diffuseColor.assign( colorNode ); + + // OPACITY + + const opacityNode = this.opacityNode ? float( this.opacityNode ) : materialOpacity; + diffuseColor.a.assign( diffuseColor.a.mul( opacityNode ) ); + + // ALPHA TEST + + if ( this.alphaTestNode !== null || this.alphaTest > 0 ) { + + const alphaTestNode = this.alphaTestNode !== null ? float( this.alphaTestNode ) : materialAlphaTest; + + diffuseColor.a.lessThanEqual( alphaTestNode ).discard(); + + } + + if ( this.transparent === false && this.blending === NormalBlending && this.alphaToCoverage === false ) { + + diffuseColor.a.assign( 1.0 ); + + } + + } + + setupVariants( /*builder*/ ) { + + // Interface function. + + } + + setupNormal() { + + // NORMAL VIEW + + if ( this.flatShading === true ) { + + const normalNode = positionView.dFdx().cross( positionView.dFdy() ).normalize(); + + transformedNormalView.assign( normalNode.mul( faceDirection ) ); + + } else { + + const normalNode = this.normalNode ? vec3( this.normalNode ) : materialNormal; + + transformedNormalView.assign( normalNode.mul( faceDirection ) ); + + } + + } + + getEnvNode( builder ) { + + let node = null; + + if ( this.envNode ) { + + node = this.envNode; + + } else if ( this.envMap ) { + + node = this.envMap.isCubeTexture ? cubeTexture( this.envMap ) : texture( this.envMap ); + + } else if ( builder.environmentNode ) { + + node = builder.environmentNode; + + } + + return node; + + } + + setupLights( builder ) { + + const envNode = this.getEnvNode( builder ); + + // + + const materialLightsNode = []; + + if ( envNode ) { + + materialLightsNode.push( new EnvironmentNode( envNode ) ); + + } + + if ( builder.material.lightMap ) { + + materialLightsNode.push( new IrradianceNode( materialReference( 'lightMap', 'texture' ) ) ); + + } + + if ( this.aoNode !== null || builder.material.aoMap ) { + + const aoNode = this.aoNode !== null ? this.aoNode : texture( builder.material.aoMap ); + + materialLightsNode.push( new AONode( aoNode ) ); + + } + + let lightsN = this.lightsNode || builder.lightsNode; + + if ( materialLightsNode.length > 0 ) { + + lightsN = lightsNode( [ ...lightsN.lightNodes, ...materialLightsNode ] ); + + } + + return lightsN; + + } + + setupLightingModel( /*builder*/ ) { + + // Interface function. + + } + + setupLighting( builder ) { + + const { material } = builder; + const { backdropNode, backdropAlphaNode, emissiveNode } = this; + + // OUTGOING LIGHT + + const lights = this.lights === true || this.lightsNode !== null; + + const lightsNode = lights ? this.setupLights( builder ) : null; + + let outgoingLightNode = diffuseColor.rgb; + + if ( lightsNode && lightsNode.hasLight !== false ) { + + const lightingModel = this.setupLightingModel( builder ); + + outgoingLightNode = lightingContext( lightsNode, lightingModel, backdropNode, backdropAlphaNode ); + + } else if ( backdropNode !== null ) { + + outgoingLightNode = vec3( backdropAlphaNode !== null ? mix( outgoingLightNode, backdropNode, backdropAlphaNode ) : backdropNode ); + + } + + // EMISSIVE + + if ( ( emissiveNode && emissiveNode.isNode === true ) || ( material.emissive && material.emissive.isColor === true ) ) { + + outgoingLightNode = outgoingLightNode.add( vec3( emissiveNode ? emissiveNode : materialEmissive ) ); + + } + + return outgoingLightNode; + + } + + setupOutput( builder, outputNode ) { + + // FOG + + if ( this.fog === true ) { + + const fogNode = builder.fogNode; + + if ( fogNode ) outputNode = vec4( fogNode.mix( outputNode.rgb, fogNode.colorNode ), outputNode.a ); + + } + + return outputNode; + + } + + setDefaultValues( material ) { + + // This approach is to reuse the native refreshUniforms* + // and turn available the use of features like transmission and environment in core + + for ( const property in material ) { + + const value = material[ property ]; + + if ( this[ property ] === undefined ) { + + this[ property ] = value; + + if ( value && value.clone ) this[ property ] = value.clone(); + + } + + } + + const descriptors = Object.getOwnPropertyDescriptors( material.constructor.prototype ); + + for ( const key in descriptors ) { + + if ( Object.getOwnPropertyDescriptor( this.constructor.prototype, key ) === undefined && + descriptors[ key ].get !== undefined ) { + + Object.defineProperty( this.constructor.prototype, key, descriptors[ key ] ); + + } + + } + + } + + toJSON( meta ) { + + const isRoot = ( meta === undefined || typeof meta === 'string' ); + + if ( isRoot ) { + + meta = { + textures: {}, + images: {}, + nodes: {} + }; + + } + + const data = Material.prototype.toJSON.call( this, meta ); + const nodeChildren = getNodeChildren( this ); + + data.inputNodes = {}; + + for ( const { property, childNode } of nodeChildren ) { + + data.inputNodes[ property ] = childNode.toJSON( meta ).uuid; + + } + + // TODO: Copied from Object3D.toJSON + + function extractFromCache( cache ) { + + const values = []; + + for ( const key in cache ) { + + const data = cache[ key ]; + delete data.metadata; + values.push( data ); + + } + + return values; + + } + + if ( isRoot ) { + + const textures = extractFromCache( meta.textures ); + const images = extractFromCache( meta.images ); + const nodes = extractFromCache( meta.nodes ); + + if ( textures.length > 0 ) data.textures = textures; + if ( images.length > 0 ) data.images = images; + if ( nodes.length > 0 ) data.nodes = nodes; + + } + + return data; + + } + + copy( source ) { + + this.lightsNode = source.lightsNode; + this.envNode = source.envNode; + + this.colorNode = source.colorNode; + this.normalNode = source.normalNode; + this.opacityNode = source.opacityNode; + this.backdropNode = source.backdropNode; + this.backdropAlphaNode = source.backdropAlphaNode; + this.alphaTestNode = source.alphaTestNode; + + this.positionNode = source.positionNode; + + this.depthNode = source.depthNode; + this.shadowNode = source.shadowNode; + this.shadowPositionNode = source.shadowPositionNode; + + this.outputNode = source.outputNode; + + this.fragmentNode = source.fragmentNode; + this.vertexNode = source.vertexNode; + + return super.copy( source ); + + } + + static fromMaterial( material ) { + + if ( material.isNodeMaterial === true ) { // is already a node material + + return material; + + } + + const type = material.type.replace( 'Material', 'NodeMaterial' ); + + const nodeMaterial = createNodeMaterialFromType( type ); + + if ( nodeMaterial === undefined ) { + + throw new Error( `NodeMaterial: Material "${ material.type }" is not compatible.` ); + + } + + for ( const key in material ) { + + nodeMaterial[ key ] = material[ key ]; + + } + + return nodeMaterial; + + } + +} + +function addNodeMaterial( type, nodeMaterial ) { + + if ( typeof nodeMaterial !== 'function' || ! type ) throw new Error( `Node material ${ type } is not a class` ); + if ( NodeMaterials.has( type ) ) { + + console.warn( `Redefinition of node material ${ type }` ); + return; + + } + + NodeMaterials.set( type, nodeMaterial ); + nodeMaterial.type = type; + +} + +function createNodeMaterialFromType( type ) { + + const Material = NodeMaterials.get( type ); + + if ( Material !== undefined ) { + + return new Material(); + + } + +} + +addNodeMaterial( 'NodeMaterial', NodeMaterial ); + +class Uniform { + + constructor( name, value ) { + + this.name = name; + this.value = value; + + this.boundary = 0; // used to build the uniform buffer according to the STD140 layout + this.itemSize = 0; + + this.offset = 0; // this property is set by WebGPUUniformsGroup and marks the start position in the uniform buffer + + } + + setValue( value ) { + + this.value = value; + + } + + getValue() { + + return this.value; + + } + +} + +class NumberUniform extends Uniform { + + constructor( name, value = 0 ) { + + super( name, value ); + + this.isNumberUniform = true; + + this.boundary = 4; + this.itemSize = 1; + + } + +} + +class Vector2Uniform extends Uniform { + + constructor( name, value = new Vector2() ) { + + super( name, value ); + + this.isVector2Uniform = true; + + this.boundary = 8; + this.itemSize = 2; + + } + +} + +class Vector3Uniform extends Uniform { + + constructor( name, value = new Vector3() ) { + + super( name, value ); + + this.isVector3Uniform = true; + + this.boundary = 16; + this.itemSize = 3; + + } + +} + +class Vector4Uniform extends Uniform { + + constructor( name, value = new Vector4() ) { + + super( name, value ); + + this.isVector4Uniform = true; + + this.boundary = 16; + this.itemSize = 4; + + } + +} + +class ColorUniform extends Uniform { + + constructor( name, value = new Color() ) { + + super( name, value ); + + this.isColorUniform = true; + + this.boundary = 16; + this.itemSize = 3; + + } + +} + +class Matrix3Uniform extends Uniform { + + constructor( name, value = new Matrix3() ) { + + super( name, value ); + + this.isMatrix3Uniform = true; + + this.boundary = 48; + this.itemSize = 12; + + } + +} + +class Matrix4Uniform extends Uniform { + + constructor( name, value = new Matrix4() ) { + + super( name, value ); + + this.isMatrix4Uniform = true; + + this.boundary = 64; + this.itemSize = 16; + + } + +} + +class NumberNodeUniform extends NumberUniform { + + constructor( nodeUniform ) { + + super( nodeUniform.name, nodeUniform.value ); + + this.nodeUniform = nodeUniform; + + } + + getValue() { + + return this.nodeUniform.value; + + } + +} + +class Vector2NodeUniform extends Vector2Uniform { + + constructor( nodeUniform ) { + + super( nodeUniform.name, nodeUniform.value ); + + this.nodeUniform = nodeUniform; + + } + + getValue() { + + return this.nodeUniform.value; + + } + +} + +class Vector3NodeUniform extends Vector3Uniform { + + constructor( nodeUniform ) { + + super( nodeUniform.name, nodeUniform.value ); + + this.nodeUniform = nodeUniform; + + } + + getValue() { + + return this.nodeUniform.value; + + } + +} + +class Vector4NodeUniform extends Vector4Uniform { + + constructor( nodeUniform ) { + + super( nodeUniform.name, nodeUniform.value ); + + this.nodeUniform = nodeUniform; + + } + + getValue() { + + return this.nodeUniform.value; + + } + +} + +class ColorNodeUniform extends ColorUniform { + + constructor( nodeUniform ) { + + super( nodeUniform.name, nodeUniform.value ); + + this.nodeUniform = nodeUniform; + + } + + getValue() { + + return this.nodeUniform.value; + + } + +} + +class Matrix3NodeUniform extends Matrix3Uniform { + + constructor( nodeUniform ) { + + super( nodeUniform.name, nodeUniform.value ); + + this.nodeUniform = nodeUniform; + + } + + getValue() { + + return this.nodeUniform.value; + + } + +} + +class Matrix4NodeUniform extends Matrix4Uniform { + + constructor( nodeUniform ) { + + super( nodeUniform.name, nodeUniform.value ); + + this.nodeUniform = nodeUniform; + + } + + getValue() { + + return this.nodeUniform.value; + + } + +} + +class StackNode extends Node { + + constructor( parent = null ) { + + super(); + + this.nodes = []; + this.outputNode = null; + + this.parent = parent; + + this._currentCond = null; + + this.isStackNode = true; + + } + + getNodeType( builder ) { + + return this.outputNode ? this.outputNode.getNodeType( builder ) : 'void'; + + } + + add( node ) { + + this.nodes.push( node ); + + return this; + + } + + if( boolNode, method ) { + + const methodNode = new ShaderNode( method ); + this._currentCond = cond( boolNode, methodNode ); + + return this.add( this._currentCond ); + + } + + elseif( boolNode, method ) { + + const methodNode = new ShaderNode( method ); + const ifNode = cond( boolNode, methodNode ); + + this._currentCond.elseNode = ifNode; + this._currentCond = ifNode; + + return this; + + } + + else( method ) { + + this._currentCond.elseNode = new ShaderNode( method ); + + return this; + + } + + build( builder, ...params ) { + + const previousStack = getCurrentStack(); + + setCurrentStack( this ); + + for ( const node of this.nodes ) { + + node.build( builder, 'void' ); + + } + + setCurrentStack( previousStack ); + + return this.outputNode ? this.outputNode.build( builder, ...params ) : super.build( builder, ...params ); + + } + +} + +const stack = nodeProxy( StackNode ); + +addNodeClass( 'StackNode', StackNode ); + +class EquirectUVNode extends TempNode { + + constructor( dirNode = positionWorldDirection ) { + + super( 'vec2' ); + + this.dirNode = dirNode; + + } + + setup() { + + const dir = this.dirNode; + + const u = dir.z.atan2( dir.x ).mul( 1 / ( Math.PI * 2 ) ).add( 0.5 ); + const v = dir.y.clamp( - 1.0, 1.0 ).asin().mul( 1 / Math.PI ).add( 0.5 ); + + return vec2( u, v ); + + } + +} + +const equirectUV = nodeProxy( EquirectUVNode ); + +addNodeClass( 'EquirectUVNode', EquirectUVNode ); + +// @TODO: Consider rename WebGLCubeRenderTarget to just CubeRenderTarget + +class CubeRenderTarget extends WebGLCubeRenderTarget { + + constructor( size = 1, options = {} ) { + + super( size, options ); + + this.isCubeRenderTarget = true; + + } + + fromEquirectangularTexture( renderer, texture$1 ) { + + const currentMinFilter = texture$1.minFilter; + const currentGenerateMipmaps = texture$1.generateMipmaps; + + texture$1.generateMipmaps = true; + + this.texture.type = texture$1.type; + this.texture.colorSpace = texture$1.colorSpace; + + this.texture.generateMipmaps = texture$1.generateMipmaps; + this.texture.minFilter = texture$1.minFilter; + this.texture.magFilter = texture$1.magFilter; + + const geometry = new BoxGeometry( 5, 5, 5 ); + + const uvNode = equirectUV( positionWorldDirection ); + + const material = createNodeMaterialFromType( 'MeshBasicNodeMaterial' ); + material.colorNode = texture( texture$1, uvNode, 0 ); + material.side = BackSide; + material.blending = NoBlending; + + const mesh = new Mesh( geometry, material ); + + const scene = new Scene(); + scene.add( mesh ); + + // Avoid blurred poles + if ( texture$1.minFilter === LinearMipmapLinearFilter ) texture$1.minFilter = LinearFilter; + + const camera = new CubeCamera( 1, 10, this ); + camera.update( renderer, scene ); + + texture$1.minFilter = currentMinFilter; + texture$1.currentGenerateMipmaps = currentGenerateMipmaps; + + mesh.geometry.dispose(); + mesh.material.dispose(); + + return this; + + } + +} + +const LOD_MIN = 4; + +// The standard deviations (radians) associated with the extra mips. These are +// chosen to approximate a Trowbridge-Reitz distribution function times the +// geometric shadowing function. These sigma values squared must match the +// variance #defines in cube_uv_reflection_fragment.glsl.js. +const EXTRA_LOD_SIGMA = [ 0.125, 0.215, 0.35, 0.446, 0.526, 0.582 ]; + +// The maximum length of the blur for loop. Smaller sigmas will use fewer +// samples and exit early, but not recompile the shader. +const MAX_SAMPLES = 20; + +const _flatCamera = /*@__PURE__*/ new OrthographicCamera( - 1, 1, 1, - 1, 0, 1 ); +const _cubeCamera = /*@__PURE__*/ new PerspectiveCamera( 90, 1 ); +const _clearColor$1 = /*@__PURE__*/ new Color(); +let _oldTarget = null; +let _oldActiveCubeFace = 0; +let _oldActiveMipmapLevel = 0; + +// Golden Ratio +const PHI = ( 1 + Math.sqrt( 5 ) ) / 2; +const INV_PHI = 1 / PHI; + +// Vertices of a dodecahedron (except the opposites, which represent the +// same axis), used as axis directions evenly spread on a sphere. +const _axisDirections = [ + /*@__PURE__*/ new Vector3( - PHI, INV_PHI, 0 ), + /*@__PURE__*/ new Vector3( PHI, INV_PHI, 0 ), + /*@__PURE__*/ new Vector3( - INV_PHI, 0, PHI ), + /*@__PURE__*/ new Vector3( INV_PHI, 0, PHI ), + /*@__PURE__*/ new Vector3( 0, PHI, - INV_PHI ), + /*@__PURE__*/ new Vector3( 0, PHI, INV_PHI ), + /*@__PURE__*/ new Vector3( - 1, 1, - 1 ), + /*@__PURE__*/ new Vector3( 1, 1, - 1 ), + /*@__PURE__*/ new Vector3( - 1, 1, 1 ), + /*@__PURE__*/ new Vector3( 1, 1, 1 ) +]; + +// + +// WebGPU Face indices +const _faceLib = [ + 3, 1, 5, + 0, 4, 2 +]; + +const direction = getDirection( uv(), attribute( 'faceIndex' ) ).normalize(); +const outputDirection = vec3( direction.x, direction.y.negate(), direction.z ); + +/** + * This class generates a Prefiltered, Mipmapped Radiance Environment Map + * (PMREM) from a cubeMap environment texture. This allows different levels of + * blur to be quickly accessed based on material roughness. It is packed into a + * special CubeUV format that allows us to perform custom interpolation so that + * we can support nonlinear formats such as RGBE. Unlike a traditional mipmap + * chain, it only goes down to the LOD_MIN level (above), and then creates extra + * even more filtered 'mips' at the same LOD_MIN resolution, associated with + * higher roughness levels. In this way we maintain resolution to smoothly + * interpolate diffuse lighting while limiting sampling computation. + * + * Paper: Fast, Accurate Image-Based Lighting + * https://drive.google.com/file/d/15y8r_UpKlU9SvV4ILb0C3qCPecS8pvLz/view +*/ + +class PMREMGenerator { + + constructor( renderer ) { + + this._renderer = renderer; + this._pingPongRenderTarget = null; + + this._lodMax = 0; + this._cubeSize = 0; + this._lodPlanes = []; + this._sizeLods = []; + this._sigmas = []; + this._lodMeshes = []; + + this._blurMaterial = null; + this._cubemapMaterial = null; + this._equirectMaterial = null; + this._backgroundBox = null; + + } + + /** + * Generates a PMREM from a supplied Scene, which can be faster than using an + * image if networking bandwidth is low. Optional sigma specifies a blur radius + * in radians to be applied to the scene before PMREM generation. Optional near + * and far planes ensure the scene is rendered in its entirety (the cubeCamera + * is placed at the origin). + */ + fromScene( scene, sigma = 0, near = 0.1, far = 100 ) { + + _oldTarget = this._renderer.getRenderTarget(); + _oldActiveCubeFace = this._renderer.getActiveCubeFace(); + _oldActiveMipmapLevel = this._renderer.getActiveMipmapLevel(); + + this._setSize( 256 ); + + const cubeUVRenderTarget = this._allocateTargets(); + cubeUVRenderTarget.depthBuffer = true; + + this._sceneToCubeUV( scene, near, far, cubeUVRenderTarget ); + + if ( sigma > 0 ) { + + this._blur( cubeUVRenderTarget, 0, 0, sigma ); + + } + + this._applyPMREM( cubeUVRenderTarget ); + + this._cleanup( cubeUVRenderTarget ); + + return cubeUVRenderTarget; + + } + + /** + * Generates a PMREM from an equirectangular texture, which can be either LDR + * or HDR. The ideal input image size is 1k (1024 x 512), + * as this matches best with the 256 x 256 cubemap output. + */ + fromEquirectangular( equirectangular, renderTarget = null ) { + + return this._fromTexture( equirectangular, renderTarget ); + + } + + /** + * Generates a PMREM from an cubemap texture, which can be either LDR + * or HDR. The ideal input cube size is 256 x 256, + * as this matches best with the 256 x 256 cubemap output. + */ + fromCubemap( cubemap, renderTarget = null ) { + + return this._fromTexture( cubemap, renderTarget ); + + } + + /** + * Pre-compiles the cubemap shader. You can get faster start-up by invoking this method during + * your texture's network fetch for increased concurrency. + */ + compileCubemapShader() { + + if ( this._cubemapMaterial === null ) { + + this._cubemapMaterial = _getCubemapMaterial(); + this._compileMaterial( this._cubemapMaterial ); + + } + + } + + /** + * Pre-compiles the equirectangular shader. You can get faster start-up by invoking this method during + * your texture's network fetch for increased concurrency. + */ + compileEquirectangularShader() { + + if ( this._equirectMaterial === null ) { + + this._equirectMaterial = _getEquirectMaterial(); + this._compileMaterial( this._equirectMaterial ); + + } + + } + + /** + * Disposes of the PMREMGenerator's internal memory. Note that PMREMGenerator is a static class, + * so you should not need more than one PMREMGenerator object. If you do, calling dispose() on + * one of them will cause any others to also become unusable. + */ + dispose() { + + this._dispose(); + + if ( this._cubemapMaterial !== null ) this._cubemapMaterial.dispose(); + if ( this._equirectMaterial !== null ) this._equirectMaterial.dispose(); + if ( this._backgroundBox !== null ) { + + this._backgroundBox.geometry.dispose(); + this._backgroundBox.material.dispose(); + + } + + } + + // private interface + + _setSize( cubeSize ) { + + this._lodMax = Math.floor( Math.log2( cubeSize ) ); + this._cubeSize = Math.pow( 2, this._lodMax ); + + } + + _dispose() { + + if ( this._blurMaterial !== null ) this._blurMaterial.dispose(); + + if ( this._pingPongRenderTarget !== null ) this._pingPongRenderTarget.dispose(); + + for ( let i = 0; i < this._lodPlanes.length; i ++ ) { + + this._lodPlanes[ i ].dispose(); + + } + + } + + _cleanup( outputTarget ) { + + this._renderer.setRenderTarget( _oldTarget, _oldActiveCubeFace, _oldActiveMipmapLevel ); + outputTarget.scissorTest = false; + _setViewport( outputTarget, 0, 0, outputTarget.width, outputTarget.height ); + + } + + _fromTexture( texture, renderTarget ) { + + if ( texture.mapping === CubeReflectionMapping || texture.mapping === CubeRefractionMapping ) { + + this._setSize( texture.image.length === 0 ? 16 : ( texture.image[ 0 ].width || texture.image[ 0 ].image.width ) ); + + } else { // Equirectangular + + this._setSize( texture.image.width / 4 ); + + } + + _oldTarget = this._renderer.getRenderTarget(); + _oldActiveCubeFace = this._renderer.getActiveCubeFace(); + _oldActiveMipmapLevel = this._renderer.getActiveMipmapLevel(); + + const cubeUVRenderTarget = renderTarget || this._allocateTargets(); + this._textureToCubeUV( texture, cubeUVRenderTarget ); + this._applyPMREM( cubeUVRenderTarget ); + this._cleanup( cubeUVRenderTarget ); + + return cubeUVRenderTarget; + + } + + _allocateTargets() { + + const width = 3 * Math.max( this._cubeSize, 16 * 7 ); + const height = 4 * this._cubeSize; + + const params = { + magFilter: LinearFilter, + minFilter: LinearFilter, + generateMipmaps: false, + type: HalfFloatType, + format: RGBAFormat, + colorSpace: LinearSRGBColorSpace, + //depthBuffer: false + }; + + const cubeUVRenderTarget = _createRenderTarget( width, height, params ); + + if ( this._pingPongRenderTarget === null || this._pingPongRenderTarget.width !== width || this._pingPongRenderTarget.height !== height ) { + + if ( this._pingPongRenderTarget !== null ) { + + this._dispose(); + + } + + this._pingPongRenderTarget = _createRenderTarget( width, height, params ); + + const { _lodMax } = this; + ( { sizeLods: this._sizeLods, lodPlanes: this._lodPlanes, sigmas: this._sigmas, lodMeshes: this._lodMeshes } = _createPlanes( _lodMax ) ); + + this._blurMaterial = _getBlurShader( _lodMax, width, height ); + + } + + return cubeUVRenderTarget; + + } + + _compileMaterial( material ) { + + const tmpMesh = this._lodMeshes[ 0 ]; + tmpMesh.material = material; + + this._renderer.compile( tmpMesh, _flatCamera ); + + } + + _sceneToCubeUV( scene, near, far, cubeUVRenderTarget ) { + + const cubeCamera = _cubeCamera; + cubeCamera.near = near; + cubeCamera.far = far; + + // px, py, pz, nx, ny, nz + const upSign = [ - 1, 1, - 1, - 1, - 1, - 1 ]; + const forwardSign = [ 1, 1, 1, - 1, - 1, - 1 ]; + + const renderer = this._renderer; + + const originalAutoClear = renderer.autoClear; + + renderer.getClearColor( _clearColor$1 ); + + renderer.autoClear = false; + + let backgroundBox = this._backgroundBox; + + if ( backgroundBox === null ) { + + const backgroundMaterial = new MeshBasicMaterial( { + name: 'PMREM.Background', + side: BackSide, + depthWrite: false, + depthTest: false + } ); + + backgroundBox = new Mesh( new BoxGeometry(), backgroundMaterial ); + + } + + let useSolidColor = false; + const background = scene.background; + + if ( background ) { + + if ( background.isColor ) { + + backgroundBox.material.color.copy( background ); + scene.background = null; + useSolidColor = true; + + } + + } else { + + backgroundBox.material.color.copy( _clearColor$1 ); + useSolidColor = true; + + } + + renderer.setRenderTarget( cubeUVRenderTarget ); + + renderer.clear(); + + if ( useSolidColor ) { + + renderer.render( backgroundBox, cubeCamera ); + + } + + for ( let i = 0; i < 6; i ++ ) { + + const col = i % 3; + + if ( col === 0 ) { + + cubeCamera.up.set( 0, upSign[ i ], 0 ); + cubeCamera.lookAt( forwardSign[ i ], 0, 0 ); + + } else if ( col === 1 ) { + + cubeCamera.up.set( 0, 0, upSign[ i ] ); + cubeCamera.lookAt( 0, forwardSign[ i ], 0 ); + + } else { + + cubeCamera.up.set( 0, upSign[ i ], 0 ); + cubeCamera.lookAt( 0, 0, forwardSign[ i ] ); + + } + + const size = this._cubeSize; + + _setViewport( cubeUVRenderTarget, col * size, i > 2 ? size : 0, size, size ); + + renderer.render( scene, cubeCamera ); + + } + + renderer.autoClear = originalAutoClear; + scene.background = background; + + } + + _textureToCubeUV( texture, cubeUVRenderTarget ) { + + const renderer = this._renderer; + + const isCubeTexture = ( texture.mapping === CubeReflectionMapping || texture.mapping === CubeRefractionMapping ); + + if ( isCubeTexture ) { + + if ( this._cubemapMaterial === null ) { + + this._cubemapMaterial = _getCubemapMaterial( texture ); + + } + + } else { + + if ( this._equirectMaterial === null ) { + + this._equirectMaterial = _getEquirectMaterial( texture ); + + } + + } + + const material = isCubeTexture ? this._cubemapMaterial : this._equirectMaterial; + material.fragmentNode.value = texture; + + const mesh = this._lodMeshes[ 0 ]; + mesh.material = material; + + const size = this._cubeSize; + + _setViewport( cubeUVRenderTarget, 0, 0, 3 * size, 2 * size ); + + renderer.setRenderTarget( cubeUVRenderTarget ); + renderer.render( mesh, _flatCamera ); + + } + + _applyPMREM( cubeUVRenderTarget ) { + + const renderer = this._renderer; + const autoClear = renderer.autoClear; + renderer.autoClear = false; + const n = this._lodPlanes.length; + + for ( let i = 1; i < n; i ++ ) { + + const sigma = Math.sqrt( this._sigmas[ i ] * this._sigmas[ i ] - this._sigmas[ i - 1 ] * this._sigmas[ i - 1 ] ); + + const poleAxis = _axisDirections[ ( n - i - 1 ) % _axisDirections.length ]; + + this._blur( cubeUVRenderTarget, i - 1, i, sigma, poleAxis ); + + } + + renderer.autoClear = autoClear; + + } + + /** + * This is a two-pass Gaussian blur for a cubemap. Normally this is done + * vertically and horizontally, but this breaks down on a cube. Here we apply + * the blur latitudinally (around the poles), and then longitudinally (towards + * the poles) to approximate the orthogonally-separable blur. It is least + * accurate at the poles, but still does a decent job. + */ + _blur( cubeUVRenderTarget, lodIn, lodOut, sigma, poleAxis ) { + + const pingPongRenderTarget = this._pingPongRenderTarget; + + this._halfBlur( + cubeUVRenderTarget, + pingPongRenderTarget, + lodIn, + lodOut, + sigma, + 'latitudinal', + poleAxis ); + + this._halfBlur( + pingPongRenderTarget, + cubeUVRenderTarget, + lodOut, + lodOut, + sigma, + 'longitudinal', + poleAxis ); + + } + + _halfBlur( targetIn, targetOut, lodIn, lodOut, sigmaRadians, direction, poleAxis ) { + + const renderer = this._renderer; + const blurMaterial = this._blurMaterial; + + if ( direction !== 'latitudinal' && direction !== 'longitudinal' ) { + + console.error( 'blur direction must be either latitudinal or longitudinal!' ); + + } + + // Number of standard deviations at which to cut off the discrete approximation. + const STANDARD_DEVIATIONS = 3; + + const blurMesh = this._lodMeshes[ lodOut ]; + blurMesh.material = blurMaterial; + + const blurUniforms = blurMaterial.uniforms; + + const pixels = this._sizeLods[ lodIn ] - 1; + const radiansPerPixel = isFinite( sigmaRadians ) ? Math.PI / ( 2 * pixels ) : 2 * Math.PI / ( 2 * MAX_SAMPLES - 1 ); + const sigmaPixels = sigmaRadians / radiansPerPixel; + const samples = isFinite( sigmaRadians ) ? 1 + Math.floor( STANDARD_DEVIATIONS * sigmaPixels ) : MAX_SAMPLES; + + if ( samples > MAX_SAMPLES ) { + + console.warn( `sigmaRadians, ${ + sigmaRadians}, is too large and will clip, as it requested ${ + samples} samples when the maximum is set to ${MAX_SAMPLES}` ); + + } + + const weights = []; + let sum = 0; + + for ( let i = 0; i < MAX_SAMPLES; ++ i ) { + + const x = i / sigmaPixels; + const weight = Math.exp( - x * x / 2 ); + weights.push( weight ); + + if ( i === 0 ) { + + sum += weight; + + } else if ( i < samples ) { + + sum += 2 * weight; + + } + + } + + for ( let i = 0; i < weights.length; i ++ ) { + + weights[ i ] = weights[ i ] / sum; + + } + + targetIn.texture.frame = ( targetIn.texture.frame || 0 ) + 1; + + blurUniforms.envMap.value = targetIn.texture; + blurUniforms.samples.value = samples; + blurUniforms.weights.array = weights; + blurUniforms.latitudinal.value = direction === 'latitudinal' ? 1 : 0; + + if ( poleAxis ) { + + blurUniforms.poleAxis.value = poleAxis; + + } + + const { _lodMax } = this; + blurUniforms.dTheta.value = radiansPerPixel; + blurUniforms.mipInt.value = _lodMax - lodIn; + + const outputSize = this._sizeLods[ lodOut ]; + const x = 3 * outputSize * ( lodOut > _lodMax - LOD_MIN ? lodOut - _lodMax + LOD_MIN : 0 ); + const y = 4 * ( this._cubeSize - outputSize ); + + _setViewport( targetOut, x, y, 3 * outputSize, 2 * outputSize ); + renderer.setRenderTarget( targetOut ); + renderer.render( blurMesh, _flatCamera ); + + } + +} + +function _createPlanes( lodMax ) { + + const lodPlanes = []; + const sizeLods = []; + const sigmas = []; + const lodMeshes = []; + + let lod = lodMax; + + const totalLods = lodMax - LOD_MIN + 1 + EXTRA_LOD_SIGMA.length; + + for ( let i = 0; i < totalLods; i ++ ) { + + const sizeLod = Math.pow( 2, lod ); + sizeLods.push( sizeLod ); + let sigma = 1.0 / sizeLod; + + if ( i > lodMax - LOD_MIN ) { + + sigma = EXTRA_LOD_SIGMA[ i - lodMax + LOD_MIN - 1 ]; + + } else if ( i === 0 ) { + + sigma = 0; + + } + + sigmas.push( sigma ); + + const texelSize = 1.0 / ( sizeLod - 2 ); + const min = - texelSize; + const max = 1 + texelSize; + const uv1 = [ min, min, max, min, max, max, min, min, max, max, min, max ]; + + const cubeFaces = 6; + const vertices = 6; + const positionSize = 3; + const uvSize = 2; + const faceIndexSize = 1; + + const position = new Float32Array( positionSize * vertices * cubeFaces ); + const uv = new Float32Array( uvSize * vertices * cubeFaces ); + const faceIndex = new Float32Array( faceIndexSize * vertices * cubeFaces ); + + for ( let face = 0; face < cubeFaces; face ++ ) { + + const x = ( face % 3 ) * 2 / 3 - 1; + const y = face > 2 ? 0 : - 1; + const coordinates = [ + x, y, 0, + x + 2 / 3, y, 0, + x + 2 / 3, y + 1, 0, + x, y, 0, + x + 2 / 3, y + 1, 0, + x, y + 1, 0 + ]; + + const faceIdx = _faceLib[ face ]; + position.set( coordinates, positionSize * vertices * faceIdx ); + uv.set( uv1, uvSize * vertices * faceIdx ); + const fill = [ faceIdx, faceIdx, faceIdx, faceIdx, faceIdx, faceIdx ]; + faceIndex.set( fill, faceIndexSize * vertices * faceIdx ); + + } + + const planes = new BufferGeometry(); + planes.setAttribute( 'position', new BufferAttribute( position, positionSize ) ); + planes.setAttribute( 'uv', new BufferAttribute( uv, uvSize ) ); + planes.setAttribute( 'faceIndex', new BufferAttribute( faceIndex, faceIndexSize ) ); + lodPlanes.push( planes ); + lodMeshes.push( new Mesh( planes, null ) ); + + if ( lod > LOD_MIN ) { + + lod --; + + } + + } + + return { lodPlanes, sizeLods, sigmas, lodMeshes }; + +} + +function _createRenderTarget( width, height, params ) { + + const cubeUVRenderTarget = new RenderTarget( width, height, params ); + cubeUVRenderTarget.texture.mapping = CubeUVReflectionMapping; + cubeUVRenderTarget.texture.name = 'PMREM.cubeUv'; + cubeUVRenderTarget.texture.isPMREMTexture = true; + cubeUVRenderTarget.scissorTest = true; + return cubeUVRenderTarget; + +} + +function _setViewport( target, x, y, width, height ) { + + const viewY = target.height - height - y; + + target.viewport.set( x, viewY, width, height ); + target.scissor.set( x, viewY, width, height ); + +} + +function _getMaterial() { + + const material = new NodeMaterial(); + material.depthTest = false; + material.depthWrite = false; + material.blending = NoBlending; + + return material; + +} + +function _getBlurShader( lodMax, width, height ) { + + const weights = uniforms( new Array( MAX_SAMPLES ).fill( 0 ) ); + const poleAxis = uniform( new Vector3( 0, 1, 0 ) ); + const dTheta = uniform( 0 ); + const n = float( MAX_SAMPLES ); + const latitudinal = uniform( 0 ); // false, bool + const samples = uniform( 1 ); // int + const envMap = texture( null ); + const mipInt = uniform( 0 ); // int + const CUBEUV_TEXEL_WIDTH = float( 1 / width ); + const CUBEUV_TEXEL_HEIGHT = float( 1 / height ); + const CUBEUV_MAX_MIP = float( lodMax ); + + const materialUniforms = { + n, + latitudinal, + weights, + poleAxis, + outputDirection, + dTheta, + samples, + envMap, + mipInt, + CUBEUV_TEXEL_WIDTH, + CUBEUV_TEXEL_HEIGHT, + CUBEUV_MAX_MIP + }; + + const material = _getMaterial(); + material.uniforms = materialUniforms; // TODO: Move to outside of the material + material.fragmentNode = blur( { ...materialUniforms, latitudinal: latitudinal.equal( 1 ) } ); + + return material; + +} + +function _getCubemapMaterial( envTexture ) { + + const material = _getMaterial(); + material.fragmentNode = cubeTexture( envTexture, outputDirection ); + + return material; + +} + +function _getEquirectMaterial( envTexture ) { + + const material = _getMaterial(); + material.fragmentNode = texture( envTexture, equirectUV( outputDirection ), 0 ); + + return material; + +} + +let _id$3 = 0; + +class BindGroup { + + constructor( name = '', bindings = [] ) { + + this.name = name; + this.bindings = bindings; + + this.id = _id$3 ++; + + } + +} + +const rendererCache = new WeakMap(); + +const typeFromLength = new Map( [ + [ 2, 'vec2' ], + [ 3, 'vec3' ], + [ 4, 'vec4' ], + [ 9, 'mat3' ], + [ 16, 'mat4' ] +] ); + +const typeFromArray = new Map( [ + [ Int8Array, 'int' ], + [ Int16Array, 'int' ], + [ Int32Array, 'int' ], + [ Uint8Array, 'uint' ], + [ Uint16Array, 'uint' ], + [ Uint32Array, 'uint' ], + [ Float32Array, 'float' ] +] ); + +const toFloat = ( value ) => { + + value = Number( value ); + + return value + ( value % 1 ? '' : '.0' ); + +}; + +class NodeBuilder { + + constructor( object, renderer, parser ) { + + this.object = object; + this.material = ( object && object.material ) || null; + this.geometry = ( object && object.geometry ) || null; + this.renderer = renderer; + this.parser = parser; + this.scene = null; + this.camera = null; + + this.nodes = []; + this.updateNodes = []; + this.updateBeforeNodes = []; + this.updateAfterNodes = []; + this.hashNodes = {}; + + this.lightsNode = null; + this.environmentNode = null; + this.fogNode = null; + + this.clippingContext = null; + + this.vertexShader = null; + this.fragmentShader = null; + this.computeShader = null; + + this.flowNodes = { vertex: [], fragment: [], compute: [] }; + this.flowCode = { vertex: '', fragment: '', compute: '' }; + this.uniforms = { vertex: [], fragment: [], compute: [], index: 0 }; + this.structs = { vertex: [], fragment: [], compute: [], index: 0 }; + this.bindings = { vertex: {}, fragment: {}, compute: {} }; + this.bindingsIndexes = {}; + this.bindGroups = null; + this.attributes = []; + this.bufferAttributes = []; + this.varyings = []; + this.codes = {}; + this.vars = {}; + this.flow = { code: '' }; + this.chaining = []; + this.stack = stack(); + this.stacks = []; + this.tab = '\t'; + + this.instanceBindGroups = true; + + this.currentFunctionNode = null; + + this.context = { + keywords: new NodeKeywords(), + material: this.material + }; + + this.cache = new NodeCache(); + this.globalCache = this.cache; + + this.flowsData = new WeakMap(); + + this.shaderStage = null; + this.buildStage = null; + + } + + getBingGroupsCache() { + + let bindGroupsCache = rendererCache.get( this.renderer ); + + if ( bindGroupsCache === undefined ) { + + bindGroupsCache = new ChainMap(); + + rendererCache.set( this.renderer, bindGroupsCache ); + + } + + return bindGroupsCache; + + } + + createRenderTarget( width, height, options ) { + + return new RenderTarget( width, height, options ); + + } + + createCubeRenderTarget( size, options ) { + + return new CubeRenderTarget( size, options ); + + } + + createPMREMGenerator() { + + // TODO: Move Materials.js to outside of the Nodes.js in order to remove this function and improve tree-shaking support + + return new PMREMGenerator( this.renderer ); + + } + + includes( node ) { + + return this.nodes.includes( node ); + + } + + _getBindGroup( groupName, bindings ) { + + const bindGroupsCache = this.getBingGroupsCache(); + + // cache individual uniforms group + + const bindingsArray = []; + + let sharedGroup = true; + + for ( const binding of bindings ) { + + if ( binding.groupNode.shared === true ) { + + // nodes is the chainmap key + const nodes = binding.getNodes(); + + let sharedBinding = bindGroupsCache.get( nodes ); + + if ( sharedBinding === undefined ) { + + bindGroupsCache.set( nodes, binding ); + + sharedBinding = binding; + + } + + bindingsArray.push( sharedBinding ); + + } else { + + bindingsArray.push( binding ); + + sharedGroup = false; + + } + + } + + // + + let bindGroup; + + if ( sharedGroup ) { + + bindGroup = bindGroupsCache.get( bindingsArray ); + + if ( bindGroup === undefined ) { + + bindGroup = new BindGroup( groupName, bindingsArray ); + bindGroupsCache.set( bindingsArray, bindGroup ); + + } + + } else { + + bindGroup = new BindGroup( groupName, bindingsArray ); + + } + + return bindGroup; + + } + + getBindGroupArray( groupName, shaderStage ) { + + const bindings = this.bindings[ shaderStage ]; + + let bindGroup = bindings[ groupName ]; + + if ( bindGroup === undefined ) { + + if ( this.bindingsIndexes[ groupName ] === undefined ) { + + this.bindingsIndexes[ groupName ] = { binding: 0, group: Object.keys( this.bindingsIndexes ).length }; + + } + + bindings[ groupName ] = bindGroup = []; + + } + + return bindGroup; + + } + + getBindings() { + + let bindingsGroups = this.bindGroups; + + if ( bindingsGroups === null ) { + + const groups = {}; + const bindings = this.bindings; + + for ( const shaderStage of shaderStages ) { + + for ( const groupName in bindings[ shaderStage ] ) { + + const uniforms = bindings[ shaderStage ][ groupName ]; + + const groupUniforms = groups[ groupName ] || ( groups[ groupName ] = [] ); + groupUniforms.push( ...uniforms ); + + } + + } + + bindingsGroups = []; + + for ( const groupName in groups ) { + + const group = groups[ groupName ]; + + const bindingsGroup = this._getBindGroup( groupName, group ); + + bindingsGroups.push( bindingsGroup ); + + } + + this.bindGroups = bindingsGroups; + + } + + return bindingsGroups; + + } + + setHashNode( node, hash ) { + + this.hashNodes[ hash ] = node; + + } + + addNode( node ) { + + if ( this.nodes.includes( node ) === false ) { + + this.nodes.push( node ); + + this.setHashNode( node, node.getHash( this ) ); + + } + + } + + buildUpdateNodes() { + + for ( const node of this.nodes ) { + + const updateType = node.getUpdateType(); + const updateBeforeType = node.getUpdateBeforeType(); + const updateAfterType = node.getUpdateAfterType(); + + if ( updateType !== NodeUpdateType.NONE ) { + + this.updateNodes.push( node.getSelf() ); + + } + + if ( updateBeforeType !== NodeUpdateType.NONE ) { + + this.updateBeforeNodes.push( node ); + + } + + if ( updateAfterType !== NodeUpdateType.NONE ) { + + this.updateAfterNodes.push( node ); + + } + + } + + } + + get currentNode() { + + return this.chaining[ this.chaining.length - 1 ]; + + } + + isFilteredTexture( texture ) { + + return ( texture.magFilter === LinearFilter || texture.magFilter === LinearMipmapNearestFilter || texture.magFilter === NearestMipmapLinearFilter || texture.magFilter === LinearMipmapLinearFilter || + texture.minFilter === LinearFilter || texture.minFilter === LinearMipmapNearestFilter || texture.minFilter === NearestMipmapLinearFilter || texture.minFilter === LinearMipmapLinearFilter ); + + } + + addChain( node ) { + + /* + if ( this.chaining.indexOf( node ) !== - 1 ) { + + console.warn( 'Recursive node: ', node ); + + } + */ + + this.chaining.push( node ); + + } + + removeChain( node ) { + + const lastChain = this.chaining.pop(); + + if ( lastChain !== node ) { + + throw new Error( 'NodeBuilder: Invalid node chaining!' ); + + } + + } + + getMethod( method ) { + + return method; + + } + + getNodeFromHash( hash ) { + + return this.hashNodes[ hash ]; + + } + + addFlow( shaderStage, node ) { + + this.flowNodes[ shaderStage ].push( node ); + + return node; + + } + + setContext( context ) { + + this.context = context; + + } + + getContext() { + + return this.context; + + } + + setCache( cache ) { + + this.cache = cache; + + } + + getCache() { + + return this.cache; + + } + + getCacheFromNode( node, parent = true ) { + + const data = this.getDataFromNode( node ); + if ( data.cache === undefined ) data.cache = new NodeCache( parent ? this.getCache() : null ); + + return data.cache; + + } + + isAvailable( /*name*/ ) { + + return false; + + } + + getVertexIndex() { + + console.warn( 'Abstract function.' ); + + } + + getInstanceIndex() { + + console.warn( 'Abstract function.' ); + + } + + getDrawIndex() { + + console.warn( 'Abstract function.' ); + + } + + getFrontFacing() { + + console.warn( 'Abstract function.' ); + + } + + getFragCoord() { + + console.warn( 'Abstract function.' ); + + } + + isFlipY() { + + return false; + + } + + generateTexture( /* texture, textureProperty, uvSnippet */ ) { + + console.warn( 'Abstract function.' ); + + } + + generateTextureLod( /* texture, textureProperty, uvSnippet, levelSnippet */ ) { + + console.warn( 'Abstract function.' ); + + } + + generateConst( type, value = null ) { + + if ( value === null ) { + + if ( type === 'float' || type === 'int' || type === 'uint' ) value = 0; + else if ( type === 'bool' ) value = false; + else if ( type === 'color' ) value = new Color(); + else if ( type === 'vec2' ) value = new Vector2(); + else if ( type === 'vec3' ) value = new Vector3(); + else if ( type === 'vec4' ) value = new Vector4(); + + } + + if ( type === 'float' ) return toFloat( value ); + if ( type === 'int' ) return `${ Math.round( value ) }`; + if ( type === 'uint' ) return value >= 0 ? `${ Math.round( value ) }u` : '0u'; + if ( type === 'bool' ) return value ? 'true' : 'false'; + if ( type === 'color' ) return `${ this.getType( 'vec3' ) }( ${ toFloat( value.r ) }, ${ toFloat( value.g ) }, ${ toFloat( value.b ) } )`; + + const typeLength = this.getTypeLength( type ); + + const componentType = this.getComponentType( type ); + + const generateConst = value => this.generateConst( componentType, value ); + + if ( typeLength === 2 ) { + + return `${ this.getType( type ) }( ${ generateConst( value.x ) }, ${ generateConst( value.y ) } )`; + + } else if ( typeLength === 3 ) { + + return `${ this.getType( type ) }( ${ generateConst( value.x ) }, ${ generateConst( value.y ) }, ${ generateConst( value.z ) } )`; + + } else if ( typeLength === 4 ) { + + return `${ this.getType( type ) }( ${ generateConst( value.x ) }, ${ generateConst( value.y ) }, ${ generateConst( value.z ) }, ${ generateConst( value.w ) } )`; + + } else if ( typeLength > 4 && value && ( value.isMatrix3 || value.isMatrix4 ) ) { + + return `${ this.getType( type ) }( ${ value.elements.map( generateConst ).join( ', ' ) } )`; + + } else if ( typeLength > 4 ) { + + return `${ this.getType( type ) }()`; + + } + + throw new Error( `NodeBuilder: Type '${type}' not found in generate constant attempt.` ); + + } + + getType( type ) { + + if ( type === 'color' ) return 'vec3'; + + return type; + + } + + hasGeometryAttribute( name ) { + + return this.geometry && this.geometry.getAttribute( name ) !== undefined; + + } + + getAttribute( name, type ) { + + const attributes = this.attributes; + + // find attribute + + for ( const attribute of attributes ) { + + if ( attribute.name === name ) { + + return attribute; + + } + + } + + // create a new if no exist + + const attribute = new NodeAttribute( name, type ); + + attributes.push( attribute ); + + return attribute; + + } + + getPropertyName( node/*, shaderStage*/ ) { + + return node.name; + + } + + isVector( type ) { + + return /vec\d/.test( type ); + + } + + isMatrix( type ) { + + return /mat\d/.test( type ); + + } + + isReference( type ) { + + return type === 'void' || type === 'property' || type === 'sampler' || type === 'texture' || type === 'cubeTexture' || type === 'storageTexture' || type === 'depthTexture' || type === 'texture3D'; + + } + + needsColorSpaceToLinear( /*texture*/ ) { + + return false; + + } + + getComponentTypeFromTexture( texture ) { + + const type = texture.type; + + if ( texture.isDataTexture ) { + + if ( type === IntType ) return 'int'; + if ( type === UnsignedIntType ) return 'uint'; + + } + + return 'float'; + + } + + getElementType( type ) { + + if ( type === 'mat2' ) return 'vec2'; + if ( type === 'mat3' ) return 'vec3'; + if ( type === 'mat4' ) return 'vec4'; + + return this.getComponentType( type ); + + } + + getComponentType( type ) { + + type = this.getVectorType( type ); + + if ( type === 'float' || type === 'bool' || type === 'int' || type === 'uint' ) return type; + + const componentType = /(b|i|u|)(vec|mat)([2-4])/.exec( type ); + + if ( componentType === null ) return null; + + if ( componentType[ 1 ] === 'b' ) return 'bool'; + if ( componentType[ 1 ] === 'i' ) return 'int'; + if ( componentType[ 1 ] === 'u' ) return 'uint'; + + return 'float'; + + } + + getVectorType( type ) { + + if ( type === 'color' ) return 'vec3'; + if ( type === 'texture' || type === 'cubeTexture' || type === 'storageTexture' || type === 'texture3D' ) return 'vec4'; + + return type; + + } + + getTypeFromLength( length, componentType = 'float' ) { + + if ( length === 1 ) return componentType; + + const baseType = typeFromLength.get( length ); + const prefix = componentType === 'float' ? '' : componentType[ 0 ]; + + return prefix + baseType; + + } + + getTypeFromArray( array ) { + + return typeFromArray.get( array.constructor ); + + } + + getTypeFromAttribute( attribute ) { + + let dataAttribute = attribute; + + if ( attribute.isInterleavedBufferAttribute ) dataAttribute = attribute.data; + + const array = dataAttribute.array; + const itemSize = attribute.itemSize; + const normalized = attribute.normalized; + + let arrayType; + + if ( ! ( attribute instanceof Float16BufferAttribute ) && normalized !== true ) { + + arrayType = this.getTypeFromArray( array ); + + } + + return this.getTypeFromLength( itemSize, arrayType ); + + } + + getTypeLength( type ) { + + const vecType = this.getVectorType( type ); + const vecNum = /vec([2-4])/.exec( vecType ); + + if ( vecNum !== null ) return Number( vecNum[ 1 ] ); + if ( vecType === 'float' || vecType === 'bool' || vecType === 'int' || vecType === 'uint' ) return 1; + if ( /mat2/.test( type ) === true ) return 4; + if ( /mat3/.test( type ) === true ) return 9; + if ( /mat4/.test( type ) === true ) return 16; + + return 0; + + } + + getVectorFromMatrix( type ) { + + return type.replace( 'mat', 'vec' ); + + } + + changeComponentType( type, newComponentType ) { + + return this.getTypeFromLength( this.getTypeLength( type ), newComponentType ); + + } + + getIntegerType( type ) { + + const componentType = this.getComponentType( type ); + + if ( componentType === 'int' || componentType === 'uint' ) return type; + + return this.changeComponentType( type, 'int' ); + + } + + addStack() { + + this.stack = stack( this.stack ); + + this.stacks.push( getCurrentStack() || this.stack ); + setCurrentStack( this.stack ); + + return this.stack; + + } + + removeStack() { + + const lastStack = this.stack; + this.stack = lastStack.parent; + + setCurrentStack( this.stacks.pop() ); + + return lastStack; + + } + + getDataFromNode( node, shaderStage = this.shaderStage, cache = null ) { + + cache = cache === null ? ( node.isGlobal( this ) ? this.globalCache : this.cache ) : cache; + + let nodeData = cache.getData( node ); + + if ( nodeData === undefined ) { + + nodeData = {}; + + cache.setData( node, nodeData ); + + } + + if ( nodeData[ shaderStage ] === undefined ) nodeData[ shaderStage ] = {}; + + return nodeData[ shaderStage ]; + + } + + getNodeProperties( node, shaderStage = 'any' ) { + + const nodeData = this.getDataFromNode( node, shaderStage ); + + return nodeData.properties || ( nodeData.properties = { outputNode: null } ); + + } + + getBufferAttributeFromNode( node, type ) { + + const nodeData = this.getDataFromNode( node ); + + let bufferAttribute = nodeData.bufferAttribute; + + if ( bufferAttribute === undefined ) { + + const index = this.uniforms.index ++; + + bufferAttribute = new NodeAttribute( 'nodeAttribute' + index, type, node ); + + this.bufferAttributes.push( bufferAttribute ); + + nodeData.bufferAttribute = bufferAttribute; + + } + + return bufferAttribute; + + } + + getStructTypeFromNode( node, shaderStage = this.shaderStage ) { + + const nodeData = this.getDataFromNode( node, shaderStage ); + + if ( nodeData.structType === undefined ) { + + const index = this.structs.index ++; + + node.name = `StructType${ index }`; + this.structs[ shaderStage ].push( node ); + + nodeData.structType = node; + + } + + return node; + + } + + getUniformFromNode( node, type, shaderStage = this.shaderStage, name = null ) { + + const nodeData = this.getDataFromNode( node, shaderStage, this.globalCache ); + + let nodeUniform = nodeData.uniform; + + if ( nodeUniform === undefined ) { + + const index = this.uniforms.index ++; + + nodeUniform = new NodeUniform( name || ( 'nodeUniform' + index ), type, node ); + + this.uniforms[ shaderStage ].push( nodeUniform ); + + nodeData.uniform = nodeUniform; + + } + + return nodeUniform; + + } + + getVarFromNode( node, name = null, type = node.getNodeType( this ), shaderStage = this.shaderStage ) { + + const nodeData = this.getDataFromNode( node, shaderStage ); + + let nodeVar = nodeData.variable; + + if ( nodeVar === undefined ) { + + const vars = this.vars[ shaderStage ] || ( this.vars[ shaderStage ] = [] ); + + if ( name === null ) name = 'nodeVar' + vars.length; + + nodeVar = new NodeVar( name, type ); + + vars.push( nodeVar ); + + nodeData.variable = nodeVar; + + } + + return nodeVar; + + } + + getVaryingFromNode( node, name = null, type = node.getNodeType( this ) ) { + + const nodeData = this.getDataFromNode( node, 'any' ); + + let nodeVarying = nodeData.varying; + + if ( nodeVarying === undefined ) { + + const varyings = this.varyings; + const index = varyings.length; + + if ( name === null ) name = 'nodeVarying' + index; + + nodeVarying = new NodeVarying( name, type ); + + varyings.push( nodeVarying ); + + nodeData.varying = nodeVarying; + + } + + return nodeVarying; + + } + + getCodeFromNode( node, type, shaderStage = this.shaderStage ) { + + const nodeData = this.getDataFromNode( node ); + + let nodeCode = nodeData.code; + + if ( nodeCode === undefined ) { + + const codes = this.codes[ shaderStage ] || ( this.codes[ shaderStage ] = [] ); + const index = codes.length; + + nodeCode = new NodeCode( 'nodeCode' + index, type ); + + codes.push( nodeCode ); + + nodeData.code = nodeCode; + + } + + return nodeCode; + + } + + addLineFlowCode( code ) { + + if ( code === '' ) return this; + + code = this.tab + code; + + if ( ! /;\s*$/.test( code ) ) { + + code = code + ';\n'; + + } + + this.flow.code += code; + + return this; + + } + + addFlowCode( code ) { + + this.flow.code += code; + + return this; + + } + + addFlowTab() { + + this.tab += '\t'; + + return this; + + } + + removeFlowTab() { + + this.tab = this.tab.slice( 0, - 1 ); + + return this; + + } + + getFlowData( node/*, shaderStage*/ ) { + + return this.flowsData.get( node ); + + } + + flowNode( node ) { + + const output = node.getNodeType( this ); + + const flowData = this.flowChildNode( node, output ); + + this.flowsData.set( node, flowData ); + + return flowData; + + } + + buildFunctionNode( shaderNode ) { + + const fn = new FunctionNode(); + + const previous = this.currentFunctionNode; + + this.currentFunctionNode = fn; + + fn.code = this.buildFunctionCode( shaderNode ); + + this.currentFunctionNode = previous; + + return fn; + + } + + flowShaderNode( shaderNode ) { + + const layout = shaderNode.layout; + + let inputs; + + if ( shaderNode.isArrayInput ) { + + inputs = []; + + for ( const input of layout.inputs ) { + + inputs.push( new ParameterNode( input.type, input.name ) ); + + } + + } else { + + inputs = {}; + + for ( const input of layout.inputs ) { + + inputs[ input.name ] = new ParameterNode( input.type, input.name ); + + } + + } + + // + + shaderNode.layout = null; + + const callNode = shaderNode.call( inputs ); + const flowData = this.flowStagesNode( callNode, layout.type ); + + shaderNode.layout = layout; + + return flowData; + + } + + flowStagesNode( node, output = null ) { + + const previousFlow = this.flow; + const previousVars = this.vars; + const previousCache = this.cache; + const previousBuildStage = this.buildStage; + const previousStack = this.stack; + + const flow = { + code: '' + }; + + this.flow = flow; + this.vars = {}; + this.cache = new NodeCache(); + this.stack = stack(); + + for ( const buildStage of defaultBuildStages ) { + + this.setBuildStage( buildStage ); + + flow.result = node.build( this, output ); + + } + + flow.vars = this.getVars( this.shaderStage ); + + this.flow = previousFlow; + this.vars = previousVars; + this.cache = previousCache; + this.stack = previousStack; + + this.setBuildStage( previousBuildStage ); + + return flow; + + } + + getFunctionOperator() { + + return null; + + } + + flowChildNode( node, output = null ) { + + const previousFlow = this.flow; + + const flow = { + code: '' + }; + + this.flow = flow; + + flow.result = node.build( this, output ); + + this.flow = previousFlow; + + return flow; + + } + + flowNodeFromShaderStage( shaderStage, node, output = null, propertyName = null ) { + + const previousShaderStage = this.shaderStage; + + this.setShaderStage( shaderStage ); + + const flowData = this.flowChildNode( node, output ); + + if ( propertyName !== null ) { + + flowData.code += `${ this.tab + propertyName } = ${ flowData.result };\n`; + + } + + this.flowCode[ shaderStage ] = this.flowCode[ shaderStage ] + flowData.code; + + this.setShaderStage( previousShaderStage ); + + return flowData; + + } + + getAttributesArray() { + + return this.attributes.concat( this.bufferAttributes ); + + } + + getAttributes( /*shaderStage*/ ) { + + console.warn( 'Abstract function.' ); + + } + + getVaryings( /*shaderStage*/ ) { + + console.warn( 'Abstract function.' ); + + } + + getVar( type, name ) { + + return `${ this.getType( type ) } ${ name }`; + + } + + getVars( shaderStage ) { + + let snippet = ''; + + const vars = this.vars[ shaderStage ]; + + if ( vars !== undefined ) { + + for ( const variable of vars ) { + + snippet += `${ this.getVar( variable.type, variable.name ) }; `; + + } + + } + + return snippet; + + } + + getUniforms( /*shaderStage*/ ) { + + console.warn( 'Abstract function.' ); + + } + + getCodes( shaderStage ) { + + const codes = this.codes[ shaderStage ]; + + let code = ''; + + if ( codes !== undefined ) { + + for ( const nodeCode of codes ) { + + code += nodeCode.code + '\n'; + + } + + } + + return code; + + } + + getHash() { + + return this.vertexShader + this.fragmentShader + this.computeShader; + + } + + setShaderStage( shaderStage ) { + + this.shaderStage = shaderStage; + + } + + getShaderStage() { + + return this.shaderStage; + + } + + setBuildStage( buildStage ) { + + this.buildStage = buildStage; + + } + + getBuildStage() { + + return this.buildStage; + + } + + buildCode() { + + console.warn( 'Abstract function.' ); + + } + + build() { + + const { object, material } = this; + + + if ( material !== null ) { + + NodeMaterial.fromMaterial( material ).build( this ); + + } else { + + this.addFlow( 'compute', object ); + + } + + // setup() -> stage 1: create possible new nodes and returns an output reference node + // analyze() -> stage 2: analyze nodes to possible optimization and validation + // generate() -> stage 3: generate shader + + for ( const buildStage of defaultBuildStages ) { + + this.setBuildStage( buildStage ); + + if ( this.context.vertex && this.context.vertex.isNode ) { + + this.flowNodeFromShaderStage( 'vertex', this.context.vertex ); + + } + + for ( const shaderStage of shaderStages ) { + + this.setShaderStage( shaderStage ); + + const flowNodes = this.flowNodes[ shaderStage ]; + + for ( const node of flowNodes ) { + + if ( buildStage === 'generate' ) { + + this.flowNode( node ); + + } else { + + node.build( this ); + + } + + } + + } + + } + + this.setBuildStage( null ); + this.setShaderStage( null ); + + // stage 4: build code for a specific output + + this.buildCode(); + this.buildUpdateNodes(); + + return this; + + } + + getNodeUniform( uniformNode, type ) { + + if ( type === 'float' || type === 'int' || type === 'uint' ) return new NumberNodeUniform( uniformNode ); + if ( type === 'vec2' || type === 'ivec2' || type === 'uvec2' ) return new Vector2NodeUniform( uniformNode ); + if ( type === 'vec3' || type === 'ivec3' || type === 'uvec3' ) return new Vector3NodeUniform( uniformNode ); + if ( type === 'vec4' || type === 'ivec4' || type === 'uvec4' ) return new Vector4NodeUniform( uniformNode ); + if ( type === 'color' ) return new ColorNodeUniform( uniformNode ); + if ( type === 'mat3' ) return new Matrix3NodeUniform( uniformNode ); + if ( type === 'mat4' ) return new Matrix4NodeUniform( uniformNode ); + + throw new Error( `Uniform "${type}" not declared.` ); + + } + + createNodeMaterial( type = 'NodeMaterial' ) { + + // TODO: Move Materials.js to outside of the Nodes.js in order to remove this function and improve tree-shaking support + + return createNodeMaterialFromType( type ); + + } + + format( snippet, fromType, toType ) { + + fromType = this.getVectorType( fromType ); + toType = this.getVectorType( toType ); + + if ( fromType === toType || toType === null || this.isReference( toType ) ) { + + return snippet; + + } + + const fromTypeLength = this.getTypeLength( fromType ); + const toTypeLength = this.getTypeLength( toType ); + + if ( fromTypeLength > 4 ) { // fromType is matrix-like + + // @TODO: ignore for now + + return snippet; + + } + + if ( toTypeLength > 4 || toTypeLength === 0 ) { // toType is matrix-like or unknown + + // @TODO: ignore for now + + return snippet; + + } + + if ( fromTypeLength === toTypeLength ) { + + return `${ this.getType( toType ) }( ${ snippet } )`; + + } + + if ( fromTypeLength > toTypeLength ) { + + return this.format( `${ snippet }.${ 'xyz'.slice( 0, toTypeLength ) }`, this.getTypeFromLength( toTypeLength, this.getComponentType( fromType ) ), toType ); + + } + + if ( toTypeLength === 4 && fromTypeLength > 1 ) { // toType is vec4-like + + return `${ this.getType( toType ) }( ${ this.format( snippet, fromType, 'vec3' ) }, 1.0 )`; + + } + + if ( fromTypeLength === 2 ) { // fromType is vec2-like and toType is vec3-like + + return `${ this.getType( toType ) }( ${ this.format( snippet, fromType, 'vec2' ) }, 0.0 )`; + + } + + if ( fromTypeLength === 1 && toTypeLength > 1 && fromType !== this.getComponentType( toType ) ) { // fromType is float-like + + // convert a number value to vector type, e.g: + // vec3( 1u ) -> vec3( float( 1u ) ) + + snippet = `${ this.getType( this.getComponentType( toType ) ) }( ${ snippet } )`; + + } + + return `${ this.getType( toType ) }( ${ snippet } )`; // fromType is float-like + + } + + getSignature() { + + return `// Three.js r${ REVISION } - Node System\n`; + + } + +} + +class NodeFrame { + + constructor() { + + this.time = 0; + this.deltaTime = 0; + + this.frameId = 0; + this.renderId = 0; + + this.startTime = null; + + this.updateMap = new WeakMap(); + this.updateBeforeMap = new WeakMap(); + this.updateAfterMap = new WeakMap(); + + this.renderer = null; + this.material = null; + this.camera = null; + this.object = null; + this.scene = null; + + } + + _getMaps( referenceMap, nodeRef ) { + + let maps = referenceMap.get( nodeRef ); + + if ( maps === undefined ) { + + maps = { + renderMap: new WeakMap(), + frameMap: new WeakMap() + }; + + referenceMap.set( nodeRef, maps ); + + } + + return maps; + + } + + updateBeforeNode( node ) { + + const updateType = node.getUpdateBeforeType(); + const reference = node.updateReference( this ); + + if ( updateType === NodeUpdateType.FRAME ) { + + const { frameMap } = this._getMaps( this.updateBeforeMap, reference ); + + if ( frameMap.get( reference ) !== this.frameId ) { + + if ( node.updateBefore( this ) !== false ) { + + frameMap.set( reference, this.frameId ); + + } + + } + + } else if ( updateType === NodeUpdateType.RENDER ) { + + const { renderMap } = this._getMaps( this.updateBeforeMap, reference ); + + if ( renderMap.get( reference ) !== this.renderId ) { + + if ( node.updateBefore( this ) !== false ) { + + renderMap.set( reference, this.renderId ); + + } + + } + + } else if ( updateType === NodeUpdateType.OBJECT ) { + + node.updateBefore( this ); + + } + + } + + updateAfterNode( node ) { + + const updateType = node.getUpdateAfterType(); + const reference = node.updateReference( this ); + + if ( updateType === NodeUpdateType.FRAME ) { + + const { frameMap } = this._getMaps( this.updateAfterMap, reference ); + + if ( frameMap.get( reference ) !== this.frameId ) { + + if ( node.updateAfter( this ) !== false ) { + + frameMap.set( reference, this.frameId ); + + } + + } + + } else if ( updateType === NodeUpdateType.RENDER ) { + + const { renderMap } = this._getMaps( this.updateAfterMap, reference ); + + if ( renderMap.get( reference ) !== this.renderId ) { + + if ( node.updateAfter( this ) !== false ) { + + renderMap.set( reference, this.renderId ); + + } + + } + + } else if ( updateType === NodeUpdateType.OBJECT ) { + + node.updateAfter( this ); + + } + + } + + updateNode( node ) { + + const updateType = node.getUpdateType(); + const reference = node.updateReference( this ); + + if ( updateType === NodeUpdateType.FRAME ) { + + const { frameMap } = this._getMaps( this.updateMap, reference ); + + if ( frameMap.get( reference ) !== this.frameId ) { + + if ( node.update( this ) !== false ) { + + frameMap.set( reference, this.frameId ); + + } + + } + + } else if ( updateType === NodeUpdateType.RENDER ) { + + const { renderMap } = this._getMaps( this.updateMap, reference ); + + if ( renderMap.get( reference ) !== this.renderId ) { + + if ( node.update( this ) !== false ) { + + renderMap.set( reference, this.renderId ); + + } + + } + + } else if ( updateType === NodeUpdateType.OBJECT ) { + + node.update( this ); + + } + + } + + update() { + + this.frameId ++; + + if ( this.lastTime === undefined ) this.lastTime = performance.now(); + + this.deltaTime = ( performance.now() - this.lastTime ) / 1000; + + this.lastTime = performance.now(); + + this.time += this.deltaTime; + + } + +} + +class NodeFunctionInput { + + constructor( type, name, count = null, qualifier = '', isConst = false ) { + + this.type = type; + this.name = name; + this.count = count; + this.qualifier = qualifier; + this.isConst = isConst; + + } + +} + +NodeFunctionInput.isNodeFunctionInput = true; + +class StructTypeNode extends Node { + + constructor( types ) { + + super(); + + this.types = types; + this.isStructTypeNode = true; + + } + + getMemberTypes() { + + return this.types; + + } + +} + +addNodeClass( 'StructTypeNode', StructTypeNode ); + +class OutputStructNode extends Node { + + constructor( ...members ) { + + super(); + + this.members = members; + + this.isOutputStructNode = true; + + } + + setup( builder ) { + + super.setup( builder ); + + const members = this.members; + const types = []; + + for ( let i = 0; i < members.length; i ++ ) { + + types.push( members[ i ].getNodeType( builder ) ); + + } + + this.nodeType = builder.getStructTypeFromNode( new StructTypeNode( types ) ).name; + + } + + generate( builder, output ) { + + const propertyName = builder.getOutputStructName(); + const members = this.members; + + const structPrefix = propertyName !== '' ? propertyName + '.' : ''; + + for ( let i = 0; i < members.length; i ++ ) { + + const snippet = members[ i ].build( builder, output ); + + builder.addLineFlowCode( `${ structPrefix }m${ i } = ${ snippet }` ); + + } + + return propertyName; + + } + +} + +const outputStruct = nodeProxy( OutputStructNode ); + +addNodeClass( 'OutputStructNode', OutputStructNode ); + +class HashNode extends Node { + + constructor( seedNode ) { + + super(); + + this.seedNode = seedNode; + + } + + setup( /*builder*/ ) { + + // Taken from https://www.shadertoy.com/view/XlGcRh, originally from pcg-random.org + + const state = this.seedNode.toUint().mul( 747796405 ).add( 2891336453 ); + const word = state.shiftRight( state.shiftRight( 28 ).add( 4 ) ).bitXor( state ).mul( 277803737 ); + const result = word.shiftRight( 22 ).bitXor( word ); + + return result.toFloat().mul( 1 / 2 ** 32 ); // Convert to range [0, 1) + + } + +} + +const hash = nodeProxy( HashNode ); + +addNodeElement( 'hash', hash ); + +addNodeClass( 'HashNode', HashNode ); + +// remapping functions https://iquilezles.org/articles/functions/ +const parabola = ( x, k ) => pow( mul( 4.0, x.mul( sub( 1.0, x ) ) ), k ); +const gain = ( x, k ) => x.lessThan( 0.5 ) ? parabola( x.mul( 2.0 ), k ).div( 2.0 ) : sub( 1.0, parabola( mul( sub( 1.0, x ), 2.0 ), k ).div( 2.0 ) ); +const pcurve = ( x, a, b ) => pow( div( pow( x, a ), add( pow( x, a ), pow( sub( 1.0, x ), b ) ) ), 1.0 / a ); +const sinc = ( x, k ) => sin( PI.mul( k.mul( x ).sub( 1.0 ) ) ).div( PI.mul( k.mul( x ).sub( 1.0 ) ) ); + + +addNodeElement( 'parabola', parabola ); +addNodeElement( 'gain', gain ); +addNodeElement( 'pcurve', pcurve ); +addNodeElement( 'sinc', sinc ); + +// https://github.com/cabbibo/glsl-tri-noise-3d + + +const tri = tslFn( ( [ x ] ) => { + + return x.fract().sub( .5 ).abs(); + +} ); + +const tri3 = tslFn( ( [ p ] ) => { + + return vec3( tri( p.z.add( tri( p.y.mul( 1. ) ) ) ), tri( p.z.add( tri( p.x.mul( 1. ) ) ) ), tri( p.y.add( tri( p.x.mul( 1. ) ) ) ) ); + +} ); + +const triNoise3D = tslFn( ( [ p_immutable, spd, time ] ) => { + + const p = vec3( p_immutable ).toVar(); + const z = float( 1.4 ).toVar(); + const rz = float( 0.0 ).toVar(); + const bp = vec3( p ).toVar(); + + loop( { start: float( 0.0 ), end: float( 3.0 ), type: 'float', condition: '<=' }, () => { + + const dg = vec3( tri3( bp.mul( 2.0 ) ) ).toVar(); + p.addAssign( dg.add( time.mul( float( 0.1 ).mul( spd ) ) ) ); + bp.mulAssign( 1.8 ); + z.mulAssign( 1.5 ); + p.mulAssign( 1.2 ); + + const t = float( tri( p.z.add( tri( p.x.add( tri( p.y ) ) ) ) ) ).toVar(); + rz.addAssign( t.div( z ) ); + bp.addAssign( 0.14 ); + + } ); + + return rz; + +} ); + +// layouts + +tri.setLayout( { + name: 'tri', + type: 'float', + inputs: [ + { name: 'x', type: 'float' } + ] +} ); + +tri3.setLayout( { + name: 'tri3', + type: 'vec3', + inputs: [ + { name: 'p', type: 'vec3' } + ] +} ); + +triNoise3D.setLayout( { + name: 'triNoise3D', + type: 'float', + inputs: [ + { name: 'p', type: 'vec3' }, + { name: 'spd', type: 'float' }, + { name: 'time', type: 'float' } + ] +} ); + +let discardExpression; + +class DiscardNode extends CondNode { + + constructor( condNode ) { + + discardExpression = discardExpression || expression( 'discard' ); + + super( condNode, discardExpression ); + + } + +} + +const inlineDiscard = nodeProxy( DiscardNode ); +const discard = ( condNode ) => inlineDiscard( condNode ).append(); +const Return = () => expression( 'return' ).append(); + +addNodeElement( 'discard', discard ); // @TODO: Check... this cause a little confusing using in chaining + +addNodeClass( 'DiscardNode', DiscardNode ); + +class FunctionOverloadingNode extends Node { + + constructor( functionNodes = [], ...parametersNodes ) { + + super(); + + this.functionNodes = functionNodes; + this.parametersNodes = parametersNodes; + + this._candidateFnCall = null; + + this.global = true; + + } + + getNodeType() { + + return this.functionNodes[ 0 ].shaderNode.layout.type; + + } + + setup( builder ) { + + const params = this.parametersNodes; + + let candidateFnCall = this._candidateFnCall; + + if ( candidateFnCall === null ) { + + let candidateFn = null; + let candidateScore = - 1; + + for ( const functionNode of this.functionNodes ) { + + const shaderNode = functionNode.shaderNode; + const layout = shaderNode.layout; + + if ( layout === null ) { + + throw new Error( 'FunctionOverloadingNode: FunctionNode must be a layout.' ); + + } + + const inputs = layout.inputs; + + if ( params.length === inputs.length ) { + + let score = 0; + + for ( let i = 0; i < params.length; i ++ ) { + + const param = params[ i ]; + const input = inputs[ i ]; + + if ( param.getNodeType( builder ) === input.type ) { + + score ++; + + } else { + + score = 0; + + } + + } + + if ( score > candidateScore ) { + + candidateFn = functionNode; + candidateScore = score; + + } + + } + + } + + this._candidateFnCall = candidateFnCall = candidateFn( ...params ); + + } + + return candidateFnCall; + + } + +} + +const overloadingBaseFn = nodeProxy( FunctionOverloadingNode ); + +const overloadingFn = ( functionNodes ) => ( ...params ) => overloadingBaseFn( functionNodes, ...params ); + +addNodeClass( 'FunctionOverloadingNode', FunctionOverloadingNode ); + +class MatcapUVNode extends TempNode { + + constructor() { + + super( 'vec2' ); + + } + + setup() { + + const x = vec3( positionViewDirection.z, 0, positionViewDirection.x.negate() ).normalize(); + const y = positionViewDirection.cross( x ); + + return vec2( x.dot( transformedNormalView ), y.dot( transformedNormalView ) ).mul( 0.495 ).add( 0.5 ); // 0.495 to remove artifacts caused by undersized matcap disks + + } + +} + +const matcapUV = nodeImmutable( MatcapUVNode ); + +addNodeClass( 'MatcapUVNode', MatcapUVNode ); + +class TimerNode extends UniformNode { + + constructor( scope = TimerNode.LOCAL, scale = 1, value = 0 ) { + + super( value ); + + this.scope = scope; + this.scale = scale; + + this.updateType = NodeUpdateType.FRAME; + + } + /* + @TODO: + getNodeType( builder ) { + + const scope = this.scope; + + if ( scope === TimerNode.FRAME ) { + + return 'uint'; + + } + + return 'float'; + + } +*/ + update( frame ) { + + const scope = this.scope; + const scale = this.scale; + + if ( scope === TimerNode.LOCAL ) { + + this.value += frame.deltaTime * scale; + + } else if ( scope === TimerNode.DELTA ) { + + this.value = frame.deltaTime * scale; + + } else if ( scope === TimerNode.FRAME ) { + + this.value = frame.frameId; + + } else { + + // global + + this.value = frame.time * scale; + + } + + } + + serialize( data ) { + + super.serialize( data ); + + data.scope = this.scope; + data.scale = this.scale; + + } + + deserialize( data ) { + + super.deserialize( data ); + + this.scope = data.scope; + this.scale = data.scale; + + } + +} + +TimerNode.LOCAL = 'local'; +TimerNode.GLOBAL = 'global'; +TimerNode.DELTA = 'delta'; +TimerNode.FRAME = 'frame'; + +// @TODO: add support to use node in timeScale +const timerLocal = ( timeScale, value = 0 ) => nodeObject( new TimerNode( TimerNode.LOCAL, timeScale, value ) ); +const timerGlobal = ( timeScale, value = 0 ) => nodeObject( new TimerNode( TimerNode.GLOBAL, timeScale, value ) ); +const timerDelta = ( timeScale, value = 0 ) => nodeObject( new TimerNode( TimerNode.DELTA, timeScale, value ) ); +const frameId = nodeImmutable( TimerNode, TimerNode.FRAME ).toUint(); + +addNodeClass( 'TimerNode', TimerNode ); + +class OscNode extends Node { + + constructor( method = OscNode.SINE, timeNode = timerLocal() ) { + + super(); + + this.method = method; + this.timeNode = timeNode; + + } + + getNodeType( builder ) { + + return this.timeNode.getNodeType( builder ); + + } + + setup() { + + const method = this.method; + const timeNode = nodeObject( this.timeNode ); + + let outputNode = null; + + if ( method === OscNode.SINE ) { + + outputNode = timeNode.add( 0.75 ).mul( Math.PI * 2 ).sin().mul( 0.5 ).add( 0.5 ); + + } else if ( method === OscNode.SQUARE ) { + + outputNode = timeNode.fract().round(); + + } else if ( method === OscNode.TRIANGLE ) { + + outputNode = timeNode.add( 0.5 ).fract().mul( 2 ).sub( 1 ).abs(); + + } else if ( method === OscNode.SAWTOOTH ) { + + outputNode = timeNode.fract(); + + } + + return outputNode; + + } + + serialize( data ) { + + super.serialize( data ); + + data.method = this.method; + + } + + deserialize( data ) { + + super.deserialize( data ); + + this.method = data.method; + + } + +} + +OscNode.SINE = 'sine'; +OscNode.SQUARE = 'square'; +OscNode.TRIANGLE = 'triangle'; +OscNode.SAWTOOTH = 'sawtooth'; + +const oscSine = nodeProxy( OscNode, OscNode.SINE ); +const oscSquare = nodeProxy( OscNode, OscNode.SQUARE ); +const oscTriangle = nodeProxy( OscNode, OscNode.TRIANGLE ); +const oscSawtooth = nodeProxy( OscNode, OscNode.SAWTOOTH ); + +addNodeClass( 'OscNode', OscNode ); + +class PackingNode extends TempNode { + + constructor( scope, node ) { + + super(); + + this.scope = scope; + this.node = node; + + } + + getNodeType( builder ) { + + return this.node.getNodeType( builder ); + + } + + setup() { + + const { scope, node } = this; + + let result = null; + + if ( scope === PackingNode.DIRECTION_TO_COLOR ) { + + result = node.mul( 0.5 ).add( 0.5 ); + + } else if ( scope === PackingNode.COLOR_TO_DIRECTION ) { + + result = node.mul( 2.0 ).sub( 1 ); + + } + + return result; + + } + +} + +PackingNode.DIRECTION_TO_COLOR = 'directionToColor'; +PackingNode.COLOR_TO_DIRECTION = 'colorToDirection'; + +const directionToColor = nodeProxy( PackingNode, PackingNode.DIRECTION_TO_COLOR ); +const colorToDirection = nodeProxy( PackingNode, PackingNode.COLOR_TO_DIRECTION ); + +addNodeElement( 'directionToColor', directionToColor ); +addNodeElement( 'colorToDirection', colorToDirection ); + +addNodeClass( 'PackingNode', PackingNode ); + +class RemapNode extends Node { + + constructor( node, inLowNode, inHighNode, outLowNode = float( 0 ), outHighNode = float( 1 ) ) { + + super(); + + this.node = node; + this.inLowNode = inLowNode; + this.inHighNode = inHighNode; + this.outLowNode = outLowNode; + this.outHighNode = outHighNode; + + this.doClamp = true; + + } + + setup() { + + const { node, inLowNode, inHighNode, outLowNode, outHighNode, doClamp } = this; + + let t = node.sub( inLowNode ).div( inHighNode.sub( inLowNode ) ); + + if ( doClamp === true ) t = t.clamp(); + + return t.mul( outHighNode.sub( outLowNode ) ).add( outLowNode ); + + } + +} + +const remap = nodeProxy( RemapNode, null, null, { doClamp: false } ); +const remapClamp = nodeProxy( RemapNode ); + +addNodeElement( 'remap', remap ); +addNodeElement( 'remapClamp', remapClamp ); + +addNodeClass( 'RemapNode', RemapNode ); + +class RotateUVNode extends TempNode { + + constructor( uvNode, rotationNode, centerNode = vec2( 0.5 ) ) { + + super( 'vec2' ); + + this.uvNode = uvNode; + this.rotationNode = rotationNode; + this.centerNode = centerNode; + + } + + setup() { + + const { uvNode, rotationNode, centerNode } = this; + + const vector = uvNode.sub( centerNode ); + + return vector.rotate( rotationNode ).add( centerNode ); + + } + +} + +const rotateUV = nodeProxy( RotateUVNode ); + +addNodeElement( 'rotateUV', rotateUV ); + +addNodeClass( 'RotateUVNode', RotateUVNode ); + +class RotateNode extends TempNode { + + constructor( positionNode, rotationNode ) { + + super(); + + this.positionNode = positionNode; + this.rotationNode = rotationNode; + + } + + getNodeType( builder ) { + + return this.positionNode.getNodeType( builder ); + + } + + setup( builder ) { + + const { rotationNode, positionNode } = this; + + const nodeType = this.getNodeType( builder ); + + if ( nodeType === 'vec2' ) { + + const cosAngle = rotationNode.cos(); + const sinAngle = rotationNode.sin(); + + const rotationMatrix = mat2( + cosAngle, sinAngle, + sinAngle.negate(), cosAngle + ); + + return rotationMatrix.mul( positionNode ); + + } else { + + const rotation = rotationNode; + const rotationXMatrix = mat4( vec4( 1.0, 0.0, 0.0, 0.0 ), vec4( 0.0, cos( rotation.x ), sin( rotation.x ).negate(), 0.0 ), vec4( 0.0, sin( rotation.x ), cos( rotation.x ), 0.0 ), vec4( 0.0, 0.0, 0.0, 1.0 ) ); + const rotationYMatrix = mat4( vec4( cos( rotation.y ), 0.0, sin( rotation.y ), 0.0 ), vec4( 0.0, 1.0, 0.0, 0.0 ), vec4( sin( rotation.y ).negate(), 0.0, cos( rotation.y ), 0.0 ), vec4( 0.0, 0.0, 0.0, 1.0 ) ); + const rotationZMatrix = mat4( vec4( cos( rotation.z ), sin( rotation.z ).negate(), 0.0, 0.0 ), vec4( sin( rotation.z ), cos( rotation.z ), 0.0, 0.0 ), vec4( 0.0, 0.0, 1.0, 0.0 ), vec4( 0.0, 0.0, 0.0, 1.0 ) ); + + return rotationXMatrix.mul( rotationYMatrix ).mul( rotationZMatrix ).mul( vec4( positionNode, 1.0 ) ).xyz; + + } + + } + +} + +const rotate = nodeProxy( RotateNode ); + +addNodeElement( 'rotate', rotate ); + +addNodeClass( 'RotateNode', RotateNode ); + +class SpriteSheetUVNode extends Node { + + constructor( countNode, uvNode = uv(), frameNode = float( 0 ) ) { + + super( 'vec2' ); + + this.countNode = countNode; + this.uvNode = uvNode; + this.frameNode = frameNode; + + } + + setup() { + + const { frameNode, uvNode, countNode } = this; + + const { width, height } = countNode; + + const frameNum = frameNode.mod( width.mul( height ) ).floor(); + + const column = frameNum.mod( width ); + const row = height.sub( frameNum.add( 1 ).div( width ).ceil() ); + + const scale = countNode.reciprocal(); + const uvFrameOffset = vec2( column, row ); + + return uvNode.add( uvFrameOffset ).mul( scale ); + + } + +} + +const spritesheetUV = nodeProxy( SpriteSheetUVNode ); + +addNodeClass( 'SpriteSheetUVNode', SpriteSheetUVNode ); + +class StorageArrayElementNode extends ArrayElementNode { + + constructor( storageBufferNode, indexNode ) { + + super( storageBufferNode, indexNode ); + + this.isStorageArrayElementNode = true; + + } + + set storageBufferNode( value ) { + + this.node = value; + + } + + get storageBufferNode() { + + return this.node; + + } + + setup( builder ) { + + if ( builder.isAvailable( 'storageBuffer' ) === false ) { + + if ( ! this.node.instanceIndex && this.node.bufferObject === true ) { + + builder.setupPBO( this.node ); + + } + + } + + return super.setup( builder ); + + } + + generate( builder, output ) { + + let snippet; + + const isAssignContext = builder.context.assign; + + // + + if ( builder.isAvailable( 'storageBuffer' ) === false ) { + + const { node } = this; + + if ( ! node.instanceIndex && this.node.bufferObject === true && isAssignContext !== true ) { + + snippet = builder.generatePBO( this ); + + } else { + + snippet = node.build( builder ); + + } + + } else { + + snippet = super.generate( builder ); + + } + + if ( isAssignContext !== true ) { + + const type = this.getNodeType( builder ); + + snippet = builder.format( snippet, type, output ); + + } + + return snippet; + + } + +} + +const storageElement = nodeProxy( StorageArrayElementNode ); + +addNodeElement( 'storageElement', storageElement ); + +addNodeClass( 'StorageArrayElementNode', StorageArrayElementNode ); + +class TriplanarTexturesNode extends Node { + + constructor( textureXNode, textureYNode = null, textureZNode = null, scaleNode = float( 1 ), positionNode = positionLocal, normalNode = normalLocal ) { + + super( 'vec4' ); + + this.textureXNode = textureXNode; + this.textureYNode = textureYNode; + this.textureZNode = textureZNode; + + this.scaleNode = scaleNode; + + this.positionNode = positionNode; + this.normalNode = normalNode; + + } + + setup() { + + const { textureXNode, textureYNode, textureZNode, scaleNode, positionNode, normalNode } = this; + + // Ref: https://github.com/keijiro/StandardTriplanar + + // Blending factor of triplanar mapping + let bf = normalNode.abs().normalize(); + bf = bf.div( bf.dot( vec3( 1.0 ) ) ); + + // Triplanar mapping + const tx = positionNode.yz.mul( scaleNode ); + const ty = positionNode.zx.mul( scaleNode ); + const tz = positionNode.xy.mul( scaleNode ); + + // Base color + const textureX = textureXNode.value; + const textureY = textureYNode !== null ? textureYNode.value : textureX; + const textureZ = textureZNode !== null ? textureZNode.value : textureX; + + const cx = texture( textureX, tx ).mul( bf.x ); + const cy = texture( textureY, ty ).mul( bf.y ); + const cz = texture( textureZ, tz ).mul( bf.z ); + + return add( cx, cy, cz ); + + } + +} + +const triplanarTextures = nodeProxy( TriplanarTexturesNode ); +const triplanarTexture = ( ...params ) => triplanarTextures( ...params ); + +addNodeElement( 'triplanarTexture', triplanarTexture ); + +addNodeClass( 'TriplanarTexturesNode', TriplanarTexturesNode ); + +const _reflectorPlane = new Plane(); +const _normal = new Vector3(); +const _reflectorWorldPosition = new Vector3(); +const _cameraWorldPosition = new Vector3(); +const _rotationMatrix = new Matrix4(); +const _lookAtPosition = new Vector3( 0, 0, - 1 ); +const clipPlane = new Vector4(); + +const _view = new Vector3(); +const _target = new Vector3(); +const _q = new Vector4(); + +const _size$3 = new Vector2(); + +const _defaultRT = new RenderTarget(); +const _defaultUV = vec2( viewportTopLeft.x.oneMinus(), viewportTopLeft.y ); + +let _inReflector = false; + +class ReflectorNode extends TextureNode { + + constructor( parameters = {} ) { + + super( _defaultRT.texture, _defaultUV ); + + const { + target = new Object3D(), + resolution = 1, + generateMipmaps = false, + bounces = true + } = parameters; + + // + + this.target = target; + this.resolution = resolution; + this.generateMipmaps = generateMipmaps; + this.bounces = bounces; + + this.updateBeforeType = bounces ? NodeUpdateType.RENDER : NodeUpdateType.FRAME; + + this.virtualCameras = new WeakMap(); + this.renderTargets = new WeakMap(); + + + } + + _updateResolution( renderTarget, renderer ) { + + const resolution = this.resolution; + + renderer.getDrawingBufferSize( _size$3 ); + + renderTarget.setSize( Math.round( _size$3.width * resolution ), Math.round( _size$3.height * resolution ) ); + + } + + setup( builder ) { + + this._updateResolution( _defaultRT, builder.renderer ); + + return super.setup( builder ); + + } + + getTextureNode() { + + return this.textureNode; + + } + + getVirtualCamera( camera ) { + + let virtualCamera = this.virtualCameras.get( camera ); + + if ( virtualCamera === undefined ) { + + virtualCamera = camera.clone(); + + this.virtualCameras.set( camera, virtualCamera ); + + } + + return virtualCamera; + + } + + getRenderTarget( camera ) { + + let renderTarget = this.renderTargets.get( camera ); + + if ( renderTarget === undefined ) { + + renderTarget = new RenderTarget( 0, 0, { type: HalfFloatType } ); + + if ( this.generateMipmaps === true ) { + + renderTarget.texture.minFilter = LinearMipMapLinearFilter; + renderTarget.texture.generateMipmaps = true; + + } + + this.renderTargets.set( camera, renderTarget ); + + } + + return renderTarget; + + } + + updateBefore( frame ) { + + if ( this.bounces === false && _inReflector ) return false; + + _inReflector = true; + + const { scene, camera, renderer, material } = frame; + const { target } = this; + + const virtualCamera = this.getVirtualCamera( camera ); + const renderTarget = this.getRenderTarget( virtualCamera ); + + renderer.getDrawingBufferSize( _size$3 ); + + this._updateResolution( renderTarget, renderer ); + + // + + _reflectorWorldPosition.setFromMatrixPosition( target.matrixWorld ); + _cameraWorldPosition.setFromMatrixPosition( camera.matrixWorld ); + + _rotationMatrix.extractRotation( target.matrixWorld ); + + _normal.set( 0, 0, 1 ); + _normal.applyMatrix4( _rotationMatrix ); + + _view.subVectors( _reflectorWorldPosition, _cameraWorldPosition ); + + // Avoid rendering when reflector is facing away + + if ( _view.dot( _normal ) > 0 ) return; + + _view.reflect( _normal ).negate(); + _view.add( _reflectorWorldPosition ); + + _rotationMatrix.extractRotation( camera.matrixWorld ); + + _lookAtPosition.set( 0, 0, - 1 ); + _lookAtPosition.applyMatrix4( _rotationMatrix ); + _lookAtPosition.add( _cameraWorldPosition ); + + _target.subVectors( _reflectorWorldPosition, _lookAtPosition ); + _target.reflect( _normal ).negate(); + _target.add( _reflectorWorldPosition ); + + // + + virtualCamera.coordinateSystem = camera.coordinateSystem; + virtualCamera.position.copy( _view ); + virtualCamera.up.set( 0, 1, 0 ); + virtualCamera.up.applyMatrix4( _rotationMatrix ); + virtualCamera.up.reflect( _normal ); + virtualCamera.lookAt( _target ); + + virtualCamera.near = camera.near; + virtualCamera.far = camera.far; + + virtualCamera.updateMatrixWorld(); + virtualCamera.projectionMatrix.copy( camera.projectionMatrix ); + + // Now update projection matrix with new clip plane, implementing code from: http://www.terathon.com/code/oblique.html + // Paper explaining this technique: http://www.terathon.com/lengyel/Lengyel-Oblique.pdf + _reflectorPlane.setFromNormalAndCoplanarPoint( _normal, _reflectorWorldPosition ); + _reflectorPlane.applyMatrix4( virtualCamera.matrixWorldInverse ); + + clipPlane.set( _reflectorPlane.normal.x, _reflectorPlane.normal.y, _reflectorPlane.normal.z, _reflectorPlane.constant ); + + const projectionMatrix = virtualCamera.projectionMatrix; + + _q.x = ( Math.sign( clipPlane.x ) + projectionMatrix.elements[ 8 ] ) / projectionMatrix.elements[ 0 ]; + _q.y = ( Math.sign( clipPlane.y ) + projectionMatrix.elements[ 9 ] ) / projectionMatrix.elements[ 5 ]; + _q.z = - 1.0; + _q.w = ( 1.0 + projectionMatrix.elements[ 10 ] ) / projectionMatrix.elements[ 14 ]; + + // Calculate the scaled plane vector + clipPlane.multiplyScalar( 1.0 / clipPlane.dot( _q ) ); + + const clipBias = 0; + + // Replacing the third row of the projection matrix + projectionMatrix.elements[ 2 ] = clipPlane.x; + projectionMatrix.elements[ 6 ] = clipPlane.y; + projectionMatrix.elements[ 10 ] = clipPlane.z - clipBias; + projectionMatrix.elements[ 14 ] = clipPlane.w; + + // + + this.value = renderTarget.texture; + + material.visible = false; + + const currentRenderTarget = renderer.getRenderTarget(); + + renderer.setRenderTarget( renderTarget ); + + renderer.render( scene, virtualCamera ); + + renderer.setRenderTarget( currentRenderTarget ); + + material.visible = true; + + _inReflector = false; + + } + +} + +const reflector = ( parameters ) => nodeObject( new ReflectorNode( parameters ) ); + +class VertexColorNode extends AttributeNode { + + constructor( index = 0 ) { + + super( null, 'vec4' ); + + this.isVertexColorNode = true; + + this.index = index; + + } + + getAttributeName( /*builder*/ ) { + + const index = this.index; + + return 'color' + ( index > 0 ? index : '' ); + + } + + generate( builder ) { + + const attributeName = this.getAttributeName( builder ); + const geometryAttribute = builder.hasGeometryAttribute( attributeName ); + + let result; + + if ( geometryAttribute === true ) { + + result = super.generate( builder ); + + } else { + + // Vertex color fallback should be white + result = builder.generateConst( this.nodeType, new Vector4( 1, 1, 1, 1 ) ); + + } + + return result; + + } + + serialize( data ) { + + super.serialize( data ); + + data.index = this.index; + + } + + deserialize( data ) { + + super.deserialize( data ); + + this.index = data.index; + + } + +} + +const vertexColor = ( ...params ) => nodeObject( new VertexColorNode( ...params ) ); + +addNodeClass( 'VertexColorNode', VertexColorNode ); + +class RendererReferenceNode extends ReferenceNode { + + constructor( property, inputType, renderer = null ) { + + super( property, inputType, renderer ); + + this.renderer = renderer; + + } + + updateReference( state ) { + + this.reference = this.renderer !== null ? this.renderer : state.renderer; + + return this.reference; + + } + +} + +const rendererReference = ( name, type, renderer ) => nodeObject( new RendererReferenceNode( name, type, renderer ) ); + +addNodeClass( 'RendererReferenceNode', RendererReferenceNode ); + +// Mipped Bicubic Texture Filtering by N8 +// https://www.shadertoy.com/view/Dl2SDW + +const bC = 1.0 / 6.0; + +const w0 = ( a ) => mul( bC, mul( a, mul( a, a.negate().add( 3.0 ) ).sub( 3.0 ) ).add( 1.0 ) ); + +const w1 = ( a ) => mul( bC, mul( a, mul( a, mul( 3.0, a ).sub( 6.0 ) ) ).add( 4.0 ) ); + +const w2 = ( a ) => mul( bC, mul( a, mul( a, mul( - 3.0, a ).add( 3.0 ) ).add( 3.0 ) ).add( 1.0 ) ); + +const w3 = ( a ) => mul( bC, pow( a, 3 ) ); + +const g0 = ( a ) => w0( a ).add( w1( a ) ); + +const g1 = ( a ) => w2( a ).add( w3( a ) ); + +// h0 and h1 are the two offset functions +const h0 = ( a ) => add( - 1.0, w1( a ).div( w0( a ).add( w1( a ) ) ) ); + +const h1 = ( a ) => add( 1.0, w3( a ).div( w2( a ).add( w3( a ) ) ) ); + +const bicubic = ( textureNode, texelSize, lod ) => { + + const uv = textureNode.uvNode; + const uvScaled = mul( uv, texelSize.zw ).add( 0.5 ); + + const iuv = floor( uvScaled ); + const fuv = fract( uvScaled ); + + const g0x = g0( fuv.x ); + const g1x = g1( fuv.x ); + const h0x = h0( fuv.x ); + const h1x = h1( fuv.x ); + const h0y = h0( fuv.y ); + const h1y = h1( fuv.y ); + + const p0 = vec2( iuv.x.add( h0x ), iuv.y.add( h0y ) ).sub( 0.5 ).mul( texelSize.xy ); + const p1 = vec2( iuv.x.add( h1x ), iuv.y.add( h0y ) ).sub( 0.5 ).mul( texelSize.xy ); + const p2 = vec2( iuv.x.add( h0x ), iuv.y.add( h1y ) ).sub( 0.5 ).mul( texelSize.xy ); + const p3 = vec2( iuv.x.add( h1x ), iuv.y.add( h1y ) ).sub( 0.5 ).mul( texelSize.xy ); + + const a = g0( fuv.y ).mul( add( g0x.mul( textureNode.uv( p0 ).level( lod ) ), g1x.mul( textureNode.uv( p1 ).level( lod ) ) ) ); + const b = g1( fuv.y ).mul( add( g0x.mul( textureNode.uv( p2 ).level( lod ) ), g1x.mul( textureNode.uv( p3 ).level( lod ) ) ) ); + + return a.add( b ); + +}; + +const textureBicubicMethod = ( textureNode, lodNode ) => { + + const fLodSize = vec2( textureNode.size( int( lodNode ) ) ); + const cLodSize = vec2( textureNode.size( int( lodNode.add( 1.0 ) ) ) ); + const fLodSizeInv = div( 1.0, fLodSize ); + const cLodSizeInv = div( 1.0, cLodSize ); + const fSample = bicubic( textureNode, vec4( fLodSizeInv, fLodSize ), floor( lodNode ) ); + const cSample = bicubic( textureNode, vec4( cLodSizeInv, cLodSize ), ceil( lodNode ) ); + + return fract( lodNode ).mix( fSample, cSample ); + +}; + +class TextureBicubicNode extends TempNode { + + constructor( textureNode, blurNode = float( 3 ) ) { + + super( 'vec4' ); + + this.textureNode = textureNode; + this.blurNode = blurNode; + + } + + setup() { + + return textureBicubicMethod( this.textureNode, this.blurNode ); + + } + +} + +const textureBicubic = nodeProxy( TextureBicubicNode ); + +addNodeElement( 'bicubic', textureBicubic ); + +addNodeClass( 'TextureBicubicNode', TextureBicubicNode ); + +class PointUVNode extends Node { + + constructor() { + + super( 'vec2' ); + + this.isPointUVNode = true; + + } + + generate( /*builder*/ ) { + + return 'vec2( gl_PointCoord.x, 1.0 - gl_PointCoord.y )'; + + } + +} + +const pointUV = nodeImmutable( PointUVNode ); + +addNodeClass( 'PointUVNode', PointUVNode ); + +class SceneNode extends Node { + + constructor( scope = SceneNode.BACKGROUND_BLURRINESS, scene = null ) { + + super(); + + this.scope = scope; + this.scene = scene; + + } + + setup( builder ) { + + const scope = this.scope; + const scene = this.scene !== null ? this.scene : builder.scene; + + let output; + + if ( scope === SceneNode.BACKGROUND_BLURRINESS ) { + + output = reference( 'backgroundBlurriness', 'float', scene ); + + } else if ( scope === SceneNode.BACKGROUND_INTENSITY ) { + + output = reference( 'backgroundIntensity', 'float', scene ); + + } else { + + console.error( 'THREE.SceneNode: Unknown scope:', scope ); + + } + + return output; + + } + +} + +SceneNode.BACKGROUND_BLURRINESS = 'backgroundBlurriness'; +SceneNode.BACKGROUND_INTENSITY = 'backgroundIntensity'; + +const backgroundBlurriness = nodeImmutable( SceneNode, SceneNode.BACKGROUND_BLURRINESS ); +const backgroundIntensity = nodeImmutable( SceneNode, SceneNode.BACKGROUND_INTENSITY ); + +addNodeClass( 'SceneNode', SceneNode ); + +const GPUPrimitiveTopology = { + PointList: 'point-list', + LineList: 'line-list', + LineStrip: 'line-strip', + TriangleList: 'triangle-list', + TriangleStrip: 'triangle-strip', +}; + +const GPUCompareFunction = { + Never: 'never', + Less: 'less', + Equal: 'equal', + LessEqual: 'less-equal', + Greater: 'greater', + NotEqual: 'not-equal', + GreaterEqual: 'greater-equal', + Always: 'always' +}; + +const GPUStoreOp = { + Store: 'store', + Discard: 'discard' +}; + +const GPULoadOp = { + Load: 'load', + Clear: 'clear' +}; + +const GPUFrontFace = { + CCW: 'ccw', + CW: 'cw' +}; + +const GPUCullMode = { + None: 'none', + Front: 'front', + Back: 'back' +}; + +const GPUIndexFormat = { + Uint16: 'uint16', + Uint32: 'uint32' +}; + +const GPUTextureFormat = { + + // 8-bit formats + + R8Unorm: 'r8unorm', + R8Snorm: 'r8snorm', + R8Uint: 'r8uint', + R8Sint: 'r8sint', + + // 16-bit formats + + R16Uint: 'r16uint', + R16Sint: 'r16sint', + R16Float: 'r16float', + RG8Unorm: 'rg8unorm', + RG8Snorm: 'rg8snorm', + RG8Uint: 'rg8uint', + RG8Sint: 'rg8sint', + + // 32-bit formats + + R32Uint: 'r32uint', + R32Sint: 'r32sint', + R32Float: 'r32float', + RG16Uint: 'rg16uint', + RG16Sint: 'rg16sint', + RG16Float: 'rg16float', + RGBA8Unorm: 'rgba8unorm', + RGBA8UnormSRGB: 'rgba8unorm-srgb', + RGBA8Snorm: 'rgba8snorm', + RGBA8Uint: 'rgba8uint', + RGBA8Sint: 'rgba8sint', + BGRA8Unorm: 'bgra8unorm', + BGRA8UnormSRGB: 'bgra8unorm-srgb', + // Packed 32-bit formats + RGB9E5UFloat: 'rgb9e5ufloat', + RGB10A2Unorm: 'rgb10a2unorm', + RG11B10uFloat: 'rgb10a2unorm', + + // 64-bit formats + + RG32Uint: 'rg32uint', + RG32Sint: 'rg32sint', + RG32Float: 'rg32float', + RGBA16Uint: 'rgba16uint', + RGBA16Sint: 'rgba16sint', + RGBA16Float: 'rgba16float', + + // 128-bit formats + + RGBA32Uint: 'rgba32uint', + RGBA32Sint: 'rgba32sint', + RGBA32Float: 'rgba32float', + + // Depth and stencil formats + + Stencil8: 'stencil8', + Depth16Unorm: 'depth16unorm', + Depth24Plus: 'depth24plus', + Depth24PlusStencil8: 'depth24plus-stencil8', + Depth32Float: 'depth32float', + + // 'depth32float-stencil8' extension + + Depth32FloatStencil8: 'depth32float-stencil8', + + // BC compressed formats usable if 'texture-compression-bc' is both + // supported by the device/user agent and enabled in requestDevice. + + BC1RGBAUnorm: 'bc1-rgba-unorm', + BC1RGBAUnormSRGB: 'bc1-rgba-unorm-srgb', + BC2RGBAUnorm: 'bc2-rgba-unorm', + BC2RGBAUnormSRGB: 'bc2-rgba-unorm-srgb', + BC3RGBAUnorm: 'bc3-rgba-unorm', + BC3RGBAUnormSRGB: 'bc3-rgba-unorm-srgb', + BC4RUnorm: 'bc4-r-unorm', + BC4RSnorm: 'bc4-r-snorm', + BC5RGUnorm: 'bc5-rg-unorm', + BC5RGSnorm: 'bc5-rg-snorm', + BC6HRGBUFloat: 'bc6h-rgb-ufloat', + BC6HRGBFloat: 'bc6h-rgb-float', + BC7RGBAUnorm: 'bc7-rgba-unorm', + BC7RGBAUnormSRGB: 'bc7-rgba-srgb', + + // ETC2 compressed formats usable if 'texture-compression-etc2' is both + // supported by the device/user agent and enabled in requestDevice. + + ETC2RGB8Unorm: 'etc2-rgb8unorm', + ETC2RGB8UnormSRGB: 'etc2-rgb8unorm-srgb', + ETC2RGB8A1Unorm: 'etc2-rgb8a1unorm', + ETC2RGB8A1UnormSRGB: 'etc2-rgb8a1unorm-srgb', + ETC2RGBA8Unorm: 'etc2-rgba8unorm', + ETC2RGBA8UnormSRGB: 'etc2-rgba8unorm-srgb', + EACR11Unorm: 'eac-r11unorm', + EACR11Snorm: 'eac-r11snorm', + EACRG11Unorm: 'eac-rg11unorm', + EACRG11Snorm: 'eac-rg11snorm', + + // ASTC compressed formats usable if 'texture-compression-astc' is both + // supported by the device/user agent and enabled in requestDevice. + + ASTC4x4Unorm: 'astc-4x4-unorm', + ASTC4x4UnormSRGB: 'astc-4x4-unorm-srgb', + ASTC5x4Unorm: 'astc-5x4-unorm', + ASTC5x4UnormSRGB: 'astc-5x4-unorm-srgb', + ASTC5x5Unorm: 'astc-5x5-unorm', + ASTC5x5UnormSRGB: 'astc-5x5-unorm-srgb', + ASTC6x5Unorm: 'astc-6x5-unorm', + ASTC6x5UnormSRGB: 'astc-6x5-unorm-srgb', + ASTC6x6Unorm: 'astc-6x6-unorm', + ASTC6x6UnormSRGB: 'astc-6x6-unorm-srgb', + ASTC8x5Unorm: 'astc-8x5-unorm', + ASTC8x5UnormSRGB: 'astc-8x5-unorm-srgb', + ASTC8x6Unorm: 'astc-8x6-unorm', + ASTC8x6UnormSRGB: 'astc-8x6-unorm-srgb', + ASTC8x8Unorm: 'astc-8x8-unorm', + ASTC8x8UnormSRGB: 'astc-8x8-unorm-srgb', + ASTC10x5Unorm: 'astc-10x5-unorm', + ASTC10x5UnormSRGB: 'astc-10x5-unorm-srgb', + ASTC10x6Unorm: 'astc-10x6-unorm', + ASTC10x6UnormSRGB: 'astc-10x6-unorm-srgb', + ASTC10x8Unorm: 'astc-10x8-unorm', + ASTC10x8UnormSRGB: 'astc-10x8-unorm-srgb', + ASTC10x10Unorm: 'astc-10x10-unorm', + ASTC10x10UnormSRGB: 'astc-10x10-unorm-srgb', + ASTC12x10Unorm: 'astc-12x10-unorm', + ASTC12x10UnormSRGB: 'astc-12x10-unorm-srgb', + ASTC12x12Unorm: 'astc-12x12-unorm', + ASTC12x12UnormSRGB: 'astc-12x12-unorm-srgb', + +}; + +const GPUAddressMode = { + ClampToEdge: 'clamp-to-edge', + Repeat: 'repeat', + MirrorRepeat: 'mirror-repeat' +}; + +const GPUFilterMode = { + Linear: 'linear', + Nearest: 'nearest' +}; + +const GPUBlendFactor = { + Zero: 'zero', + One: 'one', + Src: 'src', + OneMinusSrc: 'one-minus-src', + SrcAlpha: 'src-alpha', + OneMinusSrcAlpha: 'one-minus-src-alpha', + Dst: 'dst', + OneMinusDstColor: 'one-minus-dst', + DstAlpha: 'dst-alpha', + OneMinusDstAlpha: 'one-minus-dst-alpha', + SrcAlphaSaturated: 'src-alpha-saturated', + Constant: 'constant', + OneMinusConstant: 'one-minus-constant' +}; + +const GPUBlendOperation = { + Add: 'add', + Subtract: 'subtract', + ReverseSubtract: 'reverse-subtract', + Min: 'min', + Max: 'max' +}; + +const GPUColorWriteFlags = { + None: 0, + Red: 0x1, + Green: 0x2, + Blue: 0x4, + Alpha: 0x8, + All: 0xF +}; + +const GPUStencilOperation = { + Keep: 'keep', + Zero: 'zero', + Replace: 'replace', + Invert: 'invert', + IncrementClamp: 'increment-clamp', + DecrementClamp: 'decrement-clamp', + IncrementWrap: 'increment-wrap', + DecrementWrap: 'decrement-wrap' +}; + +const GPUBufferBindingType = { + Uniform: 'uniform', + Storage: 'storage', + ReadOnlyStorage: 'read-only-storage' +}; + +const GPUStorageTextureAccess = { + WriteOnly: 'write-only', + ReadOnly: 'read-only', + ReadWrite: 'read-write', +}; + +const GPUTextureSampleType = { + Float: 'float', + UnfilterableFloat: 'unfilterable-float', + Depth: 'depth', + SInt: 'sint', + UInt: 'uint' +}; + +const GPUTextureDimension = { + OneD: '1d', + TwoD: '2d', + ThreeD: '3d' +}; + +const GPUTextureViewDimension = { + OneD: '1d', + TwoD: '2d', + TwoDArray: '2d-array', + Cube: 'cube', + CubeArray: 'cube-array', + ThreeD: '3d' +}; + +const GPUTextureAspect = { + All: 'all', + StencilOnly: 'stencil-only', + DepthOnly: 'depth-only' +}; + +const GPUInputStepMode = { + Vertex: 'vertex', + Instance: 'instance' +}; + +const GPUFeatureName = { + DepthClipControl: 'depth-clip-control', + Depth32FloatStencil8: 'depth32float-stencil8', + TextureCompressionBC: 'texture-compression-bc', + TextureCompressionETC2: 'texture-compression-etc2', + TextureCompressionASTC: 'texture-compression-astc', + TimestampQuery: 'timestamp-query', + IndirectFirstInstance: 'indirect-first-instance', + ShaderF16: 'shader-f16', + RG11B10UFloat: 'rg11b10ufloat-renderable', + BGRA8UNormStorage: 'bgra8unorm-storage', + Float32Filterable: 'float32-filterable' +}; + +class StorageBufferNode extends BufferNode { + + constructor( value, bufferType, bufferCount = 0 ) { + + super( value, bufferType, bufferCount ); + + this.isStorageBufferNode = true; + + this.access = GPUBufferBindingType.Storage; + + this.bufferObject = false; + this.bufferCount = bufferCount; + + this._attribute = null; + this._varying = null; + + this.global = true; + + if ( value.isStorageBufferAttribute !== true && value.isStorageInstancedBufferAttribute !== true ) { + + // TOOD: Improve it, possibly adding a new property to the BufferAttribute to identify it as a storage buffer read-only attribute in Renderer + + if ( value.isInstancedBufferAttribute ) value.isStorageInstancedBufferAttribute = true; + else value.isStorageBufferAttribute = true; + + } + + } + + getHash( builder ) { + + if ( this.bufferCount === 0 ) { + + let bufferData = builder.globalCache.getData( this.value ); + + if ( bufferData === undefined ) { + + bufferData = { + node: this + }; + + builder.globalCache.setData( this.value, bufferData ); + + } + + return bufferData.node.uuid; + + } + + return this.uuid; + + } + + getInputType( /*builder*/ ) { + + return 'storageBuffer'; + + } + + element( indexNode ) { + + return storageElement( this, indexNode ); + + } + + setBufferObject( value ) { + + this.bufferObject = value; + + return this; + + } + + setAccess( value ) { + + this.access = value; + + return this; + + } + + toReadOnly() { + + return this.setAccess( GPUBufferBindingType.ReadOnlyStorage ); + + } + + generate( builder ) { + + if ( builder.isAvailable( 'storageBuffer' ) ) { + + return super.generate( builder ); + + } + + const nodeType = this.getNodeType( builder ); + + if ( this._attribute === null ) { + + this._attribute = bufferAttribute( this.value ); + this._varying = varying( this._attribute ); + + } + + + const output = this._varying.build( builder, nodeType ); + + builder.registerTransform( output, this._attribute ); + + return output; + + } + +} + +// Read-Write Storage +const storage = ( value, type, count ) => nodeObject( new StorageBufferNode( value, type, count ) ); +const storageObject = ( value, type, count ) => nodeObject( new StorageBufferNode( value, type, count ).setBufferObject( true ) ); + +addNodeClass( 'StorageBufferNode', StorageBufferNode ); + +class StorageTextureNode extends TextureNode { + + constructor( value, uvNode, storeNode = null ) { + + super( value, uvNode ); + + this.storeNode = storeNode; + + this.isStorageTextureNode = true; + + this.access = GPUStorageTextureAccess.WriteOnly; + + } + + getInputType( /*builder*/ ) { + + return 'storageTexture'; + + } + + setup( builder ) { + + super.setup( builder ); + + const properties = builder.getNodeProperties( this ); + properties.storeNode = this.storeNode; + + } + + setAccess( value ) { + + this.access = value; + return this; + + } + + generate( builder, output ) { + + let snippet; + + if ( this.storeNode !== null ) { + + snippet = this.generateStore( builder ); + + } else { + + snippet = super.generate( builder, output ); + + } + + return snippet; + + } + + toReadOnly() { + + return this.setAccess( GPUStorageTextureAccess.ReadOnly ); + + } + + toWriteOnly() { + + return this.setAccess( GPUStorageTextureAccess.WriteOnly ); + + } + + generateStore( builder ) { + + const properties = builder.getNodeProperties( this ); + + const { uvNode, storeNode } = properties; + + const textureProperty = super.generate( builder, 'property' ); + const uvSnippet = uvNode.build( builder, 'uvec2' ); + const storeSnippet = storeNode.build( builder, 'vec4' ); + + const snippet = builder.generateTextureStore( builder, textureProperty, uvSnippet, storeSnippet ); + + builder.addLineFlowCode( snippet ); + + } + +} + +const storageTexture = nodeProxy( StorageTextureNode ); + +const textureStore = ( value, uvNode, storeNode ) => { + + const node = storageTexture( value, uvNode, storeNode ); + + if ( storeNode !== null ) node.append(); + + return node; + +}; + +addNodeClass( 'StorageTextureNode', StorageTextureNode ); + +const normal = tslFn( ( { texture, uv } ) => { + + const epsilon = 0.0001; + + const ret = vec3().temp(); + + If( uv.x.lessThan( epsilon ), () => { + + ret.assign( vec3( 1, 0, 0 ) ); + + } ).elseif( uv.y.lessThan( epsilon ), () => { + + ret.assign( vec3( 0, 1, 0 ) ); + + } ).elseif( uv.z.lessThan( epsilon ), () => { + + ret.assign( vec3( 0, 0, 1 ) ); + + } ).elseif( uv.x.greaterThan( 1 - epsilon ), () => { + + ret.assign( vec3( - 1, 0, 0 ) ); + + } ).elseif( uv.y.greaterThan( 1 - epsilon ), () => { + + ret.assign( vec3( 0, - 1, 0 ) ); + + } ).elseif( uv.z.greaterThan( 1 - epsilon ), () => { + + ret.assign( vec3( 0, 0, - 1 ) ); + + } ).else( () => { + + const step = 0.01; + + const x = texture.uv( uv.add( vec3( - step, 0.0, 0.0 ) ) ).r.sub( texture.uv( uv.add( vec3( step, 0.0, 0.0 ) ) ).r ); + const y = texture.uv( uv.add( vec3( 0.0, - step, 0.0 ) ) ).r.sub( texture.uv( uv.add( vec3( 0.0, step, 0.0 ) ) ).r ); + const z = texture.uv( uv.add( vec3( 0.0, 0.0, - step ) ) ).r.sub( texture.uv( uv.add( vec3( 0.0, 0.0, step ) ) ).r ); + + ret.assign( vec3( x, y, z ) ); + + } ); + + return ret.normalize(); + +} ); + + +class Texture3DNode extends TextureNode { + + constructor( value, uvNode = null, levelNode = null ) { + + super( value, uvNode, levelNode ); + + this.isTexture3DNode = true; + + } + + getInputType( /*builder*/ ) { + + return 'texture3D'; + + } + + getDefaultUV() { + + return vec3( 0.5, 0.5, 0.5 ); + + } + + setUpdateMatrix( /*updateMatrix*/ ) { } // Ignore .updateMatrix for 3d TextureNode + + setupUV( builder, uvNode ) { + + return uvNode; + + } + + generateUV( builder, uvNode ) { + + return uvNode.build( builder, 'vec3' ); + + } + + normal( uvNode ) { + + return normal( { texture: this, uv: uvNode } ); + + } + +} + +const texture3D = nodeProxy( Texture3DNode ); + +addNodeClass( 'Texture3DNode', Texture3DNode ); + +class UserDataNode extends ReferenceNode { + + constructor( property, inputType, userData = null ) { + + super( property, inputType, userData ); + + this.userData = userData; + + } + + update( frame ) { + + this.reference = this.userData !== null ? this.userData : frame.object.userData; + + super.update( frame ); + + } + +} + +const userData = ( name, inputType, userData ) => nodeObject( new UserDataNode( name, inputType, userData ) ); + +addNodeClass( 'UserDataNode', UserDataNode ); + +const BurnNode = tslFn( ( { base, blend } ) => { + + const fn = ( c ) => blend[ c ].lessThan( EPSILON ).cond( blend[ c ], base[ c ].oneMinus().div( blend[ c ] ).oneMinus().max( 0 ) ); + + return vec3( fn( 'x' ), fn( 'y' ), fn( 'z' ) ); + +} ).setLayout( { + name: 'burnColor', + type: 'vec3', + inputs: [ + { name: 'base', type: 'vec3' }, + { name: 'blend', type: 'vec3' } + ] +} ); + +const DodgeNode = tslFn( ( { base, blend } ) => { + + const fn = ( c ) => blend[ c ].equal( 1.0 ).cond( blend[ c ], base[ c ].div( blend[ c ].oneMinus() ).max( 0 ) ); + + return vec3( fn( 'x' ), fn( 'y' ), fn( 'z' ) ); + +} ).setLayout( { + name: 'dodgeColor', + type: 'vec3', + inputs: [ + { name: 'base', type: 'vec3' }, + { name: 'blend', type: 'vec3' } + ] +} ); + +const ScreenNode = tslFn( ( { base, blend } ) => { + + const fn = ( c ) => base[ c ].oneMinus().mul( blend[ c ].oneMinus() ).oneMinus(); + + return vec3( fn( 'x' ), fn( 'y' ), fn( 'z' ) ); + +} ).setLayout( { + name: 'screenColor', + type: 'vec3', + inputs: [ + { name: 'base', type: 'vec3' }, + { name: 'blend', type: 'vec3' } + ] +} ); + +const OverlayNode = tslFn( ( { base, blend } ) => { + + const fn = ( c ) => base[ c ].lessThan( 0.5 ).cond( base[ c ].mul( blend[ c ], 2.0 ), base[ c ].oneMinus().mul( blend[ c ].oneMinus() ).oneMinus() ); + //const fn = ( c ) => mix( base[ c ].oneMinus().mul( blend[ c ].oneMinus() ).oneMinus(), base[ c ].mul( blend[ c ], 2.0 ), step( base[ c ], 0.5 ) ); + + return vec3( fn( 'x' ), fn( 'y' ), fn( 'z' ) ); + +} ).setLayout( { + name: 'overlayColor', + type: 'vec3', + inputs: [ + { name: 'base', type: 'vec3' }, + { name: 'blend', type: 'vec3' } + ] +} ); + +class BlendModeNode extends TempNode { + + constructor( blendMode, baseNode, blendNode ) { + + super(); + + this.blendMode = blendMode; + + this.baseNode = baseNode; + this.blendNode = blendNode; + + } + + setup() { + + const { blendMode, baseNode, blendNode } = this; + const params = { base: baseNode, blend: blendNode }; + + let outputNode = null; + + if ( blendMode === BlendModeNode.BURN ) { + + outputNode = BurnNode( params ); + + } else if ( blendMode === BlendModeNode.DODGE ) { + + outputNode = DodgeNode( params ); + + } else if ( blendMode === BlendModeNode.SCREEN ) { + + outputNode = ScreenNode( params ); + + } else if ( blendMode === BlendModeNode.OVERLAY ) { + + outputNode = OverlayNode( params ); + + } + + return outputNode; + + } + +} + +BlendModeNode.BURN = 'burn'; +BlendModeNode.DODGE = 'dodge'; +BlendModeNode.SCREEN = 'screen'; +BlendModeNode.OVERLAY = 'overlay'; + +const burn = nodeProxy( BlendModeNode, BlendModeNode.BURN ); +const dodge = nodeProxy( BlendModeNode, BlendModeNode.DODGE ); +const overlay = nodeProxy( BlendModeNode, BlendModeNode.OVERLAY ); +const screen = nodeProxy( BlendModeNode, BlendModeNode.SCREEN ); + +addNodeElement( 'burn', burn ); +addNodeElement( 'dodge', dodge ); +addNodeElement( 'overlay', overlay ); +addNodeElement( 'screen', screen ); + +addNodeClass( 'BlendModeNode', BlendModeNode ); + +// Bump Mapping Unparametrized Surfaces on the GPU by Morten S. Mikkelsen +// https://mmikk.github.io/papers3d/mm_sfgrad_bump.pdf + +const dHdxy_fwd = tslFn( ( { textureNode, bumpScale } ) => { + + // It's used to preserve the same TextureNode instance + const sampleTexture = ( callback ) => textureNode.cache().context( { getUV: ( texNode ) => callback( texNode.uvNode || uv() ), forceUVContext: true } ); + + const Hll = float( sampleTexture( ( uvNode ) => uvNode ) ); + + return vec2( + float( sampleTexture( ( uvNode ) => uvNode.add( uvNode.dFdx() ) ) ).sub( Hll ), + float( sampleTexture( ( uvNode ) => uvNode.add( uvNode.dFdy() ) ) ).sub( Hll ) + ).mul( bumpScale ); + +} ); + +// Evaluate the derivative of the height w.r.t. screen-space using forward differencing (listing 2) + +const perturbNormalArb = tslFn( ( inputs ) => { + + const { surf_pos, surf_norm, dHdxy } = inputs; + + // normalize is done to ensure that the bump map looks the same regardless of the texture's scale + const vSigmaX = surf_pos.dFdx().normalize(); + const vSigmaY = surf_pos.dFdy().normalize(); + const vN = surf_norm; // normalized + + const R1 = vSigmaY.cross( vN ); + const R2 = vN.cross( vSigmaX ); + + const fDet = vSigmaX.dot( R1 ).mul( faceDirection ); + + const vGrad = fDet.sign().mul( dHdxy.x.mul( R1 ).add( dHdxy.y.mul( R2 ) ) ); + + return fDet.abs().mul( surf_norm ).sub( vGrad ).normalize(); + +} ); + +class BumpMapNode extends TempNode { + + constructor( textureNode, scaleNode = null ) { + + super( 'vec3' ); + + this.textureNode = textureNode; + this.scaleNode = scaleNode; + + } + + setup() { + + const bumpScale = this.scaleNode !== null ? this.scaleNode : 1; + const dHdxy = dHdxy_fwd( { textureNode: this.textureNode, bumpScale } ); + + return perturbNormalArb( { + surf_pos: positionView, + surf_norm: normalView, + dHdxy + } ); + + } + +} + +const bumpMap = nodeProxy( BumpMapNode ); + +addNodeElement( 'bumpMap', bumpMap ); + +addNodeClass( 'BumpMapNode', BumpMapNode ); + +const saturationNode = tslFn( ( { color, adjustment } ) => { + + return adjustment.mix( luminance( color.rgb ), color.rgb ); + +} ); + +const vibranceNode = tslFn( ( { color, adjustment } ) => { + + const average = add( color.r, color.g, color.b ).div( 3.0 ); + + const mx = color.r.max( color.g.max( color.b ) ); + const amt = mx.sub( average ).mul( adjustment ).mul( - 3.0 ); + + return mix( color.rgb, mx, amt ); + +} ); + +const hueNode = tslFn( ( { color, adjustment } ) => { + + const k = vec3( 0.57735, 0.57735, 0.57735 ); + + const cosAngle = adjustment.cos(); + + return vec3( color.rgb.mul( cosAngle ).add( k.cross( color.rgb ).mul( adjustment.sin() ).add( k.mul( dot( k, color.rgb ).mul( cosAngle.oneMinus() ) ) ) ) ); + +} ); + +class ColorAdjustmentNode extends TempNode { + + constructor( method, colorNode, adjustmentNode = float( 1 ) ) { + + super( 'vec3' ); + + this.method = method; + + this.colorNode = colorNode; + this.adjustmentNode = adjustmentNode; + + } + + setup() { + + const { method, colorNode, adjustmentNode } = this; + + const callParams = { color: colorNode, adjustment: adjustmentNode }; + + let outputNode = null; + + if ( method === ColorAdjustmentNode.SATURATION ) { + + outputNode = saturationNode( callParams ); + + } else if ( method === ColorAdjustmentNode.VIBRANCE ) { + + outputNode = vibranceNode( callParams ); + + } else if ( method === ColorAdjustmentNode.HUE ) { + + outputNode = hueNode( callParams ); + + } else { + + console.error( `${ this.type }: Method "${ this.method }" not supported!` ); + + } + + return outputNode; + + } + +} + +ColorAdjustmentNode.SATURATION = 'saturation'; +ColorAdjustmentNode.VIBRANCE = 'vibrance'; +ColorAdjustmentNode.HUE = 'hue'; + +const saturation = nodeProxy( ColorAdjustmentNode, ColorAdjustmentNode.SATURATION ); +const vibrance = nodeProxy( ColorAdjustmentNode, ColorAdjustmentNode.VIBRANCE ); +const hue = nodeProxy( ColorAdjustmentNode, ColorAdjustmentNode.HUE ); + +const lumaCoeffs = vec3( 0.2125, 0.7154, 0.0721 ); +const luminance = ( color, luma = lumaCoeffs ) => dot( color, luma ); + +const threshold = ( color, threshold ) => mix( vec3( 0.0 ), color, luminance( color ).sub( threshold ).max( 0 ) ); + +addNodeElement( 'saturation', saturation ); +addNodeElement( 'vibrance', vibrance ); +addNodeElement( 'hue', hue ); +addNodeElement( 'threshold', threshold ); + +addNodeClass( 'ColorAdjustmentNode', ColorAdjustmentNode ); + +// Normal Mapping Without Precomputed Tangents +// http://www.thetenthplanet.de/archives/1180 + +const perturbNormal2Arb = tslFn( ( inputs ) => { + + const { eye_pos, surf_norm, mapN, uv } = inputs; + + const q0 = eye_pos.dFdx(); + const q1 = eye_pos.dFdy(); + const st0 = uv.dFdx(); + const st1 = uv.dFdy(); + + const N = surf_norm; // normalized + + const q1perp = q1.cross( N ); + const q0perp = N.cross( q0 ); + + const T = q1perp.mul( st0.x ).add( q0perp.mul( st1.x ) ); + const B = q1perp.mul( st0.y ).add( q0perp.mul( st1.y ) ); + + const det = T.dot( T ).max( B.dot( B ) ); + const scale = faceDirection.mul( det.inverseSqrt() ); + + return add( T.mul( mapN.x, scale ), B.mul( mapN.y, scale ), N.mul( mapN.z ) ).normalize(); + +} ); + +class NormalMapNode extends TempNode { + + constructor( node, scaleNode = null ) { + + super( 'vec3' ); + + this.node = node; + this.scaleNode = scaleNode; + + this.normalMapType = TangentSpaceNormalMap; + + } + + setup( builder ) { + + const { normalMapType, scaleNode } = this; + + let normalMap = this.node.mul( 2.0 ).sub( 1.0 ); + + if ( scaleNode !== null ) { + + normalMap = vec3( normalMap.xy.mul( scaleNode ), normalMap.z ); + + } + + let outputNode = null; + + if ( normalMapType === ObjectSpaceNormalMap ) { + + outputNode = modelNormalMatrix.mul( normalMap ).normalize(); + + } else if ( normalMapType === TangentSpaceNormalMap ) { + + const tangent = builder.hasGeometryAttribute( 'tangent' ); + + if ( tangent === true ) { + + outputNode = TBNViewMatrix.mul( normalMap ).normalize(); + + } else { + + outputNode = perturbNormal2Arb( { + eye_pos: positionView, + surf_norm: normalView, + mapN: normalMap, + uv: uv() + } ); + + } + + } + + return outputNode; + + } + +} + +const normalMap = nodeProxy( NormalMapNode ); + +addNodeElement( 'normalMap', normalMap ); + +addNodeClass( 'NormalMapNode', NormalMapNode ); + +class PosterizeNode extends TempNode { + + constructor( sourceNode, stepsNode ) { + + super(); + + this.sourceNode = sourceNode; + this.stepsNode = stepsNode; + + } + + setup() { + + const { sourceNode, stepsNode } = this; + + return sourceNode.mul( stepsNode ).floor().div( stepsNode ); + + } + +} + +const posterize = nodeProxy( PosterizeNode ); + +addNodeElement( 'posterize', posterize ); + +addNodeClass( 'PosterizeNode', PosterizeNode ); + +// exposure only +const LinearToneMappingNode = tslFn( ( { color, exposure } ) => { + + return color.mul( exposure ).clamp(); + +} ); + +// source: https://www.cs.utah.edu/docs/techreports/2002/pdf/UUCS-02-001.pdf +const ReinhardToneMappingNode = tslFn( ( { color, exposure } ) => { + + color = color.mul( exposure ); + + return color.div( color.add( 1.0 ) ).clamp(); + +} ); + +// source: http://filmicworlds.com/blog/filmic-tonemapping-operators/ +const OptimizedCineonToneMappingNode = tslFn( ( { color, exposure } ) => { + + // optimized filmic operator by Jim Hejl and Richard Burgess-Dawson + color = color.mul( exposure ); + color = color.sub( 0.004 ).max( 0.0 ); + + const a = color.mul( color.mul( 6.2 ).add( 0.5 ) ); + const b = color.mul( color.mul( 6.2 ).add( 1.7 ) ).add( 0.06 ); + + return a.div( b ).pow( 2.2 ); + +} ); + +// source: https://github.com/selfshadow/ltc_code/blob/master/webgl/shaders/ltc/ltc_blit.fs +const RRTAndODTFit = tslFn( ( { color } ) => { + + const a = color.mul( color.add( 0.0245786 ) ).sub( 0.000090537 ); + const b = color.mul( color.add( 0.4329510 ).mul( 0.983729 ) ).add( 0.238081 ); + + return a.div( b ); + +} ); + +// source: https://github.com/selfshadow/ltc_code/blob/master/webgl/shaders/ltc/ltc_blit.fs +const ACESFilmicToneMappingNode = tslFn( ( { color, exposure } ) => { + + // sRGB => XYZ => D65_2_D60 => AP1 => RRT_SAT + const ACESInputMat = mat3( + 0.59719, 0.35458, 0.04823, + 0.07600, 0.90834, 0.01566, + 0.02840, 0.13383, 0.83777 + ); + + // ODT_SAT => XYZ => D60_2_D65 => sRGB + const ACESOutputMat = mat3( + 1.60475, - 0.53108, - 0.07367, + - 0.10208, 1.10813, - 0.00605, + - 0.00327, - 0.07276, 1.07602 + ); + + color = color.mul( exposure ).div( 0.6 ); + + color = ACESInputMat.mul( color ); + + // Apply RRT and ODT + color = RRTAndODTFit( { color } ); + + color = ACESOutputMat.mul( color ); + + // Clamp to [0, 1] + return color.clamp(); + +} ); + + + +const LINEAR_REC2020_TO_LINEAR_SRGB = mat3( vec3( 1.6605, - 0.1246, - 0.0182 ), vec3( - 0.5876, 1.1329, - 0.1006 ), vec3( - 0.0728, - 0.0083, 1.1187 ) ); +const LINEAR_SRGB_TO_LINEAR_REC2020 = mat3( vec3( 0.6274, 0.0691, 0.0164 ), vec3( 0.3293, 0.9195, 0.0880 ), vec3( 0.0433, 0.0113, 0.8956 ) ); + +const agxDefaultContrastApprox = tslFn( ( [ x_immutable ] ) => { + + const x = vec3( x_immutable ).toVar(); + const x2 = vec3( x.mul( x ) ).toVar(); + const x4 = vec3( x2.mul( x2 ) ).toVar(); + + return float( 15.5 ).mul( x4.mul( x2 ) ).sub( mul( 40.14, x4.mul( x ) ) ).add( mul( 31.96, x4 ).sub( mul( 6.868, x2.mul( x ) ) ).add( mul( 0.4298, x2 ).add( mul( 0.1191, x ).sub( 0.00232 ) ) ) ); + +} ); + +const AGXToneMappingNode = tslFn( ( { color, exposure } ) => { + + const colortone = vec3( color ).toVar(); + const AgXInsetMatrix = mat3( vec3( 0.856627153315983, 0.137318972929847, 0.11189821299995 ), vec3( 0.0951212405381588, 0.761241990602591, 0.0767994186031903 ), vec3( 0.0482516061458583, 0.101439036467562, 0.811302368396859 ) ); + const AgXOutsetMatrix = mat3( vec3( 1.1271005818144368, - 0.1413297634984383, - 0.14132976349843826 ), vec3( - 0.11060664309660323, 1.157823702216272, - 0.11060664309660294 ), vec3( - 0.016493938717834573, - 0.016493938717834257, 1.2519364065950405 ) ); + const AgxMinEv = float( - 12.47393 ); + const AgxMaxEv = float( 4.026069 ); + colortone.mulAssign( exposure ); + colortone.assign( LINEAR_SRGB_TO_LINEAR_REC2020.mul( colortone ) ); + colortone.assign( AgXInsetMatrix.mul( colortone ) ); + colortone.assign( max$1( colortone, 1e-10 ) ); + colortone.assign( log2( colortone ) ); + colortone.assign( colortone.sub( AgxMinEv ).div( AgxMaxEv.sub( AgxMinEv ) ) ); + colortone.assign( clamp( colortone, 0.0, 1.0 ) ); + colortone.assign( agxDefaultContrastApprox( colortone ) ); + colortone.assign( AgXOutsetMatrix.mul( colortone ) ); + colortone.assign( pow( max$1( vec3( 0.0 ), colortone ), vec3( 2.2 ) ) ); + colortone.assign( LINEAR_REC2020_TO_LINEAR_SRGB.mul( colortone ) ); + colortone.assign( clamp( colortone, 0.0, 1.0 ) ); + + return colortone; + +} ); + +// https://modelviewer.dev/examples/tone-mapping + +const NeutralToneMappingNode = tslFn( ( { color, exposure } ) => { + + const StartCompression = float( 0.8 - 0.04 ); + const Desaturation = float( 0.15 ); + + color = color.mul( exposure ); + + const x = min$1( color.r, min$1( color.g, color.b ) ); + const offset = cond( x.lessThan( 0.08 ), x.sub( mul( 6.25, x.mul( x ) ) ), 0.04 ); + + color.subAssign( offset ); + + const peak = max$1( color.r, max$1( color.g, color.b ) ); + + If( peak.lessThan( StartCompression ), () => { + + return color; + + } ); + + const d = sub( 1, StartCompression ); + const newPeak = sub( 1, d.mul( d ).div( peak.add( d.sub( StartCompression ) ) ) ); + color.mulAssign( newPeak.div( peak ) ); + const g = sub( 1, div( 1, Desaturation.mul( peak.sub( newPeak ) ).add( 1 ) ) ); + + return mix( color, vec3( newPeak ), g ); + +} ).setLayout( { + name: 'NeutralToneMapping', + type: 'vec3', + inputs: [ + { name: 'color', type: 'vec3' }, + { name: 'exposure', type: 'float' } + ] +} ); + +const toneMappingLib = { + [ LinearToneMapping ]: LinearToneMappingNode, + [ ReinhardToneMapping ]: ReinhardToneMappingNode, + [ CineonToneMapping ]: OptimizedCineonToneMappingNode, + [ ACESFilmicToneMapping ]: ACESFilmicToneMappingNode, + [ AgXToneMapping ]: AGXToneMappingNode, + [ NeutralToneMapping ]: NeutralToneMappingNode +}; + +class ToneMappingNode extends TempNode { + + constructor( toneMapping = NoToneMapping, exposureNode = toneMappingExposure, colorNode = null ) { + + super( 'vec3' ); + + this.toneMapping = toneMapping; + + this.exposureNode = exposureNode; + this.colorNode = colorNode; + + } + + getCacheKey() { + + let cacheKey = super.getCacheKey(); + cacheKey = '{toneMapping:' + this.toneMapping + ',nodes:' + cacheKey + '}'; + + return cacheKey; + + } + + setup( builder ) { + + const colorNode = this.colorNode || builder.context.color; + const toneMapping = this.toneMapping; + + if ( toneMapping === NoToneMapping ) return colorNode; + + const toneMappingParams = { exposure: this.exposureNode, color: colorNode }; + const toneMappingNode = toneMappingLib[ toneMapping ]; + + let outputNode = null; + + if ( toneMappingNode ) { + + outputNode = toneMappingNode( toneMappingParams ); + + } else { + + console.error( 'ToneMappingNode: Unsupported Tone Mapping configuration.', toneMapping ); + + outputNode = colorNode; + + } + + return outputNode; + + } + +} + +const toneMapping = ( mapping, exposure, color ) => nodeObject( new ToneMappingNode( mapping, nodeObject( exposure ), nodeObject( color ) ) ); +const toneMappingExposure = rendererReference( 'toneMappingExposure', 'float' ); + +addNodeElement( 'toneMapping', ( color, mapping, exposure ) => toneMapping( mapping, exposure, color ) ); + +addNodeClass( 'ToneMappingNode', ToneMappingNode ); + +let _sharedFramebuffer = null; + +class ViewportSharedTextureNode extends ViewportTextureNode { + + constructor( uvNode = viewportTopLeft, levelNode = null ) { + + if ( _sharedFramebuffer === null ) { + + _sharedFramebuffer = new FramebufferTexture(); + + } + + super( uvNode, levelNode, _sharedFramebuffer ); + + } + + updateReference() { + + return this; + + } + +} + +const viewportSharedTexture = nodeProxy( ViewportSharedTextureNode ); + +addNodeElement( 'viewportSharedTexture', viewportSharedTexture ); + +addNodeClass( 'ViewportSharedTextureNode', ViewportSharedTextureNode ); + +const _size$2 = new Vector2(); + +class PassTextureNode extends TextureNode { + + constructor( passNode, texture ) { + + super( texture ); + + this.passNode = passNode; + + this.setUpdateMatrix( false ); + + } + + setup( builder ) { + + this.passNode.build( builder ); + + return super.setup( builder ); + + } + + clone() { + + return new this.constructor( this.passNode, this.value ); + + } + +} + +class PassNode extends TempNode { + + constructor( scope, scene, camera ) { + + super( 'vec4' ); + + this.scope = scope; + this.scene = scene; + this.camera = camera; + + this._pixelRatio = 1; + this._width = 1; + this._height = 1; + + const depthTexture = new DepthTexture(); + depthTexture.isRenderTargetTexture = true; + //depthTexture.type = FloatType; + depthTexture.name = 'PostProcessingDepth'; + + const renderTarget = new RenderTarget( this._width * this._pixelRatio, this._height * this._pixelRatio, { type: HalfFloatType } ); + renderTarget.texture.name = 'PostProcessing'; + renderTarget.depthTexture = depthTexture; + + this.renderTarget = renderTarget; + + this.updateBeforeType = NodeUpdateType.FRAME; + + this._textureNode = nodeObject( new PassTextureNode( this, renderTarget.texture ) ); + this._depthTextureNode = nodeObject( new PassTextureNode( this, depthTexture ) ); + + this._linearDepthNode = null; + this._viewZNode = null; + this._cameraNear = uniform( 0 ); + this._cameraFar = uniform( 0 ); + + this.isPassNode = true; + + } + + isGlobal() { + + return true; + + } + + getTextureNode() { + + return this._textureNode; + + } + + getTextureDepthNode() { + + return this._depthTextureNode; + + } + + getViewZNode() { + + if ( this._viewZNode === null ) { + + const cameraNear = this._cameraNear; + const cameraFar = this._cameraFar; + + this._viewZNode = perspectiveDepthToViewZ( this._depthTextureNode, cameraNear, cameraFar ); + + } + + return this._viewZNode; + + } + + getLinearDepthNode() { + + if ( this._linearDepthNode === null ) { + + const cameraNear = this._cameraNear; + const cameraFar = this._cameraFar; + + // TODO: just if ( builder.camera.isPerspectiveCamera ) + + this._linearDepthNode = viewZToOrthographicDepth( this.getViewZNode(), cameraNear, cameraFar ); + + } + + return this._linearDepthNode; + + } + + setup() { + + return this.scope === PassNode.COLOR ? this.getTextureNode() : this.getLinearDepthNode(); + + } + + updateBefore( frame ) { + + const { renderer } = frame; + const { scene, camera } = this; + + this._pixelRatio = renderer.getPixelRatio(); + + const size = renderer.getSize( _size$2 ); + + this.setSize( size.width, size.height ); + + const currentToneMapping = renderer.toneMapping; + const currentToneMappingNode = renderer.toneMappingNode; + const currentRenderTarget = renderer.getRenderTarget(); + + this._cameraNear.value = camera.near; + this._cameraFar.value = camera.far; + + renderer.toneMapping = NoToneMapping; + renderer.toneMappingNode = null; + renderer.setRenderTarget( this.renderTarget ); + + renderer.render( scene, camera ); + + renderer.toneMapping = currentToneMapping; + renderer.toneMappingNode = currentToneMappingNode; + renderer.setRenderTarget( currentRenderTarget ); + + } + + setSize( width, height ) { + + this._width = width; + this._height = height; + + const effectiveWidth = this._width * this._pixelRatio; + const effectiveHeight = this._height * this._pixelRatio; + + this.renderTarget.setSize( effectiveWidth, effectiveHeight ); + + } + + setPixelRatio( pixelRatio ) { + + this._pixelRatio = pixelRatio; + + this.setSize( this._width, this._height ); + + } + + dispose() { + + this.renderTarget.dispose(); + + } + + +} + +PassNode.COLOR = 'color'; +PassNode.DEPTH = 'depth'; + +const pass = ( scene, camera ) => nodeObject( new PassNode( PassNode.COLOR, scene, camera ) ); +const texturePass = ( pass, texture ) => nodeObject( new PassTextureNode( pass, texture ) ); +const depthPass = ( scene, camera ) => nodeObject( new PassNode( PassNode.DEPTH, scene, camera ) ); + +addNodeClass( 'PassNode', PassNode ); + +// Helper for passes that need to fill the viewport with a single quad. + +const _camera = new OrthographicCamera( - 1, 1, 1, - 1, 0, 1 ); + +// https://github.com/mrdoob/three.js/pull/21358 + +class QuadGeometry extends BufferGeometry { + + constructor( flipY = false ) { + + super(); + + const uv = flipY === false ? [ 0, - 1, 0, 1, 2, 1 ] : [ 0, 2, 0, 0, 2, 0 ]; + + this.setAttribute( 'position', new Float32BufferAttribute( [ - 1, 3, 0, - 1, - 1, 0, 3, - 1, 0 ], 3 ) ); + this.setAttribute( 'uv', new Float32BufferAttribute( uv, 2 ) ); + + } + +} + +const _geometry = new QuadGeometry(); + +class QuadMesh extends Mesh { + + constructor( material = null ) { + + super( _geometry, material ); + + this.camera = _camera; + + } + + renderAsync( renderer ) { + + return renderer.renderAsync( this, _camera ); + + } + + render( renderer ) { + + renderer.render( this, _camera ); + + } + +} + +// WebGPU: The use of a single QuadMesh for both gaussian blur passes results in a single RenderObject with a SampledTexture binding that +// alternates between source textures and triggers creation of new BindGroups and BindGroupLayouts every frame. + +const quadMesh1 = new QuadMesh(); +const quadMesh2 = new QuadMesh(); + +class GaussianBlurNode extends TempNode { + + constructor( textureNode, sigma = 2 ) { + + super( 'vec4' ); + + this.textureNode = textureNode; + this.sigma = sigma; + + this.directionNode = vec2( 1 ); + + this._invSize = uniform( new Vector2() ); + this._passDirection = uniform( new Vector2() ); + + this._horizontalRT = new RenderTarget(); + this._horizontalRT.texture.name = 'GaussianBlurNode.horizontal'; + this._verticalRT = new RenderTarget(); + this._verticalRT.texture.name = 'GaussianBlurNode.vertical'; + + this._textureNode = texturePass( this, this._verticalRT.texture ); + + this.updateBeforeType = NodeUpdateType.RENDER; + + this.resolution = new Vector2( 1, 1 ); + + } + + setSize( width, height ) { + + width = Math.max( Math.round( width * this.resolution.x ), 1 ); + height = Math.max( Math.round( height * this.resolution.y ), 1 ); + + this._invSize.value.set( 1 / width, 1 / height ); + this._horizontalRT.setSize( width, height ); + this._verticalRT.setSize( width, height ); + + } + + updateBefore( frame ) { + + const { renderer } = frame; + + const textureNode = this.textureNode; + const map = textureNode.value; + + const currentRenderTarget = renderer.getRenderTarget(); + const currentTexture = textureNode.value; + + quadMesh1.material = this._material; + quadMesh2.material = this._material; + + this.setSize( map.image.width, map.image.height ); + + const textureType = map.type; + + this._horizontalRT.texture.type = textureType; + this._verticalRT.texture.type = textureType; + + // horizontal + + renderer.setRenderTarget( this._horizontalRT ); + + this._passDirection.value.set( 1, 0 ); + + quadMesh1.render( renderer ); + + // vertical + + textureNode.value = this._horizontalRT.texture; + renderer.setRenderTarget( this._verticalRT ); + + this._passDirection.value.set( 0, 1 ); + + quadMesh2.render( renderer ); + + // restore + + renderer.setRenderTarget( currentRenderTarget ); + textureNode.value = currentTexture; + + } + + getTextureNode() { + + return this._textureNode; + + } + + setup( builder ) { + + const textureNode = this.textureNode; + + if ( textureNode.isTextureNode !== true ) { + + console.error( 'GaussianBlurNode requires a TextureNode.' ); + + return vec4(); + + } + + // + + const uvNode = textureNode.uvNode || uv(); + + const sampleTexture = ( uv ) => textureNode.cache().context( { getUV: () => uv, forceUVContext: true } ); + + const blur = tslFn( () => { + + const kernelSize = 3 + ( 2 * this.sigma ); + const gaussianCoefficients = this._getCoefficients( kernelSize ); + + const invSize = this._invSize; + const direction = vec2( this.directionNode ).mul( this._passDirection ); + + const weightSum = float( gaussianCoefficients[ 0 ] ).toVar(); + const diffuseSum = vec4( sampleTexture( uvNode ).mul( weightSum ) ).toVar(); + + for ( let i = 1; i < kernelSize; i ++ ) { + + const x = float( i ); + const w = float( gaussianCoefficients[ i ] ); + + const uvOffset = vec2( direction.mul( invSize.mul( x ) ) ).toVar(); + + const sample1 = vec4( sampleTexture( uvNode.add( uvOffset ) ) ); + const sample2 = vec4( sampleTexture( uvNode.sub( uvOffset ) ) ); + + diffuseSum.addAssign( sample1.add( sample2 ).mul( w ) ); + weightSum.addAssign( mul( 2.0, w ) ); + + } + + return diffuseSum.div( weightSum ); + + } ); + + // + + const material = this._material || ( this._material = builder.createNodeMaterial() ); + material.fragmentNode = blur(); + + // + + const properties = builder.getNodeProperties( this ); + properties.textureNode = textureNode; + + // + + return this._textureNode; + + } + + _getCoefficients( kernelRadius ) { + + const coefficients = []; + + for ( let i = 0; i < kernelRadius; i ++ ) { + + coefficients.push( 0.39894 * Math.exp( - 0.5 * i * i / ( kernelRadius * kernelRadius ) ) / kernelRadius ); + + } + + return coefficients; + + } + +} + +const gaussianBlur = ( node, sigma ) => nodeObject( new GaussianBlurNode( nodeObject( node ), sigma ) ); + +addNodeElement( 'gaussianBlur', gaussianBlur ); + +const _size$1 = new Vector2(); + +const quadMeshComp = new QuadMesh(); + +class AfterImageNode extends TempNode { + + constructor( textureNode, damp = 0.96 ) { + + super( textureNode ); + + this.textureNode = textureNode; + this.textureNodeOld = texture(); + this.damp = uniform( damp ); + + this._compRT = new RenderTarget(); + this._compRT.texture.name = 'AfterImageNode.comp'; + + this._oldRT = new RenderTarget(); + this._oldRT.texture.name = 'AfterImageNode.old'; + + this._textureNode = texturePass( this, this._compRT.texture ); + + this.updateBeforeType = NodeUpdateType.RENDER; + + } + + getTextureNode() { + + return this._textureNode; + + } + + setSize( width, height ) { + + this._compRT.setSize( width, height ); + this._oldRT.setSize( width, height ); + + } + + updateBefore( frame ) { + + const { renderer } = frame; + + const textureNode = this.textureNode; + const map = textureNode.value; + + const textureType = map.type; + + this._compRT.texture.type = textureType; + this._oldRT.texture.type = textureType; + + renderer.getDrawingBufferSize( _size$1 ); + + this.setSize( _size$1.x, _size$1.y ); + + + const currentToneMapping = renderer.toneMapping; + const currentToneMappingNode = renderer.toneMappingNode; + const currentRenderTarget = renderer.getRenderTarget(); + const currentTexture = textureNode.value; + + this.textureNodeOld.value = this._oldRT.texture; + + // comp + renderer.toneMapping = NoToneMapping; + renderer.toneMappingNode = null; + renderer.setRenderTarget( this._compRT ); + quadMeshComp.render( renderer ); + + // Swap the textures + const temp = this._oldRT; + this._oldRT = this._compRT; + this._compRT = temp; + + + renderer.toneMapping = currentToneMapping; + renderer.toneMappingNode = currentToneMappingNode; + renderer.setRenderTarget( currentRenderTarget ); + textureNode.value = currentTexture; + + } + + setup( builder ) { + + const textureNode = this.textureNode; + const textureNodeOld = this.textureNodeOld; + + if ( textureNode.isTextureNode !== true ) { + + console.error( 'AfterImageNode requires a TextureNode.' ); + + return vec4(); + + } + + // + + const uvNode = textureNode.uvNode || uv(); + + textureNodeOld.uvNode = uvNode; + + const sampleTexture = ( uv ) => textureNode.cache().context( { getUV: () => uv, forceUVContext: true } ); + + const when_gt = tslFn( ( [ x_immutable, y_immutable ] ) => { + + const y = float( y_immutable ).toVar(); + const x = vec4( x_immutable ).toVar(); + + return max$1( sign( x.sub( y ) ), 0.0 ); + + } ); + + const afterImg = tslFn( () => { + + const texelOld = vec4( textureNodeOld ); + const texelNew = vec4( sampleTexture( uvNode ) ); + + texelOld.mulAssign( this.damp.mul( when_gt( texelOld, 0.1 ) ) ); + return max$1( texelNew, texelOld ); + + } ); + + // + + const materialComposed = this._materialComposed || ( this._materialComposed = builder.createNodeMaterial() ); + materialComposed.fragmentNode = afterImg(); + + quadMeshComp.material = materialComposed; + + // + + const properties = builder.getNodeProperties( this ); + properties.textureNode = textureNode; + + // + + return this._textureNode; + + } + +} + +const afterImage = ( node, damp ) => nodeObject( new AfterImageNode( nodeObject( node ), damp ) ); + +addNodeElement( 'afterImage', afterImage ); + +const quadMesh$2 = new QuadMesh(); + +class AnamorphicNode extends TempNode { + + constructor( textureNode, tresholdNode, scaleNode, samples ) { + + super( 'vec4' ); + + this.textureNode = textureNode; + this.tresholdNode = tresholdNode; + this.scaleNode = scaleNode; + this.colorNode = vec3( 0.1, 0.0, 1.0 ); + this.samples = samples; + this.resolution = new Vector2( 1, 1 ); + + this._renderTarget = new RenderTarget(); + this._renderTarget.texture.name = 'anamorphic'; + + this._invSize = uniform( new Vector2() ); + + this._textureNode = texturePass( this, this._renderTarget.texture ); + + this.updateBeforeType = NodeUpdateType.RENDER; + + } + + getTextureNode() { + + return this._textureNode; + + } + + setSize( width, height ) { + + this._invSize.value.set( 1 / width, 1 / height ); + + width = Math.max( Math.round( width * this.resolution.x ), 1 ); + height = Math.max( Math.round( height * this.resolution.y ), 1 ); + + this._renderTarget.setSize( width, height ); + + } + + updateBefore( frame ) { + + const { renderer } = frame; + + const textureNode = this.textureNode; + const map = textureNode.value; + + this._renderTarget.texture.type = map.type; + + const currentRenderTarget = renderer.getRenderTarget(); + const currentTexture = textureNode.value; + + quadMesh$2.material = this._material; + + this.setSize( map.image.width, map.image.height ); + + // render + + renderer.setRenderTarget( this._renderTarget ); + + quadMesh$2.render( renderer ); + + // restore + + renderer.setRenderTarget( currentRenderTarget ); + textureNode.value = currentTexture; + + } + + setup( builder ) { + + const textureNode = this.textureNode; + + if ( textureNode.isTextureNode !== true ) { + + console.error( 'AnamorphNode requires a TextureNode.' ); + + return vec4(); + + } + + // + + const uvNode = textureNode.uvNode || uv(); + + const sampleTexture = ( uv ) => textureNode.cache().context( { getUV: () => uv, forceUVContext: true } ); + + const anamorph = tslFn( () => { + + const samples = this.samples; + const halfSamples = Math.floor( samples / 2 ); + + const total = vec3( 0 ).toVar(); + + loop( { start: - halfSamples, end: halfSamples }, ( { i } ) => { + + const softness = float( i ).abs().div( halfSamples ).oneMinus(); + + const uv = vec2( uvNode.x.add( this._invSize.x.mul( i ).mul( this.scaleNode ) ), uvNode.y ); + const color = sampleTexture( uv ); + const pass = threshold( color, this.tresholdNode ).mul( softness ); + + total.addAssign( pass ); + + } ); + + return total.mul( this.colorNode ); + + } ); + + // + + const material = this._material || ( this._material = builder.createNodeMaterial() ); + material.fragmentNode = anamorph(); + + // + + const properties = builder.getNodeProperties( this ); + properties.textureNode = textureNode; + + // + + return this._textureNode; + + } + +} + +const anamorphic = ( node, threshold = .9, scale = 3, samples = 32 ) => nodeObject( new AnamorphicNode( nodeObject( node ), nodeObject( threshold ), nodeObject( scale ), samples ) ); + +addNodeElement( 'anamorphic', anamorphic ); + +class SobelOperatorNode extends TempNode { + + constructor( textureNode ) { + + super(); + + this.textureNode = textureNode; + + this.updateBeforeType = NodeUpdateType.RENDER; + + this._invSize = uniform( new Vector2() ); + + } + + updateBefore() { + + const map = this.textureNode.value; + + this._invSize.value.set( 1 / map.image.width, 1 / map.image.height ); + + } + + setup() { + + const { textureNode } = this; + + const uvNode = textureNode.uvNode || uv(); + + const sampleTexture = ( uv ) => this.textureNode.cache().context( { getUV: () => uv, forceUVContext: true } ); + + const sobel = tslFn( () => { + + // Sobel Edge Detection (see https://youtu.be/uihBwtPIBxM) + + const texel = this._invSize; + + // kernel definition (in glsl matrices are filled in column-major order) + + const Gx = mat3( - 1, - 2, - 1, 0, 0, 0, 1, 2, 1 ); // x direction kernel + const Gy = mat3( - 1, 0, 1, - 2, 0, 2, - 1, 0, 1 ); // y direction kernel + + // fetch the 3x3 neighbourhood of a fragment + + // first column + + const tx0y0 = luminance( sampleTexture( uvNode.add( texel.mul( vec2( - 1, - 1 ) ) ) ).xyz ); + const tx0y1 = luminance( sampleTexture( uvNode.add( texel.mul( vec2( - 1, 0 ) ) ) ).xyz ); + const tx0y2 = luminance( sampleTexture( uvNode.add( texel.mul( vec2( - 1, 1 ) ) ) ).xyz ); + + // second column + + const tx1y0 = luminance( sampleTexture( uvNode.add( texel.mul( vec2( 0, - 1 ) ) ) ).xyz ); + const tx1y1 = luminance( sampleTexture( uvNode.add( texel.mul( vec2( 0, 0 ) ) ) ).xyz ); + const tx1y2 = luminance( sampleTexture( uvNode.add( texel.mul( vec2( 0, 1 ) ) ) ).xyz ); + + // third column + + const tx2y0 = luminance( sampleTexture( uvNode.add( texel.mul( vec2( 1, - 1 ) ) ) ).xyz ); + const tx2y1 = luminance( sampleTexture( uvNode.add( texel.mul( vec2( 1, 0 ) ) ) ).xyz ); + const tx2y2 = luminance( sampleTexture( uvNode.add( texel.mul( vec2( 1, 1 ) ) ) ).xyz ); + + // gradient value in x direction + + const valueGx = add( + Gx[ 0 ][ 0 ].mul( tx0y0 ), + Gx[ 1 ][ 0 ].mul( tx1y0 ), + Gx[ 2 ][ 0 ].mul( tx2y0 ), + Gx[ 0 ][ 1 ].mul( tx0y1 ), + Gx[ 1 ][ 1 ].mul( tx1y1 ), + Gx[ 2 ][ 1 ].mul( tx2y1 ), + Gx[ 0 ][ 2 ].mul( tx0y2 ), + Gx[ 1 ][ 2 ].mul( tx1y2 ), + Gx[ 2 ][ 2 ].mul( tx2y2 ) + ); + + + // gradient value in y direction + + const valueGy = add( + Gy[ 0 ][ 0 ].mul( tx0y0 ), + Gy[ 1 ][ 0 ].mul( tx1y0 ), + Gy[ 2 ][ 0 ].mul( tx2y0 ), + Gy[ 0 ][ 1 ].mul( tx0y1 ), + Gy[ 1 ][ 1 ].mul( tx1y1 ), + Gy[ 2 ][ 1 ].mul( tx2y1 ), + Gy[ 0 ][ 2 ].mul( tx0y2 ), + Gy[ 1 ][ 2 ].mul( tx1y2 ), + Gy[ 2 ][ 2 ].mul( tx2y2 ) + ); + + // magnitute of the total gradient + + const G = valueGx.mul( valueGx ).add( valueGy.mul( valueGy ) ).sqrt(); + + return vec4( vec3( G ), 1 ); + + } ); + + const outputNode = sobel(); + + return outputNode; + + } + +} + +const sobel = ( node ) => nodeObject( new SobelOperatorNode( nodeObject( node ) ) ); + +addNodeElement( 'sobel', sobel ); + +class DepthOfFieldNode extends TempNode { + + constructor( textureNode, viewZNode, focus = 1, aperture = 0.025, maxblur = 1 ) { + + super(); + + this.textureNode = textureNode; + this.viewZNode = viewZNode; + + this.focus = uniform( focus ); + this.aperture = uniform( aperture ); + this.maxblur = uniform( maxblur ); + this._aspect = uniform( 0 ); + + this.updateBeforeType = NodeUpdateType.RENDER; + + } + + updateBefore() { + + const map = this.textureNode.value; + + this._aspect.value = map.image.width / map.image.height; + + } + + setup() { + + const { textureNode } = this; + + const uvNode = textureNode.uvNode || uv(); + + const sampleTexture = ( uv ) => this.textureNode.uv( uv ); + + const dof = tslFn( () => { + + const aspectcorrect = vec2( 1.0, this._aspect ); + + const factor = this.focus.add( this.viewZNode ); + + const dofblur = vec2( clamp( factor.mul( this.aperture ), this.maxblur.negate(), this.maxblur ) ); + + const dofblur9 = dofblur.mul( 0.9 ); + const dofblur7 = dofblur.mul( 0.7 ); + const dofblur4 = dofblur.mul( 0.4 ); + + let col = vec4( 0.0 ); + + col = col.add( sampleTexture( uvNode ) ); + + col = col.add( sampleTexture( uvNode.add( vec2( 0.0, 0.4 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.15, 0.37 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.29, 0.29 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.37, 0.15 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.40, 0.0 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.37, - 0.15 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.29, - 0.29 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.15, - 0.37 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.0, - 0.4 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.15, 0.37 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.29, 0.29 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.37, 0.15 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.4, 0.0 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.37, - 0.15 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.29, - 0.29 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.15, - 0.37 ).mul( aspectcorrect ).mul( dofblur ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.15, 0.37 ).mul( aspectcorrect ).mul( dofblur9 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.37, 0.15 ).mul( aspectcorrect ).mul( dofblur9 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.37, - 0.15 ).mul( aspectcorrect ).mul( dofblur9 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.15, - 0.37 ).mul( aspectcorrect ).mul( dofblur9 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.15, 0.37 ).mul( aspectcorrect ).mul( dofblur9 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.37, 0.15 ).mul( aspectcorrect ).mul( dofblur9 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.37, - 0.15 ).mul( aspectcorrect ).mul( dofblur9 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.15, - 0.37 ).mul( aspectcorrect ).mul( dofblur9 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.29, 0.29 ).mul( aspectcorrect ).mul( dofblur7 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.40, 0.0 ).mul( aspectcorrect ).mul( dofblur7 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.29, - 0.29 ).mul( aspectcorrect ).mul( dofblur7 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.0, - 0.4 ).mul( aspectcorrect ).mul( dofblur7 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.29, 0.29 ).mul( aspectcorrect ).mul( dofblur7 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.4, 0.0 ).mul( aspectcorrect ).mul( dofblur7 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.29, - 0.29 ).mul( aspectcorrect ).mul( dofblur7 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.0, 0.4 ).mul( aspectcorrect ).mul( dofblur7 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.29, 0.29 ).mul( aspectcorrect ).mul( dofblur4 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.4, 0.0 ).mul( aspectcorrect ).mul( dofblur4 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.29, - 0.29 ).mul( aspectcorrect ).mul( dofblur4 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.0, - 0.4 ).mul( aspectcorrect ).mul( dofblur4 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.29, 0.29 ).mul( aspectcorrect ).mul( dofblur4 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.4, 0.0 ).mul( aspectcorrect ).mul( dofblur4 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( - 0.29, - 0.29 ).mul( aspectcorrect ).mul( dofblur4 ) ) ) ); + col = col.add( sampleTexture( uvNode.add( vec2( 0.0, 0.4 ).mul( aspectcorrect ).mul( dofblur4 ) ) ) ); + + col = col.div( 41 ); + col.a = 1; + + return vec4( col ); + + + } ); + + const outputNode = dof(); + + return outputNode; + + } + +} + +const dof = ( node, viewZNode, focus, apeture, maxblur ) => nodeObject( new DepthOfFieldNode( nodeObject( node ), nodeObject( viewZNode ), focus, apeture, maxblur ) ); + +addNodeElement( 'dof', dof ); + +const quadMesh$1 = new QuadMesh(); + +class DotScreenNode extends TempNode { + + constructor( colorNode, center = new Vector2( 0.5, 0.5 ), angle = 1.57, scale = 1 ) { + + super( 'vec4' ); + + this.colorNode = colorNode; + this.center = uniform( center ); + this.angle = uniform( angle ); + this.scale = uniform( scale ); + + this._renderTarget = new RenderTarget(); + this._renderTarget.texture.name = 'dotScreen'; + + this._size = uniform( new Vector2() ); + + this._textureNode = texturePass( this, this._renderTarget.texture ); + + this.updateBeforeType = NodeUpdateType.RENDER; + + } + + getTextureNode() { + + return this._textureNode; + + } + + setSize( width, height ) { + + this._size.value.set( width, height ); + this._renderTarget.setSize( width, height ); + + } + + updateBefore( frame ) { + + const { renderer } = frame; + + const colorNode = this.colorNode; + const map = colorNode.value; + + this._renderTarget.texture.type = map.type; + + const currentRenderTarget = renderer.getRenderTarget(); + const currentTexture = colorNode.value; + + quadMesh$1.material = this._material; + + this.setSize( map.image.width, map.image.height ); + + // render + + renderer.setRenderTarget( this._renderTarget ); + + quadMesh$1.render( renderer ); + + // restore + + renderer.setRenderTarget( currentRenderTarget ); + colorNode.value = currentTexture; + + } + + setup( builder ) { + + const colorNode = this.colorNode; + + const pattern = tslFn( () => { + + const s = sin( this.angle ); + const c = cos( this.angle ); + + const tex = uv().mul( this._size ).sub( this.center ); + const point = vec2( c.mul( tex.x ).sub( s.mul( tex.y ) ), s.mul( tex.x ).add( c.mul( tex.y ) ) ).mul( this.scale ); + + return sin( point.x ).mul( sin( point.y ) ).mul( 4 ); + + } ); + + const dotScreen = tslFn( () => { + + const color = colorNode; + + const average = add( color.r, color.g, color.b ).div( 3 ); + + return vec4( vec3( average.mul( 10 ).sub( 5 ).add( pattern() ) ), color.a ); + + } ); + + // + + const material = this._material || ( this._material = builder.createNodeMaterial() ); + material.fragmentNode = dotScreen(); + + // + + const properties = builder.getNodeProperties( this ); + properties.textureNode = colorNode; + + // + + return this._textureNode; + + } + +} + +const dotScreen = ( node, center, angle, scale ) => nodeObject( new DotScreenNode( nodeObject( node ), center, angle, scale ) ); + +addNodeElement( 'dotScreen', dotScreen ); + +class RGBShiftNode extends TempNode { + + constructor( textureNode, amount = 0.005, angle = 0 ) { + + super( 'vec4' ); + + this.textureNode = textureNode; + this.amount = uniform( amount ); + this.angle = uniform( angle ); + + this.updateBeforeType = NodeUpdateType.RENDER; + + } + + updateBefore() { + + } + + setup() { + + const { textureNode } = this; + + const uvNode = textureNode.uvNode || uv(); + + const sampleTexture = ( uv ) => this.textureNode.uv( uv ); + + const rgbShift = tslFn( () => { + + const offset = vec2( cos( this.angle ), sin( this.angle ) ).mul( this.amount ); + const cr = sampleTexture( uvNode.add( offset ) ); + const cga = sampleTexture( uvNode ); + const cb = sampleTexture( uvNode.sub( offset ) ); + + return vec4( cr.r, cga.g, cb.b, cga.a ); + + } ); + + return rgbShift(); + + } + +} + +const rgbShift = ( node, amount, angle ) => nodeObject( new RGBShiftNode( nodeObject( node ), amount, angle ) ); + +addNodeElement( 'rgbShift', rgbShift ); + +class FunctionCallNode extends TempNode { + + constructor( functionNode = null, parameters = {} ) { + + super(); + + this.functionNode = functionNode; + this.parameters = parameters; + + } + + setParameters( parameters ) { + + this.parameters = parameters; + + return this; + + } + + getParameters() { + + return this.parameters; + + } + + getNodeType( builder ) { + + return this.functionNode.getNodeType( builder ); + + } + + generate( builder ) { + + const params = []; + + const functionNode = this.functionNode; + + const inputs = functionNode.getInputs( builder ); + const parameters = this.parameters; + + if ( Array.isArray( parameters ) ) { + + for ( let i = 0; i < parameters.length; i ++ ) { + + const inputNode = inputs[ i ]; + const node = parameters[ i ]; + + params.push( node.build( builder, inputNode.type ) ); + + } + + } else { + + for ( const inputNode of inputs ) { + + const node = parameters[ inputNode.name ]; + + if ( node !== undefined ) { + + params.push( node.build( builder, inputNode.type ) ); + + } else { + + throw new Error( `FunctionCallNode: Input '${inputNode.name}' not found in FunctionNode.` ); + + } + + } + + } + + const functionName = functionNode.build( builder, 'property' ); + + return `${functionName}( ${params.join( ', ' )} )`; + + } + +} + +const call = ( func, ...params ) => { + + params = params.length > 1 || ( params[ 0 ] && params[ 0 ].isNode === true ) ? nodeArray( params ) : nodeObjects( params[ 0 ] ); + + return nodeObject( new FunctionCallNode( nodeObject( func ), params ) ); + +}; + +addNodeElement( 'call', call ); + +addNodeClass( 'FunctionCallNode', FunctionCallNode ); + +class ScriptableValueNode extends Node { + + constructor( value = null ) { + + super(); + + this._value = value; + this._cache = null; + + this.inputType = null; + this.outpuType = null; + + this.events = new EventDispatcher(); + + this.isScriptableValueNode = true; + + } + + get isScriptableOutputNode() { + + return this.outputType !== null; + + } + + set value( val ) { + + if ( this._value === val ) return; + + if ( this._cache && this.inputType === 'URL' && this.value.value instanceof ArrayBuffer ) { + + URL.revokeObjectURL( this._cache ); + + this._cache = null; + + } + + this._value = val; + + this.events.dispatchEvent( { type: 'change' } ); + + this.refresh(); + + } + + get value() { + + return this._value; + + } + + refresh() { + + this.events.dispatchEvent( { type: 'refresh' } ); + + } + + getValue() { + + const value = this.value; + + if ( value && this._cache === null && this.inputType === 'URL' && value.value instanceof ArrayBuffer ) { + + this._cache = URL.createObjectURL( new Blob( [ value.value ] ) ); + + } else if ( value && value.value !== null && value.value !== undefined && ( + ( ( this.inputType === 'URL' || this.inputType === 'String' ) && typeof value.value === 'string' ) || + ( this.inputType === 'Number' && typeof value.value === 'number' ) || + ( this.inputType === 'Vector2' && value.value.isVector2 ) || + ( this.inputType === 'Vector3' && value.value.isVector3 ) || + ( this.inputType === 'Vector4' && value.value.isVector4 ) || + ( this.inputType === 'Color' && value.value.isColor ) || + ( this.inputType === 'Matrix3' && value.value.isMatrix3 ) || + ( this.inputType === 'Matrix4' && value.value.isMatrix4 ) + ) ) { + + return value.value; + + } + + return this._cache || value; + + } + + getNodeType( builder ) { + + return this.value && this.value.isNode ? this.value.getNodeType( builder ) : 'float'; + + } + + setup() { + + return this.value && this.value.isNode ? this.value : float(); + + } + + serialize( data ) { + + super.serialize( data ); + + if ( this.value !== null ) { + + if ( this.inputType === 'ArrayBuffer' ) { + + data.value = arrayBufferToBase64( this.value ); + + } else { + + data.value = this.value ? this.value.toJSON( data.meta ).uuid : null; + + } + + } else { + + data.value = null; + + } + + data.inputType = this.inputType; + data.outputType = this.outputType; + + } + + deserialize( data ) { + + super.deserialize( data ); + + let value = null; + + if ( data.value !== null ) { + + if ( data.inputType === 'ArrayBuffer' ) { + + value = base64ToArrayBuffer( data.value ); + + } else if ( data.inputType === 'Texture' ) { + + value = data.meta.textures[ data.value ]; + + } else { + + value = data.meta.nodes[ data.value ] || null; + + } + + } + + this.value = value; + + this.inputType = data.inputType; + this.outputType = data.outputType; + + } + +} + +const scriptableValue = nodeProxy( ScriptableValueNode ); + +addNodeElement( 'scriptableValue', scriptableValue ); + +addNodeClass( 'ScriptableValueNode', ScriptableValueNode ); + +class Resources extends Map { + + get( key, callback = null, ...params ) { + + if ( this.has( key ) ) return super.get( key ); + + if ( callback !== null ) { + + const value = callback( ...params ); + this.set( key, value ); + return value; + + } + + } + +} + +class Parameters { + + constructor( scriptableNode ) { + + this.scriptableNode = scriptableNode; + + } + + get parameters() { + + return this.scriptableNode.parameters; + + } + + get layout() { + + return this.scriptableNode.getLayout(); + + } + + getInputLayout( id ) { + + return this.scriptableNode.getInputLayout( id ); + + } + + get( name ) { + + const param = this.parameters[ name ]; + const value = param ? param.getValue() : null; + + return value; + + } + +} + +const global = new Resources(); + +class ScriptableNode extends Node { + + constructor( codeNode = null, parameters = {} ) { + + super(); + + this.codeNode = codeNode; + this.parameters = parameters; + + this._local = new Resources(); + this._output = scriptableValue(); + this._outputs = {}; + this._source = this.source; + this._method = null; + this._object = null; + this._value = null; + this._needsOutputUpdate = true; + + this.onRefresh = this.onRefresh.bind( this ); + + this.isScriptableNode = true; + + } + + get source() { + + return this.codeNode ? this.codeNode.code : ''; + + } + + setLocal( name, value ) { + + return this._local.set( name, value ); + + } + + getLocal( name ) { + + return this._local.get( name ); + + } + + onRefresh() { + + this._refresh(); + + } + + getInputLayout( id ) { + + for ( const element of this.getLayout() ) { + + if ( element.inputType && ( element.id === id || element.name === id ) ) { + + return element; + + } + + } + + } + + getOutputLayout( id ) { + + for ( const element of this.getLayout() ) { + + if ( element.outputType && ( element.id === id || element.name === id ) ) { + + return element; + + } + + } + + } + + setOutput( name, value ) { + + const outputs = this._outputs; + + if ( outputs[ name ] === undefined ) { + + outputs[ name ] = scriptableValue( value ); + + } else { + + outputs[ name ].value = value; + + } + + return this; + + } + + getOutput( name ) { + + return this._outputs[ name ]; + + } + + getParameter( name ) { + + return this.parameters[ name ]; + + } + + setParameter( name, value ) { + + const parameters = this.parameters; + + if ( value && value.isScriptableNode ) { + + this.deleteParameter( name ); + + parameters[ name ] = value; + parameters[ name ].getDefaultOutput().events.addEventListener( 'refresh', this.onRefresh ); + + } else if ( value && value.isScriptableValueNode ) { + + this.deleteParameter( name ); + + parameters[ name ] = value; + parameters[ name ].events.addEventListener( 'refresh', this.onRefresh ); + + } else if ( parameters[ name ] === undefined ) { + + parameters[ name ] = scriptableValue( value ); + parameters[ name ].events.addEventListener( 'refresh', this.onRefresh ); + + } else { + + parameters[ name ].value = value; + + } + + return this; + + } + + getValue() { + + return this.getDefaultOutput().getValue(); + + } + + deleteParameter( name ) { + + let valueNode = this.parameters[ name ]; + + if ( valueNode ) { + + if ( valueNode.isScriptableNode ) valueNode = valueNode.getDefaultOutput(); + + valueNode.events.removeEventListener( 'refresh', this.onRefresh ); + + } + + return this; + + } + + clearParameters() { + + for ( const name of Object.keys( this.parameters ) ) { + + this.deleteParameter( name ); + + } + + this.needsUpdate = true; + + return this; + + } + + call( name, ...params ) { + + const object = this.getObject(); + const method = object[ name ]; + + if ( typeof method === 'function' ) { + + return method( ...params ); + + } + + } + + async callAsync( name, ...params ) { + + const object = this.getObject(); + const method = object[ name ]; + + if ( typeof method === 'function' ) { + + return method.constructor.name === 'AsyncFunction' ? await method( ...params ) : method( ...params ); + + } + + } + + getNodeType( builder ) { + + return this.getDefaultOutputNode().getNodeType( builder ); + + } + + refresh( output = null ) { + + if ( output !== null ) { + + this.getOutput( output ).refresh(); + + } else { + + this._refresh(); + + } + + } + + getObject() { + + if ( this.needsUpdate ) this.dispose(); + if ( this._object !== null ) return this._object; + + // + + const refresh = () => this.refresh(); + const setOutput = ( id, value ) => this.setOutput( id, value ); + + const parameters = new Parameters( this ); + + const THREE = global.get( 'THREE' ); + const TSL = global.get( 'TSL' ); + + const method = this.getMethod( this.codeNode ); + const params = [ parameters, this._local, global, refresh, setOutput, THREE, TSL ]; + + this._object = method( ...params ); + + const layout = this._object.layout; + + if ( layout ) { + + if ( layout.cache === false ) { + + this._local.clear(); + + } + + // default output + this._output.outputType = layout.outputType || null; + + if ( Array.isArray( layout.elements ) ) { + + for ( const element of layout.elements ) { + + const id = element.id || element.name; + + if ( element.inputType ) { + + if ( this.getParameter( id ) === undefined ) this.setParameter( id, null ); + + this.getParameter( id ).inputType = element.inputType; + + } + + if ( element.outputType ) { + + if ( this.getOutput( id ) === undefined ) this.setOutput( id, null ); + + this.getOutput( id ).outputType = element.outputType; + + } + + } + + } + + } + + return this._object; + + } + + deserialize( data ) { + + super.deserialize( data ); + + for ( const name in this.parameters ) { + + let valueNode = this.parameters[ name ]; + + if ( valueNode.isScriptableNode ) valueNode = valueNode.getDefaultOutput(); + + valueNode.events.addEventListener( 'refresh', this.onRefresh ); + + } + + } + + getLayout() { + + return this.getObject().layout; + + } + + getDefaultOutputNode() { + + const output = this.getDefaultOutput().value; + + if ( output && output.isNode ) { + + return output; + + } + + return float(); + + } + + getDefaultOutput() { + + return this._exec()._output; + + } + + getMethod() { + + if ( this.needsUpdate ) this.dispose(); + if ( this._method !== null ) return this._method; + + // + + const parametersProps = [ 'parameters', 'local', 'global', 'refresh', 'setOutput', 'THREE', 'TSL' ]; + const interfaceProps = [ 'layout', 'init', 'main', 'dispose' ]; + + const properties = interfaceProps.join( ', ' ); + const declarations = 'var ' + properties + '; var output = {};\n'; + const returns = '\nreturn { ...output, ' + properties + ' };'; + + const code = declarations + this.codeNode.code + returns; + + // + + this._method = new Function( ...parametersProps, code ); + + return this._method; + + } + + dispose() { + + if ( this._method === null ) return; + + if ( this._object && typeof this._object.dispose === 'function' ) { + + this._object.dispose(); + + } + + this._method = null; + this._object = null; + this._source = null; + this._value = null; + this._needsOutputUpdate = true; + this._output.value = null; + this._outputs = {}; + + } + + setup() { + + return this.getDefaultOutputNode(); + + } + + set needsUpdate( value ) { + + if ( value === true ) this.dispose(); + + } + + get needsUpdate() { + + return this.source !== this._source; + + } + + _exec() { + + if ( this.codeNode === null ) return this; + + if ( this._needsOutputUpdate === true ) { + + this._value = this.call( 'main' ); + + this._needsOutputUpdate = false; + + } + + this._output.value = this._value; + + return this; + + } + + _refresh() { + + this.needsUpdate = true; + + this._exec(); + + this._output.refresh(); + + } + +} + +const scriptable = nodeProxy( ScriptableNode ); + +addNodeElement( 'scriptable', scriptable ); + +addNodeClass( 'ScriptableNode', ScriptableNode ); + +class FogNode extends Node { + + constructor( colorNode, factorNode ) { + + super( 'float' ); + + this.isFogNode = true; + + this.colorNode = colorNode; + this.factorNode = factorNode; + + } + + getViewZNode( builder ) { + + let viewZ; + + const getViewZ = builder.context.getViewZ; + + if ( getViewZ !== undefined ) { + + viewZ = getViewZ( this ); + + } + + return ( viewZ || positionView.z ).negate(); + + } + + setup() { + + return this.factorNode; + + } + +} + +const fog = nodeProxy( FogNode ); + +addNodeElement( 'fog', fog ); + +addNodeClass( 'FogNode', FogNode ); + +class FogRangeNode extends FogNode { + + constructor( colorNode, nearNode, farNode ) { + + super( colorNode ); + + this.isFogRangeNode = true; + + this.nearNode = nearNode; + this.farNode = farNode; + + } + + setup( builder ) { + + const viewZ = this.getViewZNode( builder ); + + return smoothstep( this.nearNode, this.farNode, viewZ ); + + } + +} + +const rangeFog = nodeProxy( FogRangeNode ); + +addNodeElement( 'rangeFog', rangeFog ); + +addNodeClass( 'FogRangeNode', FogRangeNode ); + +class FogExp2Node extends FogNode { + + constructor( colorNode, densityNode ) { + + super( colorNode ); + + this.isFogExp2Node = true; + + this.densityNode = densityNode; + + } + + setup( builder ) { + + const viewZ = this.getViewZNode( builder ); + const density = this.densityNode; + + return density.mul( density, viewZ, viewZ ).negate().exp().oneMinus(); + + } + +} + +const densityFog = nodeProxy( FogExp2Node ); + +addNodeElement( 'densityFog', densityFog ); + +addNodeClass( 'FogExp2Node', FogExp2Node ); + +let min = null; +let max = null; + +class RangeNode extends Node { + + constructor( minNode = float(), maxNode = float() ) { + + super(); + + this.minNode = minNode; + this.maxNode = maxNode; + + } + + getVectorLength( builder ) { + + const minLength = builder.getTypeLength( getValueType( this.minNode.value ) ); + const maxLength = builder.getTypeLength( getValueType( this.maxNode.value ) ); + + return minLength > maxLength ? minLength : maxLength; + + } + + getNodeType( builder ) { + + return builder.object.count > 1 ? builder.getTypeFromLength( this.getVectorLength( builder ) ) : 'float'; + + } + + setup( builder ) { + + const object = builder.object; + + let output = null; + + if ( object.count > 1 ) { + + const minValue = this.minNode.value; + const maxValue = this.maxNode.value; + + const minLength = builder.getTypeLength( getValueType( minValue ) ); + const maxLength = builder.getTypeLength( getValueType( maxValue ) ); + + min = min || new Vector4(); + max = max || new Vector4(); + + min.setScalar( 0 ); + max.setScalar( 0 ); + + if ( minLength === 1 ) min.setScalar( minValue ); + else if ( minValue.isColor ) min.set( minValue.r, minValue.g, minValue.b ); + else min.set( minValue.x, minValue.y, minValue.z || 0, minValue.w || 0 ); + + if ( maxLength === 1 ) max.setScalar( maxValue ); + else if ( maxValue.isColor ) max.set( maxValue.r, maxValue.g, maxValue.b ); + else max.set( maxValue.x, maxValue.y, maxValue.z || 0, maxValue.w || 0 ); + + const stride = 4; + + const length = stride * object.count; + const array = new Float32Array( length ); + + for ( let i = 0; i < length; i ++ ) { + + const index = i % stride; + + const minElementValue = min.getComponent( index ); + const maxElementValue = max.getComponent( index ); + + array[ i ] = MathUtils.lerp( minElementValue, maxElementValue, Math.random() ); + + } + + const nodeType = this.getNodeType( builder ); + + if ( object.count <= 4096 ) { + + output = buffer( array, 'vec4', object.count ).element( instanceIndex ).convert( nodeType ); + + } else { + + // TODO: Improve anonymous buffer attribute creation removing this part + const bufferAttribute = new InstancedBufferAttribute( array, 4 ); + builder.geometry.setAttribute( '__range' + this.id, bufferAttribute ); + + output = instancedBufferAttribute( bufferAttribute ).convert( nodeType ); + + } + + } else { + + output = float( 0 ); + + } + + return output; + + } + +} + +const range = nodeProxy( RangeNode ); + +addNodeClass( 'RangeNode', RangeNode ); + +class ComputeNode extends Node { + + constructor( computeNode, count, workgroupSize = [ 64 ] ) { + + super( 'void' ); + + this.isComputeNode = true; + + this.computeNode = computeNode; + + this.count = count; + this.workgroupSize = workgroupSize; + this.dispatchCount = 0; + + this.version = 1; + this.updateBeforeType = NodeUpdateType.OBJECT; + + this.updateDispatchCount(); + + } + + dispose() { + + this.dispatchEvent( { type: 'dispose' } ); + + } + + set needsUpdate( value ) { + + if ( value === true ) this.version ++; + + } + + updateDispatchCount() { + + const { count, workgroupSize } = this; + + let size = workgroupSize[ 0 ]; + + for ( let i = 1; i < workgroupSize.length; i ++ ) + size *= workgroupSize[ i ]; + + this.dispatchCount = Math.ceil( count / size ); + + } + + onInit() { } + + updateBefore( { renderer } ) { + + renderer.compute( this ); + + } + + generate( builder ) { + + const { shaderStage } = builder; + + if ( shaderStage === 'compute' ) { + + const snippet = this.computeNode.build( builder, 'void' ); + + if ( snippet !== '' ) { + + builder.addLineFlowCode( snippet ); + + } + + } + + } + +} + +const compute = ( node, count, workgroupSize ) => nodeObject( new ComputeNode( nodeObject( node ), count, workgroupSize ) ); + +addNodeElement( 'compute', compute ); + +addNodeClass( 'ComputeNode', ComputeNode ); + +class LightNode extends Node { + + constructor( scope = LightNode.TARGET_DIRECTION, light = null ) { + + super(); + + this.scope = scope; + this.light = light; + + } + + setup() { + + const { scope, light } = this; + + let output = null; + + if ( scope === LightNode.TARGET_DIRECTION ) { + + output = cameraViewMatrix.transformDirection( objectPosition( light ).sub( objectPosition( light.target ) ) ); + + } + + return output; + + } + + serialize( data ) { + + super.serialize( data ); + + data.scope = this.scope; + + } + + deserialize( data ) { + + super.deserialize( data ); + + this.scope = data.scope; + + } + +} + +LightNode.TARGET_DIRECTION = 'targetDirection'; + +const lightTargetDirection = nodeProxy( LightNode, LightNode.TARGET_DIRECTION ); + +addNodeClass( 'LightNode', LightNode ); + +const getDistanceAttenuation = tslFn( ( inputs ) => { + + const { lightDistance, cutoffDistance, decayExponent } = inputs; + + // based upon Frostbite 3 Moving to Physically-based Rendering + // page 32, equation 26: E[window1] + // https://seblagarde.files.wordpress.com/2015/07/course_notes_moving_frostbite_to_pbr_v32.pdf + const distanceFalloff = lightDistance.pow( decayExponent ).max( 0.01 ).reciprocal(); + + return cutoffDistance.greaterThan( 0 ).cond( + distanceFalloff.mul( lightDistance.div( cutoffDistance ).pow4().oneMinus().clamp().pow2() ), + distanceFalloff + ); + +} ); // validated + +class PointLightNode extends AnalyticLightNode { + + constructor( light = null ) { + + super( light ); + + this.cutoffDistanceNode = uniform( 0 ); + this.decayExponentNode = uniform( 0 ); + + } + + update( frame ) { + + const { light } = this; + + super.update( frame ); + + this.cutoffDistanceNode.value = light.distance; + this.decayExponentNode.value = light.decay; + + } + + setup( builder ) { + + const { colorNode, cutoffDistanceNode, decayExponentNode, light } = this; + + const lightingModel = builder.context.lightingModel; + + const lVector = objectViewPosition( light ).sub( positionView ); // @TODO: Add it into LightNode + + const lightDirection = lVector.normalize(); + const lightDistance = lVector.length(); + + const lightAttenuation = getDistanceAttenuation( { + lightDistance, + cutoffDistance: cutoffDistanceNode, + decayExponent: decayExponentNode + } ); + + const lightColor = colorNode.mul( lightAttenuation ); + + const reflectedLight = builder.context.reflectedLight; + + lightingModel.direct( { + lightDirection, + lightColor, + reflectedLight, + shadowMask: this.shadowMaskNode + }, builder.stack, builder ); + + } + +} + +addNodeClass( 'PointLightNode', PointLightNode ); + +addLightNode( PointLight, PointLightNode ); + +class DirectionalLightNode extends AnalyticLightNode { + + constructor( light = null ) { + + super( light ); + + } + + setup( builder ) { + + super.setup( builder ); + + const lightingModel = builder.context.lightingModel; + + const lightColor = this.colorNode; + const lightDirection = lightTargetDirection( this.light ); + const reflectedLight = builder.context.reflectedLight; + + lightingModel.direct( { + lightDirection, + lightColor, + reflectedLight, + shadowMask: this.shadowMaskNode + }, builder.stack, builder ); + + } + +} + +addNodeClass( 'DirectionalLightNode', DirectionalLightNode ); + +addLightNode( DirectionalLight, DirectionalLightNode ); + +const _matrix41 = new Matrix4(); +const _matrix42 = new Matrix4(); + +let ltcLib = null; + +class RectAreaLightNode extends AnalyticLightNode { + + constructor( light = null ) { + + super( light ); + + this.halfHeight = uniform( new Vector3() ); + this.halfWidth = uniform( new Vector3() ); + + } + + update( frame ) { + + super.update( frame ); + + const { light } = this; + + const viewMatrix = frame.camera.matrixWorldInverse; + + _matrix42.identity(); + _matrix41.copy( light.matrixWorld ); + _matrix41.premultiply( viewMatrix ); + _matrix42.extractRotation( _matrix41 ); + + this.halfWidth.value.set( light.width * 0.5, 0.0, 0.0 ); + this.halfHeight.value.set( 0.0, light.height * 0.5, 0.0 ); + + this.halfWidth.value.applyMatrix4( _matrix42 ); + this.halfHeight.value.applyMatrix4( _matrix42 ); + + } + + setup( builder ) { + + super.setup( builder ); + + let ltc_1, ltc_2; + + if ( builder.isAvailable( 'float32Filterable' ) ) { + + ltc_1 = texture( ltcLib.LTC_FLOAT_1 ); + ltc_2 = texture( ltcLib.LTC_FLOAT_2 ); + + } else { + + ltc_1 = texture( ltcLib.LTC_HALF_1 ); + ltc_2 = texture( ltcLib.LTC_HALF_2 ); + + } + + const { colorNode, light } = this; + const lightingModel = builder.context.lightingModel; + + const lightPosition = objectViewPosition( light ); + const reflectedLight = builder.context.reflectedLight; + + lightingModel.directRectArea( { + lightColor: colorNode, + lightPosition, + halfWidth: this.halfWidth, + halfHeight: this.halfHeight, + reflectedLight, + ltc_1, + ltc_2 + }, builder.stack, builder ); + + } + + static setLTC( ltc ) { + + ltcLib = ltc; + + } + +} + +addNodeClass( 'RectAreaLightNode', RectAreaLightNode ); + +addLightNode( RectAreaLight, RectAreaLightNode ); + +class SpotLightNode extends AnalyticLightNode { + + constructor( light = null ) { + + super( light ); + + this.coneCosNode = uniform( 0 ); + this.penumbraCosNode = uniform( 0 ); + + this.cutoffDistanceNode = uniform( 0 ); + this.decayExponentNode = uniform( 0 ); + + } + + update( frame ) { + + super.update( frame ); + + const { light } = this; + + this.coneCosNode.value = Math.cos( light.angle ); + this.penumbraCosNode.value = Math.cos( light.angle * ( 1 - light.penumbra ) ); + + this.cutoffDistanceNode.value = light.distance; + this.decayExponentNode.value = light.decay; + + } + + getSpotAttenuation( angleCosine ) { + + const { coneCosNode, penumbraCosNode } = this; + + return smoothstep( coneCosNode, penumbraCosNode, angleCosine ); + + } + + setup( builder ) { + + super.setup( builder ); + + const lightingModel = builder.context.lightingModel; + + const { colorNode, cutoffDistanceNode, decayExponentNode, light } = this; + + const lVector = objectViewPosition( light ).sub( positionView ); // @TODO: Add it into LightNode + + const lightDirection = lVector.normalize(); + const angleCos = lightDirection.dot( lightTargetDirection( light ) ); + const spotAttenuation = this.getSpotAttenuation( angleCos ); + + const lightDistance = lVector.length(); + + const lightAttenuation = getDistanceAttenuation( { + lightDistance, + cutoffDistance: cutoffDistanceNode, + decayExponent: decayExponentNode + } ); + + const lightColor = colorNode.mul( spotAttenuation ).mul( lightAttenuation ); + + const reflectedLight = builder.context.reflectedLight; + + lightingModel.direct( { + lightDirection, + lightColor, + reflectedLight, + shadowMask: this.shadowMaskNode + }, builder.stack, builder ); + + } + +} + +addNodeClass( 'SpotLightNode', SpotLightNode ); + +addLightNode( SpotLight, SpotLightNode ); + +class IESSpotLight extends SpotLight { + + constructor( color, intensity, distance, angle, penumbra, decay ) { + + super( color, intensity, distance, angle, penumbra, decay ); + + this.iesMap = null; + + } + + copy( source, recursive ) { + + super.copy( source, recursive ); + + this.iesMap = source.iesMap; + + return this; + + } + +} + +class IESSpotLightNode extends SpotLightNode { + + getSpotAttenuation( angleCosine ) { + + const iesMap = this.light.iesMap; + + let spotAttenuation = null; + + if ( iesMap && iesMap.isTexture === true ) { + + const angle = angleCosine.acos().mul( 1.0 / Math.PI ); + + spotAttenuation = texture( iesMap, vec2( angle, 0 ), 0 ).r; + + } else { + + spotAttenuation = super.getSpotAttenuation( angleCosine ); + + } + + return spotAttenuation; + + } + +} + +addNodeClass( 'IESSpotLightNode', IESSpotLightNode ); + +addLightNode( IESSpotLight, IESSpotLightNode ); + +class AmbientLightNode extends AnalyticLightNode { + + constructor( light = null ) { + + super( light ); + + } + + setup( { context } ) { + + context.irradiance.addAssign( this.colorNode ); + + } + +} + +addNodeClass( 'AmbientLightNode', AmbientLightNode ); + +addLightNode( AmbientLight, AmbientLightNode ); + +class HemisphereLightNode extends AnalyticLightNode { + + constructor( light = null ) { + + super( light ); + + this.lightPositionNode = objectPosition( light ); + this.lightDirectionNode = this.lightPositionNode.normalize(); + + this.groundColorNode = uniform( new Color() ); + + } + + update( frame ) { + + const { light } = this; + + super.update( frame ); + + this.lightPositionNode.object3d = light; + + this.groundColorNode.value.copy( light.groundColor ).multiplyScalar( light.intensity ); + + } + + setup( builder ) { + + const { colorNode, groundColorNode, lightDirectionNode } = this; + + const dotNL = normalView.dot( lightDirectionNode ); + const hemiDiffuseWeight = dotNL.mul( 0.5 ).add( 0.5 ); + + const irradiance = mix( groundColorNode, colorNode, hemiDiffuseWeight ); + + builder.context.irradiance.addAssign( irradiance ); + + } + +} + +addNodeClass( 'HemisphereLightNode', HemisphereLightNode ); + +addLightNode( HemisphereLight, HemisphereLightNode ); + +const checkerShaderNode = tslFn( ( inputs ) => { + + const uv = inputs.uv.mul( 2.0 ); + + const cx = uv.x.floor(); + const cy = uv.y.floor(); + const result = cx.add( cy ).mod( 2.0 ); + + return result.sign(); + +} ); + +class CheckerNode extends TempNode { + + constructor( uvNode = uv() ) { + + super( 'float' ); + + this.uvNode = uvNode; + + } + + setup() { + + return checkerShaderNode( { uv: this.uvNode } ); + + } + +} + +const checker = nodeProxy( CheckerNode ); + +addNodeElement( 'checker', checker ); + +addNodeClass( 'CheckerNode', CheckerNode ); + +class NodeLoader extends Loader { + + constructor( manager ) { + + super( manager ); + + this.textures = {}; + + } + + load( url, onLoad, onProgress, onError ) { + + const loader = new FileLoader( this.manager ); + loader.setPath( this.path ); + loader.setRequestHeader( this.requestHeader ); + loader.setWithCredentials( this.withCredentials ); + loader.load( url, ( text ) => { + + try { + + onLoad( this.parse( JSON.parse( text ) ) ); + + } catch ( e ) { + + if ( onError ) { + + onError( e ); + + } else { + + console.error( e ); + + } + + this.manager.itemError( url ); + + } + + }, onProgress, onError ); + + } + + parseNodes( json ) { + + const nodes = {}; + + if ( json !== undefined ) { + + for ( const nodeJSON of json ) { + + const { uuid, type } = nodeJSON; + + nodes[ uuid ] = nodeObject( createNodeFromType( type ) ); // @TODO: Maybe nodeObjectify the node in createNodeFromType? + nodes[ uuid ].uuid = uuid; + + } + + const meta = { nodes, textures: this.textures }; + + for ( const nodeJSON of json ) { + + nodeJSON.meta = meta; + + const node = nodes[ nodeJSON.uuid ]; + node.deserialize( nodeJSON ); + + delete nodeJSON.meta; + + } + + } + + return nodes; + + } + + parse( json ) { + + const node = nodeObject( createNodeFromType( json.type ) ); + node.uuid = json.uuid; + + const nodes = this.parseNodes( json.nodes ); + const meta = { nodes, textures: this.textures }; + + json.meta = meta; + + node.deserialize( json ); + + delete json.meta; + + return node; + + } + + setTextures( value ) { + + this.textures = value; + return this; + + } + +} + +const defaultValues$e = new PointsMaterial(); + +class InstancedPointsNodeMaterial extends NodeMaterial { + + constructor( params = {} ) { + + super(); + + this.normals = false; + + this.lights = false; + + this.useAlphaToCoverage = true; + + this.useColor = params.vertexColors; + + this.pointWidth = 1; + + this.pointColorNode = null; + + this.setDefaultValues( defaultValues$e ); + + this.setupShaders(); + + this.setValues( params ); + + } + + setupShaders() { + + const useAlphaToCoverage = this.alphaToCoverage; + const useColor = this.useColor; + + this.vertexNode = tslFn( () => { + + //vUv = uv; + varying( vec2(), 'vUv' ).assign( uv() ); // @TODO: Analyze other way to do this + + const instancePosition = attribute( 'instancePosition' ); + + // camera space + const mvPos = property( 'vec4', 'mvPos' ); + mvPos.assign( modelViewMatrix.mul( vec4( instancePosition, 1.0 ) ) ); + + const aspect = viewport.z.div( viewport.w ); + + // clip space + const clipPos = cameraProjectionMatrix.mul( mvPos ); + + // offset in ndc space + const offset = property( 'vec2', 'offset' ); + offset.assign( positionGeometry.xy ); + offset.assign( offset.mul( materialPointWidth ) ); + offset.assign( offset.div( viewport.z ) ); + offset.y.assign( offset.y.mul( aspect ) ); + + // back to clip space + offset.assign( offset.mul( clipPos.w ) ); + + //clipPos.xy += offset; + clipPos.assign( clipPos.add( vec4( offset, 0, 0 ) ) ); + + return clipPos; + + //vec4 mvPosition = mvPos; // this was used for somethihng... + + } )(); + + this.fragmentNode = tslFn( () => { + + const vUv = varying( vec2(), 'vUv' ); + + // force assignment into correct place in flow + const alpha = property( 'float', 'alpha' ); + alpha.assign( 1 ); + + const a = vUv.x; + const b = vUv.y; + + const len2 = a.mul( a ).add( b.mul( b ) ); + + if ( useAlphaToCoverage ) { + + // force assignment out of following 'if' statement - to avoid uniform control flow errors + const dlen = property( 'float', 'dlen' ); + dlen.assign( len2.fwidth() ); + + alpha.assign( smoothstep( dlen.oneMinus(), dlen.add( 1 ), len2 ).oneMinus() ); + + } else { + + len2.greaterThan( 1.0 ).discard(); + + } + + let pointColorNode; + + if ( this.pointColorNode ) { + + pointColorNode = this.pointColorNode; + + } else { + + if ( useColor ) { + + const instanceColor = attribute( 'instanceColor' ); + + pointColorNode = instanceColor.mul( materialColor ); + + } else { + + pointColorNode = materialColor; + + } + + } + + return vec4( pointColorNode, alpha ); + + } )(); + + this.needsUpdate = true; + + } + + get alphaToCoverage() { + + return this.useAlphaToCoverage; + + } + + set alphaToCoverage( value ) { + + if ( this.useAlphaToCoverage !== value ) { + + this.useAlphaToCoverage = value; + this.setupShaders(); + + } + + } + +} + +addNodeMaterial( 'InstancedPointsNodeMaterial', InstancedPointsNodeMaterial ); + +const defaultValues$d = new LineBasicMaterial(); + +class LineBasicNodeMaterial extends NodeMaterial { + + constructor( parameters ) { + + super(); + + this.isLineBasicNodeMaterial = true; + + this.lights = false; + this.normals = false; + + this.setDefaultValues( defaultValues$d ); + + this.setValues( parameters ); + + } + +} + +addNodeMaterial( 'LineBasicNodeMaterial', LineBasicNodeMaterial ); + +const defaultValues$c = new LineDashedMaterial(); + +class LineDashedNodeMaterial extends NodeMaterial { + + constructor( parameters ) { + + super(); + + this.isLineDashedNodeMaterial = true; + + this.lights = false; + this.normals = false; + + this.setDefaultValues( defaultValues$c ); + + this.offsetNode = null; + this.dashScaleNode = null; + this.dashSizeNode = null; + this.gapSizeNode = null; + + this.setValues( parameters ); + + } + + setupVariants() { + + const offsetNode = this.offsetNode; + const dashScaleNode = this.dashScaleNode ? float( this.dashScaleNode ) : materialLineScale; + const dashSizeNode = this.dashSizeNode ? float( this.dashSizeNode ) : materialLineDashSize; + const gapSizeNode = this.dashSizeNode ? float( this.dashGapNode ) : materialLineGapSize; + + dashSize.assign( dashSizeNode ); + gapSize.assign( gapSizeNode ); + + const vLineDistance = varying( attribute( 'lineDistance' ).mul( dashScaleNode ) ); + const vLineDistanceOffset = offsetNode ? vLineDistance.add( offsetNode ) : vLineDistance; + + vLineDistanceOffset.mod( dashSize.add( gapSize ) ).greaterThan( dashSize ).discard(); + + } + +} + +addNodeMaterial( 'LineDashedNodeMaterial', LineDashedNodeMaterial ); + +const defaultValues$b = new LineDashedMaterial(); + +class Line2NodeMaterial extends NodeMaterial { + + constructor( params = {} ) { + + super(); + + this.normals = false; + this.lights = false; + + this.setDefaultValues( defaultValues$b ); + + this.useAlphaToCoverage = true; + this.useColor = params.vertexColors; + this.useDash = params.dashed; + this.useWorldUnits = false; + + this.dashOffset = 0; + this.lineWidth = 1; + + this.lineColorNode = null; + + this.offsetNode = null; + this.dashScaleNode = null; + this.dashSizeNode = null; + this.gapSizeNode = null; + + this.setValues( params ); + + } + + setup( builder ) { + + this.setupShaders(); + + super.setup( builder ); + + } + + setupShaders() { + + const useAlphaToCoverage = this.alphaToCoverage; + const useColor = this.useColor; + const useDash = this.dashed; + const useWorldUnits = this.worldUnits; + + const trimSegment = tslFn( ( { start, end } ) => { + + const a = cameraProjectionMatrix.element( 2 ).element( 2 ); // 3nd entry in 3th column + const b = cameraProjectionMatrix.element( 3 ).element( 2 ); // 3nd entry in 4th column + const nearEstimate = b.mul( - 0.5 ).div( a ); + + const alpha = nearEstimate.sub( start.z ).div( end.z.sub( start.z ) ); + + return vec4( mix( start.xyz, end.xyz, alpha ), end.w ); + + } ); + + this.vertexNode = tslFn( () => { + + varyingProperty( 'vec2', 'vUv' ).assign( uv() ); + + const instanceStart = attribute( 'instanceStart' ); + const instanceEnd = attribute( 'instanceEnd' ); + + // camera space + + const start = property( 'vec4', 'start' ); + const end = property( 'vec4', 'end' ); + + start.assign( modelViewMatrix.mul( vec4( instanceStart, 1.0 ) ) ); // force assignment into correct place in flow + end.assign( modelViewMatrix.mul( vec4( instanceEnd, 1.0 ) ) ); + + if ( useWorldUnits ) { + + varyingProperty( 'vec3', 'worldStart' ).assign( start.xyz ); + varyingProperty( 'vec3', 'worldEnd' ).assign( end.xyz ); + + } + + const aspect = viewport.z.div( viewport.w ); + + // special case for perspective projection, and segments that terminate either in, or behind, the camera plane + // clearly the gpu firmware has a way of addressing this issue when projecting into ndc space + // but we need to perform ndc-space calculations in the shader, so we must address this issue directly + // perhaps there is a more elegant solution -- WestLangley + + const perspective = cameraProjectionMatrix.element( 2 ).element( 3 ).equal( - 1.0 ); // 4th entry in the 3rd column + + If( perspective, () => { + + If( start.z.lessThan( 0.0 ).and( end.z.greaterThan( 0.0 ) ), () => { + + end.assign( trimSegment( { start: start, end: end } ) ); + + } ).elseif( end.z.lessThan( 0.0 ).and( start.z.greaterThanEqual( 0.0 ) ), () => { + + start.assign( trimSegment( { start: end, end: start } ) ); + + } ); + + } ); + + // clip space + const clipStart = cameraProjectionMatrix.mul( start ); + const clipEnd = cameraProjectionMatrix.mul( end ); + + // ndc space + const ndcStart = clipStart.xyz.div( clipStart.w ); + const ndcEnd = clipEnd.xyz.div( clipEnd.w ); + + // direction + const dir = ndcEnd.xy.sub( ndcStart.xy ).temp(); + + // account for clip-space aspect ratio + dir.x.assign( dir.x.mul( aspect ) ); + dir.assign( dir.normalize() ); + + const clip = temp( vec4() ); + + if ( useWorldUnits ) { + + // get the offset direction as perpendicular to the view vector + + const worldDir = end.xyz.sub( start.xyz ).normalize(); + const tmpFwd = mix( start.xyz, end.xyz, 0.5 ).normalize(); + const worldUp = worldDir.cross( tmpFwd ).normalize(); + const worldFwd = worldDir.cross( worldUp ); + + const worldPos = varyingProperty( 'vec4', 'worldPos' ); + + worldPos.assign( positionGeometry.y.lessThan( 0.5 ).cond( start, end ) ); + + // height offset + const hw = materialLineWidth.mul( 0.5 ); + worldPos.addAssign( vec4( positionGeometry.x.lessThan( 0.0 ).cond( worldUp.mul( hw ), worldUp.mul( hw ).negate() ), 0 ) ); + + // don't extend the line if we're rendering dashes because we + // won't be rendering the endcaps + if ( ! useDash ) { + + // cap extension + worldPos.addAssign( vec4( positionGeometry.y.lessThan( 0.5 ).cond( worldDir.mul( hw ).negate(), worldDir.mul( hw ) ), 0 ) ); + + // add width to the box + worldPos.addAssign( vec4( worldFwd.mul( hw ), 0 ) ); + + // endcaps + If( positionGeometry.y.greaterThan( 1.0 ).or( positionGeometry.y.lessThan( 0.0 ) ), () => { + + worldPos.subAssign( vec4( worldFwd.mul( 2.0 ).mul( hw ), 0 ) ); + + } ); + + } + + // project the worldpos + clip.assign( cameraProjectionMatrix.mul( worldPos ) ); + + // shift the depth of the projected points so the line + // segments overlap neatly + const clipPose = temp( vec3() ); + + clipPose.assign( positionGeometry.y.lessThan( 0.5 ).cond( ndcStart, ndcEnd ) ); + clip.z.assign( clipPose.z.mul( clip.w ) ); + + } else { + + const offset = property( 'vec2', 'offset' ); + + offset.assign( vec2( dir.y, dir.x.negate() ) ); + + // undo aspect ratio adjustment + dir.x.assign( dir.x.div( aspect ) ); + offset.x.assign( offset.x.div( aspect ) ); + + // sign flip + offset.assign( positionGeometry.x.lessThan( 0.0 ).cond( offset.negate(), offset ) ); + + // endcaps + If( positionGeometry.y.lessThan( 0.0 ), () => { + + offset.assign( offset.sub( dir ) ); + + } ).elseif( positionGeometry.y.greaterThan( 1.0 ), () => { + + offset.assign( offset.add( dir ) ); + + } ); + + // adjust for linewidth + offset.assign( offset.mul( materialLineWidth ) ); + + // adjust for clip-space to screen-space conversion // maybe resolution should be based on viewport ... + offset.assign( offset.div( viewport.w ) ); + + // select end + clip.assign( positionGeometry.y.lessThan( 0.5 ).cond( clipStart, clipEnd ) ); + + // back to clip space + offset.assign( offset.mul( clip.w ) ); + + clip.assign( clip.add( vec4( offset, 0, 0 ) ) ); + + } + + return clip; + + } )(); + + const closestLineToLine = tslFn( ( { p1, p2, p3, p4 } ) => { + + const p13 = p1.sub( p3 ); + const p43 = p4.sub( p3 ); + + const p21 = p2.sub( p1 ); + + const d1343 = p13.dot( p43 ); + const d4321 = p43.dot( p21 ); + const d1321 = p13.dot( p21 ); + const d4343 = p43.dot( p43 ); + const d2121 = p21.dot( p21 ); + + const denom = d2121.mul( d4343 ).sub( d4321.mul( d4321 ) ); + const numer = d1343.mul( d4321 ).sub( d1321.mul( d4343 ) ); + + const mua = numer.div( denom ).clamp(); + const mub = d1343.add( d4321.mul( mua ) ).div( d4343 ).clamp(); + + return vec2( mua, mub ); + + } ); + + this.fragmentNode = tslFn( () => { + + const vUv = varyingProperty( 'vec2', 'vUv' ); + + if ( useDash ) { + + const offsetNode = this.offsetNode ? float( this.offsetNodeNode ) : materialLineDashOffset; + const dashScaleNode = this.dashScaleNode ? float( this.dashScaleNode ) : materialLineScale; + const dashSizeNode = this.dashSizeNode ? float( this.dashSizeNode ) : materialLineDashSize; + const gapSizeNode = this.dashSizeNode ? float( this.dashGapNode ) : materialLineGapSize; + + dashSize.assign( dashSizeNode ); + gapSize.assign( gapSizeNode ); + + const instanceDistanceStart = attribute( 'instanceDistanceStart' ); + const instanceDistanceEnd = attribute( 'instanceDistanceEnd' ); + + const lineDistance = positionGeometry.y.lessThan( 0.5 ).cond( dashScaleNode.mul( instanceDistanceStart ), materialLineScale.mul( instanceDistanceEnd ) ); + + const vLineDistance = varying( lineDistance.add( materialLineDashOffset ) ); + const vLineDistanceOffset = offsetNode ? vLineDistance.add( offsetNode ) : vLineDistance; + + vUv.y.lessThan( - 1.0 ).or( vUv.y.greaterThan( 1.0 ) ).discard(); // discard endcaps + vLineDistanceOffset.mod( dashSize.add( gapSize ) ).greaterThan( dashSize ).discard(); // todo - FIX + + } + + // force assignment into correct place in flow + const alpha = property( 'float', 'alpha' ); + alpha.assign( 1 ); + + if ( useWorldUnits ) { + + const worldStart = varyingProperty( 'vec3', 'worldStart' ); + const worldEnd = varyingProperty( 'vec3', 'worldEnd' ); + + // Find the closest points on the view ray and the line segment + const rayEnd = varyingProperty( 'vec4', 'worldPos' ).xyz.normalize().mul( 1e5 ); + const lineDir = worldEnd.sub( worldStart ); + const params = closestLineToLine( { p1: worldStart, p2: worldEnd, p3: vec3( 0.0, 0.0, 0.0 ), p4: rayEnd } ); + + const p1 = worldStart.add( lineDir.mul( params.x ) ); + const p2 = rayEnd.mul( params.y ); + const delta = p1.sub( p2 ); + const len = delta.length(); + const norm = len.div( materialLineWidth ); + + if ( ! useDash ) { + + if ( useAlphaToCoverage ) { + + const dnorm = norm.fwidth(); + alpha.assign( smoothstep( dnorm.negate().add( 0.5 ), dnorm.add( 0.5 ), norm ).oneMinus() ); + + } else { + + norm.greaterThan( 0.5 ).discard(); + + } + + } + + } else { + + // round endcaps + + if ( useAlphaToCoverage ) { + + const a = vUv.x; + const b = vUv.y.greaterThan( 0.0 ).cond( vUv.y.sub( 1.0 ), vUv.y.add( 1.0 ) ); + + const len2 = a.mul( a ).add( b.mul( b ) ); + + // force assignment out of following 'if' statement - to avoid uniform control flow errors + const dlen = property( 'float', 'dlen' ); + dlen.assign( len2.fwidth() ); + + If( vUv.y.abs().greaterThan( 1.0 ), () => { + + alpha.assign( smoothstep( dlen.oneMinus(), dlen.add( 1 ), len2 ).oneMinus() ); + + } ); + + } else { + + If( vUv.y.abs().greaterThan( 1.0 ), () => { + + const a = vUv.x; + const b = vUv.y.greaterThan( 0.0 ).cond( vUv.y.sub( 1.0 ), vUv.y.add( 1.0 ) ); + const len2 = a.mul( a ).add( b.mul( b ) ); + + len2.greaterThan( 1.0 ).discard(); + + } ); + + } + + } + + let lineColorNode; + + if ( this.lineColorNode ) { + + lineColorNode = this.lineColorNode; + + } else { + + if ( useColor ) { + + const instanceColorStart = attribute( 'instanceColorStart' ); + const instanceColorEnd = attribute( 'instanceColorEnd' ); + + const instanceColor = positionGeometry.y.lessThan( 0.5 ).cond( instanceColorStart, instanceColorEnd ); + + lineColorNode = instanceColor.mul( materialColor ); + + } else { + + lineColorNode = materialColor; + + } + + } + + return vec4( lineColorNode, alpha ); + + } )(); + + } + + + get worldUnits() { + + return this.useWorldUnits; + + } + + set worldUnits( value ) { + + if ( this.useWorldUnits !== value ) { + + this.useWorldUnits = value; + this.needsUpdate = true; + + } + + } + + + get dashed() { + + return this.useDash; + + } + + set dashed( value ) { + + if ( this.useDash !== value ) { + + this.useDash = value; + this.needsUpdate = true; + + } + + } + + + get alphaToCoverage() { + + return this.useAlphaToCoverage; + + } + + set alphaToCoverage( value ) { + + if ( this.useAlphaToCoverage !== value ) { + + this.useAlphaToCoverage = value; + this.needsUpdate = true; + + } + + } + +} + +addNodeMaterial( 'Line2NodeMaterial', Line2NodeMaterial ); + +const defaultValues$a = new MeshNormalMaterial(); + +class MeshNormalNodeMaterial extends NodeMaterial { + + constructor( parameters ) { + + super(); + + this.lights = false; + + this.isMeshNormalNodeMaterial = true; + + this.setDefaultValues( defaultValues$a ); + + this.setValues( parameters ); + + } + + setupDiffuseColor() { + + const opacityNode = this.opacityNode ? float( this.opacityNode ) : materialOpacity; + + diffuseColor.assign( vec4( directionToColor( transformedNormalView ), opacityNode ) ); + + } + +} + +addNodeMaterial( 'MeshNormalNodeMaterial', MeshNormalNodeMaterial ); + +const defaultValues$9 = new MeshBasicMaterial(); + +class MeshBasicNodeMaterial extends NodeMaterial { + + constructor( parameters ) { + + super(); + + this.isMeshBasicNodeMaterial = true; + + this.lights = false; + //this.normals = false; @TODO: normals usage by context + + this.setDefaultValues( defaultValues$9 ); + + this.setValues( parameters ); + + } + +} + +addNodeMaterial( 'MeshBasicNodeMaterial', MeshBasicNodeMaterial ); + +const F_Schlick = tslFn( ( { f0, f90, dotVH } ) => { + + // Original approximation by Christophe Schlick '94 + // float fresnel = pow( 1.0 - dotVH, 5.0 ); + + // Optimized variant (presented by Epic at SIGGRAPH '13) + // https://cdn2.unrealengine.com/Resources/files/2013SiggraphPresentationsNotes-26915738.pdf + const fresnel = dotVH.mul( - 5.55473 ).sub( 6.98316 ).mul( dotVH ).exp2(); + + return f0.mul( fresnel.oneMinus() ).add( f90.mul( fresnel ) ); + +} ); // validated + +const BRDF_Lambert = tslFn( ( inputs ) => { + + return inputs.diffuseColor.mul( 1 / Math.PI ); // punctual light + +} ); // validated + +const G_BlinnPhong_Implicit = () => float( 0.25 ); + +const D_BlinnPhong = tslFn( ( { dotNH } ) => { + + return shininess.mul( float( 0.5 ) ).add( 1.0 ).mul( float( 1 / Math.PI ) ).mul( dotNH.pow( shininess ) ); + +} ); + +const BRDF_BlinnPhong = tslFn( ( { lightDirection } ) => { + + const halfDir = lightDirection.add( positionViewDirection ).normalize(); + + const dotNH = transformedNormalView.dot( halfDir ).clamp(); + const dotVH = positionViewDirection.dot( halfDir ).clamp(); + + const F = F_Schlick( { f0: specularColor, f90: 1.0, dotVH } ); + const G = G_BlinnPhong_Implicit(); + const D = D_BlinnPhong( { dotNH } ); + + return F.mul( G ).mul( D ); + +} ); + +class PhongLightingModel extends LightingModel { + + constructor( specular = true ) { + + super(); + + this.specular = specular; + + } + + direct( { lightDirection, lightColor, reflectedLight } ) { + + const dotNL = transformedNormalView.dot( lightDirection ).clamp(); + const irradiance = dotNL.mul( lightColor ); + + reflectedLight.directDiffuse.addAssign( irradiance.mul( BRDF_Lambert( { diffuseColor: diffuseColor.rgb } ) ) ); + + if ( this.specular === true ) { + + reflectedLight.directSpecular.addAssign( irradiance.mul( BRDF_BlinnPhong( { lightDirection } ) ).mul( materialSpecularStrength ) ); + + } + + } + + indirectDiffuse( { irradiance, reflectedLight } ) { + + reflectedLight.indirectDiffuse.addAssign( irradiance.mul( BRDF_Lambert( { diffuseColor } ) ) ); + + } + +} + +const defaultValues$8 = new MeshLambertMaterial(); + +class MeshLambertNodeMaterial extends NodeMaterial { + + constructor( parameters ) { + + super(); + + this.isMeshLambertNodeMaterial = true; + + this.lights = true; + + this.setDefaultValues( defaultValues$8 ); + + this.setValues( parameters ); + + } + + setupLightingModel( /*builder*/ ) { + + return new PhongLightingModel( false ); // ( specular ) -> force lambert + + } + +} + +addNodeMaterial( 'MeshLambertNodeMaterial', MeshLambertNodeMaterial ); + +const defaultValues$7 = new MeshPhongMaterial(); + +class MeshPhongNodeMaterial extends NodeMaterial { + + constructor( parameters ) { + + super(); + + this.isMeshPhongNodeMaterial = true; + + this.lights = true; + + this.shininessNode = null; + this.specularNode = null; + + this.setDefaultValues( defaultValues$7 ); + + this.setValues( parameters ); + + } + + setupLightingModel( /*builder*/ ) { + + return new PhongLightingModel(); + + } + + setupVariants() { + + // SHININESS + + const shininessNode = ( this.shininessNode ? float( this.shininessNode ) : materialShininess ).max( 1e-4 ); // to prevent pow( 0.0, 0.0 ) + + shininess.assign( shininessNode ); + + // SPECULAR COLOR + + const specularNode = this.specularNode || materialSpecular; + + specularColor.assign( specularNode ); + + } + + copy( source ) { + + this.shininessNode = source.shininessNode; + this.specularNode = source.specularNode; + + return super.copy( source ); + + } + +} + +addNodeMaterial( 'MeshPhongNodeMaterial', MeshPhongNodeMaterial ); + +const getGeometryRoughness = tslFn( () => { + + const dxy = normalGeometry.dFdx().abs().max( normalGeometry.dFdy().abs() ); + const geometryRoughness = dxy.x.max( dxy.y ).max( dxy.z ); + + return geometryRoughness; + +} ); + +const getRoughness = tslFn( ( inputs ) => { + + const { roughness } = inputs; + + const geometryRoughness = getGeometryRoughness(); + + let roughnessFactor = roughness.max( 0.0525 ); // 0.0525 corresponds to the base mip of a 256 cubemap. + roughnessFactor = roughnessFactor.add( geometryRoughness ); + roughnessFactor = roughnessFactor.min( 1.0 ); + + return roughnessFactor; + +} ); + +// Moving Frostbite to Physically Based Rendering 3.0 - page 12, listing 2 +// https://seblagarde.files.wordpress.com/2015/07/course_notes_moving_frostbite_to_pbr_v32.pdf +const V_GGX_SmithCorrelated = tslFn( ( { alpha, dotNL, dotNV } ) => { + + const a2 = alpha.pow2(); + + const gv = dotNL.mul( a2.add( a2.oneMinus().mul( dotNV.pow2() ) ).sqrt() ); + const gl = dotNV.mul( a2.add( a2.oneMinus().mul( dotNL.pow2() ) ).sqrt() ); + + return div( 0.5, gv.add( gl ).max( EPSILON ) ); + +} ).setLayout( { + name: 'V_GGX_SmithCorrelated', + type: 'float', + inputs: [ + { name: 'alpha', type: 'float' }, + { name: 'dotNL', type: 'float' }, + { name: 'dotNV', type: 'float' } + ] +} ); // validated + +// https://google.github.io/filament/Filament.md.html#materialsystem/anisotropicmodel/anisotropicspecularbrdf + +const V_GGX_SmithCorrelated_Anisotropic = tslFn( ( { alphaT, alphaB, dotTV, dotBV, dotTL, dotBL, dotNV, dotNL } ) => { + + const gv = dotNL.mul( vec3( alphaT.mul( dotTV ), alphaB.mul( dotBV ), dotNV ).length() ); + const gl = dotNV.mul( vec3( alphaT.mul( dotTL ), alphaB.mul( dotBL ), dotNL ).length() ); + const v = div( 0.5, gv.add( gl ) ); + + return v.saturate(); + +} ).setLayout( { + name: 'V_GGX_SmithCorrelated_Anisotropic', + type: 'float', + inputs: [ + { name: 'alphaT', type: 'float', qualifier: 'in' }, + { name: 'alphaB', type: 'float', qualifier: 'in' }, + { name: 'dotTV', type: 'float', qualifier: 'in' }, + { name: 'dotBV', type: 'float', qualifier: 'in' }, + { name: 'dotTL', type: 'float', qualifier: 'in' }, + { name: 'dotBL', type: 'float', qualifier: 'in' }, + { name: 'dotNV', type: 'float', qualifier: 'in' }, + { name: 'dotNL', type: 'float', qualifier: 'in' } + ] +} ); + +// Microfacet Models for Refraction through Rough Surfaces - equation (33) +// http://graphicrants.blogspot.com/2013/08/specular-brdf-reference.html +// alpha is "roughness squared" in Disney’s reparameterization +const D_GGX = tslFn( ( { alpha, dotNH } ) => { + + const a2 = alpha.pow2(); + + const denom = dotNH.pow2().mul( a2.oneMinus() ).oneMinus(); // avoid alpha = 0 with dotNH = 1 + + return a2.div( denom.pow2() ).mul( 1 / Math.PI ); + +} ).setLayout( { + name: 'D_GGX', + type: 'float', + inputs: [ + { name: 'alpha', type: 'float' }, + { name: 'dotNH', type: 'float' } + ] +} ); // validated + +const RECIPROCAL_PI = float( 1 / Math.PI ); + +// https://google.github.io/filament/Filament.md.html#materialsystem/anisotropicmodel/anisotropicspecularbrdf + +const D_GGX_Anisotropic = tslFn( ( { alphaT, alphaB, dotNH, dotTH, dotBH } ) => { + + const a2 = alphaT.mul( alphaB ); + const v = vec3( alphaB.mul( dotTH ), alphaT.mul( dotBH ), a2.mul( dotNH ) ); + const v2 = v.dot( v ); + const w2 = a2.div( v2 ); + + return RECIPROCAL_PI.mul( a2.mul( w2.pow2() ) ); + +} ).setLayout( { + name: 'D_GGX_Anisotropic', + type: 'float', + inputs: [ + { name: 'alphaT', type: 'float', qualifier: 'in' }, + { name: 'alphaB', type: 'float', qualifier: 'in' }, + { name: 'dotNH', type: 'float', qualifier: 'in' }, + { name: 'dotTH', type: 'float', qualifier: 'in' }, + { name: 'dotBH', type: 'float', qualifier: 'in' } + ] +} ); + +// GGX Distribution, Schlick Fresnel, GGX_SmithCorrelated Visibility +const BRDF_GGX = tslFn( ( inputs ) => { + + const { lightDirection, f0, f90, roughness, f, USE_IRIDESCENCE, USE_ANISOTROPY } = inputs; + + const normalView = inputs.normalView || transformedNormalView; + + const alpha = roughness.pow2(); // UE4's roughness + + const halfDir = lightDirection.add( positionViewDirection ).normalize(); + + const dotNL = normalView.dot( lightDirection ).clamp(); + const dotNV = normalView.dot( positionViewDirection ).clamp(); // @ TODO: Move to core dotNV + const dotNH = normalView.dot( halfDir ).clamp(); + const dotVH = positionViewDirection.dot( halfDir ).clamp(); + + let F = F_Schlick( { f0, f90, dotVH } ); + let V, D; + + if ( defined( USE_IRIDESCENCE ) ) { + + F = iridescence.mix( F, f ); + + } + + if ( defined( USE_ANISOTROPY ) ) { + + const dotTL = anisotropyT.dot( lightDirection ); + const dotTV = anisotropyT.dot( positionViewDirection ); + const dotTH = anisotropyT.dot( halfDir ); + const dotBL = anisotropyB.dot( lightDirection ); + const dotBV = anisotropyB.dot( positionViewDirection ); + const dotBH = anisotropyB.dot( halfDir ); + + V = V_GGX_SmithCorrelated_Anisotropic( { alphaT, alphaB: alpha, dotTV, dotBV, dotTL, dotBL, dotNV, dotNL } ); + D = D_GGX_Anisotropic( { alphaT, alphaB: alpha, dotNH, dotTH, dotBH } ); + + } else { + + V = V_GGX_SmithCorrelated( { alpha, dotNL, dotNV } ); + D = D_GGX( { alpha, dotNH } ); + + } + + return F.mul( V ).mul( D ); + +} ); // validated + +// Analytical approximation of the DFG LUT, one half of the +// split-sum approximation used in indirect specular lighting. +// via 'environmentBRDF' from "Physically Based Shading on Mobile" +// https://www.unrealengine.com/blog/physically-based-shading-on-mobile +const DFGApprox = tslFn( ( { roughness, dotNV } ) => { + + const c0 = vec4( - 1, - 0.0275, - 0.572, 0.022 ); + + const c1 = vec4( 1, 0.0425, 1.04, - 0.04 ); + + const r = roughness.mul( c0 ).add( c1 ); + + const a004 = r.x.mul( r.x ).min( dotNV.mul( - 9.28 ).exp2() ).mul( r.x ).add( r.y ); + + const fab = vec2( - 1.04, 1.04 ).mul( a004 ).add( r.zw ); + + return fab; + +} ).setLayout( { + name: 'DFGApprox', + type: 'vec2', + inputs: [ + { name: 'roughness', type: 'float' }, + { name: 'dotNV', type: 'vec3' } + ] +} ); + +const EnvironmentBRDF = tslFn( ( inputs ) => { + + const { dotNV, specularColor, specularF90, roughness } = inputs; + + const fab = DFGApprox( { dotNV, roughness } ); + return specularColor.mul( fab.x ).add( specularF90.mul( fab.y ) ); + +} ); + +const Schlick_to_F0 = tslFn( ( { f, f90, dotVH } ) => { + + const x = dotVH.oneMinus().saturate(); + const x2 = x.mul( x ); + const x5 = x.mul( x2, x2 ).clamp( 0, .9999 ); + + return f.sub( vec3( f90 ).mul( x5 ) ).div( x5.oneMinus() ); + +} ).setLayout( { + name: 'Schlick_to_F0', + type: 'vec3', + inputs: [ + { name: 'f', type: 'vec3' }, + { name: 'f90', type: 'float' }, + { name: 'dotVH', type: 'float' } + ] +} ); + +// https://github.com/google/filament/blob/master/shaders/src/brdf.fs +const D_Charlie = tslFn( ( { roughness, dotNH } ) => { + + const alpha = roughness.pow2(); + + // Estevez and Kulla 2017, "Production Friendly Microfacet Sheen BRDF" + const invAlpha = float( 1.0 ).div( alpha ); + const cos2h = dotNH.pow2(); + const sin2h = cos2h.oneMinus().max( 0.0078125 ); // 2^(-14/2), so sin2h^2 > 0 in fp16 + + return float( 2.0 ).add( invAlpha ).mul( sin2h.pow( invAlpha.mul( 0.5 ) ) ).div( 2.0 * Math.PI ); + +} ).setLayout( { + name: 'D_Charlie', + type: 'float', + inputs: [ + { name: 'roughness', type: 'float' }, + { name: 'dotNH', type: 'float' } + ] +} ); + +// https://github.com/google/filament/blob/master/shaders/src/brdf.fs +const V_Neubelt = tslFn( ( { dotNV, dotNL } ) => { + + // Neubelt and Pettineo 2013, "Crafting a Next-gen Material Pipeline for The Order: 1886" + return float( 1.0 ).div( float( 4.0 ).mul( dotNL.add( dotNV ).sub( dotNL.mul( dotNV ) ) ) ); + +} ).setLayout( { + name: 'V_Neubelt', + type: 'float', + inputs: [ + { name: 'dotNV', type: 'float' }, + { name: 'dotNL', type: 'float' } + ] +} ); + +const BRDF_Sheen = tslFn( ( { lightDirection } ) => { + + const halfDir = lightDirection.add( positionViewDirection ).normalize(); + + const dotNL = transformedNormalView.dot( lightDirection ).clamp(); + const dotNV = transformedNormalView.dot( positionViewDirection ).clamp(); + const dotNH = transformedNormalView.dot( halfDir ).clamp(); + + const D = D_Charlie( { roughness: sheenRoughness, dotNH } ); + const V = V_Neubelt( { dotNV, dotNL } ); + + return sheen.mul( D ).mul( V ); + +} ); + +// Rect Area Light + +// Real-Time Polygonal-Light Shading with Linearly Transformed Cosines +// by Eric Heitz, Jonathan Dupuy, Stephen Hill and David Neubelt +// code: https://github.com/selfshadow/ltc_code/ + +const LTC_Uv = tslFn( ( { N, V, roughness } ) => { + + const LUT_SIZE = 64.0; + const LUT_SCALE = ( LUT_SIZE - 1.0 ) / LUT_SIZE; + const LUT_BIAS = 0.5 / LUT_SIZE; + + const dotNV = N.dot( V ).saturate(); + + // texture parameterized by sqrt( GGX alpha ) and sqrt( 1 - cos( theta ) ) + const uv = vec2( roughness, dotNV.oneMinus().sqrt() ); + + uv.assign( uv.mul( LUT_SCALE ).add( LUT_BIAS ) ); + + return uv; + +} ).setLayout( { + name: 'LTC_Uv', + type: 'vec2', + inputs: [ + { name: 'N', type: 'vec3' }, + { name: 'V', type: 'vec3' }, + { name: 'roughness', type: 'float' } + ] +} ); + +const LTC_ClippedSphereFormFactor = tslFn( ( { f } ) => { + + // Real-Time Area Lighting: a Journey from Research to Production (p.102) + // An approximation of the form factor of a horizon-clipped rectangle. + + const l = f.length(); + + return max$1( l.mul( l ).add( f.z ).div( l.add( 1.0 ) ), 0 ); + +} ).setLayout( { + name: 'LTC_ClippedSphereFormFactor', + type: 'float', + inputs: [ + { name: 'f', type: 'vec3' } + ] +} ); + +const LTC_EdgeVectorFormFactor = tslFn( ( { v1, v2 } ) => { + + const x = v1.dot( v2 ); + const y = x.abs().toVar(); + + // rational polynomial approximation to theta / sin( theta ) / 2PI + const a = y.mul( 0.0145206 ).add( 0.4965155 ).mul( y ).add( 0.8543985 ).toVar(); + const b = y.add( 4.1616724 ).mul( y ).add( 3.4175940 ).toVar(); + const v = a.div( b ); + + const theta_sintheta = x.greaterThan( 0.0 ).cond( v, max$1( x.mul( x ).oneMinus(), 1e-7 ).inverseSqrt().mul( 0.5 ).sub( v ) ); + + return v1.cross( v2 ).mul( theta_sintheta ); + +} ).setLayout( { + name: 'LTC_EdgeVectorFormFactor', + type: 'vec3', + inputs: [ + { name: 'v1', type: 'vec3' }, + { name: 'v2', type: 'vec3' } + ] +} ); + +const LTC_Evaluate = tslFn( ( { N, V, P, mInv, p0, p1, p2, p3 } ) => { + + // bail if point is on back side of plane of light + // assumes ccw winding order of light vertices + const v1 = p1.sub( p0 ).toVar(); + const v2 = p3.sub( p0 ).toVar(); + + const lightNormal = v1.cross( v2 ); + const result = vec3().toVar(); + + If( lightNormal.dot( P.sub( p0 ) ).greaterThanEqual( 0.0 ), () => { + + // construct orthonormal basis around N + const T1 = V.sub( N.mul( V.dot( N ) ) ).normalize(); + const T2 = N.cross( T1 ).negate(); // negated from paper; possibly due to a different handedness of world coordinate system + + // compute transform + const mat = mInv.mul( mat3( T1, T2, N ).transpose() ).toVar(); + + // transform rect + // & project rect onto sphere + const coords0 = mat.mul( p0.sub( P ) ).normalize().toVar(); + const coords1 = mat.mul( p1.sub( P ) ).normalize().toVar(); + const coords2 = mat.mul( p2.sub( P ) ).normalize().toVar(); + const coords3 = mat.mul( p3.sub( P ) ).normalize().toVar(); + + // calculate vector form factor + const vectorFormFactor = vec3( 0 ).toVar(); + vectorFormFactor.addAssign( LTC_EdgeVectorFormFactor( { v1: coords0, v2: coords1 } ) ); + vectorFormFactor.addAssign( LTC_EdgeVectorFormFactor( { v1: coords1, v2: coords2 } ) ); + vectorFormFactor.addAssign( LTC_EdgeVectorFormFactor( { v1: coords2, v2: coords3 } ) ); + vectorFormFactor.addAssign( LTC_EdgeVectorFormFactor( { v1: coords3, v2: coords0 } ) ); + + // adjust for horizon clipping + result.assign( vec3( LTC_ClippedSphereFormFactor( { f: vectorFormFactor } ) ) ); + + } ); + + return result; + +} ).setLayout( { + name: 'LTC_Evaluate', + type: 'vec3', + inputs: [ + { name: 'N', type: 'vec3' }, + { name: 'V', type: 'vec3' }, + { name: 'P', type: 'vec3' }, + { name: 'mInv', type: 'mat3' }, + { name: 'p0', type: 'vec3' }, + { name: 'p1', type: 'vec3' }, + { name: 'p2', type: 'vec3' }, + { name: 'p3', type: 'vec3' } + ] +} ); + +// +// Transmission +// + +const getVolumeTransmissionRay = tslFn( ( [ n, v, thickness, ior, modelMatrix ] ) => { + + // Direction of refracted light. + const refractionVector = vec3( refract( v.negate(), normalize( n ), div( 1.0, ior ) ) ); + + // Compute rotation-independant scaling of the model matrix. + const modelScale = vec3( + length( modelMatrix[ 0 ].xyz ), + length( modelMatrix[ 1 ].xyz ), + length( modelMatrix[ 2 ].xyz ) + ); + + // The thickness is specified in local space. + return normalize( refractionVector ).mul( thickness.mul( modelScale ) ); + +} ).setLayout( { + name: 'getVolumeTransmissionRay', + type: 'vec3', + inputs: [ + { name: 'n', type: 'vec3' }, + { name: 'v', type: 'vec3' }, + { name: 'thickness', type: 'float' }, + { name: 'ior', type: 'float' }, + { name: 'modelMatrix', type: 'mat4' } + ] +} ); + +const applyIorToRoughness = tslFn( ( [ roughness, ior ] ) => { + + // Scale roughness with IOR so that an IOR of 1.0 results in no microfacet refraction and + // an IOR of 1.5 results in the default amount of microfacet refraction. + return roughness.mul( clamp( ior.mul( 2.0 ).sub( 2.0 ), 0.0, 1.0 ) ); + +} ).setLayout( { + name: 'applyIorToRoughness', + type: 'float', + inputs: [ + { name: 'roughness', type: 'float' }, + { name: 'ior', type: 'float' } + ] +} ); + +const singleViewportMipTexture = viewportMipTexture(); + +const getTransmissionSample = tslFn( ( [ fragCoord, roughness, ior ] ) => { + + const transmissionSample = singleViewportMipTexture.uv( fragCoord ); + //const transmissionSample = viewportMipTexture( fragCoord ); + + const lod = log2( float( viewportResolution.x ) ).mul( applyIorToRoughness( roughness, ior ) ); + + return transmissionSample.bicubic( lod ); + +} ); + +const volumeAttenuation = tslFn( ( [ transmissionDistance, attenuationColor, attenuationDistance ] ) => { + + If( attenuationDistance.notEqual( 0 ), () => { + + // Compute light attenuation using Beer's law. + const attenuationCoefficient = log( attenuationColor ).negate().div( attenuationDistance ); + const transmittance = exp( attenuationCoefficient.negate().mul( transmissionDistance ) ); + + return transmittance; + + } ); + + // Attenuation distance is +∞, i.e. the transmitted color is not attenuated at all. + return vec3( 1.0 ); + +} ).setLayout( { + name: 'volumeAttenuation', + type: 'vec3', + inputs: [ + { name: 'transmissionDistance', type: 'float' }, + { name: 'attenuationColor', type: 'vec3' }, + { name: 'attenuationDistance', type: 'float' } + ] +} ); + +const getIBLVolumeRefraction = tslFn( ( [ n, v, roughness, diffuseColor, specularColor, specularF90, position, modelMatrix, viewMatrix, projMatrix, ior, thickness, attenuationColor, attenuationDistance, dispersion ] ) => { + + let transmittedLight, transmittance; + + if ( dispersion ) { + + transmittedLight = vec4().toVar(); + transmittance = vec3().toVar(); + + const halfSpread = ior.sub( 1.0 ).mul( dispersion.mul( 0.025 ) ); + const iors = vec3( ior.sub( halfSpread ), ior, ior.add( halfSpread ) ); + + loop( { start: 0, end: 3 }, ( { i } ) => { + + const ior = iors.element( i ); + + const transmissionRay = getVolumeTransmissionRay( n, v, thickness, ior, modelMatrix ); + const refractedRayExit = position.add( transmissionRay ); + + // Project refracted vector on the framebuffer, while mapping to normalized device coordinates. + const ndcPos = projMatrix.mul( viewMatrix.mul( vec4( refractedRayExit, 1.0 ) ) ); + const refractionCoords = vec2( ndcPos.xy.div( ndcPos.w ) ).toVar(); + refractionCoords.addAssign( 1.0 ); + refractionCoords.divAssign( 2.0 ); + refractionCoords.assign( vec2( refractionCoords.x, refractionCoords.y.oneMinus() ) ); // webgpu + + // Sample framebuffer to get pixel the refracted ray hits. + const transmissionSample = getTransmissionSample( refractionCoords, roughness, ior ); + + transmittedLight.element( i ).assign( transmissionSample.element( i ) ); + transmittedLight.a.addAssign( transmissionSample.a ); + + transmittance.element( i ).assign( diffuseColor.element( i ).mul( volumeAttenuation( length( transmissionRay ), attenuationColor, attenuationDistance ).element( i ) ) ); + + } ); + + transmittedLight.a.divAssign( 3.0 ); + + } else { + + const transmissionRay = getVolumeTransmissionRay( n, v, thickness, ior, modelMatrix ); + const refractedRayExit = position.add( transmissionRay ); + + // Project refracted vector on the framebuffer, while mapping to normalized device coordinates. + const ndcPos = projMatrix.mul( viewMatrix.mul( vec4( refractedRayExit, 1.0 ) ) ); + const refractionCoords = vec2( ndcPos.xy.div( ndcPos.w ) ).toVar(); + refractionCoords.addAssign( 1.0 ); + refractionCoords.divAssign( 2.0 ); + refractionCoords.assign( vec2( refractionCoords.x, refractionCoords.y.oneMinus() ) ); // webgpu + + // Sample framebuffer to get pixel the refracted ray hits. + transmittedLight = getTransmissionSample( refractionCoords, roughness, ior ); + transmittance = diffuseColor.mul( volumeAttenuation( length( transmissionRay ), attenuationColor, attenuationDistance ) ); + + } + + const attenuatedColor = transmittance.rgb.mul( transmittedLight.rgb ); + const dotNV = n.dot( v ).clamp(); + + // Get the specular component. + const F = vec3( EnvironmentBRDF( { // n, v, specularColor, specularF90, roughness + dotNV, + specularColor, + specularF90, + roughness + } ) ); + + // As less light is transmitted, the opacity should be increased. This simple approximation does a decent job + // of modulating a CSS background, and has no effect when the buffer is opaque, due to a solid object or clear color. + const transmittanceFactor = transmittance.r.add( transmittance.g, transmittance.b ).div( 3.0 ); + + return vec4( F.oneMinus().mul( attenuatedColor ), transmittedLight.a.oneMinus().mul( transmittanceFactor ).oneMinus() ); + +} ); + +// +// Iridescence +// + +// XYZ to linear-sRGB color space +const XYZ_TO_REC709 = mat3( + 3.2404542, - 0.9692660, 0.0556434, + - 1.5371385, 1.8760108, - 0.2040259, + - 0.4985314, 0.0415560, 1.0572252 +); + +// Assume air interface for top +// Note: We don't handle the case fresnel0 == 1 +const Fresnel0ToIor = ( fresnel0 ) => { + + const sqrtF0 = fresnel0.sqrt(); + return vec3( 1.0 ).add( sqrtF0 ).div( vec3( 1.0 ).sub( sqrtF0 ) ); + +}; + +// ior is a value between 1.0 and 3.0. 1.0 is air interface +const IorToFresnel0 = ( transmittedIor, incidentIor ) => { + + return transmittedIor.sub( incidentIor ).div( transmittedIor.add( incidentIor ) ).pow2(); + +}; + +// Fresnel equations for dielectric/dielectric interfaces. +// Ref: https://belcour.github.io/blog/research/2017/05/01/brdf-thin-film.html +// Evaluation XYZ sensitivity curves in Fourier space +const evalSensitivity = ( OPD, shift ) => { + + const phase = OPD.mul( 2.0 * Math.PI * 1.0e-9 ); + const val = vec3( 5.4856e-13, 4.4201e-13, 5.2481e-13 ); + const pos = vec3( 1.6810e+06, 1.7953e+06, 2.2084e+06 ); + const VAR = vec3( 4.3278e+09, 9.3046e+09, 6.6121e+09 ); + + const x = float( 9.7470e-14 * Math.sqrt( 2.0 * Math.PI * 4.5282e+09 ) ).mul( phase.mul( 2.2399e+06 ).add( shift.x ).cos() ).mul( phase.pow2().mul( - 4.5282e+09 ).exp() ); + + let xyz = val.mul( VAR.mul( 2.0 * Math.PI ).sqrt() ).mul( pos.mul( phase ).add( shift ).cos() ).mul( phase.pow2().negate().mul( VAR ).exp() ); + xyz = vec3( xyz.x.add( x ), xyz.y, xyz.z ).div( 1.0685e-7 ); + + const rgb = XYZ_TO_REC709.mul( xyz ); + + return rgb; + +}; + +const evalIridescence = tslFn( ( { outsideIOR, eta2, cosTheta1, thinFilmThickness, baseF0 } ) => { + + // Force iridescenceIOR -> outsideIOR when thinFilmThickness -> 0.0 + const iridescenceIOR = mix( outsideIOR, eta2, smoothstep( 0.0, 0.03, thinFilmThickness ) ); + // Evaluate the cosTheta on the base layer (Snell law) + const sinTheta2Sq = outsideIOR.div( iridescenceIOR ).pow2().mul( float( 1 ).sub( cosTheta1.pow2() ) ); + + // Handle TIR: + const cosTheta2Sq = float( 1 ).sub( sinTheta2Sq ); + /*if ( cosTheta2Sq < 0.0 ) { + + return vec3( 1.0 ); + + }*/ + + const cosTheta2 = cosTheta2Sq.sqrt(); + + // First interface + const R0 = IorToFresnel0( iridescenceIOR, outsideIOR ); + const R12 = F_Schlick( { f0: R0, f90: 1.0, dotVH: cosTheta1 } ); + //const R21 = R12; + const T121 = R12.oneMinus(); + const phi12 = iridescenceIOR.lessThan( outsideIOR ).cond( Math.PI, 0.0 ); + const phi21 = float( Math.PI ).sub( phi12 ); + + // Second interface + const baseIOR = Fresnel0ToIor( baseF0.clamp( 0.0, 0.9999 ) ); // guard against 1.0 + const R1 = IorToFresnel0( baseIOR, iridescenceIOR.toVec3() ); + const R23 = F_Schlick( { f0: R1, f90: 1.0, dotVH: cosTheta2 } ); + const phi23 = vec3( + baseIOR.x.lessThan( iridescenceIOR ).cond( Math.PI, 0.0 ), + baseIOR.y.lessThan( iridescenceIOR ).cond( Math.PI, 0.0 ), + baseIOR.z.lessThan( iridescenceIOR ).cond( Math.PI, 0.0 ) + ); + + // Phase shift + const OPD = iridescenceIOR.mul( thinFilmThickness, cosTheta2, 2.0 ); + const phi = vec3( phi21 ).add( phi23 ); + + // Compound terms + const R123 = R12.mul( R23 ).clamp( 1e-5, 0.9999 ); + const r123 = R123.sqrt(); + const Rs = T121.pow2().mul( R23 ).div( vec3( 1.0 ).sub( R123 ) ); + + // Reflectance term for m = 0 (DC term amplitude) + const C0 = R12.add( Rs ); + let I = C0; + + // Reflectance term for m > 0 (pairs of diracs) + let Cm = Rs.sub( T121 ); + for ( let m = 1; m <= 2; ++ m ) { + + Cm = Cm.mul( r123 ); + const Sm = evalSensitivity( float( m ).mul( OPD ), float( m ).mul( phi ) ).mul( 2.0 ); + I = I.add( Cm.mul( Sm ) ); + + } + + // Since out of gamut colors might be produced, negative color values are clamped to 0. + return I.max( vec3( 0.0 ) ); + +} ).setLayout( { + name: 'evalIridescence', + type: 'vec3', + inputs: [ + { name: 'outsideIOR', type: 'float' }, + { name: 'eta2', type: 'float' }, + { name: 'cosTheta1', type: 'float' }, + { name: 'thinFilmThickness', type: 'float' }, + { name: 'baseF0', type: 'vec3' } + ] +} ); + +// +// Sheen +// + +// This is a curve-fit approxmation to the "Charlie sheen" BRDF integrated over the hemisphere from +// Estevez and Kulla 2017, "Production Friendly Microfacet Sheen BRDF". The analysis can be found +// in the Sheen section of https://drive.google.com/file/d/1T0D1VSyR4AllqIJTQAraEIzjlb5h4FKH/view?usp=sharing +const IBLSheenBRDF = tslFn( ( { normal, viewDir, roughness } ) => { + + const dotNV = normal.dot( viewDir ).saturate(); + + const r2 = roughness.pow2(); + + const a = cond( + roughness.lessThan( 0.25 ), + float( - 339.2 ).mul( r2 ).add( float( 161.4 ).mul( roughness ) ).sub( 25.9 ), + float( - 8.48 ).mul( r2 ).add( float( 14.3 ).mul( roughness ) ).sub( 9.95 ) + ); + + const b = cond( + roughness.lessThan( 0.25 ), + float( 44.0 ).mul( r2 ).sub( float( 23.7 ).mul( roughness ) ).add( 3.26 ), + float( 1.97 ).mul( r2 ).sub( float( 3.27 ).mul( roughness ) ).add( 0.72 ) + ); + + const DG = cond( roughness.lessThan( 0.25 ), 0.0, float( 0.1 ).mul( roughness ).sub( 0.025 ) ).add( a.mul( dotNV ).add( b ).exp() ); + + return DG.mul( 1.0 / Math.PI ).saturate(); + +} ); + +const clearcoatF0 = vec3( 0.04 ); +const clearcoatF90 = float( 1 ); + +// + +class PhysicalLightingModel extends LightingModel { + + constructor( clearcoat = false, sheen = false, iridescence = false, anisotropy = false, transmission = false, dispersion = false ) { + + super(); + + this.clearcoat = clearcoat; + this.sheen = sheen; + this.iridescence = iridescence; + this.anisotropy = anisotropy; + this.transmission = transmission; + this.dispersion = dispersion; + + this.clearcoatRadiance = null; + this.clearcoatSpecularDirect = null; + this.clearcoatSpecularIndirect = null; + this.sheenSpecularDirect = null; + this.sheenSpecularIndirect = null; + this.iridescenceFresnel = null; + this.iridescenceF0 = null; + + } + + start( context ) { + + if ( this.clearcoat === true ) { + + this.clearcoatRadiance = vec3().temp( 'clearcoatRadiance' ); + this.clearcoatSpecularDirect = vec3().temp( 'clearcoatSpecularDirect' ); + this.clearcoatSpecularIndirect = vec3().temp( 'clearcoatSpecularIndirect' ); + + } + + if ( this.sheen === true ) { + + this.sheenSpecularDirect = vec3().temp( 'sheenSpecularDirect' ); + this.sheenSpecularIndirect = vec3().temp( 'sheenSpecularIndirect' ); + + } + + if ( this.iridescence === true ) { + + const dotNVi = transformedNormalView.dot( positionViewDirection ).clamp(); + + this.iridescenceFresnel = evalIridescence( { + outsideIOR: float( 1.0 ), + eta2: iridescenceIOR, + cosTheta1: dotNVi, + thinFilmThickness: iridescenceThickness, + baseF0: specularColor + } ); + + this.iridescenceF0 = Schlick_to_F0( { f: this.iridescenceFresnel, f90: 1.0, dotVH: dotNVi } ); + + } + + if ( this.transmission === true ) { + + const position = positionWorld; + const v = cameraPosition.sub( positionWorld ).normalize(); // TODO: Create Node for this, same issue in MaterialX + const n = transformedNormalWorld; + + context.backdrop = getIBLVolumeRefraction( + n, + v, + roughness, + diffuseColor, + specularColor, + specularF90, // specularF90 + position, // positionWorld + modelWorldMatrix, // modelMatrix + cameraViewMatrix, // viewMatrix + cameraProjectionMatrix, // projMatrix + ior, + thickness, + attenuationColor, + attenuationDistance, + this.dispersion ? dispersion : null + ); + + context.backdropAlpha = transmission; + + diffuseColor.a.mulAssign( mix( 1, context.backdrop.a, transmission ) ); + + } + + } + + // Fdez-Agüera's "Multiple-Scattering Microfacet Model for Real-Time Image Based Lighting" + // Approximates multiscattering in order to preserve energy. + // http://www.jcgt.org/published/0008/01/03/ + + computeMultiscattering( singleScatter, multiScatter, specularF90 ) { + + const dotNV = transformedNormalView.dot( positionViewDirection ).clamp(); // @ TODO: Move to core dotNV + + const fab = DFGApprox( { roughness, dotNV } ); + + const Fr = this.iridescenceF0 ? iridescence.mix( specularColor, this.iridescenceF0 ) : specularColor; + + const FssEss = Fr.mul( fab.x ).add( specularF90.mul( fab.y ) ); + + const Ess = fab.x.add( fab.y ); + const Ems = Ess.oneMinus(); + + const Favg = specularColor.add( specularColor.oneMinus().mul( 0.047619 ) ); // 1/21 + const Fms = FssEss.mul( Favg ).div( Ems.mul( Favg ).oneMinus() ); + + singleScatter.addAssign( FssEss ); + multiScatter.addAssign( Fms.mul( Ems ) ); + + } + + direct( { lightDirection, lightColor, reflectedLight } ) { + + const dotNL = transformedNormalView.dot( lightDirection ).clamp(); + const irradiance = dotNL.mul( lightColor ); + + if ( this.sheen === true ) { + + this.sheenSpecularDirect.addAssign( irradiance.mul( BRDF_Sheen( { lightDirection } ) ) ); + + } + + if ( this.clearcoat === true ) { + + const dotNLcc = transformedClearcoatNormalView.dot( lightDirection ).clamp(); + const ccIrradiance = dotNLcc.mul( lightColor ); + + this.clearcoatSpecularDirect.addAssign( ccIrradiance.mul( BRDF_GGX( { lightDirection, f0: clearcoatF0, f90: clearcoatF90, roughness: clearcoatRoughness, normalView: transformedClearcoatNormalView } ) ) ); + + } + + reflectedLight.directDiffuse.addAssign( irradiance.mul( BRDF_Lambert( { diffuseColor: diffuseColor.rgb } ) ) ); + + reflectedLight.directSpecular.addAssign( irradiance.mul( BRDF_GGX( { lightDirection, f0: specularColor, f90: 1, roughness, iridescence: this.iridescence, f: this.iridescenceFresnel, USE_IRIDESCENCE: this.iridescence, USE_ANISOTROPY: this.anisotropy } ) ) ); + + } + + directRectArea( { lightColor, lightPosition, halfWidth, halfHeight, reflectedLight, ltc_1, ltc_2 } ) { + + const p0 = lightPosition.add( halfWidth ).sub( halfHeight ); // counterclockwise; light shines in local neg z direction + const p1 = lightPosition.sub( halfWidth ).sub( halfHeight ); + const p2 = lightPosition.sub( halfWidth ).add( halfHeight ); + const p3 = lightPosition.add( halfWidth ).add( halfHeight ); + + const N = transformedNormalView; + const V = positionViewDirection; + const P = positionView.toVar(); + + const uv = LTC_Uv( { N, V, roughness } ); + + const t1 = ltc_1.uv( uv ).toVar(); + const t2 = ltc_2.uv( uv ).toVar(); + + const mInv = mat3( + vec3( t1.x, 0, t1.y ), + vec3( 0, 1, 0 ), + vec3( t1.z, 0, t1.w ) + ).toVar(); + + // LTC Fresnel Approximation by Stephen Hill + // http://blog.selfshadow.com/publications/s2016-advances/s2016_ltc_fresnel.pdf + const fresnel = specularColor.mul( t2.x ).add( specularColor.oneMinus().mul( t2.y ) ).toVar(); + + reflectedLight.directSpecular.addAssign( lightColor.mul( fresnel ).mul( LTC_Evaluate( { N, V, P, mInv, p0, p1, p2, p3 } ) ) ); + + reflectedLight.directDiffuse.addAssign( lightColor.mul( diffuseColor ).mul( LTC_Evaluate( { N, V, P, mInv: mat3( 1, 0, 0, 0, 1, 0, 0, 0, 1 ), p0, p1, p2, p3 } ) ) ); + + } + + indirectDiffuse( { irradiance, reflectedLight } ) { + + reflectedLight.indirectDiffuse.addAssign( irradiance.mul( BRDF_Lambert( { diffuseColor } ) ) ); + + } + + indirectSpecular( { radiance, iblIrradiance, reflectedLight } ) { + + if ( this.sheen === true ) { + + this.sheenSpecularIndirect.addAssign( iblIrradiance.mul( + sheen, + IBLSheenBRDF( { + normal: transformedNormalView, + viewDir: positionViewDirection, + roughness: sheenRoughness + } ) + ) ); + + } + + if ( this.clearcoat === true ) { + + const dotNVcc = transformedClearcoatNormalView.dot( positionViewDirection ).clamp(); + + const clearcoatEnv = EnvironmentBRDF( { + dotNV: dotNVcc, + specularColor: clearcoatF0, + specularF90: clearcoatF90, + roughness: clearcoatRoughness + } ); + + this.clearcoatSpecularIndirect.addAssign( this.clearcoatRadiance.mul( clearcoatEnv ) ); + + } + + // Both indirect specular and indirect diffuse light accumulate here + + const singleScattering = vec3().temp( 'singleScattering' ); + const multiScattering = vec3().temp( 'multiScattering' ); + const cosineWeightedIrradiance = iblIrradiance.mul( 1 / Math.PI ); + + this.computeMultiscattering( singleScattering, multiScattering, specularF90 ); + + const totalScattering = singleScattering.add( multiScattering ); + + const diffuse = diffuseColor.mul( totalScattering.r.max( totalScattering.g ).max( totalScattering.b ).oneMinus() ); + + reflectedLight.indirectSpecular.addAssign( radiance.mul( singleScattering ) ); + reflectedLight.indirectSpecular.addAssign( multiScattering.mul( cosineWeightedIrradiance ) ); + + reflectedLight.indirectDiffuse.addAssign( diffuse.mul( cosineWeightedIrradiance ) ); + + } + + ambientOcclusion( { ambientOcclusion, reflectedLight } ) { + + const dotNV = transformedNormalView.dot( positionViewDirection ).clamp(); // @ TODO: Move to core dotNV + + const aoNV = dotNV.add( ambientOcclusion ); + const aoExp = roughness.mul( - 16.0 ).oneMinus().negate().exp2(); + + const aoNode = ambientOcclusion.sub( aoNV.pow( aoExp ).oneMinus() ).clamp(); + + if ( this.clearcoat === true ) { + + this.clearcoatSpecularIndirect.mulAssign( ambientOcclusion ); + + } + + if ( this.sheen === true ) { + + this.sheenSpecularIndirect.mulAssign( ambientOcclusion ); + + } + + reflectedLight.indirectDiffuse.mulAssign( ambientOcclusion ); + reflectedLight.indirectSpecular.mulAssign( aoNode ); + + } + + finish( context ) { + + const { outgoingLight } = context; + + if ( this.clearcoat === true ) { + + const dotNVcc = transformedClearcoatNormalView.dot( positionViewDirection ).clamp(); + + const Fcc = F_Schlick( { + dotVH: dotNVcc, + f0: clearcoatF0, + f90: clearcoatF90 + } ); + + const clearcoatLight = outgoingLight.mul( clearcoat.mul( Fcc ).oneMinus() ).add( this.clearcoatSpecularDirect.add( this.clearcoatSpecularIndirect ).mul( clearcoat ) ); + + outgoingLight.assign( clearcoatLight ); + + } + + if ( this.sheen === true ) { + + const sheenEnergyComp = sheen.r.max( sheen.g ).max( sheen.b ).mul( 0.157 ).oneMinus(); + const sheenLight = outgoingLight.mul( sheenEnergyComp ).add( this.sheenSpecularDirect, this.sheenSpecularIndirect ); + + outgoingLight.assign( sheenLight ); + + } + + } + +} + +const defaultValues$6 = new MeshStandardMaterial(); + +class MeshStandardNodeMaterial extends NodeMaterial { + + constructor( parameters ) { + + super(); + + this.isMeshStandardNodeMaterial = true; + + this.emissiveNode = null; + + this.metalnessNode = null; + this.roughnessNode = null; + + this.setDefaultValues( defaultValues$6 ); + + this.setValues( parameters ); + + } + + setupLightingModel( /*builder*/ ) { + + return new PhysicalLightingModel(); + + } + + setupSpecular() { + + const specularColorNode = mix( vec3( 0.04 ), diffuseColor.rgb, metalness ); + + specularColor.assign( specularColorNode ); + specularF90.assign( 1.0 ); + + } + + setupVariants() { + + // METALNESS + + const metalnessNode = this.metalnessNode ? float( this.metalnessNode ) : materialMetalness; + + metalness.assign( metalnessNode ); + + // ROUGHNESS + + let roughnessNode = this.roughnessNode ? float( this.roughnessNode ) : materialRoughness; + roughnessNode = getRoughness( { roughness: roughnessNode } ); + + roughness.assign( roughnessNode ); + + // SPECULAR COLOR + + this.setupSpecular(); + + // DIFFUSE COLOR + + diffuseColor.assign( vec4( diffuseColor.rgb.mul( metalnessNode.oneMinus() ), diffuseColor.a ) ); + + } + + copy( source ) { + + this.emissiveNode = source.emissiveNode; + + this.metalnessNode = source.metalnessNode; + this.roughnessNode = source.roughnessNode; + + return super.copy( source ); + + } + +} + +addNodeMaterial( 'MeshStandardNodeMaterial', MeshStandardNodeMaterial ); + +const defaultValues$5 = new MeshPhysicalMaterial(); + +class MeshPhysicalNodeMaterial extends MeshStandardNodeMaterial { + + constructor( parameters ) { + + super(); + + this.isMeshPhysicalNodeMaterial = true; + + this.clearcoatNode = null; + this.clearcoatRoughnessNode = null; + this.clearcoatNormalNode = null; + + this.sheenNode = null; + this.sheenRoughnessNode = null; + + this.iridescenceNode = null; + this.iridescenceIORNode = null; + this.iridescenceThicknessNode = null; + + this.specularIntensityNode = null; + this.specularColorNode = null; + + this.iorNode = null; + this.transmissionNode = null; + this.thicknessNode = null; + this.attenuationDistanceNode = null; + this.attenuationColorNode = null; + this.dispersionNode = null; + + this.anisotropyNode = null; + + this.setDefaultValues( defaultValues$5 ); + + this.setValues( parameters ); + + } + + get useClearcoat() { + + return this.clearcoat > 0 || this.clearcoatNode !== null; + + } + + get useIridescence() { + + return this.iridescence > 0 || this.iridescenceNode !== null; + + } + + get useSheen() { + + return this.sheen > 0 || this.sheenNode !== null; + + } + + get useAnisotropy() { + + return this.anisotropy > 0 || this.anisotropyNode !== null; + + } + + get useTransmission() { + + return this.transmission > 0 || this.transmissionNode !== null; + + } + + get useDispersion() { + + return this.dispersion > 0 || this.dispersionNode !== null; + + } + + setupSpecular() { + + const iorNode = this.iorNode ? float( this.iorNode ) : materialIOR; + + ior.assign( iorNode ); + specularColor.assign( mix( min$1( pow2( ior.sub( 1.0 ).div( ior.add( 1.0 ) ) ).mul( materialSpecularColor ), vec3( 1.0 ) ).mul( materialSpecularIntensity ), diffuseColor.rgb, metalness ) ); + specularF90.assign( mix( materialSpecularIntensity, 1.0, metalness ) ); + + } + + setupLightingModel( /*builder*/ ) { + + return new PhysicalLightingModel( this.useClearcoat, this.useSheen, this.useIridescence, this.useAnisotropy, this.useTransmission, this.useDispersion ); + + } + + setupVariants( builder ) { + + super.setupVariants( builder ); + + // CLEARCOAT + + if ( this.useClearcoat ) { + + const clearcoatNode = this.clearcoatNode ? float( this.clearcoatNode ) : materialClearcoat; + const clearcoatRoughnessNode = this.clearcoatRoughnessNode ? float( this.clearcoatRoughnessNode ) : materialClearcoatRoughness; + + clearcoat.assign( clearcoatNode ); + clearcoatRoughness.assign( getRoughness( { roughness: clearcoatRoughnessNode } ) ); + + } + + // SHEEN + + if ( this.useSheen ) { + + const sheenNode = this.sheenNode ? vec3( this.sheenNode ) : materialSheen; + const sheenRoughnessNode = this.sheenRoughnessNode ? float( this.sheenRoughnessNode ) : materialSheenRoughness; + + sheen.assign( sheenNode ); + sheenRoughness.assign( sheenRoughnessNode ); + + } + + // IRIDESCENCE + + if ( this.useIridescence ) { + + const iridescenceNode = this.iridescenceNode ? float( this.iridescenceNode ) : materialIridescence; + const iridescenceIORNode = this.iridescenceIORNode ? float( this.iridescenceIORNode ) : materialIridescenceIOR; + const iridescenceThicknessNode = this.iridescenceThicknessNode ? float( this.iridescenceThicknessNode ) : materialIridescenceThickness; + + iridescence.assign( iridescenceNode ); + iridescenceIOR.assign( iridescenceIORNode ); + iridescenceThickness.assign( iridescenceThicknessNode ); + + } + + // ANISOTROPY + + if ( this.useAnisotropy ) { + + const anisotropyV = ( this.anisotropyNode ? vec2( this.anisotropyNode ) : materialAnisotropy ).toVar(); + + anisotropy.assign( anisotropyV.length() ); + + If( anisotropy.equal( 0.0 ), () => { + + anisotropyV.assign( vec2( 1.0, 0.0 ) ); + + } ).else( () => { + + anisotropyV.divAssign( vec2( anisotropy ) ); + anisotropy.assign( anisotropy.saturate() ); + + } ); + + // Roughness along the anisotropy bitangent is the material roughness, while the tangent roughness increases with anisotropy. + alphaT.assign( anisotropy.pow2().mix( roughness.pow2(), 1.0 ) ); + + anisotropyT.assign( TBNViewMatrix[ 0 ].mul( anisotropyV.x ).add( TBNViewMatrix[ 1 ].mul( anisotropyV.y ) ) ); + anisotropyB.assign( TBNViewMatrix[ 1 ].mul( anisotropyV.x ).sub( TBNViewMatrix[ 0 ].mul( anisotropyV.y ) ) ); + + } + + // TRANSMISSION + + if ( this.useTransmission ) { + + const transmissionNode = this.transmissionNode ? float( this.transmissionNode ) : materialTransmission; + const thicknessNode = this.thicknessNode ? float( this.thicknessNode ) : materialThickness; + const attenuationDistanceNode = this.attenuationDistanceNode ? float( this.attenuationDistanceNode ) : materialAttenuationDistance; + const attenuationColorNode = this.attenuationColorNode ? vec3( this.attenuationColorNode ) : materialAttenuationColor; + + transmission.assign( transmissionNode ); + thickness.assign( thicknessNode ); + attenuationDistance.assign( attenuationDistanceNode ); + attenuationColor.assign( attenuationColorNode ); + + if ( this.useDispersion ) { + + const dispersionNode = this.dispersionNode ? float( this.dispersionNode ) : materialDispersion; + + dispersion.assign( dispersionNode ); + + } + + } + + } + + setupNormal( builder ) { + + super.setupNormal( builder ); + + // CLEARCOAT NORMAL + + const clearcoatNormalNode = this.clearcoatNormalNode ? vec3( this.clearcoatNormalNode ) : materialClearcoatNormal; + + transformedClearcoatNormalView.assign( clearcoatNormalNode ); + + } + + copy( source ) { + + this.clearcoatNode = source.clearcoatNode; + this.clearcoatRoughnessNode = source.clearcoatRoughnessNode; + this.clearcoatNormalNode = source.clearcoatNormalNode; + + this.sheenNode = source.sheenNode; + this.sheenRoughnessNode = source.sheenRoughnessNode; + + this.iridescenceNode = source.iridescenceNode; + this.iridescenceIORNode = source.iridescenceIORNode; + this.iridescenceThicknessNode = source.iridescenceThicknessNode; + + this.specularIntensityNode = source.specularIntensityNode; + this.specularColorNode = source.specularColorNode; + + this.transmissionNode = source.transmissionNode; + this.thicknessNode = source.thicknessNode; + this.attenuationDistanceNode = source.attenuationDistanceNode; + this.attenuationColorNode = source.attenuationColorNode; + this.dispersionNode = source.dispersionNode; + + this.anisotropyNode = source.anisotropyNode; + + return super.copy( source ); + + } + +} + +addNodeMaterial( 'MeshPhysicalNodeMaterial', MeshPhysicalNodeMaterial ); + +class SSSLightingModel extends PhysicalLightingModel { + + constructor( useClearcoat, useSheen, useIridescence, useSSS ) { + + super( useClearcoat, useSheen, useIridescence ); + + this.useSSS = useSSS; + + } + + direct( { lightDirection, lightColor, reflectedLight }, stack, builder ) { + + if ( this.useSSS === true ) { + + const material = builder.material; + + const { thicknessColorNode, thicknessDistortionNode, thicknessAmbientNode, thicknessAttenuationNode, thicknessPowerNode, thicknessScaleNode } = material; + + const scatteringHalf = lightDirection.add( transformedNormalView.mul( thicknessDistortionNode ) ).normalize(); + const scatteringDot = float( positionViewDirection.dot( scatteringHalf.negate() ).saturate().pow( thicknessPowerNode ).mul( thicknessScaleNode ) ); + const scatteringIllu = vec3( scatteringDot.add( thicknessAmbientNode ).mul( thicknessColorNode ) ); + + reflectedLight.directDiffuse.addAssign( scatteringIllu.mul( thicknessAttenuationNode.mul( lightColor ) ) ); + + } + + super.direct( { lightDirection, lightColor, reflectedLight }, stack, builder ); + + } + +} + +class MeshSSSNodeMaterial extends MeshPhysicalNodeMaterial { + + constructor( parameters ) { + + super( parameters ); + + this.thicknessColorNode = null; + this.thicknessDistortionNode = float( 0.1 ); + this.thicknessAmbientNode = float( 0.0 ); + this.thicknessAttenuationNode = float( .1 ); + this.thicknessPowerNode = float( 2.0 ); + this.thicknessScaleNode = float( 10.0 ); + + } + + get useSSS() { + + return this.thicknessColorNode !== null; + + } + + setupLightingModel( /*builder*/ ) { + + return new SSSLightingModel( this.useClearcoat, this.useSheen, this.useIridescence, this.useSSS ); + + } + + copy( source ) { + + this.thicknessColorNode = source.thicknessColorNode; + this.thicknessDistortionNode = source.thicknessDistortionNode; + this.thicknessAmbientNode = source.thicknessAmbientNode; + this.thicknessAttenuationNode = source.thicknessAttenuationNode; + this.thicknessPowerNode = source.thicknessPowerNode; + this.thicknessScaleNode = source.thicknessScaleNode; + + return super.copy( source ); + + } + +} + +addNodeMaterial( 'MeshSSSNodeMaterial', MeshSSSNodeMaterial ); + +const getGradientIrradiance = tslFn( ( { normal, lightDirection, builder } ) => { + + // dotNL will be from -1.0 to 1.0 + const dotNL = normal.dot( lightDirection ); + const coord = vec2( dotNL.mul( 0.5 ).add( 0.5 ), 0.0 ); + + if ( builder.material.gradientMap ) { + + const gradientMap = materialReference( 'gradientMap', 'texture' ).context( { getUV: () => coord } ); + + return vec3( gradientMap.r ); + + } else { + + const fw = coord.fwidth().mul( 0.5 ); + + return mix( vec3( 0.7 ), vec3( 1.0 ), smoothstep( float( 0.7 ).sub( fw.x ), float( 0.7 ).add( fw.x ), coord.x ) ); + + } + +} ); + +class ToonLightingModel extends LightingModel { + + direct( { lightDirection, lightColor, reflectedLight }, stack, builder ) { + + const irradiance = getGradientIrradiance( { normal: normalGeometry, lightDirection, builder } ).mul( lightColor ); + + reflectedLight.directDiffuse.addAssign( irradiance.mul( BRDF_Lambert( { diffuseColor: diffuseColor.rgb } ) ) ); + + } + + indirectDiffuse( { irradiance, reflectedLight } ) { + + reflectedLight.indirectDiffuse.addAssign( irradiance.mul( BRDF_Lambert( { diffuseColor } ) ) ); + + } + +} + +const defaultValues$4 = new MeshToonMaterial(); + +class MeshToonNodeMaterial extends NodeMaterial { + + constructor( parameters ) { + + super(); + + this.isMeshToonNodeMaterial = true; + + this.lights = true; + + this.setDefaultValues( defaultValues$4 ); + + this.setValues( parameters ); + + } + + setupLightingModel( /*builder*/ ) { + + return new ToonLightingModel(); + + } + +} + +addNodeMaterial( 'MeshToonNodeMaterial', MeshToonNodeMaterial ); + +const defaultValues$3 = new MeshMatcapMaterial(); + +class MeshMatcapNodeMaterial extends NodeMaterial { + + constructor( parameters ) { + + super(); + + this.lights = false; + + this.isMeshMatcapNodeMaterial = true; + + this.setDefaultValues( defaultValues$3 ); + + this.setValues( parameters ); + + } + + setupVariants( builder ) { + + const uv = matcapUV; + + let matcapColor; + + if ( builder.material.matcap ) { + + matcapColor = materialReference( 'matcap', 'texture' ).context( { getUV: () => uv } ); + + } else { + + matcapColor = vec3( mix( 0.2, 0.8, uv.y ) ); // default if matcap is missing + + } + + diffuseColor.rgb.mulAssign( matcapColor.rgb ); + + } + +} + +addNodeMaterial( 'MeshMatcapNodeMaterial', MeshMatcapNodeMaterial ); + +const defaultValues$2 = new PointsMaterial(); + +class PointsNodeMaterial extends NodeMaterial { + + constructor( parameters ) { + + super(); + + this.isPointsNodeMaterial = true; + + this.lights = false; + this.normals = false; + this.transparent = true; + + this.sizeNode = null; + + this.setDefaultValues( defaultValues$2 ); + + this.setValues( parameters ); + + } + + copy( source ) { + + this.sizeNode = source.sizeNode; + + return super.copy( source ); + + } + +} + +addNodeMaterial( 'PointsNodeMaterial', PointsNodeMaterial ); + +const defaultValues$1 = new SpriteMaterial(); + +class SpriteNodeMaterial extends NodeMaterial { + + constructor( parameters ) { + + super(); + + this.isSpriteNodeMaterial = true; + + this.lights = false; + this.normals = false; + + this.positionNode = null; + this.rotationNode = null; + this.scaleNode = null; + + this.setDefaultValues( defaultValues$1 ); + + this.setValues( parameters ); + + } + + setupPosition( { object, context } ) { + + // < VERTEX STAGE > + + const { positionNode, rotationNode, scaleNode } = this; + + const vertex = positionLocal; + + let mvPosition = modelViewMatrix.mul( vec3( positionNode || 0 ) ); + + let scale = vec2( modelWorldMatrix[ 0 ].xyz.length(), modelWorldMatrix[ 1 ].xyz.length() ); + + if ( scaleNode !== null ) { + + scale = scale.mul( scaleNode ); + + } + + let alignedPosition = vertex.xy; + + if ( object.center && object.center.isVector2 === true ) { + + alignedPosition = alignedPosition.sub( uniform( object.center ).sub( 0.5 ) ); + + } + + alignedPosition = alignedPosition.mul( scale ); + + const rotation = float( rotationNode || materialRotation ); + + const rotatedPosition = alignedPosition.rotate( rotation ); + + mvPosition = vec4( mvPosition.xy.add( rotatedPosition ), mvPosition.zw ); + + const modelViewProjection = cameraProjectionMatrix.mul( mvPosition ); + + context.vertex = vertex; + + return modelViewProjection; + + } + + copy( source ) { + + this.positionNode = source.positionNode; + this.rotationNode = source.rotationNode; + this.scaleNode = source.scaleNode; + + return super.copy( source ); + + } + +} + +addNodeMaterial( 'SpriteNodeMaterial', SpriteNodeMaterial ); + +class ShadowMaskModel extends LightingModel { + + constructor() { + + super(); + + this.shadowNode = float( 1 ).toVar( 'shadowMask' ); + + } + + direct( { shadowMask } ) { + + this.shadowNode.mulAssign( shadowMask ); + + } + + finish( context ) { + + diffuseColor.a.mulAssign( this.shadowNode.oneMinus() ); + + context.outgoingLight.rgb.assign( diffuseColor.rgb ); // TODO: Optimize LightsNode to avoid this assignment + + } + +} + +const defaultValues = new ShadowMaterial(); + +class ShadowNodeMaterial extends NodeMaterial { + + constructor( parameters ) { + + super(); + + this.isShadowNodeMaterial = true; + + this.lights = true; + + this.setDefaultValues( defaultValues ); + + this.setValues( parameters ); + + } + + setupLightingModel( /*builder*/ ) { + + return new ShadowMaskModel(); + + } + +} + +addNodeMaterial( 'ShadowNodeMaterial', ShadowNodeMaterial ); + +class VolumeNodeMaterial extends NodeMaterial { + + constructor( params = {} ) { + + super(); + + this.normals = false; + this.lights = false; + this.isVolumeNodeMaterial = true; + this.testNode = null; + + this.setValues( params ); + + } + + setup( builder ) { + + const map = texture3D( this.map, null, 0 ); + + const hitBox = tslFn( ( { orig, dir } ) => { + + const box_min = vec3( - 0.5 ); + const box_max = vec3( 0.5 ); + + const inv_dir = dir.reciprocal(); + + const tmin_tmp = box_min.sub( orig ).mul( inv_dir ); + const tmax_tmp = box_max.sub( orig ).mul( inv_dir ); + + const tmin = min$1( tmin_tmp, tmax_tmp ); + const tmax = max$1( tmin_tmp, tmax_tmp ); + + const t0 = max$1( tmin.x, max$1( tmin.y, tmin.z ) ); + const t1 = min$1( tmax.x, min$1( tmax.y, tmax.z ) ); + + return vec2( t0, t1 ); + + } ); + + this.fragmentNode = tslFn( () => { + + const vOrigin = varying( vec3( modelWorldMatrixInverse.mul( vec4( cameraPosition, 1.0 ) ) ) ); + const vDirection = varying( positionGeometry.sub( vOrigin ) ); + + const rayDir = vDirection.normalize(); + const bounds = property( 'vec2', 'bounds' ).assign( hitBox( { orig: vOrigin, dir: rayDir } ) ); + + bounds.x.greaterThan( bounds.y ).discard(); + + bounds.assign( vec2( max$1( bounds.x, 0.0 ), bounds.y ) ); + + const p = property( 'vec3', 'p' ).assign( vOrigin.add( bounds.x.mul( rayDir ) ) ); + const inc = property( 'vec3', 'inc' ).assign( vec3( rayDir.abs().reciprocal() ) ); + const delta = property( 'float', 'delta' ).assign( min$1( inc.x, min$1( inc.y, inc.z ) ) ); + + delta.divAssign( materialReference( 'steps', 'float' ) ); + + const ac = property( 'vec4', 'ac' ).assign( vec4( materialReference( 'base', 'color' ), 0.0 ) ); + + loop( { type: 'float', start: bounds.x, end: bounds.y, update: '+= delta' }, () => { + + const d = property( 'float', 'd' ).assign( map.uv( p.add( 0.5 ) ).r ); + + if ( this.testNode !== null ) { + + this.testNode( { map: map, mapValue: d, probe: p, finalColor: ac } ).append(); + + } else { + + // default to show surface of mesh + ac.a.assign( 1 ); + Break(); + + } + + p.addAssign( rayDir.mul( delta ) ); + + } ); + + ac.a.equal( 0 ).discard(); + + return vec4( ac ); + + } )(); + + super.setup( builder ); + + } + +} + +addNodeMaterial( 'VolumeNodeMaterial', VolumeNodeMaterial ); + +const superFromTypeFunction = MaterialLoader.createMaterialFromType; + +MaterialLoader.createMaterialFromType = function ( type ) { + + const material = createNodeMaterialFromType( type ); + + if ( material !== undefined ) { + + return material; + + } + + return superFromTypeFunction.call( this, type ); + +}; + +class NodeMaterialLoader extends MaterialLoader { + + constructor( manager ) { + + super( manager ); + + this.nodes = {}; + + } + + parse( json ) { + + const material = super.parse( json ); + + const nodes = this.nodes; + const inputNodes = json.inputNodes; + + for ( const property in inputNodes ) { + + const uuid = inputNodes[ property ]; + + material[ property ] = nodes[ uuid ]; + + } + + return material; + + } + + setNodes( value ) { + + this.nodes = value; + + return this; + + } + +} + +class NodeObjectLoader extends ObjectLoader { + + constructor( manager ) { + + super( manager ); + + this._nodesJSON = null; + + } + + parse( json, onLoad ) { + + this._nodesJSON = json.nodes; + + const data = super.parse( json, onLoad ); + + this._nodesJSON = null; // dispose + + return data; + + } + + parseNodes( json, textures ) { + + if ( json !== undefined ) { + + const loader = new NodeLoader(); + loader.setTextures( textures ); + + return loader.parseNodes( json ); + + } + + return {}; + + } + + parseMaterials( json, textures ) { + + const materials = {}; + + if ( json !== undefined ) { + + const nodes = this.parseNodes( this._nodesJSON, textures ); + + const loader = new NodeMaterialLoader(); + loader.setTextures( textures ); + loader.setNodes( nodes ); + + for ( let i = 0, l = json.length; i < l; i ++ ) { + + const data = json[ i ]; + + materials[ data.uuid ] = loader.parse( data ); + + } + + } + + return materials; + + } + +} + +class NodeParser { + + parseFunction( /*source*/ ) { + + console.warn( 'Abstract function.' ); + + } + +} + +class NodeFunction { + + constructor( type, inputs, name = '', precision = '' ) { + + this.type = type; + this.inputs = inputs; + this.name = name; + this.precision = precision; + + } + + getCode( /*name = this.name*/ ) { + + console.warn( 'Abstract function.' ); + + } + +} + +NodeFunction.isNodeFunction = true; + +const declarationRegexp$1 = /^\s*(highp|mediump|lowp)?\s*([a-z_0-9]+)\s*([a-z_0-9]+)?\s*\(([\s\S]*?)\)/i; +const propertiesRegexp$1 = /[a-z_0-9]+/ig; + +const pragmaMain = '#pragma main'; + +const parse$1 = ( source ) => { + + source = source.trim(); + + const pragmaMainIndex = source.indexOf( pragmaMain ); + + const mainCode = pragmaMainIndex !== - 1 ? source.slice( pragmaMainIndex + pragmaMain.length ) : source; + + const declaration = mainCode.match( declarationRegexp$1 ); + + if ( declaration !== null && declaration.length === 5 ) { + + // tokenizer + + const inputsCode = declaration[ 4 ]; + const propsMatches = []; + + let nameMatch = null; + + while ( ( nameMatch = propertiesRegexp$1.exec( inputsCode ) ) !== null ) { + + propsMatches.push( nameMatch ); + + } + + // parser + + const inputs = []; + + let i = 0; + + while ( i < propsMatches.length ) { + + const isConst = propsMatches[ i ][ 0 ] === 'const'; + + if ( isConst === true ) { + + i ++; + + } + + let qualifier = propsMatches[ i ][ 0 ]; + + if ( qualifier === 'in' || qualifier === 'out' || qualifier === 'inout' ) { + + i ++; + + } else { + + qualifier = ''; + + } + + const type = propsMatches[ i ++ ][ 0 ]; + + let count = Number.parseInt( propsMatches[ i ][ 0 ] ); + + if ( Number.isNaN( count ) === false ) i ++; + else count = null; + + const name = propsMatches[ i ++ ][ 0 ]; + + inputs.push( new NodeFunctionInput( type, name, count, qualifier, isConst ) ); + + } + + // + + const blockCode = mainCode.substring( declaration[ 0 ].length ); + + const name = declaration[ 3 ] !== undefined ? declaration[ 3 ] : ''; + const type = declaration[ 2 ]; + + const precision = declaration[ 1 ] !== undefined ? declaration[ 1 ] : ''; + + const headerCode = pragmaMainIndex !== - 1 ? source.slice( 0, pragmaMainIndex ) : ''; + + return { + type, + inputs, + name, + precision, + inputsCode, + blockCode, + headerCode + }; + + } else { + + throw new Error( 'FunctionNode: Function is not a GLSL code.' ); + + } + +}; + +class GLSLNodeFunction extends NodeFunction { + + constructor( source ) { + + const { type, inputs, name, precision, inputsCode, blockCode, headerCode } = parse$1( source ); + + super( type, inputs, name, precision ); + + this.inputsCode = inputsCode; + this.blockCode = blockCode; + this.headerCode = headerCode; + + } + + getCode( name = this.name ) { + + let code; + + const blockCode = this.blockCode; + + if ( blockCode !== '' ) { + + const { type, inputsCode, headerCode, precision } = this; + + let declarationCode = `${ type } ${ name } ( ${ inputsCode.trim() } )`; + + if ( precision !== '' ) { + + declarationCode = `${ precision } ${ declarationCode }`; + + } + + code = headerCode + declarationCode + blockCode; + + } else { + + // interface function + + code = ''; + + } + + return code; + + } + +} + +class GLSLNodeParser extends NodeParser { + + parseFunction( source ) { + + return new GLSLNodeFunction( source ); + + } + +} + +// Three.js Transpiler +// https://raw.githubusercontent.com/AcademySoftwareFoundation/MaterialX/main/libraries/stdlib/genglsl/lib/mx_noise.glsl + + + +const mx_select = /*#__PURE__*/ tslFn( ( [ b_immutable, t_immutable, f_immutable ] ) => { + + const f = float( f_immutable ).toVar(); + const t = float( t_immutable ).toVar(); + const b = bool( b_immutable ).toVar(); + + return cond( b, t, f ); + +} ).setLayout( { + name: 'mx_select', + type: 'float', + inputs: [ + { name: 'b', type: 'bool' }, + { name: 't', type: 'float' }, + { name: 'f', type: 'float' } + ] +} ); + +const mx_negate_if = /*#__PURE__*/ tslFn( ( [ val_immutable, b_immutable ] ) => { + + const b = bool( b_immutable ).toVar(); + const val = float( val_immutable ).toVar(); + + return cond( b, val.negate(), val ); + +} ).setLayout( { + name: 'mx_negate_if', + type: 'float', + inputs: [ + { name: 'val', type: 'float' }, + { name: 'b', type: 'bool' } + ] +} ); + +const mx_floor = /*#__PURE__*/ tslFn( ( [ x_immutable ] ) => { + + const x = float( x_immutable ).toVar(); + + return int( floor( x ) ); + +} ).setLayout( { + name: 'mx_floor', + type: 'int', + inputs: [ + { name: 'x', type: 'float' } + ] +} ); + +const mx_floorfrac = /*#__PURE__*/ tslFn( ( [ x_immutable, i ] ) => { + + const x = float( x_immutable ).toVar(); + i.assign( mx_floor( x ) ); + + return x.sub( float( i ) ); + +} ); + +const mx_bilerp_0 = /*#__PURE__*/ tslFn( ( [ v0_immutable, v1_immutable, v2_immutable, v3_immutable, s_immutable, t_immutable ] ) => { + + const t = float( t_immutable ).toVar(); + const s = float( s_immutable ).toVar(); + const v3 = float( v3_immutable ).toVar(); + const v2 = float( v2_immutable ).toVar(); + const v1 = float( v1_immutable ).toVar(); + const v0 = float( v0_immutable ).toVar(); + const s1 = float( sub( 1.0, s ) ).toVar(); + + return sub( 1.0, t ).mul( v0.mul( s1 ).add( v1.mul( s ) ) ).add( t.mul( v2.mul( s1 ).add( v3.mul( s ) ) ) ); + +} ).setLayout( { + name: 'mx_bilerp_0', + type: 'float', + inputs: [ + { name: 'v0', type: 'float' }, + { name: 'v1', type: 'float' }, + { name: 'v2', type: 'float' }, + { name: 'v3', type: 'float' }, + { name: 's', type: 'float' }, + { name: 't', type: 'float' } + ] +} ); + +const mx_bilerp_1 = /*#__PURE__*/ tslFn( ( [ v0_immutable, v1_immutable, v2_immutable, v3_immutable, s_immutable, t_immutable ] ) => { + + const t = float( t_immutable ).toVar(); + const s = float( s_immutable ).toVar(); + const v3 = vec3( v3_immutable ).toVar(); + const v2 = vec3( v2_immutable ).toVar(); + const v1 = vec3( v1_immutable ).toVar(); + const v0 = vec3( v0_immutable ).toVar(); + const s1 = float( sub( 1.0, s ) ).toVar(); + + return sub( 1.0, t ).mul( v0.mul( s1 ).add( v1.mul( s ) ) ).add( t.mul( v2.mul( s1 ).add( v3.mul( s ) ) ) ); + +} ).setLayout( { + name: 'mx_bilerp_1', + type: 'vec3', + inputs: [ + { name: 'v0', type: 'vec3' }, + { name: 'v1', type: 'vec3' }, + { name: 'v2', type: 'vec3' }, + { name: 'v3', type: 'vec3' }, + { name: 's', type: 'float' }, + { name: 't', type: 'float' } + ] +} ); + +const mx_bilerp = /*#__PURE__*/ overloadingFn( [ mx_bilerp_0, mx_bilerp_1 ] ); + +const mx_trilerp_0 = /*#__PURE__*/ tslFn( ( [ v0_immutable, v1_immutable, v2_immutable, v3_immutable, v4_immutable, v5_immutable, v6_immutable, v7_immutable, s_immutable, t_immutable, r_immutable ] ) => { + + const r = float( r_immutable ).toVar(); + const t = float( t_immutable ).toVar(); + const s = float( s_immutable ).toVar(); + const v7 = float( v7_immutable ).toVar(); + const v6 = float( v6_immutable ).toVar(); + const v5 = float( v5_immutable ).toVar(); + const v4 = float( v4_immutable ).toVar(); + const v3 = float( v3_immutable ).toVar(); + const v2 = float( v2_immutable ).toVar(); + const v1 = float( v1_immutable ).toVar(); + const v0 = float( v0_immutable ).toVar(); + const s1 = float( sub( 1.0, s ) ).toVar(); + const t1 = float( sub( 1.0, t ) ).toVar(); + const r1 = float( sub( 1.0, r ) ).toVar(); + + return r1.mul( t1.mul( v0.mul( s1 ).add( v1.mul( s ) ) ).add( t.mul( v2.mul( s1 ).add( v3.mul( s ) ) ) ) ).add( r.mul( t1.mul( v4.mul( s1 ).add( v5.mul( s ) ) ).add( t.mul( v6.mul( s1 ).add( v7.mul( s ) ) ) ) ) ); + +} ).setLayout( { + name: 'mx_trilerp_0', + type: 'float', + inputs: [ + { name: 'v0', type: 'float' }, + { name: 'v1', type: 'float' }, + { name: 'v2', type: 'float' }, + { name: 'v3', type: 'float' }, + { name: 'v4', type: 'float' }, + { name: 'v5', type: 'float' }, + { name: 'v6', type: 'float' }, + { name: 'v7', type: 'float' }, + { name: 's', type: 'float' }, + { name: 't', type: 'float' }, + { name: 'r', type: 'float' } + ] +} ); + +const mx_trilerp_1 = /*#__PURE__*/ tslFn( ( [ v0_immutable, v1_immutable, v2_immutable, v3_immutable, v4_immutable, v5_immutable, v6_immutable, v7_immutable, s_immutable, t_immutable, r_immutable ] ) => { + + const r = float( r_immutable ).toVar(); + const t = float( t_immutable ).toVar(); + const s = float( s_immutable ).toVar(); + const v7 = vec3( v7_immutable ).toVar(); + const v6 = vec3( v6_immutable ).toVar(); + const v5 = vec3( v5_immutable ).toVar(); + const v4 = vec3( v4_immutable ).toVar(); + const v3 = vec3( v3_immutable ).toVar(); + const v2 = vec3( v2_immutable ).toVar(); + const v1 = vec3( v1_immutable ).toVar(); + const v0 = vec3( v0_immutable ).toVar(); + const s1 = float( sub( 1.0, s ) ).toVar(); + const t1 = float( sub( 1.0, t ) ).toVar(); + const r1 = float( sub( 1.0, r ) ).toVar(); + + return r1.mul( t1.mul( v0.mul( s1 ).add( v1.mul( s ) ) ).add( t.mul( v2.mul( s1 ).add( v3.mul( s ) ) ) ) ).add( r.mul( t1.mul( v4.mul( s1 ).add( v5.mul( s ) ) ).add( t.mul( v6.mul( s1 ).add( v7.mul( s ) ) ) ) ) ); + +} ).setLayout( { + name: 'mx_trilerp_1', + type: 'vec3', + inputs: [ + { name: 'v0', type: 'vec3' }, + { name: 'v1', type: 'vec3' }, + { name: 'v2', type: 'vec3' }, + { name: 'v3', type: 'vec3' }, + { name: 'v4', type: 'vec3' }, + { name: 'v5', type: 'vec3' }, + { name: 'v6', type: 'vec3' }, + { name: 'v7', type: 'vec3' }, + { name: 's', type: 'float' }, + { name: 't', type: 'float' }, + { name: 'r', type: 'float' } + ] +} ); + +const mx_trilerp = /*#__PURE__*/ overloadingFn( [ mx_trilerp_0, mx_trilerp_1 ] ); + +const mx_gradient_float_0 = /*#__PURE__*/ tslFn( ( [ hash_immutable, x_immutable, y_immutable ] ) => { + + const y = float( y_immutable ).toVar(); + const x = float( x_immutable ).toVar(); + const hash = uint( hash_immutable ).toVar(); + const h = uint( hash.bitAnd( uint( 7 ) ) ).toVar(); + const u = float( mx_select( h.lessThan( uint( 4 ) ), x, y ) ).toVar(); + const v = float( mul( 2.0, mx_select( h.lessThan( uint( 4 ) ), y, x ) ) ).toVar(); + + return mx_negate_if( u, bool( h.bitAnd( uint( 1 ) ) ) ).add( mx_negate_if( v, bool( h.bitAnd( uint( 2 ) ) ) ) ); + +} ).setLayout( { + name: 'mx_gradient_float_0', + type: 'float', + inputs: [ + { name: 'hash', type: 'uint' }, + { name: 'x', type: 'float' }, + { name: 'y', type: 'float' } + ] +} ); + +const mx_gradient_float_1 = /*#__PURE__*/ tslFn( ( [ hash_immutable, x_immutable, y_immutable, z_immutable ] ) => { + + const z = float( z_immutable ).toVar(); + const y = float( y_immutable ).toVar(); + const x = float( x_immutable ).toVar(); + const hash = uint( hash_immutable ).toVar(); + const h = uint( hash.bitAnd( uint( 15 ) ) ).toVar(); + const u = float( mx_select( h.lessThan( uint( 8 ) ), x, y ) ).toVar(); + const v = float( mx_select( h.lessThan( uint( 4 ) ), y, mx_select( h.equal( uint( 12 ) ).or( h.equal( uint( 14 ) ) ), x, z ) ) ).toVar(); + + return mx_negate_if( u, bool( h.bitAnd( uint( 1 ) ) ) ).add( mx_negate_if( v, bool( h.bitAnd( uint( 2 ) ) ) ) ); + +} ).setLayout( { + name: 'mx_gradient_float_1', + type: 'float', + inputs: [ + { name: 'hash', type: 'uint' }, + { name: 'x', type: 'float' }, + { name: 'y', type: 'float' }, + { name: 'z', type: 'float' } + ] +} ); + +const mx_gradient_float = /*#__PURE__*/ overloadingFn( [ mx_gradient_float_0, mx_gradient_float_1 ] ); + +const mx_gradient_vec3_0 = /*#__PURE__*/ tslFn( ( [ hash_immutable, x_immutable, y_immutable ] ) => { + + const y = float( y_immutable ).toVar(); + const x = float( x_immutable ).toVar(); + const hash = uvec3( hash_immutable ).toVar(); + + return vec3( mx_gradient_float( hash.x, x, y ), mx_gradient_float( hash.y, x, y ), mx_gradient_float( hash.z, x, y ) ); + +} ).setLayout( { + name: 'mx_gradient_vec3_0', + type: 'vec3', + inputs: [ + { name: 'hash', type: 'uvec3' }, + { name: 'x', type: 'float' }, + { name: 'y', type: 'float' } + ] +} ); + +const mx_gradient_vec3_1 = /*#__PURE__*/ tslFn( ( [ hash_immutable, x_immutable, y_immutable, z_immutable ] ) => { + + const z = float( z_immutable ).toVar(); + const y = float( y_immutable ).toVar(); + const x = float( x_immutable ).toVar(); + const hash = uvec3( hash_immutable ).toVar(); + + return vec3( mx_gradient_float( hash.x, x, y, z ), mx_gradient_float( hash.y, x, y, z ), mx_gradient_float( hash.z, x, y, z ) ); + +} ).setLayout( { + name: 'mx_gradient_vec3_1', + type: 'vec3', + inputs: [ + { name: 'hash', type: 'uvec3' }, + { name: 'x', type: 'float' }, + { name: 'y', type: 'float' }, + { name: 'z', type: 'float' } + ] +} ); + +const mx_gradient_vec3 = /*#__PURE__*/ overloadingFn( [ mx_gradient_vec3_0, mx_gradient_vec3_1 ] ); + +const mx_gradient_scale2d_0 = /*#__PURE__*/ tslFn( ( [ v_immutable ] ) => { + + const v = float( v_immutable ).toVar(); + + return mul( 0.6616, v ); + +} ).setLayout( { + name: 'mx_gradient_scale2d_0', + type: 'float', + inputs: [ + { name: 'v', type: 'float' } + ] +} ); + +const mx_gradient_scale3d_0 = /*#__PURE__*/ tslFn( ( [ v_immutable ] ) => { + + const v = float( v_immutable ).toVar(); + + return mul( 0.9820, v ); + +} ).setLayout( { + name: 'mx_gradient_scale3d_0', + type: 'float', + inputs: [ + { name: 'v', type: 'float' } + ] +} ); + +const mx_gradient_scale2d_1 = /*#__PURE__*/ tslFn( ( [ v_immutable ] ) => { + + const v = vec3( v_immutable ).toVar(); + + return mul( 0.6616, v ); + +} ).setLayout( { + name: 'mx_gradient_scale2d_1', + type: 'vec3', + inputs: [ + { name: 'v', type: 'vec3' } + ] +} ); + +const mx_gradient_scale2d = /*#__PURE__*/ overloadingFn( [ mx_gradient_scale2d_0, mx_gradient_scale2d_1 ] ); + +const mx_gradient_scale3d_1 = /*#__PURE__*/ tslFn( ( [ v_immutable ] ) => { + + const v = vec3( v_immutable ).toVar(); + + return mul( 0.9820, v ); + +} ).setLayout( { + name: 'mx_gradient_scale3d_1', + type: 'vec3', + inputs: [ + { name: 'v', type: 'vec3' } + ] +} ); + +const mx_gradient_scale3d = /*#__PURE__*/ overloadingFn( [ mx_gradient_scale3d_0, mx_gradient_scale3d_1 ] ); + +const mx_rotl32 = /*#__PURE__*/ tslFn( ( [ x_immutable, k_immutable ] ) => { + + const k = int( k_immutable ).toVar(); + const x = uint( x_immutable ).toVar(); + + return x.shiftLeft( k ).bitOr( x.shiftRight( int( 32 ).sub( k ) ) ); + +} ).setLayout( { + name: 'mx_rotl32', + type: 'uint', + inputs: [ + { name: 'x', type: 'uint' }, + { name: 'k', type: 'int' } + ] +} ); + +const mx_bjmix = /*#__PURE__*/ tslFn( ( [ a, b, c ] ) => { + + a.subAssign( c ); + a.bitXorAssign( mx_rotl32( c, int( 4 ) ) ); + c.addAssign( b ); + b.subAssign( a ); + b.bitXorAssign( mx_rotl32( a, int( 6 ) ) ); + a.addAssign( c ); + c.subAssign( b ); + c.bitXorAssign( mx_rotl32( b, int( 8 ) ) ); + b.addAssign( a ); + a.subAssign( c ); + a.bitXorAssign( mx_rotl32( c, int( 16 ) ) ); + c.addAssign( b ); + b.subAssign( a ); + b.bitXorAssign( mx_rotl32( a, int( 19 ) ) ); + a.addAssign( c ); + c.subAssign( b ); + c.bitXorAssign( mx_rotl32( b, int( 4 ) ) ); + b.addAssign( a ); + +} ); + +const mx_bjfinal = /*#__PURE__*/ tslFn( ( [ a_immutable, b_immutable, c_immutable ] ) => { + + const c = uint( c_immutable ).toVar(); + const b = uint( b_immutable ).toVar(); + const a = uint( a_immutable ).toVar(); + c.bitXorAssign( b ); + c.subAssign( mx_rotl32( b, int( 14 ) ) ); + a.bitXorAssign( c ); + a.subAssign( mx_rotl32( c, int( 11 ) ) ); + b.bitXorAssign( a ); + b.subAssign( mx_rotl32( a, int( 25 ) ) ); + c.bitXorAssign( b ); + c.subAssign( mx_rotl32( b, int( 16 ) ) ); + a.bitXorAssign( c ); + a.subAssign( mx_rotl32( c, int( 4 ) ) ); + b.bitXorAssign( a ); + b.subAssign( mx_rotl32( a, int( 14 ) ) ); + c.bitXorAssign( b ); + c.subAssign( mx_rotl32( b, int( 24 ) ) ); + + return c; + +} ).setLayout( { + name: 'mx_bjfinal', + type: 'uint', + inputs: [ + { name: 'a', type: 'uint' }, + { name: 'b', type: 'uint' }, + { name: 'c', type: 'uint' } + ] +} ); + +const mx_bits_to_01 = /*#__PURE__*/ tslFn( ( [ bits_immutable ] ) => { + + const bits = uint( bits_immutable ).toVar(); + + return float( bits ).div( float( uint( int( 0xffffffff ) ) ) ); + +} ).setLayout( { + name: 'mx_bits_to_01', + type: 'float', + inputs: [ + { name: 'bits', type: 'uint' } + ] +} ); + +const mx_fade = /*#__PURE__*/ tslFn( ( [ t_immutable ] ) => { + + const t = float( t_immutable ).toVar(); + + return t.mul( t ).mul( t ).mul( t.mul( t.mul( 6.0 ).sub( 15.0 ) ).add( 10.0 ) ); + +} ).setLayout( { + name: 'mx_fade', + type: 'float', + inputs: [ + { name: 't', type: 'float' } + ] +} ); + +const mx_hash_int_0 = /*#__PURE__*/ tslFn( ( [ x_immutable ] ) => { + + const x = int( x_immutable ).toVar(); + const len = uint( uint( 1 ) ).toVar(); + const seed = uint( uint( int( 0xdeadbeef ) ).add( len.shiftLeft( uint( 2 ) ) ).add( uint( 13 ) ) ).toVar(); + + return mx_bjfinal( seed.add( uint( x ) ), seed, seed ); + +} ).setLayout( { + name: 'mx_hash_int_0', + type: 'uint', + inputs: [ + { name: 'x', type: 'int' } + ] +} ); + +const mx_hash_int_1 = /*#__PURE__*/ tslFn( ( [ x_immutable, y_immutable ] ) => { + + const y = int( y_immutable ).toVar(); + const x = int( x_immutable ).toVar(); + const len = uint( uint( 2 ) ).toVar(); + const a = uint().toVar(), b = uint().toVar(), c = uint().toVar(); + a.assign( b.assign( c.assign( uint( int( 0xdeadbeef ) ).add( len.shiftLeft( uint( 2 ) ) ).add( uint( 13 ) ) ) ) ); + a.addAssign( uint( x ) ); + b.addAssign( uint( y ) ); + + return mx_bjfinal( a, b, c ); + +} ).setLayout( { + name: 'mx_hash_int_1', + type: 'uint', + inputs: [ + { name: 'x', type: 'int' }, + { name: 'y', type: 'int' } + ] +} ); + +const mx_hash_int_2 = /*#__PURE__*/ tslFn( ( [ x_immutable, y_immutable, z_immutable ] ) => { + + const z = int( z_immutable ).toVar(); + const y = int( y_immutable ).toVar(); + const x = int( x_immutable ).toVar(); + const len = uint( uint( 3 ) ).toVar(); + const a = uint().toVar(), b = uint().toVar(), c = uint().toVar(); + a.assign( b.assign( c.assign( uint( int( 0xdeadbeef ) ).add( len.shiftLeft( uint( 2 ) ) ).add( uint( 13 ) ) ) ) ); + a.addAssign( uint( x ) ); + b.addAssign( uint( y ) ); + c.addAssign( uint( z ) ); + + return mx_bjfinal( a, b, c ); + +} ).setLayout( { + name: 'mx_hash_int_2', + type: 'uint', + inputs: [ + { name: 'x', type: 'int' }, + { name: 'y', type: 'int' }, + { name: 'z', type: 'int' } + ] +} ); + +const mx_hash_int_3 = /*#__PURE__*/ tslFn( ( [ x_immutable, y_immutable, z_immutable, xx_immutable ] ) => { + + const xx = int( xx_immutable ).toVar(); + const z = int( z_immutable ).toVar(); + const y = int( y_immutable ).toVar(); + const x = int( x_immutable ).toVar(); + const len = uint( uint( 4 ) ).toVar(); + const a = uint().toVar(), b = uint().toVar(), c = uint().toVar(); + a.assign( b.assign( c.assign( uint( int( 0xdeadbeef ) ).add( len.shiftLeft( uint( 2 ) ) ).add( uint( 13 ) ) ) ) ); + a.addAssign( uint( x ) ); + b.addAssign( uint( y ) ); + c.addAssign( uint( z ) ); + mx_bjmix( a, b, c ); + a.addAssign( uint( xx ) ); + + return mx_bjfinal( a, b, c ); + +} ).setLayout( { + name: 'mx_hash_int_3', + type: 'uint', + inputs: [ + { name: 'x', type: 'int' }, + { name: 'y', type: 'int' }, + { name: 'z', type: 'int' }, + { name: 'xx', type: 'int' } + ] +} ); + +const mx_hash_int_4 = /*#__PURE__*/ tslFn( ( [ x_immutable, y_immutable, z_immutable, xx_immutable, yy_immutable ] ) => { + + const yy = int( yy_immutable ).toVar(); + const xx = int( xx_immutable ).toVar(); + const z = int( z_immutable ).toVar(); + const y = int( y_immutable ).toVar(); + const x = int( x_immutable ).toVar(); + const len = uint( uint( 5 ) ).toVar(); + const a = uint().toVar(), b = uint().toVar(), c = uint().toVar(); + a.assign( b.assign( c.assign( uint( int( 0xdeadbeef ) ).add( len.shiftLeft( uint( 2 ) ) ).add( uint( 13 ) ) ) ) ); + a.addAssign( uint( x ) ); + b.addAssign( uint( y ) ); + c.addAssign( uint( z ) ); + mx_bjmix( a, b, c ); + a.addAssign( uint( xx ) ); + b.addAssign( uint( yy ) ); + + return mx_bjfinal( a, b, c ); + +} ).setLayout( { + name: 'mx_hash_int_4', + type: 'uint', + inputs: [ + { name: 'x', type: 'int' }, + { name: 'y', type: 'int' }, + { name: 'z', type: 'int' }, + { name: 'xx', type: 'int' }, + { name: 'yy', type: 'int' } + ] +} ); + +const mx_hash_int = /*#__PURE__*/ overloadingFn( [ mx_hash_int_0, mx_hash_int_1, mx_hash_int_2, mx_hash_int_3, mx_hash_int_4 ] ); + +const mx_hash_vec3_0 = /*#__PURE__*/ tslFn( ( [ x_immutable, y_immutable ] ) => { + + const y = int( y_immutable ).toVar(); + const x = int( x_immutable ).toVar(); + const h = uint( mx_hash_int( x, y ) ).toVar(); + const result = uvec3().toVar(); + result.x.assign( h.bitAnd( int( 0xFF ) ) ); + result.y.assign( h.shiftRight( int( 8 ) ).bitAnd( int( 0xFF ) ) ); + result.z.assign( h.shiftRight( int( 16 ) ).bitAnd( int( 0xFF ) ) ); + + return result; + +} ).setLayout( { + name: 'mx_hash_vec3_0', + type: 'uvec3', + inputs: [ + { name: 'x', type: 'int' }, + { name: 'y', type: 'int' } + ] +} ); + +const mx_hash_vec3_1 = /*#__PURE__*/ tslFn( ( [ x_immutable, y_immutable, z_immutable ] ) => { + + const z = int( z_immutable ).toVar(); + const y = int( y_immutable ).toVar(); + const x = int( x_immutable ).toVar(); + const h = uint( mx_hash_int( x, y, z ) ).toVar(); + const result = uvec3().toVar(); + result.x.assign( h.bitAnd( int( 0xFF ) ) ); + result.y.assign( h.shiftRight( int( 8 ) ).bitAnd( int( 0xFF ) ) ); + result.z.assign( h.shiftRight( int( 16 ) ).bitAnd( int( 0xFF ) ) ); + + return result; + +} ).setLayout( { + name: 'mx_hash_vec3_1', + type: 'uvec3', + inputs: [ + { name: 'x', type: 'int' }, + { name: 'y', type: 'int' }, + { name: 'z', type: 'int' } + ] +} ); + +const mx_hash_vec3 = /*#__PURE__*/ overloadingFn( [ mx_hash_vec3_0, mx_hash_vec3_1 ] ); + +const mx_perlin_noise_float_0 = /*#__PURE__*/ tslFn( ( [ p_immutable ] ) => { + + const p = vec2( p_immutable ).toVar(); + const X = int().toVar(), Y = int().toVar(); + const fx = float( mx_floorfrac( p.x, X ) ).toVar(); + const fy = float( mx_floorfrac( p.y, Y ) ).toVar(); + const u = float( mx_fade( fx ) ).toVar(); + const v = float( mx_fade( fy ) ).toVar(); + const result = float( mx_bilerp( mx_gradient_float( mx_hash_int( X, Y ), fx, fy ), mx_gradient_float( mx_hash_int( X.add( int( 1 ) ), Y ), fx.sub( 1.0 ), fy ), mx_gradient_float( mx_hash_int( X, Y.add( int( 1 ) ) ), fx, fy.sub( 1.0 ) ), mx_gradient_float( mx_hash_int( X.add( int( 1 ) ), Y.add( int( 1 ) ) ), fx.sub( 1.0 ), fy.sub( 1.0 ) ), u, v ) ).toVar(); + + return mx_gradient_scale2d( result ); + +} ).setLayout( { + name: 'mx_perlin_noise_float_0', + type: 'float', + inputs: [ + { name: 'p', type: 'vec2' } + ] +} ); + +const mx_perlin_noise_float_1 = /*#__PURE__*/ tslFn( ( [ p_immutable ] ) => { + + const p = vec3( p_immutable ).toVar(); + const X = int().toVar(), Y = int().toVar(), Z = int().toVar(); + const fx = float( mx_floorfrac( p.x, X ) ).toVar(); + const fy = float( mx_floorfrac( p.y, Y ) ).toVar(); + const fz = float( mx_floorfrac( p.z, Z ) ).toVar(); + const u = float( mx_fade( fx ) ).toVar(); + const v = float( mx_fade( fy ) ).toVar(); + const w = float( mx_fade( fz ) ).toVar(); + const result = float( mx_trilerp( mx_gradient_float( mx_hash_int( X, Y, Z ), fx, fy, fz ), mx_gradient_float( mx_hash_int( X.add( int( 1 ) ), Y, Z ), fx.sub( 1.0 ), fy, fz ), mx_gradient_float( mx_hash_int( X, Y.add( int( 1 ) ), Z ), fx, fy.sub( 1.0 ), fz ), mx_gradient_float( mx_hash_int( X.add( int( 1 ) ), Y.add( int( 1 ) ), Z ), fx.sub( 1.0 ), fy.sub( 1.0 ), fz ), mx_gradient_float( mx_hash_int( X, Y, Z.add( int( 1 ) ) ), fx, fy, fz.sub( 1.0 ) ), mx_gradient_float( mx_hash_int( X.add( int( 1 ) ), Y, Z.add( int( 1 ) ) ), fx.sub( 1.0 ), fy, fz.sub( 1.0 ) ), mx_gradient_float( mx_hash_int( X, Y.add( int( 1 ) ), Z.add( int( 1 ) ) ), fx, fy.sub( 1.0 ), fz.sub( 1.0 ) ), mx_gradient_float( mx_hash_int( X.add( int( 1 ) ), Y.add( int( 1 ) ), Z.add( int( 1 ) ) ), fx.sub( 1.0 ), fy.sub( 1.0 ), fz.sub( 1.0 ) ), u, v, w ) ).toVar(); + + return mx_gradient_scale3d( result ); + +} ).setLayout( { + name: 'mx_perlin_noise_float_1', + type: 'float', + inputs: [ + { name: 'p', type: 'vec3' } + ] +} ); + +const mx_perlin_noise_float = /*#__PURE__*/ overloadingFn( [ mx_perlin_noise_float_0, mx_perlin_noise_float_1 ] ); + +const mx_perlin_noise_vec3_0 = /*#__PURE__*/ tslFn( ( [ p_immutable ] ) => { + + const p = vec2( p_immutable ).toVar(); + const X = int().toVar(), Y = int().toVar(); + const fx = float( mx_floorfrac( p.x, X ) ).toVar(); + const fy = float( mx_floorfrac( p.y, Y ) ).toVar(); + const u = float( mx_fade( fx ) ).toVar(); + const v = float( mx_fade( fy ) ).toVar(); + const result = vec3( mx_bilerp( mx_gradient_vec3( mx_hash_vec3( X, Y ), fx, fy ), mx_gradient_vec3( mx_hash_vec3( X.add( int( 1 ) ), Y ), fx.sub( 1.0 ), fy ), mx_gradient_vec3( mx_hash_vec3( X, Y.add( int( 1 ) ) ), fx, fy.sub( 1.0 ) ), mx_gradient_vec3( mx_hash_vec3( X.add( int( 1 ) ), Y.add( int( 1 ) ) ), fx.sub( 1.0 ), fy.sub( 1.0 ) ), u, v ) ).toVar(); + + return mx_gradient_scale2d( result ); + +} ).setLayout( { + name: 'mx_perlin_noise_vec3_0', + type: 'vec3', + inputs: [ + { name: 'p', type: 'vec2' } + ] +} ); + +const mx_perlin_noise_vec3_1 = /*#__PURE__*/ tslFn( ( [ p_immutable ] ) => { + + const p = vec3( p_immutable ).toVar(); + const X = int().toVar(), Y = int().toVar(), Z = int().toVar(); + const fx = float( mx_floorfrac( p.x, X ) ).toVar(); + const fy = float( mx_floorfrac( p.y, Y ) ).toVar(); + const fz = float( mx_floorfrac( p.z, Z ) ).toVar(); + const u = float( mx_fade( fx ) ).toVar(); + const v = float( mx_fade( fy ) ).toVar(); + const w = float( mx_fade( fz ) ).toVar(); + const result = vec3( mx_trilerp( mx_gradient_vec3( mx_hash_vec3( X, Y, Z ), fx, fy, fz ), mx_gradient_vec3( mx_hash_vec3( X.add( int( 1 ) ), Y, Z ), fx.sub( 1.0 ), fy, fz ), mx_gradient_vec3( mx_hash_vec3( X, Y.add( int( 1 ) ), Z ), fx, fy.sub( 1.0 ), fz ), mx_gradient_vec3( mx_hash_vec3( X.add( int( 1 ) ), Y.add( int( 1 ) ), Z ), fx.sub( 1.0 ), fy.sub( 1.0 ), fz ), mx_gradient_vec3( mx_hash_vec3( X, Y, Z.add( int( 1 ) ) ), fx, fy, fz.sub( 1.0 ) ), mx_gradient_vec3( mx_hash_vec3( X.add( int( 1 ) ), Y, Z.add( int( 1 ) ) ), fx.sub( 1.0 ), fy, fz.sub( 1.0 ) ), mx_gradient_vec3( mx_hash_vec3( X, Y.add( int( 1 ) ), Z.add( int( 1 ) ) ), fx, fy.sub( 1.0 ), fz.sub( 1.0 ) ), mx_gradient_vec3( mx_hash_vec3( X.add( int( 1 ) ), Y.add( int( 1 ) ), Z.add( int( 1 ) ) ), fx.sub( 1.0 ), fy.sub( 1.0 ), fz.sub( 1.0 ) ), u, v, w ) ).toVar(); + + return mx_gradient_scale3d( result ); + +} ).setLayout( { + name: 'mx_perlin_noise_vec3_1', + type: 'vec3', + inputs: [ + { name: 'p', type: 'vec3' } + ] +} ); + +const mx_perlin_noise_vec3 = /*#__PURE__*/ overloadingFn( [ mx_perlin_noise_vec3_0, mx_perlin_noise_vec3_1 ] ); + +const mx_cell_noise_float_0 = /*#__PURE__*/ tslFn( ( [ p_immutable ] ) => { + + const p = float( p_immutable ).toVar(); + const ix = int( mx_floor( p ) ).toVar(); + + return mx_bits_to_01( mx_hash_int( ix ) ); + +} ).setLayout( { + name: 'mx_cell_noise_float_0', + type: 'float', + inputs: [ + { name: 'p', type: 'float' } + ] +} ); + +const mx_cell_noise_float_1 = /*#__PURE__*/ tslFn( ( [ p_immutable ] ) => { + + const p = vec2( p_immutable ).toVar(); + const ix = int( mx_floor( p.x ) ).toVar(); + const iy = int( mx_floor( p.y ) ).toVar(); + + return mx_bits_to_01( mx_hash_int( ix, iy ) ); + +} ).setLayout( { + name: 'mx_cell_noise_float_1', + type: 'float', + inputs: [ + { name: 'p', type: 'vec2' } + ] +} ); + +const mx_cell_noise_float_2 = /*#__PURE__*/ tslFn( ( [ p_immutable ] ) => { + + const p = vec3( p_immutable ).toVar(); + const ix = int( mx_floor( p.x ) ).toVar(); + const iy = int( mx_floor( p.y ) ).toVar(); + const iz = int( mx_floor( p.z ) ).toVar(); + + return mx_bits_to_01( mx_hash_int( ix, iy, iz ) ); + +} ).setLayout( { + name: 'mx_cell_noise_float_2', + type: 'float', + inputs: [ + { name: 'p', type: 'vec3' } + ] +} ); + +const mx_cell_noise_float_3 = /*#__PURE__*/ tslFn( ( [ p_immutable ] ) => { + + const p = vec4( p_immutable ).toVar(); + const ix = int( mx_floor( p.x ) ).toVar(); + const iy = int( mx_floor( p.y ) ).toVar(); + const iz = int( mx_floor( p.z ) ).toVar(); + const iw = int( mx_floor( p.w ) ).toVar(); + + return mx_bits_to_01( mx_hash_int( ix, iy, iz, iw ) ); + +} ).setLayout( { + name: 'mx_cell_noise_float_3', + type: 'float', + inputs: [ + { name: 'p', type: 'vec4' } + ] +} ); + +const mx_cell_noise_float$1 = /*#__PURE__*/ overloadingFn( [ mx_cell_noise_float_0, mx_cell_noise_float_1, mx_cell_noise_float_2, mx_cell_noise_float_3 ] ); + +const mx_cell_noise_vec3_0 = /*#__PURE__*/ tslFn( ( [ p_immutable ] ) => { + + const p = float( p_immutable ).toVar(); + const ix = int( mx_floor( p ) ).toVar(); + + return vec3( mx_bits_to_01( mx_hash_int( ix, int( 0 ) ) ), mx_bits_to_01( mx_hash_int( ix, int( 1 ) ) ), mx_bits_to_01( mx_hash_int( ix, int( 2 ) ) ) ); + +} ).setLayout( { + name: 'mx_cell_noise_vec3_0', + type: 'vec3', + inputs: [ + { name: 'p', type: 'float' } + ] +} ); + +const mx_cell_noise_vec3_1 = /*#__PURE__*/ tslFn( ( [ p_immutable ] ) => { + + const p = vec2( p_immutable ).toVar(); + const ix = int( mx_floor( p.x ) ).toVar(); + const iy = int( mx_floor( p.y ) ).toVar(); + + return vec3( mx_bits_to_01( mx_hash_int( ix, iy, int( 0 ) ) ), mx_bits_to_01( mx_hash_int( ix, iy, int( 1 ) ) ), mx_bits_to_01( mx_hash_int( ix, iy, int( 2 ) ) ) ); + +} ).setLayout( { + name: 'mx_cell_noise_vec3_1', + type: 'vec3', + inputs: [ + { name: 'p', type: 'vec2' } + ] +} ); + +const mx_cell_noise_vec3_2 = /*#__PURE__*/ tslFn( ( [ p_immutable ] ) => { + + const p = vec3( p_immutable ).toVar(); + const ix = int( mx_floor( p.x ) ).toVar(); + const iy = int( mx_floor( p.y ) ).toVar(); + const iz = int( mx_floor( p.z ) ).toVar(); + + return vec3( mx_bits_to_01( mx_hash_int( ix, iy, iz, int( 0 ) ) ), mx_bits_to_01( mx_hash_int( ix, iy, iz, int( 1 ) ) ), mx_bits_to_01( mx_hash_int( ix, iy, iz, int( 2 ) ) ) ); + +} ).setLayout( { + name: 'mx_cell_noise_vec3_2', + type: 'vec3', + inputs: [ + { name: 'p', type: 'vec3' } + ] +} ); + +const mx_cell_noise_vec3_3 = /*#__PURE__*/ tslFn( ( [ p_immutable ] ) => { + + const p = vec4( p_immutable ).toVar(); + const ix = int( mx_floor( p.x ) ).toVar(); + const iy = int( mx_floor( p.y ) ).toVar(); + const iz = int( mx_floor( p.z ) ).toVar(); + const iw = int( mx_floor( p.w ) ).toVar(); + + return vec3( mx_bits_to_01( mx_hash_int( ix, iy, iz, iw, int( 0 ) ) ), mx_bits_to_01( mx_hash_int( ix, iy, iz, iw, int( 1 ) ) ), mx_bits_to_01( mx_hash_int( ix, iy, iz, iw, int( 2 ) ) ) ); + +} ).setLayout( { + name: 'mx_cell_noise_vec3_3', + type: 'vec3', + inputs: [ + { name: 'p', type: 'vec4' } + ] +} ); + +const mx_cell_noise_vec3 = /*#__PURE__*/ overloadingFn( [ mx_cell_noise_vec3_0, mx_cell_noise_vec3_1, mx_cell_noise_vec3_2, mx_cell_noise_vec3_3 ] ); + +const mx_fractal_noise_float$1 = /*#__PURE__*/ tslFn( ( [ p_immutable, octaves_immutable, lacunarity_immutable, diminish_immutable ] ) => { + + const diminish = float( diminish_immutable ).toVar(); + const lacunarity = float( lacunarity_immutable ).toVar(); + const octaves = int( octaves_immutable ).toVar(); + const p = vec3( p_immutable ).toVar(); + const result = float( 0.0 ).toVar(); + const amplitude = float( 1.0 ).toVar(); + + loop( octaves, () => { + + result.addAssign( amplitude.mul( mx_perlin_noise_float( p ) ) ); + amplitude.mulAssign( diminish ); + p.mulAssign( lacunarity ); + + } ); + + return result; + +} ).setLayout( { + name: 'mx_fractal_noise_float', + type: 'float', + inputs: [ + { name: 'p', type: 'vec3' }, + { name: 'octaves', type: 'int' }, + { name: 'lacunarity', type: 'float' }, + { name: 'diminish', type: 'float' } + ] +} ); + +const mx_fractal_noise_vec3$1 = /*#__PURE__*/ tslFn( ( [ p_immutable, octaves_immutable, lacunarity_immutable, diminish_immutable ] ) => { + + const diminish = float( diminish_immutable ).toVar(); + const lacunarity = float( lacunarity_immutable ).toVar(); + const octaves = int( octaves_immutable ).toVar(); + const p = vec3( p_immutable ).toVar(); + const result = vec3( 0.0 ).toVar(); + const amplitude = float( 1.0 ).toVar(); + + loop( octaves, () => { + + result.addAssign( amplitude.mul( mx_perlin_noise_vec3( p ) ) ); + amplitude.mulAssign( diminish ); + p.mulAssign( lacunarity ); + + } ); + + return result; + +} ).setLayout( { + name: 'mx_fractal_noise_vec3', + type: 'vec3', + inputs: [ + { name: 'p', type: 'vec3' }, + { name: 'octaves', type: 'int' }, + { name: 'lacunarity', type: 'float' }, + { name: 'diminish', type: 'float' } + ] +} ); + +const mx_fractal_noise_vec2$1 = /*#__PURE__*/ tslFn( ( [ p_immutable, octaves_immutable, lacunarity_immutable, diminish_immutable ] ) => { + + const diminish = float( diminish_immutable ).toVar(); + const lacunarity = float( lacunarity_immutable ).toVar(); + const octaves = int( octaves_immutable ).toVar(); + const p = vec3( p_immutable ).toVar(); + + return vec2( mx_fractal_noise_float$1( p, octaves, lacunarity, diminish ), mx_fractal_noise_float$1( p.add( vec3( int( 19 ), int( 193 ), int( 17 ) ) ), octaves, lacunarity, diminish ) ); + +} ).setLayout( { + name: 'mx_fractal_noise_vec2', + type: 'vec2', + inputs: [ + { name: 'p', type: 'vec3' }, + { name: 'octaves', type: 'int' }, + { name: 'lacunarity', type: 'float' }, + { name: 'diminish', type: 'float' } + ] +} ); + +const mx_fractal_noise_vec4$1 = /*#__PURE__*/ tslFn( ( [ p_immutable, octaves_immutable, lacunarity_immutable, diminish_immutable ] ) => { + + const diminish = float( diminish_immutable ).toVar(); + const lacunarity = float( lacunarity_immutable ).toVar(); + const octaves = int( octaves_immutable ).toVar(); + const p = vec3( p_immutable ).toVar(); + const c = vec3( mx_fractal_noise_vec3$1( p, octaves, lacunarity, diminish ) ).toVar(); + const f = float( mx_fractal_noise_float$1( p.add( vec3( int( 19 ), int( 193 ), int( 17 ) ) ), octaves, lacunarity, diminish ) ).toVar(); + + return vec4( c, f ); + +} ).setLayout( { + name: 'mx_fractal_noise_vec4', + type: 'vec4', + inputs: [ + { name: 'p', type: 'vec3' }, + { name: 'octaves', type: 'int' }, + { name: 'lacunarity', type: 'float' }, + { name: 'diminish', type: 'float' } + ] +} ); + +const mx_worley_distance_0 = /*#__PURE__*/ tslFn( ( [ p_immutable, x_immutable, y_immutable, xoff_immutable, yoff_immutable, jitter_immutable, metric_immutable ] ) => { + + const metric = int( metric_immutable ).toVar(); + const jitter = float( jitter_immutable ).toVar(); + const yoff = int( yoff_immutable ).toVar(); + const xoff = int( xoff_immutable ).toVar(); + const y = int( y_immutable ).toVar(); + const x = int( x_immutable ).toVar(); + const p = vec2( p_immutable ).toVar(); + const tmp = vec3( mx_cell_noise_vec3( vec2( x.add( xoff ), y.add( yoff ) ) ) ).toVar(); + const off = vec2( tmp.x, tmp.y ).toVar(); + off.subAssign( 0.5 ); + off.mulAssign( jitter ); + off.addAssign( 0.5 ); + const cellpos = vec2( vec2( float( x ), float( y ) ).add( off ) ).toVar(); + const diff = vec2( cellpos.sub( p ) ).toVar(); + + If( metric.equal( int( 2 ) ), () => { + + return abs( diff.x ).add( abs( diff.y ) ); + + } ); + + If( metric.equal( int( 3 ) ), () => { + + return max$1( abs( diff.x ), abs( diff.y ) ); + + } ); + + return dot( diff, diff ); + +} ).setLayout( { + name: 'mx_worley_distance_0', + type: 'float', + inputs: [ + { name: 'p', type: 'vec2' }, + { name: 'x', type: 'int' }, + { name: 'y', type: 'int' }, + { name: 'xoff', type: 'int' }, + { name: 'yoff', type: 'int' }, + { name: 'jitter', type: 'float' }, + { name: 'metric', type: 'int' } + ] +} ); + +const mx_worley_distance_1 = /*#__PURE__*/ tslFn( ( [ p_immutable, x_immutable, y_immutable, z_immutable, xoff_immutable, yoff_immutable, zoff_immutable, jitter_immutable, metric_immutable ] ) => { + + const metric = int( metric_immutable ).toVar(); + const jitter = float( jitter_immutable ).toVar(); + const zoff = int( zoff_immutable ).toVar(); + const yoff = int( yoff_immutable ).toVar(); + const xoff = int( xoff_immutable ).toVar(); + const z = int( z_immutable ).toVar(); + const y = int( y_immutable ).toVar(); + const x = int( x_immutable ).toVar(); + const p = vec3( p_immutable ).toVar(); + const off = vec3( mx_cell_noise_vec3( vec3( x.add( xoff ), y.add( yoff ), z.add( zoff ) ) ) ).toVar(); + off.subAssign( 0.5 ); + off.mulAssign( jitter ); + off.addAssign( 0.5 ); + const cellpos = vec3( vec3( float( x ), float( y ), float( z ) ).add( off ) ).toVar(); + const diff = vec3( cellpos.sub( p ) ).toVar(); + + If( metric.equal( int( 2 ) ), () => { + + return abs( diff.x ).add( abs( diff.y ) ).add( abs( diff.z ) ); + + } ); + + If( metric.equal( int( 3 ) ), () => { + + return max$1( max$1( abs( diff.x ), abs( diff.y ) ), abs( diff.z ) ); + + } ); + + return dot( diff, diff ); + +} ).setLayout( { + name: 'mx_worley_distance_1', + type: 'float', + inputs: [ + { name: 'p', type: 'vec3' }, + { name: 'x', type: 'int' }, + { name: 'y', type: 'int' }, + { name: 'z', type: 'int' }, + { name: 'xoff', type: 'int' }, + { name: 'yoff', type: 'int' }, + { name: 'zoff', type: 'int' }, + { name: 'jitter', type: 'float' }, + { name: 'metric', type: 'int' } + ] +} ); + +const mx_worley_distance = /*#__PURE__*/ overloadingFn( [ mx_worley_distance_0, mx_worley_distance_1 ] ); + +const mx_worley_noise_float_0 = /*#__PURE__*/ tslFn( ( [ p_immutable, jitter_immutable, metric_immutable ] ) => { + + const metric = int( metric_immutable ).toVar(); + const jitter = float( jitter_immutable ).toVar(); + const p = vec2( p_immutable ).toVar(); + const X = int().toVar(), Y = int().toVar(); + const localpos = vec2( mx_floorfrac( p.x, X ), mx_floorfrac( p.y, Y ) ).toVar(); + const sqdist = float( 1e6 ).toVar(); + + loop( { start: - 1, end: int( 1 ), name: 'x', condition: '<=' }, ( { x } ) => { + + loop( { start: - 1, end: int( 1 ), name: 'y', condition: '<=' }, ( { y } ) => { + + const dist = float( mx_worley_distance( localpos, x, y, X, Y, jitter, metric ) ).toVar(); + sqdist.assign( min$1( sqdist, dist ) ); + + } ); + + } ); + + If( metric.equal( int( 0 ) ), () => { + + sqdist.assign( sqrt( sqdist ) ); + + } ); + + return sqdist; + +} ).setLayout( { + name: 'mx_worley_noise_float_0', + type: 'float', + inputs: [ + { name: 'p', type: 'vec2' }, + { name: 'jitter', type: 'float' }, + { name: 'metric', type: 'int' } + ] +} ); + +const mx_worley_noise_vec2_0 = /*#__PURE__*/ tslFn( ( [ p_immutable, jitter_immutable, metric_immutable ] ) => { + + const metric = int( metric_immutable ).toVar(); + const jitter = float( jitter_immutable ).toVar(); + const p = vec2( p_immutable ).toVar(); + const X = int().toVar(), Y = int().toVar(); + const localpos = vec2( mx_floorfrac( p.x, X ), mx_floorfrac( p.y, Y ) ).toVar(); + const sqdist = vec2( 1e6, 1e6 ).toVar(); + + loop( { start: - 1, end: int( 1 ), name: 'x', condition: '<=' }, ( { x } ) => { + + loop( { start: - 1, end: int( 1 ), name: 'y', condition: '<=' }, ( { y } ) => { + + const dist = float( mx_worley_distance( localpos, x, y, X, Y, jitter, metric ) ).toVar(); + + If( dist.lessThan( sqdist.x ), () => { + + sqdist.y.assign( sqdist.x ); + sqdist.x.assign( dist ); + + } ).elseif( dist.lessThan( sqdist.y ), () => { + + sqdist.y.assign( dist ); + + } ); + + } ); + + } ); + + If( metric.equal( int( 0 ) ), () => { + + sqdist.assign( sqrt( sqdist ) ); + + } ); + + return sqdist; + +} ).setLayout( { + name: 'mx_worley_noise_vec2_0', + type: 'vec2', + inputs: [ + { name: 'p', type: 'vec2' }, + { name: 'jitter', type: 'float' }, + { name: 'metric', type: 'int' } + ] +} ); + +const mx_worley_noise_vec3_0 = /*#__PURE__*/ tslFn( ( [ p_immutable, jitter_immutable, metric_immutable ] ) => { + + const metric = int( metric_immutable ).toVar(); + const jitter = float( jitter_immutable ).toVar(); + const p = vec2( p_immutable ).toVar(); + const X = int().toVar(), Y = int().toVar(); + const localpos = vec2( mx_floorfrac( p.x, X ), mx_floorfrac( p.y, Y ) ).toVar(); + const sqdist = vec3( 1e6, 1e6, 1e6 ).toVar(); + + loop( { start: - 1, end: int( 1 ), name: 'x', condition: '<=' }, ( { x } ) => { + + loop( { start: - 1, end: int( 1 ), name: 'y', condition: '<=' }, ( { y } ) => { + + const dist = float( mx_worley_distance( localpos, x, y, X, Y, jitter, metric ) ).toVar(); + + If( dist.lessThan( sqdist.x ), () => { + + sqdist.z.assign( sqdist.y ); + sqdist.y.assign( sqdist.x ); + sqdist.x.assign( dist ); + + } ).elseif( dist.lessThan( sqdist.y ), () => { + + sqdist.z.assign( sqdist.y ); + sqdist.y.assign( dist ); + + } ).elseif( dist.lessThan( sqdist.z ), () => { + + sqdist.z.assign( dist ); + + } ); + + } ); + + } ); + + If( metric.equal( int( 0 ) ), () => { + + sqdist.assign( sqrt( sqdist ) ); + + } ); + + return sqdist; + +} ).setLayout( { + name: 'mx_worley_noise_vec3_0', + type: 'vec3', + inputs: [ + { name: 'p', type: 'vec2' }, + { name: 'jitter', type: 'float' }, + { name: 'metric', type: 'int' } + ] +} ); + +const mx_worley_noise_float_1 = /*#__PURE__*/ tslFn( ( [ p_immutable, jitter_immutable, metric_immutable ] ) => { + + const metric = int( metric_immutable ).toVar(); + const jitter = float( jitter_immutable ).toVar(); + const p = vec3( p_immutable ).toVar(); + const X = int().toVar(), Y = int().toVar(), Z = int().toVar(); + const localpos = vec3( mx_floorfrac( p.x, X ), mx_floorfrac( p.y, Y ), mx_floorfrac( p.z, Z ) ).toVar(); + const sqdist = float( 1e6 ).toVar(); + + loop( { start: - 1, end: int( 1 ), name: 'x', condition: '<=' }, ( { x } ) => { + + loop( { start: - 1, end: int( 1 ), name: 'y', condition: '<=' }, ( { y } ) => { + + loop( { start: - 1, end: int( 1 ), name: 'z', condition: '<=' }, ( { z } ) => { + + const dist = float( mx_worley_distance( localpos, x, y, z, X, Y, Z, jitter, metric ) ).toVar(); + sqdist.assign( min$1( sqdist, dist ) ); + + } ); + + } ); + + } ); + + If( metric.equal( int( 0 ) ), () => { + + sqdist.assign( sqrt( sqdist ) ); + + } ); + + return sqdist; + +} ).setLayout( { + name: 'mx_worley_noise_float_1', + type: 'float', + inputs: [ + { name: 'p', type: 'vec3' }, + { name: 'jitter', type: 'float' }, + { name: 'metric', type: 'int' } + ] +} ); + +const mx_worley_noise_float$1 = /*#__PURE__*/ overloadingFn( [ mx_worley_noise_float_0, mx_worley_noise_float_1 ] ); + +const mx_worley_noise_vec2_1 = /*#__PURE__*/ tslFn( ( [ p_immutable, jitter_immutable, metric_immutable ] ) => { + + const metric = int( metric_immutable ).toVar(); + const jitter = float( jitter_immutable ).toVar(); + const p = vec3( p_immutable ).toVar(); + const X = int().toVar(), Y = int().toVar(), Z = int().toVar(); + const localpos = vec3( mx_floorfrac( p.x, X ), mx_floorfrac( p.y, Y ), mx_floorfrac( p.z, Z ) ).toVar(); + const sqdist = vec2( 1e6, 1e6 ).toVar(); + + loop( { start: - 1, end: int( 1 ), name: 'x', condition: '<=' }, ( { x } ) => { + + loop( { start: - 1, end: int( 1 ), name: 'y', condition: '<=' }, ( { y } ) => { + + loop( { start: - 1, end: int( 1 ), name: 'z', condition: '<=' }, ( { z } ) => { + + const dist = float( mx_worley_distance( localpos, x, y, z, X, Y, Z, jitter, metric ) ).toVar(); + + If( dist.lessThan( sqdist.x ), () => { + + sqdist.y.assign( sqdist.x ); + sqdist.x.assign( dist ); + + } ).elseif( dist.lessThan( sqdist.y ), () => { + + sqdist.y.assign( dist ); + + } ); + + } ); + + } ); + + } ); + + If( metric.equal( int( 0 ) ), () => { + + sqdist.assign( sqrt( sqdist ) ); + + } ); + + return sqdist; + +} ).setLayout( { + name: 'mx_worley_noise_vec2_1', + type: 'vec2', + inputs: [ + { name: 'p', type: 'vec3' }, + { name: 'jitter', type: 'float' }, + { name: 'metric', type: 'int' } + ] +} ); + +const mx_worley_noise_vec2$1 = /*#__PURE__*/ overloadingFn( [ mx_worley_noise_vec2_0, mx_worley_noise_vec2_1 ] ); + +const mx_worley_noise_vec3_1 = /*#__PURE__*/ tslFn( ( [ p_immutable, jitter_immutable, metric_immutable ] ) => { + + const metric = int( metric_immutable ).toVar(); + const jitter = float( jitter_immutable ).toVar(); + const p = vec3( p_immutable ).toVar(); + const X = int().toVar(), Y = int().toVar(), Z = int().toVar(); + const localpos = vec3( mx_floorfrac( p.x, X ), mx_floorfrac( p.y, Y ), mx_floorfrac( p.z, Z ) ).toVar(); + const sqdist = vec3( 1e6, 1e6, 1e6 ).toVar(); + + loop( { start: - 1, end: int( 1 ), name: 'x', condition: '<=' }, ( { x } ) => { + + loop( { start: - 1, end: int( 1 ), name: 'y', condition: '<=' }, ( { y } ) => { + + loop( { start: - 1, end: int( 1 ), name: 'z', condition: '<=' }, ( { z } ) => { + + const dist = float( mx_worley_distance( localpos, x, y, z, X, Y, Z, jitter, metric ) ).toVar(); + + If( dist.lessThan( sqdist.x ), () => { + + sqdist.z.assign( sqdist.y ); + sqdist.y.assign( sqdist.x ); + sqdist.x.assign( dist ); + + } ).elseif( dist.lessThan( sqdist.y ), () => { + + sqdist.z.assign( sqdist.y ); + sqdist.y.assign( dist ); + + } ).elseif( dist.lessThan( sqdist.z ), () => { + + sqdist.z.assign( dist ); + + } ); + + } ); + + } ); + + } ); + + If( metric.equal( int( 0 ) ), () => { + + sqdist.assign( sqrt( sqdist ) ); + + } ); + + return sqdist; + +} ).setLayout( { + name: 'mx_worley_noise_vec3_1', + type: 'vec3', + inputs: [ + { name: 'p', type: 'vec3' }, + { name: 'jitter', type: 'float' }, + { name: 'metric', type: 'int' } + ] +} ); + +const mx_worley_noise_vec3$1 = /*#__PURE__*/ overloadingFn( [ mx_worley_noise_vec3_0, mx_worley_noise_vec3_1 ] ); + +// Three.js Transpiler +// https://github.com/AcademySoftwareFoundation/MaterialX/blob/main/libraries/stdlib/genglsl/lib/mx_hsv.glsl + + +const mx_hsvtorgb = /*#__PURE__*/ tslFn( ( [ hsv_immutable ] ) => { + + const hsv = vec3( hsv_immutable ).toVar(); + const h = float( hsv.x ).toVar(); + const s = float( hsv.y ).toVar(); + const v = float( hsv.z ).toVar(); + + If( s.lessThan( 0.0001 ), () => { + + return vec3( v, v, v ); + + } ).else( () => { + + h.assign( mul( 6.0, h.sub( floor( h ) ) ) ); + const hi = int( trunc( h ) ).toVar(); + const f = float( h.sub( float( hi ) ) ).toVar(); + const p = float( v.mul( sub( 1.0, s ) ) ).toVar(); + const q = float( v.mul( sub( 1.0, s.mul( f ) ) ) ).toVar(); + const t = float( v.mul( sub( 1.0, s.mul( sub( 1.0, f ) ) ) ) ).toVar(); + + If( hi.equal( int( 0 ) ), () => { + + return vec3( v, t, p ); + + } ).elseif( hi.equal( int( 1 ) ), () => { + + return vec3( q, v, p ); + + } ).elseif( hi.equal( int( 2 ) ), () => { + + return vec3( p, v, t ); + + } ).elseif( hi.equal( int( 3 ) ), () => { + + return vec3( p, q, v ); + + } ).elseif( hi.equal( int( 4 ) ), () => { + + return vec3( t, p, v ); + + } ); + + return vec3( v, p, q ); + + } ); + +} ).setLayout( { + name: 'mx_hsvtorgb', + type: 'vec3', + inputs: [ + { name: 'hsv', type: 'vec3' } + ] +} ); + +const mx_rgbtohsv = /*#__PURE__*/ tslFn( ( [ c_immutable ] ) => { + + const c = vec3( c_immutable ).toVar(); + const r = float( c.x ).toVar(); + const g = float( c.y ).toVar(); + const b = float( c.z ).toVar(); + const mincomp = float( min$1( r, min$1( g, b ) ) ).toVar(); + const maxcomp = float( max$1( r, max$1( g, b ) ) ).toVar(); + const delta = float( maxcomp.sub( mincomp ) ).toVar(); + const h = float().toVar(), s = float().toVar(), v = float().toVar(); + v.assign( maxcomp ); + + If( maxcomp.greaterThan( 0.0 ), () => { + + s.assign( delta.div( maxcomp ) ); + + } ).else( () => { + + s.assign( 0.0 ); + + } ); + + If( s.lessThanEqual( 0.0 ), () => { + + h.assign( 0.0 ); + + } ).else( () => { + + If( r.greaterThanEqual( maxcomp ), () => { + + h.assign( g.sub( b ).div( delta ) ); + + } ).elseif( g.greaterThanEqual( maxcomp ), () => { + + h.assign( add( 2.0, b.sub( r ).div( delta ) ) ); + + } ).else( () => { + + h.assign( add( 4.0, r.sub( g ).div( delta ) ) ); + + } ); + + h.mulAssign( 1.0 / 6.0 ); + + If( h.lessThan( 0.0 ), () => { + + h.addAssign( 1.0 ); + + } ); + + } ); + + return vec3( h, s, v ); + +} ).setLayout( { + name: 'mx_rgbtohsv', + type: 'vec3', + inputs: [ + { name: 'c', type: 'vec3' } + ] +} ); + +// Three.js Transpiler +// https://github.com/AcademySoftwareFoundation/MaterialX/blob/main/libraries/stdlib/genglsl/lib/mx_transform_color.glsl + + +const mx_srgb_texture_to_lin_rec709 = /*#__PURE__*/ tslFn( ( [ color_immutable ] ) => { + + const color = vec3( color_immutable ).toVar(); + const isAbove = bvec3( greaterThan( color, vec3( 0.04045 ) ) ).toVar(); + const linSeg = vec3( color.div( 12.92 ) ).toVar(); + const powSeg = vec3( pow( max$1( color.add( vec3( 0.055 ) ), vec3( 0.0 ) ).div( 1.055 ), vec3( 2.4 ) ) ).toVar(); + + return mix( linSeg, powSeg, isAbove ); + +} ).setLayout( { + name: 'mx_srgb_texture_to_lin_rec709', + type: 'vec3', + inputs: [ + { name: 'color', type: 'vec3' } + ] +} ); + +const mx_aastep = ( threshold, value ) => { + + threshold = float( threshold ); + value = float( value ); + + const afwidth = vec2( value.dFdx(), value.dFdy() ).length().mul( 0.70710678118654757 ); + + return smoothstep( threshold.sub( afwidth ), threshold.add( afwidth ), value ); + +}; + +const _ramp = ( a, b, uv, p ) => mix( a, b, uv[ p ].clamp() ); +const mx_ramplr = ( valuel, valuer, texcoord = uv() ) => _ramp( valuel, valuer, texcoord, 'x' ); +const mx_ramptb = ( valuet, valueb, texcoord = uv() ) => _ramp( valuet, valueb, texcoord, 'y' ); + +const _split = ( a, b, center, uv, p ) => mix( a, b, mx_aastep( center, uv[ p ] ) ); +const mx_splitlr = ( valuel, valuer, center, texcoord = uv() ) => _split( valuel, valuer, center, texcoord, 'x' ); +const mx_splittb = ( valuet, valueb, center, texcoord = uv() ) => _split( valuet, valueb, center, texcoord, 'y' ); + +const mx_transform_uv = ( uv_scale = 1, uv_offset = 0, uv_geo = uv() ) => uv_geo.mul( uv_scale ).add( uv_offset ); + +const mx_safepower = ( in1, in2 = 1 ) => { + + in1 = float( in1 ); + + return in1.abs().pow( in2 ).mul( in1.sign() ); + +}; + +const mx_contrast = ( input, amount = 1, pivot = .5 ) => float( input ).sub( pivot ).mul( amount ).add( pivot ); + +const mx_noise_float = ( texcoord = uv(), amplitude = 1, pivot = 0 ) => mx_perlin_noise_float( texcoord.convert( 'vec2|vec3' ) ).mul( amplitude ).add( pivot ); +//export const mx_noise_vec2 = ( texcoord = uv(), amplitude = 1, pivot = 0 ) => mx_perlin_noise_vec3( texcoord.convert( 'vec2|vec3' ) ).mul( amplitude ).add( pivot ); +const mx_noise_vec3 = ( texcoord = uv(), amplitude = 1, pivot = 0 ) => mx_perlin_noise_vec3( texcoord.convert( 'vec2|vec3' ) ).mul( amplitude ).add( pivot ); +const mx_noise_vec4 = ( texcoord = uv(), amplitude = 1, pivot = 0 ) => { + + texcoord = texcoord.convert( 'vec2|vec3' ); // overloading type + + const noise_vec4 = vec4( mx_perlin_noise_vec3( texcoord ), mx_perlin_noise_float( texcoord.add( vec2( 19, 73 ) ) ) ); + + return noise_vec4.mul( amplitude ).add( pivot ); + +}; + +const mx_worley_noise_float = ( texcoord = uv(), jitter = 1 ) => mx_worley_noise_float$1( texcoord.convert( 'vec2|vec3' ), jitter, int( 1 ) ); +const mx_worley_noise_vec2 = ( texcoord = uv(), jitter = 1 ) => mx_worley_noise_vec2$1( texcoord.convert( 'vec2|vec3' ), jitter, int( 1 ) ); +const mx_worley_noise_vec3 = ( texcoord = uv(), jitter = 1 ) => mx_worley_noise_vec3$1( texcoord.convert( 'vec2|vec3' ), jitter, int( 1 ) ); + +const mx_cell_noise_float = ( texcoord = uv() ) => mx_cell_noise_float$1( texcoord.convert( 'vec2|vec3' ) ); + +const mx_fractal_noise_float = ( position = uv(), octaves = 3, lacunarity = 2, diminish = .5, amplitude = 1 ) => mx_fractal_noise_float$1( position, int( octaves ), lacunarity, diminish ).mul( amplitude ); +const mx_fractal_noise_vec2 = ( position = uv(), octaves = 3, lacunarity = 2, diminish = .5, amplitude = 1 ) => mx_fractal_noise_vec2$1( position, int( octaves ), lacunarity, diminish ).mul( amplitude ); +const mx_fractal_noise_vec3 = ( position = uv(), octaves = 3, lacunarity = 2, diminish = .5, amplitude = 1 ) => mx_fractal_noise_vec3$1( position, int( octaves ), lacunarity, diminish ).mul( amplitude ); +const mx_fractal_noise_vec4 = ( position = uv(), octaves = 3, lacunarity = 2, diminish = .5, amplitude = 1 ) => mx_fractal_noise_vec4$1( position, int( octaves ), lacunarity, diminish ).mul( amplitude ); + +function painterSortStable( a, b ) { + + if ( a.groupOrder !== b.groupOrder ) { + + return a.groupOrder - b.groupOrder; + + } else if ( a.renderOrder !== b.renderOrder ) { + + return a.renderOrder - b.renderOrder; + + } else if ( a.material.id !== b.material.id ) { + + return a.material.id - b.material.id; + + } else if ( a.z !== b.z ) { + + return a.z - b.z; + + } else { + + return a.id - b.id; + + } + +} + +function reversePainterSortStable( a, b ) { + + if ( a.groupOrder !== b.groupOrder ) { + + return a.groupOrder - b.groupOrder; + + } else if ( a.renderOrder !== b.renderOrder ) { + + return a.renderOrder - b.renderOrder; + + } else if ( a.z !== b.z ) { + + return b.z - a.z; + + } else { + + return a.id - b.id; + + } + +} + +class RenderList { + + constructor() { + + this.renderItems = []; + this.renderItemsIndex = 0; + + this.opaque = []; + this.transparent = []; + this.bundles = []; + + this.lightsNode = new LightsNode( [] ); + this.lightsArray = []; + + this.occlusionQueryCount = 0; + + } + + begin() { + + this.renderItemsIndex = 0; + + this.opaque.length = 0; + this.transparent.length = 0; + this.bundles.length = 0; + + this.lightsArray.length = 0; + + this.occlusionQueryCount = 0; + + return this; + + } + + getNextRenderItem( object, geometry, material, groupOrder, z, group ) { + + let renderItem = this.renderItems[ this.renderItemsIndex ]; + + if ( renderItem === undefined ) { + + renderItem = { + id: object.id, + object: object, + geometry: geometry, + material: material, + groupOrder: groupOrder, + renderOrder: object.renderOrder, + z: z, + group: group + }; + + this.renderItems[ this.renderItemsIndex ] = renderItem; + + } else { + + renderItem.id = object.id; + renderItem.object = object; + renderItem.geometry = geometry; + renderItem.material = material; + renderItem.groupOrder = groupOrder; + renderItem.renderOrder = object.renderOrder; + renderItem.z = z; + renderItem.group = group; + + } + + this.renderItemsIndex ++; + + return renderItem; + + } + + push( object, geometry, material, groupOrder, z, group ) { + + const renderItem = this.getNextRenderItem( object, geometry, material, groupOrder, z, group ); + + if ( object.occlusionTest === true ) this.occlusionQueryCount ++; + + ( material.transparent === true || material.transmission > 0 ? this.transparent : this.opaque ).push( renderItem ); + + } + + unshift( object, geometry, material, groupOrder, z, group ) { + + const renderItem = this.getNextRenderItem( object, geometry, material, groupOrder, z, group ); + + ( material.transparent === true ? this.transparent : this.opaque ).unshift( renderItem ); + + } + + pushBundle( group ) { + + this.bundles.push( group ); + + } + + pushLight( light ) { + + this.lightsArray.push( light ); + + } + + getLightsNode() { + + return this.lightsNode.fromLights( this.lightsArray ); + + } + + sort( customOpaqueSort, customTransparentSort ) { + + if ( this.opaque.length > 1 ) this.opaque.sort( customOpaqueSort || painterSortStable ); + if ( this.transparent.length > 1 ) this.transparent.sort( customTransparentSort || reversePainterSortStable ); + + } + + finish() { + + // update lights + + this.lightsNode.fromLights( this.lightsArray ); + + // Clear references from inactive renderItems in the list + + for ( let i = this.renderItemsIndex, il = this.renderItems.length; i < il; i ++ ) { + + const renderItem = this.renderItems[ i ]; + + if ( renderItem.id === null ) break; + + renderItem.id = null; + renderItem.object = null; + renderItem.geometry = null; + renderItem.material = null; + renderItem.groupOrder = null; + renderItem.renderOrder = null; + renderItem.z = null; + renderItem.group = null; + + } + + } + +} + +class RenderLists { + + constructor() { + + this.lists = new ChainMap(); + + } + + get( scene, camera ) { + + const lists = this.lists; + const keys = [ scene, camera ]; + + let list = lists.get( keys ); + + if ( list === undefined ) { + + list = new RenderList(); + lists.set( keys, list ); + + } + + return list; + + } + + dispose() { + + this.lists = new ChainMap(); + + } + +} + +let id$2 = 0; + +class RenderContext { + + constructor() { + + this.id = id$2 ++; + + this.color = true; + this.clearColor = true; + this.clearColorValue = { r: 0, g: 0, b: 0, a: 1 }; + + this.depth = true; + this.clearDepth = true; + this.clearDepthValue = 1; + + this.stencil = false; + this.clearStencil = true; + this.clearStencilValue = 1; + + this.viewport = false; + this.viewportValue = new Vector4(); + + this.scissor = false; + this.scissorValue = new Vector4(); + + this.textures = null; + this.depthTexture = null; + this.activeCubeFace = 0; + this.sampleCount = 1; + + this.width = 0; + this.height = 0; + + this.isRenderContext = true; + + } + +} + +class RenderContexts { + + constructor() { + + this.chainMaps = {}; + + } + + get( scene, camera, renderTarget = null ) { + + const chainKey = [ scene, camera ]; + + let attachmentState; + + if ( renderTarget === null ) { + + attachmentState = 'default'; + + } else { + + const format = renderTarget.texture.format; + const count = renderTarget.count; + + attachmentState = `${ count }:${ format }:${ renderTarget.samples }:${ renderTarget.depthBuffer }:${ renderTarget.stencilBuffer }`; + + } + + const chainMap = this.getChainMap( attachmentState ); + + let renderState = chainMap.get( chainKey ); + + if ( renderState === undefined ) { + + renderState = new RenderContext(); + + chainMap.set( chainKey, renderState ); + + } + + if ( renderTarget !== null ) renderState.sampleCount = renderTarget.samples === 0 ? 1 : renderTarget.samples; + + return renderState; + + } + + getChainMap( attachmentState ) { + + return this.chainMaps[ attachmentState ] || ( this.chainMaps[ attachmentState ] = new ChainMap() ); + + } + + dispose() { + + this.chainMaps = {}; + + } + +} + +const _size = new Vector3(); + +class Textures extends DataMap { + + constructor( renderer, backend, info ) { + + super(); + + this.renderer = renderer; + this.backend = backend; + this.info = info; + + } + + updateRenderTarget( renderTarget, activeMipmapLevel = 0 ) { + + const renderTargetData = this.get( renderTarget ); + + const sampleCount = renderTarget.samples === 0 ? 1 : renderTarget.samples; + const depthTextureMips = renderTargetData.depthTextureMips || ( renderTargetData.depthTextureMips = {} ); + + const texture = renderTarget.texture; + const textures = renderTarget.textures; + + const size = this.getSize( texture ); + + const mipWidth = size.width >> activeMipmapLevel; + const mipHeight = size.height >> activeMipmapLevel; + + let depthTexture = renderTarget.depthTexture || depthTextureMips[ activeMipmapLevel ]; + let textureNeedsUpdate = false; + + if ( depthTexture === undefined ) { + + depthTexture = new DepthTexture(); + depthTexture.format = renderTarget.stencilBuffer ? DepthStencilFormat : DepthFormat; + depthTexture.type = renderTarget.stencilBuffer ? UnsignedInt248Type : UnsignedIntType; // FloatType + depthTexture.image.width = mipWidth; + depthTexture.image.height = mipHeight; + + depthTextureMips[ activeMipmapLevel ] = depthTexture; + + } + + if ( renderTargetData.width !== size.width || size.height !== renderTargetData.height ) { + + textureNeedsUpdate = true; + depthTexture.needsUpdate = true; + + depthTexture.image.width = mipWidth; + depthTexture.image.height = mipHeight; + + } + + renderTargetData.width = size.width; + renderTargetData.height = size.height; + renderTargetData.textures = textures; + renderTargetData.depthTexture = depthTexture; + renderTargetData.depth = renderTarget.depthBuffer; + renderTargetData.stencil = renderTarget.stencilBuffer; + renderTargetData.renderTarget = renderTarget; + + if ( renderTargetData.sampleCount !== sampleCount ) { + + textureNeedsUpdate = true; + depthTexture.needsUpdate = true; + + renderTargetData.sampleCount = sampleCount; + + } + + // + + const options = { sampleCount }; + + for ( let i = 0; i < textures.length; i ++ ) { + + const texture = textures[ i ]; + + if ( textureNeedsUpdate ) texture.needsUpdate = true; + + this.updateTexture( texture, options ); + + } + + this.updateTexture( depthTexture, options ); + + // dispose handler + + if ( renderTargetData.initialized !== true ) { + + renderTargetData.initialized = true; + + // dispose + + const onDispose = () => { + + renderTarget.removeEventListener( 'dispose', onDispose ); + + if ( textures !== undefined ) { + + for ( let i = 0; i < textures.length; i ++ ) { + + this._destroyTexture( textures[ i ] ); + + } + + } else { + + this._destroyTexture( texture ); + + } + + this._destroyTexture( depthTexture ); + + }; + + renderTarget.addEventListener( 'dispose', onDispose ); + + } + + } + + updateTexture( texture, options = {} ) { + + const textureData = this.get( texture ); + if ( textureData.initialized === true && textureData.version === texture.version ) return; + + const isRenderTarget = texture.isRenderTargetTexture || texture.isDepthTexture || texture.isFramebufferTexture; + const backend = this.backend; + + if ( isRenderTarget && textureData.initialized === true ) { + + // it's an update + + backend.destroySampler( texture ); + backend.destroyTexture( texture ); + + } + + // + + if ( texture.isFramebufferTexture ) { + + const renderer = this.renderer; + const renderTarget = renderer.getRenderTarget(); + + if ( renderTarget ) { + + texture.type = renderTarget.texture.type; + + } else { + + texture.type = UnsignedByteType; + + } + + } + + // + + const { width, height, depth } = this.getSize( texture ); + + options.width = width; + options.height = height; + options.depth = depth; + options.needsMipmaps = this.needsMipmaps( texture ); + options.levels = options.needsMipmaps ? this.getMipLevels( texture, width, height ) : 1; + + // + + if ( isRenderTarget || texture.isStorageTexture === true ) { + + backend.createSampler( texture ); + backend.createTexture( texture, options ); + + } else { + + const needsCreate = textureData.initialized !== true; + + if ( needsCreate ) backend.createSampler( texture ); + + if ( texture.version > 0 ) { + + const image = texture.image; + + if ( image === undefined ) { + + console.warn( 'THREE.Renderer: Texture marked for update but image is undefined.' ); + + } else if ( image.complete === false ) { + + console.warn( 'THREE.Renderer: Texture marked for update but image is incomplete.' ); + + } else { + + if ( texture.images ) { + + const images = []; + + for ( const image of texture.images ) { + + images.push( image ); + + } + + options.images = images; + + } else { + + options.image = image; + + } + + if ( textureData.isDefaultTexture === undefined || textureData.isDefaultTexture === true ) { + + backend.createTexture( texture, options ); + + textureData.isDefaultTexture = false; + + } + + if ( texture.source.dataReady === true ) backend.updateTexture( texture, options ); + + if ( options.needsMipmaps && texture.mipmaps.length === 0 ) backend.generateMipmaps( texture ); + + } + + } else { + + // async update + + backend.createDefaultTexture( texture ); + + textureData.isDefaultTexture = true; + + } + + } + + // dispose handler + + if ( textureData.initialized !== true ) { + + textureData.initialized = true; + + // + + this.info.memory.textures ++; + + // dispose + + const onDispose = () => { + + texture.removeEventListener( 'dispose', onDispose ); + + this._destroyTexture( texture ); + + this.info.memory.textures --; + + }; + + texture.addEventListener( 'dispose', onDispose ); + + } + + // + + textureData.version = texture.version; + + } + + getSize( texture, target = _size ) { + + let image = texture.images ? texture.images[ 0 ] : texture.image; + + if ( image ) { + + if ( image.image !== undefined ) image = image.image; + + target.width = image.width; + target.height = image.height; + target.depth = texture.isCubeTexture ? 6 : ( image.depth || 1 ); + + } else { + + target.width = target.height = target.depth = 1; + + } + + return target; + + } + + getMipLevels( texture, width, height ) { + + let mipLevelCount; + + if ( texture.isCompressedTexture ) { + + mipLevelCount = texture.mipmaps.length; + + } else { + + mipLevelCount = Math.floor( Math.log2( Math.max( width, height ) ) ) + 1; + + } + + return mipLevelCount; + + } + + needsMipmaps( texture ) { + + if ( this.isEnvironmentTexture( texture ) ) return true; + + return ( texture.isCompressedTexture === true ) || ( ( texture.minFilter !== NearestFilter ) && ( texture.minFilter !== LinearFilter ) ); + + } + + isEnvironmentTexture( texture ) { + + const mapping = texture.mapping; + + return ( mapping === EquirectangularReflectionMapping || mapping === EquirectangularRefractionMapping ) || ( mapping === CubeReflectionMapping || mapping === CubeRefractionMapping ); + + } + + _destroyTexture( texture ) { + + this.backend.destroySampler( texture ); + this.backend.destroyTexture( texture ); + + this.delete( texture ); + + } + +} + +class Color4 extends Color { + + constructor( r, g, b, a = 1 ) { + + super( r, g, b ); + + this.a = a; + + } + + set( r, g, b, a = 1 ) { + + this.a = a; + + return super.set( r, g, b ); + + } + + copy( color ) { + + if ( color.a !== undefined ) this.a = color.a; + + return super.copy( color ); + + } + + clone() { + + return new this.constructor( this.r, this.g, this.b, this.a ); + + } + +} + +const _clearColor = new Color4(); + +class Background extends DataMap { + + constructor( renderer, nodes ) { + + super(); + + this.renderer = renderer; + this.nodes = nodes; + + } + + update( scene, renderList, renderContext ) { + + const renderer = this.renderer; + const background = this.nodes.getBackgroundNode( scene ) || scene.background; + + let forceClear = false; + + if ( background === null ) { + + // no background settings, use clear color configuration from the renderer + + renderer._clearColor.getRGB( _clearColor, LinearSRGBColorSpace ); + _clearColor.a = renderer._clearColor.a; + + } else if ( background.isColor === true ) { + + // background is an opaque color + + background.getRGB( _clearColor, LinearSRGBColorSpace ); + _clearColor.a = 1; + + forceClear = true; + + } else if ( background.isNode === true ) { + + const sceneData = this.get( scene ); + const backgroundNode = background; + + _clearColor.copy( renderer._clearColor ); + + let backgroundMesh = sceneData.backgroundMesh; + + if ( backgroundMesh === undefined ) { + + const backgroundMeshNode = context( vec4( backgroundNode ).mul( backgroundIntensity ), { + // @TODO: Add Texture2D support using node context + getUV: () => normalWorld, + getTextureLevel: () => backgroundBlurriness + } ); + + let viewProj = modelViewProjection(); + viewProj = viewProj.setZ( viewProj.w ); + + const nodeMaterial = new NodeMaterial(); + nodeMaterial.side = BackSide; + nodeMaterial.depthTest = false; + nodeMaterial.depthWrite = false; + nodeMaterial.fog = false; + nodeMaterial.vertexNode = viewProj; + nodeMaterial.fragmentNode = backgroundMeshNode; + + sceneData.backgroundMeshNode = backgroundMeshNode; + sceneData.backgroundMesh = backgroundMesh = new Mesh( new SphereGeometry( 1, 32, 32 ), nodeMaterial ); + backgroundMesh.frustumCulled = false; + + backgroundMesh.onBeforeRender = function ( renderer, scene, camera ) { + + this.matrixWorld.copyPosition( camera.matrixWorld ); + + }; + + } + + const backgroundCacheKey = backgroundNode.getCacheKey(); + + if ( sceneData.backgroundCacheKey !== backgroundCacheKey ) { + + sceneData.backgroundMeshNode.node = vec4( backgroundNode ).mul( backgroundIntensity ); + + backgroundMesh.material.needsUpdate = true; + + sceneData.backgroundCacheKey = backgroundCacheKey; + + } + + renderList.unshift( backgroundMesh, backgroundMesh.geometry, backgroundMesh.material, 0, 0, null ); + + } else { + + console.error( 'THREE.Renderer: Unsupported background configuration.', background ); + + } + + // + + if ( renderer.autoClear === true || forceClear === true ) { + + _clearColor.multiplyScalar( _clearColor.a ); + + const clearColorValue = renderContext.clearColorValue; + + clearColorValue.r = _clearColor.r; + clearColorValue.g = _clearColor.g; + clearColorValue.b = _clearColor.b; + clearColorValue.a = _clearColor.a; + + renderContext.depthClearValue = renderer._clearDepth; + renderContext.stencilClearValue = renderer._clearStencil; + + renderContext.clearColor = renderer.autoClearColor === true; + renderContext.clearDepth = renderer.autoClearDepth === true; + renderContext.clearStencil = renderer.autoClearStencil === true; + + } else { + + renderContext.clearColor = false; + renderContext.clearDepth = false; + renderContext.clearStencil = false; + + } + + } + +} + +class NodeBuilderState { + + constructor( vertexShader, fragmentShader, computeShader, nodeAttributes, bindings, updateNodes, updateBeforeNodes, updateAfterNodes, instanceBindGroups = true, transforms = [] ) { + + this.vertexShader = vertexShader; + this.fragmentShader = fragmentShader; + this.computeShader = computeShader; + this.transforms = transforms; + + this.nodeAttributes = nodeAttributes; + this.bindings = bindings; + + this.updateNodes = updateNodes; + this.updateBeforeNodes = updateBeforeNodes; + this.updateAfterNodes = updateAfterNodes; + + this.instanceBindGroups = instanceBindGroups; + + this.usedTimes = 0; + + } + + createBindings() { + + const bindings = []; + + for ( const instanceGroup of this.bindings ) { + + const shared = this.instanceBindGroups && instanceGroup.bindings[ 0 ].groupNode.shared; + + if ( shared !== true ) { + + const bindingsGroup = new BindGroup( instanceGroup.name ); + bindings.push( bindingsGroup ); + + for ( const instanceBinding of instanceGroup.bindings ) { + + bindingsGroup.bindings.push( instanceBinding.clone() ); + + } + + } else { + + bindings.push( instanceGroup ); + + } + + } + + return bindings; + + } + +} + +class Nodes extends DataMap { + + constructor( renderer, backend ) { + + super(); + + this.renderer = renderer; + this.backend = backend; + this.nodeFrame = new NodeFrame(); + this.nodeBuilderCache = new Map(); + this.callHashCache = new ChainMap(); + this.groupsData = new ChainMap(); + + } + + updateGroup( nodeUniformsGroup ) { + + const groupNode = nodeUniformsGroup.groupNode; + const name = groupNode.name; + + // objectGroup is every updated + + if ( name === objectGroup.name ) return true; + + // renderGroup is updated once per render/compute call + + if ( name === renderGroup.name ) { + + const uniformsGroupData = this.get( nodeUniformsGroup ); + const renderId = this.nodeFrame.renderId; + + if ( uniformsGroupData.renderId !== renderId ) { + + uniformsGroupData.renderId = renderId; + + return true; + + } + + return false; + + } + + // frameGroup is updated once per frame + + if ( name === frameGroup.name ) { + + const uniformsGroupData = this.get( nodeUniformsGroup ); + const frameId = this.nodeFrame.frameId; + + if ( uniformsGroupData.frameId !== frameId ) { + + uniformsGroupData.frameId = frameId; + + return true; + + } + + return false; + + } + + // other groups are updated just when groupNode.needsUpdate is true + + const groupChain = [ groupNode, nodeUniformsGroup ]; + + let groupData = this.groupsData.get( groupChain ); + if ( groupData === undefined ) this.groupsData.set( groupChain, groupData = {} ); + + if ( groupData.version !== groupNode.version ) { + + groupData.version = groupNode.version; + + return true; + + } + + return false; + + } + + getForRenderCacheKey( renderObject ) { + + return renderObject.initialCacheKey; + + } + + getForRender( renderObject ) { + + const renderObjectData = this.get( renderObject ); + + let nodeBuilderState = renderObjectData.nodeBuilderState; + + if ( nodeBuilderState === undefined ) { + + const { nodeBuilderCache } = this; + + const cacheKey = this.getForRenderCacheKey( renderObject ); + + nodeBuilderState = nodeBuilderCache.get( cacheKey ); + + if ( nodeBuilderState === undefined ) { + + const nodeBuilder = this.backend.createNodeBuilder( renderObject.object, this.renderer ); + nodeBuilder.scene = renderObject.scene; + nodeBuilder.material = renderObject.material; + nodeBuilder.camera = renderObject.camera; + nodeBuilder.context.material = renderObject.material; + nodeBuilder.lightsNode = renderObject.lightsNode; + nodeBuilder.environmentNode = this.getEnvironmentNode( renderObject.scene ); + nodeBuilder.fogNode = this.getFogNode( renderObject.scene ); + nodeBuilder.clippingContext = renderObject.clippingContext; + nodeBuilder.build(); + + nodeBuilderState = this._createNodeBuilderState( nodeBuilder ); + + nodeBuilderCache.set( cacheKey, nodeBuilderState ); + + } + + nodeBuilderState.usedTimes ++; + + renderObjectData.nodeBuilderState = nodeBuilderState; + + } + + return nodeBuilderState; + + } + + delete( object ) { + + if ( object.isRenderObject ) { + + const nodeBuilderState = this.get( object ).nodeBuilderState; + nodeBuilderState.usedTimes --; + + if ( nodeBuilderState.usedTimes === 0 ) { + + this.nodeBuilderCache.delete( this.getForRenderCacheKey( object ) ); + + } + + } + + return super.delete( object ); + + } + + getForCompute( computeNode ) { + + const computeData = this.get( computeNode ); + + let nodeBuilderState = computeData.nodeBuilderState; + + if ( nodeBuilderState === undefined ) { + + const nodeBuilder = this.backend.createNodeBuilder( computeNode, this.renderer ); + nodeBuilder.build(); + + nodeBuilderState = this._createNodeBuilderState( nodeBuilder ); + + computeData.nodeBuilderState = nodeBuilderState; + + } + + return nodeBuilderState; + + } + + _createNodeBuilderState( nodeBuilder ) { + + return new NodeBuilderState( + nodeBuilder.vertexShader, + nodeBuilder.fragmentShader, + nodeBuilder.computeShader, + nodeBuilder.getAttributesArray(), + nodeBuilder.getBindings(), + nodeBuilder.updateNodes, + nodeBuilder.updateBeforeNodes, + nodeBuilder.updateAfterNodes, + nodeBuilder.instanceBindGroups, + nodeBuilder.transforms + ); + + } + + getEnvironmentNode( scene ) { + + return scene.environmentNode || this.get( scene ).environmentNode || null; + + } + + getBackgroundNode( scene ) { + + return scene.backgroundNode || this.get( scene ).backgroundNode || null; + + } + + getFogNode( scene ) { + + return scene.fogNode || this.get( scene ).fogNode || null; + + } + + getCacheKey( scene, lightsNode ) { + + const chain = [ scene, lightsNode ]; + const callId = this.renderer.info.calls; + + let cacheKeyData = this.callHashCache.get( chain ); + + if ( cacheKeyData === undefined || cacheKeyData.callId !== callId ) { + + const environmentNode = this.getEnvironmentNode( scene ); + const fogNode = this.getFogNode( scene ); + + const cacheKey = []; + + if ( lightsNode ) cacheKey.push( lightsNode.getCacheKey() ); + if ( environmentNode ) cacheKey.push( environmentNode.getCacheKey() ); + if ( fogNode ) cacheKey.push( fogNode.getCacheKey() ); + + cacheKeyData = { + callId, + cacheKey: cacheKey.join( ',' ) + }; + + this.callHashCache.set( chain, cacheKeyData ); + + } + + return cacheKeyData.cacheKey; + + } + + updateScene( scene ) { + + this.updateEnvironment( scene ); + this.updateFog( scene ); + this.updateBackground( scene ); + + } + + get isToneMappingState() { + + return this.renderer.getRenderTarget() ? false : true; + + } + + updateBackground( scene ) { + + const sceneData = this.get( scene ); + const background = scene.background; + + if ( background ) { + + if ( sceneData.background !== background ) { + + let backgroundNode = null; + + if ( background.isCubeTexture === true || ( background.mapping === EquirectangularReflectionMapping || background.mapping === EquirectangularRefractionMapping ) ) { + + backgroundNode = pmremTexture( background, normalWorld ); + + } else if ( background.isTexture === true ) { + + backgroundNode = texture( background, viewportBottomLeft ).setUpdateMatrix( true ); + + } else if ( background.isColor !== true ) { + + console.error( 'WebGPUNodes: Unsupported background configuration.', background ); + + } + + sceneData.backgroundNode = backgroundNode; + sceneData.background = background; + + } + + } else if ( sceneData.backgroundNode ) { + + delete sceneData.backgroundNode; + delete sceneData.background; + + } + + } + + updateFog( scene ) { + + const sceneData = this.get( scene ); + const fog = scene.fog; + + if ( fog ) { + + if ( sceneData.fog !== fog ) { + + let fogNode = null; + + if ( fog.isFogExp2 ) { + + fogNode = densityFog( reference( 'color', 'color', fog ), reference( 'density', 'float', fog ) ); + + } else if ( fog.isFog ) { + + fogNode = rangeFog( reference( 'color', 'color', fog ), reference( 'near', 'float', fog ), reference( 'far', 'float', fog ) ); + + } else { + + console.error( 'WebGPUNodes: Unsupported fog configuration.', fog ); + + } + + sceneData.fogNode = fogNode; + sceneData.fog = fog; + + } + + } else { + + delete sceneData.fogNode; + delete sceneData.fog; + + } + + } + + updateEnvironment( scene ) { + + const sceneData = this.get( scene ); + const environment = scene.environment; + + if ( environment ) { + + if ( sceneData.environment !== environment ) { + + let environmentNode = null; + + if ( environment.isCubeTexture === true ) { + + environmentNode = cubeTexture( environment ); + + } else if ( environment.isTexture === true ) { + + environmentNode = texture( environment ); + + } else { + + console.error( 'Nodes: Unsupported environment configuration.', environment ); + + } + + sceneData.environmentNode = environmentNode; + sceneData.environment = environment; + + } + + } else if ( sceneData.environmentNode ) { + + delete sceneData.environmentNode; + delete sceneData.environment; + + } + + } + + getNodeFrame( renderer = this.renderer, scene = null, object = null, camera = null, material = null ) { + + const nodeFrame = this.nodeFrame; + nodeFrame.renderer = renderer; + nodeFrame.scene = scene; + nodeFrame.object = object; + nodeFrame.camera = camera; + nodeFrame.material = material; + + return nodeFrame; + + } + + getNodeFrameForRender( renderObject ) { + + return this.getNodeFrame( renderObject.renderer, renderObject.scene, renderObject.object, renderObject.camera, renderObject.material ); + + } + + getOutputNode( outputTexture ) { + + let output = texture( outputTexture, viewportTopLeft ); + + if ( this.isToneMappingState ) { + + if ( this.renderer.toneMappingNode ) { + + output = vec4( this.renderer.toneMappingNode.context( { color: output.rgb } ), output.a ); + + } else if ( this.renderer.toneMapping !== NoToneMapping ) { + + output = output.toneMapping( this.renderer.toneMapping ); + + } + + } + + if ( this.renderer.currentColorSpace === SRGBColorSpace ) { + + output = output.linearToColorSpace( this.renderer.currentColorSpace ); + + } + + return output; + + } + + updateBefore( renderObject ) { + + const nodeFrame = this.getNodeFrameForRender( renderObject ); + const nodeBuilder = renderObject.getNodeBuilderState(); + + for ( const node of nodeBuilder.updateBeforeNodes ) { + + nodeFrame.updateBeforeNode( node ); + + } + + } + + updateAfter( renderObject ) { + + const nodeFrame = this.getNodeFrameForRender( renderObject ); + const nodeBuilder = renderObject.getNodeBuilderState(); + + for ( const node of nodeBuilder.updateAfterNodes ) { + + nodeFrame.updateAfterNode( node ); + + } + + } + + updateForCompute( computeNode ) { + + const nodeFrame = this.getNodeFrame(); + const nodeBuilder = this.getForCompute( computeNode ); + + for ( const node of nodeBuilder.updateNodes ) { + + nodeFrame.updateNode( node ); + + } + + } + + updateForRender( renderObject ) { + + const nodeFrame = this.getNodeFrameForRender( renderObject ); + const nodeBuilder = renderObject.getNodeBuilderState(); + + for ( const node of nodeBuilder.updateNodes ) { + + nodeFrame.updateNode( node ); + + } + + } + + dispose() { + + super.dispose(); + + this.nodeFrame = new NodeFrame(); + this.nodeBuilderCache = new Map(); + + } + +} + +class RenderBundle { + + constructor( scene, camera ) { + + this.scene = scene; + this.camera = camera; + + } + + clone() { + + return Object.assign( new this.constructor(), this ); + + } + +} + +class RenderBundles { + + constructor() { + + this.lists = new ChainMap(); + + } + + get( scene, camera ) { + + const lists = this.lists; + const keys = [ scene, camera ]; + + let list = lists.get( keys ); + + if ( list === undefined ) { + + list = new RenderBundle( scene, camera ); + lists.set( keys, list ); + + } + + return list; + + } + + dispose() { + + this.lists = new ChainMap(); + + } + +} + +const _scene = new Scene(); +const _drawingBufferSize = new Vector2(); +const _screen = new Vector4(); +const _frustum = new Frustum(); +const _projScreenMatrix = new Matrix4(); +const _vector3 = new Vector3(); +const _quad = new QuadMesh( new NodeMaterial() ); + +class Renderer { + + constructor( backend, parameters = {} ) { + + this.isRenderer = true; + + // + + const { + logarithmicDepthBuffer = false, + alpha = true + } = parameters; + + // public + + this.domElement = backend.getDomElement(); + + this.backend = backend; + + this.autoClear = true; + this.autoClearColor = true; + this.autoClearDepth = true; + this.autoClearStencil = true; + + this.alpha = alpha; + + this.logarithmicDepthBuffer = logarithmicDepthBuffer; + + this.outputColorSpace = SRGBColorSpace; + + this.toneMapping = NoToneMapping; + this.toneMappingExposure = 1.0; + + this.sortObjects = true; + + this.depth = true; + this.stencil = false; + + this.clippingPlanes = []; + + this.info = new Info(); + + // nodes + + this.toneMappingNode = null; + + // internals + + this._pixelRatio = 1; + this._width = this.domElement.width; + this._height = this.domElement.height; + + this._viewport = new Vector4( 0, 0, this._width, this._height ); + this._scissor = new Vector4( 0, 0, this._width, this._height ); + this._scissorTest = false; + + this._attributes = null; + this._geometries = null; + this._nodes = null; + this._animation = null; + this._bindings = null; + this._objects = null; + this._pipelines = null; + this._bundles = null; + this._renderLists = null; + this._renderContexts = null; + this._textures = null; + this._background = null; + + this._currentRenderContext = null; + + this._opaqueSort = null; + this._transparentSort = null; + + this._frameBufferTarget = null; + + const alphaClear = this.alpha === true ? 0 : 1; + + this._clearColor = new Color4( 0, 0, 0, alphaClear ); + this._clearDepth = 1; + this._clearStencil = 0; + + this._renderTarget = null; + this._activeCubeFace = 0; + this._activeMipmapLevel = 0; + + this._renderObjectFunction = null; + this._currentRenderObjectFunction = null; + this._currentRenderBundle = null; + + this._handleObjectFunction = this._renderObjectDirect; + + this._initialized = false; + this._initPromise = null; + + this._compilationPromises = null; + + // backwards compatibility + + this.shadowMap = { + enabled: false, + type: null + }; + + this.xr = { + enabled: false + }; + + this.debug = { + checkShaderErrors: true, + onShaderError: null + }; + + } + + async init() { + + if ( this._initialized ) { + + throw new Error( 'Renderer: Backend has already been initialized.' ); + + } + + if ( this._initPromise !== null ) { + + return this._initPromise; + + } + + this._initPromise = new Promise( async ( resolve, reject ) => { + + const backend = this.backend; + + try { + + await backend.init( this ); + + } catch ( error ) { + + reject( error ); + return; + + } + + this._nodes = new Nodes( this, backend ); + this._animation = new Animation( this._nodes, this.info ); + this._attributes = new Attributes( backend ); + this._background = new Background( this, this._nodes ); + this._geometries = new Geometries( this._attributes, this.info ); + this._textures = new Textures( this, backend, this.info ); + this._pipelines = new Pipelines( backend, this._nodes ); + this._bindings = new Bindings( backend, this._nodes, this._textures, this._attributes, this._pipelines, this.info ); + this._objects = new RenderObjects( this, this._nodes, this._geometries, this._pipelines, this._bindings, this.info ); + this._renderLists = new RenderLists(); + this._bundles = new RenderBundles(); + this._renderContexts = new RenderContexts(); + + // + + this._initialized = true; + + resolve(); + + } ); + + return this._initPromise; + + } + + get coordinateSystem() { + + return this.backend.coordinateSystem; + + } + + async compileAsync( scene, camera, targetScene = null ) { + + if ( this._initialized === false ) await this.init(); + + // preserve render tree + + const nodeFrame = this._nodes.nodeFrame; + + const previousRenderId = nodeFrame.renderId; + const previousRenderContext = this._currentRenderContext; + const previousRenderObjectFunction = this._currentRenderObjectFunction; + const previousCompilationPromises = this._compilationPromises; + + // + + const sceneRef = ( scene.isScene === true ) ? scene : _scene; + + if ( targetScene === null ) targetScene = scene; + + const renderTarget = this._renderTarget; + const renderContext = this._renderContexts.get( targetScene, camera, renderTarget ); + const activeMipmapLevel = this._activeMipmapLevel; + + const compilationPromises = []; + + this._currentRenderContext = renderContext; + this._currentRenderObjectFunction = this.renderObject; + + this._handleObjectFunction = this._createObjectPipeline; + + this._compilationPromises = compilationPromises; + + nodeFrame.renderId ++; + + // + + nodeFrame.update(); + + // + + renderContext.depth = this.depth; + renderContext.stencil = this.stencil; + + if ( ! renderContext.clippingContext ) renderContext.clippingContext = new ClippingContext(); + renderContext.clippingContext.updateGlobal( this, camera ); + + // + + sceneRef.onBeforeRender( this, scene, camera, renderTarget ); + + // + + const renderList = this._renderLists.get( scene, camera ); + renderList.begin(); + + this._projectObject( scene, camera, 0, renderList ); + + // include lights from target scene + if ( targetScene !== scene ) { + + targetScene.traverseVisible( function ( object ) { + + if ( object.isLight && object.layers.test( camera.layers ) ) { + + renderList.pushLight( object ); + + } + + } ); + + } + + renderList.finish(); + + // + + if ( renderTarget !== null ) { + + this._textures.updateRenderTarget( renderTarget, activeMipmapLevel ); + + const renderTargetData = this._textures.get( renderTarget ); + + renderContext.textures = renderTargetData.textures; + renderContext.depthTexture = renderTargetData.depthTexture; + + } else { + + renderContext.textures = null; + renderContext.depthTexture = null; + + } + + // + + this._nodes.updateScene( sceneRef ); + + // + + this._background.update( sceneRef, renderList, renderContext ); + + // process render lists + + const opaqueObjects = renderList.opaque; + const transparentObjects = renderList.transparent; + const lightsNode = renderList.lightsNode; + + if ( opaqueObjects.length > 0 ) this._renderObjects( opaqueObjects, camera, sceneRef, lightsNode ); + if ( transparentObjects.length > 0 ) this._renderObjects( transparentObjects, camera, sceneRef, lightsNode ); + + // restore render tree + + nodeFrame.renderId = previousRenderId; + + this._currentRenderContext = previousRenderContext; + this._currentRenderObjectFunction = previousRenderObjectFunction; + this._compilationPromises = previousCompilationPromises; + + this._handleObjectFunction = this._renderObjectDirect; + + // wait for all promises setup by backends awaiting compilation/linking/pipeline creation to complete + + await Promise.all( compilationPromises ); + + } + + async renderAsync( scene, camera ) { + + if ( this._initialized === false ) await this.init(); + + const renderContext = this._renderScene( scene, camera ); + + await this.backend.resolveTimestampAsync( renderContext, 'render' ); + + } + + _renderBundle( bundle, sceneRef, lightsNode ) { + + const { object, camera, renderList } = bundle; + + const renderContext = this._currentRenderContext; + const renderContextData = this.backend.get( renderContext ); + + // + + const renderBundle = this._bundles.get( object, camera ); + + const renderBundleData = this.backend.get( renderBundle ); + if ( renderBundleData.renderContexts === undefined ) renderBundleData.renderContexts = new Set(); + + // + + const renderBundleNeedsUpdate = renderBundleData.renderContexts.has( renderContext ) === false || object.needsUpdate === true; + + renderBundleData.renderContexts.add( renderContext ); + + if ( renderBundleNeedsUpdate ) { + + if ( renderContextData.renderObjects === undefined || object.needsUpdate === true ) { + + const nodeFrame = this._nodes.nodeFrame; + + renderContextData.renderObjects = []; + renderContextData.renderBundles = []; + renderContextData.scene = sceneRef; + renderContextData.camera = camera; + renderContextData.renderId = nodeFrame.renderId; + + renderContextData.registerBundlesPhase = true; + + } + + this._currentRenderBundle = renderBundle; + + const opaqueObjects = renderList.opaque; + + if ( opaqueObjects.length > 0 ) this._renderObjects( opaqueObjects, camera, sceneRef, lightsNode ); + + this._currentRenderBundle = null; + + // + + object.needsUpdate = false; + + } else { + + const renderContext = this._currentRenderContext; + const renderContextData = this.backend.get( renderContext ); + + for ( let i = 0, l = renderContextData.renderObjects.length; i < l; i ++ ) { + + const renderObject = renderContextData.renderObjects[ i ]; + + this._nodes.updateBefore( renderObject ); + + // + + renderObject.object.modelViewMatrix.multiplyMatrices( camera.matrixWorldInverse, renderObject.object.matrixWorld ); + renderObject.object.normalMatrix.getNormalMatrix( renderObject.object.modelViewMatrix ); + + this._nodes.updateForRender( renderObject ); + this._bindings.updateForRender( renderObject ); + + this.backend.draw( renderObject, this.info ); + + this._nodes.updateAfter( renderObject ); + + } + + } + + } + + render( scene, camera ) { + + if ( this._initialized === false ) { + + console.warn( 'THREE.Renderer: .render() called before the backend is initialized. Try using .renderAsync() instead.' ); + + return this.renderAsync( scene, camera ); + + } + + this._renderScene( scene, camera ); + + } + + _getFrameBufferTarget() { + + const { currentColorSpace } = this; + + const useToneMapping = this._renderTarget === null && ( this.toneMapping !== NoToneMapping || this.toneMappingNode !== null ); + const useColorSpace = currentColorSpace !== LinearSRGBColorSpace && currentColorSpace !== NoColorSpace; + + if ( useToneMapping === false && useColorSpace === false ) return null; + + const { width, height } = this.getDrawingBufferSize( _drawingBufferSize ); + const { depth, stencil } = this; + + let frameBufferTarget = this._frameBufferTarget; + + if ( frameBufferTarget === null ) { + + frameBufferTarget = new RenderTarget( width, height, { + depthBuffer: depth, + stencilBuffer: stencil, + type: HalfFloatType, // FloatType + format: RGBAFormat, + colorSpace: LinearSRGBColorSpace, + generateMipmaps: false, + minFilter: LinearFilter, + magFilter: LinearFilter, + samples: this.backend.parameters.antialias ? 4 : 0 + } ); + + frameBufferTarget.isPostProcessingRenderTarget = true; + + this._frameBufferTarget = frameBufferTarget; + + } + + frameBufferTarget.depthBuffer = depth; + frameBufferTarget.stencilBuffer = stencil; + frameBufferTarget.setSize( width, height ); + frameBufferTarget.viewport.copy( this._viewport ); + frameBufferTarget.scissor.copy( this._scissor ); + frameBufferTarget.viewport.multiplyScalar( this._pixelRatio ); + frameBufferTarget.scissor.multiplyScalar( this._pixelRatio ); + frameBufferTarget.scissorTest = this._scissorTest; + + return frameBufferTarget; + + } + + _renderScene( scene, camera, useFrameBufferTarget = true ) { + + const frameBufferTarget = useFrameBufferTarget ? this._getFrameBufferTarget() : null; + + // preserve render tree + + const nodeFrame = this._nodes.nodeFrame; + + const previousRenderId = nodeFrame.renderId; + const previousRenderContext = this._currentRenderContext; + const previousRenderObjectFunction = this._currentRenderObjectFunction; + + // + + const sceneRef = ( scene.isScene === true ) ? scene : _scene; + + const outputRenderTarget = this._renderTarget; + + const activeCubeFace = this._activeCubeFace; + const activeMipmapLevel = this._activeMipmapLevel; + + // + + let renderTarget; + + if ( frameBufferTarget !== null ) { + + renderTarget = frameBufferTarget; + + this.setRenderTarget( renderTarget ); + + } else { + + renderTarget = outputRenderTarget; + + } + + // + + const renderContext = this._renderContexts.get( scene, camera, renderTarget ); + + this._currentRenderContext = renderContext; + this._currentRenderObjectFunction = this._renderObjectFunction || this.renderObject; + + // + + this.info.calls ++; + this.info.render.calls ++; + this.info.render.frameCalls ++; + + nodeFrame.renderId = this.info.calls; + + // + + const coordinateSystem = this.coordinateSystem; + + if ( camera.coordinateSystem !== coordinateSystem ) { + + camera.coordinateSystem = coordinateSystem; + + camera.updateProjectionMatrix(); + + } + + // + + if ( scene.matrixWorldAutoUpdate === true ) scene.updateMatrixWorld(); + + if ( camera.parent === null && camera.matrixWorldAutoUpdate === true ) camera.updateMatrixWorld(); + + // + + let viewport = this._viewport; + let scissor = this._scissor; + let pixelRatio = this._pixelRatio; + + if ( renderTarget !== null ) { + + viewport = renderTarget.viewport; + scissor = renderTarget.scissor; + pixelRatio = 1; + + } + + this.getDrawingBufferSize( _drawingBufferSize ); + + _screen.set( 0, 0, _drawingBufferSize.width, _drawingBufferSize.height ); + + const minDepth = ( viewport.minDepth === undefined ) ? 0 : viewport.minDepth; + const maxDepth = ( viewport.maxDepth === undefined ) ? 1 : viewport.maxDepth; + + renderContext.viewportValue.copy( viewport ).multiplyScalar( pixelRatio ).floor(); + renderContext.viewportValue.width >>= activeMipmapLevel; + renderContext.viewportValue.height >>= activeMipmapLevel; + renderContext.viewportValue.minDepth = minDepth; + renderContext.viewportValue.maxDepth = maxDepth; + renderContext.viewport = renderContext.viewportValue.equals( _screen ) === false; + + renderContext.scissorValue.copy( scissor ).multiplyScalar( pixelRatio ).floor(); + renderContext.scissor = this._scissorTest && renderContext.scissorValue.equals( _screen ) === false; + renderContext.scissorValue.width >>= activeMipmapLevel; + renderContext.scissorValue.height >>= activeMipmapLevel; + + if ( ! renderContext.clippingContext ) renderContext.clippingContext = new ClippingContext(); + renderContext.clippingContext.updateGlobal( this, camera ); + + // + + sceneRef.onBeforeRender( this, scene, camera, renderTarget ); + + // + + _projScreenMatrix.multiplyMatrices( camera.projectionMatrix, camera.matrixWorldInverse ); + _frustum.setFromProjectionMatrix( _projScreenMatrix, coordinateSystem ); + + const renderList = this._renderLists.get( scene, camera ); + renderList.begin(); + + this._projectObject( scene, camera, 0, renderList ); + + renderList.finish(); + + if ( this.sortObjects === true ) { + + renderList.sort( this._opaqueSort, this._transparentSort ); + + } + + // + + if ( renderTarget !== null ) { + + this._textures.updateRenderTarget( renderTarget, activeMipmapLevel ); + + const renderTargetData = this._textures.get( renderTarget ); + + renderContext.textures = renderTargetData.textures; + renderContext.depthTexture = renderTargetData.depthTexture; + renderContext.width = renderTargetData.width; + renderContext.height = renderTargetData.height; + renderContext.renderTarget = renderTarget; + renderContext.depth = renderTarget.depthBuffer; + renderContext.stencil = renderTarget.stencilBuffer; + + } else { + + renderContext.textures = null; + renderContext.depthTexture = null; + renderContext.width = this.domElement.width; + renderContext.height = this.domElement.height; + renderContext.depth = this.depth; + renderContext.stencil = this.stencil; + + } + + renderContext.width >>= activeMipmapLevel; + renderContext.height >>= activeMipmapLevel; + renderContext.activeCubeFace = activeCubeFace; + renderContext.activeMipmapLevel = activeMipmapLevel; + renderContext.occlusionQueryCount = renderList.occlusionQueryCount; + + // + + this._nodes.updateScene( sceneRef ); + + // + + this._background.update( sceneRef, renderList, renderContext ); + + // + + this.backend.beginRender( renderContext ); + + // process render lists + + const opaqueObjects = renderList.opaque; + const transparentObjects = renderList.transparent; + const bundles = renderList.bundles; + const lightsNode = renderList.lightsNode; + + if ( bundles.length > 0 ) this._renderBundles( bundles, sceneRef, lightsNode ); + if ( opaqueObjects.length > 0 ) this._renderObjects( opaqueObjects, camera, sceneRef, lightsNode ); + if ( transparentObjects.length > 0 ) this._renderObjects( transparentObjects, camera, sceneRef, lightsNode ); + + // finish render pass + + this.backend.finishRender( renderContext ); + + // restore render tree + + nodeFrame.renderId = previousRenderId; + + this._currentRenderContext = previousRenderContext; + this._currentRenderObjectFunction = previousRenderObjectFunction; + + // + + if ( frameBufferTarget !== null ) { + + this.setRenderTarget( outputRenderTarget, activeCubeFace, activeMipmapLevel ); + + _quad.material.fragmentNode = this._nodes.getOutputNode( renderTarget.texture ); + + this._renderScene( _quad, _quad.camera, false ); + + } + + // + + sceneRef.onAfterRender( this, scene, camera, renderTarget ); + + // + + return renderContext; + + } + + getMaxAnisotropy() { + + return this.backend.getMaxAnisotropy(); + + } + + getActiveCubeFace() { + + return this._activeCubeFace; + + } + + getActiveMipmapLevel() { + + return this._activeMipmapLevel; + + } + + async setAnimationLoop( callback ) { + + if ( this._initialized === false ) await this.init(); + + this._animation.setAnimationLoop( callback ); + + } + + async getArrayBufferAsync( attribute ) { + + return await this.backend.getArrayBufferAsync( attribute ); + + } + + getContext() { + + return this.backend.getContext(); + + } + + getPixelRatio() { + + return this._pixelRatio; + + } + + getDrawingBufferSize( target ) { + + return target.set( this._width * this._pixelRatio, this._height * this._pixelRatio ).floor(); + + } + + getSize( target ) { + + return target.set( this._width, this._height ); + + } + + setPixelRatio( value = 1 ) { + + this._pixelRatio = value; + + this.setSize( this._width, this._height, false ); + + } + + setDrawingBufferSize( width, height, pixelRatio ) { + + this._width = width; + this._height = height; + + this._pixelRatio = pixelRatio; + + this.domElement.width = Math.floor( width * pixelRatio ); + this.domElement.height = Math.floor( height * pixelRatio ); + + this.setViewport( 0, 0, width, height ); + + if ( this._initialized ) this.backend.updateSize(); + + } + + setSize( width, height, updateStyle = true ) { + + this._width = width; + this._height = height; + + this.domElement.width = Math.floor( width * this._pixelRatio ); + this.domElement.height = Math.floor( height * this._pixelRatio ); + + if ( updateStyle === true ) { + + this.domElement.style.width = width + 'px'; + this.domElement.style.height = height + 'px'; + + } + + this.setViewport( 0, 0, width, height ); + + if ( this._initialized ) this.backend.updateSize(); + + } + + setOpaqueSort( method ) { + + this._opaqueSort = method; + + } + + setTransparentSort( method ) { + + this._transparentSort = method; + + } + + getScissor( target ) { + + const scissor = this._scissor; + + target.x = scissor.x; + target.y = scissor.y; + target.width = scissor.width; + target.height = scissor.height; + + return target; + + } + + setScissor( x, y, width, height ) { + + const scissor = this._scissor; + + if ( x.isVector4 ) { + + scissor.copy( x ); + + } else { + + scissor.set( x, y, width, height ); + + } + + } + + getScissorTest() { + + return this._scissorTest; + + } + + setScissorTest( boolean ) { + + this._scissorTest = boolean; + + this.backend.setScissorTest( boolean ); + + } + + getViewport( target ) { + + return target.copy( this._viewport ); + + } + + setViewport( x, y, width, height, minDepth = 0, maxDepth = 1 ) { + + const viewport = this._viewport; + + if ( x.isVector4 ) { + + viewport.copy( x ); + + } else { + + viewport.set( x, y, width, height ); + + } + + viewport.minDepth = minDepth; + viewport.maxDepth = maxDepth; + + } + + getClearColor( target ) { + + return target.copy( this._clearColor ); + + } + + setClearColor( color, alpha = 1 ) { + + this._clearColor.set( color ); + this._clearColor.a = alpha; + + } + + getClearAlpha() { + + return this._clearColor.a; + + } + + setClearAlpha( alpha ) { + + this._clearColor.a = alpha; + + } + + getClearDepth() { + + return this._clearDepth; + + } + + setClearDepth( depth ) { + + this._clearDepth = depth; + + } + + getClearStencil() { + + return this._clearStencil; + + } + + setClearStencil( stencil ) { + + this._clearStencil = stencil; + + } + + isOccluded( object ) { + + const renderContext = this._currentRenderContext; + + return renderContext && this.backend.isOccluded( renderContext, object ); + + } + + clear( color = true, depth = true, stencil = true ) { + + if ( this._initialized === false ) { + + console.warn( 'THREE.Renderer: .clear() called before the backend is initialized. Try using .clearAsync() instead.' ); + + return this.clearAsync( color, depth, stencil ); + + } + + const renderTarget = this._renderTarget || this._getFrameBufferTarget(); + + let renderTargetData = null; + + if ( renderTarget !== null ) { + + this._textures.updateRenderTarget( renderTarget ); + + renderTargetData = this._textures.get( renderTarget ); + + } + + this.backend.clear( color, depth, stencil, renderTargetData ); + + if ( renderTarget !== null && this._renderTarget === null ) { + + // If a color space transform or tone mapping is required, + // the clear operation clears the intermediate renderTarget texture, but does not update the screen canvas. + + _quad.material.fragmentNode = this._nodes.getOutputNode( renderTarget.texture ); + this._renderScene( _quad, _quad.camera, false ); + + } + + } + + clearColor() { + + return this.clear( true, false, false ); + + } + + clearDepth() { + + return this.clear( false, true, false ); + + } + + clearStencil() { + + return this.clear( false, false, true ); + + } + + async clearAsync( color = true, depth = true, stencil = true ) { + + if ( this._initialized === false ) await this.init(); + + this.clear( color, depth, stencil ); + + } + + clearColorAsync() { + + return this.clearAsync( true, false, false ); + + } + + clearDepthAsync() { + + return this.clearAsync( false, true, false ); + + } + + clearStencilAsync() { + + return this.clearAsync( false, false, true ); + + } + + get currentColorSpace() { + + const renderTarget = this._renderTarget; + + if ( renderTarget !== null ) { + + const texture = renderTarget.texture; + + return ( Array.isArray( texture ) ? texture[ 0 ] : texture ).colorSpace; + + } + + return this.outputColorSpace; + + } + + dispose() { + + this.info.dispose(); + + this._animation.dispose(); + this._objects.dispose(); + this._pipelines.dispose(); + this._nodes.dispose(); + this._bindings.dispose(); + this._renderLists.dispose(); + this._renderContexts.dispose(); + this._textures.dispose(); + + this.setRenderTarget( null ); + this.setAnimationLoop( null ); + + } + + setRenderTarget( renderTarget, activeCubeFace = 0, activeMipmapLevel = 0 ) { + + this._renderTarget = renderTarget; + this._activeCubeFace = activeCubeFace; + this._activeMipmapLevel = activeMipmapLevel; + + } + + getRenderTarget() { + + return this._renderTarget; + + } + + setRenderObjectFunction( renderObjectFunction ) { + + this._renderObjectFunction = renderObjectFunction; + + } + + getRenderObjectFunction() { + + return this._renderObjectFunction; + + } + + async computeAsync( computeNodes ) { + + if ( this._initialized === false ) await this.init(); + + const nodeFrame = this._nodes.nodeFrame; + + const previousRenderId = nodeFrame.renderId; + + // + + this.info.calls ++; + this.info.compute.calls ++; + this.info.compute.frameCalls ++; + + nodeFrame.renderId = this.info.calls; + + // + + const backend = this.backend; + const pipelines = this._pipelines; + const bindings = this._bindings; + const nodes = this._nodes; + + const computeList = Array.isArray( computeNodes ) ? computeNodes : [ computeNodes ]; + + if ( computeList[ 0 ] === undefined || computeList[ 0 ].isComputeNode !== true ) { + + throw new Error( 'THREE.Renderer: .compute() expects a ComputeNode.' ); + + } + + backend.beginCompute( computeNodes ); + + for ( const computeNode of computeList ) { + + // onInit + + if ( pipelines.has( computeNode ) === false ) { + + const dispose = () => { + + computeNode.removeEventListener( 'dispose', dispose ); + + pipelines.delete( computeNode ); + bindings.delete( computeNode ); + nodes.delete( computeNode ); + + }; + + computeNode.addEventListener( 'dispose', dispose ); + + // + + computeNode.onInit( { renderer: this } ); + + } + + nodes.updateForCompute( computeNode ); + bindings.updateForCompute( computeNode ); + + const computeBindings = bindings.getForCompute( computeNode ); + const computePipeline = pipelines.getForCompute( computeNode, computeBindings ); + + backend.compute( computeNodes, computeNode, computeBindings, computePipeline ); + + } + + backend.finishCompute( computeNodes ); + + await this.backend.resolveTimestampAsync( computeNodes, 'compute' ); + + // + + nodeFrame.renderId = previousRenderId; + + } + + async hasFeatureAsync( name ) { + + if ( this._initialized === false ) await this.init(); + + return this.backend.hasFeature( name ); + + } + + hasFeature( name ) { + + if ( this._initialized === false ) { + + console.warn( 'THREE.Renderer: .hasFeature() called before the backend is initialized. Try using .hasFeatureAsync() instead.' ); + + return false; + + } + + return this.backend.hasFeature( name ); + + } + + copyFramebufferToTexture( framebufferTexture ) { + + const renderContext = this._currentRenderContext; + + this._textures.updateTexture( framebufferTexture ); + + this.backend.copyFramebufferToTexture( framebufferTexture, renderContext ); + + } + + copyTextureToTexture( srcTexture, dstTexture, srcRegion = null, dstPosition = null, level = 0 ) { + + this._textures.updateTexture( srcTexture ); + this._textures.updateTexture( dstTexture ); + + this.backend.copyTextureToTexture( srcTexture, dstTexture, srcRegion, dstPosition, level ); + + } + + + readRenderTargetPixelsAsync( renderTarget, x, y, width, height, index = 0 ) { + + return this.backend.copyTextureToBuffer( renderTarget.textures[ index ], x, y, width, height ); + + } + + _projectObject( object, camera, groupOrder, renderList ) { + + if ( object.visible === false ) return; + + const visible = object.layers.test( camera.layers ); + + if ( visible ) { + + if ( object.isGroup ) { + + groupOrder = object.renderOrder; + + } else if ( object.isLOD ) { + + if ( object.autoUpdate === true ) object.update( camera ); + + } else if ( object.isLight ) { + + renderList.pushLight( object ); + + } else if ( object.isSprite ) { + + if ( ! object.frustumCulled || _frustum.intersectsSprite( object ) ) { + + if ( this.sortObjects === true ) { + + _vector3.setFromMatrixPosition( object.matrixWorld ).applyMatrix4( _projScreenMatrix ); + + } + + const geometry = object.geometry; + const material = object.material; + + if ( material.visible ) { + + renderList.push( object, geometry, material, groupOrder, _vector3.z, null ); + + } + + } + + } else if ( object.isLineLoop ) { + + console.error( 'THREE.Renderer: Objects of type THREE.LineLoop are not supported. Please use THREE.Line or THREE.LineSegments.' ); + + } else if ( object.isMesh || object.isLine || object.isPoints ) { + + if ( ! object.frustumCulled || _frustum.intersectsObject( object ) ) { + + const geometry = object.geometry; + const material = object.material; + + if ( this.sortObjects === true ) { + + if ( geometry.boundingSphere === null ) geometry.computeBoundingSphere(); + + _vector3 + .copy( geometry.boundingSphere.center ) + .applyMatrix4( object.matrixWorld ) + .applyMatrix4( _projScreenMatrix ); + + } + + if ( Array.isArray( material ) ) { + + const groups = geometry.groups; + + for ( let i = 0, l = groups.length; i < l; i ++ ) { + + const group = groups[ i ]; + const groupMaterial = material[ group.materialIndex ]; + + if ( groupMaterial && groupMaterial.visible ) { + + renderList.push( object, geometry, groupMaterial, groupOrder, _vector3.z, group ); + + } + + } + + } else if ( material.visible ) { + + renderList.push( object, geometry, material, groupOrder, _vector3.z, null ); + + } + + } + + } + + } + + if ( object.static === true ) { + + const baseRenderList = renderList; + + // replace render list + renderList = this._renderLists.get( object, camera ); + + renderList.begin(); + + baseRenderList.pushBundle( { + object, + camera, + renderList, + } ); + + renderList.finish(); + + } + + const children = object.children; + + for ( let i = 0, l = children.length; i < l; i ++ ) { + + this._projectObject( children[ i ], camera, groupOrder, renderList ); + + } + + } + + _renderBundles( bundles, sceneRef, lightsNode ) { + + for ( const bundle of bundles ) { + + this._renderBundle( bundle, sceneRef, lightsNode ); + + } + + } + + _renderObjects( renderList, camera, scene, lightsNode ) { + + // process renderable objects + + for ( let i = 0, il = renderList.length; i < il; i ++ ) { + + const renderItem = renderList[ i ]; + + // @TODO: Add support for multiple materials per object. This will require to extract + // the material from the renderItem object and pass it with its group data to renderObject(). + + const { object, geometry, material, group } = renderItem; + + if ( camera.isArrayCamera ) { + + const cameras = camera.cameras; + + for ( let j = 0, jl = cameras.length; j < jl; j ++ ) { + + const camera2 = cameras[ j ]; + + if ( object.layers.test( camera2.layers ) ) { + + const vp = camera2.viewport; + const minDepth = ( vp.minDepth === undefined ) ? 0 : vp.minDepth; + const maxDepth = ( vp.maxDepth === undefined ) ? 1 : vp.maxDepth; + + const viewportValue = this._currentRenderContext.viewportValue; + viewportValue.copy( vp ).multiplyScalar( this._pixelRatio ).floor(); + viewportValue.minDepth = minDepth; + viewportValue.maxDepth = maxDepth; + + this.backend.updateViewport( this._currentRenderContext ); + + this._currentRenderObjectFunction( object, scene, camera2, geometry, material, group, lightsNode ); + + } + + } + + } else { + + this._currentRenderObjectFunction( object, scene, camera, geometry, material, group, lightsNode ); + + } + + } + + } + + renderObject( object, scene, camera, geometry, material, group, lightsNode ) { + + let overridePositionNode; + let overrideFragmentNode; + let overrideDepthNode; + + // + + object.onBeforeRender( this, scene, camera, geometry, material, group ); + + // + + if ( scene.overrideMaterial !== null ) { + + const overrideMaterial = scene.overrideMaterial; + + if ( material.positionNode && material.positionNode.isNode ) { + + overridePositionNode = overrideMaterial.positionNode; + overrideMaterial.positionNode = material.positionNode; + + } + + if ( overrideMaterial.isShadowNodeMaterial ) { + + overrideMaterial.side = material.shadowSide === null ? material.side : material.shadowSide; + + if ( material.depthNode && material.depthNode.isNode ) { + + overrideDepthNode = overrideMaterial.depthNode; + overrideMaterial.depthNode = material.depthNode; + + } + + + if ( material.shadowNode && material.shadowNode.isNode ) { + + overrideFragmentNode = overrideMaterial.fragmentNode; + overrideMaterial.fragmentNode = material.shadowNode; + + } + + if ( this.localClippingEnabled ) { + + if ( material.clipShadows ) { + + if ( overrideMaterial.clippingPlanes !== material.clippingPlanes ) { + + overrideMaterial.clippingPlanes = material.clippingPlanes; + overrideMaterial.needsUpdate = true; + + } + + if ( overrideMaterial.clipIntersection !== material.clipIntersection ) { + + overrideMaterial.clipIntersection = material.clipIntersection; + + } + + } else if ( Array.isArray( overrideMaterial.clippingPlanes ) ) { + + overrideMaterial.clippingPlanes = null; + overrideMaterial.needsUpdate = true; + + } + + } + + } + + material = overrideMaterial; + + } + + // + + if ( material.transparent === true && material.side === DoubleSide && material.forceSinglePass === false ) { + + material.side = BackSide; + this._handleObjectFunction( object, material, scene, camera, lightsNode, group, 'backSide' ); // create backSide pass id + + material.side = FrontSide; + this._handleObjectFunction( object, material, scene, camera, lightsNode, group ); // use default pass id + + material.side = DoubleSide; + + } else { + + this._handleObjectFunction( object, material, scene, camera, lightsNode, group ); + + } + + // + + if ( overridePositionNode !== undefined ) { + + scene.overrideMaterial.positionNode = overridePositionNode; + + } + + if ( overrideDepthNode !== undefined ) { + + scene.overrideMaterial.depthNode = overrideDepthNode; + + } + + if ( overrideFragmentNode !== undefined ) { + + scene.overrideMaterial.fragmentNode = overrideFragmentNode; + + } + + // + + object.onAfterRender( this, scene, camera, geometry, material, group ); + + } + + _renderObjectDirect( object, material, scene, camera, lightsNode, group, passId ) { + + const renderObject = this._objects.get( object, material, scene, camera, lightsNode, this._currentRenderContext, passId ); + renderObject.drawRange = group || object.geometry.drawRange; + + // + + this._nodes.updateBefore( renderObject ); + + // + + object.modelViewMatrix.multiplyMatrices( camera.matrixWorldInverse, object.matrixWorld ); + object.normalMatrix.getNormalMatrix( object.modelViewMatrix ); + + // + + this._nodes.updateForRender( renderObject ); + this._geometries.updateForRender( renderObject ); + this._bindings.updateForRender( renderObject ); + this._pipelines.updateForRender( renderObject ); + + // + + if ( this._currentRenderBundle !== null && this._currentRenderBundle.needsUpdate === true ) { + + const renderObjectData = this.backend.get( renderObject ); + + renderObjectData.bundleEncoder = undefined; + renderObjectData.lastPipelineGPU = undefined; + + } + + this.backend.draw( renderObject, this.info ); + + if ( this._currentRenderBundle !== null ) { + + const renderContextData = this.backend.get( this._currentRenderContext ); + + renderContextData.renderObjects.push( renderObject ); + + } + + this._nodes.updateAfter( renderObject ); + + } + + _createObjectPipeline( object, material, scene, camera, lightsNode, passId ) { + + const renderObject = this._objects.get( object, material, scene, camera, lightsNode, this._currentRenderContext, passId ); + + // + + this._nodes.updateBefore( renderObject ); + + // + + this._nodes.updateForRender( renderObject ); + this._geometries.updateForRender( renderObject ); + this._bindings.updateForRender( renderObject ); + + this._pipelines.getForRender( renderObject, this._compilationPromises ); + + this._nodes.updateAfter( renderObject ); + + } + + get compute() { + + return this.computeAsync; + + } + + get compile() { + + return this.compileAsync; + + } + +} + +class Binding { + + constructor( name = '' ) { + + this.name = name; + + this.visibility = 0; + + } + + setVisibility( visibility ) { + + this.visibility |= visibility; + + } + + clone() { + + return Object.assign( new this.constructor(), this ); + + } + +} + +function getFloatLength( floatLength ) { + + // ensure chunk size alignment (STD140 layout) + + return floatLength + ( ( GPU_CHUNK_BYTES - ( floatLength % GPU_CHUNK_BYTES ) ) % GPU_CHUNK_BYTES ); + +} + +class Buffer extends Binding { + + constructor( name, buffer = null ) { + + super( name ); + + this.isBuffer = true; + + this.bytesPerElement = Float32Array.BYTES_PER_ELEMENT; + + this._buffer = buffer; + + } + + get byteLength() { + + return getFloatLength( this._buffer.byteLength ); + + } + + get buffer() { + + return this._buffer; + + } + + update() { + + return true; + + } + +} + +class UniformBuffer extends Buffer { + + constructor( name, buffer = null ) { + + super( name, buffer ); + + this.isUniformBuffer = true; + + } + +} + +let _id$2 = 0; + +class NodeUniformBuffer extends UniformBuffer { + + constructor( nodeUniform, groupNode ) { + + super( 'UniformBuffer_' + _id$2 ++, nodeUniform ? nodeUniform.value : null ); + + this.nodeUniform = nodeUniform; + this.groupNode = groupNode; + + } + + get buffer() { + + return this.nodeUniform.value; + + } + +} + +class UniformsGroup extends UniformBuffer { + + constructor( name ) { + + super( name ); + + this.isUniformsGroup = true; + + this._values = null; + + // the order of uniforms in this array must match the order of uniforms in the shader + + this.uniforms = []; + + } + + addUniform( uniform ) { + + this.uniforms.push( uniform ); + + return this; + + } + + removeUniform( uniform ) { + + const index = this.uniforms.indexOf( uniform ); + + if ( index !== - 1 ) { + + this.uniforms.splice( index, 1 ); + + } + + return this; + + } + + get values() { + + if ( this._values === null ) { + + this._values = Array.from( this.buffer ); + + } + + return this._values; + + } + + get buffer() { + + let buffer = this._buffer; + + if ( buffer === null ) { + + const byteLength = this.byteLength; + + buffer = new Float32Array( new ArrayBuffer( byteLength ) ); + + this._buffer = buffer; + + } + + return buffer; + + } + + get byteLength() { + + let offset = 0; // global buffer offset in bytes + + for ( let i = 0, l = this.uniforms.length; i < l; i ++ ) { + + const uniform = this.uniforms[ i ]; + + const { boundary, itemSize } = uniform; + + // offset within a single chunk in bytes + + const chunkOffset = offset % GPU_CHUNK_BYTES; + const remainingSizeInChunk = GPU_CHUNK_BYTES - chunkOffset; + + // conformance tests + + if ( chunkOffset !== 0 && ( remainingSizeInChunk - boundary ) < 0 ) { + + // check for chunk overflow + + offset += ( GPU_CHUNK_BYTES - chunkOffset ); + + } else if ( chunkOffset % boundary !== 0 ) { + + // check for correct alignment + + offset += ( chunkOffset % boundary ); + + } + + uniform.offset = ( offset / this.bytesPerElement ); + + offset += ( itemSize * this.bytesPerElement ); + + } + + return Math.ceil( offset / GPU_CHUNK_BYTES ) * GPU_CHUNK_BYTES; + + } + + update() { + + let updated = false; + + for ( const uniform of this.uniforms ) { + + if ( this.updateByType( uniform ) === true ) { + + updated = true; + + } + + } + + return updated; + + } + + updateByType( uniform ) { + + if ( uniform.isNumberUniform ) return this.updateNumber( uniform ); + if ( uniform.isVector2Uniform ) return this.updateVector2( uniform ); + if ( uniform.isVector3Uniform ) return this.updateVector3( uniform ); + if ( uniform.isVector4Uniform ) return this.updateVector4( uniform ); + if ( uniform.isColorUniform ) return this.updateColor( uniform ); + if ( uniform.isMatrix3Uniform ) return this.updateMatrix3( uniform ); + if ( uniform.isMatrix4Uniform ) return this.updateMatrix4( uniform ); + + console.error( 'THREE.WebGPUUniformsGroup: Unsupported uniform type.', uniform ); + + } + + updateNumber( uniform ) { + + let updated = false; + + const a = this.values; + const v = uniform.getValue(); + const offset = uniform.offset; + + if ( a[ offset ] !== v ) { + + const b = this.buffer; + + b[ offset ] = a[ offset ] = v; + updated = true; + + } + + return updated; + + } + + updateVector2( uniform ) { + + let updated = false; + + const a = this.values; + const v = uniform.getValue(); + const offset = uniform.offset; + + if ( a[ offset + 0 ] !== v.x || a[ offset + 1 ] !== v.y ) { + + const b = this.buffer; + + b[ offset + 0 ] = a[ offset + 0 ] = v.x; + b[ offset + 1 ] = a[ offset + 1 ] = v.y; + + updated = true; + + } + + return updated; + + } + + updateVector3( uniform ) { + + let updated = false; + + const a = this.values; + const v = uniform.getValue(); + const offset = uniform.offset; + + if ( a[ offset + 0 ] !== v.x || a[ offset + 1 ] !== v.y || a[ offset + 2 ] !== v.z ) { + + const b = this.buffer; + + b[ offset + 0 ] = a[ offset + 0 ] = v.x; + b[ offset + 1 ] = a[ offset + 1 ] = v.y; + b[ offset + 2 ] = a[ offset + 2 ] = v.z; + + updated = true; + + } + + return updated; + + } + + updateVector4( uniform ) { + + let updated = false; + + const a = this.values; + const v = uniform.getValue(); + const offset = uniform.offset; + + if ( a[ offset + 0 ] !== v.x || a[ offset + 1 ] !== v.y || a[ offset + 2 ] !== v.z || a[ offset + 4 ] !== v.w ) { + + const b = this.buffer; + + b[ offset + 0 ] = a[ offset + 0 ] = v.x; + b[ offset + 1 ] = a[ offset + 1 ] = v.y; + b[ offset + 2 ] = a[ offset + 2 ] = v.z; + b[ offset + 3 ] = a[ offset + 3 ] = v.w; + + updated = true; + + } + + return updated; + + } + + updateColor( uniform ) { + + let updated = false; + + const a = this.values; + const c = uniform.getValue(); + const offset = uniform.offset; + + if ( a[ offset + 0 ] !== c.r || a[ offset + 1 ] !== c.g || a[ offset + 2 ] !== c.b ) { + + const b = this.buffer; + + b[ offset + 0 ] = a[ offset + 0 ] = c.r; + b[ offset + 1 ] = a[ offset + 1 ] = c.g; + b[ offset + 2 ] = a[ offset + 2 ] = c.b; + + updated = true; + + } + + return updated; + + } + + updateMatrix3( uniform ) { + + let updated = false; + + const a = this.values; + const e = uniform.getValue().elements; + const offset = uniform.offset; + + if ( a[ offset + 0 ] !== e[ 0 ] || a[ offset + 1 ] !== e[ 1 ] || a[ offset + 2 ] !== e[ 2 ] || + a[ offset + 4 ] !== e[ 3 ] || a[ offset + 5 ] !== e[ 4 ] || a[ offset + 6 ] !== e[ 5 ] || + a[ offset + 8 ] !== e[ 6 ] || a[ offset + 9 ] !== e[ 7 ] || a[ offset + 10 ] !== e[ 8 ] ) { + + const b = this.buffer; + + b[ offset + 0 ] = a[ offset + 0 ] = e[ 0 ]; + b[ offset + 1 ] = a[ offset + 1 ] = e[ 1 ]; + b[ offset + 2 ] = a[ offset + 2 ] = e[ 2 ]; + b[ offset + 4 ] = a[ offset + 4 ] = e[ 3 ]; + b[ offset + 5 ] = a[ offset + 5 ] = e[ 4 ]; + b[ offset + 6 ] = a[ offset + 6 ] = e[ 5 ]; + b[ offset + 8 ] = a[ offset + 8 ] = e[ 6 ]; + b[ offset + 9 ] = a[ offset + 9 ] = e[ 7 ]; + b[ offset + 10 ] = a[ offset + 10 ] = e[ 8 ]; + + updated = true; + + } + + return updated; + + } + + updateMatrix4( uniform ) { + + let updated = false; + + const a = this.values; + const e = uniform.getValue().elements; + const offset = uniform.offset; + + if ( arraysEqual( a, e, offset ) === false ) { + + const b = this.buffer; + b.set( e, offset ); + setArray( a, e, offset ); + updated = true; + + } + + return updated; + + } + +} + +function setArray( a, b, offset ) { + + for ( let i = 0, l = b.length; i < l; i ++ ) { + + a[ offset + i ] = b[ i ]; + + } + +} + +function arraysEqual( a, b, offset ) { + + for ( let i = 0, l = b.length; i < l; i ++ ) { + + if ( a[ offset + i ] !== b[ i ] ) return false; + + } + + return true; + +} + +let id$1 = 0; + +class NodeUniformsGroup extends UniformsGroup { + + constructor( name, groupNode ) { + + super( name ); + + this.id = id$1 ++; + this.groupNode = groupNode; + + this.isNodeUniformsGroup = true; + + } + + getNodes() { + + const nodes = []; + + for ( const uniform of this.uniforms ) { + + const node = uniform.nodeUniform.node; + + if ( ! node ) throw new Error( 'NodeUniformsGroup: Uniform has no node.' ); + + nodes.push( node ); + + } + + return nodes; + + } + +} + +let id = 0; + +class SampledTexture extends Binding { + + constructor( name, texture ) { + + super( name ); + + this.id = id ++; + + this.texture = texture; + this.version = texture ? texture.version : 0; + this.store = false; + + this.isSampledTexture = true; + + } + + get needsBindingsUpdate() { + + const { texture, version } = this; + + return texture.isVideoTexture ? true : version !== texture.version; // @TODO: version === 0 && texture.version > 0 ( add it just to External Textures like PNG,JPG ) + + } + + update() { + + const { texture, version } = this; + + if ( version !== texture.version ) { + + this.version = texture.version; + + return true; + + } + + return false; + + } + +} + +class NodeSampledTexture extends SampledTexture { + + constructor( name, textureNode, groupNode, access = null ) { + + super( name, textureNode ? textureNode.value : null ); + + this.textureNode = textureNode; + this.groupNode = groupNode; + + this.access = access; + + } + + get needsBindingsUpdate() { + + return this.textureNode.value !== this.texture || super.needsBindingsUpdate; + + } + + update() { + + const { textureNode } = this; + + if ( this.texture !== textureNode.value ) { + + this.texture = textureNode.value; + + return true; + + } + + return super.update(); + + } + +} + +class NodeSampledCubeTexture extends NodeSampledTexture { + + constructor( name, textureNode, groupNode, access ) { + + super( name, textureNode, groupNode, access ); + + this.isSampledCubeTexture = true; + + } + +} + +class NodeSampledTexture3D extends NodeSampledTexture { + + constructor( name, textureNode, groupNode, access ) { + + super( name, textureNode, groupNode, access ); + + this.isSampledTexture3D = true; + + } + +} + +const glslMethods = { + [ MathNode.ATAN2 ]: 'atan', + textureDimensions: 'textureSize', + equals: 'equal' +}; + +const precisionLib = { + low: 'lowp', + medium: 'mediump', + high: 'highp' +}; + +const supports$1 = { + swizzleAssign: true, + storageBuffer: false +}; + +const defaultPrecisions = ` +precision highp float; +precision highp int; +precision highp sampler2D; +precision highp sampler3D; +precision highp samplerCube; +precision highp sampler2DArray; + +precision highp usampler2D; +precision highp usampler3D; +precision highp usamplerCube; +precision highp usampler2DArray; + +precision highp isampler2D; +precision highp isampler3D; +precision highp isamplerCube; +precision highp isampler2DArray; + +precision lowp sampler2DShadow; +`; + +class GLSLNodeBuilder extends NodeBuilder { + + constructor( object, renderer ) { + + super( object, renderer, new GLSLNodeParser() ); + + this.uniformGroups = {}; + this.transforms = []; + + this.instanceBindGroups = false; + + } + + getMethod( method ) { + + return glslMethods[ method ] || method; + + } + + getOutputStructName() { + + return ''; + + } + + buildFunctionCode( shaderNode ) { + + const layout = shaderNode.layout; + const flowData = this.flowShaderNode( shaderNode ); + + const parameters = []; + + for ( const input of layout.inputs ) { + + parameters.push( this.getType( input.type ) + ' ' + input.name ); + + } + + // + + const code = `${ this.getType( layout.type ) } ${ layout.name }( ${ parameters.join( ', ' ) } ) { + + ${ flowData.vars } + +${ flowData.code } + return ${ flowData.result }; + +}`; + + // + + return code; + + } + + setupPBO( storageBufferNode ) { + + const attribute = storageBufferNode.value; + + if ( attribute.pbo === undefined ) { + + const originalArray = attribute.array; + const numElements = attribute.count * attribute.itemSize; + + const { itemSize } = attribute; + + const isInteger = attribute.array.constructor.name.toLowerCase().includes( 'int' ); + + let format = isInteger ? RedIntegerFormat : RedFormat; + + + if ( itemSize === 2 ) { + + format = isInteger ? RGIntegerFormat : RGFormat; + + } else if ( itemSize === 3 ) { + + format = isInteger ? RGBIntegerFormat : RGBFormat; + + } else if ( itemSize === 4 ) { + + format = isInteger ? RGBAIntegerFormat : RGBAFormat; + + } + + const typeMap = { + Float32Array: FloatType, + Uint8Array: UnsignedByteType, + Uint16Array: UnsignedShortType, + Uint32Array: UnsignedIntType, + Int8Array: ByteType, + Int16Array: ShortType, + Int32Array: IntType, + Uint8ClampedArray: UnsignedByteType, + }; + + const width = Math.pow( 2, Math.ceil( Math.log2( Math.sqrt( numElements / itemSize ) ) ) ); + let height = Math.ceil( ( numElements / itemSize ) / width ); + if ( width * height * itemSize < numElements ) height ++; // Ensure enough space + + const newSize = width * height * itemSize; + + const newArray = new originalArray.constructor( newSize ); + + newArray.set( originalArray, 0 ); + + attribute.array = newArray; + + const pboTexture = new DataTexture( attribute.array, width, height, format, typeMap[ attribute.array.constructor.name ] || FloatType ); + pboTexture.needsUpdate = true; + pboTexture.isPBOTexture = true; + + const pbo = new TextureNode( pboTexture, null, null ); + pbo.setPrecision( 'high' ); + + attribute.pboNode = pbo; + attribute.pbo = pbo.value; + + this.getUniformFromNode( attribute.pboNode, 'texture', this.shaderStage, this.context.label ); + + } + + } + + getPropertyName( node, shaderStage = this.shaderStage ) { + + if ( node.isNodeUniform && node.node.isTextureNode !== true && node.node.isBufferNode !== true ) { + + return shaderStage.charAt( 0 ) + '_' + node.name; + + } + + return super.getPropertyName( node, shaderStage ); + + } + + generatePBO( storageArrayElementNode ) { + + const { node, indexNode } = storageArrayElementNode; + const attribute = node.value; + + if ( this.renderer.backend.has( attribute ) ) { + + const attributeData = this.renderer.backend.get( attribute ); + attributeData.pbo = attribute.pbo; + + } + + + const nodeUniform = this.getUniformFromNode( attribute.pboNode, 'texture', this.shaderStage, this.context.label ); + const textureName = this.getPropertyName( nodeUniform ); + + indexNode.increaseUsage( this ); // force cache generate to be used as index in x,y + const indexSnippet = indexNode.build( this, 'uint' ); + + const elementNodeData = this.getDataFromNode( storageArrayElementNode ); + + let propertyName = elementNodeData.propertyName; + + if ( propertyName === undefined ) { + + // property element + + const nodeVar = this.getVarFromNode( storageArrayElementNode ); + + propertyName = this.getPropertyName( nodeVar ); + + // property size + + const bufferNodeData = this.getDataFromNode( node ); + + let propertySizeName = bufferNodeData.propertySizeName; + + if ( propertySizeName === undefined ) { + + propertySizeName = propertyName + 'Size'; + + this.getVarFromNode( node, propertySizeName, 'uint' ); + + this.addLineFlowCode( `${ propertySizeName } = uint( textureSize( ${ textureName }, 0 ).x )` ); + + bufferNodeData.propertySizeName = propertySizeName; + + } + + // + + const { itemSize } = attribute; + + const channel = '.' + vectorComponents.join( '' ).slice( 0, itemSize ); + const uvSnippet = `ivec2(${indexSnippet} % ${ propertySizeName }, ${indexSnippet} / ${ propertySizeName })`; + + const snippet = this.generateTextureLoad( null, textureName, uvSnippet, null, '0' ); + + // + + + let prefix = 'vec4'; + + if ( attribute.pbo.type === UnsignedIntType ) { + + prefix = 'uvec4'; + + } else if ( attribute.pbo.type === IntType ) { + + prefix = 'ivec4'; + + } + + this.addLineFlowCode( `${ propertyName } = ${prefix}(${ snippet })${channel}` ); + + elementNodeData.propertyName = propertyName; + + } + + return propertyName; + + } + + generateTextureLoad( texture, textureProperty, uvIndexSnippet, depthSnippet, levelSnippet = '0' ) { + + if ( depthSnippet ) { + + return `texelFetch( ${ textureProperty }, ivec3( ${ uvIndexSnippet }, ${ depthSnippet } ), ${ levelSnippet } )`; + + } else { + + return `texelFetch( ${ textureProperty }, ${ uvIndexSnippet }, ${ levelSnippet } )`; + + } + + } + + generateTexture( texture, textureProperty, uvSnippet, depthSnippet ) { + + if ( texture.isDepthTexture ) { + + return `texture( ${ textureProperty }, ${ uvSnippet } ).x`; + + } else { + + if ( depthSnippet ) uvSnippet = `vec3( ${ uvSnippet }, ${ depthSnippet } )`; + + return `texture( ${ textureProperty }, ${ uvSnippet } )`; + + } + + } + + generateTextureLevel( texture, textureProperty, uvSnippet, levelSnippet ) { + + return `textureLod( ${ textureProperty }, ${ uvSnippet }, ${ levelSnippet } )`; + + } + + generateTextureGrad( texture, textureProperty, uvSnippet, gradSnippet ) { + + return `textureGrad( ${ textureProperty }, ${ uvSnippet }, ${ gradSnippet[ 0 ] }, ${ gradSnippet[ 1 ] } )`; + + } + + generateTextureCompare( texture, textureProperty, uvSnippet, compareSnippet, depthSnippet, shaderStage = this.shaderStage ) { + + if ( shaderStage === 'fragment' ) { + + return `texture( ${ textureProperty }, vec3( ${ uvSnippet }, ${ compareSnippet } ) )`; + + } else { + + console.error( `WebGPURenderer: THREE.DepthTexture.compareFunction() does not support ${ shaderStage } shader.` ); + + } + + } + + getVars( shaderStage ) { + + const snippets = []; + + const vars = this.vars[ shaderStage ]; + + if ( vars !== undefined ) { + + for ( const variable of vars ) { + + snippets.push( `${ this.getVar( variable.type, variable.name ) };` ); + + } + + } + + return snippets.join( '\n\t' ); + + } + + getUniforms( shaderStage ) { + + const uniforms = this.uniforms[ shaderStage ]; + + const bindingSnippets = []; + const uniformGroups = {}; + + for ( const uniform of uniforms ) { + + let snippet = null; + let group = false; + + if ( uniform.type === 'texture' ) { + + const texture = uniform.node.value; + + let typePrefix = ''; + + if ( texture.isDataTexture === true ) { + + + if ( texture.type === UnsignedIntType ) { + + typePrefix = 'u'; + + } else if ( texture.type === IntType ) { + + typePrefix = 'i'; + + } + + } + + if ( texture.compareFunction ) { + + snippet = `sampler2DShadow ${ uniform.name };`; + + } else if ( texture.isDataArrayTexture === true ) { + + snippet = `${typePrefix}sampler2DArray ${ uniform.name };`; + + } else { + + snippet = `${typePrefix}sampler2D ${ uniform.name };`; + + } + + } else if ( uniform.type === 'cubeTexture' ) { + + snippet = `samplerCube ${ uniform.name };`; + + } else if ( uniform.type === 'texture3D' ) { + + snippet = `sampler3D ${ uniform.name };`; + + } else if ( uniform.type === 'buffer' ) { + + const bufferNode = uniform.node; + const bufferType = this.getType( bufferNode.bufferType ); + const bufferCount = bufferNode.bufferCount; + + const bufferCountSnippet = bufferCount > 0 ? bufferCount : ''; + snippet = `${bufferNode.name} {\n\t${ bufferType } ${ uniform.name }[${ bufferCountSnippet }];\n};\n`; + + } else { + + const vectorType = this.getVectorType( uniform.type ); + + snippet = `${ vectorType } ${ this.getPropertyName( uniform, shaderStage ) };`; + + group = true; + + } + + const precision = uniform.node.precision; + + if ( precision !== null ) { + + snippet = precisionLib[ precision ] + ' ' + snippet; + + } + + if ( group ) { + + snippet = '\t' + snippet; + + const groupName = uniform.groupNode.name; + const groupSnippets = uniformGroups[ groupName ] || ( uniformGroups[ groupName ] = [] ); + + groupSnippets.push( snippet ); + + } else { + + snippet = 'uniform ' + snippet; + + bindingSnippets.push( snippet ); + + } + + } + + let output = ''; + + for ( const name in uniformGroups ) { + + const groupSnippets = uniformGroups[ name ]; + + output += this._getGLSLUniformStruct( shaderStage + '_' + name, groupSnippets.join( '\n' ) ) + '\n'; + + } + + output += bindingSnippets.join( '\n' ); + + return output; + + } + + getTypeFromAttribute( attribute ) { + + let nodeType = super.getTypeFromAttribute( attribute ); + + if ( /^[iu]/.test( nodeType ) && attribute.gpuType !== IntType ) { + + let dataAttribute = attribute; + + if ( attribute.isInterleavedBufferAttribute ) dataAttribute = attribute.data; + + const array = dataAttribute.array; + + if ( ( array instanceof Uint32Array || array instanceof Int32Array || array instanceof Uint16Array || array instanceof Int16Array ) === false ) { + + nodeType = nodeType.slice( 1 ); + + } + + } + + return nodeType; + + } + + getAttributes( shaderStage ) { + + let snippet = ''; + + if ( shaderStage === 'vertex' || shaderStage === 'compute' ) { + + const attributes = this.getAttributesArray(); + + let location = 0; + + for ( const attribute of attributes ) { + + snippet += `layout( location = ${ location ++ } ) in ${ attribute.type } ${ attribute.name };\n`; + + } + + } + + return snippet; + + } + + getStructMembers( struct ) { + + const snippets = []; + const members = struct.getMemberTypes(); + + for ( let i = 0; i < members.length; i ++ ) { + + const member = members[ i ]; + snippets.push( `layout( location = ${i} ) out ${ member} m${i};` ); + + } + + return snippets.join( '\n' ); + + } + + getStructs( shaderStage ) { + + const snippets = []; + const structs = this.structs[ shaderStage ]; + + if ( structs.length === 0 ) { + + return 'layout( location = 0 ) out vec4 fragColor;\n'; + + } + + for ( let index = 0, length = structs.length; index < length; index ++ ) { + + const struct = structs[ index ]; + + let snippet = '\n'; + snippet += this.getStructMembers( struct ); + snippet += '\n'; + + snippets.push( snippet ); + + } + + return snippets.join( '\n\n' ); + + } + + getVaryings( shaderStage ) { + + let snippet = ''; + + const varyings = this.varyings; + + if ( shaderStage === 'vertex' || shaderStage === 'compute' ) { + + for ( const varying of varyings ) { + + if ( shaderStage === 'compute' ) varying.needsInterpolation = true; + const type = varying.type; + const flat = type.includes( 'int' ) || type.includes( 'uv' ) || type.includes( 'iv' ) ? 'flat ' : ''; + + snippet += `${flat}${varying.needsInterpolation ? 'out' : '/*out*/'} ${type} ${varying.name};\n`; + + } + + } else if ( shaderStage === 'fragment' ) { + + for ( const varying of varyings ) { + + if ( varying.needsInterpolation ) { + + const type = varying.type; + const flat = type.includes( 'int' ) || type.includes( 'uv' ) || type.includes( 'iv' ) ? 'flat ' : ''; + + snippet += `${flat}in ${type} ${varying.name};\n`; + + } + + } + + } + + return snippet; + + } + + getVertexIndex() { + + return 'uint( gl_VertexID )'; + + } + + getInstanceIndex() { + + return 'uint( gl_InstanceID )'; + + } + + getDrawIndex() { + + const extensions = this.renderer.backend.extensions; + + if ( extensions.has( 'WEBGL_multi_draw' ) ) { + + return 'uint( gl_DrawID )'; + + } + + return null; + + } + + getFrontFacing() { + + return 'gl_FrontFacing'; + + } + + getFragCoord() { + + return 'gl_FragCoord'; + + } + + getFragDepth() { + + return 'gl_FragDepth'; + + } + + getExtensions( shaderStage ) { + + let extensions = ''; + + if ( shaderStage === 'vertex' ) { + + const ext = this.renderer.backend.extensions; + const isBatchedMesh = this.object.isBatchedMesh; + + if ( isBatchedMesh && ext.has( 'WEBGL_multi_draw' ) ) { + + extensions += '#extension GL_ANGLE_multi_draw : require\n'; + + } + + } + + return extensions; + + } + + isAvailable( name ) { + + let result = supports$1[ name ]; + + if ( result === undefined ) { + + if ( name === 'float32Filterable' ) { + + const extensions = this.renderer.backend.extensions; + + if ( extensions.has( 'OES_texture_float_linear' ) ) { + + extensions.get( 'OES_texture_float_linear' ); + result = true; + + } else { + + result = false; + + } + + } + + supports$1[ name ] = result; + + } + + return result; + + } + + isFlipY() { + + return true; + + } + + registerTransform( varyingName, attributeNode ) { + + this.transforms.push( { varyingName, attributeNode } ); + + } + + getTransforms( /* shaderStage */ ) { + + const transforms = this.transforms; + + let snippet = ''; + + for ( let i = 0; i < transforms.length; i ++ ) { + + const transform = transforms[ i ]; + + const attributeName = this.getPropertyName( transform.attributeNode ); + + snippet += `${ transform.varyingName } = ${ attributeName };\n\t`; + + } + + return snippet; + + } + + _getGLSLUniformStruct( name, vars ) { + + return ` +layout( std140 ) uniform ${name} { +${vars} +};`; + + } + + _getGLSLVertexCode( shaderData ) { + + return `#version 300 es + +// extensions +${shaderData.extensions} + +// precision +${ defaultPrecisions } + +// uniforms +${shaderData.uniforms} + +// varyings +${shaderData.varyings} + +// attributes +${shaderData.attributes} + +// codes +${shaderData.codes} + +void main() { + + // vars + ${shaderData.vars} + + // transforms + ${shaderData.transforms} + + // flow + ${shaderData.flow} + + gl_PointSize = 1.0; + +} +`; + + } + + _getGLSLFragmentCode( shaderData ) { + + return `#version 300 es + +${ this.getSignature() } + +// precision +${ defaultPrecisions } + +// uniforms +${shaderData.uniforms} + +// varyings +${shaderData.varyings} + +// codes +${shaderData.codes} + +${shaderData.structs} + +void main() { + + // vars + ${shaderData.vars} + + // flow + ${shaderData.flow} + +} +`; + + } + + buildCode() { + + const shadersData = this.material !== null ? { fragment: {}, vertex: {} } : { compute: {} }; + + for ( const shaderStage in shadersData ) { + + let flow = '// code\n\n'; + flow += this.flowCode[ shaderStage ]; + + const flowNodes = this.flowNodes[ shaderStage ]; + const mainNode = flowNodes[ flowNodes.length - 1 ]; + + for ( const node of flowNodes ) { + + const flowSlotData = this.getFlowData( node/*, shaderStage*/ ); + const slotName = node.name; + + if ( slotName ) { + + if ( flow.length > 0 ) flow += '\n'; + + flow += `\t// flow -> ${ slotName }\n\t`; + + } + + flow += `${ flowSlotData.code }\n\t`; + + if ( node === mainNode && shaderStage !== 'compute' ) { + + flow += '// result\n\t'; + + if ( shaderStage === 'vertex' ) { + + flow += 'gl_Position = '; + flow += `${ flowSlotData.result };`; + + } else if ( shaderStage === 'fragment' ) { + + if ( ! node.outputNode.isOutputStructNode ) { + + flow += 'fragColor = '; + flow += `${ flowSlotData.result };`; + + } + + } + + } + + } + + const stageData = shadersData[ shaderStage ]; + + stageData.extensions = this.getExtensions( shaderStage ); + stageData.uniforms = this.getUniforms( shaderStage ); + stageData.attributes = this.getAttributes( shaderStage ); + stageData.varyings = this.getVaryings( shaderStage ); + stageData.vars = this.getVars( shaderStage ); + stageData.structs = this.getStructs( shaderStage ); + stageData.codes = this.getCodes( shaderStage ); + stageData.transforms = this.getTransforms( shaderStage ); + stageData.flow = flow; + + } + + if ( this.material !== null ) { + + this.vertexShader = this._getGLSLVertexCode( shadersData.vertex ); + this.fragmentShader = this._getGLSLFragmentCode( shadersData.fragment ); + + } else { + + this.computeShader = this._getGLSLVertexCode( shadersData.compute ); + + } + + } + + getUniformFromNode( node, type, shaderStage, name = null ) { + + const uniformNode = super.getUniformFromNode( node, type, shaderStage, name ); + const nodeData = this.getDataFromNode( node, shaderStage, this.globalCache ); + + let uniformGPU = nodeData.uniformGPU; + + if ( uniformGPU === undefined ) { + + const group = node.groupNode; + const groupName = group.name; + + const bindings = this.getBindGroupArray( groupName, shaderStage ); + + if ( type === 'texture' ) { + + uniformGPU = new NodeSampledTexture( uniformNode.name, uniformNode.node, group ); + bindings.push( uniformGPU ); + + } else if ( type === 'cubeTexture' ) { + + uniformGPU = new NodeSampledCubeTexture( uniformNode.name, uniformNode.node, group ); + bindings.push( uniformGPU ); + + } else if ( type === 'texture3D' ) { + + uniformGPU = new NodeSampledTexture3D( uniformNode.name, uniformNode.node, group ); + bindings.push( uniformGPU ); + + } else if ( type === 'buffer' ) { + + node.name = `NodeBuffer_${ node.id }`; + uniformNode.name = `buffer${ node.id }`; + + const buffer = new NodeUniformBuffer( node, group ); + buffer.name = node.name; + + bindings.push( buffer ); + + uniformGPU = buffer; + + } else { + + const uniformsStage = this.uniformGroups[ shaderStage ] || ( this.uniformGroups[ shaderStage ] = {} ); + + let uniformsGroup = uniformsStage[ groupName ]; + + if ( uniformsGroup === undefined ) { + + uniformsGroup = new NodeUniformsGroup( shaderStage + '_' + groupName, group ); + //uniformsGroup.setVisibility( gpuShaderStageLib[ shaderStage ] ); + + uniformsStage[ groupName ] = uniformsGroup; + + bindings.push( uniformsGroup ); + + } + + uniformGPU = this.getNodeUniform( uniformNode, type ); + + uniformsGroup.addUniform( uniformGPU ); + + } + + nodeData.uniformGPU = uniformGPU; + + } + + return uniformNode; + + } + +} + +let vector2 = null; +let vector4 = null; +let color4 = null; + +class Backend { + + constructor( parameters = {} ) { + + this.parameters = Object.assign( {}, parameters ); + this.data = new WeakMap(); + this.renderer = null; + this.domElement = null; + + } + + async init( renderer ) { + + this.renderer = renderer; + + } + + // render context + + begin( /*renderContext*/ ) { } + + finish( /*renderContext*/ ) { } + + // render object + + draw( /*renderObject, info*/ ) { } + + // program + + createProgram( /*program*/ ) { } + + destroyProgram( /*program*/ ) { } + + // bindings + + createBindings( /*renderObject*/ ) { } + + updateBindings( /*renderObject*/ ) { } + + // pipeline + + createRenderPipeline( /*renderObject*/ ) { } + + createComputePipeline( /*computeNode, pipeline*/ ) { } + + destroyPipeline( /*pipeline*/ ) { } + + // cache key + + needsRenderUpdate( /*renderObject*/ ) { } // return Boolean ( fast test ) + + getRenderCacheKey( /*renderObject*/ ) { } // return String + + // node builder + + createNodeBuilder( /*renderObject*/ ) { } // return NodeBuilder (ADD IT) + + // textures + + createSampler( /*texture*/ ) { } + + createDefaultTexture( /*texture*/ ) { } + + createTexture( /*texture*/ ) { } + + copyTextureToBuffer( /*texture, x, y, width, height*/ ) {} + + // attributes + + createAttribute( /*attribute*/ ) { } + + createIndexAttribute( /*attribute*/ ) { } + + updateAttribute( /*attribute*/ ) { } + + destroyAttribute( /*attribute*/ ) { } + + // canvas + + getContext() { } + + updateSize() { } + + // utils + + resolveTimestampAsync( /*renderContext, type*/ ) { } + + hasFeatureAsync( /*name*/ ) { } // return Boolean + + hasFeature( /*name*/ ) { } // return Boolean + + getInstanceCount( renderObject ) { + + const { object, geometry } = renderObject; + + return geometry.isInstancedBufferGeometry ? geometry.instanceCount : ( object.count > 1 ? object.count : 1 ); + + } + + getDrawingBufferSize() { + + vector2 = vector2 || new Vector2(); + + return this.renderer.getDrawingBufferSize( vector2 ); + + } + + getScissor() { + + vector4 = vector4 || new Vector4(); + + return this.renderer.getScissor( vector4 ); + + } + + setScissorTest( /*boolean*/ ) { } + + getClearColor() { + + const renderer = this.renderer; + + color4 = color4 || new Color4(); + + renderer.getClearColor( color4 ); + + color4.getRGB( color4, this.renderer.currentColorSpace ); + + return color4; + + } + + getDomElement() { + + let domElement = this.domElement; + + if ( domElement === null ) { + + domElement = ( this.parameters.canvas !== undefined ) ? this.parameters.canvas : createCanvasElement(); + + // OffscreenCanvas does not have setAttribute, see #22811 + if ( 'setAttribute' in domElement ) domElement.setAttribute( 'data-engine', `three.js r${REVISION} webgpu` ); + + this.domElement = domElement; + + } + + return domElement; + + } + + // resource properties + + set( object, value ) { + + this.data.set( object, value ); + + } + + get( object ) { + + let map = this.data.get( object ); + + if ( map === undefined ) { + + map = {}; + this.data.set( object, map ); + + } + + return map; + + } + + has( object ) { + + return this.data.has( object ); + + } + + delete( object ) { + + this.data.delete( object ); + + } + +} + +let _id$1 = 0; + +class DualAttributeData { + + constructor( attributeData, dualBuffer ) { + + this.buffers = [ attributeData.bufferGPU, dualBuffer ]; + this.type = attributeData.type; + this.bufferType = attributeData.bufferType; + this.pbo = attributeData.pbo; + this.byteLength = attributeData.byteLength; + this.bytesPerElement = attributeData.BYTES_PER_ELEMENT; + this.version = attributeData.version; + this.isInteger = attributeData.isInteger; + this.activeBufferIndex = 0; + this.baseId = attributeData.id; + + } + + + get id() { + + return `${ this.baseId }|${ this.activeBufferIndex }`; + + } + + get bufferGPU() { + + return this.buffers[ this.activeBufferIndex ]; + + } + + get transformBuffer() { + + return this.buffers[ this.activeBufferIndex ^ 1 ]; + + } + + switchBuffers() { + + this.activeBufferIndex ^= 1; + + } + +} + +class WebGLAttributeUtils { + + constructor( backend ) { + + this.backend = backend; + + } + + createAttribute( attribute, bufferType ) { + + const backend = this.backend; + const { gl } = backend; + + const array = attribute.array; + const usage = attribute.usage || gl.STATIC_DRAW; + + const bufferAttribute = attribute.isInterleavedBufferAttribute ? attribute.data : attribute; + const bufferData = backend.get( bufferAttribute ); + + let bufferGPU = bufferData.bufferGPU; + + if ( bufferGPU === undefined ) { + + bufferGPU = this._createBuffer( gl, bufferType, array, usage ); + + bufferData.bufferGPU = bufferGPU; + bufferData.bufferType = bufferType; + bufferData.version = bufferAttribute.version; + + } + + //attribute.onUploadCallback(); + + let type; + + if ( array instanceof Float32Array ) { + + type = gl.FLOAT; + + } else if ( array instanceof Uint16Array ) { + + if ( attribute.isFloat16BufferAttribute ) { + + type = gl.HALF_FLOAT; + + } else { + + type = gl.UNSIGNED_SHORT; + + } + + } else if ( array instanceof Int16Array ) { + + type = gl.SHORT; + + } else if ( array instanceof Uint32Array ) { + + type = gl.UNSIGNED_INT; + + } else if ( array instanceof Int32Array ) { + + type = gl.INT; + + } else if ( array instanceof Int8Array ) { + + type = gl.BYTE; + + } else if ( array instanceof Uint8Array ) { + + type = gl.UNSIGNED_BYTE; + + } else if ( array instanceof Uint8ClampedArray ) { + + type = gl.UNSIGNED_BYTE; + + } else { + + throw new Error( 'THREE.WebGLBackend: Unsupported buffer data format: ' + array ); + + } + + let attributeData = { + bufferGPU, + bufferType, + type, + byteLength: array.byteLength, + bytesPerElement: array.BYTES_PER_ELEMENT, + version: attribute.version, + pbo: attribute.pbo, + isInteger: type === gl.INT || type === gl.UNSIGNED_INT || type === gl.UNSIGNED_SHORT || attribute.gpuType === IntType, + id: _id$1 ++ + }; + + if ( attribute.isStorageBufferAttribute || attribute.isStorageInstancedBufferAttribute ) { + + // create buffer for tranform feedback use + const bufferGPUDual = this._createBuffer( gl, bufferType, array, usage ); + attributeData = new DualAttributeData( attributeData, bufferGPUDual ); + + } + + backend.set( attribute, attributeData ); + + } + + updateAttribute( attribute ) { + + const backend = this.backend; + const { gl } = backend; + + const array = attribute.array; + const bufferAttribute = attribute.isInterleavedBufferAttribute ? attribute.data : attribute; + const bufferData = backend.get( bufferAttribute ); + const bufferType = bufferData.bufferType; + const updateRanges = attribute.isInterleavedBufferAttribute ? attribute.data.updateRanges : attribute.updateRanges; + + gl.bindBuffer( bufferType, bufferData.bufferGPU ); + + if ( updateRanges.length === 0 ) { + + // Not using update ranges + + gl.bufferSubData( bufferType, 0, array ); + + } else { + + for ( let i = 0, l = updateRanges.length; i < l; i ++ ) { + + const range = updateRanges[ i ]; + gl.bufferSubData( bufferType, range.start * array.BYTES_PER_ELEMENT, + array, range.start, range.count ); + + } + + bufferAttribute.clearUpdateRanges(); + + } + + gl.bindBuffer( bufferType, null ); + + bufferData.version = bufferAttribute.version; + + } + + destroyAttribute( attribute ) { + + const backend = this.backend; + const { gl } = backend; + + if ( attribute.isInterleavedBufferAttribute ) { + + backend.delete( attribute.data ); + + } + + const attributeData = backend.get( attribute ); + + gl.deleteBuffer( attributeData.bufferGPU ); + + backend.delete( attribute ); + + } + + async getArrayBufferAsync( attribute ) { + + const backend = this.backend; + const { gl } = backend; + + const bufferAttribute = attribute.isInterleavedBufferAttribute ? attribute.data : attribute; + const { bufferGPU } = backend.get( bufferAttribute ); + + const array = attribute.array; + const byteLength = array.byteLength; + + gl.bindBuffer( gl.COPY_READ_BUFFER, bufferGPU ); + + const writeBuffer = gl.createBuffer(); + + gl.bindBuffer( gl.COPY_WRITE_BUFFER, writeBuffer ); + gl.bufferData( gl.COPY_WRITE_BUFFER, byteLength, gl.STREAM_READ ); + + gl.copyBufferSubData( gl.COPY_READ_BUFFER, gl.COPY_WRITE_BUFFER, 0, 0, byteLength ); + + await backend.utils._clientWaitAsync(); + + const dstBuffer = new attribute.array.constructor( array.length ); + + gl.getBufferSubData( gl.COPY_WRITE_BUFFER, 0, dstBuffer ); + + gl.deleteBuffer( writeBuffer ); + + return dstBuffer.buffer; + + } + + _createBuffer( gl, bufferType, array, usage ) { + + const bufferGPU = gl.createBuffer(); + + gl.bindBuffer( bufferType, bufferGPU ); + gl.bufferData( bufferType, array, usage ); + gl.bindBuffer( bufferType, null ); + + return bufferGPU; + + } + +} + +let initialized$1 = false, equationToGL, factorToGL; + +class WebGLState { + + constructor( backend ) { + + this.backend = backend; + + this.gl = this.backend.gl; + + this.enabled = {}; + this.currentFlipSided = null; + this.currentCullFace = null; + this.currentProgram = null; + this.currentBlendingEnabled = false; + this.currentBlending = null; + this.currentBlendSrc = null; + this.currentBlendDst = null; + this.currentBlendSrcAlpha = null; + this.currentBlendDstAlpha = null; + this.currentPremultipledAlpha = null; + this.currentPolygonOffsetFactor = null; + this.currentPolygonOffsetUnits = null; + this.currentColorMask = null; + this.currentDepthFunc = null; + this.currentDepthMask = null; + this.currentStencilFunc = null; + this.currentStencilRef = null; + this.currentStencilFuncMask = null; + this.currentStencilFail = null; + this.currentStencilZFail = null; + this.currentStencilZPass = null; + this.currentStencilMask = null; + this.currentLineWidth = null; + + this.currentBoundFramebuffers = {}; + this.currentDrawbuffers = new WeakMap(); + + this.maxTextures = this.gl.getParameter( this.gl.MAX_TEXTURE_IMAGE_UNITS ); + this.currentTextureSlot = null; + this.currentBoundTextures = {}; + + if ( initialized$1 === false ) { + + this._init( this.gl ); + + initialized$1 = true; + + } + + } + + _init( gl ) { + + // Store only WebGL constants here. + + equationToGL = { + [ AddEquation ]: gl.FUNC_ADD, + [ SubtractEquation ]: gl.FUNC_SUBTRACT, + [ ReverseSubtractEquation ]: gl.FUNC_REVERSE_SUBTRACT + }; + + factorToGL = { + [ ZeroFactor ]: gl.ZERO, + [ OneFactor ]: gl.ONE, + [ SrcColorFactor ]: gl.SRC_COLOR, + [ SrcAlphaFactor ]: gl.SRC_ALPHA, + [ SrcAlphaSaturateFactor ]: gl.SRC_ALPHA_SATURATE, + [ DstColorFactor ]: gl.DST_COLOR, + [ DstAlphaFactor ]: gl.DST_ALPHA, + [ OneMinusSrcColorFactor ]: gl.ONE_MINUS_SRC_COLOR, + [ OneMinusSrcAlphaFactor ]: gl.ONE_MINUS_SRC_ALPHA, + [ OneMinusDstColorFactor ]: gl.ONE_MINUS_DST_COLOR, + [ OneMinusDstAlphaFactor ]: gl.ONE_MINUS_DST_ALPHA + }; + + } + + enable( id ) { + + const { enabled } = this; + + if ( enabled[ id ] !== true ) { + + this.gl.enable( id ); + enabled[ id ] = true; + + } + + } + + disable( id ) { + + const { enabled } = this; + + if ( enabled[ id ] !== false ) { + + this.gl.disable( id ); + enabled[ id ] = false; + + } + + } + + setFlipSided( flipSided ) { + + if ( this.currentFlipSided !== flipSided ) { + + const { gl } = this; + + if ( flipSided ) { + + gl.frontFace( gl.CW ); + + } else { + + gl.frontFace( gl.CCW ); + + } + + this.currentFlipSided = flipSided; + + } + + } + + setCullFace( cullFace ) { + + const { gl } = this; + + if ( cullFace !== CullFaceNone ) { + + this.enable( gl.CULL_FACE ); + + if ( cullFace !== this.currentCullFace ) { + + if ( cullFace === CullFaceBack ) { + + gl.cullFace( gl.BACK ); + + } else if ( cullFace === CullFaceFront ) { + + gl.cullFace( gl.FRONT ); + + } else { + + gl.cullFace( gl.FRONT_AND_BACK ); + + } + + } + + } else { + + this.disable( gl.CULL_FACE ); + + } + + this.currentCullFace = cullFace; + + } + + setLineWidth( width ) { + + const { currentLineWidth, gl } = this; + + if ( width !== currentLineWidth ) { + + gl.lineWidth( width ); + + this.currentLineWidth = width; + + } + + } + + + setBlending( blending, blendEquation, blendSrc, blendDst, blendEquationAlpha, blendSrcAlpha, blendDstAlpha, premultipliedAlpha ) { + + const { gl } = this; + + if ( blending === NoBlending ) { + + if ( this.currentBlendingEnabled === true ) { + + this.disable( gl.BLEND ); + this.currentBlendingEnabled = false; + + } + + return; + + } + + if ( this.currentBlendingEnabled === false ) { + + this.enable( gl.BLEND ); + this.currentBlendingEnabled = true; + + } + + if ( blending !== CustomBlending ) { + + if ( blending !== this.currentBlending || premultipliedAlpha !== this.currentPremultipledAlpha ) { + + if ( this.currentBlendEquation !== AddEquation || this.currentBlendEquationAlpha !== AddEquation ) { + + gl.blendEquation( gl.FUNC_ADD ); + + this.currentBlendEquation = AddEquation; + this.currentBlendEquationAlpha = AddEquation; + + } + + if ( premultipliedAlpha ) { + + switch ( blending ) { + + case NormalBlending: + gl.blendFuncSeparate( gl.ONE, gl.ONE_MINUS_SRC_ALPHA, gl.ONE, gl.ONE_MINUS_SRC_ALPHA ); + break; + + case AdditiveBlending: + gl.blendFunc( gl.ONE, gl.ONE ); + break; + + case SubtractiveBlending: + gl.blendFuncSeparate( gl.ZERO, gl.ONE_MINUS_SRC_COLOR, gl.ZERO, gl.ONE ); + break; + + case MultiplyBlending: + gl.blendFuncSeparate( gl.ZERO, gl.SRC_COLOR, gl.ZERO, gl.SRC_ALPHA ); + break; + + default: + console.error( 'THREE.WebGLState: Invalid blending: ', blending ); + break; + + } + + } else { + + switch ( blending ) { + + case NormalBlending: + gl.blendFuncSeparate( gl.SRC_ALPHA, gl.ONE_MINUS_SRC_ALPHA, gl.ONE, gl.ONE_MINUS_SRC_ALPHA ); + break; + + case AdditiveBlending: + gl.blendFunc( gl.SRC_ALPHA, gl.ONE ); + break; + + case SubtractiveBlending: + gl.blendFuncSeparate( gl.ZERO, gl.ONE_MINUS_SRC_COLOR, gl.ZERO, gl.ONE ); + break; + + case MultiplyBlending: + gl.blendFunc( gl.ZERO, gl.SRC_COLOR ); + break; + + default: + console.error( 'THREE.WebGLState: Invalid blending: ', blending ); + break; + + } + + } + + this.currentBlendSrc = null; + this.currentBlendDst = null; + this.currentBlendSrcAlpha = null; + this.currentBlendDstAlpha = null; + + this.currentBlending = blending; + this.currentPremultipledAlpha = premultipliedAlpha; + + } + + return; + + } + + // custom blending + + blendEquationAlpha = blendEquationAlpha || blendEquation; + blendSrcAlpha = blendSrcAlpha || blendSrc; + blendDstAlpha = blendDstAlpha || blendDst; + + if ( blendEquation !== this.currentBlendEquation || blendEquationAlpha !== this.currentBlendEquationAlpha ) { + + gl.blendEquationSeparate( equationToGL[ blendEquation ], equationToGL[ blendEquationAlpha ] ); + + this.currentBlendEquation = blendEquation; + this.currentBlendEquationAlpha = blendEquationAlpha; + + } + + if ( blendSrc !== this.currentBlendSrc || blendDst !== this.currentBlendDst || blendSrcAlpha !== this.currentBlendSrcAlpha || blendDstAlpha !== this.currentBlendDstAlpha ) { + + gl.blendFuncSeparate( factorToGL[ blendSrc ], factorToGL[ blendDst ], factorToGL[ blendSrcAlpha ], factorToGL[ blendDstAlpha ] ); + + this.currentBlendSrc = blendSrc; + this.currentBlendDst = blendDst; + this.currentBlendSrcAlpha = blendSrcAlpha; + this.currentBlendDstAlpha = blendDstAlpha; + + } + + this.currentBlending = blending; + this.currentPremultipledAlpha = false; + + } + + setColorMask( colorMask ) { + + if ( this.currentColorMask !== colorMask ) { + + this.gl.colorMask( colorMask, colorMask, colorMask, colorMask ); + this.currentColorMask = colorMask; + + } + + } + + setDepthTest( depthTest ) { + + const { gl } = this; + + if ( depthTest ) { + + this.enable( gl.DEPTH_TEST ); + + } else { + + this.disable( gl.DEPTH_TEST ); + + } + + } + + setDepthMask( depthMask ) { + + if ( this.currentDepthMask !== depthMask ) { + + this.gl.depthMask( depthMask ); + this.currentDepthMask = depthMask; + + } + + } + + setDepthFunc( depthFunc ) { + + if ( this.currentDepthFunc !== depthFunc ) { + + const { gl } = this; + + switch ( depthFunc ) { + + case NeverDepth: + + gl.depthFunc( gl.NEVER ); + break; + + case AlwaysDepth: + + gl.depthFunc( gl.ALWAYS ); + break; + + case LessDepth: + + gl.depthFunc( gl.LESS ); + break; + + case LessEqualDepth: + + gl.depthFunc( gl.LEQUAL ); + break; + + case EqualDepth: + + gl.depthFunc( gl.EQUAL ); + break; + + case GreaterEqualDepth: + + gl.depthFunc( gl.GEQUAL ); + break; + + case GreaterDepth: + + gl.depthFunc( gl.GREATER ); + break; + + case NotEqualDepth: + + gl.depthFunc( gl.NOTEQUAL ); + break; + + default: + + gl.depthFunc( gl.LEQUAL ); + + } + + this.currentDepthFunc = depthFunc; + + } + + } + + setStencilTest( stencilTest ) { + + const { gl } = this; + + if ( stencilTest ) { + + this.enable( gl.STENCIL_TEST ); + + } else { + + this.disable( gl.STENCIL_TEST ); + + } + + } + + setStencilMask( stencilMask ) { + + if ( this.currentStencilMask !== stencilMask ) { + + this.gl.stencilMask( stencilMask ); + this.currentStencilMask = stencilMask; + + } + + } + + setStencilFunc( stencilFunc, stencilRef, stencilMask ) { + + if ( this.currentStencilFunc !== stencilFunc || + this.currentStencilRef !== stencilRef || + this.currentStencilFuncMask !== stencilMask ) { + + this.gl.stencilFunc( stencilFunc, stencilRef, stencilMask ); + + this.currentStencilFunc = stencilFunc; + this.currentStencilRef = stencilRef; + this.currentStencilFuncMask = stencilMask; + + } + + } + + setStencilOp( stencilFail, stencilZFail, stencilZPass ) { + + if ( this.currentStencilFail !== stencilFail || + this.currentStencilZFail !== stencilZFail || + this.currentStencilZPass !== stencilZPass ) { + + this.gl.stencilOp( stencilFail, stencilZFail, stencilZPass ); + + this.currentStencilFail = stencilFail; + this.currentStencilZFail = stencilZFail; + this.currentStencilZPass = stencilZPass; + + } + + } + + setMaterial( material, frontFaceCW ) { + + const { gl } = this; + + material.side === DoubleSide + ? this.disable( gl.CULL_FACE ) + : this.enable( gl.CULL_FACE ); + + let flipSided = ( material.side === BackSide ); + if ( frontFaceCW ) flipSided = ! flipSided; + + this.setFlipSided( flipSided ); + + ( material.blending === NormalBlending && material.transparent === false ) + ? this.setBlending( NoBlending ) + : this.setBlending( material.blending, material.blendEquation, material.blendSrc, material.blendDst, material.blendEquationAlpha, material.blendSrcAlpha, material.blendDstAlpha, material.premultipliedAlpha ); + + this.setDepthFunc( material.depthFunc ); + this.setDepthTest( material.depthTest ); + this.setDepthMask( material.depthWrite ); + this.setColorMask( material.colorWrite ); + + const stencilWrite = material.stencilWrite; + this.setStencilTest( stencilWrite ); + if ( stencilWrite ) { + + this.setStencilMask( material.stencilWriteMask ); + this.setStencilFunc( material.stencilFunc, material.stencilRef, material.stencilFuncMask ); + this.setStencilOp( material.stencilFail, material.stencilZFail, material.stencilZPass ); + + } + + this.setPolygonOffset( material.polygonOffset, material.polygonOffsetFactor, material.polygonOffsetUnits ); + + material.alphaToCoverage === true + ? this.enable( gl.SAMPLE_ALPHA_TO_COVERAGE ) + : this.disable( gl.SAMPLE_ALPHA_TO_COVERAGE ); + + } + + setPolygonOffset( polygonOffset, factor, units ) { + + const { gl } = this; + + if ( polygonOffset ) { + + this.enable( gl.POLYGON_OFFSET_FILL ); + + if ( this.currentPolygonOffsetFactor !== factor || this.currentPolygonOffsetUnits !== units ) { + + gl.polygonOffset( factor, units ); + + this.currentPolygonOffsetFactor = factor; + this.currentPolygonOffsetUnits = units; + + } + + } else { + + this.disable( gl.POLYGON_OFFSET_FILL ); + + } + + } + + useProgram( program ) { + + if ( this.currentProgram !== program ) { + + this.gl.useProgram( program ); + + this.currentProgram = program; + + return true; + + } + + return false; + + } + + // framebuffer + + + bindFramebuffer( target, framebuffer ) { + + const { gl, currentBoundFramebuffers } = this; + + if ( currentBoundFramebuffers[ target ] !== framebuffer ) { + + gl.bindFramebuffer( target, framebuffer ); + + currentBoundFramebuffers[ target ] = framebuffer; + + // gl.DRAW_FRAMEBUFFER is equivalent to gl.FRAMEBUFFER + + if ( target === gl.DRAW_FRAMEBUFFER ) { + + currentBoundFramebuffers[ gl.FRAMEBUFFER ] = framebuffer; + + } + + if ( target === gl.FRAMEBUFFER ) { + + currentBoundFramebuffers[ gl.DRAW_FRAMEBUFFER ] = framebuffer; + + } + + return true; + + } + + return false; + + } + + drawBuffers( renderContext, framebuffer ) { + + const { gl } = this; + + let drawBuffers = []; + + let needsUpdate = false; + + if ( renderContext.textures !== null ) { + + drawBuffers = this.currentDrawbuffers.get( framebuffer ); + + if ( drawBuffers === undefined ) { + + drawBuffers = []; + this.currentDrawbuffers.set( framebuffer, drawBuffers ); + + } + + + const textures = renderContext.textures; + + if ( drawBuffers.length !== textures.length || drawBuffers[ 0 ] !== gl.COLOR_ATTACHMENT0 ) { + + for ( let i = 0, il = textures.length; i < il; i ++ ) { + + drawBuffers[ i ] = gl.COLOR_ATTACHMENT0 + i; + + } + + drawBuffers.length = textures.length; + + needsUpdate = true; + + } + + + } else { + + if ( drawBuffers[ 0 ] !== gl.BACK ) { + + drawBuffers[ 0 ] = gl.BACK; + + needsUpdate = true; + + } + + } + + if ( needsUpdate ) { + + gl.drawBuffers( drawBuffers ); + + } + + + } + + + // texture + + activeTexture( webglSlot ) { + + const { gl, currentTextureSlot, maxTextures } = this; + + if ( webglSlot === undefined ) webglSlot = gl.TEXTURE0 + maxTextures - 1; + + if ( currentTextureSlot !== webglSlot ) { + + gl.activeTexture( webglSlot ); + this.currentTextureSlot = webglSlot; + + } + + } + + bindTexture( webglType, webglTexture, webglSlot ) { + + const { gl, currentTextureSlot, currentBoundTextures, maxTextures } = this; + + if ( webglSlot === undefined ) { + + if ( currentTextureSlot === null ) { + + webglSlot = gl.TEXTURE0 + maxTextures - 1; + + } else { + + webglSlot = currentTextureSlot; + + } + + } + + let boundTexture = currentBoundTextures[ webglSlot ]; + + if ( boundTexture === undefined ) { + + boundTexture = { type: undefined, texture: undefined }; + currentBoundTextures[ webglSlot ] = boundTexture; + + } + + if ( boundTexture.type !== webglType || boundTexture.texture !== webglTexture ) { + + if ( currentTextureSlot !== webglSlot ) { + + gl.activeTexture( webglSlot ); + this.currentTextureSlot = webglSlot; + + } + + gl.bindTexture( webglType, webglTexture ); + + boundTexture.type = webglType; + boundTexture.texture = webglTexture; + + + } + + + } + + unbindTexture() { + + const { gl, currentTextureSlot, currentBoundTextures } = this; + + const boundTexture = currentBoundTextures[ currentTextureSlot ]; + + if ( boundTexture !== undefined && boundTexture.type !== undefined ) { + + gl.bindTexture( boundTexture.type, null ); + + boundTexture.type = undefined; + boundTexture.texture = undefined; + + } + + } + +} + +class WebGLUtils { + + constructor( backend ) { + + this.backend = backend; + + this.gl = this.backend.gl; + this.extensions = backend.extensions; + + } + + convert( p, colorSpace = NoColorSpace ) { + + const { gl, extensions } = this; + + let extension; + + if ( p === UnsignedByteType ) return gl.UNSIGNED_BYTE; + if ( p === UnsignedShort4444Type ) return gl.UNSIGNED_SHORT_4_4_4_4; + if ( p === UnsignedShort5551Type ) return gl.UNSIGNED_SHORT_5_5_5_1; + if ( p === UnsignedInt5999Type ) return gl.UNSIGNED_INT_5_9_9_9_REV; + + if ( p === ByteType ) return gl.BYTE; + if ( p === ShortType ) return gl.SHORT; + if ( p === UnsignedShortType ) return gl.UNSIGNED_SHORT; + if ( p === IntType ) return gl.INT; + if ( p === UnsignedIntType ) return gl.UNSIGNED_INT; + if ( p === FloatType ) return gl.FLOAT; + + if ( p === HalfFloatType ) { + + return gl.HALF_FLOAT; + + } + + if ( p === AlphaFormat ) return gl.ALPHA; + if ( p === RGBFormat ) return gl.RGB; + if ( p === RGBAFormat ) return gl.RGBA; + if ( p === LuminanceFormat ) return gl.LUMINANCE; + if ( p === LuminanceAlphaFormat ) return gl.LUMINANCE_ALPHA; + if ( p === DepthFormat ) return gl.DEPTH_COMPONENT; + if ( p === DepthStencilFormat ) return gl.DEPTH_STENCIL; + + // WebGL2 formats. + + if ( p === RedFormat ) return gl.RED; + if ( p === RedIntegerFormat ) return gl.RED_INTEGER; + if ( p === RGFormat ) return gl.RG; + if ( p === RGIntegerFormat ) return gl.RG_INTEGER; + if ( p === RGBAIntegerFormat ) return gl.RGBA_INTEGER; + + // S3TC + + if ( p === RGB_S3TC_DXT1_Format || p === RGBA_S3TC_DXT1_Format || p === RGBA_S3TC_DXT3_Format || p === RGBA_S3TC_DXT5_Format ) { + + if ( colorSpace === SRGBColorSpace ) { + + extension = extensions.get( 'WEBGL_compressed_texture_s3tc_srgb' ); + + if ( extension !== null ) { + + if ( p === RGB_S3TC_DXT1_Format ) return extension.COMPRESSED_SRGB_S3TC_DXT1_EXT; + if ( p === RGBA_S3TC_DXT1_Format ) return extension.COMPRESSED_SRGB_ALPHA_S3TC_DXT1_EXT; + if ( p === RGBA_S3TC_DXT3_Format ) return extension.COMPRESSED_SRGB_ALPHA_S3TC_DXT3_EXT; + if ( p === RGBA_S3TC_DXT5_Format ) return extension.COMPRESSED_SRGB_ALPHA_S3TC_DXT5_EXT; + + } else { + + return null; + + } + + } else { + + extension = extensions.get( 'WEBGL_compressed_texture_s3tc' ); + + if ( extension !== null ) { + + if ( p === RGB_S3TC_DXT1_Format ) return extension.COMPRESSED_RGB_S3TC_DXT1_EXT; + if ( p === RGBA_S3TC_DXT1_Format ) return extension.COMPRESSED_RGBA_S3TC_DXT1_EXT; + if ( p === RGBA_S3TC_DXT3_Format ) return extension.COMPRESSED_RGBA_S3TC_DXT3_EXT; + if ( p === RGBA_S3TC_DXT5_Format ) return extension.COMPRESSED_RGBA_S3TC_DXT5_EXT; + + } else { + + return null; + + } + + } + + } + + // PVRTC + + if ( p === RGB_PVRTC_4BPPV1_Format || p === RGB_PVRTC_2BPPV1_Format || p === RGBA_PVRTC_4BPPV1_Format || p === RGBA_PVRTC_2BPPV1_Format ) { + + extension = extensions.get( 'WEBGL_compressed_texture_pvrtc' ); + + if ( extension !== null ) { + + if ( p === RGB_PVRTC_4BPPV1_Format ) return extension.COMPRESSED_RGB_PVRTC_4BPPV1_IMG; + if ( p === RGB_PVRTC_2BPPV1_Format ) return extension.COMPRESSED_RGB_PVRTC_2BPPV1_IMG; + if ( p === RGBA_PVRTC_4BPPV1_Format ) return extension.COMPRESSED_RGBA_PVRTC_4BPPV1_IMG; + if ( p === RGBA_PVRTC_2BPPV1_Format ) return extension.COMPRESSED_RGBA_PVRTC_2BPPV1_IMG; + + } else { + + return null; + + } + + } + + // ETC + + if ( p === RGB_ETC1_Format || p === RGB_ETC2_Format || p === RGBA_ETC2_EAC_Format ) { + + extension = extensions.get( 'WEBGL_compressed_texture_etc' ); + + if ( extension !== null ) { + + if ( p === RGB_ETC1_Format || p === RGB_ETC2_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ETC2 : extension.COMPRESSED_RGB8_ETC2; + if ( p === RGBA_ETC2_EAC_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ETC2_EAC : extension.COMPRESSED_RGBA8_ETC2_EAC; + + } else { + + return null; + + } + + } + + // ASTC + + if ( p === RGBA_ASTC_4x4_Format || p === RGBA_ASTC_5x4_Format || p === RGBA_ASTC_5x5_Format || + p === RGBA_ASTC_6x5_Format || p === RGBA_ASTC_6x6_Format || p === RGBA_ASTC_8x5_Format || + p === RGBA_ASTC_8x6_Format || p === RGBA_ASTC_8x8_Format || p === RGBA_ASTC_10x5_Format || + p === RGBA_ASTC_10x6_Format || p === RGBA_ASTC_10x8_Format || p === RGBA_ASTC_10x10_Format || + p === RGBA_ASTC_12x10_Format || p === RGBA_ASTC_12x12_Format ) { + + extension = extensions.get( 'WEBGL_compressed_texture_astc' ); + + if ( extension !== null ) { + + if ( p === RGBA_ASTC_4x4_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_4x4_KHR : extension.COMPRESSED_RGBA_ASTC_4x4_KHR; + if ( p === RGBA_ASTC_5x4_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_5x4_KHR : extension.COMPRESSED_RGBA_ASTC_5x4_KHR; + if ( p === RGBA_ASTC_5x5_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_5x5_KHR : extension.COMPRESSED_RGBA_ASTC_5x5_KHR; + if ( p === RGBA_ASTC_6x5_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_6x5_KHR : extension.COMPRESSED_RGBA_ASTC_6x5_KHR; + if ( p === RGBA_ASTC_6x6_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_6x6_KHR : extension.COMPRESSED_RGBA_ASTC_6x6_KHR; + if ( p === RGBA_ASTC_8x5_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_8x5_KHR : extension.COMPRESSED_RGBA_ASTC_8x5_KHR; + if ( p === RGBA_ASTC_8x6_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_8x6_KHR : extension.COMPRESSED_RGBA_ASTC_8x6_KHR; + if ( p === RGBA_ASTC_8x8_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_8x8_KHR : extension.COMPRESSED_RGBA_ASTC_8x8_KHR; + if ( p === RGBA_ASTC_10x5_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_10x5_KHR : extension.COMPRESSED_RGBA_ASTC_10x5_KHR; + if ( p === RGBA_ASTC_10x6_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_10x6_KHR : extension.COMPRESSED_RGBA_ASTC_10x6_KHR; + if ( p === RGBA_ASTC_10x8_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_10x8_KHR : extension.COMPRESSED_RGBA_ASTC_10x8_KHR; + if ( p === RGBA_ASTC_10x10_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_10x10_KHR : extension.COMPRESSED_RGBA_ASTC_10x10_KHR; + if ( p === RGBA_ASTC_12x10_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_12x10_KHR : extension.COMPRESSED_RGBA_ASTC_12x10_KHR; + if ( p === RGBA_ASTC_12x12_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB8_ALPHA8_ASTC_12x12_KHR : extension.COMPRESSED_RGBA_ASTC_12x12_KHR; + + } else { + + return null; + + } + + } + + // BPTC + + if ( p === RGBA_BPTC_Format ) { + + extension = extensions.get( 'EXT_texture_compression_bptc' ); + + if ( extension !== null ) { + + if ( p === RGBA_BPTC_Format ) return ( colorSpace === SRGBColorSpace ) ? extension.COMPRESSED_SRGB_ALPHA_BPTC_UNORM_EXT : extension.COMPRESSED_RGBA_BPTC_UNORM_EXT; + + } else { + + return null; + + } + + } + + // RGTC + + if ( p === RED_RGTC1_Format || p === SIGNED_RED_RGTC1_Format || p === RED_GREEN_RGTC2_Format || p === SIGNED_RED_GREEN_RGTC2_Format ) { + + extension = extensions.get( 'EXT_texture_compression_rgtc' ); + + if ( extension !== null ) { + + if ( p === RGBA_BPTC_Format ) return extension.COMPRESSED_RED_RGTC1_EXT; + if ( p === SIGNED_RED_RGTC1_Format ) return extension.COMPRESSED_SIGNED_RED_RGTC1_EXT; + if ( p === RED_GREEN_RGTC2_Format ) return extension.COMPRESSED_RED_GREEN_RGTC2_EXT; + if ( p === SIGNED_RED_GREEN_RGTC2_Format ) return extension.COMPRESSED_SIGNED_RED_GREEN_RGTC2_EXT; + + } else { + + return null; + + } + + } + + // + + if ( p === UnsignedInt248Type ) { + + return gl.UNSIGNED_INT_24_8; + + } + + // if "p" can't be resolved, assume the user defines a WebGL constant as a string (fallback/workaround for packed RGB formats) + + return ( gl[ p ] !== undefined ) ? gl[ p ] : null; + + } + + _clientWaitAsync() { + + const { gl } = this; + + const sync = gl.fenceSync( gl.SYNC_GPU_COMMANDS_COMPLETE, 0 ); + + gl.flush(); + + return new Promise( ( resolve, reject ) => { + + function test() { + + const res = gl.clientWaitSync( sync, gl.SYNC_FLUSH_COMMANDS_BIT, 0 ); + + if ( res === gl.WAIT_FAILED ) { + + gl.deleteSync( sync ); + + reject(); + return; + + } + + if ( res === gl.TIMEOUT_EXPIRED ) { + + requestAnimationFrame( test ); + return; + + } + + gl.deleteSync( sync ); + + resolve(); + + } + + test(); + + } ); + + } + +} + +let initialized = false, wrappingToGL, filterToGL, compareToGL; + +class WebGLTextureUtils { + + constructor( backend ) { + + this.backend = backend; + + this.gl = backend.gl; + this.extensions = backend.extensions; + this.defaultTextures = {}; + + if ( initialized === false ) { + + this._init( this.gl ); + + initialized = true; + + } + + } + + _init( gl ) { + + // Store only WebGL constants here. + + wrappingToGL = { + [ RepeatWrapping ]: gl.REPEAT, + [ ClampToEdgeWrapping ]: gl.CLAMP_TO_EDGE, + [ MirroredRepeatWrapping ]: gl.MIRRORED_REPEAT + }; + + filterToGL = { + [ NearestFilter ]: gl.NEAREST, + [ NearestMipmapNearestFilter ]: gl.NEAREST_MIPMAP_NEAREST, + [ NearestMipmapLinearFilter ]: gl.NEAREST_MIPMAP_LINEAR, + + [ LinearFilter ]: gl.LINEAR, + [ LinearMipmapNearestFilter ]: gl.LINEAR_MIPMAP_NEAREST, + [ LinearMipmapLinearFilter ]: gl.LINEAR_MIPMAP_LINEAR + }; + + compareToGL = { + [ NeverCompare ]: gl.NEVER, + [ AlwaysCompare ]: gl.ALWAYS, + [ LessCompare ]: gl.LESS, + [ LessEqualCompare ]: gl.LEQUAL, + [ EqualCompare ]: gl.EQUAL, + [ GreaterEqualCompare ]: gl.GEQUAL, + [ GreaterCompare ]: gl.GREATER, + [ NotEqualCompare ]: gl.NOTEQUAL + }; + + } + + filterFallback( f ) { + + const { gl } = this; + + if ( f === NearestFilter || f === NearestMipmapNearestFilter || f === NearestMipmapLinearFilter ) { + + return gl.NEAREST; + + } + + return gl.LINEAR; + + } + + getGLTextureType( texture ) { + + const { gl } = this; + + let glTextureType; + + if ( texture.isCubeTexture === true ) { + + glTextureType = gl.TEXTURE_CUBE_MAP; + + } else if ( texture.isDataArrayTexture === true ) { + + glTextureType = gl.TEXTURE_2D_ARRAY; + + } else if ( texture.isData3DTexture === true ) { + + glTextureType = gl.TEXTURE_3D; + + } else { + + glTextureType = gl.TEXTURE_2D; + + + } + + return glTextureType; + + } + + getInternalFormat( internalFormatName, glFormat, glType, colorSpace, forceLinearTransfer = false ) { + + const { gl, extensions } = this; + + if ( internalFormatName !== null ) { + + if ( gl[ internalFormatName ] !== undefined ) return gl[ internalFormatName ]; + + console.warn( 'THREE.WebGLRenderer: Attempt to use non-existing WebGL internal format \'' + internalFormatName + '\'' ); + + } + + let internalFormat = glFormat; + + if ( glFormat === gl.RED ) { + + if ( glType === gl.FLOAT ) internalFormat = gl.R32F; + if ( glType === gl.HALF_FLOAT ) internalFormat = gl.R16F; + if ( glType === gl.UNSIGNED_BYTE ) internalFormat = gl.R8; + if ( glType === gl.UNSIGNED_SHORT ) internalFormat = gl.R16; + if ( glType === gl.UNSIGNED_INT ) internalFormat = gl.R32UI; + if ( glType === gl.BYTE ) internalFormat = gl.R8I; + if ( glType === gl.SHORT ) internalFormat = gl.R16I; + if ( glType === gl.INT ) internalFormat = gl.R32I; + + } + + if ( glFormat === gl.RED_INTEGER ) { + + if ( glType === gl.UNSIGNED_BYTE ) internalFormat = gl.R8UI; + if ( glType === gl.UNSIGNED_SHORT ) internalFormat = gl.R16UI; + if ( glType === gl.UNSIGNED_INT ) internalFormat = gl.R32UI; + if ( glType === gl.BYTE ) internalFormat = gl.R8I; + if ( glType === gl.SHORT ) internalFormat = gl.R16I; + if ( glType === gl.INT ) internalFormat = gl.R32I; + + } + + if ( glFormat === gl.RG ) { + + if ( glType === gl.FLOAT ) internalFormat = gl.RG32F; + if ( glType === gl.HALF_FLOAT ) internalFormat = gl.RG16F; + if ( glType === gl.UNSIGNED_BYTE ) internalFormat = gl.RG8; + if ( glType === gl.UNSIGNED_SHORT ) internalFormat = gl.RG16; + if ( glType === gl.UNSIGNED_INT ) internalFormat = gl.RG32UI; + if ( glType === gl.BYTE ) internalFormat = gl.RG8I; + if ( glType === gl.SHORT ) internalFormat = gl.RG16I; + if ( glType === gl.INT ) internalFormat = gl.RG32I; + + } + + if ( glFormat === gl.RG_INTEGER ) { + + if ( glType === gl.UNSIGNED_BYTE ) internalFormat = gl.RG8UI; + if ( glType === gl.UNSIGNED_SHORT ) internalFormat = gl.RG16UI; + if ( glType === gl.UNSIGNED_INT ) internalFormat = gl.RG32UI; + if ( glType === gl.BYTE ) internalFormat = gl.RG8I; + if ( glType === gl.SHORT ) internalFormat = gl.RG16I; + if ( glType === gl.INT ) internalFormat = gl.RG32I; + + } + + if ( glFormat === gl.RGB ) { + + if ( glType === gl.FLOAT ) internalFormat = gl.RGB32F; + if ( glType === gl.HALF_FLOAT ) internalFormat = gl.RGB16F; + if ( glType === gl.UNSIGNED_BYTE ) internalFormat = gl.RGB8; + if ( glType === gl.UNSIGNED_SHORT ) internalFormat = gl.RGB16; + if ( glType === gl.UNSIGNED_INT ) internalFormat = gl.RGB32UI; + if ( glType === gl.BYTE ) internalFormat = gl.RGB8I; + if ( glType === gl.SHORT ) internalFormat = gl.RGB16I; + if ( glType === gl.INT ) internalFormat = gl.RGB32I; + if ( glType === gl.UNSIGNED_BYTE ) internalFormat = ( colorSpace === SRGBColorSpace && forceLinearTransfer === false ) ? gl.SRGB8 : gl.RGB8; + if ( glType === gl.UNSIGNED_SHORT_5_6_5 ) internalFormat = gl.RGB565; + if ( glType === gl.UNSIGNED_SHORT_5_5_5_1 ) internalFormat = gl.RGB5_A1; + if ( glType === gl.UNSIGNED_SHORT_4_4_4_4 ) internalFormat = gl.RGB4; + if ( glType === gl.UNSIGNED_INT_5_9_9_9_REV ) internalFormat = gl.RGB9_E5; + + } + + if ( glFormat === gl.RGB_INTEGER ) { + + if ( glType === gl.UNSIGNED_BYTE ) internalFormat = gl.RGB8UI; + if ( glType === gl.UNSIGNED_SHORT ) internalFormat = gl.RGB16UI; + if ( glType === gl.UNSIGNED_INT ) internalFormat = gl.RGB32UI; + if ( glType === gl.BYTE ) internalFormat = gl.RGB8I; + if ( glType === gl.SHORT ) internalFormat = gl.RGB16I; + if ( glType === gl.INT ) internalFormat = gl.RGB32I; + + } + + if ( glFormat === gl.RGBA ) { + + if ( glType === gl.FLOAT ) internalFormat = gl.RGBA32F; + if ( glType === gl.HALF_FLOAT ) internalFormat = gl.RGBA16F; + if ( glType === gl.UNSIGNED_BYTE ) internalFormat = gl.RGBA8; + if ( glType === gl.UNSIGNED_SHORT ) internalFormat = gl.RGBA16; + if ( glType === gl.UNSIGNED_INT ) internalFormat = gl.RGBA32UI; + if ( glType === gl.BYTE ) internalFormat = gl.RGBA8I; + if ( glType === gl.SHORT ) internalFormat = gl.RGBA16I; + if ( glType === gl.INT ) internalFormat = gl.RGBA32I; + if ( glType === gl.UNSIGNED_BYTE ) internalFormat = ( colorSpace === SRGBColorSpace && forceLinearTransfer === false ) ? gl.SRGB8_ALPHA8 : gl.RGBA8; + if ( glType === gl.UNSIGNED_SHORT_4_4_4_4 ) internalFormat = gl.RGBA4; + if ( glType === gl.UNSIGNED_SHORT_5_5_5_1 ) internalFormat = gl.RGB5_A1; + + } + + if ( glFormat === gl.RGBA_INTEGER ) { + + if ( glType === gl.UNSIGNED_BYTE ) internalFormat = gl.RGBA8UI; + if ( glType === gl.UNSIGNED_SHORT ) internalFormat = gl.RGBA16UI; + if ( glType === gl.UNSIGNED_INT ) internalFormat = gl.RGBA32UI; + if ( glType === gl.BYTE ) internalFormat = gl.RGBA8I; + if ( glType === gl.SHORT ) internalFormat = gl.RGBA16I; + if ( glType === gl.INT ) internalFormat = gl.RGBA32I; + + } + + if ( glFormat === gl.DEPTH_COMPONENT ) { + + if ( glType === gl.UNSIGNED_INT ) internalFormat = gl.DEPTH24_STENCIL8; + if ( glType === gl.FLOAT ) internalFormat = gl.DEPTH_COMPONENT32F; + + } + + if ( glFormat === gl.DEPTH_STENCIL ) { + + if ( glType === gl.UNSIGNED_INT_24_8 ) internalFormat = gl.DEPTH24_STENCIL8; + + } + + if ( internalFormat === gl.R16F || internalFormat === gl.R32F || + internalFormat === gl.RG16F || internalFormat === gl.RG32F || + internalFormat === gl.RGBA16F || internalFormat === gl.RGBA32F ) { + + extensions.get( 'EXT_color_buffer_float' ); + + } + + return internalFormat; + + } + + setTextureParameters( textureType, texture ) { + + const { gl, extensions, backend } = this; + + const { currentAnisotropy } = backend.get( texture ); + + gl.texParameteri( textureType, gl.TEXTURE_WRAP_S, wrappingToGL[ texture.wrapS ] ); + gl.texParameteri( textureType, gl.TEXTURE_WRAP_T, wrappingToGL[ texture.wrapT ] ); + + if ( textureType === gl.TEXTURE_3D || textureType === gl.TEXTURE_2D_ARRAY ) { + + gl.texParameteri( textureType, gl.TEXTURE_WRAP_R, wrappingToGL[ texture.wrapR ] ); + + } + + gl.texParameteri( textureType, gl.TEXTURE_MAG_FILTER, filterToGL[ texture.magFilter ] ); + + + // follow WebGPU backend mapping for texture filtering + const minFilter = ! texture.isVideoTexture && texture.minFilter === LinearFilter ? LinearMipmapLinearFilter : texture.minFilter; + + gl.texParameteri( textureType, gl.TEXTURE_MIN_FILTER, filterToGL[ minFilter ] ); + + if ( texture.compareFunction ) { + + gl.texParameteri( textureType, gl.TEXTURE_COMPARE_MODE, gl.COMPARE_REF_TO_TEXTURE ); + gl.texParameteri( textureType, gl.TEXTURE_COMPARE_FUNC, compareToGL[ texture.compareFunction ] ); + + } + + if ( extensions.has( 'EXT_texture_filter_anisotropic' ) === true ) { + + if ( texture.magFilter === NearestFilter ) return; + if ( texture.minFilter !== NearestMipmapLinearFilter && texture.minFilter !== LinearMipmapLinearFilter ) return; + if ( texture.type === FloatType && extensions.has( 'OES_texture_float_linear' ) === false ) return; // verify extension for WebGL 1 and WebGL 2 + + if ( texture.anisotropy > 1 || currentAnisotropy !== texture.anisotropy ) { + + const extension = extensions.get( 'EXT_texture_filter_anisotropic' ); + gl.texParameterf( textureType, extension.TEXTURE_MAX_ANISOTROPY_EXT, Math.min( texture.anisotropy, backend.getMaxAnisotropy() ) ); + backend.get( texture ).currentAnisotropy = texture.anisotropy; + + } + + } + + } + + createDefaultTexture( texture ) { + + const { gl, backend, defaultTextures } = this; + + + const glTextureType = this.getGLTextureType( texture ); + + let textureGPU = defaultTextures[ glTextureType ]; + + if ( textureGPU === undefined ) { + + textureGPU = gl.createTexture(); + + backend.state.bindTexture( glTextureType, textureGPU ); + gl.texParameteri( glTextureType, gl.TEXTURE_MIN_FILTER, gl.NEAREST ); + gl.texParameteri( glTextureType, gl.TEXTURE_MAG_FILTER, gl.NEAREST ); + + // gl.texImage2D( glTextureType, 0, gl.RGBA, 1, 1, 0, gl.RGBA, gl.UNSIGNED_BYTE, data ); + + defaultTextures[ glTextureType ] = textureGPU; + + } + + backend.set( texture, { + textureGPU, + glTextureType, + isDefault: true + } ); + + } + + createTexture( texture, options ) { + + const { gl, backend } = this; + const { levels, width, height, depth } = options; + + const glFormat = backend.utils.convert( texture.format, texture.colorSpace ); + const glType = backend.utils.convert( texture.type ); + const glInternalFormat = this.getInternalFormat( texture.internalFormat, glFormat, glType, texture.colorSpace, texture.isVideoTexture ); + + const textureGPU = gl.createTexture(); + const glTextureType = this.getGLTextureType( texture ); + + backend.state.bindTexture( glTextureType, textureGPU ); + + gl.pixelStorei( gl.UNPACK_FLIP_Y_WEBGL, texture.flipY ); + gl.pixelStorei( gl.UNPACK_PREMULTIPLY_ALPHA_WEBGL, texture.premultiplyAlpha ); + gl.pixelStorei( gl.UNPACK_ALIGNMENT, texture.unpackAlignment ); + gl.pixelStorei( gl.UNPACK_COLORSPACE_CONVERSION_WEBGL, gl.NONE ); + + this.setTextureParameters( glTextureType, texture ); + + if ( texture.isDataArrayTexture ) { + + gl.texStorage3D( gl.TEXTURE_2D_ARRAY, levels, glInternalFormat, width, height, depth ); + + } else if ( texture.isData3DTexture ) { + + gl.texStorage3D( gl.TEXTURE_3D, levels, glInternalFormat, width, height, depth ); + + } else if ( ! texture.isVideoTexture ) { + + gl.texStorage2D( glTextureType, levels, glInternalFormat, width, height ); + + } + + backend.set( texture, { + textureGPU, + glTextureType, + glFormat, + glType, + glInternalFormat + } ); + + } + + copyBufferToTexture( buffer, texture ) { + + const { gl, backend } = this; + + const { textureGPU, glTextureType, glFormat, glType } = backend.get( texture ); + + const { width, height } = texture.source.data; + + gl.bindBuffer( gl.PIXEL_UNPACK_BUFFER, buffer ); + + backend.state.bindTexture( glTextureType, textureGPU ); + + gl.pixelStorei( gl.UNPACK_FLIP_Y_WEBGL, false ); + gl.pixelStorei( gl.UNPACK_PREMULTIPLY_ALPHA_WEBGL, false ); + gl.texSubImage2D( glTextureType, 0, 0, 0, width, height, glFormat, glType, 0 ); + + gl.bindBuffer( gl.PIXEL_UNPACK_BUFFER, null ); + + backend.state.unbindTexture(); + // debug + // const framebuffer = gl.createFramebuffer(); + // gl.bindFramebuffer( gl.FRAMEBUFFER, framebuffer ); + // gl.framebufferTexture2D( gl.FRAMEBUFFER, gl.COLOR_ATTACHMENT0, glTextureType, textureGPU, 0 ); + + // const readout = new Float32Array( width * height * 4 ); + + // const altFormat = gl.getParameter( gl.IMPLEMENTATION_COLOR_READ_FORMAT ); + // const altType = gl.getParameter( gl.IMPLEMENTATION_COLOR_READ_TYPE ); + + // gl.readPixels( 0, 0, width, height, altFormat, altType, readout ); + // gl.bindFramebuffer( gl.FRAMEBUFFER, null ); + // console.log( readout ); + + } + + updateTexture( texture, options ) { + + const { gl } = this; + const { width, height } = options; + const { textureGPU, glTextureType, glFormat, glType, glInternalFormat } = this.backend.get( texture ); + + if ( texture.isRenderTargetTexture || ( textureGPU === undefined /* unsupported texture format */ ) ) + return; + + const getImage = ( source ) => { + + if ( source.isDataTexture ) { + + return source.image.data; + + } else if ( source instanceof ImageBitmap || source instanceof OffscreenCanvas || source instanceof HTMLImageElement || source instanceof HTMLCanvasElement ) { + + return source; + + } + + return source.data; + + }; + + this.backend.state.bindTexture( glTextureType, textureGPU ); + + if ( texture.isCompressedTexture ) { + + const mipmaps = texture.mipmaps; + + for ( let i = 0; i < mipmaps.length; i ++ ) { + + const mipmap = mipmaps[ i ]; + + if ( texture.isCompressedArrayTexture ) { + + const image = options.image; + + if ( texture.format !== gl.RGBA ) { + + if ( glFormat !== null ) { + + gl.compressedTexSubImage3D( gl.TEXTURE_2D_ARRAY, i, 0, 0, 0, mipmap.width, mipmap.height, image.depth, glFormat, mipmap.data, 0, 0 ); + + + } else { + + console.warn( 'THREE.WebGLRenderer: Attempt to load unsupported compressed texture format in .uploadTexture()' ); + + } + + } else { + + gl.texSubImage3D( gl.TEXTURE_2D_ARRAY, i, 0, 0, 0, mipmap.width, mipmap.height, image.depth, glFormat, glType, mipmap.data ); + + } + + } else { + + if ( glFormat !== null ) { + + gl.compressedTexSubImage2D( gl.TEXTURE_2D, i, 0, 0, mipmap.width, mipmap.height, glFormat, mipmap.data ); + + } else { + + console.warn( 'Unsupported compressed texture format' ); + + } + + } + + } + + } else if ( texture.isCubeTexture ) { + + const images = options.images; + + for ( let i = 0; i < 6; i ++ ) { + + const image = getImage( images[ i ] ); + + gl.texSubImage2D( gl.TEXTURE_CUBE_MAP_POSITIVE_X + i, 0, 0, 0, width, height, glFormat, glType, image ); + + } + + } else if ( texture.isDataArrayTexture ) { + + const image = options.image; + + gl.texSubImage3D( gl.TEXTURE_2D_ARRAY, 0, 0, 0, 0, image.width, image.height, image.depth, glFormat, glType, image.data ); + + } else if ( texture.isData3DTexture ) { + + const image = options.image; + + gl.texSubImage3D( gl.TEXTURE_3D, 0, 0, 0, 0, image.width, image.height, image.depth, glFormat, glType, image.data ); + + } else if ( texture.isVideoTexture ) { + + texture.update(); + + gl.texImage2D( glTextureType, 0, glInternalFormat, glFormat, glType, options.image ); + + + } else { + + const image = getImage( options.image ); + + gl.texSubImage2D( glTextureType, 0, 0, 0, width, height, glFormat, glType, image ); + + } + + } + + generateMipmaps( texture ) { + + const { gl, backend } = this; + const { textureGPU, glTextureType } = backend.get( texture ); + + backend.state.bindTexture( glTextureType, textureGPU ); + gl.generateMipmap( glTextureType ); + + } + + deallocateRenderBuffers( renderTarget ) { + + + const { gl, backend } = this; + + // remove framebuffer reference + if ( renderTarget ) { + + const renderContextData = backend.get( renderTarget ); + + renderContextData.renderBufferStorageSetup = undefined; + + if ( renderContextData.framebuffer ) { + + gl.deleteFramebuffer( renderContextData.framebuffer ); + renderContextData.framebuffer = undefined; + + } + + if ( renderContextData.depthRenderbuffer ) { + + gl.deleteRenderbuffer( renderContextData.depthRenderbuffer ); + renderContextData.depthRenderbuffer = undefined; + + } + + if ( renderContextData.stencilRenderbuffer ) { + + gl.deleteRenderbuffer( renderContextData.stencilRenderbuffer ); + renderContextData.stencilRenderbuffer = undefined; + + } + + if ( renderContextData.msaaFrameBuffer ) { + + gl.deleteFramebuffer( renderContextData.msaaFrameBuffer ); + renderContextData.msaaFrameBuffer = undefined; + + } + + if ( renderContextData.msaaRenderbuffers ) { + + for ( let i = 0; i < renderContextData.msaaRenderbuffers.length; i ++ ) { + + gl.deleteRenderbuffer( renderContextData.msaaRenderbuffers[ i ] ); + + } + + renderContextData.msaaRenderbuffers = undefined; + + } + + } + + } + + destroyTexture( texture ) { + + const { gl, backend } = this; + const { textureGPU, renderTarget } = backend.get( texture ); + + this.deallocateRenderBuffers( renderTarget ); + gl.deleteTexture( textureGPU ); + + backend.delete( texture ); + + } + + copyTextureToTexture( srcTexture, dstTexture, srcRegion = null, dstPosition = null, level = 0 ) { + + const { gl, backend } = this; + const { state } = this.backend; + + const { textureGPU: dstTextureGPU, glTextureType, glType, glFormat } = backend.get( dstTexture ); + + + let width, height, minX, minY; + let dstX, dstY; + if ( srcRegion !== null ) { + + width = srcRegion.max.x - srcRegion.min.x; + height = srcRegion.max.y - srcRegion.min.y; + minX = srcRegion.min.x; + minY = srcRegion.min.y; + + } else { + + width = srcTexture.image.width; + height = srcTexture.image.height; + minX = 0; + minY = 0; + + } + + if ( dstPosition !== null ) { + + dstX = dstPosition.x; + dstY = dstPosition.y; + + } else { + + dstX = 0; + dstY = 0; + + } + + state.bindTexture( glTextureType, dstTextureGPU ); + + // As another texture upload may have changed pixelStorei + // parameters, make sure they are correct for the dstTexture + gl.pixelStorei( gl.UNPACK_ALIGNMENT, dstTexture.unpackAlignment ); + gl.pixelStorei( gl.UNPACK_FLIP_Y_WEBGL, dstTexture.flipY ); + gl.pixelStorei( gl.UNPACK_PREMULTIPLY_ALPHA_WEBGL, dstTexture.premultiplyAlpha ); + gl.pixelStorei( gl.UNPACK_ALIGNMENT, dstTexture.unpackAlignment ); + + const currentUnpackRowLen = gl.getParameter( gl.UNPACK_ROW_LENGTH ); + const currentUnpackImageHeight = gl.getParameter( gl.UNPACK_IMAGE_HEIGHT ); + const currentUnpackSkipPixels = gl.getParameter( gl.UNPACK_SKIP_PIXELS ); + const currentUnpackSkipRows = gl.getParameter( gl.UNPACK_SKIP_ROWS ); + const currentUnpackSkipImages = gl.getParameter( gl.UNPACK_SKIP_IMAGES ); + + const image = srcTexture.isCompressedTexture ? srcTexture.mipmaps[ level ] : srcTexture.image; + + gl.pixelStorei( gl.UNPACK_ROW_LENGTH, image.width ); + gl.pixelStorei( gl.UNPACK_IMAGE_HEIGHT, image.height ); + gl.pixelStorei( gl.UNPACK_SKIP_PIXELS, minX ); + gl.pixelStorei( gl.UNPACK_SKIP_ROWS, minY ); + + + if ( srcTexture.isDataTexture ) { + + gl.texSubImage2D( gl.TEXTURE_2D, level, dstX, dstY, width, height, glFormat, glType, image.data ); + + } else { + + if ( srcTexture.isCompressedTexture ) { + + gl.compressedTexSubImage2D( gl.TEXTURE_2D, level, dstX, dstY, image.width, image.height, glFormat, image.data ); + + } else { + + gl.texSubImage2D( gl.TEXTURE_2D, level, dstX, dstY, width, height, glFormat, glType, image ); + + } + + } + + gl.pixelStorei( gl.UNPACK_ROW_LENGTH, currentUnpackRowLen ); + gl.pixelStorei( gl.UNPACK_IMAGE_HEIGHT, currentUnpackImageHeight ); + gl.pixelStorei( gl.UNPACK_SKIP_PIXELS, currentUnpackSkipPixels ); + gl.pixelStorei( gl.UNPACK_SKIP_ROWS, currentUnpackSkipRows ); + gl.pixelStorei( gl.UNPACK_SKIP_IMAGES, currentUnpackSkipImages ); + + // Generate mipmaps only when copying level 0 + if ( level === 0 && dstTexture.generateMipmaps ) gl.generateMipmap( gl.TEXTURE_2D ); + + state.unbindTexture(); + + } + + copyFramebufferToTexture( texture, renderContext ) { + + const { gl } = this; + const { state } = this.backend; + + const { textureGPU } = this.backend.get( texture ); + + const width = texture.image.width; + const height = texture.image.height; + + const requireDrawFrameBuffer = texture.isDepthTexture === true || ( renderContext.renderTarget && renderContext.renderTarget.samples > 0 ); + + if ( requireDrawFrameBuffer ) { + + let mask; + let attachment; + + if ( texture.isDepthTexture === true ) { + + mask = gl.DEPTH_BUFFER_BIT; + attachment = gl.DEPTH_ATTACHMENT; + + if ( renderContext.stencil ) { + + mask |= gl.STENCIL_BUFFER_BIT; + + } + + } else { + + mask = gl.COLOR_BUFFER_BIT; + attachment = gl.COLOR_ATTACHMENT0; + + } + + const fb = gl.createFramebuffer(); + state.bindFramebuffer( gl.DRAW_FRAMEBUFFER, fb ); + + gl.framebufferTexture2D( gl.DRAW_FRAMEBUFFER, attachment, gl.TEXTURE_2D, textureGPU, 0 ); + + gl.blitFramebuffer( 0, 0, width, height, 0, 0, width, height, mask, gl.NEAREST ); + + gl.deleteFramebuffer( fb ); + + } else { + + state.bindTexture( gl.TEXTURE_2D, textureGPU ); + gl.copyTexSubImage2D( gl.TEXTURE_2D, 0, 0, 0, 0, 0, width, height ); + + state.unbindTexture(); + + } + + if ( texture.generateMipmaps ) this.generateMipmaps( texture ); + + this.backend._setFramebuffer( renderContext ); + + } + + // Setup storage for internal depth/stencil buffers and bind to correct framebuffer + setupRenderBufferStorage( renderbuffer, renderContext ) { + + const { gl } = this; + const renderTarget = renderContext.renderTarget; + + const { samples, depthTexture, depthBuffer, stencilBuffer, width, height } = renderTarget; + + gl.bindRenderbuffer( gl.RENDERBUFFER, renderbuffer ); + + if ( depthBuffer && ! stencilBuffer ) { + + let glInternalFormat = gl.DEPTH_COMPONENT24; + + if ( samples > 0 ) { + + if ( depthTexture && depthTexture.isDepthTexture ) { + + if ( depthTexture.type === gl.FLOAT ) { + + glInternalFormat = gl.DEPTH_COMPONENT32F; + + } + + } + + gl.renderbufferStorageMultisample( gl.RENDERBUFFER, samples, glInternalFormat, width, height ); + + } else { + + gl.renderbufferStorage( gl.RENDERBUFFER, glInternalFormat, width, height ); + + } + + gl.framebufferRenderbuffer( gl.FRAMEBUFFER, gl.DEPTH_ATTACHMENT, gl.RENDERBUFFER, renderbuffer ); + + } else if ( depthBuffer && stencilBuffer ) { + + if ( samples > 0 ) { + + gl.renderbufferStorageMultisample( gl.RENDERBUFFER, samples, gl.DEPTH24_STENCIL8, width, height ); + + } else { + + gl.renderbufferStorage( gl.RENDERBUFFER, gl.DEPTH_STENCIL, width, height ); + + } + + + gl.framebufferRenderbuffer( gl.FRAMEBUFFER, gl.DEPTH_STENCIL_ATTACHMENT, gl.RENDERBUFFER, renderbuffer ); + + } + + } + + async copyTextureToBuffer( texture, x, y, width, height ) { + + const { backend, gl } = this; + + const { textureGPU, glFormat, glType } = this.backend.get( texture ); + + const fb = gl.createFramebuffer(); + + gl.bindFramebuffer( gl.READ_FRAMEBUFFER, fb ); + gl.framebufferTexture2D( gl.READ_FRAMEBUFFER, gl.COLOR_ATTACHMENT0, gl.TEXTURE_2D, textureGPU, 0 ); + + const typedArrayType = this._getTypedArrayType( glType ); + const bytesPerTexel = this._getBytesPerTexel( glFormat ); + + const elementCount = width * height; + const byteLength = elementCount * bytesPerTexel; + + const buffer = gl.createBuffer(); + + gl.bindBuffer( gl.PIXEL_PACK_BUFFER, buffer ); + gl.bufferData( gl.PIXEL_PACK_BUFFER, byteLength, gl.STREAM_READ ); + gl.readPixels( x, y, width, height, glFormat, glType, 0 ); + gl.bindBuffer( gl.PIXEL_PACK_BUFFER, null ); + + await backend.utils._clientWaitAsync(); + + const dstBuffer = new typedArrayType( byteLength / typedArrayType.BYTES_PER_ELEMENT ); + + gl.bindBuffer( gl.PIXEL_PACK_BUFFER, buffer ); + gl.getBufferSubData( gl.PIXEL_PACK_BUFFER, 0, dstBuffer ); + gl.bindBuffer( gl.PIXEL_PACK_BUFFER, null ); + + gl.deleteFramebuffer( fb ); + + return dstBuffer; + + } + + _getTypedArrayType( glType ) { + + const { gl } = this; + + if ( glType === gl.UNSIGNED_BYTE ) return Uint8Array; + + if ( glType === gl.UNSIGNED_SHORT_4_4_4_4 ) return Uint16Array; + if ( glType === gl.UNSIGNED_SHORT_5_5_5_1 ) return Uint16Array; + if ( glType === gl.UNSIGNED_SHORT_5_6_5 ) return Uint16Array; + if ( glType === gl.UNSIGNED_SHORT ) return Uint16Array; + if ( glType === gl.UNSIGNED_INT ) return Uint32Array; + + if ( glType === gl.FLOAT ) return Float32Array; + + throw new Error( `Unsupported WebGL type: ${glType}` ); + + } + + _getBytesPerTexel( glFormat ) { + + const { gl } = this; + + if ( glFormat === gl.RGBA ) return 4; + if ( glFormat === gl.RGB ) return 3; + if ( glFormat === gl.ALPHA ) return 1; + + } + +} + +class WebGLExtensions { + + constructor( backend ) { + + this.backend = backend; + + this.gl = this.backend.gl; + this.availableExtensions = this.gl.getSupportedExtensions(); + + this.extensions = {}; + + } + + get( name ) { + + let extension = this.extensions[ name ]; + + if ( extension === undefined ) { + + extension = this.gl.getExtension( name ); + + this.extensions[ name ] = extension; + + } + + return extension; + + } + + has( name ) { + + return this.availableExtensions.includes( name ); + + } + +} + +class WebGLCapabilities { + + constructor( backend ) { + + this.backend = backend; + + this.maxAnisotropy = null; + + } + + getMaxAnisotropy() { + + if ( this.maxAnisotropy !== null ) return this.maxAnisotropy; + + const gl = this.backend.gl; + const extensions = this.backend.extensions; + + if ( extensions.has( 'EXT_texture_filter_anisotropic' ) === true ) { + + const extension = extensions.get( 'EXT_texture_filter_anisotropic' ); + + this.maxAnisotropy = gl.getParameter( extension.MAX_TEXTURE_MAX_ANISOTROPY_EXT ); + + } else { + + this.maxAnisotropy = 0; + + } + + return this.maxAnisotropy; + + } + +} + +const GLFeatureName = { + + 'WEBGL_multi_draw': 'WEBGL_multi_draw', + 'WEBGL_compressed_texture_astc': 'texture-compression-astc', + 'WEBGL_compressed_texture_etc': 'texture-compression-etc2', + 'WEBGL_compressed_texture_etc1': 'texture-compression-etc1', + 'WEBGL_compressed_texture_pvrtc': 'texture-compression-pvrtc', + 'WEBKIT_WEBGL_compressed_texture_pvrtc': 'texture-compression-pvrtc', + 'WEBGL_compressed_texture_s3tc': 'texture-compression-bc', + 'EXT_texture_compression_bptc': 'texture-compression-bptc', + 'EXT_disjoint_timer_query_webgl2': 'timestamp-query', + +}; + +class WebGLBufferRenderer { + + constructor( backend ) { + + this.gl = backend.gl; + this.extensions = backend.extensions; + this.info = backend.renderer.info; + this.mode = null; + this.index = 0; + this.type = null; + this.object = null; + + } + + render( start, count ) { + + const { gl, mode, object, type, info, index } = this; + + if ( index !== 0 ) { + + gl.drawElements( mode, count, type, start ); + + } else { + + gl.drawArrays( mode, start, count ); + + } + + info.update( object, count, mode, 1 ); + + } + + renderInstances( start, count, primcount ) { + + const { gl, mode, type, index, object, info } = this; + + if ( primcount === 0 ) return; + + if ( index !== 0 ) { + + gl.drawElementsInstanced( mode, count, type, start, primcount ); + + } else { + + gl.drawArraysInstanced( mode, start, count, primcount ); + + } + + info.update( object, count, mode, primcount ); + + } + + renderMultiDraw( starts, counts, drawCount ) { + + const { extensions, mode, object, info } = this; + + if ( drawCount === 0 ) return; + + const extension = extensions.get( 'WEBGL_multi_draw' ); + + if ( extension === null ) { + + for ( let i = 0; i < drawCount; i ++ ) { + + this.render( starts[ i ], counts[ i ] ); + + } + + } else { + + if ( this.index !== 0 ) { + + extension.multiDrawElementsWEBGL( mode, counts, 0, this.type, starts, 0, drawCount ); + + } else { + + extension.multiDrawArraysWEBGL( mode, starts, 0, counts, 0, drawCount ); + + } + + let elementCount = 0; + for ( let i = 0; i < drawCount; i ++ ) { + + elementCount += counts[ i ]; + + } + + info.update( object, elementCount, mode, 1 ); + + } + + } + + renderMultiDrawInstances( starts, counts, drawCount, primcount ) { + + const { extensions, mode, object, info } = this; + + if ( drawCount === 0 ) return; + + const extension = extensions.get( 'WEBGL_multi_draw' ); + + if ( extension === null ) { + + for ( let i = 0; i < drawCount; i ++ ) { + + this.renderInstances( starts[ i ], counts[ i ], primcount[ i ] ); + + } + + } else { + + if ( this.index !== 0 ) { + + extension.multiDrawElementsInstancedWEBGL( mode, counts, 0, this.type, starts, 0, primcount, 0, drawCount ); + + } else { + + extension.multiDrawArraysInstancedWEBGL( mode, starts, 0, counts, 0, primcount, 0, drawCount ); + + } + + let elementCount = 0; + + for ( let i = 0; i < drawCount; i ++ ) { + + elementCount += counts[ i ]; + + } + + for ( let i = 0; i < primcount.length; i ++ ) { + + info.update( object, elementCount, mode, primcount[ i ] ); + + } + + } + + } + + // + +} + +// + +class WebGLBackend extends Backend { + + constructor( parameters = {} ) { + + super( parameters ); + + this.isWebGLBackend = true; + + } + + init( renderer ) { + + super.init( renderer ); + + // + + const parameters = this.parameters; + + const glContext = ( parameters.context !== undefined ) ? parameters.context : renderer.domElement.getContext( 'webgl2' ); + + this.gl = glContext; + + this.extensions = new WebGLExtensions( this ); + this.capabilities = new WebGLCapabilities( this ); + this.attributeUtils = new WebGLAttributeUtils( this ); + this.textureUtils = new WebGLTextureUtils( this ); + this.bufferRenderer = new WebGLBufferRenderer( this ); + + this.state = new WebGLState( this ); + this.utils = new WebGLUtils( this ); + + this.vaoCache = {}; + this.transformFeedbackCache = {}; + this.discard = false; + this.trackTimestamp = ( parameters.trackTimestamp === true ); + + this.extensions.get( 'EXT_color_buffer_float' ); + this.extensions.get( 'WEBGL_multi_draw' ); + + this.disjoint = this.extensions.get( 'EXT_disjoint_timer_query_webgl2' ); + this.parallel = this.extensions.get( 'KHR_parallel_shader_compile' ); + this._currentContext = null; + + } + + get coordinateSystem() { + + return WebGLCoordinateSystem; + + } + + async getArrayBufferAsync( attribute ) { + + return await this.attributeUtils.getArrayBufferAsync( attribute ); + + } + + + initTimestampQuery( renderContext ) { + + if ( ! this.disjoint || ! this.trackTimestamp ) return; + + const renderContextData = this.get( renderContext ); + + if ( this.queryRunning ) { + + if ( ! renderContextData.queryQueue ) renderContextData.queryQueue = []; + renderContextData.queryQueue.push( renderContext ); + return; + + } + + if ( renderContextData.activeQuery ) { + + this.gl.endQuery( this.disjoint.TIME_ELAPSED_EXT ); + renderContextData.activeQuery = null; + + } + + renderContextData.activeQuery = this.gl.createQuery(); + + if ( renderContextData.activeQuery !== null ) { + + this.gl.beginQuery( this.disjoint.TIME_ELAPSED_EXT, renderContextData.activeQuery ); + this.queryRunning = true; + + } + + } + + // timestamp utils + + prepareTimestampBuffer( renderContext ) { + + if ( ! this.disjoint || ! this.trackTimestamp ) return; + + const renderContextData = this.get( renderContext ); + + if ( renderContextData.activeQuery ) { + + this.gl.endQuery( this.disjoint.TIME_ELAPSED_EXT ); + + if ( ! renderContextData.gpuQueries ) renderContextData.gpuQueries = []; + renderContextData.gpuQueries.push( { query: renderContextData.activeQuery } ); + renderContextData.activeQuery = null; + this.queryRunning = false; + + if ( renderContextData.queryQueue && renderContextData.queryQueue.length > 0 ) { + + const nextRenderContext = renderContextData.queryQueue.shift(); + this.initTimestampQuery( nextRenderContext ); + + } + + } + + } + + async resolveTimestampAsync( renderContext, type = 'render' ) { + + if ( ! this.disjoint || ! this.trackTimestamp ) return; + + const renderContextData = this.get( renderContext ); + + if ( ! renderContextData.gpuQueries ) renderContextData.gpuQueries = []; + + for ( let i = 0; i < renderContextData.gpuQueries.length; i ++ ) { + + const queryInfo = renderContextData.gpuQueries[ i ]; + const available = this.gl.getQueryParameter( queryInfo.query, this.gl.QUERY_RESULT_AVAILABLE ); + const disjoint = this.gl.getParameter( this.disjoint.GPU_DISJOINT_EXT ); + + if ( available && ! disjoint ) { + + const elapsed = this.gl.getQueryParameter( queryInfo.query, this.gl.QUERY_RESULT ); + const duration = Number( elapsed ) / 1000000; // Convert nanoseconds to milliseconds + this.gl.deleteQuery( queryInfo.query ); + renderContextData.gpuQueries.splice( i, 1 ); // Remove the processed query + i --; + this.renderer.info.updateTimestamp( type, duration ); + + } + + } + + } + + getContext() { + + return this.gl; + + } + + beginRender( renderContext ) { + + const { gl } = this; + const renderContextData = this.get( renderContext ); + + // + + // + + this.initTimestampQuery( renderContext ); + + renderContextData.previousContext = this._currentContext; + this._currentContext = renderContext; + + this._setFramebuffer( renderContext ); + + this.clear( renderContext.clearColor, renderContext.clearDepth, renderContext.clearStencil, renderContext, false ); + + // + if ( renderContext.viewport ) { + + this.updateViewport( renderContext ); + + } else { + + gl.viewport( 0, 0, gl.drawingBufferWidth, gl.drawingBufferHeight ); + + } + + if ( renderContext.scissor ) { + + const { x, y, width, height } = renderContext.scissorValue; + + gl.scissor( x, y, width, height ); + + } + + const occlusionQueryCount = renderContext.occlusionQueryCount; + + if ( occlusionQueryCount > 0 ) { + + // Get a reference to the array of objects with queries. The renderContextData property + // can be changed by another render pass before the async reading of all previous queries complete + renderContextData.currentOcclusionQueries = renderContextData.occlusionQueries; + renderContextData.currentOcclusionQueryObjects = renderContextData.occlusionQueryObjects; + + renderContextData.lastOcclusionObject = null; + renderContextData.occlusionQueries = new Array( occlusionQueryCount ); + renderContextData.occlusionQueryObjects = new Array( occlusionQueryCount ); + renderContextData.occlusionQueryIndex = 0; + + } + + } + + finishRender( renderContext ) { + + const { gl, state } = this; + const renderContextData = this.get( renderContext ); + const previousContext = renderContextData.previousContext; + + const textures = renderContext.textures; + + if ( textures !== null ) { + + for ( let i = 0; i < textures.length; i ++ ) { + + const texture = textures[ i ]; + + if ( texture.generateMipmaps ) { + + this.generateMipmaps( texture ); + + } + + } + + } + + this._currentContext = previousContext; + + + if ( renderContext.textures !== null && renderContext.renderTarget ) { + + const renderTargetContextData = this.get( renderContext.renderTarget ); + + const { samples } = renderContext.renderTarget; + const fb = renderTargetContextData.framebuffer; + + const mask = gl.COLOR_BUFFER_BIT; + + if ( samples > 0 ) { + + const msaaFrameBuffer = renderTargetContextData.msaaFrameBuffer; + + const textures = renderContext.textures; + + state.bindFramebuffer( gl.READ_FRAMEBUFFER, msaaFrameBuffer ); + state.bindFramebuffer( gl.DRAW_FRAMEBUFFER, fb ); + + for ( let i = 0; i < textures.length; i ++ ) { + + // TODO Add support for MRT + + gl.blitFramebuffer( 0, 0, renderContext.width, renderContext.height, 0, 0, renderContext.width, renderContext.height, mask, gl.NEAREST ); + + gl.invalidateFramebuffer( gl.READ_FRAMEBUFFER, renderTargetContextData.invalidationArray ); + + } + + } + + + } + + if ( previousContext !== null ) { + + this._setFramebuffer( previousContext ); + + if ( previousContext.viewport ) { + + this.updateViewport( previousContext ); + + } else { + + const gl = this.gl; + + gl.viewport( 0, 0, gl.drawingBufferWidth, gl.drawingBufferHeight ); + + } + + } + + const occlusionQueryCount = renderContext.occlusionQueryCount; + + if ( occlusionQueryCount > 0 ) { + + const renderContextData = this.get( renderContext ); + + if ( occlusionQueryCount > renderContextData.occlusionQueryIndex ) { + + const { gl } = this; + + gl.endQuery( gl.ANY_SAMPLES_PASSED ); + + } + + this.resolveOccludedAsync( renderContext ); + + } + + this.prepareTimestampBuffer( renderContext ); + + } + + resolveOccludedAsync( renderContext ) { + + const renderContextData = this.get( renderContext ); + + // handle occlusion query results + + const { currentOcclusionQueries, currentOcclusionQueryObjects } = renderContextData; + + if ( currentOcclusionQueries && currentOcclusionQueryObjects ) { + + const occluded = new WeakSet(); + const { gl } = this; + + renderContextData.currentOcclusionQueryObjects = null; + renderContextData.currentOcclusionQueries = null; + + const check = () => { + + let completed = 0; + + // check all queries and requeue as appropriate + for ( let i = 0; i < currentOcclusionQueries.length; i ++ ) { + + const query = currentOcclusionQueries[ i ]; + + if ( query === null ) continue; + + if ( gl.getQueryParameter( query, gl.QUERY_RESULT_AVAILABLE ) ) { + + if ( gl.getQueryParameter( query, gl.QUERY_RESULT ) > 0 ) occluded.add( currentOcclusionQueryObjects[ i ] ); + + currentOcclusionQueries[ i ] = null; + gl.deleteQuery( query ); + + completed ++; + + } + + } + + if ( completed < currentOcclusionQueries.length ) { + + requestAnimationFrame( check ); + + } else { + + renderContextData.occluded = occluded; + + } + + }; + + check(); + + } + + } + + isOccluded( renderContext, object ) { + + const renderContextData = this.get( renderContext ); + + return renderContextData.occluded && renderContextData.occluded.has( object ); + + } + + updateViewport( renderContext ) { + + const gl = this.gl; + const { x, y, width, height } = renderContext.viewportValue; + + gl.viewport( x, y, width, height ); + + } + + setScissorTest( boolean ) { + + const gl = this.gl; + + if ( boolean ) { + + gl.enable( gl.SCISSOR_TEST ); + + } else { + + gl.disable( gl.SCISSOR_TEST ); + + } + + } + + clear( color, depth, stencil, descriptor = null, setFrameBuffer = true ) { + + const { gl } = this; + + if ( descriptor === null ) { + + descriptor = { + textures: null, + clearColorValue: this.getClearColor() + }; + + } + + // + + let clear = 0; + + if ( color ) clear |= gl.COLOR_BUFFER_BIT; + if ( depth ) clear |= gl.DEPTH_BUFFER_BIT; + if ( stencil ) clear |= gl.STENCIL_BUFFER_BIT; + + if ( clear !== 0 ) { + + const clearColor = descriptor.clearColorValue || this.getClearColor(); + + if ( depth ) this.state.setDepthMask( true ); + + if ( descriptor.textures === null ) { + + gl.clearColor( clearColor.r, clearColor.g, clearColor.b, clearColor.a ); + gl.clear( clear ); + + } else { + + if ( setFrameBuffer ) this._setFramebuffer( descriptor ); + + if ( color ) { + + for ( let i = 0; i < descriptor.textures.length; i ++ ) { + + gl.clearBufferfv( gl.COLOR, i, [ clearColor.r, clearColor.g, clearColor.b, clearColor.a ] ); + + } + + } + + if ( depth && stencil ) { + + gl.clearBufferfi( gl.DEPTH_STENCIL, 0, 1, 0 ); + + } else if ( depth ) { + + gl.clearBufferfv( gl.DEPTH, 0, [ 1.0 ] ); + + } else if ( stencil ) { + + gl.clearBufferiv( gl.STENCIL, 0, [ 0 ] ); + + } + + } + + } + + } + + beginCompute( computeGroup ) { + + const gl = this.gl; + + gl.bindFramebuffer( gl.FRAMEBUFFER, null ); + this.initTimestampQuery( computeGroup ); + + } + + compute( computeGroup, computeNode, bindings, pipeline ) { + + const gl = this.gl; + + if ( ! this.discard ) { + + // required here to handle async behaviour of render.compute() + gl.enable( gl.RASTERIZER_DISCARD ); + this.discard = true; + + } + + const { programGPU, transformBuffers, attributes } = this.get( pipeline ); + + const vaoKey = this._getVaoKey( null, attributes ); + + const vaoGPU = this.vaoCache[ vaoKey ]; + + if ( vaoGPU === undefined ) { + + this._createVao( null, attributes ); + + } else { + + gl.bindVertexArray( vaoGPU ); + + } + + gl.useProgram( programGPU ); + + this._bindUniforms( bindings ); + + const transformFeedbackGPU = this._getTransformFeedback( transformBuffers ); + + gl.bindTransformFeedback( gl.TRANSFORM_FEEDBACK, transformFeedbackGPU ); + gl.beginTransformFeedback( gl.POINTS ); + + if ( attributes[ 0 ].isStorageInstancedBufferAttribute ) { + + gl.drawArraysInstanced( gl.POINTS, 0, 1, computeNode.count ); + + } else { + + gl.drawArrays( gl.POINTS, 0, computeNode.count ); + + } + + gl.endTransformFeedback(); + gl.bindTransformFeedback( gl.TRANSFORM_FEEDBACK, null ); + + // switch active buffers + + for ( let i = 0; i < transformBuffers.length; i ++ ) { + + const dualAttributeData = transformBuffers[ i ]; + + if ( dualAttributeData.pbo ) { + + this.textureUtils.copyBufferToTexture( dualAttributeData.transformBuffer, dualAttributeData.pbo ); + + } + + dualAttributeData.switchBuffers(); + + + } + + } + + finishCompute( computeGroup ) { + + const gl = this.gl; + + this.discard = false; + + gl.disable( gl.RASTERIZER_DISCARD ); + + this.prepareTimestampBuffer( computeGroup ); + + } + + draw( renderObject/*, info*/ ) { + + const { object, pipeline, material, context } = renderObject; + const { programGPU } = this.get( pipeline ); + + const { gl, state } = this; + + const contextData = this.get( context ); + + // + + this._bindUniforms( renderObject.getBindings() ); + + const frontFaceCW = ( object.isMesh && object.matrixWorld.determinant() < 0 ); + + state.setMaterial( material, frontFaceCW ); + + gl.useProgram( programGPU ); + + // + + let vaoGPU = renderObject.staticVao; + + if ( vaoGPU === undefined ) { + + const vaoKey = this._getVaoKey( renderObject.getIndex(), renderObject.getAttributes() ); + + vaoGPU = this.vaoCache[ vaoKey ]; + + if ( vaoGPU === undefined ) { + + let staticVao; + + ( { vaoGPU, staticVao } = this._createVao( renderObject.getIndex(), renderObject.getAttributes() ) ); + + if ( staticVao ) renderObject.staticVao = vaoGPU; + + } + + } + + gl.bindVertexArray( vaoGPU ); + + // + + const index = renderObject.getIndex(); + + const geometry = renderObject.geometry; + const drawRange = renderObject.drawRange; + const firstVertex = drawRange.start; + + // + + const lastObject = contextData.lastOcclusionObject; + + if ( lastObject !== object && lastObject !== undefined ) { + + if ( lastObject !== null && lastObject.occlusionTest === true ) { + + gl.endQuery( gl.ANY_SAMPLES_PASSED ); + + contextData.occlusionQueryIndex ++; + + } + + if ( object.occlusionTest === true ) { + + const query = gl.createQuery(); + + gl.beginQuery( gl.ANY_SAMPLES_PASSED, query ); + + contextData.occlusionQueries[ contextData.occlusionQueryIndex ] = query; + contextData.occlusionQueryObjects[ contextData.occlusionQueryIndex ] = object; + + } + + contextData.lastOcclusionObject = object; + + } + + // + + const renderer = this.bufferRenderer; + + if ( object.isPoints ) renderer.mode = gl.POINTS; + else if ( object.isLineSegments ) renderer.mode = gl.LINES; + else if ( object.isLine ) renderer.mode = gl.LINE_STRIP; + else if ( object.isLineLoop ) renderer.mode = gl.LINE_LOOP; + else { + + if ( material.wireframe === true ) { + + state.setLineWidth( material.wireframeLinewidth * this.renderer.getPixelRatio() ); + renderer.mode = gl.LINES; + + } else { + + renderer.mode = gl.TRIANGLES; + + } + + } + + // + + + let count; + + renderer.object = object; + + if ( index !== null ) { + + const indexData = this.get( index ); + const indexCount = ( drawRange.count !== Infinity ) ? drawRange.count : index.count; + + renderer.index = index.count; + renderer.type = indexData.type; + + count = indexCount; + + } else { + + renderer.index = 0; + + const vertexCount = ( drawRange.count !== Infinity ) ? drawRange.count : geometry.attributes.position.count; + + count = vertexCount; + + } + + const instanceCount = this.getInstanceCount( renderObject ); + + if ( object.isBatchedMesh ) { + + if ( object._multiDrawInstances !== null ) { + + renderer.renderMultiDrawInstances( object._multiDrawStarts, object._multiDrawCounts, object._multiDrawCount, object._multiDrawInstances ); + + } else if ( ! this.hasFeature( 'WEBGL_multi_draw' ) ) { + + warnOnce( 'THREE.WebGLRenderer: WEBGL_multi_draw not supported.' ); + + } else { + + renderer.renderMultiDraw( object._multiDrawStarts, object._multiDrawCounts, object._multiDrawCount ); + + } + + } else if ( instanceCount > 1 ) { + + renderer.renderInstances( firstVertex, count, instanceCount ); + + } else { + + renderer.render( firstVertex, count ); + + } + // + + gl.bindVertexArray( null ); + + } + + needsRenderUpdate( /*renderObject*/ ) { + + return false; + + } + + getRenderCacheKey( renderObject ) { + + return renderObject.id; + + } + + // textures + + createDefaultTexture( texture ) { + + this.textureUtils.createDefaultTexture( texture ); + + } + + createTexture( texture, options ) { + + this.textureUtils.createTexture( texture, options ); + + } + + updateTexture( texture, options ) { + + this.textureUtils.updateTexture( texture, options ); + + } + + generateMipmaps( texture ) { + + this.textureUtils.generateMipmaps( texture ); + + } + + + destroyTexture( texture ) { + + this.textureUtils.destroyTexture( texture ); + + } + + copyTextureToBuffer( texture, x, y, width, height ) { + + return this.textureUtils.copyTextureToBuffer( texture, x, y, width, height ); + + } + + createSampler( /*texture*/ ) { + + //console.warn( 'Abstract class.' ); + + } + + destroySampler() {} + + // node builder + + createNodeBuilder( object, renderer ) { + + return new GLSLNodeBuilder( object, renderer ); + + } + + // program + + createProgram( program ) { + + const gl = this.gl; + const { stage, code } = program; + + const shader = stage === 'fragment' ? gl.createShader( gl.FRAGMENT_SHADER ) : gl.createShader( gl.VERTEX_SHADER ); + + gl.shaderSource( shader, code ); + gl.compileShader( shader ); + + this.set( program, { + shaderGPU: shader + } ); + + } + + destroyProgram( /*program*/ ) { + + console.warn( 'Abstract class.' ); + + } + + createRenderPipeline( renderObject, promises ) { + + const gl = this.gl; + const pipeline = renderObject.pipeline; + + // Program + + const { fragmentProgram, vertexProgram } = pipeline; + + const programGPU = gl.createProgram(); + + const fragmentShader = this.get( fragmentProgram ).shaderGPU; + const vertexShader = this.get( vertexProgram ).shaderGPU; + + gl.attachShader( programGPU, fragmentShader ); + gl.attachShader( programGPU, vertexShader ); + gl.linkProgram( programGPU ); + + this.set( pipeline, { + programGPU, + fragmentShader, + vertexShader + } ); + + if ( promises !== null && this.parallel ) { + + const p = new Promise( ( resolve /*, reject*/ ) => { + + const parallel = this.parallel; + const checkStatus = () => { + + if ( gl.getProgramParameter( programGPU, parallel.COMPLETION_STATUS_KHR ) ) { + + this._completeCompile( renderObject, pipeline ); + resolve(); + + } else { + + requestAnimationFrame( checkStatus ); + + } + + }; + + checkStatus(); + + } ); + + promises.push( p ); + + return; + + } + + this._completeCompile( renderObject, pipeline ); + + } + + _handleSource( string, errorLine ) { + + const lines = string.split( '\n' ); + const lines2 = []; + + const from = Math.max( errorLine - 6, 0 ); + const to = Math.min( errorLine + 6, lines.length ); + + for ( let i = from; i < to; i ++ ) { + + const line = i + 1; + lines2.push( `${line === errorLine ? '>' : ' '} ${line}: ${lines[ i ]}` ); + + } + + return lines2.join( '\n' ); + + } + + _getShaderErrors( gl, shader, type ) { + + const status = gl.getShaderParameter( shader, gl.COMPILE_STATUS ); + const errors = gl.getShaderInfoLog( shader ).trim(); + + if ( status && errors === '' ) return ''; + + const errorMatches = /ERROR: 0:(\d+)/.exec( errors ); + if ( errorMatches ) { + + const errorLine = parseInt( errorMatches[ 1 ] ); + return type.toUpperCase() + '\n\n' + errors + '\n\n' + this._handleSource( gl.getShaderSource( shader ), errorLine ); + + } else { + + return errors; + + } + + } + + _logProgramError( programGPU, glFragmentShader, glVertexShader ) { + + if ( this.renderer.debug.checkShaderErrors ) { + + const gl = this.gl; + + const programLog = gl.getProgramInfoLog( programGPU ).trim(); + + if ( gl.getProgramParameter( programGPU, gl.LINK_STATUS ) === false ) { + + + if ( typeof this.renderer.debug.onShaderError === 'function' ) { + + this.renderer.debug.onShaderError( gl, programGPU, glVertexShader, glFragmentShader ); + + } else { + + // default error reporting + + const vertexErrors = this._getShaderErrors( gl, glVertexShader, 'vertex' ); + const fragmentErrors = this._getShaderErrors( gl, glFragmentShader, 'fragment' ); + + console.error( + 'THREE.WebGLProgram: Shader Error ' + gl.getError() + ' - ' + + 'VALIDATE_STATUS ' + gl.getProgramParameter( programGPU, gl.VALIDATE_STATUS ) + '\n\n' + + 'Program Info Log: ' + programLog + '\n' + + vertexErrors + '\n' + + fragmentErrors + ); + + } + + } else if ( programLog !== '' ) { + + console.warn( 'THREE.WebGLProgram: Program Info Log:', programLog ); + + } + + } + + } + + _completeCompile( renderObject, pipeline ) { + + const gl = this.gl; + const pipelineData = this.get( pipeline ); + const { programGPU, fragmentShader, vertexShader } = pipelineData; + + if ( gl.getProgramParameter( programGPU, gl.LINK_STATUS ) === false ) { + + this._logProgramError( programGPU, fragmentShader, vertexShader ); + + } + + gl.useProgram( programGPU ); + + // Bindings + + const bindings = renderObject.getBindings(); + + this._setupBindings( bindings, programGPU ); + + // + + this.set( pipeline, { + programGPU + } ); + + } + + createComputePipeline( computePipeline, bindings ) { + + const gl = this.gl; + + // Program + + const fragmentProgram = { + stage: 'fragment', + code: '#version 300 es\nprecision highp float;\nvoid main() {}' + }; + + this.createProgram( fragmentProgram ); + + const { computeProgram } = computePipeline; + + const programGPU = gl.createProgram(); + + const fragmentShader = this.get( fragmentProgram ).shaderGPU; + const vertexShader = this.get( computeProgram ).shaderGPU; + + const transforms = computeProgram.transforms; + + const transformVaryingNames = []; + const transformAttributeNodes = []; + + for ( let i = 0; i < transforms.length; i ++ ) { + + const transform = transforms[ i ]; + + transformVaryingNames.push( transform.varyingName ); + transformAttributeNodes.push( transform.attributeNode ); + + } + + gl.attachShader( programGPU, fragmentShader ); + gl.attachShader( programGPU, vertexShader ); + + gl.transformFeedbackVaryings( + programGPU, + transformVaryingNames, + gl.SEPARATE_ATTRIBS + ); + + gl.linkProgram( programGPU ); + + if ( gl.getProgramParameter( programGPU, gl.LINK_STATUS ) === false ) { + + this._logProgramError( programGPU, fragmentShader, vertexShader ); + + + } + + gl.useProgram( programGPU ); + + // Bindings + + this.createBindings( null, bindings ); + + this._setupBindings( bindings, programGPU ); + + const attributeNodes = computeProgram.attributes; + const attributes = []; + const transformBuffers = []; + + for ( let i = 0; i < attributeNodes.length; i ++ ) { + + const attribute = attributeNodes[ i ].node.attribute; + + attributes.push( attribute ); + + if ( ! this.has( attribute ) ) this.attributeUtils.createAttribute( attribute, gl.ARRAY_BUFFER ); + + } + + for ( let i = 0; i < transformAttributeNodes.length; i ++ ) { + + const attribute = transformAttributeNodes[ i ].attribute; + + if ( ! this.has( attribute ) ) this.attributeUtils.createAttribute( attribute, gl.ARRAY_BUFFER ); + + const attributeData = this.get( attribute ); + + transformBuffers.push( attributeData ); + + } + + // + + this.set( computePipeline, { + programGPU, + transformBuffers, + attributes + } ); + + } + + createBindings( bindGroup, bindings ) { + + this.updateBindings( bindGroup, bindings ); + + } + + updateBindings( bindGroup, bindings ) { + + const { gl } = this; + + let groupIndex = 0; + let textureIndex = 0; + + for ( const bindGroup of bindings ) { + + for ( const binding of bindGroup.bindings ) { + + if ( binding.isUniformsGroup || binding.isUniformBuffer ) { + + const bufferGPU = gl.createBuffer(); + const data = binding.buffer; + + gl.bindBuffer( gl.UNIFORM_BUFFER, bufferGPU ); + gl.bufferData( gl.UNIFORM_BUFFER, data, gl.DYNAMIC_DRAW ); + gl.bindBufferBase( gl.UNIFORM_BUFFER, groupIndex, bufferGPU ); + + this.set( binding, { + index: groupIndex ++, + bufferGPU + } ); + + } else if ( binding.isSampledTexture ) { + + const { textureGPU, glTextureType } = this.get( binding.texture ); + + this.set( binding, { + index: textureIndex ++, + textureGPU, + glTextureType + } ); + + } + + } + + } + + } + + updateBinding( binding ) { + + const gl = this.gl; + + if ( binding.isUniformsGroup || binding.isUniformBuffer ) { + + const bindingData = this.get( binding ); + const bufferGPU = bindingData.bufferGPU; + const data = binding.buffer; + + gl.bindBuffer( gl.UNIFORM_BUFFER, bufferGPU ); + gl.bufferData( gl.UNIFORM_BUFFER, data, gl.DYNAMIC_DRAW ); + + } + + } + + // attributes + + createIndexAttribute( attribute ) { + + const gl = this.gl; + + this.attributeUtils.createAttribute( attribute, gl.ELEMENT_ARRAY_BUFFER ); + + } + + createAttribute( attribute ) { + + if ( this.has( attribute ) ) return; + + const gl = this.gl; + + this.attributeUtils.createAttribute( attribute, gl.ARRAY_BUFFER ); + + } + + createStorageAttribute( attribute ) { + + if ( this.has( attribute ) ) return; + + const gl = this.gl; + + this.attributeUtils.createAttribute( attribute, gl.ARRAY_BUFFER ); + + } + + updateAttribute( attribute ) { + + this.attributeUtils.updateAttribute( attribute ); + + } + + destroyAttribute( attribute ) { + + this.attributeUtils.destroyAttribute( attribute ); + + } + + updateSize() { + + //console.warn( 'Abstract class.' ); + + } + + hasFeature( name ) { + + const keysMatching = Object.keys( GLFeatureName ).filter( key => GLFeatureName[ key ] === name ); + + const extensions = this.extensions; + + for ( let i = 0; i < keysMatching.length; i ++ ) { + + if ( extensions.has( keysMatching[ i ] ) ) return true; + + } + + return false; + + } + + + getMaxAnisotropy() { + + return this.capabilities.getMaxAnisotropy(); + + } + + copyTextureToTexture( position, srcTexture, dstTexture, level ) { + + this.textureUtils.copyTextureToTexture( position, srcTexture, dstTexture, level ); + + } + + copyFramebufferToTexture( texture, renderContext ) { + + this.textureUtils.copyFramebufferToTexture( texture, renderContext ); + + } + + _setFramebuffer( renderContext ) { + + const { gl, state } = this; + + let currentFrameBuffer = null; + + if ( renderContext.textures !== null ) { + + const renderTarget = renderContext.renderTarget; + const renderTargetContextData = this.get( renderTarget ); + const { samples, depthBuffer, stencilBuffer } = renderTarget; + const cubeFace = this.renderer._activeCubeFace; + const isCube = renderTarget.isWebGLCubeRenderTarget === true; + + let msaaFb = renderTargetContextData.msaaFrameBuffer; + let depthRenderbuffer = renderTargetContextData.depthRenderbuffer; + + let fb; + + if ( isCube ) { + + if ( renderTargetContextData.cubeFramebuffers === undefined ) { + + renderTargetContextData.cubeFramebuffers = []; + + } + + fb = renderTargetContextData.cubeFramebuffers[ cubeFace ]; + + } else { + + fb = renderTargetContextData.framebuffer; + + } + + if ( fb === undefined ) { + + fb = gl.createFramebuffer(); + + state.bindFramebuffer( gl.FRAMEBUFFER, fb ); + + const textures = renderContext.textures; + + if ( isCube ) { + + renderTargetContextData.cubeFramebuffers[ cubeFace ] = fb; + const { textureGPU } = this.get( textures[ 0 ] ); + + gl.framebufferTexture2D( gl.FRAMEBUFFER, gl.COLOR_ATTACHMENT0, gl.TEXTURE_CUBE_MAP_POSITIVE_X + cubeFace, textureGPU, 0 ); + + } else { + + for ( let i = 0; i < textures.length; i ++ ) { + + const texture = textures[ i ]; + const textureData = this.get( texture ); + textureData.renderTarget = renderContext.renderTarget; + + const attachment = gl.COLOR_ATTACHMENT0 + i; + + gl.framebufferTexture2D( gl.FRAMEBUFFER, attachment, gl.TEXTURE_2D, textureData.textureGPU, 0 ); + + } + + renderTargetContextData.framebuffer = fb; + + state.drawBuffers( renderContext, fb ); + + } + + if ( renderContext.depthTexture !== null ) { + + const textureData = this.get( renderContext.depthTexture ); + const depthStyle = stencilBuffer ? gl.DEPTH_STENCIL_ATTACHMENT : gl.DEPTH_ATTACHMENT; + + gl.framebufferTexture2D( gl.FRAMEBUFFER, depthStyle, gl.TEXTURE_2D, textureData.textureGPU, 0 ); + + } + + } + + if ( samples > 0 ) { + + if ( msaaFb === undefined ) { + + const invalidationArray = []; + + msaaFb = gl.createFramebuffer(); + + state.bindFramebuffer( gl.FRAMEBUFFER, msaaFb ); + + const msaaRenderbuffers = []; + + const textures = renderContext.textures; + + for ( let i = 0; i < textures.length; i ++ ) { + + + msaaRenderbuffers[ i ] = gl.createRenderbuffer(); + + gl.bindRenderbuffer( gl.RENDERBUFFER, msaaRenderbuffers[ i ] ); + + invalidationArray.push( gl.COLOR_ATTACHMENT0 + i ); + + if ( depthBuffer ) { + + const depthStyle = stencilBuffer ? gl.DEPTH_STENCIL_ATTACHMENT : gl.DEPTH_ATTACHMENT; + invalidationArray.push( depthStyle ); + + } + + const texture = renderContext.textures[ i ]; + const textureData = this.get( texture ); + + gl.renderbufferStorageMultisample( gl.RENDERBUFFER, samples, textureData.glInternalFormat, renderContext.width, renderContext.height ); + gl.framebufferRenderbuffer( gl.FRAMEBUFFER, gl.COLOR_ATTACHMENT0 + i, gl.RENDERBUFFER, msaaRenderbuffers[ i ] ); + + + } + + renderTargetContextData.msaaFrameBuffer = msaaFb; + renderTargetContextData.msaaRenderbuffers = msaaRenderbuffers; + + if ( depthRenderbuffer === undefined ) { + + depthRenderbuffer = gl.createRenderbuffer(); + this.textureUtils.setupRenderBufferStorage( depthRenderbuffer, renderContext ); + + renderTargetContextData.depthRenderbuffer = depthRenderbuffer; + + const depthStyle = stencilBuffer ? gl.DEPTH_STENCIL_ATTACHMENT : gl.DEPTH_ATTACHMENT; + invalidationArray.push( depthStyle ); + + } + + renderTargetContextData.invalidationArray = invalidationArray; + + } + + currentFrameBuffer = renderTargetContextData.msaaFrameBuffer; + + } else { + + currentFrameBuffer = fb; + + } + + } + + state.bindFramebuffer( gl.FRAMEBUFFER, currentFrameBuffer ); + + } + + + _getVaoKey( index, attributes ) { + + let key = []; + + if ( index !== null ) { + + const indexData = this.get( index ); + + key += ':' + indexData.id; + + } + + for ( let i = 0; i < attributes.length; i ++ ) { + + const attributeData = this.get( attributes[ i ] ); + + key += ':' + attributeData.id; + + } + + return key; + + } + + _createVao( index, attributes ) { + + const { gl } = this; + + const vaoGPU = gl.createVertexArray(); + let key = ''; + + let staticVao = true; + + gl.bindVertexArray( vaoGPU ); + + if ( index !== null ) { + + const indexData = this.get( index ); + + gl.bindBuffer( gl.ELEMENT_ARRAY_BUFFER, indexData.bufferGPU ); + + key += ':' + indexData.id; + + } + + for ( let i = 0; i < attributes.length; i ++ ) { + + const attribute = attributes[ i ]; + const attributeData = this.get( attribute ); + + key += ':' + attributeData.id; + + gl.bindBuffer( gl.ARRAY_BUFFER, attributeData.bufferGPU ); + gl.enableVertexAttribArray( i ); + + if ( attribute.isStorageBufferAttribute || attribute.isStorageInstancedBufferAttribute ) staticVao = false; + + let stride, offset; + + if ( attribute.isInterleavedBufferAttribute === true ) { + + stride = attribute.data.stride * attributeData.bytesPerElement; + offset = attribute.offset * attributeData.bytesPerElement; + + } else { + + stride = 0; + offset = 0; + + } + + if ( attributeData.isInteger ) { + + gl.vertexAttribIPointer( i, attribute.itemSize, attributeData.type, stride, offset ); + + } else { + + gl.vertexAttribPointer( i, attribute.itemSize, attributeData.type, attribute.normalized, stride, offset ); + + } + + if ( attribute.isInstancedBufferAttribute && ! attribute.isInterleavedBufferAttribute ) { + + gl.vertexAttribDivisor( i, attribute.meshPerAttribute ); + + } else if ( attribute.isInterleavedBufferAttribute && attribute.data.isInstancedInterleavedBuffer ) { + + gl.vertexAttribDivisor( i, attribute.data.meshPerAttribute ); + + } + + } + + gl.bindBuffer( gl.ARRAY_BUFFER, null ); + + this.vaoCache[ key ] = vaoGPU; + + return { vaoGPU, staticVao }; + + } + + _getTransformFeedback( transformBuffers ) { + + let key = ''; + + for ( let i = 0; i < transformBuffers.length; i ++ ) { + + key += ':' + transformBuffers[ i ].id; + + } + + let transformFeedbackGPU = this.transformFeedbackCache[ key ]; + + if ( transformFeedbackGPU !== undefined ) { + + return transformFeedbackGPU; + + } + + const gl = this.gl; + + transformFeedbackGPU = gl.createTransformFeedback(); + + gl.bindTransformFeedback( gl.TRANSFORM_FEEDBACK, transformFeedbackGPU ); + + for ( let i = 0; i < transformBuffers.length; i ++ ) { + + const attributeData = transformBuffers[ i ]; + + gl.bindBufferBase( gl.TRANSFORM_FEEDBACK_BUFFER, i, attributeData.transformBuffer ); + + } + + gl.bindTransformFeedback( gl.TRANSFORM_FEEDBACK, null ); + + this.transformFeedbackCache[ key ] = transformFeedbackGPU; + + return transformFeedbackGPU; + + } + + + _setupBindings( bindings, programGPU ) { + + const gl = this.gl; + + for ( const bindGroup of bindings ) { + + for ( const binding of bindGroup.bindings ) { + + const bindingData = this.get( binding ); + const index = bindingData.index; + + if ( binding.isUniformsGroup || binding.isUniformBuffer ) { + + const location = gl.getUniformBlockIndex( programGPU, binding.name ); + gl.uniformBlockBinding( programGPU, location, index ); + + } else if ( binding.isSampledTexture ) { + + const location = gl.getUniformLocation( programGPU, binding.name ); + gl.uniform1i( location, index ); + + } + + } + + } + + } + + _bindUniforms( bindings ) { + + const { gl, state } = this; + + for ( const bindGroup of bindings ) { + + for ( const binding of bindGroup.bindings ) { + + const bindingData = this.get( binding ); + const index = bindingData.index; + + if ( binding.isUniformsGroup || binding.isUniformBuffer ) { + + gl.bindBufferBase( gl.UNIFORM_BUFFER, index, bindingData.bufferGPU ); + + } else if ( binding.isSampledTexture ) { + + state.bindTexture( bindingData.glTextureType, bindingData.textureGPU, gl.TEXTURE0 + index ); + + } + + } + + } + + } + +} + +class Sampler extends Binding { + + constructor( name, texture ) { + + super( name ); + + this.texture = texture; + this.version = texture ? texture.version : 0; + + this.isSampler = true; + + } + +} + +class NodeSampler extends Sampler { + + constructor( name, textureNode, groupNode ) { + + super( name, textureNode ? textureNode.value : null ); + + this.textureNode = textureNode; + this.groupNode = groupNode; + + } + + update() { + + this.texture = this.textureNode.value; + + } + +} + +class StorageBuffer extends Buffer { + + constructor( name, attribute ) { + + super( name, attribute ? attribute.array : null ); + + this.attribute = attribute; + + this.isStorageBuffer = true; + + } + +} + +let _id = 0; + +class NodeStorageBuffer extends StorageBuffer { + + constructor( nodeUniform, groupNode ) { + + super( 'StorageBuffer_' + _id ++, nodeUniform ? nodeUniform.value : null ); + + this.nodeUniform = nodeUniform; + this.access = nodeUniform ? nodeUniform.access : GPUBufferBindingType.Storage; + this.groupNode = groupNode; + + + } + + get buffer() { + + return this.nodeUniform.value; + + } + +} + +class WebGPUTexturePassUtils { + + constructor( device ) { + + this.device = device; + + const mipmapVertexSource = ` +struct VarysStruct { + @builtin( position ) Position: vec4, + @location( 0 ) vTex : vec2 +}; + +@vertex +fn main( @builtin( vertex_index ) vertexIndex : u32 ) -> VarysStruct { + + var Varys : VarysStruct; + + var pos = array< vec2, 4 >( + vec2( -1.0, 1.0 ), + vec2( 1.0, 1.0 ), + vec2( -1.0, -1.0 ), + vec2( 1.0, -1.0 ) + ); + + var tex = array< vec2, 4 >( + vec2( 0.0, 0.0 ), + vec2( 1.0, 0.0 ), + vec2( 0.0, 1.0 ), + vec2( 1.0, 1.0 ) + ); + + Varys.vTex = tex[ vertexIndex ]; + Varys.Position = vec4( pos[ vertexIndex ], 0.0, 1.0 ); + + return Varys; + +} +`; + + const mipmapFragmentSource = ` +@group( 0 ) @binding( 0 ) +var imgSampler : sampler; + +@group( 0 ) @binding( 1 ) +var img : texture_2d; + +@fragment +fn main( @location( 0 ) vTex : vec2 ) -> @location( 0 ) vec4 { + + return textureSample( img, imgSampler, vTex ); + +} +`; + + const flipYFragmentSource = ` +@group( 0 ) @binding( 0 ) +var imgSampler : sampler; + +@group( 0 ) @binding( 1 ) +var img : texture_2d; + +@fragment +fn main( @location( 0 ) vTex : vec2 ) -> @location( 0 ) vec4 { + + return textureSample( img, imgSampler, vec2( vTex.x, 1.0 - vTex.y ) ); + +} +`; + this.mipmapSampler = device.createSampler( { minFilter: GPUFilterMode.Linear } ); + this.flipYSampler = device.createSampler( { minFilter: GPUFilterMode.Nearest } ); //@TODO?: Consider using textureLoad() + + // We'll need a new pipeline for every texture format used. + this.transferPipelines = {}; + this.flipYPipelines = {}; + + this.mipmapVertexShaderModule = device.createShaderModule( { + label: 'mipmapVertex', + code: mipmapVertexSource + } ); + + this.mipmapFragmentShaderModule = device.createShaderModule( { + label: 'mipmapFragment', + code: mipmapFragmentSource + } ); + + this.flipYFragmentShaderModule = device.createShaderModule( { + label: 'flipYFragment', + code: flipYFragmentSource + } ); + + } + + getTransferPipeline( format ) { + + let pipeline = this.transferPipelines[ format ]; + + if ( pipeline === undefined ) { + + pipeline = this.device.createRenderPipeline( { + vertex: { + module: this.mipmapVertexShaderModule, + entryPoint: 'main' + }, + fragment: { + module: this.mipmapFragmentShaderModule, + entryPoint: 'main', + targets: [ { format } ] + }, + primitive: { + topology: GPUPrimitiveTopology.TriangleStrip, + stripIndexFormat: GPUIndexFormat.Uint32 + }, + layout: 'auto' + } ); + + this.transferPipelines[ format ] = pipeline; + + } + + return pipeline; + + } + + getFlipYPipeline( format ) { + + let pipeline = this.flipYPipelines[ format ]; + + if ( pipeline === undefined ) { + + pipeline = this.device.createRenderPipeline( { + vertex: { + module: this.mipmapVertexShaderModule, + entryPoint: 'main' + }, + fragment: { + module: this.flipYFragmentShaderModule, + entryPoint: 'main', + targets: [ { format } ] + }, + primitive: { + topology: GPUPrimitiveTopology.TriangleStrip, + stripIndexFormat: GPUIndexFormat.Uint32 + }, + layout: 'auto' + } ); + + this.flipYPipelines[ format ] = pipeline; + + } + + return pipeline; + + } + + flipY( textureGPU, textureGPUDescriptor, baseArrayLayer = 0 ) { + + const format = textureGPUDescriptor.format; + const { width, height } = textureGPUDescriptor.size; + + const transferPipeline = this.getTransferPipeline( format ); + const flipYPipeline = this.getFlipYPipeline( format ); + + const tempTexture = this.device.createTexture( { + size: { width, height, depthOrArrayLayers: 1 }, + format, + usage: GPUTextureUsage.RENDER_ATTACHMENT | GPUTextureUsage.TEXTURE_BINDING + } ); + + const srcView = textureGPU.createView( { + baseMipLevel: 0, + mipLevelCount: 1, + dimension: GPUTextureViewDimension.TwoD, + baseArrayLayer + } ); + + const dstView = tempTexture.createView( { + baseMipLevel: 0, + mipLevelCount: 1, + dimension: GPUTextureViewDimension.TwoD, + baseArrayLayer: 0 + } ); + + const commandEncoder = this.device.createCommandEncoder( {} ); + + const pass = ( pipeline, sourceView, destinationView ) => { + + const bindGroupLayout = pipeline.getBindGroupLayout( 0 ); // @TODO: Consider making this static. + + const bindGroup = this.device.createBindGroup( { + layout: bindGroupLayout, + entries: [ { + binding: 0, + resource: this.flipYSampler + }, { + binding: 1, + resource: sourceView + } ] + } ); + + const passEncoder = commandEncoder.beginRenderPass( { + colorAttachments: [ { + view: destinationView, + loadOp: GPULoadOp.Clear, + storeOp: GPUStoreOp.Store, + clearValue: [ 0, 0, 0, 0 ] + } ] + } ); + + passEncoder.setPipeline( pipeline ); + passEncoder.setBindGroup( 0, bindGroup ); + passEncoder.draw( 4, 1, 0, 0 ); + passEncoder.end(); + + }; + + pass( transferPipeline, srcView, dstView ); + pass( flipYPipeline, dstView, srcView ); + + this.device.queue.submit( [ commandEncoder.finish() ] ); + + tempTexture.destroy(); + + } + + generateMipmaps( textureGPU, textureGPUDescriptor, baseArrayLayer = 0 ) { + + const pipeline = this.getTransferPipeline( textureGPUDescriptor.format ); + + const commandEncoder = this.device.createCommandEncoder( {} ); + const bindGroupLayout = pipeline.getBindGroupLayout( 0 ); // @TODO: Consider making this static. + + let srcView = textureGPU.createView( { + baseMipLevel: 0, + mipLevelCount: 1, + dimension: GPUTextureViewDimension.TwoD, + baseArrayLayer + } ); + + for ( let i = 1; i < textureGPUDescriptor.mipLevelCount; i ++ ) { + + const bindGroup = this.device.createBindGroup( { + layout: bindGroupLayout, + entries: [ { + binding: 0, + resource: this.mipmapSampler + }, { + binding: 1, + resource: srcView + } ] + } ); + + const dstView = textureGPU.createView( { + baseMipLevel: i, + mipLevelCount: 1, + dimension: GPUTextureViewDimension.TwoD, + baseArrayLayer + } ); + + const passEncoder = commandEncoder.beginRenderPass( { + colorAttachments: [ { + view: dstView, + loadOp: GPULoadOp.Clear, + storeOp: GPUStoreOp.Store, + clearValue: [ 0, 0, 0, 0 ] + } ] + } ); + + passEncoder.setPipeline( pipeline ); + passEncoder.setBindGroup( 0, bindGroup ); + passEncoder.draw( 4, 1, 0, 0 ); + passEncoder.end(); + + srcView = dstView; + + } + + this.device.queue.submit( [ commandEncoder.finish() ] ); + + } + +} + +const _compareToWebGPU = { + [ NeverCompare ]: 'never', + [ LessCompare ]: 'less', + [ EqualCompare ]: 'equal', + [ LessEqualCompare ]: 'less-equal', + [ GreaterCompare ]: 'greater', + [ GreaterEqualCompare ]: 'greater-equal', + [ AlwaysCompare ]: 'always', + [ NotEqualCompare ]: 'not-equal' +}; + +const _flipMap = [ 0, 1, 3, 2, 4, 5 ]; + +class WebGPUTextureUtils { + + constructor( backend ) { + + this.backend = backend; + + this._passUtils = null; + + this.defaultTexture = {}; + this.defaultCubeTexture = {}; + + this.colorBuffer = null; + + this.depthTexture = new DepthTexture(); + this.depthTexture.name = 'depthBuffer'; + + } + + createSampler( texture ) { + + const backend = this.backend; + const device = backend.device; + + const textureGPU = backend.get( texture ); + + const samplerDescriptorGPU = { + addressModeU: this._convertAddressMode( texture.wrapS ), + addressModeV: this._convertAddressMode( texture.wrapT ), + addressModeW: this._convertAddressMode( texture.wrapR ), + magFilter: this._convertFilterMode( texture.magFilter ), + minFilter: this._convertFilterMode( texture.minFilter ), + mipmapFilter: this._convertFilterMode( texture.minFilter ), + maxAnisotropy: texture.anisotropy + }; + + if ( texture.isDepthTexture && texture.compareFunction !== null ) { + + samplerDescriptorGPU.compare = _compareToWebGPU[ texture.compareFunction ]; + + } + + textureGPU.sampler = device.createSampler( samplerDescriptorGPU ); + + } + + createDefaultTexture( texture ) { + + let textureGPU; + + const format = getFormat( texture ); + + if ( texture.isCubeTexture ) { + + textureGPU = this._getDefaultCubeTextureGPU( format ); + + } else { + + textureGPU = this._getDefaultTextureGPU( format ); + + } + + this.backend.get( texture ).texture = textureGPU; + + } + + createTexture( texture, options = {} ) { + + const backend = this.backend; + const textureData = backend.get( texture ); + + if ( textureData.initialized ) { + + throw new Error( 'WebGPUTextureUtils: Texture already initialized.' ); + + } + + if ( options.needsMipmaps === undefined ) options.needsMipmaps = false; + if ( options.levels === undefined ) options.levels = 1; + if ( options.depth === undefined ) options.depth = 1; + + const { width, height, depth, levels } = options; + + const dimension = this._getDimension( texture ); + const format = texture.internalFormat || options.format || getFormat( texture, backend.device ); + + let sampleCount = options.sampleCount !== undefined ? options.sampleCount : 1; + + if ( sampleCount > 1 ) { + + // WebGPU only supports power-of-two sample counts and 2 is not a valid value + sampleCount = Math.pow( 2, Math.floor( Math.log2( sampleCount ) ) ); + + if ( sampleCount === 2 ) { + + sampleCount = 4; + + } + + } + + const primarySampleCount = texture.isRenderTargetTexture ? 1 : sampleCount; + + let usage = GPUTextureUsage.TEXTURE_BINDING | GPUTextureUsage.COPY_DST | GPUTextureUsage.COPY_SRC; + + if ( texture.isStorageTexture === true ) { + + usage |= GPUTextureUsage.STORAGE_BINDING; + + } + + if ( texture.isCompressedTexture !== true ) { + + usage |= GPUTextureUsage.RENDER_ATTACHMENT; + + } + + const textureDescriptorGPU = { + label: texture.name, + size: { + width: width, + height: height, + depthOrArrayLayers: depth, + }, + mipLevelCount: levels, + sampleCount: primarySampleCount, + dimension: dimension, + format: format, + usage: usage + }; + + // texture creation + + if ( texture.isVideoTexture ) { + + const video = texture.source.data; + const videoFrame = new VideoFrame( video ); + + textureDescriptorGPU.size.width = videoFrame.displayWidth; + textureDescriptorGPU.size.height = videoFrame.displayHeight; + + videoFrame.close(); + + textureData.externalTexture = video; + + } else { + + if ( format === undefined ) { + + console.warn( 'WebGPURenderer: Texture format not supported.' ); + + return this.createDefaultTexture( texture ); + + } + + textureData.texture = backend.device.createTexture( textureDescriptorGPU ); + + } + + if ( texture.isRenderTargetTexture && sampleCount > 1 ) { + + const msaaTextureDescriptorGPU = Object.assign( {}, textureDescriptorGPU ); + + msaaTextureDescriptorGPU.label = msaaTextureDescriptorGPU.label + '-msaa'; + msaaTextureDescriptorGPU.sampleCount = sampleCount; + + textureData.msaaTexture = backend.device.createTexture( msaaTextureDescriptorGPU ); + + } + + textureData.initialized = true; + + textureData.textureDescriptorGPU = textureDescriptorGPU; + + } + + destroyTexture( texture ) { + + const backend = this.backend; + const textureData = backend.get( texture ); + + textureData.texture.destroy(); + + if ( textureData.msaaTexture !== undefined ) textureData.msaaTexture.destroy(); + + backend.delete( texture ); + + } + + destroySampler( texture ) { + + const backend = this.backend; + const textureData = backend.get( texture ); + + delete textureData.sampler; + + } + + generateMipmaps( texture ) { + + const textureData = this.backend.get( texture ); + + if ( texture.isCubeTexture ) { + + for ( let i = 0; i < 6; i ++ ) { + + this._generateMipmaps( textureData.texture, textureData.textureDescriptorGPU, i ); + + } + + } else { + + this._generateMipmaps( textureData.texture, textureData.textureDescriptorGPU ); + + } + + } + + getColorBuffer() { + + if ( this.colorBuffer ) this.colorBuffer.destroy(); + + const backend = this.backend; + const { width, height } = backend.getDrawingBufferSize(); + + this.colorBuffer = backend.device.createTexture( { + label: 'colorBuffer', + size: { + width: width, + height: height, + depthOrArrayLayers: 1 + }, + sampleCount: backend.parameters.sampleCount, + format: GPUTextureFormat.BGRA8Unorm, + usage: GPUTextureUsage.RENDER_ATTACHMENT | GPUTextureUsage.COPY_SRC + } ); + + return this.colorBuffer; + + } + + getDepthBuffer( depth = true, stencil = false ) { + + const backend = this.backend; + const { width, height } = backend.getDrawingBufferSize(); + + const depthTexture = this.depthTexture; + const depthTextureGPU = backend.get( depthTexture ).texture; + + let format, type; + + if ( stencil ) { + + format = DepthStencilFormat; + type = UnsignedInt248Type; + + } else if ( depth ) { + + format = DepthFormat; + type = UnsignedIntType; + + } + + if ( depthTextureGPU !== undefined ) { + + if ( depthTexture.image.width === width && depthTexture.image.height === height && depthTexture.format === format && depthTexture.type === type ) { + + return depthTextureGPU; + + } + + this.destroyTexture( depthTexture ); + + } + + depthTexture.name = 'depthBuffer'; + depthTexture.format = format; + depthTexture.type = type; + depthTexture.image.width = width; + depthTexture.image.height = height; + + this.createTexture( depthTexture, { sampleCount: backend.parameters.sampleCount, width, height } ); + + return backend.get( depthTexture ).texture; + + } + + updateTexture( texture, options ) { + + const textureData = this.backend.get( texture ); + + const { textureDescriptorGPU } = textureData; + + if ( texture.isRenderTargetTexture || ( textureDescriptorGPU === undefined /* unsupported texture format */ ) ) + return; + + // transfer texture data + + if ( texture.isDataTexture ) { + + this._copyBufferToTexture( options.image, textureData.texture, textureDescriptorGPU, 0, texture.flipY ); + + } else if ( texture.isDataArrayTexture || texture.isData3DTexture ) { + + for ( let i = 0; i < options.image.depth; i ++ ) { + + this._copyBufferToTexture( options.image, textureData.texture, textureDescriptorGPU, i, texture.flipY, i ); + + } + + } else if ( texture.isCompressedTexture ) { + + this._copyCompressedBufferToTexture( texture.mipmaps, textureData.texture, textureDescriptorGPU ); + + } else if ( texture.isCubeTexture ) { + + this._copyCubeMapToTexture( options.images, textureData.texture, textureDescriptorGPU, texture.flipY ); + + } else if ( texture.isVideoTexture ) { + + const video = texture.source.data; + + textureData.externalTexture = video; + + } else { + + this._copyImageToTexture( options.image, textureData.texture, textureDescriptorGPU, 0, texture.flipY ); + + } + + // + + textureData.version = texture.version; + + if ( texture.onUpdate ) texture.onUpdate( texture ); + + } + + async copyTextureToBuffer( texture, x, y, width, height ) { + + const device = this.backend.device; + + const textureData = this.backend.get( texture ); + const textureGPU = textureData.texture; + const format = textureData.textureDescriptorGPU.format; + const bytesPerTexel = this._getBytesPerTexel( format ); + + let bytesPerRow = width * bytesPerTexel; + bytesPerRow = Math.ceil( bytesPerRow / 256 ) * 256; // Align to 256 bytes + + const readBuffer = device.createBuffer( + { + size: width * height * bytesPerTexel, + usage: GPUBufferUsage.COPY_DST | GPUBufferUsage.MAP_READ + } + ); + + const encoder = device.createCommandEncoder(); + + encoder.copyTextureToBuffer( + { + texture: textureGPU, + origin: { x, y }, + }, + { + buffer: readBuffer, + bytesPerRow: bytesPerRow + }, + { + width: width, + height: height + } + + ); + + const typedArrayType = this._getTypedArrayType( format ); + + device.queue.submit( [ encoder.finish() ] ); + + await readBuffer.mapAsync( GPUMapMode.READ ); + + const buffer = readBuffer.getMappedRange(); + + return new typedArrayType( buffer ); + + } + + _isEnvironmentTexture( texture ) { + + const mapping = texture.mapping; + + return ( mapping === EquirectangularReflectionMapping || mapping === EquirectangularRefractionMapping ) || ( mapping === CubeReflectionMapping || mapping === CubeRefractionMapping ); + + } + + _getDefaultTextureGPU( format ) { + + let defaultTexture = this.defaultTexture[ format ]; + + if ( defaultTexture === undefined ) { + + const texture = new Texture(); + texture.minFilter = NearestFilter; + texture.magFilter = NearestFilter; + + this.createTexture( texture, { width: 1, height: 1, format } ); + + this.defaultTexture[ format ] = defaultTexture = texture; + + } + + return this.backend.get( defaultTexture ).texture; + + } + + _getDefaultCubeTextureGPU( format ) { + + let defaultCubeTexture = this.defaultTexture[ format ]; + + if ( defaultCubeTexture === undefined ) { + + const texture = new CubeTexture(); + texture.minFilter = NearestFilter; + texture.magFilter = NearestFilter; + + this.createTexture( texture, { width: 1, height: 1, depth: 6 } ); + + this.defaultCubeTexture[ format ] = defaultCubeTexture = texture; + + } + + return this.backend.get( defaultCubeTexture ).texture; + + } + + _copyCubeMapToTexture( images, textureGPU, textureDescriptorGPU, flipY ) { + + for ( let i = 0; i < 6; i ++ ) { + + const image = images[ i ]; + + const flipIndex = flipY === true ? _flipMap[ i ] : i; + + if ( image.isDataTexture ) { + + this._copyBufferToTexture( image.image, textureGPU, textureDescriptorGPU, flipIndex, flipY ); + + } else { + + this._copyImageToTexture( image, textureGPU, textureDescriptorGPU, flipIndex, flipY ); + + } + + } + + } + + _copyImageToTexture( image, textureGPU, textureDescriptorGPU, originDepth, flipY ) { + + const device = this.backend.device; + + device.queue.copyExternalImageToTexture( + { + source: image + }, { + texture: textureGPU, + mipLevel: 0, + origin: { x: 0, y: 0, z: originDepth } + }, { + width: image.width, + height: image.height, + depthOrArrayLayers: 1 + } + ); + + if ( flipY === true ) { + + this._flipY( textureGPU, textureDescriptorGPU, originDepth ); + + } + + } + + _getPassUtils() { + + let passUtils = this._passUtils; + + if ( passUtils === null ) { + + this._passUtils = passUtils = new WebGPUTexturePassUtils( this.backend.device ); + + } + + return passUtils; + + } + + _generateMipmaps( textureGPU, textureDescriptorGPU, baseArrayLayer = 0 ) { + + this._getPassUtils().generateMipmaps( textureGPU, textureDescriptorGPU, baseArrayLayer ); + + } + + _flipY( textureGPU, textureDescriptorGPU, originDepth = 0 ) { + + this._getPassUtils().flipY( textureGPU, textureDescriptorGPU, originDepth ); + + } + + _copyBufferToTexture( image, textureGPU, textureDescriptorGPU, originDepth, flipY, depth = 0 ) { + + // @TODO: Consider to use GPUCommandEncoder.copyBufferToTexture() + // @TODO: Consider to support valid buffer layouts with other formats like RGB + + const device = this.backend.device; + + const data = image.data; + + const bytesPerTexel = this._getBytesPerTexel( textureDescriptorGPU.format ); + const bytesPerRow = image.width * bytesPerTexel; + + device.queue.writeTexture( + { + texture: textureGPU, + mipLevel: 0, + origin: { x: 0, y: 0, z: originDepth } + }, + data, + { + offset: image.width * image.height * bytesPerTexel * depth, + bytesPerRow + }, + { + width: image.width, + height: image.height, + depthOrArrayLayers: 1 + } ); + + if ( flipY === true ) { + + this._flipY( textureGPU, textureDescriptorGPU, originDepth ); + + } + + } + + _copyCompressedBufferToTexture( mipmaps, textureGPU, textureDescriptorGPU ) { + + // @TODO: Consider to use GPUCommandEncoder.copyBufferToTexture() + + const device = this.backend.device; + + const blockData = this._getBlockData( textureDescriptorGPU.format ); + + for ( let i = 0; i < mipmaps.length; i ++ ) { + + const mipmap = mipmaps[ i ]; + + const width = mipmap.width; + const height = mipmap.height; + + const bytesPerRow = Math.ceil( width / blockData.width ) * blockData.byteLength; + + device.queue.writeTexture( + { + texture: textureGPU, + mipLevel: i + }, + mipmap.data, + { + offset: 0, + bytesPerRow + }, + { + width: Math.ceil( width / blockData.width ) * blockData.width, + height: Math.ceil( height / blockData.width ) * blockData.width, + depthOrArrayLayers: 1 + } + ); + + } + + } + + _getBlockData( format ) { + + // this method is only relevant for compressed texture formats + + if ( format === GPUTextureFormat.BC1RGBAUnorm || format === GPUTextureFormat.BC1RGBAUnormSRGB ) return { byteLength: 8, width: 4, height: 4 }; // DXT1 + if ( format === GPUTextureFormat.BC2RGBAUnorm || format === GPUTextureFormat.BC2RGBAUnormSRGB ) return { byteLength: 16, width: 4, height: 4 }; // DXT3 + if ( format === GPUTextureFormat.BC3RGBAUnorm || format === GPUTextureFormat.BC3RGBAUnormSRGB ) return { byteLength: 16, width: 4, height: 4 }; // DXT5 + if ( format === GPUTextureFormat.BC4RUnorm || format === GPUTextureFormat.BC4RSNorm ) return { byteLength: 8, width: 4, height: 4 }; // RGTC1 + if ( format === GPUTextureFormat.BC5RGUnorm || format === GPUTextureFormat.BC5RGSnorm ) return { byteLength: 16, width: 4, height: 4 }; // RGTC2 + if ( format === GPUTextureFormat.BC6HRGBUFloat || format === GPUTextureFormat.BC6HRGBFloat ) return { byteLength: 16, width: 4, height: 4 }; // BPTC (float) + if ( format === GPUTextureFormat.BC7RGBAUnorm || format === GPUTextureFormat.BC7RGBAUnormSRGB ) return { byteLength: 16, width: 4, height: 4 }; // BPTC (unorm) + + if ( format === GPUTextureFormat.ETC2RGB8Unorm || format === GPUTextureFormat.ETC2RGB8UnormSRGB ) return { byteLength: 8, width: 4, height: 4 }; + if ( format === GPUTextureFormat.ETC2RGB8A1Unorm || format === GPUTextureFormat.ETC2RGB8A1UnormSRGB ) return { byteLength: 8, width: 4, height: 4 }; + if ( format === GPUTextureFormat.ETC2RGBA8Unorm || format === GPUTextureFormat.ETC2RGBA8UnormSRGB ) return { byteLength: 16, width: 4, height: 4 }; + if ( format === GPUTextureFormat.EACR11Unorm ) return { byteLength: 8, width: 4, height: 4 }; + if ( format === GPUTextureFormat.EACR11Snorm ) return { byteLength: 8, width: 4, height: 4 }; + if ( format === GPUTextureFormat.EACRG11Unorm ) return { byteLength: 16, width: 4, height: 4 }; + if ( format === GPUTextureFormat.EACRG11Snorm ) return { byteLength: 16, width: 4, height: 4 }; + + if ( format === GPUTextureFormat.ASTC4x4Unorm || format === GPUTextureFormat.ASTC4x4UnormSRGB ) return { byteLength: 16, width: 4, height: 4 }; + if ( format === GPUTextureFormat.ASTC5x4Unorm || format === GPUTextureFormat.ASTC5x4UnormSRGB ) return { byteLength: 16, width: 5, height: 4 }; + if ( format === GPUTextureFormat.ASTC5x5Unorm || format === GPUTextureFormat.ASTC5x5UnormSRGB ) return { byteLength: 16, width: 5, height: 5 }; + if ( format === GPUTextureFormat.ASTC6x5Unorm || format === GPUTextureFormat.ASTC6x5UnormSRGB ) return { byteLength: 16, width: 6, height: 5 }; + if ( format === GPUTextureFormat.ASTC6x6Unorm || format === GPUTextureFormat.ASTC6x6UnormSRGB ) return { byteLength: 16, width: 6, height: 6 }; + if ( format === GPUTextureFormat.ASTC8x5Unorm || format === GPUTextureFormat.ASTC8x5UnormSRGB ) return { byteLength: 16, width: 8, height: 5 }; + if ( format === GPUTextureFormat.ASTC8x6Unorm || format === GPUTextureFormat.ASTC8x6UnormSRGB ) return { byteLength: 16, width: 8, height: 6 }; + if ( format === GPUTextureFormat.ASTC8x8Unorm || format === GPUTextureFormat.ASTC8x8UnormSRGB ) return { byteLength: 16, width: 8, height: 8 }; + if ( format === GPUTextureFormat.ASTC10x5Unorm || format === GPUTextureFormat.ASTC10x5UnormSRGB ) return { byteLength: 16, width: 10, height: 5 }; + if ( format === GPUTextureFormat.ASTC10x6Unorm || format === GPUTextureFormat.ASTC10x6UnormSRGB ) return { byteLength: 16, width: 10, height: 6 }; + if ( format === GPUTextureFormat.ASTC10x8Unorm || format === GPUTextureFormat.ASTC10x8UnormSRGB ) return { byteLength: 16, width: 10, height: 8 }; + if ( format === GPUTextureFormat.ASTC10x10Unorm || format === GPUTextureFormat.ASTC10x10UnormSRGB ) return { byteLength: 16, width: 10, height: 10 }; + if ( format === GPUTextureFormat.ASTC12x10Unorm || format === GPUTextureFormat.ASTC12x10UnormSRGB ) return { byteLength: 16, width: 12, height: 10 }; + if ( format === GPUTextureFormat.ASTC12x12Unorm || format === GPUTextureFormat.ASTC12x12UnormSRGB ) return { byteLength: 16, width: 12, height: 12 }; + + } + + _convertAddressMode( value ) { + + let addressMode = GPUAddressMode.ClampToEdge; + + if ( value === RepeatWrapping ) { + + addressMode = GPUAddressMode.Repeat; + + } else if ( value === MirroredRepeatWrapping ) { + + addressMode = GPUAddressMode.MirrorRepeat; + + } + + return addressMode; + + } + + _convertFilterMode( value ) { + + let filterMode = GPUFilterMode.Linear; + + if ( value === NearestFilter || value === NearestMipmapNearestFilter || value === NearestMipmapLinearFilter ) { + + filterMode = GPUFilterMode.Nearest; + + } + + return filterMode; + + } + + _getBytesPerTexel( format ) { + + // 8-bit formats + if ( format === GPUTextureFormat.R8Unorm || + format === GPUTextureFormat.R8Snorm || + format === GPUTextureFormat.R8Uint || + format === GPUTextureFormat.R8Sint ) return 1; + + // 16-bit formats + if ( format === GPUTextureFormat.R16Uint || + format === GPUTextureFormat.R16Sint || + format === GPUTextureFormat.R16Float || + format === GPUTextureFormat.RG8Unorm || + format === GPUTextureFormat.RG8Snorm || + format === GPUTextureFormat.RG8Uint || + format === GPUTextureFormat.RG8Sint ) return 2; + + // 32-bit formats + if ( format === GPUTextureFormat.R32Uint || + format === GPUTextureFormat.R32Sint || + format === GPUTextureFormat.R32Float || + format === GPUTextureFormat.RG16Uint || + format === GPUTextureFormat.RG16Sint || + format === GPUTextureFormat.RG16Float || + format === GPUTextureFormat.RGBA8Unorm || + format === GPUTextureFormat.RGBA8UnormSRGB || + format === GPUTextureFormat.RGBA8Snorm || + format === GPUTextureFormat.RGBA8Uint || + format === GPUTextureFormat.RGBA8Sint || + format === GPUTextureFormat.BGRA8Unorm || + format === GPUTextureFormat.BGRA8UnormSRGB || + // Packed 32-bit formats + format === GPUTextureFormat.RGB9E5UFloat || + format === GPUTextureFormat.RGB10A2Unorm || + format === GPUTextureFormat.RG11B10UFloat || + format === GPUTextureFormat.Depth32Float || + format === GPUTextureFormat.Depth24Plus || + format === GPUTextureFormat.Depth24PlusStencil8 || + format === GPUTextureFormat.Depth32FloatStencil8 ) return 4; + + // 64-bit formats + if ( format === GPUTextureFormat.RG32Uint || + format === GPUTextureFormat.RG32Sint || + format === GPUTextureFormat.RG32Float || + format === GPUTextureFormat.RGBA16Uint || + format === GPUTextureFormat.RGBA16Sint || + format === GPUTextureFormat.RGBA16Float ) return 8; + + // 128-bit formats + if ( format === GPUTextureFormat.RGBA32Uint || + format === GPUTextureFormat.RGBA32Sint || + format === GPUTextureFormat.RGBA32Float ) return 16; + + + } + + _getTypedArrayType( format ) { + + if ( format === GPUTextureFormat.R8Uint ) return Uint8Array; + if ( format === GPUTextureFormat.R8Sint ) return Int8Array; + if ( format === GPUTextureFormat.R8Unorm ) return Uint8Array; + if ( format === GPUTextureFormat.R8Snorm ) return Int8Array; + if ( format === GPUTextureFormat.RG8Uint ) return Uint8Array; + if ( format === GPUTextureFormat.RG8Sint ) return Int8Array; + if ( format === GPUTextureFormat.RG8Unorm ) return Uint8Array; + if ( format === GPUTextureFormat.RG8Snorm ) return Int8Array; + if ( format === GPUTextureFormat.RGBA8Uint ) return Uint8Array; + if ( format === GPUTextureFormat.RGBA8Sint ) return Int8Array; + if ( format === GPUTextureFormat.RGBA8Unorm ) return Uint8Array; + if ( format === GPUTextureFormat.RGBA8Snorm ) return Int8Array; + + + if ( format === GPUTextureFormat.R16Uint ) return Uint16Array; + if ( format === GPUTextureFormat.R16Sint ) return Int16Array; + if ( format === GPUTextureFormat.RG16Uint ) return Uint16Array; + if ( format === GPUTextureFormat.RG16Sint ) return Int16Array; + if ( format === GPUTextureFormat.RGBA16Uint ) return Uint16Array; + if ( format === GPUTextureFormat.RGBA16Sint ) return Int16Array; + if ( format === GPUTextureFormat.R16Float ) return Float32Array; + if ( format === GPUTextureFormat.RG16Float ) return Float32Array; + if ( format === GPUTextureFormat.RGBA16Float ) return Float32Array; + + + if ( format === GPUTextureFormat.R32Uint ) return Uint32Array; + if ( format === GPUTextureFormat.R32Sint ) return Int32Array; + if ( format === GPUTextureFormat.R32Float ) return Float32Array; + if ( format === GPUTextureFormat.RG32Uint ) return Uint32Array; + if ( format === GPUTextureFormat.RG32Sint ) return Int32Array; + if ( format === GPUTextureFormat.RG32Float ) return Float32Array; + if ( format === GPUTextureFormat.RGBA32Uint ) return Uint32Array; + if ( format === GPUTextureFormat.RGBA32Sint ) return Int32Array; + if ( format === GPUTextureFormat.RGBA32Float ) return Float32Array; + + if ( format === GPUTextureFormat.BGRA8Unorm ) return Uint8Array; + if ( format === GPUTextureFormat.BGRA8UnormSRGB ) return Uint8Array; + if ( format === GPUTextureFormat.RGB10A2Unorm ) return Uint32Array; + if ( format === GPUTextureFormat.RGB9E5UFloat ) return Uint32Array; + if ( format === GPUTextureFormat.RG11B10UFloat ) return Uint32Array; + + if ( format === GPUTextureFormat.Depth32Float ) return Float32Array; + if ( format === GPUTextureFormat.Depth24Plus ) return Uint32Array; + if ( format === GPUTextureFormat.Depth24PlusStencil8 ) return Uint32Array; + if ( format === GPUTextureFormat.Depth32FloatStencil8 ) return Float32Array; + + } + + _getDimension( texture ) { + + let dimension; + + if ( texture.isData3DTexture ) { + + dimension = GPUTextureDimension.ThreeD; + + } else { + + dimension = GPUTextureDimension.TwoD; + + } + + return dimension; + + } + +} + +function getFormat( texture, device = null ) { + + const format = texture.format; + const type = texture.type; + const colorSpace = texture.colorSpace; + + let formatGPU; + + if ( texture.isFramebufferTexture === true && texture.type === UnsignedByteType ) { + + formatGPU = GPUTextureFormat.BGRA8Unorm; + + } else if ( texture.isCompressedTexture === true ) { + + switch ( format ) { + + case RGBA_S3TC_DXT1_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.BC1RGBAUnormSRGB : GPUTextureFormat.BC1RGBAUnorm; + break; + + case RGBA_S3TC_DXT3_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.BC2RGBAUnormSRGB : GPUTextureFormat.BC2RGBAUnorm; + break; + + case RGBA_S3TC_DXT5_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.BC3RGBAUnormSRGB : GPUTextureFormat.BC3RGBAUnorm; + break; + + case RGB_ETC2_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ETC2RGB8UnormSRGB : GPUTextureFormat.ETC2RGB8Unorm; + break; + + case RGBA_ETC2_EAC_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ETC2RGBA8UnormSRGB : GPUTextureFormat.ETC2RGBA8Unorm; + break; + + case RGBA_ASTC_4x4_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ASTC4x4UnormSRGB : GPUTextureFormat.ASTC4x4Unorm; + break; + + case RGBA_ASTC_5x4_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ASTC5x4UnormSRGB : GPUTextureFormat.ASTC5x4Unorm; + break; + + case RGBA_ASTC_5x5_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ASTC5x5UnormSRGB : GPUTextureFormat.ASTC5x5Unorm; + break; + + case RGBA_ASTC_6x5_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ASTC6x5UnormSRGB : GPUTextureFormat.ASTC6x5Unorm; + break; + + case RGBA_ASTC_6x6_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ASTC6x6UnormSRGB : GPUTextureFormat.ASTC6x6Unorm; + break; + + case RGBA_ASTC_8x5_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ASTC8x5UnormSRGB : GPUTextureFormat.ASTC8x5Unorm; + break; + + case RGBA_ASTC_8x6_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ASTC8x6UnormSRGB : GPUTextureFormat.ASTC8x6Unorm; + break; + + case RGBA_ASTC_8x8_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ASTC8x8UnormSRGB : GPUTextureFormat.ASTC8x8Unorm; + break; + + case RGBA_ASTC_10x5_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ASTC10x5UnormSRGB : GPUTextureFormat.ASTC10x5Unorm; + break; + + case RGBA_ASTC_10x6_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ASTC10x6UnormSRGB : GPUTextureFormat.ASTC10x6Unorm; + break; + + case RGBA_ASTC_10x8_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ASTC10x8UnormSRGB : GPUTextureFormat.ASTC10x8Unorm; + break; + + case RGBA_ASTC_10x10_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ASTC10x10UnormSRGB : GPUTextureFormat.ASTC10x10Unorm; + break; + + case RGBA_ASTC_12x10_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ASTC12x10UnormSRGB : GPUTextureFormat.ASTC12x10Unorm; + break; + + case RGBA_ASTC_12x12_Format: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.ASTC12x12UnormSRGB : GPUTextureFormat.ASTC12x12Unorm; + break; + + default: + console.error( 'WebGPURenderer: Unsupported texture format.', format ); + + } + + } else { + + switch ( format ) { + + case RGBAFormat: + + switch ( type ) { + + case ByteType: + formatGPU = GPUTextureFormat.RGBA8Snorm; + break; + + case ShortType: + formatGPU = GPUTextureFormat.RGBA16Sint; + break; + + case UnsignedShortType: + formatGPU = GPUTextureFormat.RGBA16Uint; + break; + case UnsignedIntType: + formatGPU = GPUTextureFormat.RGBA32Uint; + break; + + case IntType: + formatGPU = GPUTextureFormat.RGBA32Sint; + break; + + case UnsignedByteType: + formatGPU = ( colorSpace === SRGBColorSpace ) ? GPUTextureFormat.RGBA8UnormSRGB : GPUTextureFormat.RGBA8Unorm; + break; + + case HalfFloatType: + formatGPU = GPUTextureFormat.RGBA16Float; + break; + + case FloatType: + formatGPU = GPUTextureFormat.RGBA32Float; + break; + + default: + console.error( 'WebGPURenderer: Unsupported texture type with RGBAFormat.', type ); + + } + + break; + + case RGBFormat: + + switch ( type ) { + + case UnsignedInt5999Type: + formatGPU = GPUTextureFormat.RGB9E5UFloat; + break; + + default: + console.error( 'WebGPURenderer: Unsupported texture type with RGBFormat.', type ); + + } + + break; + + case RedFormat: + + switch ( type ) { + + case ByteType: + formatGPU = GPUTextureFormat.R8Snorm; + break; + + case ShortType: + formatGPU = GPUTextureFormat.R16Sint; + break; + + case UnsignedShortType: + formatGPU = GPUTextureFormat.R16Uint; + break; + + case UnsignedIntType: + formatGPU = GPUTextureFormat.R32Uint; + break; + + case IntType: + formatGPU = GPUTextureFormat.R32Sint; + break; + + case UnsignedByteType: + formatGPU = GPUTextureFormat.R8Unorm; + break; + + case HalfFloatType: + formatGPU = GPUTextureFormat.R16Float; + break; + + case FloatType: + formatGPU = GPUTextureFormat.R32Float; + break; + + default: + console.error( 'WebGPURenderer: Unsupported texture type with RedFormat.', type ); + + } + + break; + + case RGFormat: + + switch ( type ) { + + case ByteType: + formatGPU = GPUTextureFormat.RG8Snorm; + break; + + case ShortType: + formatGPU = GPUTextureFormat.RG16Sint; + break; + + case UnsignedShortType: + formatGPU = GPUTextureFormat.RG16Uint; + break; + + case UnsignedIntType: + formatGPU = GPUTextureFormat.RG32Uint; + break; + + case IntType: + formatGPU = GPUTextureFormat.RG32Sint; + break; + + case UnsignedByteType: + formatGPU = GPUTextureFormat.RG8Unorm; + break; + + case HalfFloatType: + formatGPU = GPUTextureFormat.RG16Float; + break; + + case FloatType: + formatGPU = GPUTextureFormat.RG32Float; + break; + + default: + console.error( 'WebGPURenderer: Unsupported texture type with RGFormat.', type ); + + } + + break; + + case DepthFormat: + + switch ( type ) { + + case UnsignedShortType: + formatGPU = GPUTextureFormat.Depth16Unorm; + break; + + case UnsignedIntType: + formatGPU = GPUTextureFormat.Depth24Plus; + break; + + case FloatType: + formatGPU = GPUTextureFormat.Depth32Float; + break; + + default: + console.error( 'WebGPURenderer: Unsupported texture type with DepthFormat.', type ); + + } + + break; + + case DepthStencilFormat: + + switch ( type ) { + + case UnsignedInt248Type: + formatGPU = GPUTextureFormat.Depth24PlusStencil8; + break; + + case FloatType: + + if ( device && device.features.has( GPUFeatureName.Depth32FloatStencil8 ) === false ) { + + console.error( 'WebGPURenderer: Depth textures with DepthStencilFormat + FloatType can only be used with the "depth32float-stencil8" GPU feature.' ); + + } + + formatGPU = GPUTextureFormat.Depth32FloatStencil8; + + break; + + default: + console.error( 'WebGPURenderer: Unsupported texture type with DepthStencilFormat.', type ); + + } + + break; + + case RedIntegerFormat: + + switch ( type ) { + + case IntType: + formatGPU = GPUTextureFormat.R32Sint; + break; + + case UnsignedIntType: + formatGPU = GPUTextureFormat.R32Uint; + break; + + default: + console.error( 'WebGPURenderer: Unsupported texture type with RedIntegerFormat.', type ); + + } + + break; + + case RGIntegerFormat: + + switch ( type ) { + + case IntType: + formatGPU = GPUTextureFormat.RG32Sint; + break; + + case UnsignedIntType: + formatGPU = GPUTextureFormat.RG32Uint; + break; + + default: + console.error( 'WebGPURenderer: Unsupported texture type with RGIntegerFormat.', type ); + + } + + break; + + case RGBAIntegerFormat: + + switch ( type ) { + + case IntType: + formatGPU = GPUTextureFormat.RGBA32Sint; + break; + + case UnsignedIntType: + formatGPU = GPUTextureFormat.RGBA32Uint; + break; + + default: + console.error( 'WebGPURenderer: Unsupported texture type with RGBAIntegerFormat.', type ); + + } + + break; + + default: + console.error( 'WebGPURenderer: Unsupported texture format.', format ); + + } + + } + + return formatGPU; + +} + +const declarationRegexp = /^[fn]*\s*([a-z_0-9]+)?\s*\(([\s\S]*?)\)\s*[\-\>]*\s*([a-z_0-9]+(?:<[\s\S]+?>)?)/i; +const propertiesRegexp = /([a-z_0-9]+)\s*:\s*([a-z_0-9]+(?:<[\s\S]+?>)?)/ig; + +const wgslTypeLib$1 = { + 'f32': 'float', + 'i32': 'int', + 'u32': 'uint', + 'bool': 'bool', + + 'vec2': 'vec2', + 'vec2': 'ivec2', + 'vec2': 'uvec2', + 'vec2': 'bvec2', + + 'vec2f': 'vec2', + 'vec2i': 'ivec2', + 'vec2u': 'uvec2', + 'vec2b': 'bvec2', + + 'vec3': 'vec3', + 'vec3': 'ivec3', + 'vec3': 'uvec3', + 'vec3': 'bvec3', + + 'vec3f': 'vec3', + 'vec3i': 'ivec3', + 'vec3u': 'uvec3', + 'vec3b': 'bvec3', + + 'vec4': 'vec4', + 'vec4': 'ivec4', + 'vec4': 'uvec4', + 'vec4': 'bvec4', + + 'vec4f': 'vec4', + 'vec4i': 'ivec4', + 'vec4u': 'uvec4', + 'vec4b': 'bvec4', + + 'mat2x2': 'mat2', + 'mat2x2f': 'mat2', + + 'mat3x3': 'mat3', + 'mat3x3f': 'mat3', + + 'mat4x4': 'mat4', + 'mat4x4f': 'mat4', + + 'sampler': 'sampler', + 'texture_2d': 'texture', + 'texture_cube': 'cubeTexture', + 'texture_depth_2d': 'depthTexture', + 'texture_storage_2d': 'storageTexture', + 'texture_3d': 'texture3D' + +}; + +const parse = ( source ) => { + + source = source.trim(); + + const declaration = source.match( declarationRegexp ); + + if ( declaration !== null && declaration.length === 4 ) { + + const inputsCode = declaration[ 2 ]; + const propsMatches = []; + let match = null; + + while ( ( match = propertiesRegexp.exec( inputsCode ) ) !== null ) { + + propsMatches.push( { name: match[ 1 ], type: match[ 2 ] } ); + + } + + // Process matches to correctly pair names and types + const inputs = []; + for ( let i = 0; i < propsMatches.length; i ++ ) { + + const { name, type } = propsMatches[ i ]; + + let resolvedType = type; + + if ( resolvedType.startsWith( 'texture' ) ) { + + resolvedType = type.split( '<' )[ 0 ]; + + } + + resolvedType = wgslTypeLib$1[ resolvedType ] || resolvedType; + + inputs.push( new NodeFunctionInput( resolvedType, name ) ); + + } + + const blockCode = source.substring( declaration[ 0 ].length ); + const outputType = declaration[ 3 ] || 'void'; + + const name = declaration[ 1 ] !== undefined ? declaration[ 1 ] : ''; + const type = wgslTypeLib$1[ outputType ] || outputType; + + return { + type, + inputs, + name, + inputsCode, + blockCode, + outputType + }; + + } else { + + throw new Error( 'FunctionNode: Function is not a WGSL code.' ); + + } + +}; + +class WGSLNodeFunction extends NodeFunction { + + constructor( source ) { + + const { type, inputs, name, inputsCode, blockCode, outputType } = parse( source ); + + super( type, inputs, name ); + + this.inputsCode = inputsCode; + this.blockCode = blockCode; + this.outputType = outputType; + + } + + getCode( name = this.name ) { + + const outputType = this.outputType !== 'void' ? '-> ' + this.outputType : ''; + + return `fn ${ name } ( ${ this.inputsCode.trim() } ) ${ outputType }` + this.blockCode; + + } + +} + +class WGSLNodeParser extends NodeParser { + + parseFunction( source ) { + + return new WGSLNodeFunction( source ); + + } + +} + +// GPUShaderStage is not defined in browsers not supporting WebGPU +const GPUShaderStage = self.GPUShaderStage; + +const gpuShaderStageLib = { + 'vertex': GPUShaderStage ? GPUShaderStage.VERTEX : 1, + 'fragment': GPUShaderStage ? GPUShaderStage.FRAGMENT : 2, + 'compute': GPUShaderStage ? GPUShaderStage.COMPUTE : 4 +}; + +const supports = { + instance: true, + swizzleAssign: false, + storageBuffer: true +}; + +const wgslFnOpLib = { + '^^': 'threejs_xor' +}; + +const wgslTypeLib = { + float: 'f32', + int: 'i32', + uint: 'u32', + bool: 'bool', + color: 'vec3', + + vec2: 'vec2', + ivec2: 'vec2', + uvec2: 'vec2', + bvec2: 'vec2', + + vec3: 'vec3', + ivec3: 'vec3', + uvec3: 'vec3', + bvec3: 'vec3', + + vec4: 'vec4', + ivec4: 'vec4', + uvec4: 'vec4', + bvec4: 'vec4', + + mat2: 'mat2x2', + imat2: 'mat2x2', + umat2: 'mat2x2', + bmat2: 'mat2x2', + + mat3: 'mat3x3', + imat3: 'mat3x3', + umat3: 'mat3x3', + bmat3: 'mat3x3', + + mat4: 'mat4x4', + imat4: 'mat4x4', + umat4: 'mat4x4', + bmat4: 'mat4x4' +}; + +const wgslMethods = { + dFdx: 'dpdx', + dFdy: '- dpdy', + mod_float: 'threejs_mod_float', + mod_vec2: 'threejs_mod_vec2', + mod_vec3: 'threejs_mod_vec3', + mod_vec4: 'threejs_mod_vec4', + equals_bool: 'threejs_equals_bool', + equals_bvec2: 'threejs_equals_bvec2', + equals_bvec3: 'threejs_equals_bvec3', + equals_bvec4: 'threejs_equals_bvec4', + lessThanEqual: 'threejs_lessThanEqual', + greaterThan: 'threejs_greaterThan', + inversesqrt: 'inverseSqrt', + bitcast: 'bitcast' +}; + +const wgslPolyfill = { + threejs_xor: new CodeNode( ` +fn threejs_xor( a : bool, b : bool ) -> bool { + + return ( a || b ) && !( a && b ); + +} +` ), + lessThanEqual: new CodeNode( ` +fn threejs_lessThanEqual( a : vec3, b : vec3 ) -> vec3 { + + return vec3( a.x <= b.x, a.y <= b.y, a.z <= b.z ); + +} +` ), + greaterThan: new CodeNode( ` +fn threejs_greaterThan( a : vec3, b : vec3 ) -> vec3 { + + return vec3( a.x > b.x, a.y > b.y, a.z > b.z ); + +} +` ), + mod_float: new CodeNode( 'fn threejs_mod_float( x : f32, y : f32 ) -> f32 { return x - y * floor( x / y ); }' ), + mod_vec2: new CodeNode( 'fn threejs_mod_vec2( x : vec2f, y : vec2f ) -> vec2f { return x - y * floor( x / y ); }' ), + mod_vec3: new CodeNode( 'fn threejs_mod_vec3( x : vec3f, y : vec3f ) -> vec3f { return x - y * floor( x / y ); }' ), + mod_vec4: new CodeNode( 'fn threejs_mod_vec4( x : vec4f, y : vec4f ) -> vec4f { return x - y * floor( x / y ); }' ), + equals_bool: new CodeNode( 'fn threejs_equals_bool( a : bool, b : bool ) -> bool { return a == b; }' ), + equals_bvec2: new CodeNode( 'fn threejs_equals_bvec2( a : vec2f, b : vec2f ) -> vec2 { return vec2( a.x == b.x, a.y == b.y ); }' ), + equals_bvec3: new CodeNode( 'fn threejs_equals_bvec3( a : vec3f, b : vec3f ) -> vec3 { return vec3( a.x == b.x, a.y == b.y, a.z == b.z ); }' ), + equals_bvec4: new CodeNode( 'fn threejs_equals_bvec4( a : vec4f, b : vec4f ) -> vec4 { return vec4( a.x == b.x, a.y == b.y, a.z == b.z, a.w == b.w ); }' ), + repeatWrapping: new CodeNode( ` +fn threejs_repeatWrapping( uv : vec2, dimension : vec2 ) -> vec2 { + + let uvScaled = vec2( uv * vec2( dimension ) ); + + return ( ( uvScaled % dimension ) + dimension ) % dimension; + +} +` ), + biquadraticTexture: new CodeNode( ` +fn threejs_biquadraticTexture( map : texture_2d, coord : vec2f, level : i32 ) -> vec4f { + + let res = vec2f( textureDimensions( map, level ) ); + + let uvScaled = coord * res; + let uvWrapping = ( ( uvScaled % res ) + res ) % res; + + // https://www.shadertoy.com/view/WtyXRy + + let uv = uvWrapping - 0.5; + let iuv = floor( uv ); + let f = fract( uv ); + + let rg1 = textureLoad( map, vec2i( iuv + vec2( 0.5, 0.5 ) ), level ); + let rg2 = textureLoad( map, vec2i( iuv + vec2( 1.5, 0.5 ) ), level ); + let rg3 = textureLoad( map, vec2i( iuv + vec2( 0.5, 1.5 ) ), level ); + let rg4 = textureLoad( map, vec2i( iuv + vec2( 1.5, 1.5 ) ), level ); + + return mix( mix( rg1, rg2, f.x ), mix( rg3, rg4, f.x ), f.y ); + +} +` ) +}; + +class WGSLNodeBuilder extends NodeBuilder { + + constructor( object, renderer ) { + + super( object, renderer, new WGSLNodeParser() ); + + this.uniformGroups = {}; + + this.builtins = {}; + + } + + needsColorSpaceToLinear( texture ) { + + return texture.isVideoTexture === true && texture.colorSpace !== NoColorSpace; + + } + + _generateTextureSample( texture, textureProperty, uvSnippet, depthSnippet, shaderStage = this.shaderStage ) { + + if ( shaderStage === 'fragment' ) { + + if ( depthSnippet ) { + + return `textureSample( ${ textureProperty }, ${ textureProperty }_sampler, ${ uvSnippet }, ${ depthSnippet } )`; + + } else { + + return `textureSample( ${ textureProperty }, ${ textureProperty }_sampler, ${ uvSnippet } )`; + + } + + } else if ( this.isFilteredTexture( texture ) ) { + + return this.generateFilteredTexture( texture, textureProperty, uvSnippet ); + + } else { + + return this.generateTextureLod( texture, textureProperty, uvSnippet, '0' ); + + } + + } + + _generateVideoSample( textureProperty, uvSnippet, shaderStage = this.shaderStage ) { + + if ( shaderStage === 'fragment' ) { + + return `textureSampleBaseClampToEdge( ${ textureProperty }, ${ textureProperty }_sampler, vec2( ${ uvSnippet }.x, 1.0 - ${ uvSnippet }.y ) )`; + + } else { + + console.error( `WebGPURenderer: THREE.VideoTexture does not support ${ shaderStage } shader.` ); + + } + + } + + _generateTextureSampleLevel( texture, textureProperty, uvSnippet, levelSnippet, depthSnippet, shaderStage = this.shaderStage ) { + + if ( shaderStage === 'fragment' && this.isUnfilterable( texture ) === false ) { + + return `textureSampleLevel( ${ textureProperty }, ${ textureProperty }_sampler, ${ uvSnippet }, ${ levelSnippet } )`; + + } else if ( this.isFilteredTexture( texture ) ) { + + return this.generateFilteredTexture( texture, textureProperty, uvSnippet, levelSnippet ); + + } else { + + return this.generateTextureLod( texture, textureProperty, uvSnippet, levelSnippet ); + + } + + } + + generateFilteredTexture( texture, textureProperty, uvSnippet, levelSnippet = '0' ) { + + this._include( 'biquadraticTexture' ); + + return `threejs_biquadraticTexture( ${ textureProperty }, ${ uvSnippet }, i32( ${ levelSnippet } ) )`; + + } + + generateTextureLod( texture, textureProperty, uvSnippet, levelSnippet = '0' ) { + + this._include( 'repeatWrapping' ); + + const dimension = `textureDimensions( ${ textureProperty }, 0 )`; + + return `textureLoad( ${ textureProperty }, threejs_repeatWrapping( ${ uvSnippet }, ${ dimension } ), i32( ${ levelSnippet } ) )`; + + } + + generateTextureLoad( texture, textureProperty, uvIndexSnippet, depthSnippet, levelSnippet = '0u' ) { + + if ( depthSnippet ) { + + return `textureLoad( ${ textureProperty }, ${ uvIndexSnippet }, ${ depthSnippet }, ${ levelSnippet } )`; + + } else { + + return `textureLoad( ${ textureProperty }, ${ uvIndexSnippet }, ${ levelSnippet } )`; + + } + + } + + generateTextureStore( texture, textureProperty, uvIndexSnippet, valueSnippet ) { + + return `textureStore( ${ textureProperty }, ${ uvIndexSnippet }, ${ valueSnippet } )`; + + } + + isUnfilterable( texture ) { + + return this.getComponentTypeFromTexture( texture ) !== 'float' || ( texture.isDataTexture === true && texture.type === FloatType ); + + } + + generateTexture( texture, textureProperty, uvSnippet, depthSnippet, shaderStage = this.shaderStage ) { + + let snippet = null; + + if ( texture.isVideoTexture === true ) { + + snippet = this._generateVideoSample( textureProperty, uvSnippet, shaderStage ); + + } else if ( this.isUnfilterable( texture ) ) { + + snippet = this.generateTextureLod( texture, textureProperty, uvSnippet, '0', depthSnippet, shaderStage ); + + } else { + + snippet = this._generateTextureSample( texture, textureProperty, uvSnippet, depthSnippet, shaderStage ); + + } + + return snippet; + + } + + generateTextureGrad( texture, textureProperty, uvSnippet, gradSnippet, depthSnippet, shaderStage = this.shaderStage ) { + + if ( shaderStage === 'fragment' ) { + + // TODO handle i32 or u32 --> uvSnippet, array_index: A, ddx, ddy + return `textureSampleGrad( ${ textureProperty }, ${ textureProperty }_sampler, ${ uvSnippet }, ${ gradSnippet[ 0 ] }, ${ gradSnippet[ 1 ] } )`; + + } else { + + console.error( `WebGPURenderer: THREE.TextureNode.gradient() does not support ${ shaderStage } shader.` ); + + } + + } + + generateTextureCompare( texture, textureProperty, uvSnippet, compareSnippet, depthSnippet, shaderStage = this.shaderStage ) { + + if ( shaderStage === 'fragment' ) { + + return `textureSampleCompare( ${ textureProperty }, ${ textureProperty }_sampler, ${ uvSnippet }, ${ compareSnippet } )`; + + } else { + + console.error( `WebGPURenderer: THREE.DepthTexture.compareFunction() does not support ${ shaderStage } shader.` ); + + } + + } + + generateTextureLevel( texture, textureProperty, uvSnippet, levelSnippet, depthSnippet, shaderStage = this.shaderStage ) { + + let snippet = null; + + if ( texture.isVideoTexture === true ) { + + snippet = this._generateVideoSample( textureProperty, uvSnippet, shaderStage ); + + } else { + + snippet = this._generateTextureSampleLevel( texture, textureProperty, uvSnippet, levelSnippet, depthSnippet, shaderStage ); + + } + + return snippet; + + } + + getPropertyName( node, shaderStage = this.shaderStage ) { + + if ( node.isNodeVarying === true && node.needsInterpolation === true ) { + + if ( shaderStage === 'vertex' ) { + + return `varyings.${ node.name }`; + + } + + } else if ( node.isNodeUniform === true ) { + + const name = node.name; + const type = node.type; + + if ( type === 'texture' || type === 'cubeTexture' || type === 'storageTexture' || type === 'texture3D' ) { + + return name; + + } else if ( type === 'buffer' || type === 'storageBuffer' ) { + + return `NodeBuffer_${ node.id }.${name}`; + + } else { + + return node.groupNode.name + '.' + name; + + } + + } + + return super.getPropertyName( node ); + + } + + getOutputStructName() { + + return 'output'; + + } + + _getUniformGroupCount( shaderStage ) { + + return Object.keys( this.uniforms[ shaderStage ] ).length; + + } + + getFunctionOperator( op ) { + + const fnOp = wgslFnOpLib[ op ]; + + if ( fnOp !== undefined ) { + + this._include( fnOp ); + + return fnOp; + + } + + return null; + + } + + getStorageAccess( node ) { + + if ( node.isStorageTextureNode ) { + + switch ( node.access ) { + + case GPUStorageTextureAccess.ReadOnly: + + return 'read'; + + case GPUStorageTextureAccess.WriteOnly: + + return 'write'; + + default: + + return 'read_write'; + + } + + } else { + + switch ( node.access ) { + + case GPUBufferBindingType.Storage: + + return 'read_write'; + + + case GPUBufferBindingType.ReadOnlyStorage: + + return 'read'; + + default: + + return 'write'; + + } + + } + + } + + getUniformFromNode( node, type, shaderStage, name = null ) { + + const uniformNode = super.getUniformFromNode( node, type, shaderStage, name ); + const nodeData = this.getDataFromNode( node, shaderStage, this.globalCache ); + + if ( nodeData.uniformGPU === undefined ) { + + let uniformGPU; + + const group = node.groupNode; + const groupName = group.name; + + const bindings = this.getBindGroupArray( groupName, shaderStage ); + + if ( type === 'texture' || type === 'cubeTexture' || type === 'storageTexture' || type === 'texture3D' ) { + + let texture = null; + + if ( type === 'texture' || type === 'storageTexture' ) { + + texture = new NodeSampledTexture( uniformNode.name, uniformNode.node, group, node.access ? node.access : null ); + + } else if ( type === 'cubeTexture' ) { + + texture = new NodeSampledCubeTexture( uniformNode.name, uniformNode.node, group, node.access ? node.access : null ); + + } else if ( type === 'texture3D' ) { + + texture = new NodeSampledTexture3D( uniformNode.name, uniformNode.node, group, node.access ? node.access : null ); + + } + + texture.store = node.isStorageTextureNode === true; + texture.setVisibility( gpuShaderStageLib[ shaderStage ] ); + + if ( shaderStage === 'fragment' && this.isUnfilterable( node.value ) === false && texture.store === false ) { + + const sampler = new NodeSampler( `${uniformNode.name}_sampler`, uniformNode.node, group ); + sampler.setVisibility( gpuShaderStageLib[ shaderStage ] ); + + bindings.push( sampler, texture ); + + uniformGPU = [ sampler, texture ]; + + } else { + + bindings.push( texture ); + + uniformGPU = [ texture ]; + + } + + } else if ( type === 'buffer' || type === 'storageBuffer' ) { + + const bufferClass = type === 'storageBuffer' ? NodeStorageBuffer : NodeUniformBuffer; + const buffer = new bufferClass( node, group ); + buffer.setVisibility( gpuShaderStageLib[ shaderStage ] ); + + bindings.push( buffer ); + + uniformGPU = buffer; + + } else { + + const uniformsStage = this.uniformGroups[ shaderStage ] || ( this.uniformGroups[ shaderStage ] = {} ); + + let uniformsGroup = uniformsStage[ groupName ]; + + if ( uniformsGroup === undefined ) { + + uniformsGroup = new NodeUniformsGroup( groupName, group ); + uniformsGroup.setVisibility( gpuShaderStageLib[ shaderStage ] ); + + uniformsStage[ groupName ] = uniformsGroup; + + bindings.push( uniformsGroup ); + + } + + uniformGPU = this.getNodeUniform( uniformNode, type ); + + uniformsGroup.addUniform( uniformGPU ); + + } + + nodeData.uniformGPU = uniformGPU; + + } + + return uniformNode; + + } + + getBuiltin( name, property, type, shaderStage = this.shaderStage ) { + + const map = this.builtins[ shaderStage ] || ( this.builtins[ shaderStage ] = new Map() ); + + if ( map.has( name ) === false ) { + + map.set( name, { + name, + property, + type + } ); + + } + + return property; + + } + + getVertexIndex() { + + if ( this.shaderStage === 'vertex' ) { + + return this.getBuiltin( 'vertex_index', 'vertexIndex', 'u32', 'attribute' ); + + } + + return 'vertexIndex'; + + } + + buildFunctionCode( shaderNode ) { + + const layout = shaderNode.layout; + const flowData = this.flowShaderNode( shaderNode ); + + const parameters = []; + + for ( const input of layout.inputs ) { + + parameters.push( input.name + ' : ' + this.getType( input.type ) ); + + } + + // + + const code = `fn ${ layout.name }( ${ parameters.join( ', ' ) } ) -> ${ this.getType( layout.type ) } { +${ flowData.vars } +${ flowData.code } + return ${ flowData.result }; + +}`; + + // + + return code; + + } + + getInstanceIndex() { + + if ( this.shaderStage === 'vertex' ) { + + return this.getBuiltin( 'instance_index', 'instanceIndex', 'u32', 'attribute' ); + + } + + return 'instanceIndex'; + + } + + getDrawIndex() { + + return null; + + } + + getFrontFacing() { + + return this.getBuiltin( 'front_facing', 'isFront', 'bool' ); + + } + + getFragCoord() { + + return this.getBuiltin( 'position', 'fragCoord', 'vec4' ) + '.xyz'; + + } + + getFragDepth() { + + return 'output.' + this.getBuiltin( 'frag_depth', 'depth', 'f32', 'output' ); + + } + + isFlipY() { + + return false; + + } + + getBuiltins( shaderStage ) { + + const snippets = []; + const builtins = this.builtins[ shaderStage ]; + + if ( builtins !== undefined ) { + + for ( const { name, property, type } of builtins.values() ) { + + snippets.push( `@builtin( ${name} ) ${property} : ${type}` ); + + } + + } + + return snippets.join( ',\n\t' ); + + } + + getAttributes( shaderStage ) { + + const snippets = []; + + if ( shaderStage === 'compute' ) { + + this.getBuiltin( 'global_invocation_id', 'id', 'vec3', 'attribute' ); + + } + + if ( shaderStage === 'vertex' || shaderStage === 'compute' ) { + + const builtins = this.getBuiltins( 'attribute' ); + + if ( builtins ) snippets.push( builtins ); + + const attributes = this.getAttributesArray(); + + for ( let index = 0, length = attributes.length; index < length; index ++ ) { + + const attribute = attributes[ index ]; + const name = attribute.name; + const type = this.getType( attribute.type ); + + snippets.push( `@location( ${index} ) ${ name } : ${ type }` ); + + } + + } + + return snippets.join( ',\n\t' ); + + } + + getStructMembers( struct ) { + + const snippets = []; + const members = struct.getMemberTypes(); + + for ( let i = 0; i < members.length; i ++ ) { + + const member = members[ i ]; + snippets.push( `\t@location( ${i} ) m${i} : ${ member }` ); + + } + + const builtins = this.getBuiltins( 'output' ); + + if ( builtins ) snippets.push( builtins ); + + return snippets.join( ',\n' ); + + } + + getStructs( shaderStage ) { + + const snippets = []; + const structs = this.structs[ shaderStage ]; + + for ( let index = 0, length = structs.length; index < length; index ++ ) { + + const struct = structs[ index ]; + const name = struct.name; + + let snippet = `\struct ${ name } {\n`; + snippet += this.getStructMembers( struct ); + snippet += '\n}'; + + + snippets.push( snippet ); + + snippets.push( `\nvar output : ${ name };\n\n` ); + + } + + return snippets.join( '\n\n' ); + + } + + getVar( type, name ) { + + return `var ${ name } : ${ this.getType( type ) }`; + + } + + getVars( shaderStage ) { + + const snippets = []; + const vars = this.vars[ shaderStage ]; + + if ( vars !== undefined ) { + + for ( const variable of vars ) { + + snippets.push( `\t${ this.getVar( variable.type, variable.name ) };` ); + + } + + } + + return `\n${ snippets.join( '\n' ) }\n`; + + } + + getVaryings( shaderStage ) { + + const snippets = []; + + if ( shaderStage === 'vertex' ) { + + this.getBuiltin( 'position', 'Vertex', 'vec4', 'vertex' ); + + } + + if ( shaderStage === 'vertex' || shaderStage === 'fragment' ) { + + const varyings = this.varyings; + const vars = this.vars[ shaderStage ]; + + for ( let index = 0; index < varyings.length; index ++ ) { + + const varying = varyings[ index ]; + + if ( varying.needsInterpolation ) { + + let attributesSnippet = `@location( ${index} )`; + + if ( /^(int|uint|ivec|uvec)/.test( varying.type ) ) { + + attributesSnippet += ' @interpolate( flat )'; + + + } + + snippets.push( `${ attributesSnippet } ${ varying.name } : ${ this.getType( varying.type ) }` ); + + } else if ( shaderStage === 'vertex' && vars.includes( varying ) === false ) { + + vars.push( varying ); + + } + + } + + } + + const builtins = this.getBuiltins( shaderStage ); + + if ( builtins ) snippets.push( builtins ); + + const code = snippets.join( ',\n\t' ); + + return shaderStage === 'vertex' ? this._getWGSLStruct( 'VaryingsStruct', '\t' + code ) : code; + + } + + getUniforms( shaderStage ) { + + const uniforms = this.uniforms[ shaderStage ]; + + const bindingSnippets = []; + const bufferSnippets = []; + const structSnippets = []; + const uniformGroups = {}; + + for ( const uniform of uniforms ) { + + const groundName = uniform.groupNode.name; + const uniformIndexes = this.bindingsIndexes[ groundName ]; + + if ( uniform.type === 'texture' || uniform.type === 'cubeTexture' || uniform.type === 'storageTexture' || uniform.type === 'texture3D' ) { + + const texture = uniform.node.value; + + if ( shaderStage === 'fragment' && this.isUnfilterable( texture ) === false && uniform.node.isStorageTextureNode !== true ) { + + if ( texture.isDepthTexture === true && texture.compareFunction !== null ) { + + bindingSnippets.push( `@binding( ${ uniformIndexes.binding ++ } ) @group( ${ uniformIndexes.group } ) var ${ uniform.name }_sampler : sampler_comparison;` ); + + } else { + + bindingSnippets.push( `@binding( ${ uniformIndexes.binding ++ } ) @group( ${ uniformIndexes.group } ) var ${ uniform.name }_sampler : sampler;` ); + + } + + } + + let textureType; + + if ( texture.isCubeTexture === true ) { + + textureType = 'texture_cube'; + + } else if ( texture.isDataArrayTexture === true ) { + + textureType = 'texture_2d_array'; + + } else if ( texture.isDepthTexture === true ) { + + textureType = 'texture_depth_2d'; + + } else if ( texture.isVideoTexture === true ) { + + textureType = 'texture_external'; + + } else if ( texture.isData3DTexture === true ) { + + textureType = 'texture_3d'; + + } else if ( uniform.node.isStorageTextureNode === true ) { + + const format = getFormat( texture ); + const access = this.getStorageAccess( uniform.node ); + + textureType = `texture_storage_2d<${ format }, ${ access }>`; + + } else { + + const componentPrefix = this.getComponentTypeFromTexture( texture ).charAt( 0 ); + + textureType = `texture_2d<${ componentPrefix }32>`; + + } + + bindingSnippets.push( `@binding( ${ uniformIndexes.binding ++ } ) @group( ${ uniformIndexes.group } ) var ${ uniform.name } : ${ textureType };` ); + + } else if ( uniform.type === 'buffer' || uniform.type === 'storageBuffer' ) { + + const bufferNode = uniform.node; + const bufferType = this.getType( bufferNode.bufferType ); + const bufferCount = bufferNode.bufferCount; + + const bufferCountSnippet = bufferCount > 0 ? ', ' + bufferCount : ''; + const bufferSnippet = `\t${ uniform.name } : array< ${ bufferType }${ bufferCountSnippet } >\n`; + const bufferAccessMode = bufferNode.isStorageBufferNode ? `storage, ${ this.getStorageAccess( bufferNode ) }` : 'uniform'; + + bufferSnippets.push( this._getWGSLStructBinding( 'NodeBuffer_' + bufferNode.id, bufferSnippet, bufferAccessMode, uniformIndexes.binding ++, uniformIndexes.group ) ); + + } else { + + const vectorType = this.getType( this.getVectorType( uniform.type ) ); + const groupName = uniform.groupNode.name; + + const group = uniformGroups[ groupName ] || ( uniformGroups[ groupName ] = { + index: uniformIndexes.binding ++, + id: uniformIndexes.group, + snippets: [] + } ); + + group.snippets.push( `\t${ uniform.name } : ${ vectorType }` ); + + } + + } + + for ( const name in uniformGroups ) { + + const group = uniformGroups[ name ]; + + structSnippets.push( this._getWGSLStructBinding( name, group.snippets.join( ',\n' ), 'uniform', group.index, group.id ) ); + + } + + let code = bindingSnippets.join( '\n' ); + code += bufferSnippets.join( '\n' ); + code += structSnippets.join( '\n' ); + + return code; + + } + + buildCode() { + + const shadersData = this.material !== null ? { fragment: {}, vertex: {} } : { compute: {} }; + + for ( const shaderStage in shadersData ) { + + const stageData = shadersData[ shaderStage ]; + stageData.uniforms = this.getUniforms( shaderStage ); + stageData.attributes = this.getAttributes( shaderStage ); + stageData.varyings = this.getVaryings( shaderStage ); + stageData.structs = this.getStructs( shaderStage ); + stageData.vars = this.getVars( shaderStage ); + stageData.codes = this.getCodes( shaderStage ); + + // + + let flow = '// code\n\n'; + flow += this.flowCode[ shaderStage ]; + + const flowNodes = this.flowNodes[ shaderStage ]; + const mainNode = flowNodes[ flowNodes.length - 1 ]; + + const outputNode = mainNode.outputNode; + const isOutputStruct = ( outputNode !== undefined && outputNode.isOutputStructNode === true ); + + for ( const node of flowNodes ) { + + const flowSlotData = this.getFlowData( node/*, shaderStage*/ ); + const slotName = node.name; + + if ( slotName ) { + + if ( flow.length > 0 ) flow += '\n'; + + flow += `\t// flow -> ${ slotName }\n\t`; + + } + + flow += `${ flowSlotData.code }\n\t`; + + if ( node === mainNode && shaderStage !== 'compute' ) { + + flow += '// result\n\n\t'; + + if ( shaderStage === 'vertex' ) { + + flow += `varyings.Vertex = ${ flowSlotData.result };`; + + } else if ( shaderStage === 'fragment' ) { + + if ( isOutputStruct ) { + + stageData.returnType = outputNode.nodeType; + + flow += `return ${ flowSlotData.result };`; + + } else { + + let structSnippet = '\t@location(0) color: vec4'; + + const builtins = this.getBuiltins( 'output' ); + + if ( builtins ) structSnippet += ',\n\t' + builtins; + + stageData.returnType = 'OutputStruct'; + stageData.structs += this._getWGSLStruct( 'OutputStruct', structSnippet ); + stageData.structs += '\nvar output : OutputStruct;\n\n'; + + flow += `output.color = ${ flowSlotData.result };\n\n\treturn output;`; + + } + + } + + } + + } + + stageData.flow = flow; + + + } + + if ( this.material !== null ) { + + this.vertexShader = this._getWGSLVertexCode( shadersData.vertex ); + this.fragmentShader = this._getWGSLFragmentCode( shadersData.fragment ); + + } else { + + this.computeShader = this._getWGSLComputeCode( shadersData.compute, ( this.object.workgroupSize || [ 64 ] ).join( ', ' ) ); + + } + + } + + getMethod( method, output = null ) { + + let wgslMethod; + + if ( output !== null ) { + + wgslMethod = this._getWGSLMethod( method + '_' + output ); + + } + + if ( wgslMethod === undefined ) { + + wgslMethod = this._getWGSLMethod( method ); + + } + + return wgslMethod || method; + + } + + getType( type ) { + + return wgslTypeLib[ type ] || type; + + } + + isAvailable( name ) { + + let result = supports[ name ]; + + if ( result === undefined ) { + + if ( name === 'float32Filterable' ) { + + result = this.renderer.hasFeature( 'float32-filterable' ); + + } + + supports[ name ] = result; + + } + + return result; + + } + + _getWGSLMethod( method ) { + + if ( wgslPolyfill[ method ] !== undefined ) { + + this._include( method ); + + } + + return wgslMethods[ method ]; + + } + + _include( name ) { + + const codeNode = wgslPolyfill[ name ]; + codeNode.build( this ); + + if ( this.currentFunctionNode !== null ) { + + this.currentFunctionNode.includes.push( codeNode ); + + } + + return codeNode; + + } + + _getWGSLVertexCode( shaderData ) { + + return `${ this.getSignature() } + +// uniforms +${shaderData.uniforms} + +// varyings +${shaderData.varyings} +var varyings : VaryingsStruct; + +// codes +${shaderData.codes} + +@vertex +fn main( ${shaderData.attributes} ) -> VaryingsStruct { + + // vars + ${shaderData.vars} + + // flow + ${shaderData.flow} + + return varyings; + +} +`; + + } + + _getWGSLFragmentCode( shaderData ) { + + return `${ this.getSignature() } + +// uniforms +${shaderData.uniforms} + +// structs +${shaderData.structs} + +// codes +${shaderData.codes} + +@fragment +fn main( ${shaderData.varyings} ) -> ${shaderData.returnType} { + + // vars + ${shaderData.vars} + + // flow + ${shaderData.flow} + +} +`; + + } + + _getWGSLComputeCode( shaderData, workgroupSize ) { + + return `${ this.getSignature() } +// system +var instanceIndex : u32; + +// uniforms +${shaderData.uniforms} + +// codes +${shaderData.codes} + +@compute @workgroup_size( ${workgroupSize} ) +fn main( ${shaderData.attributes} ) { + + // system + instanceIndex = id.x; + + // vars + ${shaderData.vars} + + // flow + ${shaderData.flow} + +} +`; + + } + + _getWGSLStruct( name, vars ) { + + return ` +struct ${name} { +${vars} +};`; + + } + + _getWGSLStructBinding( name, vars, access, binding = 0, group = 0 ) { + + const structName = name + 'Struct'; + const structSnippet = this._getWGSLStruct( structName, vars ); + + return `${structSnippet} +@binding( ${binding} ) @group( ${group} ) +var<${access}> ${name} : ${structName};`; + + } + +} + +class WebGPUUtils { + + constructor( backend ) { + + this.backend = backend; + + } + + getCurrentDepthStencilFormat( renderContext ) { + + let format; + + if ( renderContext.depthTexture !== null ) { + + format = this.getTextureFormatGPU( renderContext.depthTexture ); + + } else if ( renderContext.depth && renderContext.stencil ) { + + format = GPUTextureFormat.Depth24PlusStencil8; + + } else if ( renderContext.depth ) { + + format = GPUTextureFormat.Depth24Plus; + + } + + return format; + + } + + getTextureFormatGPU( texture ) { + + return this.backend.get( texture ).texture.format; + + } + + getCurrentColorFormat( renderContext ) { + + let format; + + if ( renderContext.textures !== null ) { + + format = this.getTextureFormatGPU( renderContext.textures[ 0 ] ); + + + } else { + + format = GPUTextureFormat.BGRA8Unorm; // default context format + + } + + return format; + + } + + getCurrentColorSpace( renderContext ) { + + if ( renderContext.textures !== null ) { + + return renderContext.textures[ 0 ].colorSpace; + + } + + return this.backend.renderer.outputColorSpace; + + } + + getPrimitiveTopology( object, material ) { + + if ( object.isPoints ) return GPUPrimitiveTopology.PointList; + else if ( object.isLineSegments || ( object.isMesh && material.wireframe === true ) ) return GPUPrimitiveTopology.LineList; + else if ( object.isLine ) return GPUPrimitiveTopology.LineStrip; + else if ( object.isMesh ) return GPUPrimitiveTopology.TriangleList; + + } + + getSampleCount( renderContext ) { + + if ( renderContext.textures !== null ) { + + return renderContext.sampleCount; + + } + + return this.backend.parameters.sampleCount; + + } + +} + +const typedArraysToVertexFormatPrefix = new Map( [ + [ Int8Array, [ 'sint8', 'snorm8' ]], + [ Uint8Array, [ 'uint8', 'unorm8' ]], + [ Int16Array, [ 'sint16', 'snorm16' ]], + [ Uint16Array, [ 'uint16', 'unorm16' ]], + [ Int32Array, [ 'sint32', 'snorm32' ]], + [ Uint32Array, [ 'uint32', 'unorm32' ]], + [ Float32Array, [ 'float32', ]], +] ); + +const typedAttributeToVertexFormatPrefix = new Map( [ + [ Float16BufferAttribute, [ 'float16', ]], +] ); + +const typeArraysToVertexFormatPrefixForItemSize1 = new Map( [ + [ Int32Array, 'sint32' ], + [ Int16Array, 'sint32' ], // patch for INT16 + [ Uint32Array, 'uint32' ], + [ Uint16Array, 'uint32' ], // patch for UINT16 + [ Float32Array, 'float32' ] +] ); + +class WebGPUAttributeUtils { + + constructor( backend ) { + + this.backend = backend; + + } + + createAttribute( attribute, usage ) { + + const bufferAttribute = this._getBufferAttribute( attribute ); + + const backend = this.backend; + const bufferData = backend.get( bufferAttribute ); + + let buffer = bufferData.buffer; + + if ( buffer === undefined ) { + + const device = backend.device; + + let array = bufferAttribute.array; + + // patch for INT16 and UINT16 + if ( attribute.normalized === false && ( array.constructor === Int16Array || array.constructor === Uint16Array ) ) { + + const tempArray = new Uint32Array( array.length ); + for ( let i = 0; i < array.length; i ++ ) { + + tempArray[ i ] = array[ i ]; + + } + + array = tempArray; + + } + + bufferAttribute.array = array; + + if ( ( bufferAttribute.isStorageBufferAttribute || bufferAttribute.isStorageInstancedBufferAttribute ) && bufferAttribute.itemSize === 3 ) { + + array = new array.constructor( bufferAttribute.count * 4 ); + + for ( let i = 0; i < bufferAttribute.count; i ++ ) { + + array.set( bufferAttribute.array.subarray( i * 3, i * 3 + 3 ), i * 4 ); + + } + + // Update BufferAttribute + bufferAttribute.itemSize = 4; + bufferAttribute.array = array; + + } + + const size = array.byteLength + ( ( 4 - ( array.byteLength % 4 ) ) % 4 ); // ensure 4 byte alignment, see #20441 + + buffer = device.createBuffer( { + label: bufferAttribute.name, + size: size, + usage: usage, + mappedAtCreation: true + } ); + + new array.constructor( buffer.getMappedRange() ).set( array ); + + buffer.unmap(); + + bufferData.buffer = buffer; + + } + + } + + updateAttribute( attribute ) { + + const bufferAttribute = this._getBufferAttribute( attribute ); + + const backend = this.backend; + const device = backend.device; + + const buffer = backend.get( bufferAttribute ).buffer; + + const array = bufferAttribute.array; + const updateRanges = bufferAttribute.updateRanges; + + if ( updateRanges.length === 0 ) { + + // Not using update ranges + + device.queue.writeBuffer( + buffer, + 0, + array, + 0 + ); + + } else { + + for ( let i = 0, l = updateRanges.length; i < l; i ++ ) { + + const range = updateRanges[ i ]; + device.queue.writeBuffer( + buffer, + 0, + array, + range.start * array.BYTES_PER_ELEMENT, + range.count * array.BYTES_PER_ELEMENT + ); + + } + + bufferAttribute.clearUpdateRanges(); + + } + + } + + createShaderVertexBuffers( renderObject ) { + + const attributes = renderObject.getAttributes(); + const vertexBuffers = new Map(); + + for ( let slot = 0; slot < attributes.length; slot ++ ) { + + const geometryAttribute = attributes[ slot ]; + const bytesPerElement = geometryAttribute.array.BYTES_PER_ELEMENT; + const bufferAttribute = this._getBufferAttribute( geometryAttribute ); + + let vertexBufferLayout = vertexBuffers.get( bufferAttribute ); + + if ( vertexBufferLayout === undefined ) { + + let arrayStride, stepMode; + + if ( geometryAttribute.isInterleavedBufferAttribute === true ) { + + arrayStride = geometryAttribute.data.stride * bytesPerElement; + stepMode = geometryAttribute.data.isInstancedInterleavedBuffer ? GPUInputStepMode.Instance : GPUInputStepMode.Vertex; + + } else { + + arrayStride = geometryAttribute.itemSize * bytesPerElement; + stepMode = geometryAttribute.isInstancedBufferAttribute ? GPUInputStepMode.Instance : GPUInputStepMode.Vertex; + + } + + // patch for INT16 and UINT16 + if ( geometryAttribute.normalized === false && ( geometryAttribute.array.constructor === Int16Array || geometryAttribute.array.constructor === Uint16Array ) ) { + + arrayStride = 4; + + } + + vertexBufferLayout = { + arrayStride, + attributes: [], + stepMode + }; + + vertexBuffers.set( bufferAttribute, vertexBufferLayout ); + + } + + const format = this._getVertexFormat( geometryAttribute ); + const offset = ( geometryAttribute.isInterleavedBufferAttribute === true ) ? geometryAttribute.offset * bytesPerElement : 0; + + vertexBufferLayout.attributes.push( { + shaderLocation: slot, + offset, + format + } ); + + } + + return Array.from( vertexBuffers.values() ); + + } + + destroyAttribute( attribute ) { + + const backend = this.backend; + const data = backend.get( this._getBufferAttribute( attribute ) ); + + data.buffer.destroy(); + + backend.delete( attribute ); + + } + + async getArrayBufferAsync( attribute ) { + + const backend = this.backend; + const device = backend.device; + + const data = backend.get( this._getBufferAttribute( attribute ) ); + + const bufferGPU = data.buffer; + const size = bufferGPU.size; + + let readBufferGPU = data.readBuffer; + let needsUnmap = true; + + if ( readBufferGPU === undefined ) { + + readBufferGPU = device.createBuffer( { + label: attribute.name, + size, + usage: GPUBufferUsage.COPY_DST | GPUBufferUsage.MAP_READ + } ); + + needsUnmap = false; + + data.readBuffer = readBufferGPU; + + } + + const cmdEncoder = device.createCommandEncoder( {} ); + + cmdEncoder.copyBufferToBuffer( + bufferGPU, + 0, + readBufferGPU, + 0, + size + ); + + if ( needsUnmap ) readBufferGPU.unmap(); + + const gpuCommands = cmdEncoder.finish(); + device.queue.submit( [ gpuCommands ] ); + + await readBufferGPU.mapAsync( GPUMapMode.READ ); + + const arrayBuffer = readBufferGPU.getMappedRange(); + + return arrayBuffer; + + } + + _getVertexFormat( geometryAttribute ) { + + const { itemSize, normalized } = geometryAttribute; + const ArrayType = geometryAttribute.array.constructor; + const AttributeType = geometryAttribute.constructor; + + let format; + + if ( itemSize == 1 ) { + + format = typeArraysToVertexFormatPrefixForItemSize1.get( ArrayType ); + + } else { + + const prefixOptions = typedAttributeToVertexFormatPrefix.get( AttributeType ) || typedArraysToVertexFormatPrefix.get( ArrayType ); + const prefix = prefixOptions[ normalized ? 1 : 0 ]; + + if ( prefix ) { + + const bytesPerUnit = ArrayType.BYTES_PER_ELEMENT * itemSize; + const paddedBytesPerUnit = Math.floor( ( bytesPerUnit + 3 ) / 4 ) * 4; + const paddedItemSize = paddedBytesPerUnit / ArrayType.BYTES_PER_ELEMENT; + + if ( paddedItemSize % 1 ) { + + throw new Error( 'THREE.WebGPUAttributeUtils: Bad vertex format item size.' ); + + } + + format = `${prefix}x${paddedItemSize}`; + + } + + } + + if ( ! format ) { + + console.error( 'THREE.WebGPUAttributeUtils: Vertex format not supported yet.' ); + + } + + return format; + + } + + _getBufferAttribute( attribute ) { + + if ( attribute.isInterleavedBufferAttribute ) attribute = attribute.data; + + return attribute; + + } + +} + +class WebGPUBindingUtils { + + constructor( backend ) { + + this.backend = backend; + + } + + createBindingsLayout( bindGroup ) { + + const backend = this.backend; + const device = backend.device; + + const entries = []; + + let index = 0; + + for ( const binding of bindGroup.bindings ) { + + const bindingGPU = { + binding: index ++, + visibility: binding.visibility + }; + + if ( binding.isUniformBuffer || binding.isStorageBuffer ) { + + const buffer = {}; // GPUBufferBindingLayout + + if ( binding.isStorageBuffer ) { + + buffer.type = binding.access; + + } + + bindingGPU.buffer = buffer; + + } else if ( binding.isSampler ) { + + const sampler = {}; // GPUSamplerBindingLayout + + if ( binding.texture.isDepthTexture ) { + + if ( binding.texture.compareFunction !== null ) { + + sampler.type = 'comparison'; + + } + + } + + bindingGPU.sampler = sampler; + + } else if ( binding.isSampledTexture && binding.texture.isVideoTexture ) { + + bindingGPU.externalTexture = {}; // GPUExternalTextureBindingLayout + + } else if ( binding.isSampledTexture && binding.store ) { + + const format = this.backend.get( binding.texture ).texture.format; + const access = binding.access; + + bindingGPU.storageTexture = { format, access }; // GPUStorageTextureBindingLayout + + } else if ( binding.isSampledTexture ) { + + const texture = {}; // GPUTextureBindingLayout + + if ( binding.texture.isDepthTexture ) { + + texture.sampleType = GPUTextureSampleType.Depth; + + } else if ( binding.texture.isDataTexture ) { + + const type = binding.texture.type; + + if ( type === IntType ) { + + texture.sampleType = GPUTextureSampleType.SInt; + + } else if ( type === UnsignedIntType ) { + + texture.sampleType = GPUTextureSampleType.UInt; + + } else if ( type === FloatType ) { + + // @TODO: Add support for this soon: backend.hasFeature( 'float32-filterable' ) + + texture.sampleType = GPUTextureSampleType.UnfilterableFloat; + + } + + } + + if ( binding.isSampledCubeTexture ) { + + texture.viewDimension = GPUTextureViewDimension.Cube; + + } else if ( binding.texture.isDataArrayTexture ) { + + texture.viewDimension = GPUTextureViewDimension.TwoDArray; + + } else if ( binding.isSampledTexture3D ) { + + texture.viewDimension = GPUTextureViewDimension.ThreeD; + + } + + bindingGPU.texture = texture; + + } else { + + console.error( `WebGPUBindingUtils: Unsupported binding "${ binding }".` ); + + } + + entries.push( bindingGPU ); + + } + + return device.createBindGroupLayout( { entries } ); + + } + + createBindings( bindGroup ) { + + const backend = this.backend; + const bindingsData = backend.get( bindGroup ); + + // setup (static) binding layout and (dynamic) binding group + + const bindLayoutGPU = this.createBindingsLayout( bindGroup ); + const bindGroupGPU = this.createBindGroup( bindGroup, bindLayoutGPU ); + + bindingsData.layout = bindLayoutGPU; + bindingsData.group = bindGroupGPU; + + } + + updateBinding( binding ) { + + const backend = this.backend; + const device = backend.device; + + const buffer = binding.buffer; + const bufferGPU = backend.get( binding ).buffer; + + device.queue.writeBuffer( bufferGPU, 0, buffer, 0 ); + + } + + createBindGroup( bindGroup, layoutGPU ) { + + const backend = this.backend; + const device = backend.device; + + let bindingPoint = 0; + const entriesGPU = []; + + for ( const binding of bindGroup.bindings ) { + + if ( binding.isUniformBuffer ) { + + const bindingData = backend.get( binding ); + + if ( bindingData.buffer === undefined ) { + + const byteLength = binding.byteLength; + + const usage = GPUBufferUsage.UNIFORM | GPUBufferUsage.COPY_DST; + + const bufferGPU = device.createBuffer( { + label: 'bindingBuffer_' + binding.name, + size: byteLength, + usage: usage + } ); + + bindingData.buffer = bufferGPU; + + } + + entriesGPU.push( { binding: bindingPoint, resource: { buffer: bindingData.buffer } } ); + + } else if ( binding.isStorageBuffer ) { + + const bindingData = backend.get( binding ); + + if ( bindingData.buffer === undefined ) { + + const attribute = binding.attribute; + //const usage = GPUBufferUsage.STORAGE | GPUBufferUsage.VERTEX | /*GPUBufferUsage.COPY_SRC |*/ GPUBufferUsage.COPY_DST; + + //backend.attributeUtils.createAttribute( attribute, usage ); // @TODO: Move it to universal renderer + + bindingData.buffer = backend.get( attribute ).buffer; + + } + + entriesGPU.push( { binding: bindingPoint, resource: { buffer: bindingData.buffer } } ); + + } else if ( binding.isSampler ) { + + const textureGPU = backend.get( binding.texture ); + + entriesGPU.push( { binding: bindingPoint, resource: textureGPU.sampler } ); + + } else if ( binding.isSampledTexture ) { + + const textureData = backend.get( binding.texture ); + + let dimensionViewGPU; + + if ( binding.isSampledCubeTexture ) { + + dimensionViewGPU = GPUTextureViewDimension.Cube; + + } else if ( binding.isSampledTexture3D ) { + + dimensionViewGPU = GPUTextureViewDimension.ThreeD; + + } else if ( binding.texture.isDataArrayTexture ) { + + dimensionViewGPU = GPUTextureViewDimension.TwoDArray; + + } else { + + dimensionViewGPU = GPUTextureViewDimension.TwoD; + + } + + let resourceGPU; + + if ( textureData.externalTexture !== undefined ) { + + resourceGPU = device.importExternalTexture( { source: textureData.externalTexture } ); + + } else { + + const aspectGPU = GPUTextureAspect.All; + + resourceGPU = textureData.texture.createView( { aspect: aspectGPU, dimension: dimensionViewGPU, mipLevelCount: binding.store ? 1 : textureData.mipLevelCount } ); + + } + + entriesGPU.push( { binding: bindingPoint, resource: resourceGPU } ); + + } + + bindingPoint ++; + + } + + return device.createBindGroup( { + label: 'bindGroup_' + bindGroup.name, + layout: layoutGPU, + entries: entriesGPU + } ); + + } + +} + +class WebGPUPipelineUtils { + + constructor( backend ) { + + this.backend = backend; + + } + + _getSampleCount( renderObjectContext ) { + + let sampleCount = this.backend.utils.getSampleCount( renderObjectContext ); + + if ( sampleCount > 1 ) { + + // WebGPU only supports power-of-two sample counts and 2 is not a valid value + sampleCount = Math.pow( 2, Math.floor( Math.log2( sampleCount ) ) ); + + if ( sampleCount === 2 ) { + + sampleCount = 4; + + } + + } + + return sampleCount; + + } + + createRenderPipeline( renderObject, promises ) { + + const { object, material, geometry, pipeline } = renderObject; + const { vertexProgram, fragmentProgram } = pipeline; + + const backend = this.backend; + const device = backend.device; + const utils = backend.utils; + + const pipelineData = backend.get( pipeline ); + + // bind group layouts + + const bindGroupLayouts = []; + + for ( const bindGroup of renderObject.getBindings() ) { + + const bindingsData = backend.get( bindGroup ); + + bindGroupLayouts.push( bindingsData.layout ); + + } + + // vertex buffers + + const vertexBuffers = backend.attributeUtils.createShaderVertexBuffers( renderObject ); + + // blending + + let blending; + + if ( material.transparent === true && material.blending !== NoBlending ) { + + blending = this._getBlending( material ); + + } + + // stencil + + let stencilFront = {}; + + if ( material.stencilWrite === true ) { + + stencilFront = { + compare: this._getStencilCompare( material ), + failOp: this._getStencilOperation( material.stencilFail ), + depthFailOp: this._getStencilOperation( material.stencilZFail ), + passOp: this._getStencilOperation( material.stencilZPass ) + }; + + } + + const colorWriteMask = this._getColorWriteMask( material ); + + const targets = []; + + if ( renderObject.context.textures !== null ) { + + const textures = renderObject.context.textures; + + for ( let i = 0; i < textures.length; i ++ ) { + + const colorFormat = utils.getTextureFormatGPU( textures[ i ] ); + + targets.push( { + format: colorFormat, + blend: blending, + writeMask: colorWriteMask + } ); + + } + + } else { + + const colorFormat = utils.getCurrentColorFormat( renderObject.context ); + + targets.push( { + format: colorFormat, + blend: blending, + writeMask: colorWriteMask + } ); + + } + + const vertexModule = backend.get( vertexProgram ).module; + const fragmentModule = backend.get( fragmentProgram ).module; + + const primitiveState = this._getPrimitiveState( object, geometry, material ); + const depthCompare = this._getDepthCompare( material ); + const depthStencilFormat = utils.getCurrentDepthStencilFormat( renderObject.context ); + + const sampleCount = this._getSampleCount( renderObject.context ); + + const pipelineDescriptor = { + label: 'renderPipeline', + vertex: Object.assign( {}, vertexModule, { buffers: vertexBuffers } ), + fragment: Object.assign( {}, fragmentModule, { targets } ), + primitive: primitiveState, + depthStencil: { + format: depthStencilFormat, + depthWriteEnabled: material.depthWrite, + depthCompare: depthCompare, + stencilFront: stencilFront, + stencilBack: {}, // three.js does not provide an API to configure the back function (gl.stencilFuncSeparate() was never used) + stencilReadMask: material.stencilFuncMask, + stencilWriteMask: material.stencilWriteMask + }, + multisample: { + count: sampleCount, + alphaToCoverageEnabled: material.alphaToCoverage + }, + layout: device.createPipelineLayout( { + bindGroupLayouts + } ) + }; + + if ( promises === null ) { + + pipelineData.pipeline = device.createRenderPipeline( pipelineDescriptor ); + + } else { + + const p = new Promise( ( resolve /*, reject*/ ) => { + + device.createRenderPipelineAsync( pipelineDescriptor ).then( pipeline => { + + pipelineData.pipeline = pipeline; + resolve(); + + } ); + + } ); + + promises.push( p ); + + } + + } + + createBundleEncoder( renderContext, renderObject ) { + + const backend = this.backend; + const { utils, device } = backend; + + const renderContextData = backend.get( renderContext ); + const renderObjectData = backend.get( renderObject ); + + const depthStencilFormat = utils.getCurrentDepthStencilFormat( renderContext ); + const colorFormat = utils.getCurrentColorFormat( renderContext ); + const sampleCount = this._getSampleCount( renderObject.context ); + + const descriptor = { + label: 'renderBundleEncoder', + colorFormats: [ colorFormat ], + depthStencilFormat, + sampleCount + }; + + const bundleEncoder = device.createRenderBundleEncoder( descriptor ); + + renderObjectData.bundleEncoder = bundleEncoder; + renderContextData.currentSets = { attributes: {} }; + renderContextData._renderBundleViewport = renderContext.width + '_' + renderContext.height; + + return bundleEncoder; + + } + + createComputePipeline( pipeline, bindings ) { + + const backend = this.backend; + const device = backend.device; + + const computeProgram = backend.get( pipeline.computeProgram ).module; + + const pipelineGPU = backend.get( pipeline ); + + // bind group layouts + + const bindGroupLayouts = []; + + for ( const bindingsGroup of bindings ) { + + const bindingsData = backend.get( bindingsGroup ); + + bindGroupLayouts.push( bindingsData.layout ); + + } + + pipelineGPU.pipeline = device.createComputePipeline( { + compute: computeProgram, + layout: device.createPipelineLayout( { + bindGroupLayouts + } ) + } ); + + } + + _getBlending( material ) { + + let color, alpha; + + const blending = material.blending; + const blendSrc = material.blendSrc; + const blendDst = material.blendDst; + const blendEquation = material.blendEquation; + + + if ( blending === CustomBlending ) { + + const blendSrcAlpha = material.blendSrcAlpha !== null ? material.blendSrcAlpha : blendSrc; + const blendDstAlpha = material.blendDstAlpha !== null ? material.blendDstAlpha : blendDst; + const blendEquationAlpha = material.blendEquationAlpha !== null ? material.blendEquationAlpha : blendEquation; + + color = { + srcFactor: this._getBlendFactor( blendSrc ), + dstFactor: this._getBlendFactor( blendDst ), + operation: this._getBlendOperation( blendEquation ) + }; + + alpha = { + srcFactor: this._getBlendFactor( blendSrcAlpha ), + dstFactor: this._getBlendFactor( blendDstAlpha ), + operation: this._getBlendOperation( blendEquationAlpha ) + }; + + } else { + + const premultipliedAlpha = material.premultipliedAlpha; + + const setBlend = ( srcRGB, dstRGB, srcAlpha, dstAlpha ) => { + + color = { + srcFactor: srcRGB, + dstFactor: dstRGB, + operation: GPUBlendOperation.Add + }; + + alpha = { + srcFactor: srcAlpha, + dstFactor: dstAlpha, + operation: GPUBlendOperation.Add + }; + + }; + + if ( premultipliedAlpha ) { + + switch ( blending ) { + + case NormalBlending: + setBlend( GPUBlendFactor.SrcAlpha, GPUBlendFactor.OneMinusSrcAlpha, GPUBlendFactor.One, GPUBlendFactor.OneMinusSrcAlpha ); + break; + + case AdditiveBlending: + setBlend( GPUBlendFactor.SrcAlpha, GPUBlendFactor.One, GPUBlendFactor.One, GPUBlendFactor.One ); + break; + + case SubtractiveBlending: + setBlend( GPUBlendFactor.Zero, GPUBlendFactor.OneMinusSrc, GPUBlendFactor.Zero, GPUBlendFactor.One ); + break; + + case MultiplyBlending: + setBlend( GPUBlendFactor.Zero, GPUBlendFactor.Src, GPUBlendFactor.Zero, GPUBlendFactor.SrcAlpha ); + break; + + } + + } else { + + switch ( blending ) { + + case NormalBlending: + setBlend( GPUBlendFactor.SrcAlpha, GPUBlendFactor.OneMinusSrcAlpha, GPUBlendFactor.One, GPUBlendFactor.OneMinusSrcAlpha ); + break; + + case AdditiveBlending: + setBlend( GPUBlendFactor.SrcAlpha, GPUBlendFactor.One, GPUBlendFactor.SrcAlpha, GPUBlendFactor.One ); + break; + + case SubtractiveBlending: + setBlend( GPUBlendFactor.Zero, GPUBlendFactor.OneMinusSrc, GPUBlendFactor.Zero, GPUBlendFactor.One ); + break; + + case MultiplyBlending: + setBlend( GPUBlendFactor.Zero, GPUBlendFactor.Src, GPUBlendFactor.Zero, GPUBlendFactor.Src ); + break; + + } + + } + + } + + if ( color !== undefined && alpha !== undefined ) { + + return { color, alpha }; + + } else { + + console.error( 'THREE.WebGPURenderer: Invalid blending: ', blending ); + + } + + } + + _getBlendFactor( blend ) { + + let blendFactor; + + switch ( blend ) { + + case ZeroFactor: + blendFactor = GPUBlendFactor.Zero; + break; + + case OneFactor: + blendFactor = GPUBlendFactor.One; + break; + + case SrcColorFactor: + blendFactor = GPUBlendFactor.Src; + break; + + case OneMinusSrcColorFactor: + blendFactor = GPUBlendFactor.OneMinusSrc; + break; + + case SrcAlphaFactor: + blendFactor = GPUBlendFactor.SrcAlpha; + break; + + case OneMinusSrcAlphaFactor: + blendFactor = GPUBlendFactor.OneMinusSrcAlpha; + break; + + case DstColorFactor: + blendFactor = GPUBlendFactor.Dst; + break; + + case OneMinusDstColorFactor: + blendFactor = GPUBlendFactor.OneMinusDstColor; + break; + + case DstAlphaFactor: + blendFactor = GPUBlendFactor.DstAlpha; + break; + + case OneMinusDstAlphaFactor: + blendFactor = GPUBlendFactor.OneMinusDstAlpha; + break; + + case SrcAlphaSaturateFactor: + blendFactor = GPUBlendFactor.SrcAlphaSaturated; + break; + + case BlendColorFactor: + blendFactor = GPUBlendFactor.Constant; + break; + + case OneMinusBlendColorFactor: + blendFactor = GPUBlendFactor.OneMinusConstant; + break; + + default: + console.error( 'THREE.WebGPURenderer: Blend factor not supported.', blend ); + + } + + return blendFactor; + + } + + _getStencilCompare( material ) { + + let stencilCompare; + + const stencilFunc = material.stencilFunc; + + switch ( stencilFunc ) { + + case NeverStencilFunc: + stencilCompare = GPUCompareFunction.Never; + break; + + case AlwaysStencilFunc: + stencilCompare = GPUCompareFunction.Always; + break; + + case LessStencilFunc: + stencilCompare = GPUCompareFunction.Less; + break; + + case LessEqualStencilFunc: + stencilCompare = GPUCompareFunction.LessEqual; + break; + + case EqualStencilFunc: + stencilCompare = GPUCompareFunction.Equal; + break; + + case GreaterEqualStencilFunc: + stencilCompare = GPUCompareFunction.GreaterEqual; + break; + + case GreaterStencilFunc: + stencilCompare = GPUCompareFunction.Greater; + break; + + case NotEqualStencilFunc: + stencilCompare = GPUCompareFunction.NotEqual; + break; + + default: + console.error( 'THREE.WebGPURenderer: Invalid stencil function.', stencilFunc ); + + } + + return stencilCompare; + + } + + _getStencilOperation( op ) { + + let stencilOperation; + + switch ( op ) { + + case KeepStencilOp: + stencilOperation = GPUStencilOperation.Keep; + break; + + case ZeroStencilOp: + stencilOperation = GPUStencilOperation.Zero; + break; + + case ReplaceStencilOp: + stencilOperation = GPUStencilOperation.Replace; + break; + + case InvertStencilOp: + stencilOperation = GPUStencilOperation.Invert; + break; + + case IncrementStencilOp: + stencilOperation = GPUStencilOperation.IncrementClamp; + break; + + case DecrementStencilOp: + stencilOperation = GPUStencilOperation.DecrementClamp; + break; + + case IncrementWrapStencilOp: + stencilOperation = GPUStencilOperation.IncrementWrap; + break; + + case DecrementWrapStencilOp: + stencilOperation = GPUStencilOperation.DecrementWrap; + break; + + default: + console.error( 'THREE.WebGPURenderer: Invalid stencil operation.', stencilOperation ); + + } + + return stencilOperation; + + } + + _getBlendOperation( blendEquation ) { + + let blendOperation; + + switch ( blendEquation ) { + + case AddEquation: + blendOperation = GPUBlendOperation.Add; + break; + + case SubtractEquation: + blendOperation = GPUBlendOperation.Subtract; + break; + + case ReverseSubtractEquation: + blendOperation = GPUBlendOperation.ReverseSubtract; + break; + + case MinEquation: + blendOperation = GPUBlendOperation.Min; + break; + + case MaxEquation: + blendOperation = GPUBlendOperation.Max; + break; + + default: + console.error( 'THREE.WebGPUPipelineUtils: Blend equation not supported.', blendEquation ); + + } + + return blendOperation; + + } + + _getPrimitiveState( object, geometry, material ) { + + const descriptor = {}; + const utils = this.backend.utils; + + descriptor.topology = utils.getPrimitiveTopology( object, material ); + + if ( geometry.index !== null && object.isLine === true && object.isLineSegments !== true ) { + + descriptor.stripIndexFormat = ( geometry.index.array instanceof Uint16Array ) ? GPUIndexFormat.Uint16 : GPUIndexFormat.Uint32; + + } + + switch ( material.side ) { + + case FrontSide: + descriptor.frontFace = GPUFrontFace.CCW; + descriptor.cullMode = GPUCullMode.Back; + break; + + case BackSide: + descriptor.frontFace = GPUFrontFace.CCW; + descriptor.cullMode = GPUCullMode.Front; + break; + + case DoubleSide: + descriptor.frontFace = GPUFrontFace.CCW; + descriptor.cullMode = GPUCullMode.None; + break; + + default: + console.error( 'THREE.WebGPUPipelineUtils: Unknown material.side value.', material.side ); + break; + + } + + return descriptor; + + } + + _getColorWriteMask( material ) { + + return ( material.colorWrite === true ) ? GPUColorWriteFlags.All : GPUColorWriteFlags.None; + + } + + _getDepthCompare( material ) { + + let depthCompare; + + if ( material.depthTest === false ) { + + depthCompare = GPUCompareFunction.Always; + + } else { + + const depthFunc = material.depthFunc; + + switch ( depthFunc ) { + + case NeverDepth: + depthCompare = GPUCompareFunction.Never; + break; + + case AlwaysDepth: + depthCompare = GPUCompareFunction.Always; + break; + + case LessDepth: + depthCompare = GPUCompareFunction.Less; + break; + + case LessEqualDepth: + depthCompare = GPUCompareFunction.LessEqual; + break; + + case EqualDepth: + depthCompare = GPUCompareFunction.Equal; + break; + + case GreaterEqualDepth: + depthCompare = GPUCompareFunction.GreaterEqual; + break; + + case GreaterDepth: + depthCompare = GPUCompareFunction.Greater; + break; + + case NotEqualDepth: + depthCompare = GPUCompareFunction.NotEqual; + break; + + default: + console.error( 'THREE.WebGPUPipelineUtils: Invalid depth function.', depthFunc ); + + } + + } + + return depthCompare; + + } + +} + +/*// debugger tools +import 'https://greggman.github.io/webgpu-avoid-redundant-state-setting/webgpu-check-redundant-state-setting.js'; +//*/ + + +// + +class WebGPUBackend extends Backend { + + constructor( parameters = {} ) { + + super( parameters ); + + this.isWebGPUBackend = true; + + // some parameters require default values other than "undefined" + this.parameters.alpha = ( parameters.alpha === undefined ) ? true : parameters.alpha; + + this.parameters.antialias = ( parameters.antialias === true ); + + if ( this.parameters.antialias === true ) { + + this.parameters.sampleCount = ( parameters.sampleCount === undefined ) ? 4 : parameters.sampleCount; + + } else { + + this.parameters.sampleCount = 1; + + } + + this.parameters.requiredLimits = ( parameters.requiredLimits === undefined ) ? {} : parameters.requiredLimits; + + this.trackTimestamp = ( parameters.trackTimestamp === true ); + + this.device = null; + this.context = null; + this.colorBuffer = null; + this.defaultRenderPassdescriptor = null; + + this.utils = new WebGPUUtils( this ); + this.attributeUtils = new WebGPUAttributeUtils( this ); + this.bindingUtils = new WebGPUBindingUtils( this ); + this.pipelineUtils = new WebGPUPipelineUtils( this ); + this.textureUtils = new WebGPUTextureUtils( this ); + this.occludedResolveCache = new Map(); + + } + + async init( renderer ) { + + await super.init( renderer ); + + // + + const parameters = this.parameters; + + // create the device if it is not passed with parameters + + let device; + + if ( parameters.device === undefined ) { + + const adapterOptions = { + powerPreference: parameters.powerPreference + }; + + const adapter = await navigator.gpu.requestAdapter( adapterOptions ); + + if ( adapter === null ) { + + throw new Error( 'WebGPUBackend: Unable to create WebGPU adapter.' ); + + } + + // feature support + + const features = Object.values( GPUFeatureName ); + + const supportedFeatures = []; + + for ( const name of features ) { + + if ( adapter.features.has( name ) ) { + + supportedFeatures.push( name ); + + } + + } + + const deviceDescriptor = { + requiredFeatures: supportedFeatures, + requiredLimits: parameters.requiredLimits + }; + + device = await adapter.requestDevice( deviceDescriptor ); + + } else { + + device = parameters.device; + + } + + const context = ( parameters.context !== undefined ) ? parameters.context : renderer.domElement.getContext( 'webgpu' ); + + this.device = device; + this.context = context; + + const alphaMode = parameters.alpha ? 'premultiplied' : 'opaque'; + + this.context.configure( { + device: this.device, + format: GPUTextureFormat.BGRA8Unorm, + usage: GPUTextureUsage.RENDER_ATTACHMENT | GPUTextureUsage.COPY_SRC, + alphaMode: alphaMode + } ); + + this.updateSize(); + + } + + get coordinateSystem() { + + return WebGPUCoordinateSystem; + + } + + async getArrayBufferAsync( attribute ) { + + return await this.attributeUtils.getArrayBufferAsync( attribute ); + + } + + getContext() { + + return this.context; + + } + + _getDefaultRenderPassDescriptor() { + + let descriptor = this.defaultRenderPassdescriptor; + + const antialias = this.parameters.antialias; + + if ( descriptor === null ) { + + const renderer = this.renderer; + + descriptor = { + colorAttachments: [ { + view: null + } ], + depthStencilAttachment: { + view: this.textureUtils.getDepthBuffer( renderer.depth, renderer.stencil ).createView() + } + }; + + const colorAttachment = descriptor.colorAttachments[ 0 ]; + + if ( antialias === true ) { + + colorAttachment.view = this.colorBuffer.createView(); + + } else { + + colorAttachment.resolveTarget = undefined; + + } + + this.defaultRenderPassdescriptor = descriptor; + + } + + const colorAttachment = descriptor.colorAttachments[ 0 ]; + + if ( antialias === true ) { + + colorAttachment.resolveTarget = this.context.getCurrentTexture().createView(); + + } else { + + colorAttachment.view = this.context.getCurrentTexture().createView(); + + } + + return descriptor; + + } + + _getRenderPassDescriptor( renderContext ) { + + const renderTarget = renderContext.renderTarget; + const renderTargetData = this.get( renderTarget ); + + let descriptors = renderTargetData.descriptors; + + if ( descriptors === undefined ) { + + descriptors = []; + + renderTargetData.descriptors = descriptors; + + } + + if ( renderTargetData.width !== renderTarget.width || + renderTargetData.height !== renderTarget.height || + renderTargetData.activeMipmapLevel !== renderTarget.activeMipmapLevel || + renderTargetData.samples !== renderTarget.samples + ) { + + descriptors.length = 0; + + } + + let descriptor = descriptors[ renderContext.activeCubeFace ]; + + if ( descriptor === undefined ) { + + const textures = renderContext.textures; + const colorAttachments = []; + + for ( let i = 0; i < textures.length; i ++ ) { + + const textureData = this.get( textures[ i ] ); + + const textureView = textureData.texture.createView( { + baseMipLevel: renderContext.activeMipmapLevel, + mipLevelCount: 1, + baseArrayLayer: renderContext.activeCubeFace, + dimension: GPUTextureViewDimension.TwoD + } ); + + let view, resolveTarget; + + if ( textureData.msaaTexture !== undefined ) { + + view = textureData.msaaTexture.createView(); + resolveTarget = textureView; + + } else { + + view = textureView; + resolveTarget = undefined; + + } + + colorAttachments.push( { + view, + resolveTarget, + loadOp: GPULoadOp.Load, + storeOp: GPUStoreOp.Store + } ); + + } + + const depthTextureData = this.get( renderContext.depthTexture ); + + const depthStencilAttachment = { + view: depthTextureData.texture.createView(), + }; + + descriptor = { + colorAttachments, + depthStencilAttachment + }; + + descriptors[ renderContext.activeCubeFace ] = descriptor; + + renderTargetData.width = renderTarget.width; + renderTargetData.height = renderTarget.height; + renderTargetData.samples = renderTarget.samples; + renderTargetData.activeMipmapLevel = renderTarget.activeMipmapLevel; + + } + + return descriptor; + + } + + beginRender( renderContext ) { + + const renderContextData = this.get( renderContext ); + + const device = this.device; + const occlusionQueryCount = renderContext.occlusionQueryCount; + + let occlusionQuerySet; + + if ( occlusionQueryCount > 0 ) { + + if ( renderContextData.currentOcclusionQuerySet ) renderContextData.currentOcclusionQuerySet.destroy(); + if ( renderContextData.currentOcclusionQueryBuffer ) renderContextData.currentOcclusionQueryBuffer.destroy(); + + // Get a reference to the array of objects with queries. The renderContextData property + // can be changed by another render pass before the buffer.mapAsyc() completes. + renderContextData.currentOcclusionQuerySet = renderContextData.occlusionQuerySet; + renderContextData.currentOcclusionQueryBuffer = renderContextData.occlusionQueryBuffer; + renderContextData.currentOcclusionQueryObjects = renderContextData.occlusionQueryObjects; + + // + + occlusionQuerySet = device.createQuerySet( { type: 'occlusion', count: occlusionQueryCount } ); + + renderContextData.occlusionQuerySet = occlusionQuerySet; + renderContextData.occlusionQueryIndex = 0; + renderContextData.occlusionQueryObjects = new Array( occlusionQueryCount ); + + renderContextData.lastOcclusionObject = null; + + } + + let descriptor; + + if ( renderContext.textures === null ) { + + descriptor = this._getDefaultRenderPassDescriptor(); + + } else { + + descriptor = this._getRenderPassDescriptor( renderContext ); + + } + + this.initTimestampQuery( renderContext, descriptor ); + + descriptor.occlusionQuerySet = occlusionQuerySet; + + const depthStencilAttachment = descriptor.depthStencilAttachment; + + if ( renderContext.textures !== null ) { + + const colorAttachments = descriptor.colorAttachments; + + for ( let i = 0; i < colorAttachments.length; i ++ ) { + + const colorAttachment = colorAttachments[ i ]; + + if ( renderContext.clearColor ) { + + colorAttachment.clearValue = renderContext.clearColorValue; + colorAttachment.loadOp = GPULoadOp.Clear; + colorAttachment.storeOp = GPUStoreOp.Store; + + } else { + + colorAttachment.loadOp = GPULoadOp.Load; + colorAttachment.storeOp = GPUStoreOp.Store; + + } + + } + + } else { + + const colorAttachment = descriptor.colorAttachments[ 0 ]; + + if ( renderContext.clearColor ) { + + colorAttachment.clearValue = renderContext.clearColorValue; + colorAttachment.loadOp = GPULoadOp.Clear; + colorAttachment.storeOp = GPUStoreOp.Store; + + } else { + + colorAttachment.loadOp = GPULoadOp.Load; + colorAttachment.storeOp = GPUStoreOp.Store; + + } + + } + + // + + if ( renderContext.depth ) { + + if ( renderContext.clearDepth ) { + + depthStencilAttachment.depthClearValue = renderContext.clearDepthValue; + depthStencilAttachment.depthLoadOp = GPULoadOp.Clear; + depthStencilAttachment.depthStoreOp = GPUStoreOp.Store; + + } else { + + depthStencilAttachment.depthLoadOp = GPULoadOp.Load; + depthStencilAttachment.depthStoreOp = GPUStoreOp.Store; + + } + + } + + if ( renderContext.stencil ) { + + if ( renderContext.clearStencil ) { + + depthStencilAttachment.stencilClearValue = renderContext.clearStencilValue; + depthStencilAttachment.stencilLoadOp = GPULoadOp.Clear; + depthStencilAttachment.stencilStoreOp = GPUStoreOp.Store; + + } else { + + depthStencilAttachment.stencilLoadOp = GPULoadOp.Load; + depthStencilAttachment.stencilStoreOp = GPUStoreOp.Store; + + } + + } + + // + + const encoder = device.createCommandEncoder( { label: 'renderContext_' + renderContext.id } ); + const currentPass = encoder.beginRenderPass( descriptor ); + + // + + renderContextData.descriptor = descriptor; + renderContextData.encoder = encoder; + renderContextData.currentPass = currentPass; + renderContextData.currentSets = { attributes: {} }; + + // + + if ( renderContext.viewport ) { + + this.updateViewport( renderContext ); + + } + + if ( renderContext.scissor ) { + + const { x, y, width, height } = renderContext.scissorValue; + + currentPass.setScissorRect( x, renderContext.height - height - y, width, height ); + + } + + } + + finishRender( renderContext ) { + + const renderContextData = this.get( renderContext ); + const occlusionQueryCount = renderContext.occlusionQueryCount; + + if ( renderContextData.renderBundles !== undefined && renderContextData.renderBundles.length > 0 ) { + + renderContextData.registerBundlesPhase = false; + renderContextData.currentPass.executeBundles( renderContextData.renderBundles ); + + } + + if ( occlusionQueryCount > renderContextData.occlusionQueryIndex ) { + + renderContextData.currentPass.endOcclusionQuery(); + + } + + renderContextData.currentPass.end(); + + if ( occlusionQueryCount > 0 ) { + + const bufferSize = occlusionQueryCount * 8; // 8 byte entries for query results + + // + + let queryResolveBuffer = this.occludedResolveCache.get( bufferSize ); + + if ( queryResolveBuffer === undefined ) { + + queryResolveBuffer = this.device.createBuffer( + { + size: bufferSize, + usage: GPUBufferUsage.QUERY_RESOLVE | GPUBufferUsage.COPY_SRC + } + ); + + this.occludedResolveCache.set( bufferSize, queryResolveBuffer ); + + } + + // + + const readBuffer = this.device.createBuffer( + { + size: bufferSize, + usage: GPUBufferUsage.COPY_DST | GPUBufferUsage.MAP_READ + } + ); + + // two buffers required here - WebGPU doesn't allow usage of QUERY_RESOLVE & MAP_READ to be combined + renderContextData.encoder.resolveQuerySet( renderContextData.occlusionQuerySet, 0, occlusionQueryCount, queryResolveBuffer, 0 ); + renderContextData.encoder.copyBufferToBuffer( queryResolveBuffer, 0, readBuffer, 0, bufferSize ); + + renderContextData.occlusionQueryBuffer = readBuffer; + + // + + this.resolveOccludedAsync( renderContext ); + + } + + this.prepareTimestampBuffer( renderContext, renderContextData.encoder ); + + this.device.queue.submit( [ renderContextData.encoder.finish() ] ); + + + // + + if ( renderContext.textures !== null ) { + + const textures = renderContext.textures; + + for ( let i = 0; i < textures.length; i ++ ) { + + const texture = textures[ i ]; + + if ( texture.generateMipmaps === true ) { + + this.textureUtils.generateMipmaps( texture ); + + } + + } + + } + + } + + isOccluded( renderContext, object ) { + + const renderContextData = this.get( renderContext ); + + return renderContextData.occluded && renderContextData.occluded.has( object ); + + } + + async resolveOccludedAsync( renderContext ) { + + const renderContextData = this.get( renderContext ); + + // handle occlusion query results + + const { currentOcclusionQueryBuffer, currentOcclusionQueryObjects } = renderContextData; + + if ( currentOcclusionQueryBuffer && currentOcclusionQueryObjects ) { + + const occluded = new WeakSet(); + + renderContextData.currentOcclusionQueryObjects = null; + renderContextData.currentOcclusionQueryBuffer = null; + + await currentOcclusionQueryBuffer.mapAsync( GPUMapMode.READ ); + + const buffer = currentOcclusionQueryBuffer.getMappedRange(); + const results = new BigUint64Array( buffer ); + + for ( let i = 0; i < currentOcclusionQueryObjects.length; i ++ ) { + + if ( results[ i ] !== BigInt( 0 ) ) { + + occluded.add( currentOcclusionQueryObjects[ i ] ); + + } + + } + + currentOcclusionQueryBuffer.destroy(); + + renderContextData.occluded = occluded; + + } + + } + + updateViewport( renderContext ) { + + const { currentPass } = this.get( renderContext ); + const { x, y, width, height, minDepth, maxDepth } = renderContext.viewportValue; + + currentPass.setViewport( x, renderContext.height - height - y, width, height, minDepth, maxDepth ); + + } + + clear( color, depth, stencil, renderTargetData = null ) { + + const device = this.device; + const renderer = this.renderer; + + let colorAttachments = []; + + let depthStencilAttachment; + let clearValue; + + let supportsDepth; + let supportsStencil; + + if ( color ) { + + const clearColor = this.getClearColor(); + + clearValue = { r: clearColor.r, g: clearColor.g, b: clearColor.b, a: clearColor.a }; + + } + + if ( renderTargetData === null ) { + + supportsDepth = renderer.depth; + supportsStencil = renderer.stencil; + + const descriptor = this._getDefaultRenderPassDescriptor(); + + if ( color ) { + + colorAttachments = descriptor.colorAttachments; + + const colorAttachment = colorAttachments[ 0 ]; + + colorAttachment.clearValue = clearValue; + colorAttachment.loadOp = GPULoadOp.Clear; + colorAttachment.storeOp = GPUStoreOp.Store; + + } + + if ( supportsDepth || supportsStencil ) { + + depthStencilAttachment = descriptor.depthStencilAttachment; + + } + + } else { + + supportsDepth = renderTargetData.depth; + supportsStencil = renderTargetData.stencil; + + if ( color ) { + + for ( const texture of renderTargetData.textures ) { + + const textureData = this.get( texture ); + const textureView = textureData.texture.createView(); + + let view, resolveTarget; + + if ( textureData.msaaTexture !== undefined ) { + + view = textureData.msaaTexture.createView(); + resolveTarget = textureView; + + } else { + + view = textureView; + resolveTarget = undefined; + + } + + colorAttachments.push( { + view, + resolveTarget, + clearValue, + loadOp: GPULoadOp.Clear, + storeOp: GPUStoreOp.Store + } ); + + } + + } + + if ( supportsDepth || supportsStencil ) { + + const depthTextureData = this.get( renderTargetData.depthTexture ); + + depthStencilAttachment = { + view: depthTextureData.texture.createView() + }; + + } + + } + + // + + if ( supportsDepth ) { + + if ( depth ) { + + depthStencilAttachment.depthLoadOp = GPULoadOp.Clear; + depthStencilAttachment.depthClearValue = renderer.getClearDepth(); + depthStencilAttachment.depthStoreOp = GPUStoreOp.Store; + + } else { + + depthStencilAttachment.depthLoadOp = GPULoadOp.Load; + depthStencilAttachment.depthStoreOp = GPUStoreOp.Store; + + } + + } + + // + + if ( supportsStencil ) { + + if ( stencil ) { + + depthStencilAttachment.stencilLoadOp = GPULoadOp.Clear; + depthStencilAttachment.stencilClearValue = renderer.getClearStencil(); + depthStencilAttachment.stencilStoreOp = GPUStoreOp.Store; + + } else { + + depthStencilAttachment.stencilLoadOp = GPULoadOp.Load; + depthStencilAttachment.stencilStoreOp = GPUStoreOp.Store; + + } + + } + + // + + const encoder = device.createCommandEncoder( {} ); + const currentPass = encoder.beginRenderPass( { + colorAttachments, + depthStencilAttachment + } ); + + currentPass.end(); + + device.queue.submit( [ encoder.finish() ] ); + + } + + // compute + + beginCompute( computeGroup ) { + + const groupGPU = this.get( computeGroup ); + + + const descriptor = {}; + + this.initTimestampQuery( computeGroup, descriptor ); + + groupGPU.cmdEncoderGPU = this.device.createCommandEncoder(); + + groupGPU.passEncoderGPU = groupGPU.cmdEncoderGPU.beginComputePass( descriptor ); + + } + + compute( computeGroup, computeNode, bindings, pipeline ) { + + const { passEncoderGPU } = this.get( computeGroup ); + + // pipeline + + const pipelineGPU = this.get( pipeline ).pipeline; + passEncoderGPU.setPipeline( pipelineGPU ); + + // bind groups + + for ( let i = 0, l = bindings.length; i < l; i ++ ) { + + const bindGroup = bindings[ i ]; + const bindingsData = this.get( bindGroup ); + + passEncoderGPU.setBindGroup( i, bindingsData.group ); + + } + + passEncoderGPU.dispatchWorkgroups( computeNode.dispatchCount ); + + } + + finishCompute( computeGroup ) { + + const groupData = this.get( computeGroup ); + + groupData.passEncoderGPU.end(); + + this.prepareTimestampBuffer( computeGroup, groupData.cmdEncoderGPU ); + + this.device.queue.submit( [ groupData.cmdEncoderGPU.finish() ] ); + + } + + // render object + + draw( renderObject, info ) { + + const { object, geometry, context, pipeline } = renderObject; + + const bindings = renderObject.getBindings(); + const contextData = this.get( context ); + const pipelineGPU = this.get( pipeline ).pipeline; + const currentSets = contextData.currentSets; + + const renderObjectData = this.get( renderObject ); + + const { bundleEncoder, renderBundle, lastPipelineGPU } = renderObjectData; + + const renderContextData = this.get( context ); + + if ( renderContextData.registerBundlesPhase === true && bundleEncoder !== undefined && lastPipelineGPU === pipelineGPU ) { + + renderContextData.renderBundles.push( renderBundle ); + return; + + } + + const passEncoderGPU = this.renderer._currentRenderBundle ? this.createBundleEncoder( context, renderObject ) : contextData.currentPass; + + // pipeline + + if ( currentSets.pipeline !== pipelineGPU ) { + + passEncoderGPU.setPipeline( pipelineGPU ); + + currentSets.pipeline = pipelineGPU; + + } + + // bind groups + + for ( let i = 0, l = bindings.length; i < l; i ++ ) { + + const bindGroup = bindings[ i ]; + const bindingsData = this.get( bindGroup ); + + passEncoderGPU.setBindGroup( i, bindingsData.group ); + + } + + // attributes + + const index = renderObject.getIndex(); + + const hasIndex = ( index !== null ); + + // index + + if ( hasIndex === true ) { + + if ( currentSets.index !== index ) { + + const buffer = this.get( index ).buffer; + const indexFormat = ( index.array instanceof Uint16Array ) ? GPUIndexFormat.Uint16 : GPUIndexFormat.Uint32; + + passEncoderGPU.setIndexBuffer( buffer, indexFormat ); + + currentSets.index = index; + + } + + } + + // vertex buffers + + const vertexBuffers = renderObject.getVertexBuffers(); + + for ( let i = 0, l = vertexBuffers.length; i < l; i ++ ) { + + const vertexBuffer = vertexBuffers[ i ]; + + if ( currentSets.attributes[ i ] !== vertexBuffer ) { + + const buffer = this.get( vertexBuffer ).buffer; + passEncoderGPU.setVertexBuffer( i, buffer ); + + currentSets.attributes[ i ] = vertexBuffer; + + } + + } + + // occlusion queries - handle multiple consecutive draw calls for an object + + if ( contextData.occlusionQuerySet !== undefined ) { + + const lastObject = contextData.lastOcclusionObject; + + if ( lastObject !== object ) { + + if ( lastObject !== null && lastObject.occlusionTest === true ) { + + passEncoderGPU.endOcclusionQuery(); + contextData.occlusionQueryIndex ++; + + } + + if ( object.occlusionTest === true ) { + + passEncoderGPU.beginOcclusionQuery( contextData.occlusionQueryIndex ); + contextData.occlusionQueryObjects[ contextData.occlusionQueryIndex ] = object; + + } + + contextData.lastOcclusionObject = object; + + } + + } + + // draw + + const drawRange = renderObject.drawRange; + const firstVertex = drawRange.start; + + const instanceCount = this.getInstanceCount( renderObject ); + if ( instanceCount === 0 ) return; + + if ( object.isBatchedMesh === true ) { + + const starts = object._multiDrawStarts; + const counts = object._multiDrawCounts; + const drawCount = object._multiDrawCount; + const drawInstances = object._multiDrawInstances; + + const bytesPerElement = index.bytesPerElement || 1; + + for ( let i = 0; i < drawCount; i ++ ) { + + const count = drawInstances ? drawInstances[ i ] : 1; + const firstInstance = count > 1 ? 0 : i; + + passEncoderGPU.drawIndexed( counts[ i ] / bytesPerElement, count, starts[ i ] / 4, 0, firstInstance ); + + } + + } else if ( hasIndex === true ) { + + const indexCount = ( drawRange.count !== Infinity ) ? drawRange.count : index.count; + + passEncoderGPU.drawIndexed( indexCount, instanceCount, firstVertex, 0, 0 ); + + info.update( object, indexCount, instanceCount ); + + } else { + + const positionAttribute = geometry.attributes.position; + const vertexCount = ( drawRange.count !== Infinity ) ? drawRange.count : positionAttribute.count; + + passEncoderGPU.draw( vertexCount, instanceCount, firstVertex, 0 ); + + info.update( object, vertexCount, instanceCount ); + + } + + if ( this.renderer._currentRenderBundle ) { + + const renderBundle = passEncoderGPU.finish(); + renderObjectData.lastPipelineGPU = pipelineGPU; + renderObjectData.renderBundle = renderBundle; + renderObjectData.bundleEncoder = passEncoderGPU; + + } + + } + + // cache key + + needsRenderUpdate( renderObject ) { + + const data = this.get( renderObject ); + + const { object, material } = renderObject; + + const utils = this.utils; + + const sampleCount = utils.getSampleCount( renderObject.context ); + const colorSpace = utils.getCurrentColorSpace( renderObject.context ); + const colorFormat = utils.getCurrentColorFormat( renderObject.context ); + const depthStencilFormat = utils.getCurrentDepthStencilFormat( renderObject.context ); + const primitiveTopology = utils.getPrimitiveTopology( object, material ); + + let needsUpdate = false; + + if ( data.material !== material || data.materialVersion !== material.version || + data.transparent !== material.transparent || data.blending !== material.blending || data.premultipliedAlpha !== material.premultipliedAlpha || + data.blendSrc !== material.blendSrc || data.blendDst !== material.blendDst || data.blendEquation !== material.blendEquation || + data.blendSrcAlpha !== material.blendSrcAlpha || data.blendDstAlpha !== material.blendDstAlpha || data.blendEquationAlpha !== material.blendEquationAlpha || + data.colorWrite !== material.colorWrite || data.depthWrite !== material.depthWrite || data.depthTest !== material.depthTest || data.depthFunc !== material.depthFunc || + data.stencilWrite !== material.stencilWrite || data.stencilFunc !== material.stencilFunc || + data.stencilFail !== material.stencilFail || data.stencilZFail !== material.stencilZFail || data.stencilZPass !== material.stencilZPass || + data.stencilFuncMask !== material.stencilFuncMask || data.stencilWriteMask !== material.stencilWriteMask || + data.side !== material.side || data.alphaToCoverage !== material.alphaToCoverage || + data.sampleCount !== sampleCount || data.colorSpace !== colorSpace || + data.colorFormat !== colorFormat || data.depthStencilFormat !== depthStencilFormat || + data.primitiveTopology !== primitiveTopology || + data.clippingContextVersion !== renderObject.clippingContextVersion + ) { + + data.material = material; data.materialVersion = material.version; + data.transparent = material.transparent; data.blending = material.blending; data.premultipliedAlpha = material.premultipliedAlpha; + data.blendSrc = material.blendSrc; data.blendDst = material.blendDst; data.blendEquation = material.blendEquation; + data.blendSrcAlpha = material.blendSrcAlpha; data.blendDstAlpha = material.blendDstAlpha; data.blendEquationAlpha = material.blendEquationAlpha; + data.colorWrite = material.colorWrite; + data.depthWrite = material.depthWrite; data.depthTest = material.depthTest; data.depthFunc = material.depthFunc; + data.stencilWrite = material.stencilWrite; data.stencilFunc = material.stencilFunc; + data.stencilFail = material.stencilFail; data.stencilZFail = material.stencilZFail; data.stencilZPass = material.stencilZPass; + data.stencilFuncMask = material.stencilFuncMask; data.stencilWriteMask = material.stencilWriteMask; + data.side = material.side; data.alphaToCoverage = material.alphaToCoverage; + data.sampleCount = sampleCount; + data.colorSpace = colorSpace; + data.colorFormat = colorFormat; + data.depthStencilFormat = depthStencilFormat; + data.primitiveTopology = primitiveTopology; + data.clippingContextVersion = renderObject.clippingContextVersion; + + needsUpdate = true; + + } + + return needsUpdate; + + } + + getRenderCacheKey( renderObject ) { + + const { object, material } = renderObject; + + const utils = this.utils; + const renderContext = renderObject.context; + + return [ + material.transparent, material.blending, material.premultipliedAlpha, + material.blendSrc, material.blendDst, material.blendEquation, + material.blendSrcAlpha, material.blendDstAlpha, material.blendEquationAlpha, + material.colorWrite, + material.depthWrite, material.depthTest, material.depthFunc, + material.stencilWrite, material.stencilFunc, + material.stencilFail, material.stencilZFail, material.stencilZPass, + material.stencilFuncMask, material.stencilWriteMask, + material.side, + utils.getSampleCount( renderContext ), + utils.getCurrentColorSpace( renderContext ), utils.getCurrentColorFormat( renderContext ), utils.getCurrentDepthStencilFormat( renderContext ), + utils.getPrimitiveTopology( object, material ), + renderObject.clippingContextVersion + ].join(); + + } + + // textures + + createSampler( texture ) { + + this.textureUtils.createSampler( texture ); + + } + + destroySampler( texture ) { + + this.textureUtils.destroySampler( texture ); + + } + + createDefaultTexture( texture ) { + + this.textureUtils.createDefaultTexture( texture ); + + } + + createTexture( texture, options ) { + + this.textureUtils.createTexture( texture, options ); + + } + + updateTexture( texture, options ) { + + this.textureUtils.updateTexture( texture, options ); + + } + + generateMipmaps( texture ) { + + this.textureUtils.generateMipmaps( texture ); + + } + + destroyTexture( texture ) { + + this.textureUtils.destroyTexture( texture ); + + } + + copyTextureToBuffer( texture, x, y, width, height ) { + + return this.textureUtils.copyTextureToBuffer( texture, x, y, width, height ); + + } + + + initTimestampQuery( renderContext, descriptor ) { + + if ( ! this.hasFeature( GPUFeatureName.TimestampQuery ) || ! this.trackTimestamp ) return; + + const renderContextData = this.get( renderContext ); + + if ( ! renderContextData.timeStampQuerySet ) { + + // Create a GPUQuerySet which holds 2 timestamp query results: one for the + // beginning and one for the end of compute pass execution. + const timeStampQuerySet = this.device.createQuerySet( { type: 'timestamp', count: 2 } ); + + const timestampWrites = { + querySet: timeStampQuerySet, + beginningOfPassWriteIndex: 0, // Write timestamp in index 0 when pass begins. + endOfPassWriteIndex: 1, // Write timestamp in index 1 when pass ends. + }; + + Object.assign( descriptor, { + timestampWrites, + } ); + + renderContextData.timeStampQuerySet = timeStampQuerySet; + + } + + } + + // timestamp utils + + prepareTimestampBuffer( renderContext, encoder ) { + + if ( ! this.hasFeature( GPUFeatureName.TimestampQuery ) || ! this.trackTimestamp ) return; + + const renderContextData = this.get( renderContext ); + + const size = 2 * BigInt64Array.BYTES_PER_ELEMENT; + + if ( renderContextData.currentTimestampQueryBuffers === undefined ) { + + renderContextData.currentTimestampQueryBuffers = { + resolveBuffer: this.device.createBuffer( { + label: 'timestamp resolve buffer', + size: size, + usage: GPUBufferUsage.QUERY_RESOLVE | GPUBufferUsage.COPY_SRC, + } ), + resultBuffer: this.device.createBuffer( { + label: 'timestamp result buffer', + size: size, + usage: GPUBufferUsage.COPY_DST | GPUBufferUsage.MAP_READ, + } ), + isMappingPending: false, + }; + + } + + const { resolveBuffer, resultBuffer, isMappingPending } = renderContextData.currentTimestampQueryBuffers; + + if ( isMappingPending === true ) return; + + encoder.resolveQuerySet( renderContextData.timeStampQuerySet, 0, 2, resolveBuffer, 0 ); + encoder.copyBufferToBuffer( resolveBuffer, 0, resultBuffer, 0, size ); + + } + + async resolveTimestampAsync( renderContext, type = 'render' ) { + + if ( ! this.hasFeature( GPUFeatureName.TimestampQuery ) || ! this.trackTimestamp ) return; + + const renderContextData = this.get( renderContext ); + + if ( renderContextData.currentTimestampQueryBuffers === undefined ) return; + + const { resultBuffer, isMappingPending } = renderContextData.currentTimestampQueryBuffers; + + if ( isMappingPending === true ) return; + + renderContextData.currentTimestampQueryBuffers.isMappingPending = true; + + resultBuffer.mapAsync( GPUMapMode.READ ).then( () => { + + const times = new BigUint64Array( resultBuffer.getMappedRange() ); + const duration = Number( times[ 1 ] - times[ 0 ] ) / 1000000; + + + this.renderer.info.updateTimestamp( type, duration ); + + resultBuffer.unmap(); + + renderContextData.currentTimestampQueryBuffers.isMappingPending = false; + + } ); + + } + + // node builder + + createNodeBuilder( object, renderer ) { + + return new WGSLNodeBuilder( object, renderer ); + + } + + // program + + createProgram( program ) { + + const programGPU = this.get( program ); + + programGPU.module = { + module: this.device.createShaderModule( { code: program.code, label: program.stage } ), + entryPoint: 'main' + }; + + } + + destroyProgram( program ) { + + this.delete( program ); + + } + + // pipelines + + createRenderPipeline( renderObject, promises ) { + + this.pipelineUtils.createRenderPipeline( renderObject, promises ); + + } + + createComputePipeline( computePipeline, bindings ) { + + this.pipelineUtils.createComputePipeline( computePipeline, bindings ); + + } + + createBundleEncoder( renderContext, renderObject ) { + + return this.pipelineUtils.createBundleEncoder( renderContext, renderObject ); + + } + + // bindings + + createBindings( bindGroup ) { + + this.bindingUtils.createBindings( bindGroup ); + + } + + updateBindings( bindGroup ) { + + this.bindingUtils.createBindings( bindGroup ); + + } + + updateBinding( binding ) { + + this.bindingUtils.updateBinding( binding ); + + } + + // attributes + + createIndexAttribute( attribute ) { + + this.attributeUtils.createAttribute( attribute, GPUBufferUsage.INDEX | GPUBufferUsage.COPY_SRC | GPUBufferUsage.COPY_DST ); + + } + + createAttribute( attribute ) { + + this.attributeUtils.createAttribute( attribute, GPUBufferUsage.VERTEX | GPUBufferUsage.COPY_SRC | GPUBufferUsage.COPY_DST ); + + } + + createStorageAttribute( attribute ) { + + this.attributeUtils.createAttribute( attribute, GPUBufferUsage.STORAGE | GPUBufferUsage.VERTEX | GPUBufferUsage.COPY_SRC | GPUBufferUsage.COPY_DST ); + + } + + updateAttribute( attribute ) { + + this.attributeUtils.updateAttribute( attribute ); + + } + + destroyAttribute( attribute ) { + + this.attributeUtils.destroyAttribute( attribute ); + + } + + // canvas + + updateSize() { + + this.colorBuffer = this.textureUtils.getColorBuffer(); + this.defaultRenderPassdescriptor = null; + + } + + // utils public + + getMaxAnisotropy() { + + return 16; + + } + + hasFeature( name ) { + + return this.device.features.has( name ); + + } + + copyTextureToTexture( srcTexture, dstTexture, srcRegion = null, dstPosition = null, level = 0 ) { + + let dstX = 0; + let dstY = 0; + + let srcX = 0; + let srcY = 0; + + let srcWidth = srcTexture.image.width; + let srcHeight = srcTexture.image.height; + + if ( srcRegion !== null ) { + + srcX = srcRegion.x; + srcY = srcRegion.y; + srcWidth = srcRegion.width; + srcHeight = srcRegion.height; + + } + + if ( dstPosition !== null ) { + + dstX = dstPosition.x; + dstY = dstPosition.y; + + } + + const encoder = this.device.createCommandEncoder( { label: 'copyTextureToTexture_' + srcTexture.id + '_' + dstTexture.id } ); + + const sourceGPU = this.get( srcTexture ).texture; + const destinationGPU = this.get( dstTexture ).texture; + + encoder.copyTextureToTexture( + { + texture: sourceGPU, + mipLevel: level, + origin: { x: srcX, y: srcY, z: 0 } + }, + { + texture: destinationGPU, + mipLevel: level, + origin: { x: dstX, y: dstY, z: 0 } + }, + [ + srcWidth, + srcHeight + ] + ); + + this.device.queue.submit( [ encoder.finish() ] ); + + } + + copyFramebufferToTexture( texture, renderContext ) { + + const renderContextData = this.get( renderContext ); + + const { encoder, descriptor } = renderContextData; + + let sourceGPU = null; + + if ( renderContext.renderTarget ) { + + if ( texture.isDepthTexture ) { + + sourceGPU = this.get( renderContext.depthTexture ).texture; + + } else { + + sourceGPU = this.get( renderContext.textures[ 0 ] ).texture; + + } + + } else { + + if ( texture.isDepthTexture ) { + + sourceGPU = this.textureUtils.getDepthBuffer( renderContext.depth, renderContext.stencil ); + + } else { + + sourceGPU = this.context.getCurrentTexture(); + + } + + } + + const destinationGPU = this.get( texture ).texture; + + if ( sourceGPU.format !== destinationGPU.format ) { + + console.error( 'WebGPUBackend: copyFramebufferToTexture: Source and destination formats do not match.', sourceGPU.format, destinationGPU.format ); + + return; + + } + + renderContextData.currentPass.end(); + + encoder.copyTextureToTexture( + { + texture: sourceGPU, + origin: { x: 0, y: 0, z: 0 } + }, + { + texture: destinationGPU + }, + [ + texture.image.width, + texture.image.height + ] + ); + + if ( texture.generateMipmaps ) this.textureUtils.generateMipmaps( texture ); + + descriptor.colorAttachments[ 0 ].loadOp = GPULoadOp.Load; + if ( renderContext.depth ) descriptor.depthStencilAttachment.depthLoadOp = GPULoadOp.Load; + if ( renderContext.stencil ) descriptor.depthStencilAttachment.stencilLoadOp = GPULoadOp.Load; + + renderContextData.currentPass = encoder.beginRenderPass( descriptor ); + renderContextData.currentSets = { attributes: {} }; + + } + +} + +/* +const debugHandler = { + + get: function ( target, name ) { + + // Add |update + if ( /^(create|destroy)/.test( name ) ) console.log( 'WebGPUBackend.' + name ); + + return target[ name ]; + + } + +}; +*/ +class WebGPURenderer extends Renderer { + + constructor( parameters = {} ) { + + let BackendClass; + + if ( parameters.forceWebGL ) { + + BackendClass = WebGLBackend; + + } else if ( WebGPU.isAvailable() ) { + + BackendClass = WebGPUBackend; + + } else { + + BackendClass = WebGLBackend; + + console.warn( 'THREE.WebGPURenderer: WebGPU is not available, running under WebGL2 backend.' ); + + } + + const backend = new BackendClass( parameters ); + + //super( new Proxy( backend, debugHandler ) ); + super( backend, parameters ); + + this.isWebGPURenderer = true; + + } + +} + +const quadMesh = new QuadMesh( new NodeMaterial() ); + +class PostProcessing { + + constructor( renderer, outputNode = vec4( 0, 0, 1, 1 ) ) { + + this.renderer = renderer; + this.outputNode = outputNode; + + } + + render() { + + quadMesh.material.fragmentNode = this.outputNode; + + quadMesh.render( this.renderer ); + + } + + renderAsync() { + + quadMesh.material.fragmentNode = this.outputNode; + + return quadMesh.renderAsync( this.renderer ); + + } + + set needsUpdate( value ) { + + quadMesh.material.needsUpdate = value; + + } + +} + +class StorageTexture extends Texture { + + constructor( width = 1, height = 1 ) { + + super(); + + this.image = { width, height }; + + this.magFilter = LinearFilter; + this.minFilter = LinearFilter; + + this.isStorageTexture = true; + + } + +} + +class StorageBufferAttribute extends BufferAttribute { + + constructor( array, itemSize, typeClass = Float32Array ) { + + if ( ArrayBuffer.isView( array ) === false ) array = new typeClass( array * itemSize ); + + super( array, itemSize ); + + this.isStorageBufferAttribute = true; + + } + +} + +class StorageInstancedBufferAttribute extends InstancedBufferAttribute { + + constructor( array, itemSize, typeClass = Float32Array ) { + + if ( ArrayBuffer.isView( array ) === false ) array = new typeClass( array * itemSize ); + + super( array, itemSize ); + + this.isStorageInstancedBufferAttribute = true; + + } + +} + +if ( typeof __THREE_DEVTOOLS__ !== 'undefined' ) { + + __THREE_DEVTOOLS__.dispatchEvent( new CustomEvent( 'register', { detail: { + revision: REVISION, + } } ) ); + +} + +if ( typeof window !== 'undefined' ) { + + if ( window.__THREE__ ) { + + console.warn( 'WARNING: Multiple instances of Three.js being imported.' ); + + } else { + + window.__THREE__ = REVISION; + + } + +} + +export { ACESFilmicToneMapping, AONode, AddEquation, AddOperation, AdditiveAnimationBlendMode, AdditiveBlending, AfterImageNode, AgXToneMapping, AlphaFormat, AlwaysCompare, AlwaysDepth, AlwaysStencilFunc, AmbientLight, AmbientLightNode, AnalyticLightNode, AnamorphicNode, AnimationAction, AnimationClip, AnimationLoader, AnimationMixer, AnimationObjectGroup, AnimationUtils, ArcCurve, ArrayCamera, ArrayElementNode, ArrowHelper, AssignNode, AttachedBindMode, AttributeNode, Audio, AudioAnalyser, AudioContext, AudioListener, AudioLoader, AxesHelper, BRDF_GGX, BRDF_Lambert, BackSide, BasicDepthPacking, BasicShadowMap, BatchNode, BatchedMesh, BlendModeNode, Bone, BooleanKeyframeTrack, Box2, Box3, Box3Helper, BoxGeometry, BoxHelper, Break, BufferAttribute, BufferAttributeNode, BufferGeometry, BufferGeometryLoader, BufferNode, BumpMapNode, BypassNode, ByteType, Cache, CacheNode, Camera, CameraHelper, CanvasTexture, CapsuleGeometry, CatmullRomCurve3, CheckerNode, CineonToneMapping, CircleGeometry, ClampToEdgeWrapping, Clock, CodeNode, Color, ColorAdjustmentNode, ColorKeyframeTrack, ColorManagement, ColorSpaceNode, CompressedArrayTexture, CompressedCubeTexture, CompressedTexture, CompressedTextureLoader, ComputeNode, CondNode, ConeGeometry, ConstNode, ConstantAlphaFactor, ConstantColorFactor, ContextNode, Continue, ConvertNode, CubeCamera, CubeReflectionMapping, CubeRefractionMapping, CubeTexture, CubeTextureLoader, CubeTextureNode, CubeUVReflectionMapping, CubicBezierCurve, CubicBezierCurve3, CubicInterpolant, CullFaceBack, CullFaceFront, CullFaceFrontBack, CullFaceNone, Curve, CurvePath, CustomBlending, CustomToneMapping, CylinderGeometry, Cylindrical, DFGApprox, D_GGX, Data3DTexture, DataArrayTexture, DataTexture, DataTextureLoader, DataUtils, DecrementStencilOp, DecrementWrapStencilOp, DefaultLoadingManager, DepthFormat, DepthOfFieldNode, DepthStencilFormat, DepthTexture, DetachedBindMode, DirectionalLight, DirectionalLightHelper, DirectionalLightNode, DiscardNode, DiscreteInterpolant, DisplayP3ColorSpace, DodecahedronGeometry, DotScreenNode, DoubleSide, DstAlphaFactor, DstColorFactor, DynamicCopyUsage, DynamicDrawUsage, DynamicReadUsage, EPSILON, EdgesGeometry, EllipseCurve, EnvironmentNode, EqualCompare, EqualDepth, EqualStencilFunc, EquirectUVNode, EquirectangularReflectionMapping, EquirectangularRefractionMapping, Euler, EventDispatcher, ExpressionNode, ExtrudeGeometry, F_Schlick, FileLoader, Float16BufferAttribute, Float32BufferAttribute, FloatType, Fog, FogExp2, FogExp2Node, FogNode, FogRangeNode, FramebufferTexture, FrontFacingNode, FrontSide, Frustum, FunctionCallNode, FunctionNode, FunctionOverloadingNode, GLBufferAttribute, GLSL1, GLSL3, GLSLNodeParser, GaussianBlurNode, GreaterCompare, GreaterDepth, GreaterEqualCompare, GreaterEqualDepth, GreaterEqualStencilFunc, GreaterStencilFunc, GridHelper, Group, HalfFloatType, HashNode, HemisphereLight, HemisphereLightHelper, HemisphereLightNode, IESSpotLight, IESSpotLightNode, INFINITY, IcosahedronGeometry, If, ImageBitmapLoader, ImageLoader, ImageUtils, IncrementStencilOp, IncrementWrapStencilOp, IndexNode, InstanceNode, InstancedBufferAttribute, InstancedBufferGeometry, InstancedInterleavedBuffer, InstancedMesh, InstancedPointsNodeMaterial, Int16BufferAttribute, Int32BufferAttribute, Int8BufferAttribute, IntType, InterleavedBuffer, InterleavedBufferAttribute, Interpolant, InterpolateDiscrete, InterpolateLinear, InterpolateSmooth, InvertStencilOp, IrradianceNode, JoinNode, KeepStencilOp, KeyframeTrack, LOD, LatheGeometry, Layers, LessCompare, LessDepth, LessEqualCompare, LessEqualDepth, LessEqualStencilFunc, LessStencilFunc, Light, LightNode, LightProbe, LightingContextNode, LightingModel, LightingNode, LightsNode, Line, Line2NodeMaterial, Line3, LineBasicMaterial, LineBasicNodeMaterial, LineCurve, LineCurve3, LineDashedMaterial, LineDashedNodeMaterial, LineLoop, LineSegments, LinearDisplayP3ColorSpace, LinearFilter, LinearInterpolant, LinearMipMapLinearFilter, LinearMipMapNearestFilter, LinearMipmapLinearFilter, LinearMipmapNearestFilter, LinearSRGBColorSpace, LinearToneMapping, LinearTransfer, Loader, LoaderUtils, LoadingManager, LoopNode, LoopOnce, LoopPingPong, LoopRepeat, LuminanceAlphaFormat, LuminanceFormat, MOUSE, MatcapUVNode, Material, MaterialLoader, MaterialNode, MaterialReferenceNode, MathNode, MathUtils, Matrix3, Matrix4, MaxEquation, MaxMipLevelNode, Mesh, MeshBasicMaterial, MeshBasicNodeMaterial, MeshDepthMaterial, MeshDistanceMaterial, MeshLambertMaterial, MeshLambertNodeMaterial, MeshMatcapMaterial, MeshMatcapNodeMaterial, MeshNormalMaterial, MeshNormalNodeMaterial, MeshPhongMaterial, MeshPhongNodeMaterial, MeshPhysicalMaterial, MeshPhysicalNodeMaterial, MeshSSSNodeMaterial, MeshStandardMaterial, MeshStandardNodeMaterial, MeshToonMaterial, MeshToonNodeMaterial, MinEquation, MirroredRepeatWrapping, MixOperation, ModelNode, ModelViewProjectionNode, MorphNode, MultiplyBlending, MultiplyOperation, NearestFilter, NearestMipMapLinearFilter, NearestMipMapNearestFilter, NearestMipmapLinearFilter, NearestMipmapNearestFilter, NeutralToneMapping, NeverCompare, NeverDepth, NeverStencilFunc, NoBlending, NoColorSpace, NoToneMapping, Node, NodeAttribute, NodeBuilder, NodeCache, NodeCode, NodeFrame, NodeFunctionInput, NodeKeywords, NodeLoader, NodeMaterial, NodeMaterialLoader, NodeObjectLoader, NodeShaderStage, NodeType, NodeUniform, NodeUpdateType, NodeUtils, NodeVar, NodeVarying, NormalAnimationBlendMode, NormalBlending, NormalMapNode, NotEqualCompare, NotEqualDepth, NotEqualStencilFunc, NumberKeyframeTrack, Object3D, Object3DNode, ObjectLoader, ObjectSpaceNormalMap, OctahedronGeometry, OneFactor, OneMinusConstantAlphaFactor, OneMinusConstantColorFactor, OneMinusDstAlphaFactor, OneMinusDstColorFactor, OneMinusSrcAlphaFactor, OneMinusSrcColorFactor, OperatorNode, OrthographicCamera, OscNode, OutputStructNode, P3Primaries, PCFShadowMap, PCFSoftShadowMap, PI, PI2, PMREMGenerator, PMREMNode, PackingNode, ParameterNode, PassNode, Path, PerspectiveCamera, PhongLightingModel, PhysicalLightingModel, Plane, PlaneGeometry, PlaneHelper, PointLight, PointLightHelper, PointLightNode, PointUVNode, Points, PointsMaterial, PointsNodeMaterial, PolarGridHelper, PolyhedronGeometry, PositionalAudio, PostProcessing, PosterizeNode, PropertyBinding, PropertyMixer, PropertyNode, QuadMesh, QuadraticBezierCurve, QuadraticBezierCurve3, Quaternion, QuaternionKeyframeTrack, QuaternionLinearInterpolant, RED_GREEN_RGTC2_Format, RED_RGTC1_Format, REVISION, RGBADepthPacking, RGBAFormat, RGBAIntegerFormat, RGBA_ASTC_10x10_Format, RGBA_ASTC_10x5_Format, RGBA_ASTC_10x6_Format, RGBA_ASTC_10x8_Format, RGBA_ASTC_12x10_Format, RGBA_ASTC_12x12_Format, RGBA_ASTC_4x4_Format, RGBA_ASTC_5x4_Format, RGBA_ASTC_5x5_Format, RGBA_ASTC_6x5_Format, RGBA_ASTC_6x6_Format, RGBA_ASTC_8x5_Format, RGBA_ASTC_8x6_Format, RGBA_ASTC_8x8_Format, RGBA_BPTC_Format, RGBA_ETC2_EAC_Format, RGBA_PVRTC_2BPPV1_Format, RGBA_PVRTC_4BPPV1_Format, RGBA_S3TC_DXT1_Format, RGBA_S3TC_DXT3_Format, RGBA_S3TC_DXT5_Format, RGBFormat, RGBIntegerFormat, RGBShiftNode, RGB_BPTC_SIGNED_Format, RGB_BPTC_UNSIGNED_Format, RGB_ETC1_Format, RGB_ETC2_Format, RGB_PVRTC_2BPPV1_Format, RGB_PVRTC_4BPPV1_Format, RGB_S3TC_DXT1_Format, RGFormat, RGIntegerFormat, RangeNode, RawShaderMaterial, Ray, Raycaster, Rec709Primaries, RectAreaLight, RectAreaLightNode, RedFormat, RedIntegerFormat, ReferenceNode, ReflectorNode, ReinhardToneMapping, RemapNode, RenderTarget, RendererReferenceNode, RepeatWrapping, ReplaceStencilOp, Return, ReverseSubtractEquation, RingGeometry, RotateNode, RotateUVNode, SIGNED_RED_GREEN_RGTC2_Format, SIGNED_RED_RGTC1_Format, SRGBColorSpace, SRGBTransfer, Scene, SceneNode, Schlick_to_F0, ScriptableNode, ScriptableValueNode, SetNode, ShaderMaterial, ShaderNode, ShadowMaterial, ShadowNodeMaterial, Shape, ShapeGeometry, ShapePath, ShapeUtils, ShortType, Skeleton, SkeletonHelper, SkinnedMesh, SkinningNode, SobelOperatorNode, Source, Sphere, SphereGeometry, Spherical, SphericalHarmonics3, SplineCurve, SplitNode, SpotLight, SpotLightHelper, SpotLightNode, Sprite, SpriteMaterial, SpriteNodeMaterial, SpriteSheetUVNode, SrcAlphaFactor, SrcAlphaSaturateFactor, SrcColorFactor, StackNode, StaticCopyUsage, StaticDrawUsage, StaticReadUsage, StereoCamera, StorageArrayElementNode, StorageBufferAttribute, StorageBufferNode, StorageInstancedBufferAttribute, StorageTexture, StorageTextureNode, StreamCopyUsage, StreamDrawUsage, StreamReadUsage, StringKeyframeTrack, SubtractEquation, SubtractiveBlending, TBNViewMatrix, TOUCH, TangentSpaceNormalMap, TempNode, TetrahedronGeometry, Texture, Texture3DNode, TextureBicubicNode, TextureLoader, TextureNode, TextureSizeNode, TimerNode, ToneMappingNode, TorusGeometry, TorusKnotGeometry, Triangle, TriangleFanDrawMode, TriangleStripDrawMode, TrianglesDrawMode, TriplanarTexturesNode, TubeGeometry, UVMapping, Uint16BufferAttribute, Uint32BufferAttribute, Uint8BufferAttribute, Uint8ClampedBufferAttribute, Uniform$1 as Uniform, UniformGroupNode, UniformNode, UniformsGroup$1 as UniformsGroup, UniformsNode, UnsignedByteType, UnsignedInt248Type, UnsignedInt5999Type, UnsignedIntType, UnsignedShort4444Type, UnsignedShort5551Type, UnsignedShortType, UserDataNode, VSMShadowMap, V_GGX_SmithCorrelated, VarNode, VaryingNode, Vector2, Vector3, Vector4, VectorKeyframeTrack, VertexColorNode, VideoTexture, ViewportDepthNode, ViewportDepthTextureNode, ViewportNode, ViewportSharedTextureNode, ViewportTextureNode, VolumeNodeMaterial, WebGL3DRenderTarget, WebGLArrayRenderTarget, WebGLCoordinateSystem, WebGLCubeRenderTarget, WebGLMultipleRenderTargets, WebGLRenderTarget, WebGPUCoordinateSystem, WebGPURenderer, WireframeGeometry, WrapAroundEnding, ZeroCurvatureEnding, ZeroFactor, ZeroSlopeEnding, ZeroStencilOp, abs, acos, add, addLightNode, addNodeClass, addNodeElement, addNodeMaterial, afterImage, all, alphaT, anamorphic, and, anisotropy, anisotropyB, anisotropyT, any, append, arrayBuffer, asin, assign, atan, atan2, attribute, backgroundBlurriness, backgroundIntensity, batch, bitAnd, bitNot, bitOr, bitXor, bitangentGeometry, bitangentLocal, bitangentView, bitangentWorld, bitcast, blur, bmat2, bmat3, bmat4, bool, buffer, bufferAttribute, bumpMap, burn, bvec2, bvec3, bvec4, bypass, cache, call, cameraFar, cameraLogDepth, cameraNear, cameraNormalMatrix, cameraPosition, cameraProjectionMatrix, cameraProjectionMatrixInverse, cameraViewMatrix, cameraWorldMatrix, cbrt, ceil, checker, clamp, clearcoat, clearcoatRoughness, code, color, colorSpaceToLinear, colorToDirection, compute, cond, context, convert, cos, createCanvasElement, createNodeFromType, createNodeMaterialFromType, cross, cubeTexture, dFdx, dFdy, dashSize, defaultBuildStages, defaultShaderStages, defined, degrees, densityFog, depth, depthPass, difference, diffuseColor, directionToColor, discard, distance, div, dodge, dof, dot, dotScreen, drawIndex, dynamicBufferAttribute, element, equal, equals, equirectUV, exp, exp2, expression, faceDirection, faceForward, float, floor, fog, fract, frameGroup, frameId, frontFacing, fwidth, gain, gapSize, gaussianBlur, getConstNodeType, getCurrentStack, getDirection, getDistanceAttenuation, getGeometryRoughness, getRoughness, global, glsl, glslFn, greaterThan, greaterThanEqual, hash, hue, imat2, imat3, imat4, instance, instanceIndex, instancedBufferAttribute, instancedDynamicBufferAttribute, int, inverseSqrt, iridescence, iridescenceIOR, iridescenceThickness, ivec2, ivec3, ivec4, js, label, length, lengthSq, lessThan, lessThanEqual, lightTargetDirection, lightingContext, lights, lightsNode, linearDepth, linearToColorSpace, linearTosRGB, log, log2, loop, lumaCoeffs, luminance, mat2, mat3, mat4, matcapUV, materialAlphaTest, materialAnisotropy, materialAnisotropyVector, materialClearcoat, materialClearcoatNormal, materialClearcoatRoughness, materialColor, materialDispersion, materialEmissive, materialIridescence, materialIridescenceIOR, materialIridescenceThickness, materialLineDashOffset, materialLineDashSize, materialLineGapSize, materialLineScale, materialLineWidth, materialMetalness, materialNormal, materialOpacity, materialPointWidth, materialReference, materialReflectivity, materialRotation, materialRoughness, materialSheen, materialSheenRoughness, materialShininess, materialSpecular, materialSpecularStrength, max$1 as max, maxMipLevel, metalness, min$1 as min, mix, mod, modelDirection, modelNormalMatrix, modelPosition, modelScale, modelViewMatrix, modelViewPosition, modelViewProjection, modelWorldMatrix, modelWorldMatrixInverse, morphReference, mul, mx_aastep, mx_cell_noise_float, mx_contrast, mx_fractal_noise_float, mx_fractal_noise_vec2, mx_fractal_noise_vec3, mx_fractal_noise_vec4, mx_hsvtorgb, mx_noise_float, mx_noise_vec3, mx_noise_vec4, mx_ramplr, mx_ramptb, mx_rgbtohsv, mx_safepower, mx_splitlr, mx_splittb, mx_srgb_texture_to_lin_rec709, mx_transform_uv, mx_worley_noise_float, mx_worley_noise_vec2, mx_worley_noise_vec3, negate, nodeArray, nodeImmutable, nodeObject, nodeObjects, nodeProxy, normalGeometry, normalLocal, normalMap, normalView, normalWorld, normalize, not, objectDirection, objectGroup, objectNormalMatrix, objectPosition, objectScale, objectViewMatrix, objectViewPosition, objectWorldMatrix, oneMinus, or, orthographicDepthToViewZ, oscSawtooth, oscSine, oscSquare, oscTriangle, output, outputStruct, overlay, overloadingFn, parabola, parallaxDirection, parallaxUV, parameter, pass, pcurve, perspectiveDepthToViewZ, pmremTexture, pointUV, pointWidth, positionGeometry, positionLocal, positionView, positionViewDirection, positionWorld, positionWorldDirection, posterize, pow, pow2, pow3, pow4, property, radians, range, rangeFog, reciprocal, reference, referenceBuffer, reflect, reflectVector, reflectView, reflector, refract, remainder, remap, remapClamp, renderGroup, rendererReference, rgbShift, rotate, rotateUV, roughness, round, sRGBToLinear, sampler, saturate, saturation, screen, scriptable, scriptableValue, setCurrentStack, shaderStages, sheen, sheenRoughness, shiftLeft, shiftRight, shininess, sign, sin, sinc, skinning, skinningReference, smoothstep, sobel, specularColor, split, spritesheetUV, sqrt, stack, step, storage, storageObject, storageTexture, string, sub, tan, tangentGeometry, tangentLocal, tangentView, tangentWorld, temp, texture, texture3D, textureBicubic, textureCubeUV, textureLoad, texturePass, textureSize, textureStore, threshold, timerDelta, timerGlobal, timerLocal, toneMapping, transformDirection, transformedBentNormalView, transformedBitangentView, transformedBitangentWorld, transformedClearcoatNormalView, transformedNormalView, transformedNormalWorld, transformedTangentView, transformedTangentWorld, transpose, triNoise3D, triplanarTexture, triplanarTextures, trunc, tslFn, uint, umat2, umat3, umat4, uniform, uniformGroup, uniforms, userData, uv, uvec2, uvec3, uvec4, varying, varyingProperty, vec2, vec3, vec4, vectorComponents, vertexColor, vertexIndex, vibrance, viewZToOrthographicDepth, viewZToPerspectiveDepth, viewport, viewportBottomLeft, viewportBottomRight, viewportCoordinate, viewportDepthTexture, viewportLinearDepth, viewportMipTexture, viewportResolution, viewportSharedTexture, viewportTexture, viewportTopLeft, viewportTopRight, wgsl, wgslFn, xor }; diff --git a/build/three.webgpu.min.js b/build/three.webgpu.min.js new file mode 100644 index 00000000000000..6cc8018fb26492 --- /dev/null +++ b/build/three.webgpu.min.js @@ -0,0 +1,6 @@ +/** + * @license + * Copyright 2010-2024 Three.js Authors + * SPDX-License-Identifier: MIT + */ +const 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this.convert(t,this._workingColorSpace,e)},toWorkingColorSpace:function(t,e){return this.convert(t,e,this._workingColorSpace)},getPrimaries:function(t){return hi[t].primaries},getTransfer:function(t){return t===$e?Qe:hi[t].transfer}};function ci(t){return t<.04045?.0773993808*t:Math.pow(.9478672986*t+.0521327014,2.4)}function di(t){return t<.0031308?12.92*t:1.055*Math.pow(t,.41666)-.055}let pi;class mi{static getDataURL(t){if(/^data:/i.test(t.src))return t.src;if("undefined"==typeof HTMLCanvasElement)return t.src;let e;if(t instanceof HTMLCanvasElement)e=t;else{void 0===pi&&(pi=si("canvas")),pi.width=t.width,pi.height=t.height;const s=pi.getContext("2d");t instanceof ImageData?s.putImageData(t,0,0):s.drawImage(t,0,0,t.width,t.height),e=pi}return e.width>2048||e.height>2048?(console.warn("THREE.ImageUtils.getDataURL: Image converted to jpg for performance reasons",t),e.toDataURL("image/jpeg",.6)):e.toDataURL("image/png")}static sRGBToLinear(t){if("undefined"!=typeof HTMLImageElement&&t instanceof HTMLImageElement||"undefined"!=typeof HTMLCanvasElement&&t instanceof HTMLCanvasElement||"undefined"!=typeof ImageBitmap&&t instanceof ImageBitmap){const e=si("canvas");e.width=t.width,e.height=t.height;const s=e.getContext("2d");s.drawImage(t,0,0,t.width,t.height);const i=s.getImageData(0,0,t.width,t.height),r=i.data;for(let t=0;t0&&(s.userData=this.userData),e||(t.textures[this.uuid]=s),s}dispose(){this.dispatchEvent({type:"dispose"})}transformUv(t){if(this.mapping!==at)return t;if(t.applyMatrix3(this.matrix),t.x<0||t.x>1)switch(this.wrapS){case pt:t.x=t.x-Math.floor(t.x);break;case mt:t.x=t.x<0?0:1;break;case gt:1===Math.abs(Math.floor(t.x)%2)?t.x=Math.ceil(t.x)-t.x:t.x=t.x-Math.floor(t.x)}if(t.y<0||t.y>1)switch(this.wrapT){case pt:t.y=t.y-Math.floor(t.y);break;case mt:t.y=t.y<0?0:1;break;case gt:1===Math.abs(Math.floor(t.y)%2)?t.y=Math.ceil(t.y)-t.y:t.y=t.y-Math.floor(t.y)}return this.flipY&&(t.y=1-t.y),t}set needsUpdate(t){!0===t&&(this.version++,this.source.needsUpdate=!0)}set needsPMREMUpdate(t){!0===t&&this.pmremVersion++}}bi.DEFAULT_IMAGE=null,bi.DEFAULT_MAPPING=at,bi.DEFAULT_ANISOTROPY=1;class vi{constructor(t=0,e=0,s=0,i=1){vi.prototype.isVector4=!0,this.x=t,this.y=e,this.z=s,this.w=i}get width(){return this.z}set width(t){this.z=t}get height(){return this.w}set height(t){this.w=t}set(t,e,s,i){return this.x=t,this.y=e,this.z=s,this.w=i,this}setScalar(t){return this.x=t,this.y=t,this.z=t,this.w=t,this}setX(t){return this.x=t,this}setY(t){return this.y=t,this}setZ(t){return this.z=t,this}setW(t){return this.w=t,this}setComponent(t,e){switch(t){case 0:this.x=e;break;case 1:this.y=e;break;case 2:this.z=e;break;case 3:this.w=e;break;default:throw new Error("index is out of range: "+t)}return this}getComponent(t){switch(t){case 0:return this.x;case 1:return this.y;case 2:return this.z;case 3:return this.w;default:throw new Error("index is out of range: "+t)}}clone(){return new this.constructor(this.x,this.y,this.z,this.w)}copy(t){return this.x=t.x,this.y=t.y,this.z=t.z,this.w=void 0!==t.w?t.w:1,this}add(t){return this.x+=t.x,this.y+=t.y,this.z+=t.z,this.w+=t.w,this}addScalar(t){return this.x+=t,this.y+=t,this.z+=t,this.w+=t,this}addVectors(t,e){return this.x=t.x+e.x,this.y=t.y+e.y,this.z=t.z+e.z,this.w=t.w+e.w,this}addScaledVector(t,e){return this.x+=t.x*e,this.y+=t.y*e,this.z+=t.z*e,this.w+=t.w*e,this}sub(t){return this.x-=t.x,this.y-=t.y,this.z-=t.z,this.w-=t.w,this}subScalar(t){return this.x-=t,this.y-=t,this.z-=t,this.w-=t,this}subVectors(t,e){return this.x=t.x-e.x,this.y=t.y-e.y,this.z=t.z-e.z,this.w=t.w-e.w,this}multiply(t){return this.x*=t.x,this.y*=t.y,this.z*=t.z,this.w*=t.w,this}multiplyScalar(t){return this.x*=t,this.y*=t,this.z*=t,this.w*=t,this}applyMatrix4(t){const e=this.x,s=this.y,i=this.z,r=this.w,n=t.elements;return this.x=n[0]*e+n[4]*s+n[8]*i+n[12]*r,this.y=n[1]*e+n[5]*s+n[9]*i+n[13]*r,this.z=n[2]*e+n[6]*s+n[10]*i+n[14]*r,this.w=n[3]*e+n[7]*s+n[11]*i+n[15]*r,this}divideScalar(t){return this.multiplyScalar(1/t)}setAxisAngleFromQuaternion(t){this.w=2*Math.acos(t.w);const e=Math.sqrt(1-t.w*t.w);return e<1e-4?(this.x=1,this.y=0,this.z=0):(this.x=t.x/e,this.y=t.y/e,this.z=t.z/e),this}setAxisAngleFromRotationMatrix(t){let e,s,i,r;const n=.01,o=.1,a=t.elements,h=a[0],l=a[4],u=a[8],c=a[1],d=a[5],p=a[9],m=a[2],g=a[6],f=a[10];if(Math.abs(l-c)a&&t>y?ty?a=0?1:-1,i=1-e*e;if(i>Number.EPSILON){const r=Math.sqrt(i),n=Math.atan2(r,e*s);t=Math.sin(t*n)/r,o=Math.sin(o*n)/r}const r=o*s;if(a=a*t+c*r,h=h*t+d*r,l=l*t+p*r,u=u*t+m*r,t===1-o){const t=1/Math.sqrt(a*a+h*h+l*l+u*u);a*=t,h*=t,l*=t,u*=t}}t[e]=a,t[e+1]=h,t[e+2]=l,t[e+3]=u}static multiplyQuaternionsFlat(t,e,s,i,r,n){const o=s[i],a=s[i+1],h=s[i+2],l=s[i+3],u=r[n],c=r[n+1],d=r[n+2],p=r[n+3];return t[e]=o*p+l*u+a*d-h*c,t[e+1]=a*p+l*c+h*u-o*d,t[e+2]=h*p+l*d+o*c-a*u,t[e+3]=l*p-o*u-a*c-h*d,t}get x(){return this._x}set x(t){this._x=t,this._onChangeCallback()}get y(){return this._y}set y(t){this._y=t,this._onChangeCallback()}get z(){return this._z}set z(t){this._z=t,this._onChangeCallback()}get w(){return this._w}set w(t){this._w=t,this._onChangeCallback()}set(t,e,s,i){return this._x=t,this._y=e,this._z=s,this._w=i,this._onChangeCallback(),this}clone(){return new this.constructor(this._x,this._y,this._z,this._w)}copy(t){return this._x=t.x,this._y=t.y,this._z=t.z,this._w=t.w,this._onChangeCallback(),this}setFromEuler(t,e=!0){const s=t._x,i=t._y,r=t._z,n=t._order,o=Math.cos,a=Math.sin,h=o(s/2),l=o(i/2),u=o(r/2),c=a(s/2),d=a(i/2),p=a(r/2);switch(n){case"XYZ":this._x=c*l*u+h*d*p,this._y=h*d*u-c*l*p,this._z=h*l*p+c*d*u,this._w=h*l*u-c*d*p;break;case"YXZ":this._x=c*l*u+h*d*p,this._y=h*d*u-c*l*p,this._z=h*l*p-c*d*u,this._w=h*l*u+c*d*p;break;case"ZXY":this._x=c*l*u-h*d*p,this._y=h*d*u+c*l*p,this._z=h*l*p+c*d*u,this._w=h*l*u-c*d*p;break;case"ZYX":this._x=c*l*u-h*d*p,this._y=h*d*u+c*l*p,this._z=h*l*p-c*d*u,this._w=h*l*u+c*d*p;break;case"YZX":this._x=c*l*u+h*d*p,this._y=h*d*u+c*l*p,this._z=h*l*p-c*d*u,this._w=h*l*u-c*d*p;break;case"XZY":this._x=c*l*u-h*d*p,this._y=h*d*u-c*l*p,this._z=h*l*p+c*d*u,this._w=h*l*u+c*d*p;break;default:console.warn("THREE.Quaternion: .setFromEuler() encountered an unknown order: "+n)}return!0===e&&this._onChangeCallback(),this}setFromAxisAngle(t,e){const s=e/2,i=Math.sin(s);return this._x=t.x*i,this._y=t.y*i,this._z=t.z*i,this._w=Math.cos(s),this._onChangeCallback(),this}setFromRotationMatrix(t){const e=t.elements,s=e[0],i=e[4],r=e[8],n=e[1],o=e[5],a=e[9],h=e[2],l=e[6],u=e[10],c=s+o+u;if(c>0){const t=.5/Math.sqrt(c+1);this._w=.25/t,this._x=(l-a)*t,this._y=(r-h)*t,this._z=(n-i)*t}else if(s>o&&s>u){const t=2*Math.sqrt(1+s-o-u);this._w=(l-a)/t,this._x=.25*t,this._y=(i+n)/t,this._z=(r+h)/t}else if(o>u){const t=2*Math.sqrt(1+o-s-u);this._w=(r-h)/t,this._x=(i+n)/t,this._y=.25*t,this._z=(a+l)/t}else{const t=2*Math.sqrt(1+u-s-o);this._w=(n-i)/t,this._x=(r+h)/t,this._y=(a+l)/t,this._z=.25*t}return this._onChangeCallback(),this}setFromUnitVectors(t,e){let s=t.dot(e)+1;return sMath.abs(t.z)?(this._x=-t.y,this._y=t.x,this._z=0,this._w=s):(this._x=0,this._y=-t.z,this._z=t.y,this._w=s)):(this._x=t.y*e.z-t.z*e.y,this._y=t.z*e.x-t.x*e.z,this._z=t.x*e.y-t.y*e.x,this._w=s),this.normalize()}angleTo(t){return 2*Math.acos(Math.abs(Hs(this.dot(t),-1,1)))}rotateTowards(t,e){const s=this.angleTo(t);if(0===s)return this;const i=Math.min(1,e/s);return this.slerp(t,i),this}identity(){return this.set(0,0,0,1)}invert(){return this.conjugate()}conjugate(){return this._x*=-1,this._y*=-1,this._z*=-1,this._onChangeCallback(),this}dot(t){return this._x*t._x+this._y*t._y+this._z*t._z+this._w*t._w}lengthSq(){return this._x*this._x+this._y*this._y+this._z*this._z+this._w*this._w}length(){return Math.sqrt(this._x*this._x+this._y*this._y+this._z*this._z+this._w*this._w)}normalize(){let t=this.length();return 0===t?(this._x=0,this._y=0,this._z=0,this._w=1):(t=1/t,this._x=this._x*t,this._y=this._y*t,this._z=this._z*t,this._w=this._w*t),this._onChangeCallback(),this}multiply(t){return this.multiplyQuaternions(this,t)}premultiply(t){return this.multiplyQuaternions(t,this)}multiplyQuaternions(t,e){const s=t._x,i=t._y,r=t._z,n=t._w,o=e._x,a=e._y,h=e._z,l=e._w;return this._x=s*l+n*o+i*h-r*a,this._y=i*l+n*a+r*o-s*h,this._z=r*l+n*h+s*a-i*o,this._w=n*l-s*o-i*a-r*h,this._onChangeCallback(),this}slerp(t,e){if(0===e)return this;if(1===e)return this.copy(t);const s=this._x,i=this._y,r=this._z,n=this._w;let o=n*t._w+s*t._x+i*t._y+r*t._z;if(o<0?(this._w=-t._w,this._x=-t._x,this._y=-t._y,this._z=-t._z,o=-o):this.copy(t),o>=1)return this._w=n,this._x=s,this._y=i,this._z=r,this;const a=1-o*o;if(a<=Number.EPSILON){const t=1-e;return this._w=t*n+e*this._w,this._x=t*s+e*this._x,this._y=t*i+e*this._y,this._z=t*r+e*this._z,this.normalize(),this}const h=Math.sqrt(a),l=Math.atan2(h,o),u=Math.sin((1-e)*l)/h,c=Math.sin(e*l)/h;return this._w=n*u+this._w*c,this._x=s*u+this._x*c,this._y=i*u+this._y*c,this._z=r*u+this._z*c,this._onChangeCallback(),this}slerpQuaternions(t,e,s){return this.copy(t).slerp(e,s)}random(){const t=2*Math.PI*Math.random(),e=2*Math.PI*Math.random(),s=Math.random(),i=Math.sqrt(1-s),r=Math.sqrt(s);return this.set(i*Math.sin(t),i*Math.cos(t),r*Math.sin(e),r*Math.cos(e))}equals(t){return t._x===this._x&&t._y===this._y&&t._z===this._z&&t._w===this._w}fromArray(t,e=0){return this._x=t[e],this._y=t[e+1],this._z=t[e+2],this._w=t[e+3],this._onChangeCallback(),this}toArray(t=[],e=0){return t[e]=this._x,t[e+1]=this._y,t[e+2]=this._z,t[e+3]=this._w,t}fromBufferAttribute(t,e){return this._x=t.getX(e),this._y=t.getY(e),this._z=t.getZ(e),this._w=t.getW(e),this._onChangeCallback(),this}toJSON(){return this.toArray()}_onChange(t){return this._onChangeCallback=t,this}_onChangeCallback(){}*[Symbol.iterator](){yield this._x,yield this._y,yield this._z,yield this._w}}class Ri{constructor(t=0,e=0,s=0){Ri.prototype.isVector3=!0,this.x=t,this.y=e,this.z=s}set(t,e,s){return void 0===s&&(s=this.z),this.x=t,this.y=e,this.z=s,this}setScalar(t){return this.x=t,this.y=t,this.z=t,this}setX(t){return this.x=t,this}setY(t){return this.y=t,this}setZ(t){return this.z=t,this}setComponent(t,e){switch(t){case 0:this.x=e;break;case 1:this.y=e;break;case 2:this.z=e;break;default:throw new Error("index is out of range: "+t)}return this}getComponent(t){switch(t){case 0:return this.x;case 1:return this.y;case 2:return this.z;default:throw new Error("index is out of range: "+t)}}clone(){return new this.constructor(this.x,this.y,this.z)}copy(t){return this.x=t.x,this.y=t.y,this.z=t.z,this}add(t){return this.x+=t.x,this.y+=t.y,this.z+=t.z,this}addScalar(t){return this.x+=t,this.y+=t,this.z+=t,this}addVectors(t,e){return this.x=t.x+e.x,this.y=t.y+e.y,this.z=t.z+e.z,this}addScaledVector(t,e){return this.x+=t.x*e,this.y+=t.y*e,this.z+=t.z*e,this}sub(t){return this.x-=t.x,this.y-=t.y,this.z-=t.z,this}subScalar(t){return this.x-=t,this.y-=t,this.z-=t,this}subVectors(t,e){return this.x=t.x-e.x,this.y=t.y-e.y,this.z=t.z-e.z,this}multiply(t){return this.x*=t.x,this.y*=t.y,this.z*=t.z,this}multiplyScalar(t){return this.x*=t,this.y*=t,this.z*=t,this}multiplyVectors(t,e){return this.x=t.x*e.x,this.y=t.y*e.y,this.z=t.z*e.z,this}applyEuler(t){return this.applyQuaternion(Ei.setFromEuler(t))}applyAxisAngle(t,e){return this.applyQuaternion(Ei.setFromAxisAngle(t,e))}applyMatrix3(t){const e=this.x,s=this.y,i=this.z,r=t.elements;return this.x=r[0]*e+r[3]*s+r[6]*i,this.y=r[1]*e+r[4]*s+r[7]*i,this.z=r[2]*e+r[5]*s+r[8]*i,this}applyNormalMatrix(t){return this.applyMatrix3(t).normalize()}applyMatrix4(t){const e=this.x,s=this.y,i=this.z,r=t.elements,n=1/(r[3]*e+r[7]*s+r[11]*i+r[15]);return this.x=(r[0]*e+r[4]*s+r[8]*i+r[12])*n,this.y=(r[1]*e+r[5]*s+r[9]*i+r[13])*n,this.z=(r[2]*e+r[6]*s+r[10]*i+r[14])*n,this}applyQuaternion(t){const e=this.x,s=this.y,i=this.z,r=t.x,n=t.y,o=t.z,a=t.w,h=2*(n*i-o*s),l=2*(o*e-r*i),u=2*(r*s-n*e);return this.x=e+a*h+n*u-o*l,this.y=s+a*l+o*h-r*u,this.z=i+a*u+r*l-n*h,this}project(t){return this.applyMatrix4(t.matrixWorldInverse).applyMatrix4(t.projectionMatrix)}unproject(t){return this.applyMatrix4(t.projectionMatrixInverse).applyMatrix4(t.matrixWorld)}transformDirection(t){const e=this.x,s=this.y,i=this.z,r=t.elements;return this.x=r[0]*e+r[4]*s+r[8]*i,this.y=r[1]*e+r[5]*s+r[9]*i,this.z=r[2]*e+r[6]*s+r[10]*i,this.normalize()}divide(t){return this.x/=t.x,this.y/=t.y,this.z/=t.z,this}divideScalar(t){return this.multiplyScalar(1/t)}min(t){return this.x=Math.min(this.x,t.x),this.y=Math.min(this.y,t.y),this.z=Math.min(this.z,t.z),this}max(t){return this.x=Math.max(this.x,t.x),this.y=Math.max(this.y,t.y),this.z=Math.max(this.z,t.z),this}clamp(t,e){return this.x=Math.max(t.x,Math.min(e.x,this.x)),this.y=Math.max(t.y,Math.min(e.y,this.y)),this.z=Math.max(t.z,Math.min(e.z,this.z)),this}clampScalar(t,e){return this.x=Math.max(t,Math.min(e,this.x)),this.y=Math.max(t,Math.min(e,this.y)),this.z=Math.max(t,Math.min(e,this.z)),this}clampLength(t,e){const s=this.length();return this.divideScalar(s||1).multiplyScalar(Math.max(t,Math.min(e,s)))}floor(){return this.x=Math.floor(this.x),this.y=Math.floor(this.y),this.z=Math.floor(this.z),this}ceil(){return this.x=Math.ceil(this.x),this.y=Math.ceil(this.y),this.z=Math.ceil(this.z),this}round(){return this.x=Math.round(this.x),this.y=Math.round(this.y),this.z=Math.round(this.z),this}roundToZero(){return this.x=Math.trunc(this.x),this.y=Math.trunc(this.y),this.z=Math.trunc(this.z),this}negate(){return this.x=-this.x,this.y=-this.y,this.z=-this.z,this}dot(t){return this.x*t.x+this.y*t.y+this.z*t.z}lengthSq(){return this.x*this.x+this.y*this.y+this.z*this.z}length(){return Math.sqrt(this.x*this.x+this.y*this.y+this.z*this.z)}manhattanLength(){return Math.abs(this.x)+Math.abs(this.y)+Math.abs(this.z)}normalize(){return this.divideScalar(this.length()||1)}setLength(t){return this.normalize().multiplyScalar(t)}lerp(t,e){return this.x+=(t.x-this.x)*e,this.y+=(t.y-this.y)*e,this.z+=(t.z-this.z)*e,this}lerpVectors(t,e,s){return this.x=t.x+(e.x-t.x)*s,this.y=t.y+(e.y-t.y)*s,this.z=t.z+(e.z-t.z)*s,this}cross(t){return this.crossVectors(this,t)}crossVectors(t,e){const s=t.x,i=t.y,r=t.z,n=e.x,o=e.y,a=e.z;return this.x=i*a-r*o,this.y=r*n-s*a,this.z=s*o-i*n,this}projectOnVector(t){const e=t.lengthSq();if(0===e)return this.set(0,0,0);const s=t.dot(this)/e;return this.copy(t).multiplyScalar(s)}projectOnPlane(t){return Ci.copy(this).projectOnVector(t),this.sub(Ci)}reflect(t){return this.sub(Ci.copy(t).multiplyScalar(2*this.dot(t)))}angleTo(t){const e=Math.sqrt(this.lengthSq()*t.lengthSq());if(0===e)return Math.PI/2;const s=this.dot(t)/e;return Math.acos(Hs(s,-1,1))}distanceTo(t){return Math.sqrt(this.distanceToSquared(t))}distanceToSquared(t){const e=this.x-t.x,s=this.y-t.y,i=this.z-t.z;return e*e+s*s+i*i}manhattanDistanceTo(t){return Math.abs(this.x-t.x)+Math.abs(this.y-t.y)+Math.abs(this.z-t.z)}setFromSpherical(t){return this.setFromSphericalCoords(t.radius,t.phi,t.theta)}setFromSphericalCoords(t,e,s){const i=Math.sin(e)*t;return this.x=i*Math.sin(s),this.y=Math.cos(e)*t,this.z=i*Math.cos(s),this}setFromCylindrical(t){return this.setFromCylindricalCoords(t.radius,t.theta,t.y)}setFromCylindricalCoords(t,e,s){return this.x=t*Math.sin(e),this.y=s,this.z=t*Math.cos(e),this}setFromMatrixPosition(t){const e=t.elements;return this.x=e[12],this.y=e[13],this.z=e[14],this}setFromMatrixScale(t){const e=this.setFromMatrixColumn(t,0).length(),s=this.setFromMatrixColumn(t,1).length(),i=this.setFromMatrixColumn(t,2).length();return this.x=e,this.y=s,this.z=i,this}setFromMatrixColumn(t,e){return this.fromArray(t.elements,4*e)}setFromMatrix3Column(t,e){return this.fromArray(t.elements,3*e)}setFromEuler(t){return this.x=t._x,this.y=t._y,this.z=t._z,this}setFromColor(t){return this.x=t.r,this.y=t.g,this.z=t.b,this}equals(t){return t.x===this.x&&t.y===this.y&&t.z===this.z}fromArray(t,e=0){return this.x=t[e],this.y=t[e+1],this.z=t[e+2],this}toArray(t=[],e=0){return t[e]=this.x,t[e+1]=this.y,t[e+2]=this.z,t}fromBufferAttribute(t,e){return this.x=t.getX(e),this.y=t.getY(e),this.z=t.getZ(e),this}random(){return this.x=Math.random(),this.y=Math.random(),this.z=Math.random(),this}randomDirection(){const t=Math.random()*Math.PI*2,e=2*Math.random()-1,s=Math.sqrt(1-e*e);return this.x=s*Math.cos(t),this.y=e,this.z=s*Math.sin(t),this}*[Symbol.iterator](){yield this.x,yield this.y,yield this.z}}const Ci=new Ri,Ei=new Ni;class Bi{constructor(t=new Ri(1/0,1/0,1/0),e=new Ri(-1/0,-1/0,-1/0)){this.isBox3=!0,this.min=t,this.max=e}set(t,e){return this.min.copy(t),this.max.copy(e),this}setFromArray(t){this.makeEmpty();for(let e=0,s=t.length;ethis.max.x||t.ythis.max.y||t.zthis.max.z)}containsBox(t){return this.min.x<=t.min.x&&t.max.x<=this.max.x&&this.min.y<=t.min.y&&t.max.y<=this.max.y&&this.min.z<=t.min.z&&t.max.z<=this.max.z}getParameter(t,e){return e.set((t.x-this.min.x)/(this.max.x-this.min.x),(t.y-this.min.y)/(this.max.y-this.min.y),(t.z-this.min.z)/(this.max.z-this.min.z))}intersectsBox(t){return!(t.max.xthis.max.x||t.max.ythis.max.y||t.max.zthis.max.z)}intersectsSphere(t){return this.clampPoint(t.center,Pi),Pi.distanceToSquared(t.center)<=t.radius*t.radius}intersectsPlane(t){let e,s;return t.normal.x>0?(e=t.normal.x*this.min.x,s=t.normal.x*this.max.x):(e=t.normal.x*this.max.x,s=t.normal.x*this.min.x),t.normal.y>0?(e+=t.normal.y*this.min.y,s+=t.normal.y*this.max.y):(e+=t.normal.y*this.max.y,s+=t.normal.y*this.min.y),t.normal.z>0?(e+=t.normal.z*this.min.z,s+=t.normal.z*this.max.z):(e+=t.normal.z*this.max.z,s+=t.normal.z*this.min.z),e<=-t.constant&&s>=-t.constant}intersectsTriangle(t){if(this.isEmpty())return!1;this.getCenter(ki),Gi.subVectors(this.max,ki),Ui.subVectors(t.a,ki),Oi.subVectors(t.b,ki),zi.subVectors(t.c,ki),Li.subVectors(Oi,Ui),Vi.subVectors(zi,Oi),Di.subVectors(Ui,zi);let e=[0,-Li.z,Li.y,0,-Vi.z,Vi.y,0,-Di.z,Di.y,Li.z,0,-Li.x,Vi.z,0,-Vi.x,Di.z,0,-Di.x,-Li.y,Li.x,0,-Vi.y,Vi.x,0,-Di.y,Di.x,0];return!!Hi(e,Ui,Oi,zi,Gi)&&(e=[1,0,0,0,1,0,0,0,1],!!Hi(e,Ui,Oi,zi,Gi)&&(Wi.crossVectors(Li,Vi),e=[Wi.x,Wi.y,Wi.z],Hi(e,Ui,Oi,zi,Gi)))}clampPoint(t,e){return e.copy(t).clamp(this.min,this.max)}distanceToPoint(t){return this.clampPoint(t,Pi).distanceTo(t)}getBoundingSphere(t){return this.isEmpty()?t.makeEmpty():(this.getCenter(t.center),t.radius=.5*this.getSize(Pi).length()),t}intersect(t){return this.min.max(t.min),this.max.min(t.max),this.isEmpty()&&this.makeEmpty(),this}union(t){return this.min.min(t.min),this.max.max(t.max),this}applyMatrix4(t){return this.isEmpty()||(Ii[0].set(this.min.x,this.min.y,this.min.z).applyMatrix4(t),Ii[1].set(this.min.x,this.min.y,this.max.z).applyMatrix4(t),Ii[2].set(this.min.x,this.max.y,this.min.z).applyMatrix4(t),Ii[3].set(this.min.x,this.max.y,this.max.z).applyMatrix4(t),Ii[4].set(this.max.x,this.min.y,this.min.z).applyMatrix4(t),Ii[5].set(this.max.x,this.min.y,this.max.z).applyMatrix4(t),Ii[6].set(this.max.x,this.max.y,this.min.z).applyMatrix4(t),Ii[7].set(this.max.x,this.max.y,this.max.z).applyMatrix4(t),this.setFromPoints(Ii)),this}translate(t){return this.min.add(t),this.max.add(t),this}equals(t){return t.min.equals(this.min)&&t.max.equals(this.max)}}const Ii=[new Ri,new Ri,new Ri,new Ri,new Ri,new Ri,new Ri,new Ri],Pi=new Ri,Fi=new Bi,Ui=new Ri,Oi=new Ri,zi=new Ri,Li=new Ri,Vi=new Ri,Di=new Ri,ki=new Ri,Gi=new Ri,Wi=new Ri,ji=new Ri;function Hi(t,e,s,i,r){for(let n=0,o=t.length-3;n<=o;n+=3){ji.fromArray(t,n);const o=r.x*Math.abs(ji.x)+r.y*Math.abs(ji.y)+r.z*Math.abs(ji.z),a=e.dot(ji),h=s.dot(ji),l=i.dot(ji);if(Math.max(-Math.max(a,h,l),Math.min(a,h,l))>o)return!1}return!0}const qi=new Bi,$i=new Ri,Xi=new Ri;class Yi{constructor(t=new Ri,e=-1){this.isSphere=!0,this.center=t,this.radius=e}set(t,e){return this.center.copy(t),this.radius=e,this}setFromPoints(t,e){const s=this.center;void 0!==e?s.copy(e):qi.setFromPoints(t).getCenter(s);let i=0;for(let e=0,r=t.length;ethis.radius*this.radius&&(e.sub(this.center).normalize(),e.multiplyScalar(this.radius).add(this.center)),e}getBoundingBox(t){return this.isEmpty()?(t.makeEmpty(),t):(t.set(this.center,this.center),t.expandByScalar(this.radius),t)}applyMatrix4(t){return this.center.applyMatrix4(t),this.radius=this.radius*t.getMaxScaleOnAxis(),this}translate(t){return this.center.add(t),this}expandByPoint(t){if(this.isEmpty())return this.center.copy(t),this.radius=0,this;$i.subVectors(t,this.center);const e=$i.lengthSq();if(e>this.radius*this.radius){const t=Math.sqrt(e),s=.5*(t-this.radius);this.center.addScaledVector($i,s/t),this.radius+=s}return this}union(t){return t.isEmpty()?this:this.isEmpty()?(this.copy(t),this):(!0===this.center.equals(t.center)?this.radius=Math.max(this.radius,t.radius):(Xi.subVectors(t.center,this.center).setLength(t.radius),this.expandByPoint($i.copy(t.center).add(Xi)),this.expandByPoint($i.copy(t.center).sub(Xi))),this)}equals(t){return t.center.equals(this.center)&&t.radius===this.radius}clone(){return(new this.constructor).copy(this)}}const Ji=new Ri,Zi=new Ri,Qi=new Ri,Ki=new Ri,tr=new Ri,er=new Ri,sr=new Ri;class ir{constructor(t=new Ri,e=new Ri(0,0,-1)){this.origin=t,this.direction=e}set(t,e){return this.origin.copy(t),this.direction.copy(e),this}copy(t){return this.origin.copy(t.origin),this.direction.copy(t.direction),this}at(t,e){return e.copy(this.origin).addScaledVector(this.direction,t)}lookAt(t){return this.direction.copy(t).sub(this.origin).normalize(),this}recast(t){return this.origin.copy(this.at(t,Ji)),this}closestPointToPoint(t,e){e.subVectors(t,this.origin);const s=e.dot(this.direction);return s<0?e.copy(this.origin):e.copy(this.origin).addScaledVector(this.direction,s)}distanceToPoint(t){return Math.sqrt(this.distanceSqToPoint(t))}distanceSqToPoint(t){const e=Ji.subVectors(t,this.origin).dot(this.direction);return e<0?this.origin.distanceToSquared(t):(Ji.copy(this.origin).addScaledVector(this.direction,e),Ji.distanceToSquared(t))}distanceSqToSegment(t,e,s,i){Zi.copy(t).add(e).multiplyScalar(.5),Qi.copy(e).sub(t).normalize(),Ki.copy(this.origin).sub(Zi);const r=.5*t.distanceTo(e),n=-this.direction.dot(Qi),o=Ki.dot(this.direction),a=-Ki.dot(Qi),h=Ki.lengthSq(),l=Math.abs(1-n*n);let u,c,d,p;if(l>0)if(u=n*a-o,c=n*o-a,p=r*l,u>=0)if(c>=-p)if(c<=p){const t=1/l;u*=t,c*=t,d=u*(u+n*c+2*o)+c*(n*u+c+2*a)+h}else c=r,u=Math.max(0,-(n*c+o)),d=-u*u+c*(c+2*a)+h;else c=-r,u=Math.max(0,-(n*c+o)),d=-u*u+c*(c+2*a)+h;else c<=-p?(u=Math.max(0,-(-n*r+o)),c=u>0?-r:Math.min(Math.max(-r,-a),r),d=-u*u+c*(c+2*a)+h):c<=p?(u=0,c=Math.min(Math.max(-r,-a),r),d=c*(c+2*a)+h):(u=Math.max(0,-(n*r+o)),c=u>0?r:Math.min(Math.max(-r,-a),r),d=-u*u+c*(c+2*a)+h);else c=n>0?-r:r,u=Math.max(0,-(n*c+o)),d=-u*u+c*(c+2*a)+h;return s&&s.copy(this.origin).addScaledVector(this.direction,u),i&&i.copy(Zi).addScaledVector(Qi,c),d}intersectSphere(t,e){Ji.subVectors(t.center,this.origin);const s=Ji.dot(this.direction),i=Ji.dot(Ji)-s*s,r=t.radius*t.radius;if(i>r)return null;const n=Math.sqrt(r-i),o=s-n,a=s+n;return a<0?null:o<0?this.at(a,e):this.at(o,e)}intersectsSphere(t){return this.distanceSqToPoint(t.center)<=t.radius*t.radius}distanceToPlane(t){const e=t.normal.dot(this.direction);if(0===e)return 0===t.distanceToPoint(this.origin)?0:null;const s=-(this.origin.dot(t.normal)+t.constant)/e;return s>=0?s:null}intersectPlane(t,e){const s=this.distanceToPlane(t);return null===s?null:this.at(s,e)}intersectsPlane(t){const e=t.distanceToPoint(this.origin);if(0===e)return!0;return t.normal.dot(this.direction)*e<0}intersectBox(t,e){let s,i,r,n,o,a;const h=1/this.direction.x,l=1/this.direction.y,u=1/this.direction.z,c=this.origin;return h>=0?(s=(t.min.x-c.x)*h,i=(t.max.x-c.x)*h):(s=(t.max.x-c.x)*h,i=(t.min.x-c.x)*h),l>=0?(r=(t.min.y-c.y)*l,n=(t.max.y-c.y)*l):(r=(t.max.y-c.y)*l,n=(t.min.y-c.y)*l),s>n||r>i?null:((r>s||isNaN(s))&&(s=r),(n=0?(o=(t.min.z-c.z)*u,a=(t.max.z-c.z)*u):(o=(t.max.z-c.z)*u,a=(t.min.z-c.z)*u),s>a||o>i?null:((o>s||s!=s)&&(s=o),(a=0?s:i,e)))}intersectsBox(t){return null!==this.intersectBox(t,Ji)}intersectTriangle(t,e,s,i,r){tr.subVectors(e,t),er.subVectors(s,t),sr.crossVectors(tr,er);let n,o=this.direction.dot(sr);if(o>0){if(i)return null;n=1}else{if(!(o<0))return null;n=-1,o=-o}Ki.subVectors(this.origin,t);const a=n*this.direction.dot(er.crossVectors(Ki,er));if(a<0)return null;const h=n*this.direction.dot(tr.cross(Ki));if(h<0)return null;if(a+h>o)return null;const l=-n*Ki.dot(sr);return l<0?null:this.at(l/o,r)}applyMatrix4(t){return this.origin.applyMatrix4(t),this.direction.transformDirection(t),this}equals(t){return t.origin.equals(this.origin)&&t.direction.equals(this.direction)}clone(){return(new this.constructor).copy(this)}}class rr{constructor(t,e,s,i,r,n,o,a,h,l,u,c,d,p,m,g){rr.prototype.isMatrix4=!0,this.elements=[1,0,0,0,0,1,0,0,0,0,1,0,0,0,0,1],void 0!==t&&this.set(t,e,s,i,r,n,o,a,h,l,u,c,d,p,m,g)}set(t,e,s,i,r,n,o,a,h,l,u,c,d,p,m,g){const f=this.elements;return f[0]=t,f[4]=e,f[8]=s,f[12]=i,f[1]=r,f[5]=n,f[9]=o,f[13]=a,f[2]=h,f[6]=l,f[10]=u,f[14]=c,f[3]=d,f[7]=p,f[11]=m,f[15]=g,this}identity(){return this.set(1,0,0,0,0,1,0,0,0,0,1,0,0,0,0,1),this}clone(){return(new rr).fromArray(this.elements)}copy(t){const e=this.elements,s=t.elements;return e[0]=s[0],e[1]=s[1],e[2]=s[2],e[3]=s[3],e[4]=s[4],e[5]=s[5],e[6]=s[6],e[7]=s[7],e[8]=s[8],e[9]=s[9],e[10]=s[10],e[11]=s[11],e[12]=s[12],e[13]=s[13],e[14]=s[14],e[15]=s[15],this}copyPosition(t){const e=this.elements,s=t.elements;return e[12]=s[12],e[13]=s[13],e[14]=s[14],this}setFromMatrix3(t){const e=t.elements;return this.set(e[0],e[3],e[6],0,e[1],e[4],e[7],0,e[2],e[5],e[8],0,0,0,0,1),this}extractBasis(t,e,s){return t.setFromMatrixColumn(this,0),e.setFromMatrixColumn(this,1),s.setFromMatrixColumn(this,2),this}makeBasis(t,e,s){return this.set(t.x,e.x,s.x,0,t.y,e.y,s.y,0,t.z,e.z,s.z,0,0,0,0,1),this}extractRotation(t){const e=this.elements,s=t.elements,i=1/nr.setFromMatrixColumn(t,0).length(),r=1/nr.setFromMatrixColumn(t,1).length(),n=1/nr.setFromMatrixColumn(t,2).length();return e[0]=s[0]*i,e[1]=s[1]*i,e[2]=s[2]*i,e[3]=0,e[4]=s[4]*r,e[5]=s[5]*r,e[6]=s[6]*r,e[7]=0,e[8]=s[8]*n,e[9]=s[9]*n,e[10]=s[10]*n,e[11]=0,e[12]=0,e[13]=0,e[14]=0,e[15]=1,this}makeRotationFromEuler(t){const e=this.elements,s=t.x,i=t.y,r=t.z,n=Math.cos(s),o=Math.sin(s),a=Math.cos(i),h=Math.sin(i),l=Math.cos(r),u=Math.sin(r);if("XYZ"===t.order){const t=n*l,s=n*u,i=o*l,r=o*u;e[0]=a*l,e[4]=-a*u,e[8]=h,e[1]=s+i*h,e[5]=t-r*h,e[9]=-o*a,e[2]=r-t*h,e[6]=i+s*h,e[10]=n*a}else if("YXZ"===t.order){const t=a*l,s=a*u,i=h*l,r=h*u;e[0]=t+r*o,e[4]=i*o-s,e[8]=n*h,e[1]=n*u,e[5]=n*l,e[9]=-o,e[2]=s*o-i,e[6]=r+t*o,e[10]=n*a}else if("ZXY"===t.order){const t=a*l,s=a*u,i=h*l,r=h*u;e[0]=t-r*o,e[4]=-n*u,e[8]=i+s*o,e[1]=s+i*o,e[5]=n*l,e[9]=r-t*o,e[2]=-n*h,e[6]=o,e[10]=n*a}else if("ZYX"===t.order){const t=n*l,s=n*u,i=o*l,r=o*u;e[0]=a*l,e[4]=i*h-s,e[8]=t*h+r,e[1]=a*u,e[5]=r*h+t,e[9]=s*h-i,e[2]=-h,e[6]=o*a,e[10]=n*a}else if("YZX"===t.order){const t=n*a,s=n*h,i=o*a,r=o*h;e[0]=a*l,e[4]=r-t*u,e[8]=i*u+s,e[1]=u,e[5]=n*l,e[9]=-o*l,e[2]=-h*l,e[6]=s*u+i,e[10]=t-r*u}else if("XZY"===t.order){const t=n*a,s=n*h,i=o*a,r=o*h;e[0]=a*l,e[4]=-u,e[8]=h*l,e[1]=t*u+r,e[5]=n*l,e[9]=s*u-i,e[2]=i*u-s,e[6]=o*l,e[10]=r*u+t}return e[3]=0,e[7]=0,e[11]=0,e[12]=0,e[13]=0,e[14]=0,e[15]=1,this}makeRotationFromQuaternion(t){return this.compose(ar,t,hr)}lookAt(t,e,s){const i=this.elements;return cr.subVectors(t,e),0===cr.lengthSq()&&(cr.z=1),cr.normalize(),lr.crossVectors(s,cr),0===lr.lengthSq()&&(1===Math.abs(s.z)?cr.x+=1e-4:cr.z+=1e-4,cr.normalize(),lr.crossVectors(s,cr)),lr.normalize(),ur.crossVectors(cr,lr),i[0]=lr.x,i[4]=ur.x,i[8]=cr.x,i[1]=lr.y,i[5]=ur.y,i[9]=cr.y,i[2]=lr.z,i[6]=ur.z,i[10]=cr.z,this}multiply(t){return this.multiplyMatrices(this,t)}premultiply(t){return this.multiplyMatrices(t,this)}multiplyMatrices(t,e){const s=t.elements,i=e.elements,r=this.elements,n=s[0],o=s[4],a=s[8],h=s[12],l=s[1],u=s[5],c=s[9],d=s[13],p=s[2],m=s[6],g=s[10],f=s[14],y=s[3],x=s[7],b=s[11],v=s[15],T=i[0],_=i[4],w=i[8],S=i[12],M=i[1],A=i[5],N=i[9],R=i[13],C=i[2],E=i[6],B=i[10],I=i[14],P=i[3],F=i[7],U=i[11],O=i[15];return r[0]=n*T+o*M+a*C+h*P,r[4]=n*_+o*A+a*E+h*F,r[8]=n*w+o*N+a*B+h*U,r[12]=n*S+o*R+a*I+h*O,r[1]=l*T+u*M+c*C+d*P,r[5]=l*_+u*A+c*E+d*F,r[9]=l*w+u*N+c*B+d*U,r[13]=l*S+u*R+c*I+d*O,r[2]=p*T+m*M+g*C+f*P,r[6]=p*_+m*A+g*E+f*F,r[10]=p*w+m*N+g*B+f*U,r[14]=p*S+m*R+g*I+f*O,r[3]=y*T+x*M+b*C+v*P,r[7]=y*_+x*A+b*E+v*F,r[11]=y*w+x*N+b*B+v*U,r[15]=y*S+x*R+b*I+v*O,this}multiplyScalar(t){const e=this.elements;return e[0]*=t,e[4]*=t,e[8]*=t,e[12]*=t,e[1]*=t,e[5]*=t,e[9]*=t,e[13]*=t,e[2]*=t,e[6]*=t,e[10]*=t,e[14]*=t,e[3]*=t,e[7]*=t,e[11]*=t,e[15]*=t,this}determinant(){const t=this.elements,e=t[0],s=t[4],i=t[8],r=t[12],n=t[1],o=t[5],a=t[9],h=t[13],l=t[2],u=t[6],c=t[10],d=t[14];return t[3]*(+r*a*u-i*h*u-r*o*c+s*h*c+i*o*d-s*a*d)+t[7]*(+e*a*d-e*h*c+r*n*c-i*n*d+i*h*l-r*a*l)+t[11]*(+e*h*u-e*o*d-r*n*u+s*n*d+r*o*l-s*h*l)+t[15]*(-i*o*l-e*a*u+e*o*c+i*n*u-s*n*c+s*a*l)}transpose(){const t=this.elements;let e;return e=t[1],t[1]=t[4],t[4]=e,e=t[2],t[2]=t[8],t[8]=e,e=t[6],t[6]=t[9],t[9]=e,e=t[3],t[3]=t[12],t[12]=e,e=t[7],t[7]=t[13],t[13]=e,e=t[11],t[11]=t[14],t[14]=e,this}setPosition(t,e,s){const i=this.elements;return t.isVector3?(i[12]=t.x,i[13]=t.y,i[14]=t.z):(i[12]=t,i[13]=e,i[14]=s),this}invert(){const t=this.elements,e=t[0],s=t[1],i=t[2],r=t[3],n=t[4],o=t[5],a=t[6],h=t[7],l=t[8],u=t[9],c=t[10],d=t[11],p=t[12],m=t[13],g=t[14],f=t[15],y=u*g*h-m*c*h+m*a*d-o*g*d-u*a*f+o*c*f,x=p*c*h-l*g*h-p*a*d+n*g*d+l*a*f-n*c*f,b=l*m*h-p*u*h+p*o*d-n*m*d-l*o*f+n*u*f,v=p*u*a-l*m*a-p*o*c+n*m*c+l*o*g-n*u*g,T=e*y+s*x+i*b+r*v;if(0===T)return this.set(0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0);const _=1/T;return t[0]=y*_,t[1]=(m*c*r-u*g*r-m*i*d+s*g*d+u*i*f-s*c*f)*_,t[2]=(o*g*r-m*a*r+m*i*h-s*g*h-o*i*f+s*a*f)*_,t[3]=(u*a*r-o*c*r-u*i*h+s*c*h+o*i*d-s*a*d)*_,t[4]=x*_,t[5]=(l*g*r-p*c*r+p*i*d-e*g*d-l*i*f+e*c*f)*_,t[6]=(p*a*r-n*g*r-p*i*h+e*g*h+n*i*f-e*a*f)*_,t[7]=(n*c*r-l*a*r+l*i*h-e*c*h-n*i*d+e*a*d)*_,t[8]=b*_,t[9]=(p*u*r-l*m*r-p*s*d+e*m*d+l*s*f-e*u*f)*_,t[10]=(n*m*r-p*o*r+p*s*h-e*m*h-n*s*f+e*o*f)*_,t[11]=(l*o*r-n*u*r-l*s*h+e*u*h+n*s*d-e*o*d)*_,t[12]=v*_,t[13]=(l*m*i-p*u*i+p*s*c-e*m*c-l*s*g+e*u*g)*_,t[14]=(p*o*i-n*m*i-p*s*a+e*m*a+n*s*g-e*o*g)*_,t[15]=(n*u*i-l*o*i+l*s*a-e*u*a-n*s*c+e*o*c)*_,this}scale(t){const e=this.elements,s=t.x,i=t.y,r=t.z;return e[0]*=s,e[4]*=i,e[8]*=r,e[1]*=s,e[5]*=i,e[9]*=r,e[2]*=s,e[6]*=i,e[10]*=r,e[3]*=s,e[7]*=i,e[11]*=r,this}getMaxScaleOnAxis(){const t=this.elements,e=t[0]*t[0]+t[1]*t[1]+t[2]*t[2],s=t[4]*t[4]+t[5]*t[5]+t[6]*t[6],i=t[8]*t[8]+t[9]*t[9]+t[10]*t[10];return Math.sqrt(Math.max(e,s,i))}makeTranslation(t,e,s){return t.isVector3?this.set(1,0,0,t.x,0,1,0,t.y,0,0,1,t.z,0,0,0,1):this.set(1,0,0,t,0,1,0,e,0,0,1,s,0,0,0,1),this}makeRotationX(t){const e=Math.cos(t),s=Math.sin(t);return this.set(1,0,0,0,0,e,-s,0,0,s,e,0,0,0,0,1),this}makeRotationY(t){const e=Math.cos(t),s=Math.sin(t);return this.set(e,0,s,0,0,1,0,0,-s,0,e,0,0,0,0,1),this}makeRotationZ(t){const e=Math.cos(t),s=Math.sin(t);return this.set(e,-s,0,0,s,e,0,0,0,0,1,0,0,0,0,1),this}makeRotationAxis(t,e){const s=Math.cos(e),i=Math.sin(e),r=1-s,n=t.x,o=t.y,a=t.z,h=r*n,l=r*o;return this.set(h*n+s,h*o-i*a,h*a+i*o,0,h*o+i*a,l*o+s,l*a-i*n,0,h*a-i*o,l*a+i*n,r*a*a+s,0,0,0,0,1),this}makeScale(t,e,s){return this.set(t,0,0,0,0,e,0,0,0,0,s,0,0,0,0,1),this}makeShear(t,e,s,i,r,n){return this.set(1,s,r,0,t,1,n,0,e,i,1,0,0,0,0,1),this}compose(t,e,s){const i=this.elements,r=e._x,n=e._y,o=e._z,a=e._w,h=r+r,l=n+n,u=o+o,c=r*h,d=r*l,p=r*u,m=n*l,g=n*u,f=o*u,y=a*h,x=a*l,b=a*u,v=s.x,T=s.y,_=s.z;return i[0]=(1-(m+f))*v,i[1]=(d+b)*v,i[2]=(p-x)*v,i[3]=0,i[4]=(d-b)*T,i[5]=(1-(c+f))*T,i[6]=(g+y)*T,i[7]=0,i[8]=(p+x)*_,i[9]=(g-y)*_,i[10]=(1-(c+m))*_,i[11]=0,i[12]=t.x,i[13]=t.y,i[14]=t.z,i[15]=1,this}decompose(t,e,s){const i=this.elements;let r=nr.set(i[0],i[1],i[2]).length();const n=nr.set(i[4],i[5],i[6]).length(),o=nr.set(i[8],i[9],i[10]).length();this.determinant()<0&&(r=-r),t.x=i[12],t.y=i[13],t.z=i[14],or.copy(this);const a=1/r,h=1/n,l=1/o;return or.elements[0]*=a,or.elements[1]*=a,or.elements[2]*=a,or.elements[4]*=h,or.elements[5]*=h,or.elements[6]*=h,or.elements[8]*=l,or.elements[9]*=l,or.elements[10]*=l,e.setFromRotationMatrix(or),s.x=r,s.y=n,s.z=o,this}makePerspective(t,e,s,i,r,n,o=2e3){const a=this.elements,h=2*r/(e-t),l=2*r/(s-i),u=(e+t)/(e-t),c=(s+i)/(s-i);let d,p;if(o===zs)d=-(n+r)/(n-r),p=-2*n*r/(n-r);else{if(o!==Ls)throw new Error("THREE.Matrix4.makePerspective(): Invalid coordinate system: "+o);d=-n/(n-r),p=-n*r/(n-r)}return a[0]=h,a[4]=0,a[8]=u,a[12]=0,a[1]=0,a[5]=l,a[9]=c,a[13]=0,a[2]=0,a[6]=0,a[10]=d,a[14]=p,a[3]=0,a[7]=0,a[11]=-1,a[15]=0,this}makeOrthographic(t,e,s,i,r,n,o=2e3){const a=this.elements,h=1/(e-t),l=1/(s-i),u=1/(n-r),c=(e+t)*h,d=(s+i)*l;let p,m;if(o===zs)p=(n+r)*u,m=-2*u;else{if(o!==Ls)throw new Error("THREE.Matrix4.makeOrthographic(): Invalid coordinate system: "+o);p=r*u,m=-1*u}return a[0]=2*h,a[4]=0,a[8]=0,a[12]=-c,a[1]=0,a[5]=2*l,a[9]=0,a[13]=-d,a[2]=0,a[6]=0,a[10]=m,a[14]=-p,a[3]=0,a[7]=0,a[11]=0,a[15]=1,this}equals(t){const e=this.elements,s=t.elements;for(let t=0;t<16;t++)if(e[t]!==s[t])return!1;return!0}fromArray(t,e=0){for(let s=0;s<16;s++)this.elements[s]=t[s+e];return this}toArray(t=[],e=0){const s=this.elements;return t[e]=s[0],t[e+1]=s[1],t[e+2]=s[2],t[e+3]=s[3],t[e+4]=s[4],t[e+5]=s[5],t[e+6]=s[6],t[e+7]=s[7],t[e+8]=s[8],t[e+9]=s[9],t[e+10]=s[10],t[e+11]=s[11],t[e+12]=s[12],t[e+13]=s[13],t[e+14]=s[14],t[e+15]=s[15],t}}const nr=new Ri,or=new rr,ar=new Ri(0,0,0),hr=new Ri(1,1,1),lr=new Ri,ur=new Ri,cr=new Ri,dr=new rr,pr=new Ni;class mr{constructor(t=0,e=0,s=0,i=mr.DEFAULT_ORDER){this.isEuler=!0,this._x=t,this._y=e,this._z=s,this._order=i}get x(){return this._x}set x(t){this._x=t,this._onChangeCallback()}get y(){return this._y}set y(t){this._y=t,this._onChangeCallback()}get z(){return this._z}set z(t){this._z=t,this._onChangeCallback()}get order(){return this._order}set order(t){this._order=t,this._onChangeCallback()}set(t,e,s,i=this._order){return this._x=t,this._y=e,this._z=s,this._order=i,this._onChangeCallback(),this}clone(){return new this.constructor(this._x,this._y,this._z,this._order)}copy(t){return this._x=t._x,this._y=t._y,this._z=t._z,this._order=t._order,this._onChangeCallback(),this}setFromRotationMatrix(t,e=this._order,s=!0){const i=t.elements,r=i[0],n=i[4],o=i[8],a=i[1],h=i[5],l=i[9],u=i[2],c=i[6],d=i[10];switch(e){case"XYZ":this._y=Math.asin(Hs(o,-1,1)),Math.abs(o)<.9999999?(this._x=Math.atan2(-l,d),this._z=Math.atan2(-n,r)):(this._x=Math.atan2(c,h),this._z=0);break;case"YXZ":this._x=Math.asin(-Hs(l,-1,1)),Math.abs(l)<.9999999?(this._y=Math.atan2(o,d),this._z=Math.atan2(a,h)):(this._y=Math.atan2(-u,r),this._z=0);break;case"ZXY":this._x=Math.asin(Hs(c,-1,1)),Math.abs(c)<.9999999?(this._y=Math.atan2(-u,d),this._z=Math.atan2(-n,h)):(this._y=0,this._z=Math.atan2(a,r));break;case"ZYX":this._y=Math.asin(-Hs(u,-1,1)),Math.abs(u)<.9999999?(this._x=Math.atan2(c,d),this._z=Math.atan2(a,r)):(this._x=0,this._z=Math.atan2(-n,h));break;case"YZX":this._z=Math.asin(Hs(a,-1,1)),Math.abs(a)<.9999999?(this._x=Math.atan2(-l,h),this._y=Math.atan2(-u,r)):(this._x=0,this._y=Math.atan2(o,d));break;case"XZY":this._z=Math.asin(-Hs(n,-1,1)),Math.abs(n)<.9999999?(this._x=Math.atan2(c,h),this._y=Math.atan2(o,r)):(this._x=Math.atan2(-l,d),this._y=0);break;default:console.warn("THREE.Euler: .setFromRotationMatrix() encountered an unknown order: "+e)}return this._order=e,!0===s&&this._onChangeCallback(),this}setFromQuaternion(t,e,s){return dr.makeRotationFromQuaternion(t),this.setFromRotationMatrix(dr,e,s)}setFromVector3(t,e=this._order){return this.set(t.x,t.y,t.z,e)}reorder(t){return pr.setFromEuler(this),this.setFromQuaternion(pr,t)}equals(t){return t._x===this._x&&t._y===this._y&&t._z===this._z&&t._order===this._order}fromArray(t){return this._x=t[0],this._y=t[1],this._z=t[2],void 0!==t[3]&&(this._order=t[3]),this._onChangeCallback(),this}toArray(t=[],e=0){return t[e]=this._x,t[e+1]=this._y,t[e+2]=this._z,t[e+3]=this._order,t}_onChange(t){return this._onChangeCallback=t,this}_onChangeCallback(){}*[Symbol.iterator](){yield this._x,yield this._y,yield this._z,yield this._order}}mr.DEFAULT_ORDER="XYZ";class gr{constructor(){this.mask=1}set(t){this.mask=(1<>>0}enable(t){this.mask|=1<1){for(let t=0;t1){for(let t=0;t0&&(i.userData=this.userData),i.layers=this.layers.mask,i.matrix=this.matrix.toArray(),i.up=this.up.toArray(),!1===this.matrixAutoUpdate&&(i.matrixAutoUpdate=!1),this.isInstancedMesh&&(i.type="InstancedMesh",i.count=this.count,i.instanceMatrix=this.instanceMatrix.toJSON(),null!==this.instanceColor&&(i.instanceColor=this.instanceColor.toJSON())),this.isBatchedMesh&&(i.type="BatchedMesh",i.perObjectFrustumCulled=this.perObjectFrustumCulled,i.sortObjects=this.sortObjects,i.drawRanges=this._drawRanges,i.reservedRanges=this._reservedRanges,i.visibility=this._visibility,i.active=this._active,i.bounds=this._bounds.map((t=>({boxInitialized:t.boxInitialized,boxMin:t.box.min.toArray(),boxMax:t.box.max.toArray(),sphereInitialized:t.sphereInitialized,sphereRadius:t.sphere.radius,sphereCenter:t.sphere.center.toArray()}))),i.maxInstanceCount=this._maxInstanceCount,i.maxVertexCount=this._maxVertexCount,i.maxIndexCount=this._maxIndexCount,i.geometryInitialized=this._geometryInitialized,i.geometryCount=this._geometryCount,i.matricesTexture=this._matricesTexture.toJSON(t),null!==this._colorsTexture&&(i.colorsTexture=this._colorsTexture.toJSON(t)),null!==this.boundingSphere&&(i.boundingSphere={center:i.boundingSphere.center.toArray(),radius:i.boundingSphere.radius}),null!==this.boundingBox&&(i.boundingBox={min:i.boundingBox.min.toArray(),max:i.boundingBox.max.toArray()})),this.isScene)this.background&&(this.background.isColor?i.background=this.background.toJSON():this.background.isTexture&&(i.background=this.background.toJSON(t).uuid)),this.environment&&this.environment.isTexture&&!0!==this.environment.isRenderTargetTexture&&(i.environment=this.environment.toJSON(t).uuid);else if(this.isMesh||this.isLine||this.isPoints){i.geometry=r(t.geometries,this.geometry);const e=this.geometry.parameters;if(void 0!==e&&void 0!==e.shapes){const s=e.shapes;if(Array.isArray(s))for(let e=0,i=s.length;e0){i.children=[];for(let e=0;e0){i.animations=[];for(let e=0;e0&&(s.geometries=e),i.length>0&&(s.materials=i),r.length>0&&(s.textures=r),o.length>0&&(s.images=o),a.length>0&&(s.shapes=a),h.length>0&&(s.skeletons=h),l.length>0&&(s.animations=l),u.length>0&&(s.nodes=u)}return s.object=i,s;function n(t){const e=[];for(const s in t){const i=t[s];delete i.metadata,e.push(i)}return e}}clone(t){return(new this.constructor).copy(this,t)}copy(t,e=!0){if(this.name=t.name,this.up.copy(t.up),this.position.copy(t.position),this.rotation.order=t.rotation.order,this.quaternion.copy(t.quaternion),this.scale.copy(t.scale),this.matrix.copy(t.matrix),this.matrixWorld.copy(t.matrixWorld),this.matrixAutoUpdate=t.matrixAutoUpdate,this.matrixWorldAutoUpdate=t.matrixWorldAutoUpdate,this.matrixWorldNeedsUpdate=t.matrixWorldNeedsUpdate,this.layers.mask=t.layers.mask,this.visible=t.visible,this.castShadow=t.castShadow,this.receiveShadow=t.receiveShadow,this.frustumCulled=t.frustumCulled,this.renderOrder=t.renderOrder,this.animations=t.animations.slice(),this.userData=JSON.parse(JSON.stringify(t.userData)),!0===e)for(let e=0;e0?i.multiplyScalar(1/Math.sqrt(r)):i.set(0,0,0)}static getBarycoord(t,e,s,i,r){Ir.subVectors(i,e),Pr.subVectors(s,e),Fr.subVectors(t,e);const n=Ir.dot(Ir),o=Ir.dot(Pr),a=Ir.dot(Fr),h=Pr.dot(Pr),l=Pr.dot(Fr),u=n*h-o*o;if(0===u)return r.set(0,0,0),null;const c=1/u,d=(h*a-o*l)*c,p=(n*l-o*a)*c;return r.set(1-d-p,p,d)}static containsPoint(t,e,s,i){return null!==this.getBarycoord(t,e,s,i,Ur)&&(Ur.x>=0&&Ur.y>=0&&Ur.x+Ur.y<=1)}static getInterpolation(t,e,s,i,r,n,o,a){return null===this.getBarycoord(t,e,s,i,Ur)?(a.x=0,a.y=0,"z"in a&&(a.z=0),"w"in a&&(a.w=0),null):(a.setScalar(0),a.addScaledVector(r,Ur.x),a.addScaledVector(n,Ur.y),a.addScaledVector(o,Ur.z),a)}static isFrontFacing(t,e,s,i){return Ir.subVectors(s,e),Pr.subVectors(t,e),Ir.cross(Pr).dot(i)<0}set(t,e,s){return this.a.copy(t),this.b.copy(e),this.c.copy(s),this}setFromPointsAndIndices(t,e,s,i){return this.a.copy(t[e]),this.b.copy(t[s]),this.c.copy(t[i]),this}setFromAttributeAndIndices(t,e,s,i){return this.a.fromBufferAttribute(t,e),this.b.fromBufferAttribute(t,s),this.c.fromBufferAttribute(t,i),this}clone(){return(new this.constructor).copy(this)}copy(t){return this.a.copy(t.a),this.b.copy(t.b),this.c.copy(t.c),this}getArea(){return Ir.subVectors(this.c,this.b),Pr.subVectors(this.a,this.b),.5*Ir.cross(Pr).length()}getMidpoint(t){return t.addVectors(this.a,this.b).add(this.c).multiplyScalar(1/3)}getNormal(t){return Gr.getNormal(this.a,this.b,this.c,t)}getPlane(t){return t.setFromCoplanarPoints(this.a,this.b,this.c)}getBarycoord(t,e){return Gr.getBarycoord(t,this.a,this.b,this.c,e)}getInterpolation(t,e,s,i,r){return Gr.getInterpolation(t,this.a,this.b,this.c,e,s,i,r)}containsPoint(t){return Gr.containsPoint(t,this.a,this.b,this.c)}isFrontFacing(t){return Gr.isFrontFacing(this.a,this.b,this.c,t)}intersectsBox(t){return t.intersectsTriangle(this)}closestPointToPoint(t,e){const s=this.a,i=this.b,r=this.c;let n,o;Or.subVectors(i,s),zr.subVectors(r,s),Vr.subVectors(t,s);const a=Or.dot(Vr),h=zr.dot(Vr);if(a<=0&&h<=0)return e.copy(s);Dr.subVectors(t,i);const l=Or.dot(Dr),u=zr.dot(Dr);if(l>=0&&u<=l)return e.copy(i);const c=a*u-l*h;if(c<=0&&a>=0&&l<=0)return n=a/(a-l),e.copy(s).addScaledVector(Or,n);kr.subVectors(t,r);const d=Or.dot(kr),p=zr.dot(kr);if(p>=0&&d<=p)return e.copy(r);const m=d*h-a*p;if(m<=0&&h>=0&&p<=0)return o=h/(h-p),e.copy(s).addScaledVector(zr,o);const g=l*p-d*u;if(g<=0&&u-l>=0&&d-p>=0)return Lr.subVectors(r,i),o=(u-l)/(u-l+(d-p)),e.copy(i).addScaledVector(Lr,o);const f=1/(g+m+c);return n=m*f,o=c*f,e.copy(s).addScaledVector(Or,n).addScaledVector(zr,o)}equals(t){return t.a.equals(this.a)&&t.b.equals(this.b)&&t.c.equals(this.c)}}const Wr={aliceblue:15792383,antiquewhite:16444375,aqua:65535,aquamarine:8388564,azure:15794175,beige:16119260,bisque:16770244,black:0,blanchedalmond:16772045,blue:255,blueviolet:9055202,brown:10824234,burlywood:14596231,cadetblue:6266528,chartreuse:8388352,chocolate:13789470,coral:16744272,cornflowerblue:6591981,cornsilk:16775388,crimson:14423100,cyan:65535,darkblue:139,darkcyan:35723,darkgoldenrod:12092939,darkgray:11119017,darkgreen:25600,darkgrey:11119017,darkkhaki:12433259,darkmagenta:9109643,darkolivegreen:5597999,darkorange:16747520,darkorchid:10040012,darkred:9109504,darksalmon:15308410,darkseagreen:9419919,darkslateblue:4734347,darkslategray:3100495,darkslategrey:3100495,darkturquoise:52945,darkviolet:9699539,deeppink:16716947,deepskyblue:49151,dimgray:6908265,dimgrey:6908265,dodgerblue:2003199,firebrick:11674146,floralwhite:16775920,forestgreen:2263842,fuchsia:16711935,gainsboro:14474460,ghostwhite:16316671,gold:16766720,goldenrod:14329120,gray:8421504,green:32768,greenyellow:11403055,grey:8421504,honeydew:15794160,hotpink:16738740,indianred:13458524,indigo:4915330,ivory:16777200,khaki:15787660,lavender:15132410,lavenderblush:16773365,lawngreen:8190976,lemonchiffon:16775885,lightblue:11393254,lightcoral:15761536,lightcyan:14745599,lightgoldenrodyellow:16448210,lightgray:13882323,lightgreen:9498256,lightgrey:13882323,lightpink:16758465,lightsalmon:16752762,lightseagreen:2142890,lightskyblue:8900346,lightslategray:7833753,lightslategrey:7833753,lightsteelblue:11584734,lightyellow:16777184,lime:65280,limegreen:3329330,linen:16445670,magenta:16711935,maroon:8388608,mediumaquamarine:6737322,mediumblue:205,mediumorchid:12211667,mediumpurple:9662683,mediumseagreen:3978097,mediumslateblue:8087790,mediumspringgreen:64154,mediumturquoise:4772300,mediumvioletred:13047173,midnightblue:1644912,mintcream:16121850,mistyrose:16770273,moccasin:16770229,navajowhite:16768685,navy:128,oldlace:16643558,olive:8421376,olivedrab:7048739,orange:16753920,orangered:16729344,orchid:14315734,palegoldenrod:15657130,palegreen:10025880,paleturquoise:11529966,palevioletred:14381203,papayawhip:16773077,peachpuff:16767673,peru:13468991,pink:16761035,plum:14524637,powderblue:11591910,purple:8388736,rebeccapurple:6697881,red:16711680,rosybrown:12357519,royalblue:4286945,saddlebrown:9127187,salmon:16416882,sandybrown:16032864,seagreen:3050327,seashell:16774638,sienna:10506797,silver:12632256,skyblue:8900331,slateblue:6970061,slategray:7372944,slategrey:7372944,snow:16775930,springgreen:65407,steelblue:4620980,tan:13808780,teal:32896,thistle:14204888,tomato:16737095,turquoise:4251856,violet:15631086,wheat:16113331,white:16777215,whitesmoke:16119285,yellow:16776960,yellowgreen:10145074},jr={h:0,s:0,l:0},Hr={h:0,s:0,l:0};function qr(t,e,s){return s<0&&(s+=1),s>1&&(s-=1),s<1/6?t+6*(e-t)*s:s<.5?e:s<2/3?t+6*(e-t)*(2/3-s):t}class $r{constructor(t,e,s){return this.isColor=!0,this.r=1,this.g=1,this.b=1,this.set(t,e,s)}set(t,e,s){if(void 0===e&&void 0===s){const e=t;e&&e.isColor?this.copy(e):"number"==typeof e?this.setHex(e):"string"==typeof e&&this.setStyle(e)}else this.setRGB(t,e,s);return this}setScalar(t){return this.r=t,this.g=t,this.b=t,this}setHex(t,e=Xe){return t=Math.floor(t),this.r=(t>>16&255)/255,this.g=(t>>8&255)/255,this.b=(255&t)/255,ui.toWorkingColorSpace(this,e),this}setRGB(t,e,s,i=ui.workingColorSpace){return this.r=t,this.g=e,this.b=s,ui.toWorkingColorSpace(this,i),this}setHSL(t,e,s,i=ui.workingColorSpace){if(t=qs(t,1),e=Hs(e,0,1),s=Hs(s,0,1),0===e)this.r=this.g=this.b=s;else{const i=s<=.5?s*(1+e):s+e-s*e,r=2*s-i;this.r=qr(r,i,t+1/3),this.g=qr(r,i,t),this.b=qr(r,i,t-1/3)}return ui.toWorkingColorSpace(this,i),this}setStyle(t,e=Xe){function s(e){void 0!==e&&parseFloat(e)<1&&console.warn("THREE.Color: Alpha component of "+t+" will be ignored.")}let i;if(i=/^(\w+)\(([^\)]*)\)/.exec(t)){let r;const n=i[1],o=i[2];switch(n){case"rgb":case"rgba":if(r=/^\s*(\d+)\s*,\s*(\d+)\s*,\s*(\d+)\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec(o))return s(r[4]),this.setRGB(Math.min(255,parseInt(r[1],10))/255,Math.min(255,parseInt(r[2],10))/255,Math.min(255,parseInt(r[3],10))/255,e);if(r=/^\s*(\d+)\%\s*,\s*(\d+)\%\s*,\s*(\d+)\%\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec(o))return s(r[4]),this.setRGB(Math.min(100,parseInt(r[1],10))/100,Math.min(100,parseInt(r[2],10))/100,Math.min(100,parseInt(r[3],10))/100,e);break;case"hsl":case"hsla":if(r=/^\s*(\d*\.?\d+)\s*,\s*(\d*\.?\d+)\%\s*,\s*(\d*\.?\d+)\%\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec(o))return s(r[4]),this.setHSL(parseFloat(r[1])/360,parseFloat(r[2])/100,parseFloat(r[3])/100,e);break;default:console.warn("THREE.Color: Unknown color model "+t)}}else if(i=/^\#([A-Fa-f\d]+)$/.exec(t)){const s=i[1],r=s.length;if(3===r)return this.setRGB(parseInt(s.charAt(0),16)/15,parseInt(s.charAt(1),16)/15,parseInt(s.charAt(2),16)/15,e);if(6===r)return this.setHex(parseInt(s,16),e);console.warn("THREE.Color: Invalid hex color "+t)}else if(t&&t.length>0)return this.setColorName(t,e);return this}setColorName(t,e=Xe){const s=Wr[t.toLowerCase()];return void 0!==s?this.setHex(s,e):console.warn("THREE.Color: Unknown color "+t),this}clone(){return new this.constructor(this.r,this.g,this.b)}copy(t){return this.r=t.r,this.g=t.g,this.b=t.b,this}copySRGBToLinear(t){return this.r=ci(t.r),this.g=ci(t.g),this.b=ci(t.b),this}copyLinearToSRGB(t){return this.r=di(t.r),this.g=di(t.g),this.b=di(t.b),this}convertSRGBToLinear(){return this.copySRGBToLinear(this),this}convertLinearToSRGB(){return this.copyLinearToSRGB(this),this}getHex(t=Xe){return ui.fromWorkingColorSpace(Xr.copy(this),t),65536*Math.round(Hs(255*Xr.r,0,255))+256*Math.round(Hs(255*Xr.g,0,255))+Math.round(Hs(255*Xr.b,0,255))}getHexString(t=Xe){return("000000"+this.getHex(t).toString(16)).slice(-6)}getHSL(t,e=ui.workingColorSpace){ui.fromWorkingColorSpace(Xr.copy(this),e);const s=Xr.r,i=Xr.g,r=Xr.b,n=Math.max(s,i,r),o=Math.min(s,i,r);let a,h;const l=(o+n)/2;if(o===n)a=0,h=0;else{const t=n-o;switch(h=l<=.5?t/(n+o):t/(2-n-o),n){case s:a=(i-r)/t+(i0!=t>0&&this.version++,this._alphaTest=t}onBeforeCompile(){}customProgramCacheKey(){return this.onBeforeCompile.toString()}setValues(t){if(void 0!==t)for(const e in t){const s=t[e];if(void 0===s){console.warn(`THREE.Material: parameter '${e}' has value of undefined.`);continue}const i=this[e];void 0!==i?i&&i.isColor?i.set(s):i&&i.isVector3&&s&&s.isVector3?i.copy(s):this[e]=s:console.warn(`THREE.Material: '${e}' is not a property of THREE.${this.type}.`)}}toJSON(t){const e=void 0===t||"string"==typeof t;e&&(t={textures:{},images:{}});const s={metadata:{version:4.6,type:"Material",generator:"Material.toJSON"}};function i(t){const e=[];for(const s in t){const i=t[s];delete i.metadata,e.push(i)}return e}if(s.uuid=this.uuid,s.type=this.type,""!==this.name&&(s.name=this.name),this.color&&this.color.isColor&&(s.color=this.color.getHex()),void 0!==this.roughness&&(s.roughness=this.roughness),void 0!==this.metalness&&(s.metalness=this.metalness),void 0!==this.sheen&&(s.sheen=this.sheen),this.sheenColor&&this.sheenColor.isColor&&(s.sheenColor=this.sheenColor.getHex()),void 0!==this.sheenRoughness&&(s.sheenRoughness=this.sheenRoughness),this.emissive&&this.emissive.isColor&&(s.emissive=this.emissive.getHex()),void 0!==this.emissiveIntensity&&1!==this.emissiveIntensity&&(s.emissiveIntensity=this.emissiveIntensity),this.specular&&this.specular.isColor&&(s.specular=this.specular.getHex()),void 0!==this.specularIntensity&&(s.specularIntensity=this.specularIntensity),this.specularColor&&this.specularColor.isColor&&(s.specularColor=this.specularColor.getHex()),void 0!==this.shininess&&(s.shininess=this.shininess),void 0!==this.clearcoat&&(s.clearcoat=this.clearcoat),void 0!==this.clearcoatRoughness&&(s.clearcoatRoughness=this.clearcoatRoughness),this.clearcoatMap&&this.clearcoatMap.isTexture&&(s.clearcoatMap=this.clearcoatMap.toJSON(t).uuid),this.clearcoatRoughnessMap&&this.clearcoatRoughnessMap.isTexture&&(s.clearcoatRoughnessMap=this.clearcoatRoughnessMap.toJSON(t).uuid),this.clearcoatNormalMap&&this.clearcoatNormalMap.isTexture&&(s.clearcoatNormalMap=this.clearcoatNormalMap.toJSON(t).uuid,s.clearcoatNormalScale=this.clearcoatNormalScale.toArray()),void 0!==this.dispersion&&(s.dispersion=this.dispersion),void 0!==this.iridescence&&(s.iridescence=this.iridescence),void 0!==this.iridescenceIOR&&(s.iridescenceIOR=this.iridescenceIOR),void 0!==this.iridescenceThicknessRange&&(s.iridescenceThicknessRange=this.iridescenceThicknessRange),this.iridescenceMap&&this.iridescenceMap.isTexture&&(s.iridescenceMap=this.iridescenceMap.toJSON(t).uuid),this.iridescenceThicknessMap&&this.iridescenceThicknessMap.isTexture&&(s.iridescenceThicknessMap=this.iridescenceThicknessMap.toJSON(t).uuid),void 0!==this.anisotropy&&(s.anisotropy=this.anisotropy),void 0!==this.anisotropyRotation&&(s.anisotropyRotation=this.anisotropyRotation),this.anisotropyMap&&this.anisotropyMap.isTexture&&(s.anisotropyMap=this.anisotropyMap.toJSON(t).uuid),this.map&&this.map.isTexture&&(s.map=this.map.toJSON(t).uuid),this.matcap&&this.matcap.isTexture&&(s.matcap=this.matcap.toJSON(t).uuid),this.alphaMap&&this.alphaMap.isTexture&&(s.alphaMap=this.alphaMap.toJSON(t).uuid),this.lightMap&&this.lightMap.isTexture&&(s.lightMap=this.lightMap.toJSON(t).uuid,s.lightMapIntensity=this.lightMapIntensity),this.aoMap&&this.aoMap.isTexture&&(s.aoMap=this.aoMap.toJSON(t).uuid,s.aoMapIntensity=this.aoMapIntensity),this.bumpMap&&this.bumpMap.isTexture&&(s.bumpMap=this.bumpMap.toJSON(t).uuid,s.bumpScale=this.bumpScale),this.normalMap&&this.normalMap.isTexture&&(s.normalMap=this.normalMap.toJSON(t).uuid,s.normalMapType=this.normalMapType,s.normalScale=this.normalScale.toArray()),this.displacementMap&&this.displacementMap.isTexture&&(s.displacementMap=this.displacementMap.toJSON(t).uuid,s.displacementScale=this.displacementScale,s.displacementBias=this.displacementBias),this.roughnessMap&&this.roughnessMap.isTexture&&(s.roughnessMap=this.roughnessMap.toJSON(t).uuid),this.metalnessMap&&this.metalnessMap.isTexture&&(s.metalnessMap=this.metalnessMap.toJSON(t).uuid),this.emissiveMap&&this.emissiveMap.isTexture&&(s.emissiveMap=this.emissiveMap.toJSON(t).uuid),this.specularMap&&this.specularMap.isTexture&&(s.specularMap=this.specularMap.toJSON(t).uuid),this.specularIntensityMap&&this.specularIntensityMap.isTexture&&(s.specularIntensityMap=this.specularIntensityMap.toJSON(t).uuid),this.specularColorMap&&this.specularColorMap.isTexture&&(s.specularColorMap=this.specularColorMap.toJSON(t).uuid),this.envMap&&this.envMap.isTexture&&(s.envMap=this.envMap.toJSON(t).uuid,void 0!==this.combine&&(s.combine=this.combine)),void 0!==this.envMapRotation&&(s.envMapRotation=this.envMapRotation.toArray()),void 0!==this.envMapIntensity&&(s.envMapIntensity=this.envMapIntensity),void 0!==this.reflectivity&&(s.reflectivity=this.reflectivity),void 0!==this.refractionRatio&&(s.refractionRatio=this.refractionRatio),this.gradientMap&&this.gradientMap.isTexture&&(s.gradientMap=this.gradientMap.toJSON(t).uuid),void 0!==this.transmission&&(s.transmission=this.transmission),this.transmissionMap&&this.transmissionMap.isTexture&&(s.transmissionMap=this.transmissionMap.toJSON(t).uuid),void 0!==this.thickness&&(s.thickness=this.thickness),this.thicknessMap&&this.thicknessMap.isTexture&&(s.thicknessMap=this.thicknessMap.toJSON(t).uuid),void 0!==this.attenuationDistance&&this.attenuationDistance!==1/0&&(s.attenuationDistance=this.attenuationDistance),void 0!==this.attenuationColor&&(s.attenuationColor=this.attenuationColor.getHex()),void 0!==this.size&&(s.size=this.size),null!==this.shadowSide&&(s.shadowSide=this.shadowSide),void 0!==this.sizeAttenuation&&(s.sizeAttenuation=this.sizeAttenuation),1!==this.blending&&(s.blending=this.blending),this.side!==c&&(s.side=this.side),!0===this.vertexColors&&(s.vertexColors=!0),this.opacity<1&&(s.opacity=this.opacity),!0===this.transparent&&(s.transparent=!0),this.blendSrc!==C&&(s.blendSrc=this.blendSrc),this.blendDst!==E&&(s.blendDst=this.blendDst),this.blendEquation!==v&&(s.blendEquation=this.blendEquation),null!==this.blendSrcAlpha&&(s.blendSrcAlpha=this.blendSrcAlpha),null!==this.blendDstAlpha&&(s.blendDstAlpha=this.blendDstAlpha),null!==this.blendEquationAlpha&&(s.blendEquationAlpha=this.blendEquationAlpha),this.blendColor&&this.blendColor.isColor&&(s.blendColor=this.blendColor.getHex()),0!==this.blendAlpha&&(s.blendAlpha=this.blendAlpha),3!==this.depthFunc&&(s.depthFunc=this.depthFunc),!1===this.depthTest&&(s.depthTest=this.depthTest),!1===this.depthWrite&&(s.depthWrite=this.depthWrite),!1===this.colorWrite&&(s.colorWrite=this.colorWrite),255!==this.stencilWriteMask&&(s.stencilWriteMask=this.stencilWriteMask),this.stencilFunc!==ys&&(s.stencilFunc=this.stencilFunc),0!==this.stencilRef&&(s.stencilRef=this.stencilRef),255!==this.stencilFuncMask&&(s.stencilFuncMask=this.stencilFuncMask),this.stencilFail!==is&&(s.stencilFail=this.stencilFail),this.stencilZFail!==is&&(s.stencilZFail=this.stencilZFail),this.stencilZPass!==is&&(s.stencilZPass=this.stencilZPass),!0===this.stencilWrite&&(s.stencilWrite=this.stencilWrite),void 0!==this.rotation&&0!==this.rotation&&(s.rotation=this.rotation),!0===this.polygonOffset&&(s.polygonOffset=!0),0!==this.polygonOffsetFactor&&(s.polygonOffsetFactor=this.polygonOffsetFactor),0!==this.polygonOffsetUnits&&(s.polygonOffsetUnits=this.polygonOffsetUnits),void 0!==this.linewidth&&1!==this.linewidth&&(s.linewidth=this.linewidth),void 0!==this.dashSize&&(s.dashSize=this.dashSize),void 0!==this.gapSize&&(s.gapSize=this.gapSize),void 0!==this.scale&&(s.scale=this.scale),!0===this.dithering&&(s.dithering=!0),this.alphaTest>0&&(s.alphaTest=this.alphaTest),!0===this.alphaHash&&(s.alphaHash=!0),!0===this.alphaToCoverage&&(s.alphaToCoverage=!0),!0===this.premultipliedAlpha&&(s.premultipliedAlpha=!0),!0===this.forceSinglePass&&(s.forceSinglePass=!0),!0===this.wireframe&&(s.wireframe=!0),this.wireframeLinewidth>1&&(s.wireframeLinewidth=this.wireframeLinewidth),"round"!==this.wireframeLinecap&&(s.wireframeLinecap=this.wireframeLinecap),"round"!==this.wireframeLinejoin&&(s.wireframeLinejoin=this.wireframeLinejoin),!0===this.flatShading&&(s.flatShading=!0),!1===this.visible&&(s.visible=!1),!1===this.toneMapped&&(s.toneMapped=!1),!1===this.fog&&(s.fog=!1),Object.keys(this.userData).length>0&&(s.userData=this.userData),e){const e=i(t.textures),r=i(t.images);e.length>0&&(s.textures=e),r.length>0&&(s.images=r)}return s}clone(){return(new this.constructor).copy(this)}copy(t){this.name=t.name,this.blending=t.blending,this.side=t.side,this.vertexColors=t.vertexColors,this.opacity=t.opacity,this.transparent=t.transparent,this.blendSrc=t.blendSrc,this.blendDst=t.blendDst,this.blendEquation=t.blendEquation,this.blendSrcAlpha=t.blendSrcAlpha,this.blendDstAlpha=t.blendDstAlpha,this.blendEquationAlpha=t.blendEquationAlpha,this.blendColor.copy(t.blendColor),this.blendAlpha=t.blendAlpha,this.depthFunc=t.depthFunc,this.depthTest=t.depthTest,this.depthWrite=t.depthWrite,this.stencilWriteMask=t.stencilWriteMask,this.stencilFunc=t.stencilFunc,this.stencilRef=t.stencilRef,this.stencilFuncMask=t.stencilFuncMask,this.stencilFail=t.stencilFail,this.stencilZFail=t.stencilZFail,this.stencilZPass=t.stencilZPass,this.stencilWrite=t.stencilWrite;const e=t.clippingPlanes;let s=null;if(null!==e){const t=e.length;s=new Array(t);for(let i=0;i!==t;++i)s[i]=e[i].clone()}return this.clippingPlanes=s,this.clipIntersection=t.clipIntersection,this.clipShadows=t.clipShadows,this.shadowSide=t.shadowSide,this.colorWrite=t.colorWrite,this.precision=t.precision,this.polygonOffset=t.polygonOffset,this.polygonOffsetFactor=t.polygonOffsetFactor,this.polygonOffsetUnits=t.polygonOffsetUnits,this.dithering=t.dithering,this.alphaTest=t.alphaTest,this.alphaHash=t.alphaHash,this.alphaToCoverage=t.alphaToCoverage,this.premultipliedAlpha=t.premultipliedAlpha,this.forceSinglePass=t.forceSinglePass,this.visible=t.visible,this.toneMapped=t.toneMapped,this.userData=JSON.parse(JSON.stringify(t.userData)),this}dispose(){this.dispatchEvent({type:"dispose"})}set needsUpdate(t){!0===t&&this.version++}onBuild(){console.warn("Material: onBuild() has been removed.")}onBeforeRender(){console.warn("Material: onBeforeRender() has been removed.")}}class Zr extends Jr{constructor(t){super(),this.isMeshBasicMaterial=!0,this.type="MeshBasicMaterial",this.color=new $r(16777215),this.map=null,this.lightMap=null,this.lightMapIntensity=1,this.aoMap=null,this.aoMapIntensity=1,this.specularMap=null,this.alphaMap=null,this.envMap=null,this.envMapRotation=new mr,this.combine=0,this.reflectivity=1,this.refractionRatio=.98,this.wireframe=!1,this.wireframeLinewidth=1,this.wireframeLinecap="round",this.wireframeLinejoin="round",this.fog=!0,this.setValues(t)}copy(t){return super.copy(t),this.color.copy(t.color),this.map=t.map,this.lightMap=t.lightMap,this.lightMapIntensity=t.lightMapIntensity,this.aoMap=t.aoMap,this.aoMapIntensity=t.aoMapIntensity,this.specularMap=t.specularMap,this.alphaMap=t.alphaMap,this.envMap=t.envMap,this.envMapRotation.copy(t.envMapRotation),this.combine=t.combine,this.reflectivity=t.reflectivity,this.refractionRatio=t.refractionRatio,this.wireframe=t.wireframe,this.wireframeLinewidth=t.wireframeLinewidth,this.wireframeLinecap=t.wireframeLinecap,this.wireframeLinejoin=t.wireframeLinejoin,this.fog=t.fog,this}}const Qr=Kr();function Kr(){const t=new ArrayBuffer(4),e=new Float32Array(t),s=new Uint32Array(t),i=new Uint32Array(512),r=new Uint32Array(512);for(let t=0;t<256;++t){const e=t-127;e<-27?(i[t]=0,i[256|t]=32768,r[t]=24,r[256|t]=24):e<-14?(i[t]=1024>>-e-14,i[256|t]=1024>>-e-14|32768,r[t]=-e-1,r[256|t]=-e-1):e<=15?(i[t]=e+15<<10,i[256|t]=e+15<<10|32768,r[t]=13,r[256|t]=13):e<128?(i[t]=31744,i[256|t]=64512,r[t]=24,r[256|t]=24):(i[t]=31744,i[256|t]=64512,r[t]=13,r[256|t]=13)}const n=new Uint32Array(2048),o=new Uint32Array(64),a=new Uint32Array(64);for(let t=1;t<1024;++t){let e=t<<13,s=0;for(;0==(8388608&e);)e<<=1,s-=8388608;e&=-8388609,s+=947912704,n[t]=e|s}for(let t=1024;t<2048;++t)n[t]=939524096+(t-1024<<13);for(let t=1;t<31;++t)o[t]=t<<23;o[31]=1199570944,o[32]=2147483648;for(let t=33;t<63;++t)o[t]=2147483648+(t-32<<23);o[63]=3347054592;for(let t=1;t<64;++t)32!==t&&(a[t]=1024);return{floatView:e,uint32View:s,baseTable:i,shiftTable:r,mantissaTable:n,exponentTable:o,offsetTable:a}}function tn(t){Math.abs(t)>65504&&console.warn("THREE.DataUtils.toHalfFloat(): Value out of range."),t=Hs(t,-65504,65504),Qr.floatView[0]=t;const e=Qr.uint32View[0],s=e>>23&511;return Qr.baseTable[s]+((8388607&e)>>Qr.shiftTable[s])}function en(t){const e=t>>10;return Qr.uint32View[0]=Qr.mantissaTable[Qr.offsetTable[e]+(1023&t)]+Qr.exponentTable[e],Qr.floatView[0]}const sn={toHalfFloat:tn,fromHalfFloat:en},rn=new Ri,nn=new Zs;class on{constructor(t,e,s=!1){if(Array.isArray(t))throw new TypeError("THREE.BufferAttribute: array should be a Typed Array.");this.isBufferAttribute=!0,this.name="",this.array=t,this.itemSize=e,this.count=void 0!==t?t.length/e:0,this.normalized=s,this.usage=As,this._updateRange={offset:0,count:-1},this.updateRanges=[],this.gpuType=It,this.version=0}onUploadCallback(){}set needsUpdate(t){!0===t&&this.version++}get updateRange(){return ni("THREE.BufferAttribute: updateRange() is deprecated and will be removed in r169. Use addUpdateRange() instead."),this._updateRange}setUsage(t){return this.usage=t,this}addUpdateRange(t,e){this.updateRanges.push({start:t,count:e})}clearUpdateRanges(){this.updateRanges.length=0}copy(t){return this.name=t.name,this.array=new t.array.constructor(t.array),this.itemSize=t.itemSize,this.count=t.count,this.normalized=t.normalized,this.usage=t.usage,this.gpuType=t.gpuType,this}copyAt(t,e,s){t*=this.itemSize,s*=e.itemSize;for(let i=0,r=this.itemSize;i=0;--e)if(t[e]>=65535)return!0;return!1}(t)?pn:cn)(t,1):this.index=t,this}getAttribute(t){return this.attributes[t]}setAttribute(t,e){return this.attributes[t]=e,this}deleteAttribute(t){return delete this.attributes[t],this}hasAttribute(t){return void 0!==this.attributes[t]}addGroup(t,e,s=0){this.groups.push({start:t,count:e,materialIndex:s})}clearGroups(){this.groups=[]}setDrawRange(t,e){this.drawRange.start=t,this.drawRange.count=e}applyMatrix4(t){const e=this.attributes.position;void 0!==e&&(e.applyMatrix4(t),e.needsUpdate=!0);const s=this.attributes.normal;if(void 0!==s){const e=(new Qs).getNormalMatrix(t);s.applyNormalMatrix(e),s.needsUpdate=!0}const i=this.attributes.tangent;return void 0!==i&&(i.transformDirection(t),i.needsUpdate=!0),null!==this.boundingBox&&this.computeBoundingBox(),null!==this.boundingSphere&&this.computeBoundingSphere(),this}applyQuaternion(t){return yn.makeRotationFromQuaternion(t),this.applyMatrix4(yn),this}rotateX(t){return yn.makeRotationX(t),this.applyMatrix4(yn),this}rotateY(t){return yn.makeRotationY(t),this.applyMatrix4(yn),this}rotateZ(t){return yn.makeRotationZ(t),this.applyMatrix4(yn),this}translate(t,e,s){return yn.makeTranslation(t,e,s),this.applyMatrix4(yn),this}scale(t,e,s){return yn.makeScale(t,e,s),this.applyMatrix4(yn),this}lookAt(t){return xn.lookAt(t),xn.updateMatrix(),this.applyMatrix4(xn.matrix),this}center(){return this.computeBoundingBox(),this.boundingBox.getCenter(bn).negate(),this.translate(bn.x,bn.y,bn.z),this}setFromPoints(t){const e=[];for(let s=0,i=t.length;s0&&(t.userData=this.userData),void 0!==this.parameters){const e=this.parameters;for(const s in e)void 0!==e[s]&&(t[s]=e[s]);return t}t.data={attributes:{}};const e=this.index;null!==e&&(t.data.index={type:e.array.constructor.name,array:Array.prototype.slice.call(e.array)});const s=this.attributes;for(const e in s){const i=s[e];t.data.attributes[e]=i.toJSON(t.data)}const i={};let r=!1;for(const e in this.morphAttributes){const s=this.morphAttributes[e],n=[];for(let e=0,i=s.length;e0&&(i[e]=n,r=!0)}r&&(t.data.morphAttributes=i,t.data.morphTargetsRelative=this.morphTargetsRelative);const n=this.groups;n.length>0&&(t.data.groups=JSON.parse(JSON.stringify(n)));const o=this.boundingSphere;return null!==o&&(t.data.boundingSphere={center:o.center.toArray(),radius:o.radius}),t}clone(){return(new this.constructor).copy(this)}copy(t){this.index=null,this.attributes={},this.morphAttributes={},this.groups=[],this.boundingBox=null,this.boundingSphere=null;const e={};this.name=t.name;const s=t.index;null!==s&&this.setIndex(s.clone(e));const i=t.attributes;for(const t in i){const s=i[t];this.setAttribute(t,s.clone(e))}const r=t.morphAttributes;for(const t in r){const s=[],i=r[t];for(let t=0,r=i.length;t0){const s=t[e[0]];if(void 0!==s){this.morphTargetInfluences=[],this.morphTargetDictionary={};for(let t=0,e=s.length;t(t.far-t.near)**2)return}Sn.copy(r).invert(),Mn.copy(t.ray).applyMatrix4(Sn),null!==s.boundingBox&&!1===Mn.intersectsBox(s.boundingBox)||this._computeIntersections(t,e,Mn)}}_computeIntersections(t,e,s){let i;const r=this.geometry,n=this.material,o=r.index,a=r.attributes.position,h=r.attributes.uv,l=r.attributes.uv1,u=r.attributes.normal,c=r.groups,d=r.drawRange;if(null!==o)if(Array.isArray(n))for(let r=0,a=c.length;rs.far?null:{distance:l,point:Dn.clone(),object:t}}(t,e,s,i,Rn,Cn,En,Vn);if(u){r&&(Pn.fromBufferAttribute(r,a),Fn.fromBufferAttribute(r,h),Un.fromBufferAttribute(r,l),u.uv=Gr.getInterpolation(Vn,Rn,Cn,En,Pn,Fn,Un,new Zs)),n&&(Pn.fromBufferAttribute(n,a),Fn.fromBufferAttribute(n,h),Un.fromBufferAttribute(n,l),u.uv1=Gr.getInterpolation(Vn,Rn,Cn,En,Pn,Fn,Un,new Zs)),o&&(On.fromBufferAttribute(o,a),zn.fromBufferAttribute(o,h),Ln.fromBufferAttribute(o,l),u.normal=Gr.getInterpolation(Vn,Rn,Cn,En,On,zn,Ln,new Ri),u.normal.dot(i.direction)>0&&u.normal.multiplyScalar(-1));const t={a:a,b:h,c:l,normal:new Ri,materialIndex:0};Gr.getNormal(Rn,Cn,En,t.normal),u.face=t}return u}class Wn extends wn{constructor(t=1,e=1,s=1,i=1,r=1,n=1){super(),this.type="BoxGeometry",this.parameters={width:t,height:e,depth:s,widthSegments:i,heightSegments:r,depthSegments:n};const o=this;i=Math.floor(i),r=Math.floor(r),n=Math.floor(n);const a=[],h=[],l=[],u=[];let c=0,d=0;function p(t,e,s,i,r,n,p,m,g,f,y){const x=n/g,b=p/f,v=n/2,T=p/2,_=m/2,w=g+1,S=f+1;let M=0,A=0;const N=new Ri;for(let n=0;n0?1:-1,l.push(N.x,N.y,N.z),u.push(a/g),u.push(1-n/f),M+=1}}for(let t=0;t0&&(e.defines=this.defines),e.vertexShader=this.vertexShader,e.fragmentShader=this.fragmentShader,e.lights=this.lights,e.clipping=this.clipping;const s={};for(const t in this.extensions)!0===this.extensions[t]&&(s[t]=!0);return Object.keys(s).length>0&&(e.extensions=s),e}}class qn extends Br{constructor(){super(),this.isCamera=!0,this.type="Camera",this.matrixWorldInverse=new rr,this.projectionMatrix=new rr,this.projectionMatrixInverse=new rr,this.coordinateSystem=zs}copy(t,e){return super.copy(t,e),this.matrixWorldInverse.copy(t.matrixWorldInverse),this.projectionMatrix.copy(t.projectionMatrix),this.projectionMatrixInverse.copy(t.projectionMatrixInverse),this.coordinateSystem=t.coordinateSystem,this}getWorldDirection(t){return super.getWorldDirection(t).negate()}updateMatrixWorld(t){super.updateMatrixWorld(t),this.matrixWorldInverse.copy(this.matrixWorld).invert()}updateWorldMatrix(t,e){super.updateWorldMatrix(t,e),this.matrixWorldInverse.copy(this.matrixWorld).invert()}clone(){return(new this.constructor).copy(this)}}const $n=new Ri,Xn=new Zs,Yn=new Zs;class Jn extends qn{constructor(t=50,e=1,s=.1,i=2e3){super(),this.isPerspectiveCamera=!0,this.type="PerspectiveCamera",this.fov=t,this.zoom=1,this.near=s,this.far=i,this.focus=10,this.aspect=e,this.view=null,this.filmGauge=35,this.filmOffset=0,this.updateProjectionMatrix()}copy(t,e){return super.copy(t,e),this.fov=t.fov,this.zoom=t.zoom,this.near=t.near,this.far=t.far,this.focus=t.focus,this.aspect=t.aspect,this.view=null===t.view?null:Object.assign({},t.view),this.filmGauge=t.filmGauge,this.filmOffset=t.filmOffset,this}setFocalLength(t){const e=.5*this.getFilmHeight()/t;this.fov=2*Ws*Math.atan(e),this.updateProjectionMatrix()}getFocalLength(){const t=Math.tan(.5*Gs*this.fov);return.5*this.getFilmHeight()/t}getEffectiveFOV(){return 2*Ws*Math.atan(Math.tan(.5*Gs*this.fov)/this.zoom)}getFilmWidth(){return this.filmGauge*Math.min(this.aspect,1)}getFilmHeight(){return this.filmGauge/Math.max(this.aspect,1)}getViewBounds(t,e,s){$n.set(-1,-1,.5).applyMatrix4(this.projectionMatrixInverse),e.set($n.x,$n.y).multiplyScalar(-t/$n.z),$n.set(1,1,.5).applyMatrix4(this.projectionMatrixInverse),s.set($n.x,$n.y).multiplyScalar(-t/$n.z)}getViewSize(t,e){return this.getViewBounds(t,Xn,Yn),e.subVectors(Yn,Xn)}setViewOffset(t,e,s,i,r,n){this.aspect=t/e,null===this.view&&(this.view={enabled:!0,fullWidth:1,fullHeight:1,offsetX:0,offsetY:0,width:1,height:1}),this.view.enabled=!0,this.view.fullWidth=t,this.view.fullHeight=e,this.view.offsetX=s,this.view.offsetY=i,this.view.width=r,this.view.height=n,this.updateProjectionMatrix()}clearViewOffset(){null!==this.view&&(this.view.enabled=!1),this.updateProjectionMatrix()}updateProjectionMatrix(){const t=this.near;let e=t*Math.tan(.5*Gs*this.fov)/this.zoom,s=2*e,i=this.aspect*s,r=-.5*i;const n=this.view;if(null!==this.view&&this.view.enabled){const t=n.fullWidth,o=n.fullHeight;r+=n.offsetX*i/t,e-=n.offsetY*s/o,i*=n.width/t,s*=n.height/o}const o=this.filmOffset;0!==o&&(r+=t*o/this.getFilmWidth()),this.projectionMatrix.makePerspective(r,r+i,e,e-s,t,this.far,this.coordinateSystem),this.projectionMatrixInverse.copy(this.projectionMatrix).invert()}toJSON(t){const e=super.toJSON(t);return e.object.fov=this.fov,e.object.zoom=this.zoom,e.object.near=this.near,e.object.far=this.far,e.object.focus=this.focus,e.object.aspect=this.aspect,null!==this.view&&(e.object.view=Object.assign({},this.view)),e.object.filmGauge=this.filmGauge,e.object.filmOffset=this.filmOffset,e}}const Zn=-90;class Qn extends Br{constructor(t,e,s){super(),this.type="CubeCamera",this.renderTarget=s,this.coordinateSystem=null,this.activeMipmapLevel=0;const i=new Jn(Zn,1,t,e);i.layers=this.layers,this.add(i);const r=new Jn(Zn,1,t,e);r.layers=this.layers,this.add(r);const n=new Jn(Zn,1,t,e);n.layers=this.layers,this.add(n);const o=new Jn(Zn,1,t,e);o.layers=this.layers,this.add(o);const a=new Jn(Zn,1,t,e);a.layers=this.layers,this.add(a);const h=new Jn(Zn,1,t,e);h.layers=this.layers,this.add(h)}updateCoordinateSystem(){const t=this.coordinateSystem,e=this.children.concat(),[s,i,r,n,o,a]=e;for(const t of e)this.remove(t);if(t===zs)s.up.set(0,1,0),s.lookAt(1,0,0),i.up.set(0,1,0),i.lookAt(-1,0,0),r.up.set(0,0,-1),r.lookAt(0,1,0),n.up.set(0,0,1),n.lookAt(0,-1,0),o.up.set(0,1,0),o.lookAt(0,0,1),a.up.set(0,1,0),a.lookAt(0,0,-1);else{if(t!==Ls)throw new Error("THREE.CubeCamera.updateCoordinateSystem(): Invalid coordinate system: "+t);s.up.set(0,-1,0),s.lookAt(-1,0,0),i.up.set(0,-1,0),i.lookAt(1,0,0),r.up.set(0,0,1),r.lookAt(0,1,0),n.up.set(0,0,-1),n.lookAt(0,-1,0),o.up.set(0,-1,0),o.lookAt(0,0,1),a.up.set(0,-1,0),a.lookAt(0,0,-1)}for(const t of e)this.add(t),t.updateMatrixWorld()}update(t,e){null===this.parent&&this.updateMatrixWorld();const{renderTarget:s,activeMipmapLevel:i}=this;this.coordinateSystem!==t.coordinateSystem&&(this.coordinateSystem=t.coordinateSystem,this.updateCoordinateSystem());const[r,n,o,a,h,l]=this.children,u=t.getRenderTarget(),c=t.getActiveCubeFace(),d=t.getActiveMipmapLevel(),p=t.xr.enabled;t.xr.enabled=!1;const m=s.texture.generateMipmaps;s.texture.generateMipmaps=!1,t.setRenderTarget(s,0,i),t.render(e,r),t.setRenderTarget(s,1,i),t.render(e,n),t.setRenderTarget(s,2,i),t.render(e,o),t.setRenderTarget(s,3,i),t.render(e,a),t.setRenderTarget(s,4,i),t.render(e,h),s.texture.generateMipmaps=m,t.setRenderTarget(s,5,i),t.render(e,l),t.setRenderTarget(u,c,d),t.xr.enabled=p,s.texture.needsPMREMUpdate=!0}}class Kn extends bi{constructor(t,e,s,i,r,n,o,a,h,l){super(t=void 0!==t?t:[],e=void 0!==e?e:ht,s,i,r,n,o,a,h,l),this.isCubeTexture=!0,this.flipY=!1}get images(){return this.image}set images(t){this.image=t}}class to extends _i{constructor(t=1,e={}){super(t,t,e),this.isWebGLCubeRenderTarget=!0;const s={width:t,height:t,depth:1},i=[s,s,s,s,s,s];this.texture=new Kn(i,e.mapping,e.wrapS,e.wrapT,e.magFilter,e.minFilter,e.format,e.type,e.anisotropy,e.colorSpace),this.texture.isRenderTargetTexture=!0,this.texture.generateMipmaps=void 0!==e.generateMipmaps&&e.generateMipmaps,this.texture.minFilter=void 0!==e.minFilter?e.minFilter:Tt}fromEquirectangularTexture(t,e){this.texture.type=e.type,this.texture.colorSpace=e.colorSpace,this.texture.generateMipmaps=e.generateMipmaps,this.texture.minFilter=e.minFilter,this.texture.magFilter=e.magFilter;const s={uniforms:{tEquirect:{value:null}},vertexShader:"\n\n\t\t\t\tvarying vec3 vWorldDirection;\n\n\t\t\t\tvec3 transformDirection( in vec3 dir, in mat4 matrix ) {\n\n\t\t\t\t\treturn normalize( ( matrix * vec4( dir, 0.0 ) ).xyz );\n\n\t\t\t\t}\n\n\t\t\t\tvoid main() {\n\n\t\t\t\t\tvWorldDirection = transformDirection( position, modelMatrix );\n\n\t\t\t\t\t#include \n\t\t\t\t\t#include \n\n\t\t\t\t}\n\t\t\t",fragmentShader:"\n\n\t\t\t\tuniform sampler2D tEquirect;\n\n\t\t\t\tvarying vec3 vWorldDirection;\n\n\t\t\t\t#include \n\n\t\t\t\tvoid main() {\n\n\t\t\t\t\tvec3 direction = normalize( vWorldDirection );\n\n\t\t\t\t\tvec2 sampleUV = equirectUv( direction );\n\n\t\t\t\t\tgl_FragColor = texture2D( tEquirect, sampleUV );\n\n\t\t\t\t}\n\t\t\t"},i=new Wn(5,5,5),r=new Hn({name:"CubemapFromEquirect",uniforms:jn(s.uniforms),vertexShader:s.vertexShader,fragmentShader:s.fragmentShader,side:d,blending:m});r.uniforms.tEquirect.value=e;const n=new kn(i,r),o=e.minFilter;e.minFilter===St&&(e.minFilter=Tt);return new Qn(1,10,this).update(t,n),e.minFilter=o,n.geometry.dispose(),n.material.dispose(),this}clear(t,e,s,i){const r=t.getRenderTarget();for(let r=0;r<6;r++)t.setRenderTarget(this,r),t.clear(e,s,i);t.setRenderTarget(r)}}class eo{constructor(t,e=25e-5){this.isFogExp2=!0,this.name="",this.color=new $r(t),this.density=e}clone(){return new eo(this.color,this.density)}toJSON(){return{type:"FogExp2",name:this.name,color:this.color.getHex(),density:this.density}}}class so{constructor(t,e=1,s=1e3){this.isFog=!0,this.name="",this.color=new $r(t),this.near=e,this.far=s}clone(){return new so(this.color,this.near,this.far)}toJSON(){return{type:"Fog",name:this.name,color:this.color.getHex(),near:this.near,far:this.far}}}class io extends Br{constructor(){super(),this.isScene=!0,this.type="Scene",this.background=null,this.environment=null,this.fog=null,this.backgroundBlurriness=0,this.backgroundIntensity=1,this.backgroundRotation=new mr,this.environmentIntensity=1,this.environmentRotation=new mr,this.overrideMaterial=null,"undefined"!=typeof __THREE_DEVTOOLS__&&__THREE_DEVTOOLS__.dispatchEvent(new CustomEvent("observe",{detail:this}))}copy(t,e){return super.copy(t,e),null!==t.background&&(this.background=t.background.clone()),null!==t.environment&&(this.environment=t.environment.clone()),null!==t.fog&&(this.fog=t.fog.clone()),this.backgroundBlurriness=t.backgroundBlurriness,this.backgroundIntensity=t.backgroundIntensity,this.backgroundRotation.copy(t.backgroundRotation),this.environmentIntensity=t.environmentIntensity,this.environmentRotation.copy(t.environmentRotation),null!==t.overrideMaterial&&(this.overrideMaterial=t.overrideMaterial.clone()),this.matrixAutoUpdate=t.matrixAutoUpdate,this}toJSON(t){const e=super.toJSON(t);return null!==this.fog&&(e.object.fog=this.fog.toJSON()),this.backgroundBlurriness>0&&(e.object.backgroundBlurriness=this.backgroundBlurriness),1!==this.backgroundIntensity&&(e.object.backgroundIntensity=this.backgroundIntensity),e.object.backgroundRotation=this.backgroundRotation.toArray(),1!==this.environmentIntensity&&(e.object.environmentIntensity=this.environmentIntensity),e.object.environmentRotation=this.environmentRotation.toArray(),e}}class ro{constructor(t,e){this.isInterleavedBuffer=!0,this.array=t,this.stride=e,this.count=void 0!==t?t.length/e:0,this.usage=As,this._updateRange={offset:0,count:-1},this.updateRanges=[],this.version=0,this.uuid=js()}onUploadCallback(){}set needsUpdate(t){!0===t&&this.version++}get updateRange(){return ni("THREE.InterleavedBuffer: updateRange() is deprecated and will be removed in r169. Use addUpdateRange() instead."),this._updateRange}setUsage(t){return this.usage=t,this}addUpdateRange(t,e){this.updateRanges.push({start:t,count:e})}clearUpdateRanges(){this.updateRanges.length=0}copy(t){return this.array=new t.array.constructor(t.array),this.count=t.count,this.stride=t.stride,this.usage=t.usage,this}copyAt(t,e,s){t*=this.stride,s*=e.stride;for(let i=0,r=this.stride;it.far||e.push({distance:a,point:lo.clone(),uv:Gr.getInterpolation(lo,fo,yo,xo,bo,vo,To,new Zs),face:null,object:this})}copy(t,e){return super.copy(t,e),void 0!==t.center&&this.center.copy(t.center),this.material=t.material,this}}function wo(t,e,s,i,r,n){po.subVectors(t,s).addScalar(.5).multiply(i),void 0!==r?(mo.x=n*po.x-r*po.y,mo.y=r*po.x+n*po.y):mo.copy(po),t.copy(e),t.x+=mo.x,t.y+=mo.y,t.applyMatrix4(go)}const So=new Ri,Mo=new Ri;class Ao extends Br{constructor(){super(),this._currentLevel=0,this.type="LOD",Object.defineProperties(this,{levels:{enumerable:!0,value:[]},isLOD:{value:!0}}),this.autoUpdate=!0}copy(t){super.copy(t,!1);const e=t.levels;for(let t=0,s=e.length;t0){let s,i;for(s=1,i=e.length;s0){So.setFromMatrixPosition(this.matrixWorld);const s=t.ray.origin.distanceTo(So);this.getObjectForDistance(s).raycast(t,e)}}update(t){const e=this.levels;if(e.length>1){So.setFromMatrixPosition(t.matrixWorld),Mo.setFromMatrixPosition(this.matrixWorld);const s=So.distanceTo(Mo)/t.zoom;let i,r;for(e[0].object.visible=!0,i=1,r=e.length;i=t))break;e[i-1].object.visible=!1,e[i].object.visible=!0}for(this._currentLevel=i-1;i1?null:e.copy(t.start).addScaledVector(s,r)}intersectsLine(t){const e=this.distanceToPoint(t.start),s=this.distanceToPoint(t.end);return e<0&&s>0||s<0&&e>0}intersectsBox(t){return t.intersectsPlane(this)}intersectsSphere(t){return t.intersectsPlane(this)}coplanarPoint(t){return t.copy(this.normal).multiplyScalar(-this.constant)}applyMatrix4(t,e){const s=e||Ko.getNormalMatrix(t),i=this.coplanarPoint(Zo).applyMatrix4(t),r=this.normal.applyMatrix3(s).normalize();return this.constant=-i.dot(r),this}translate(t){return this.constant-=t.dot(this.normal),this}equals(t){return t.normal.equals(this.normal)&&t.constant===this.constant}clone(){return(new this.constructor).copy(this)}}const ea=new Yi,sa=new Ri;class ia{constructor(t=new ta,e=new ta,s=new ta,i=new ta,r=new ta,n=new ta){this.planes=[t,e,s,i,r,n]}set(t,e,s,i,r,n){const o=this.planes;return o[0].copy(t),o[1].copy(e),o[2].copy(s),o[3].copy(i),o[4].copy(r),o[5].copy(n),this}copy(t){const e=this.planes;for(let s=0;s<6;s++)e[s].copy(t.planes[s]);return this}setFromProjectionMatrix(t,e=2e3){const s=this.planes,i=t.elements,r=i[0],n=i[1],o=i[2],a=i[3],h=i[4],l=i[5],u=i[6],c=i[7],d=i[8],p=i[9],m=i[10],g=i[11],f=i[12],y=i[13],x=i[14],b=i[15];if(s[0].setComponents(a-r,c-h,g-d,b-f).normalize(),s[1].setComponents(a+r,c+h,g+d,b+f).normalize(),s[2].setComponents(a+n,c+l,g+p,b+y).normalize(),s[3].setComponents(a-n,c-l,g-p,b-y).normalize(),s[4].setComponents(a-o,c-u,g-m,b-x).normalize(),e===zs)s[5].setComponents(a+o,c+u,g+m,b+x).normalize();else{if(e!==Ls)throw new Error("THREE.Frustum.setFromProjectionMatrix(): Invalid coordinate system: "+e);s[5].setComponents(o,u,m,x).normalize()}return this}intersectsObject(t){if(void 0!==t.boundingSphere)null===t.boundingSphere&&t.computeBoundingSphere(),ea.copy(t.boundingSphere).applyMatrix4(t.matrixWorld);else{const e=t.geometry;null===e.boundingSphere&&e.computeBoundingSphere(),ea.copy(e.boundingSphere).applyMatrix4(t.matrixWorld)}return this.intersectsSphere(ea)}intersectsSprite(t){return ea.center.set(0,0,0),ea.radius=.7071067811865476,ea.applyMatrix4(t.matrixWorld),this.intersectsSphere(ea)}intersectsSphere(t){const e=this.planes,s=t.center,i=-t.radius;for(let t=0;t<6;t++){if(e[t].distanceToPoint(s)0?t.max.x:t.min.x,sa.y=i.normal.y>0?t.max.y:t.min.y,sa.z=i.normal.z>0?t.max.z:t.min.z,i.distanceToPoint(sa)<0)return!1}return!0}containsPoint(t){const e=this.planes;for(let s=0;s<6;s++)if(e[s].distanceToPoint(t)<0)return!1;return!0}clone(){return(new this.constructor).copy(this)}}function ra(t,e){return t.z-e.z}function na(t,e){return e.z-t.z}class oa{constructor(){this.index=0,this.pool=[],this.list=[]}push(t,e,s){const i=this.pool,r=this.list;this.index>=i.length&&i.push({start:-1,count:-1,z:-1,index:-1});const n=i[this.index];r.push(n),this.index++,n.start=t.start,n.count=t.count,n.z=e,n.index=s}reset(){this.list.length=0,this.index=0}}const aa=new rr,ha=new rr,la=new rr,ua=new $r(1,1,1),ca=new rr,da=new ia,pa=new Bi,ma=new Yi,ga=new Ri,fa=new Ri,ya=new Ri,xa=new oa,ba=new kn,va=[];function Ta(t,e,s=0){const i=e.itemSize;if(t.isInterleavedBufferAttribute||t.array.constructor!==e.array.constructor){const r=t.count;for(let n=0;n65535?new Uint32Array(i):new Uint16Array(i);e.setIndex(new on(t,1))}this._geometryInitialized=!0}}_validateGeometry(t){const e=this.geometry;if(Boolean(t.getIndex())!==Boolean(e.getIndex()))throw new Error('BatchedMesh: All geometries must consistently have "index".');for(const s in e.attributes){if(!t.hasAttribute(s))throw new Error(`BatchedMesh: Added geometry missing "${s}". All geometries must have consistent attributes.`);const i=t.getAttribute(s),r=e.getAttribute(s);if(i.itemSize!==r.itemSize||i.normalized!==r.normalized)throw new Error("BatchedMesh: All attributes must have a consistent itemSize and normalized value.")}}setCustomSort(t){return this.customSort=t,this}computeBoundingBox(){null===this.boundingBox&&(this.boundingBox=new Bi);const t=this._geometryCount,e=this.boundingBox,s=this._drawInfo;e.makeEmpty();for(let i=0;i=this._maxInstanceCount)throw new Error("BatchedMesh: Maximum item count reached.");this._drawInfo.push({visible:!0,active:!0,geometryIndex:t});const e=this._drawInfo.length-1,s=this._matricesTexture,i=s.image.data;la.toArray(i,16*e),s.needsUpdate=!0;const r=this._colorsTexture;return r&&(ua.toArray(r.image.data,4*e),r.needsUpdate=!0),e}addGeometry(t,e=-1,s=-1){if(this._initializeGeometry(t),this._validateGeometry(t),this._drawInfo.length>=this._maxInstanceCount)throw new Error("BatchedMesh: Maximum item count reached.");const i={vertexStart:-1,vertexCount:-1,indexStart:-1,indexCount:-1};let r=null;const n=this._reservedRanges,o=this._drawRanges,a=this._bounds;0!==this._geometryCount&&(r=n[n.length-1]),i.vertexCount=-1===e?t.getAttribute("position").count:e,i.vertexStart=null===r?0:r.vertexStart+r.vertexCount;const h=t.getIndex(),l=null!==h;if(l&&(i.indexCount=-1===s?h.count:s,i.indexStart=null===r?0:r.indexStart+r.indexCount),-1!==i.indexStart&&i.indexStart+i.indexCount>this._maxIndexCount||i.vertexStart+i.vertexCount>this._maxVertexCount)throw new Error("BatchedMesh: Reserved space request exceeds the maximum buffer size.");const u=this._geometryCount;return this._geometryCount++,n.push(i),o.push({start:l?i.indexStart:i.vertexStart,count:-1}),a.push({boxInitialized:!1,box:new Bi,sphereInitialized:!1,sphere:new Yi}),this.setGeometryAt(u,t),u}setGeometryAt(t,e){if(t>=this._geometryCount)throw new Error("BatchedMesh: Maximum geometry count reached.");this._validateGeometry(e);const s=this.geometry,i=null!==s.getIndex(),r=s.getIndex(),n=e.getIndex(),o=this._reservedRanges[t];if(i&&n.count>o.indexCount||e.attributes.position.count>o.vertexCount)throw new Error("BatchedMesh: Reserved space not large enough for provided geometry.");const a=o.vertexStart,h=o.vertexCount;for(const t in s.attributes){const i=e.getAttribute(t),r=s.getAttribute(t);Ta(i,r,a);const n=i.itemSize;for(let t=i.count,e=h;t=this._geometryCount)return null;const s=this._bounds[t],i=s.box,r=this.geometry;if(!1===s.boxInitialized){i.makeEmpty();const e=r.index,n=r.attributes.position,o=this._drawRanges[t];for(let t=o.start,s=o.start+o.count;t=this._geometryCount)return null;const s=this._bounds[t],i=s.sphere,r=this.geometry;if(!1===s.sphereInitialized){i.makeEmpty(),this.getBoundingBoxAt(t,pa),pa.getCenter(i.center);const e=r.index,n=r.attributes.position,o=this._drawRanges[t];let a=0;for(let t=o.start,s=o.start+o.count;t=s.length||!1===s[t].active||(e.toArray(r,16*t),i.needsUpdate=!0),this}getMatrixAt(t,e){const s=this._drawInfo,i=this._matricesTexture.image.data;return t>=s.length||!1===s[t].active?null:e.fromArray(i,16*t)}setColorAt(t,e){null===this._colorsTexture&&this._initColorsTexture();const s=this._colorsTexture,i=this._colorsTexture.image.data,r=this._drawInfo;return t>=r.length||!1===r[t].active||(e.toArray(i,4*t),s.needsUpdate=!0),this}getColorAt(t,e){const s=this._colorsTexture.image.data,i=this._drawInfo;return t>=i.length||!1===i[t].active?null:e.fromArray(s,4*t)}setVisibleAt(t,e){const s=this._drawInfo;return t>=s.length||!1===s[t].active||s[t].visible===e||(s[t].visible=e,this._visibilityChanged=!0),this}getVisibleAt(t){const e=this._drawInfo;return!(t>=e.length||!1===e[t].active)&&e[t].visible}raycast(t,e){const s=this._drawInfo,i=this._drawRanges,r=this.matrixWorld,n=this.geometry;ba.material=this.material,ba.geometry.index=n.index,ba.geometry.attributes=n.attributes,null===ba.geometry.boundingBox&&(ba.geometry.boundingBox=new Bi),null===ba.geometry.boundingSphere&&(ba.geometry.boundingSphere=new Yi);for(let n=0,o=s.length;n({...t}))),this._reservedRanges=t._reservedRanges.map((t=>({...t}))),this._drawInfo=t._drawInfo.map((t=>({...t}))),this._bounds=t._bounds.map((t=>({boxInitialized:t.boxInitialized,box:t.box.clone(),sphereInitialized:t.sphereInitialized,sphere:t.sphere.clone()}))),this._maxInstanceCount=t._maxInstanceCount,this._maxVertexCount=t._maxVertexCount,this._maxIndexCount=t._maxIndexCount,this._geometryInitialized=t._geometryInitialized,this._geometryCount=t._geometryCount,this._multiDrawCounts=t._multiDrawCounts.slice(),this._multiDrawStarts=t._multiDrawStarts.slice(),this._matricesTexture=t._matricesTexture.clone(),this._matricesTexture.image.data=this._matricesTexture.image.slice(),null!==this._colorsTexture&&(this._colorsTexture=t._colorsTexture.clone(),this._colorsTexture.image.data=this._colorsTexture.image.slice()),this}dispose(){return this.geometry.dispose(),this._matricesTexture.dispose(),this._matricesTexture=null,this._indirectTexture.dispose(),this._indirectTexture=null,null!==this._colorsTexture&&(this._colorsTexture.dispose(),this._colorsTexture=null),this}onBeforeRender(t,e,s,i,r){if(!this._visibilityChanged&&!this.perObjectFrustumCulled&&!this.sortObjects)return;const n=i.getIndex(),o=null===n?1:n.array.BYTES_PER_ELEMENT,a=this._drawInfo,h=this._multiDrawStarts,l=this._multiDrawCounts,u=this._drawRanges,c=this.perObjectFrustumCulled,d=this._indirectTexture,p=d.image.data;c&&(ca.multiplyMatrices(s.projectionMatrix,s.matrixWorldInverse).multiply(this.matrixWorld),da.setFromProjectionMatrix(ca,t.coordinateSystem));let m=0;if(this.sortObjects){ha.copy(this.matrixWorld).invert(),ga.setFromMatrixPosition(s.matrixWorld).applyMatrix4(ha),fa.set(0,0,-1).transformDirection(s.matrixWorld).transformDirection(ha);for(let t=0,e=a.length;t0){const s=t[e[0]];if(void 0!==s){this.morphTargetInfluences=[],this.morphTargetDictionary={};for(let t=0,e=s.length;ti)return;Ca.applyMatrix4(t.matrixWorld);const a=e.ray.origin.distanceTo(Ca);return ae.far?void 0:{distance:a,point:Ea.clone().applyMatrix4(t.matrixWorld),index:r,face:null,faceIndex:null,object:t}}const Pa=new Ri,Fa=new Ri;class Ua extends Ba{constructor(t,e){super(t,e),this.isLineSegments=!0,this.type="LineSegments"}computeLineDistances(){const t=this.geometry;if(null===t.index){const e=t.attributes.position,s=[];for(let t=0,i=e.count;t0){const s=t[e[0]];if(void 0!==s){this.morphTargetInfluences=[],this.morphTargetDictionary={};for(let t=0,e=s.length;tr.far)return;n.push({distance:h,distanceToRay:Math.sqrt(a),point:s,index:e,face:null,object:o})}}class ja extends Br{constructor(){super(),this.isGroup=!0,this.type="Group"}}class Ha extends bi{constructor(t,e,s,i,r,n,o,a,h){super(t,e,s,i,r,n,o,a,h),this.isVideoTexture=!0,this.minFilter=void 0!==n?n:Tt,this.magFilter=void 0!==r?r:Tt,this.generateMipmaps=!1;const l=this;"requestVideoFrameCallback"in t&&t.requestVideoFrameCallback((function e(){l.needsUpdate=!0,t.requestVideoFrameCallback(e)}))}clone(){return new this.constructor(this.image).copy(this)}update(){const t=this.image;!1==="requestVideoFrameCallback"in t&&t.readyState>=t.HAVE_CURRENT_DATA&&(this.needsUpdate=!0)}}class qa extends bi{constructor(t,e){super({width:t,height:e}),this.isFramebufferTexture=!0,this.magFilter=ft,this.minFilter=ft,this.generateMipmaps=!1,this.needsUpdate=!0}}class $a extends bi{constructor(t,e,s,i,r,n,o,a,h,l,u,c){super(null,n,o,a,h,l,i,r,u,c),this.isCompressedTexture=!0,this.image={width:e,height:s},this.mipmaps=t,this.flipY=!1,this.generateMipmaps=!1}}class Xa extends $a{constructor(t,e,s,i,r,n){super(t,e,s,r,n),this.isCompressedArrayTexture=!0,this.image.depth=i,this.wrapR=mt,this.layerUpdates=new Set}addLayerUpdate(t){this.layerUpdates.add(t)}clearLayerUpdates(){this.layerUpdates.clear()}}class Ya extends $a{constructor(t,e,s){super(void 0,t[0].width,t[0].height,e,s,ht),this.isCompressedCubeTexture=!0,this.isCubeTexture=!0,this.image=t}}class Ja extends bi{constructor(t,e,s,i,r,n,o,a,h){super(t,e,s,i,r,n,o,a,h),this.isCanvasTexture=!0,this.needsUpdate=!0}}class Za extends bi{constructor(t,e,s,i,r,n,o,a,h,l=1026){if(l!==Wt&&l!==jt)throw new Error("DepthTexture format must be either THREE.DepthFormat or THREE.DepthStencilFormat");void 0===s&&l===Wt&&(s=Bt),void 0===s&&l===jt&&(s=Ot),super(null,i,r,n,o,a,l,s,h),this.isDepthTexture=!0,this.image={width:t,height:e},this.magFilter=void 0!==o?o:ft,this.minFilter=void 0!==a?a:ft,this.flipY=!1,this.generateMipmaps=!1,this.compareFunction=null}copy(t){return super.copy(t),this.compareFunction=t.compareFunction,this}toJSON(t){const e=super.toJSON(t);return null!==this.compareFunction&&(e.compareFunction=this.compareFunction),e}}class Qa{constructor(){this.type="Curve",this.arcLengthDivisions=200}getPoint(){return console.warn("THREE.Curve: .getPoint() not implemented."),null}getPointAt(t,e){const s=this.getUtoTmapping(t);return this.getPoint(s,e)}getPoints(t=5){const e=[];for(let s=0;s<=t;s++)e.push(this.getPoint(s/t));return e}getSpacedPoints(t=5){const e=[];for(let s=0;s<=t;s++)e.push(this.getPointAt(s/t));return e}getLength(){const t=this.getLengths();return t[t.length-1]}getLengths(t=this.arcLengthDivisions){if(this.cacheArcLengths&&this.cacheArcLengths.length===t+1&&!this.needsUpdate)return this.cacheArcLengths;this.needsUpdate=!1;const e=[];let s,i=this.getPoint(0),r=0;e.push(0);for(let n=1;n<=t;n++)s=this.getPoint(n/t),r+=s.distanceTo(i),e.push(r),i=s;return this.cacheArcLengths=e,e}updateArcLengths(){this.needsUpdate=!0,this.getLengths()}getUtoTmapping(t,e){const s=this.getLengths();let i=0;const r=s.length;let n;n=e||t*s[r-1];let o,a=0,h=r-1;for(;a<=h;)if(i=Math.floor(a+(h-a)/2),o=s[i]-n,o<0)a=i+1;else{if(!(o>0)){h=i;break}h=i-1}if(i=h,s[i]===n)return i/(r-1);const l=s[i];return(i+(n-l)/(s[i+1]-l))/(r-1)}getTangent(t,e){const s=1e-4;let i=t-s,r=t+s;i<0&&(i=0),r>1&&(r=1);const n=this.getPoint(i),o=this.getPoint(r),a=e||(n.isVector2?new Zs:new Ri);return a.copy(o).sub(n).normalize(),a}getTangentAt(t,e){const s=this.getUtoTmapping(t);return this.getTangent(s,e)}computeFrenetFrames(t,e){const s=new Ri,i=[],r=[],n=[],o=new Ri,a=new rr;for(let e=0;e<=t;e++){const s=e/t;i[e]=this.getTangentAt(s,new Ri)}r[0]=new Ri,n[0]=new Ri;let h=Number.MAX_VALUE;const l=Math.abs(i[0].x),u=Math.abs(i[0].y),c=Math.abs(i[0].z);l<=h&&(h=l,s.set(1,0,0)),u<=h&&(h=u,s.set(0,1,0)),c<=h&&s.set(0,0,1),o.crossVectors(i[0],s).normalize(),r[0].crossVectors(i[0],o),n[0].crossVectors(i[0],r[0]);for(let e=1;e<=t;e++){if(r[e]=r[e-1].clone(),n[e]=n[e-1].clone(),o.crossVectors(i[e-1],i[e]),o.length()>Number.EPSILON){o.normalize();const t=Math.acos(Hs(i[e-1].dot(i[e]),-1,1));r[e].applyMatrix4(a.makeRotationAxis(o,t))}n[e].crossVectors(i[e],r[e])}if(!0===e){let e=Math.acos(Hs(r[0].dot(r[t]),-1,1));e/=t,i[0].dot(o.crossVectors(r[0],r[t]))>0&&(e=-e);for(let s=1;s<=t;s++)r[s].applyMatrix4(a.makeRotationAxis(i[s],e*s)),n[s].crossVectors(i[s],r[s])}return{tangents:i,normals:r,binormals:n}}clone(){return(new this.constructor).copy(this)}copy(t){return this.arcLengthDivisions=t.arcLengthDivisions,this}toJSON(){const t={metadata:{version:4.6,type:"Curve",generator:"Curve.toJSON"}};return t.arcLengthDivisions=this.arcLengthDivisions,t.type=this.type,t}fromJSON(t){return this.arcLengthDivisions=t.arcLengthDivisions,this}}class Ka extends Qa{constructor(t=0,e=0,s=1,i=1,r=0,n=2*Math.PI,o=!1,a=0){super(),this.isEllipseCurve=!0,this.type="EllipseCurve",this.aX=t,this.aY=e,this.xRadius=s,this.yRadius=i,this.aStartAngle=r,this.aEndAngle=n,this.aClockwise=o,this.aRotation=a}getPoint(t,e=new Zs){const s=e,i=2*Math.PI;let r=this.aEndAngle-this.aStartAngle;const n=Math.abs(r)i;)r-=i;r0?0:(Math.floor(Math.abs(h)/r)+1)*r:0===l&&h===r-1&&(h=r-2,l=1),this.closed||h>0?o=i[(h-1)%r]:(sh.subVectors(i[0],i[1]).add(i[0]),o=sh);const u=i[h%r],c=i[(h+1)%r];if(this.closed||h+2i.length-2?i.length-1:n+1],u=i[n>i.length-3?i.length-1:n+2];return s.set(ah(o,a.x,h.x,l.x,u.x),ah(o,a.y,h.y,l.y,u.y)),s}copy(t){super.copy(t),this.points=[];for(let e=0,s=t.points.length;e=s){const t=i[r]-s,n=this.curves[r],o=n.getLength(),a=0===o?0:1-t/o;return n.getPointAt(a,e)}r++}return null}getLength(){const t=this.getCurveLengths();return t[t.length-1]}updateArcLengths(){this.needsUpdate=!0,this.cacheLengths=null,this.getCurveLengths()}getCurveLengths(){if(this.cacheLengths&&this.cacheLengths.length===this.curves.length)return this.cacheLengths;const t=[];let e=0;for(let s=0,i=this.curves.length;s1&&!e[e.length-1].equals(e[0])&&e.push(e[0]),e}copy(t){super.copy(t),this.curves=[];for(let e=0,s=t.curves.length;e0){const t=h.getPoint(0);t.equals(this.currentPoint)||this.lineTo(t.x,t.y)}this.curves.push(h);const l=h.getPoint(1);return this.currentPoint.copy(l),this}copy(t){return super.copy(t),this.currentPoint.copy(t.currentPoint),this}toJSON(){const t=super.toJSON();return t.currentPoint=this.currentPoint.toArray(),t}fromJSON(t){return super.fromJSON(t),this.currentPoint.fromArray(t.currentPoint),this}}class vh extends wn{constructor(t=[new Zs(0,-.5),new Zs(.5,0),new Zs(0,.5)],e=12,s=0,i=2*Math.PI){super(),this.type="LatheGeometry",this.parameters={points:t,segments:e,phiStart:s,phiLength:i},e=Math.floor(e),i=Hs(i,0,2*Math.PI);const r=[],n=[],o=[],a=[],h=[],l=1/e,u=new Ri,c=new Zs,d=new Ri,p=new Ri,m=new Ri;let g=0,f=0;for(let e=0;e<=t.length-1;e++)switch(e){case 0:g=t[e+1].x-t[e].x,f=t[e+1].y-t[e].y,d.x=1*f,d.y=-g,d.z=0*f,m.copy(d),d.normalize(),a.push(d.x,d.y,d.z);break;case t.length-1:a.push(m.x,m.y,m.z);break;default:g=t[e+1].x-t[e].x,f=t[e+1].y-t[e].y,d.x=1*f,d.y=-g,d.z=0*f,p.copy(d),d.x+=m.x,d.y+=m.y,d.z+=m.z,d.normalize(),a.push(d.x,d.y,d.z),m.copy(p)}for(let r=0;r<=e;r++){const d=s+r*l*i,p=Math.sin(d),m=Math.cos(d);for(let s=0;s<=t.length-1;s++){u.x=t[s].x*p,u.y=t[s].y,u.z=t[s].x*m,n.push(u.x,u.y,u.z),c.x=r/e,c.y=s/(t.length-1),o.push(c.x,c.y);const i=a[3*s+0]*p,l=a[3*s+1],d=a[3*s+0]*m;h.push(i,l,d)}}for(let s=0;s0&&y(!0),e>0&&y(!1)),this.setIndex(l),this.setAttribute("position",new gn(u,3)),this.setAttribute("normal",new gn(c,3)),this.setAttribute("uv",new gn(d,2))}copy(t){return super.copy(t),this.parameters=Object.assign({},t.parameters),this}static fromJSON(t){return new wh(t.radiusTop,t.radiusBottom,t.height,t.radialSegments,t.heightSegments,t.openEnded,t.thetaStart,t.thetaLength)}}class Sh extends wh{constructor(t=1,e=1,s=32,i=1,r=!1,n=0,o=2*Math.PI){super(0,t,e,s,i,r,n,o),this.type="ConeGeometry",this.parameters={radius:t,height:e,radialSegments:s,heightSegments:i,openEnded:r,thetaStart:n,thetaLength:o}}static fromJSON(t){return new Sh(t.radius,t.height,t.radialSegments,t.heightSegments,t.openEnded,t.thetaStart,t.thetaLength)}}class Mh extends wn{constructor(t=[],e=[],s=1,i=0){super(),this.type="PolyhedronGeometry",this.parameters={vertices:t,indices:e,radius:s,detail:i};const r=[],n=[];function o(t,e,s,i){const r=i+1,n=[];for(let i=0;i<=r;i++){n[i]=[];const o=t.clone().lerp(s,i/r),a=e.clone().lerp(s,i/r),h=r-i;for(let t=0;t<=h;t++)n[i][t]=0===t&&i===r?o:o.clone().lerp(a,t/h)}for(let t=0;t.9&&o<.1&&(e<.2&&(n[t+0]+=1),s<.2&&(n[t+2]+=1),i<.2&&(n[t+4]+=1))}}()}(),this.setAttribute("position",new gn(r,3)),this.setAttribute("normal",new gn(r.slice(),3)),this.setAttribute("uv",new gn(n,2)),0===i?this.computeVertexNormals():this.normalizeNormals()}copy(t){return super.copy(t),this.parameters=Object.assign({},t.parameters),this}static fromJSON(t){return new Mh(t.vertices,t.indices,t.radius,t.details)}}class Ah extends Mh{constructor(t=1,e=0){const s=(1+Math.sqrt(5))/2,i=1/s;super([-1,-1,-1,-1,-1,1,-1,1,-1,-1,1,1,1,-1,-1,1,-1,1,1,1,-1,1,1,1,0,-i,-s,0,-i,s,0,i,-s,0,i,s,-i,-s,0,-i,s,0,i,-s,0,i,s,0,-s,0,-i,s,0,-i,-s,0,i,s,0,i],[3,11,7,3,7,15,3,15,13,7,19,17,7,17,6,7,6,15,17,4,8,17,8,10,17,10,6,8,0,16,8,16,2,8,2,10,0,12,1,0,1,18,0,18,16,6,10,2,6,2,13,6,13,15,2,16,18,2,18,3,2,3,13,18,1,9,18,9,11,18,11,3,4,14,12,4,12,0,4,0,8,11,9,5,11,5,19,11,19,7,19,5,14,19,14,4,19,4,17,1,12,14,1,14,5,1,5,9],t,e),this.type="DodecahedronGeometry",this.parameters={radius:t,detail:e}}static fromJSON(t){return new Ah(t.radius,t.detail)}}const Nh=new Ri,Rh=new Ri,Ch=new Ri,Eh=new Gr;class Bh extends wn{constructor(t=null,e=1){if(super(),this.type="EdgesGeometry",this.parameters={geometry:t,thresholdAngle:e},null!==t){const 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b=t.prevZ,v=t.nextZ;for(;b&&b.z>=y&&v&&v.z<=x;){if(b.x>=p&&b.x<=g&&b.y>=m&&b.y<=f&&b!==r&&b!==o&&qh(a,u,h,c,l,d,b.x,b.y)&&Xh(b.prev,b,b.next)>=0)return!1;if(b=b.prevZ,v.x>=p&&v.x<=g&&v.y>=m&&v.y<=f&&v!==r&&v!==o&&qh(a,u,h,c,l,d,v.x,v.y)&&Xh(v.prev,v,v.next)>=0)return!1;v=v.nextZ}for(;b&&b.z>=y;){if(b.x>=p&&b.x<=g&&b.y>=m&&b.y<=f&&b!==r&&b!==o&&qh(a,u,h,c,l,d,b.x,b.y)&&Xh(b.prev,b,b.next)>=0)return!1;b=b.prevZ}for(;v&&v.z<=x;){if(v.x>=p&&v.x<=g&&v.y>=m&&v.y<=f&&v!==r&&v!==o&&qh(a,u,h,c,l,d,v.x,v.y)&&Xh(v.prev,v,v.next)>=0)return!1;v=v.nextZ}return!0}function Vh(t,e,s){let i=t;do{const r=i.prev,n=i.next.next;!Yh(r,n)&&Jh(r,i,i.next,n)&&Kh(r,n)&&Kh(n,r)&&(e.push(r.i/s|0),e.push(i.i/s|0),e.push(n.i/s|0),sl(i),sl(i.next),i=t=n),i=i.next}while(i!==t);return Uh(i)}function Dh(t,e,s,i,r,n){let o=t;do{let t=o.next.next;for(;t!==o.prev;){if(o.i!==t.i&&$h(o,t)){let a=tl(o,t);return o=Uh(o,o.next),a=Uh(a,a.next),Oh(o,e,s,i,r,n,0),void Oh(a,e,s,i,r,n,0)}t=t.next}o=o.next}while(o!==t)}function kh(t,e){return t.x-e.x}function Gh(t,e){const s=function(t,e){let s,i=e,r=-1/0;const n=t.x,o=t.y;do{if(o<=i.y&&o>=i.next.y&&i.next.y!==i.y){const t=i.x+(o-i.y)*(i.next.x-i.x)/(i.next.y-i.y);if(t<=n&&t>r&&(r=t,s=i.x=i.x&&i.x>=h&&n!==i.x&&qh(os.x||i.x===s.x&&Wh(s,i)))&&(s=i,c=u)),i=i.next}while(i!==a);return s}(t,e);if(!s)return e;const i=tl(s,t);return Uh(i,i.next),Uh(s,s.next)}function Wh(t,e){return Xh(t.prev,t,e.prev)<0&&Xh(e.next,t,t.next)<0}function jh(t,e,s,i,r){return(t=1431655765&((t=858993459&((t=252645135&((t=16711935&((t=(t-s)*r|0)|t<<8))|t<<4))|t<<2))|t<<1))|(e=1431655765&((e=858993459&((e=252645135&((e=16711935&((e=(e-i)*r|0)|e<<8))|e<<4))|e<<2))|e<<1))<<1}function Hh(t){let e=t,s=t;do{(e.x=(t-o)*(n-a)&&(t-o)*(i-a)>=(s-o)*(e-a)&&(s-o)*(n-a)>=(r-o)*(i-a)}function $h(t,e){return t.next.i!==e.i&&t.prev.i!==e.i&&!function(t,e){let s=t;do{if(s.i!==t.i&&s.next.i!==t.i&&s.i!==e.i&&s.next.i!==e.i&&Jh(s,s.next,t,e))return!0;s=s.next}while(s!==t);return!1}(t,e)&&(Kh(t,e)&&Kh(e,t)&&function(t,e){let s=t,i=!1;const r=(t.x+e.x)/2,n=(t.y+e.y)/2;do{s.y>n!=s.next.y>n&&s.next.y!==s.y&&r<(s.next.x-s.x)*(n-s.y)/(s.next.y-s.y)+s.x&&(i=!i),s=s.next}while(s!==t);return i}(t,e)&&(Xh(t.prev,t,e.prev)||Xh(t,e.prev,e))||Yh(t,e)&&Xh(t.prev,t,t.next)>0&&Xh(e.prev,e,e.next)>0)}function Xh(t,e,s){return(e.y-t.y)*(s.x-e.x)-(e.x-t.x)*(s.y-e.y)}function Yh(t,e){return t.x===e.x&&t.y===e.y}function Jh(t,e,s,i){const r=Qh(Xh(t,e,s)),n=Qh(Xh(t,e,i)),o=Qh(Xh(s,i,t)),a=Qh(Xh(s,i,e));return r!==n&&o!==a||(!(0!==r||!Zh(t,s,e))||(!(0!==n||!Zh(t,i,e))||(!(0!==o||!Zh(s,t,i))||!(0!==a||!Zh(s,e,i)))))}function Zh(t,e,s){return e.x<=Math.max(t.x,s.x)&&e.x>=Math.min(t.x,s.x)&&e.y<=Math.max(t.y,s.y)&&e.y>=Math.min(t.y,s.y)}function Qh(t){return t>0?1:t<0?-1:0}function Kh(t,e){return Xh(t.prev,t,t.next)<0?Xh(t,e,t.next)>=0&&Xh(t,t.prev,e)>=0:Xh(t,e,t.prev)<0||Xh(t,t.next,e)<0}function tl(t,e){const s=new il(t.i,t.x,t.y),i=new il(e.i,e.x,e.y),r=t.next,n=e.prev;return t.next=e,e.prev=t,s.next=r,r.prev=s,i.next=s,s.prev=i,n.next=i,i.prev=n,i}function el(t,e,s,i){const r=new il(t,e,s);return i?(r.next=i.next,r.prev=i,i.next.prev=r,i.next=r):(r.prev=r,r.next=r),r}function sl(t){t.next.prev=t.prev,t.prev.next=t.next,t.prevZ&&(t.prevZ.nextZ=t.nextZ),t.nextZ&&(t.nextZ.prevZ=t.prevZ)}function il(t,e,s){this.i=t,this.x=e,this.y=s,this.prev=null,this.next=null,this.z=0,this.prevZ=null,this.nextZ=null,this.steiner=!1}class rl{static area(t){const e=t.length;let s=0;for(let i=e-1,r=0;r2&&t[e-1].equals(t[0])&&t.pop()}function ol(t,e){for(let s=0;sNumber.EPSILON){const c=Math.sqrt(u),d=Math.sqrt(h*h+l*l),p=e.x-a/c,m=e.y+o/c,g=((s.x-l/d-p)*l-(s.y+h/d-m)*h)/(o*l-a*h);i=p+o*g-t.x,r=m+a*g-t.y;const f=i*i+r*r;if(f<=2)return new Zs(i,r);n=Math.sqrt(f/2)}else{let t=!1;o>Number.EPSILON?h>Number.EPSILON&&(t=!0):o<-Number.EPSILON?h<-Number.EPSILON&&(t=!0):Math.sign(a)===Math.sign(l)&&(t=!0),t?(i=-a,r=o,n=Math.sqrt(u)):(i=o,r=a,n=Math.sqrt(u/2))}return new Zs(i/n,r/n)}const B=[];for(let t=0,e=A.length,s=e-1,i=t+1;t=0;t--){const e=t/p,s=u*Math.cos(e*Math.PI/2),i=c*Math.sin(e*Math.PI/2)+d;for(let t=0,e=A.length;t=0;){const i=s;let r=s-1;r<0&&(r=t.length-1);for(let t=0,s=a+2*p;t0)&&d.push(e,r,h),(t!==s-1||a0!=t>0&&this.version++,this._anisotropy=t}get clearcoat(){return this._clearcoat}set clearcoat(t){this._clearcoat>0!=t>0&&this.version++,this._clearcoat=t}get iridescence(){return this._iridescence}set iridescence(t){this._iridescence>0!=t>0&&this.version++,this._iridescence=t}get dispersion(){return this._dispersion}set dispersion(t){this._dispersion>0!=t>0&&this.version++,this._dispersion=t}get sheen(){return this._sheen}set sheen(t){this._sheen>0!=t>0&&this.version++,this._sheen=t}get transmission(){return this._transmission}set transmission(t){this._transmission>0!=t>0&&this.version++,this._transmission=t}copy(t){return super.copy(t),this.defines={STANDARD:"",PHYSICAL:""},this.anisotropy=t.anisotropy,this.anisotropyRotation=t.anisotropyRotation,this.anisotropyMap=t.anisotropyMap,this.clearcoat=t.clearcoat,this.clearcoatMap=t.clearcoatMap,this.clearcoatRoughness=t.clearcoatRoughness,this.clearcoatRoughnessMap=t.clearcoatRoughnessMap,this.clearcoatNormalMap=t.clearcoatNormalMap,this.clearcoatNormalScale.copy(t.clearcoatNormalScale),this.dispersion=t.dispersion,this.ior=t.ior,this.iridescence=t.iridescence,this.iridescenceMap=t.iridescenceMap,this.iridescenceIOR=t.iridescenceIOR,this.iridescenceThicknessRange=[...t.iridescenceThicknessRange],this.iridescenceThicknessMap=t.iridescenceThicknessMap,this.sheen=t.sheen,this.sheenColor.copy(t.sheenColor),this.sheenColorMap=t.sheenColorMap,this.sheenRoughness=t.sheenRoughness,this.sheenRoughnessMap=t.sheenRoughnessMap,this.transmission=t.transmission,this.transmissionMap=t.transmissionMap,this.thickness=t.thickness,this.thicknessMap=t.thicknessMap,this.attenuationDistance=t.attenuationDistance,this.attenuationColor.copy(t.attenuationColor),this.specularIntensity=t.specularIntensity,this.specularIntensityMap=t.specularIntensityMap,this.specularColor.copy(t.specularColor),this.specularColorMap=t.specularColorMap,this}}class Al extends Jr{constructor(t){super(),this.isMeshPhongMaterial=!0,this.type="MeshPhongMaterial",this.color=new $r(16777215),this.specular=new $r(1118481),this.shininess=30,this.map=null,this.lightMap=null,this.lightMapIntensity=1,this.aoMap=null,this.aoMapIntensity=1,this.emissive=new $r(0),this.emissiveIntensity=1,this.emissiveMap=null,this.bumpMap=null,this.bumpScale=1,this.normalMap=null,this.normalMapType=0,this.normalScale=new Zs(1,1),this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.specularMap=null,this.alphaMap=null,this.envMap=null,this.envMapRotation=new mr,this.combine=0,this.reflectivity=1,this.refractionRatio=.98,this.wireframe=!1,this.wireframeLinewidth=1,this.wireframeLinecap="round",this.wireframeLinejoin="round",this.flatShading=!1,this.fog=!0,this.setValues(t)}copy(t){return super.copy(t),this.color.copy(t.color),this.specular.copy(t.specular),this.shininess=t.shininess,this.map=t.map,this.lightMap=t.lightMap,this.lightMapIntensity=t.lightMapIntensity,this.aoMap=t.aoMap,this.aoMapIntensity=t.aoMapIntensity,this.emissive.copy(t.emissive),this.emissiveMap=t.emissiveMap,this.emissiveIntensity=t.emissiveIntensity,this.bumpMap=t.bumpMap,this.bumpScale=t.bumpScale,this.normalMap=t.normalMap,this.normalMapType=t.normalMapType,this.normalScale.copy(t.normalScale),this.displacementMap=t.displacementMap,this.displacementScale=t.displacementScale,this.displacementBias=t.displacementBias,this.specularMap=t.specularMap,this.alphaMap=t.alphaMap,this.envMap=t.envMap,this.envMapRotation.copy(t.envMapRotation),this.combine=t.combine,this.reflectivity=t.reflectivity,this.refractionRatio=t.refractionRatio,this.wireframe=t.wireframe,this.wireframeLinewidth=t.wireframeLinewidth,this.wireframeLinecap=t.wireframeLinecap,this.wireframeLinejoin=t.wireframeLinejoin,this.flatShading=t.flatShading,this.fog=t.fog,this}}class Nl extends Jr{constructor(t){super(),this.isMeshToonMaterial=!0,this.defines={TOON:""},this.type="MeshToonMaterial",this.color=new $r(16777215),this.map=null,this.gradientMap=null,this.lightMap=null,this.lightMapIntensity=1,this.aoMap=null,this.aoMapIntensity=1,this.emissive=new $r(0),this.emissiveIntensity=1,this.emissiveMap=null,this.bumpMap=null,this.bumpScale=1,this.normalMap=null,this.normalMapType=0,this.normalScale=new Zs(1,1),this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.alphaMap=null,this.wireframe=!1,this.wireframeLinewidth=1,this.wireframeLinecap="round",this.wireframeLinejoin="round",this.fog=!0,this.setValues(t)}copy(t){return super.copy(t),this.color.copy(t.color),this.map=t.map,this.gradientMap=t.gradientMap,this.lightMap=t.lightMap,this.lightMapIntensity=t.lightMapIntensity,this.aoMap=t.aoMap,this.aoMapIntensity=t.aoMapIntensity,this.emissive.copy(t.emissive),this.emissiveMap=t.emissiveMap,this.emissiveIntensity=t.emissiveIntensity,this.bumpMap=t.bumpMap,this.bumpScale=t.bumpScale,this.normalMap=t.normalMap,this.normalMapType=t.normalMapType,this.normalScale.copy(t.normalScale),this.displacementMap=t.displacementMap,this.displacementScale=t.displacementScale,this.displacementBias=t.displacementBias,this.alphaMap=t.alphaMap,this.wireframe=t.wireframe,this.wireframeLinewidth=t.wireframeLinewidth,this.wireframeLinecap=t.wireframeLinecap,this.wireframeLinejoin=t.wireframeLinejoin,this.fog=t.fog,this}}class Rl extends Jr{constructor(t){super(),this.isMeshNormalMaterial=!0,this.type="MeshNormalMaterial",this.bumpMap=null,this.bumpScale=1,this.normalMap=null,this.normalMapType=0,this.normalScale=new Zs(1,1),this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.wireframe=!1,this.wireframeLinewidth=1,this.flatShading=!1,this.setValues(t)}copy(t){return super.copy(t),this.bumpMap=t.bumpMap,this.bumpScale=t.bumpScale,this.normalMap=t.normalMap,this.normalMapType=t.normalMapType,this.normalScale.copy(t.normalScale),this.displacementMap=t.displacementMap,this.displacementScale=t.displacementScale,this.displacementBias=t.displacementBias,this.wireframe=t.wireframe,this.wireframeLinewidth=t.wireframeLinewidth,this.flatShading=t.flatShading,this}}class Cl extends Jr{constructor(t){super(),this.isMeshLambertMaterial=!0,this.type="MeshLambertMaterial",this.color=new $r(16777215),this.map=null,this.lightMap=null,this.lightMapIntensity=1,this.aoMap=null,this.aoMapIntensity=1,this.emissive=new $r(0),this.emissiveIntensity=1,this.emissiveMap=null,this.bumpMap=null,this.bumpScale=1,this.normalMap=null,this.normalMapType=0,this.normalScale=new Zs(1,1),this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.specularMap=null,this.alphaMap=null,this.envMap=null,this.envMapRotation=new mr,this.combine=0,this.reflectivity=1,this.refractionRatio=.98,this.wireframe=!1,this.wireframeLinewidth=1,this.wireframeLinecap="round",this.wireframeLinejoin="round",this.flatShading=!1,this.fog=!0,this.setValues(t)}copy(t){return super.copy(t),this.color.copy(t.color),this.map=t.map,this.lightMap=t.lightMap,this.lightMapIntensity=t.lightMapIntensity,this.aoMap=t.aoMap,this.aoMapIntensity=t.aoMapIntensity,this.emissive.copy(t.emissive),this.emissiveMap=t.emissiveMap,this.emissiveIntensity=t.emissiveIntensity,this.bumpMap=t.bumpMap,this.bumpScale=t.bumpScale,this.normalMap=t.normalMap,this.normalMapType=t.normalMapType,this.normalScale.copy(t.normalScale),this.displacementMap=t.displacementMap,this.displacementScale=t.displacementScale,this.displacementBias=t.displacementBias,this.specularMap=t.specularMap,this.alphaMap=t.alphaMap,this.envMap=t.envMap,this.envMapRotation.copy(t.envMapRotation),this.combine=t.combine,this.reflectivity=t.reflectivity,this.refractionRatio=t.refractionRatio,this.wireframe=t.wireframe,this.wireframeLinewidth=t.wireframeLinewidth,this.wireframeLinecap=t.wireframeLinecap,this.wireframeLinejoin=t.wireframeLinejoin,this.flatShading=t.flatShading,this.fog=t.fog,this}}class El extends Jr{constructor(t){super(),this.isMeshDepthMaterial=!0,this.type="MeshDepthMaterial",this.depthPacking=3200,this.map=null,this.alphaMap=null,this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.wireframe=!1,this.wireframeLinewidth=1,this.setValues(t)}copy(t){return super.copy(t),this.depthPacking=t.depthPacking,this.map=t.map,this.alphaMap=t.alphaMap,this.displacementMap=t.displacementMap,this.displacementScale=t.displacementScale,this.displacementBias=t.displacementBias,this.wireframe=t.wireframe,this.wireframeLinewidth=t.wireframeLinewidth,this}}class Bl extends Jr{constructor(t){super(),this.isMeshDistanceMaterial=!0,this.type="MeshDistanceMaterial",this.map=null,this.alphaMap=null,this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.setValues(t)}copy(t){return super.copy(t),this.map=t.map,this.alphaMap=t.alphaMap,this.displacementMap=t.displacementMap,this.displacementScale=t.displacementScale,this.displacementBias=t.displacementBias,this}}class Il extends Jr{constructor(t){super(),this.isMeshMatcapMaterial=!0,this.defines={MATCAP:""},this.type="MeshMatcapMaterial",this.color=new $r(16777215),this.matcap=null,this.map=null,this.bumpMap=null,this.bumpScale=1,this.normalMap=null,this.normalMapType=0,this.normalScale=new Zs(1,1),this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.alphaMap=null,this.flatShading=!1,this.fog=!0,this.setValues(t)}copy(t){return super.copy(t),this.defines={MATCAP:""},this.color.copy(t.color),this.matcap=t.matcap,this.map=t.map,this.bumpMap=t.bumpMap,this.bumpScale=t.bumpScale,this.normalMap=t.normalMap,this.normalMapType=t.normalMapType,this.normalScale.copy(t.normalScale),this.displacementMap=t.displacementMap,this.displacementScale=t.displacementScale,this.displacementBias=t.displacementBias,this.alphaMap=t.alphaMap,this.flatShading=t.flatShading,this.fog=t.fog,this}}class Pl extends wa{constructor(t){super(),this.isLineDashedMaterial=!0,this.type="LineDashedMaterial",this.scale=1,this.dashSize=3,this.gapSize=1,this.setValues(t)}copy(t){return super.copy(t),this.scale=t.scale,this.dashSize=t.dashSize,this.gapSize=t.gapSize,this}}function Fl(t,e,s){return!t||!s&&t.constructor===e?t:"number"==typeof e.BYTES_PER_ELEMENT?new e(t):Array.prototype.slice.call(t)}function Ul(t){return ArrayBuffer.isView(t)&&!(t instanceof DataView)}function Ol(t){const e=t.length,s=new Array(e);for(let t=0;t!==e;++t)s[t]=t;return s.sort((function(e,s){return t[e]-t[s]})),s}function zl(t,e,s){const i=t.length,r=new t.constructor(i);for(let n=0,o=0;o!==i;++n){const i=s[n]*e;for(let s=0;s!==e;++s)r[o++]=t[i+s]}return r}function Ll(t,e,s,i){let r=1,n=t[0];for(;void 0!==n&&void 0===n[i];)n=t[r++];if(void 0===n)return;let o=n[i];if(void 0!==o)if(Array.isArray(o))do{o=n[i],void 0!==o&&(e.push(n.time),s.push.apply(s,o)),n=t[r++]}while(void 0!==n);else if(void 0!==o.toArray)do{o=n[i],void 0!==o&&(e.push(n.time),o.toArray(s,s.length)),n=t[r++]}while(void 0!==n);else do{o=n[i],void 0!==o&&(e.push(n.time),s.push(o)),n=t[r++]}while(void 0!==n)}const Vl={convertArray:Fl,isTypedArray:Ul,getKeyframeOrder:Ol,sortedArray:zl,flattenJSON:Ll,subclip:function(t,e,s,i,r=30){const n=t.clone();n.name=e;const o=[];for(let t=0;t=i)){h.push(e.times[t]);for(let s=0;sn.tracks[t].times[0]&&(a=n.tracks[t].times[0]);for(let t=0;t=i.times[c]){const t=c*h+a,e=t+h-a;d=i.values.slice(t,e)}else{const t=i.createInterpolant(),e=a,s=h-a;t.evaluate(n),d=t.resultBuffer.slice(e,s)}if("quaternion"===r){(new Ni).fromArray(d).normalize().conjugate().toArray(d)}const p=o.times.length;for(let t=0;t=r)break t;{const o=e[1];t=r)break e}n=s,s=0}}for(;s>>1;te;)--n;if(++n,0!==r||n!==i){r>=n&&(n=Math.max(n,1),r=n-1);const t=this.getValueSize();this.times=s.slice(r,n),this.values=this.values.slice(r*t,n*t)}return this}validate(){let t=!0;const e=this.getValueSize();e-Math.floor(e)!=0&&(console.error("THREE.KeyframeTrack: Invalid value size in track.",this),t=!1);const s=this.times,i=this.values,r=s.length;0===r&&(console.error("THREE.KeyframeTrack: Track is empty.",this),t=!1);let n=null;for(let e=0;e!==r;e++){const i=s[e];if("number"==typeof i&&isNaN(i)){console.error("THREE.KeyframeTrack: Time is not a valid number.",this,e,i),t=!1;break}if(null!==n&&n>i){console.error("THREE.KeyframeTrack: Out of order keys.",this,e,i,n),t=!1;break}n=i}if(void 0!==i&&Ul(i))for(let e=0,s=i.length;e!==s;++e){const s=i[e];if(isNaN(s)){console.error("THREE.KeyframeTrack: Value is not a valid number.",this,e,s),t=!1;break}}return t}optimize(){const t=this.times.slice(),e=this.values.slice(),s=this.getValueSize(),i=this.getInterpolation()===Fe,r=t.length-1;let n=1;for(let o=1;o0){t[n]=t[r];for(let t=r*s,i=n*s,o=0;o!==s;++o)e[i+o]=e[t+o];++n}return n!==t.length?(this.times=t.slice(0,n),this.values=e.slice(0,n*s)):(this.times=t,this.values=e),this}clone(){const t=this.times.slice(),e=this.values.slice(),s=new(0,this.constructor)(this.name,t,e);return s.createInterpolant=this.createInterpolant,s}}jl.prototype.TimeBufferType=Float32Array,jl.prototype.ValueBufferType=Float32Array,jl.prototype.DefaultInterpolation=Pe;class Hl extends jl{constructor(t,e,s){super(t,e,s)}}Hl.prototype.ValueTypeName="bool",Hl.prototype.ValueBufferType=Array,Hl.prototype.DefaultInterpolation=Ie,Hl.prototype.InterpolantFactoryMethodLinear=void 0,Hl.prototype.InterpolantFactoryMethodSmooth=void 0;class ql extends jl{}ql.prototype.ValueTypeName="color";class $l extends jl{}$l.prototype.ValueTypeName="number";class Xl extends Dl{constructor(t,e,s,i){super(t,e,s,i)}interpolate_(t,e,s,i){const r=this.resultBuffer,n=this.sampleValues,o=this.valueSize,a=(s-e)/(i-e);let h=t*o;for(let t=h+o;h!==t;h+=4)Ni.slerpFlat(r,0,n,h-o,n,h,a);return r}}class Yl extends jl{InterpolantFactoryMethodLinear(t){return new Xl(this.times,this.values,this.getValueSize(),t)}}Yl.prototype.ValueTypeName="quaternion",Yl.prototype.InterpolantFactoryMethodSmooth=void 0;class Jl extends jl{constructor(t,e,s){super(t,e,s)}}Jl.prototype.ValueTypeName="string",Jl.prototype.ValueBufferType=Array,Jl.prototype.DefaultInterpolation=Ie,Jl.prototype.InterpolantFactoryMethodLinear=void 0,Jl.prototype.InterpolantFactoryMethodSmooth=void 0;class Zl extends jl{}Zl.prototype.ValueTypeName="vector";class Ql{constructor(t="",e=-1,s=[],i=2500){this.name=t,this.tracks=s,this.duration=e,this.blendMode=i,this.uuid=js(),this.duration<0&&this.resetDuration()}static parse(t){const e=[],s=t.tracks,i=1/(t.fps||1);for(let t=0,r=s.length;t!==r;++t)e.push(Kl(s[t]).scale(i));const r=new this(t.name,t.duration,e,t.blendMode);return r.uuid=t.uuid,r}static toJSON(t){const e=[],s=t.tracks,i={name:t.name,duration:t.duration,tracks:e,uuid:t.uuid,blendMode:t.blendMode};for(let t=0,i=s.length;t!==i;++t)e.push(jl.toJSON(s[t]));return i}static CreateFromMorphTargetSequence(t,e,s,i){const r=e.length,n=[];for(let t=0;t1){const t=n[1];let e=i[t];e||(i[t]=e=[]),e.push(s)}}const n=[];for(const t in i)n.push(this.CreateFromMorphTargetSequence(t,i[t],e,s));return n}static parseAnimation(t,e){if(!t)return console.error("THREE.AnimationClip: No animation in JSONLoader data."),null;const s=function(t,e,s,i,r){if(0!==s.length){const n=[],o=[];Ll(s,n,o,i),0!==n.length&&r.push(new t(e,n,o))}},i=[],r=t.name||"default",n=t.fps||30,o=t.blendMode;let a=t.length||-1;const h=t.hierarchy||[];for(let t=0;t{e&&e(r),this.manager.itemEnd(t)}),0),r;if(void 0!==ru[t])return void ru[t].push({onLoad:e,onProgress:s,onError:i});ru[t]=[],ru[t].push({onLoad:e,onProgress:s,onError:i});const n=new Request(t,{headers:new Headers(this.requestHeader),credentials:this.withCredentials?"include":"same-origin"}),o=this.mimeType,a=this.responseType;fetch(n).then((e=>{if(200===e.status||0===e.status){if(0===e.status&&console.warn("THREE.FileLoader: HTTP Status 0 received."),"undefined"==typeof ReadableStream||void 0===e.body||void 0===e.body.getReader)return e;const s=ru[t],i=e.body.getReader(),r=e.headers.get("X-File-Size")||e.headers.get("Content-Length"),n=r?parseInt(r):0,o=0!==n;let a=0;const h=new ReadableStream({start(t){!function e(){i.read().then((({done:i,value:r})=>{if(i)t.close();else{a+=r.byteLength;const i=new ProgressEvent("progress",{lengthComputable:o,loaded:a,total:n});for(let t=0,e=s.length;t{t.error(e)}))}()}});return new Response(h)}throw new nu(`fetch for "${e.url}" responded with ${e.status}: ${e.statusText}`,e)})).then((t=>{switch(a){case"arraybuffer":return t.arrayBuffer();case"blob":return t.blob();case"document":return t.text().then((t=>(new DOMParser).parseFromString(t,o)));case"json":return t.json();default:if(void 0===o)return t.text();{const e=/charset="?([^;"\s]*)"?/i.exec(o),s=e&&e[1]?e[1].toLowerCase():void 0,i=new TextDecoder(s);return t.arrayBuffer().then((t=>i.decode(t)))}}})).then((e=>{tu.add(t,e);const s=ru[t];delete ru[t];for(let t=0,i=s.length;t{const s=ru[t];if(void 0===s)throw this.manager.itemError(t),e;delete ru[t];for(let t=0,i=s.length;t{this.manager.itemEnd(t)})),this.manager.itemStart(t)}setResponseType(t){return this.responseType=t,this}setMimeType(t){return this.mimeType=t,this}}class au extends iu{constructor(t){super(t)}load(t,e,s,i){const r=this,n=new ou(this.manager);n.setPath(this.path),n.setRequestHeader(this.requestHeader),n.setWithCredentials(this.withCredentials),n.load(t,(function(s){try{e(r.parse(JSON.parse(s)))}catch(e){i?i(e):console.error(e),r.manager.itemError(t)}}),s,i)}parse(t){const e=[];for(let s=0;s0:i.vertexColors=t.vertexColors),void 0!==t.uniforms)for(const e in t.uniforms){const r=t.uniforms[e];switch(i.uniforms[e]={},r.type){case"t":i.uniforms[e].value=s(r.value);break;case"c":i.uniforms[e].value=(new $r).setHex(r.value);break;case"v2":i.uniforms[e].value=(new Zs).fromArray(r.value);break;case"v3":i.uniforms[e].value=(new Ri).fromArray(r.value);break;case"v4":i.uniforms[e].value=(new vi).fromArray(r.value);break;case"m3":i.uniforms[e].value=(new Qs).fromArray(r.value);break;case"m4":i.uniforms[e].value=(new rr).fromArray(r.value);break;default:i.uniforms[e].value=r.value}}if(void 0!==t.defines&&(i.defines=t.defines),void 0!==t.vertexShader&&(i.vertexShader=t.vertexShader),void 0!==t.fragmentShader&&(i.fragmentShader=t.fragmentShader),void 0!==t.glslVersion&&(i.glslVersion=t.glslVersion),void 0!==t.extensions)for(const e in t.extensions)i.extensions[e]=t.extensions[e];if(void 0!==t.lights&&(i.lights=t.lights),void 0!==t.clipping&&(i.clipping=t.clipping),void 0!==t.size&&(i.size=t.size),void 0!==t.sizeAttenuation&&(i.sizeAttenuation=t.sizeAttenuation),void 0!==t.map&&(i.map=s(t.map)),void 0!==t.matcap&&(i.matcap=s(t.matcap)),void 0!==t.alphaMap&&(i.alphaMap=s(t.alphaMap)),void 0!==t.bumpMap&&(i.bumpMap=s(t.bumpMap)),void 0!==t.bumpScale&&(i.bumpScale=t.bumpScale),void 0!==t.normalMap&&(i.normalMap=s(t.normalMap)),void 0!==t.normalMapType&&(i.normalMapType=t.normalMapType),void 0!==t.normalScale){let e=t.normalScale;!1===Array.isArray(e)&&(e=[e,e]),i.normalScale=(new Zs).fromArray(e)}return void 0!==t.displacementMap&&(i.displacementMap=s(t.displacementMap)),void 0!==t.displacementScale&&(i.displacementScale=t.displacementScale),void 0!==t.displacementBias&&(i.displacementBias=t.displacementBias),void 0!==t.roughnessMap&&(i.roughnessMap=s(t.roughnessMap)),void 0!==t.metalnessMap&&(i.metalnessMap=s(t.metalnessMap)),void 0!==t.emissiveMap&&(i.emissiveMap=s(t.emissiveMap)),void 0!==t.emissiveIntensity&&(i.emissiveIntensity=t.emissiveIntensity),void 0!==t.specularMap&&(i.specularMap=s(t.specularMap)),void 0!==t.specularIntensityMap&&(i.specularIntensityMap=s(t.specularIntensityMap)),void 0!==t.specularColorMap&&(i.specularColorMap=s(t.specularColorMap)),void 0!==t.envMap&&(i.envMap=s(t.envMap)),void 0!==t.envMapRotation&&i.envMapRotation.fromArray(t.envMapRotation),void 0!==t.envMapIntensity&&(i.envMapIntensity=t.envMapIntensity),void 0!==t.reflectivity&&(i.reflectivity=t.reflectivity),void 0!==t.refractionRatio&&(i.refractionRatio=t.refractionRatio),void 0!==t.lightMap&&(i.lightMap=s(t.lightMap)),void 0!==t.lightMapIntensity&&(i.lightMapIntensity=t.lightMapIntensity),void 0!==t.aoMap&&(i.aoMap=s(t.aoMap)),void 0!==t.aoMapIntensity&&(i.aoMapIntensity=t.aoMapIntensity),void 0!==t.gradientMap&&(i.gradientMap=s(t.gradientMap)),void 0!==t.clearcoatMap&&(i.clearcoatMap=s(t.clearcoatMap)),void 0!==t.clearcoatRoughnessMap&&(i.clearcoatRoughnessMap=s(t.clearcoatRoughnessMap)),void 0!==t.clearcoatNormalMap&&(i.clearcoatNormalMap=s(t.clearcoatNormalMap)),void 0!==t.clearcoatNormalScale&&(i.clearcoatNormalScale=(new Zs).fromArray(t.clearcoatNormalScale)),void 0!==t.iridescenceMap&&(i.iridescenceMap=s(t.iridescenceMap)),void 0!==t.iridescenceThicknessMap&&(i.iridescenceThicknessMap=s(t.iridescenceThicknessMap)),void 0!==t.transmissionMap&&(i.transmissionMap=s(t.transmissionMap)),void 0!==t.thicknessMap&&(i.thicknessMap=s(t.thicknessMap)),void 0!==t.anisotropyMap&&(i.anisotropyMap=s(t.anisotropyMap)),void 0!==t.sheenColorMap&&(i.sheenColorMap=s(t.sheenColorMap)),void 0!==t.sheenRoughnessMap&&(i.sheenRoughnessMap=s(t.sheenRoughnessMap)),i}setTextures(t){return this.textures=t,this}static createMaterialFromType(t){return new{ShadowMaterial:_l,SpriteMaterial:ao,RawShaderMaterial:wl,ShaderMaterial:Hn,PointsMaterial:za,MeshPhysicalMaterial:Ml,MeshStandardMaterial:Sl,MeshPhongMaterial:Al,MeshToonMaterial:Nl,MeshNormalMaterial:Rl,MeshLambertMaterial:Cl,MeshDepthMaterial:El,MeshDistanceMaterial:Bl,MeshBasicMaterial:Zr,MeshMatcapMaterial:Il,LineDashedMaterial:Pl,LineBasicMaterial:wa,Material:Jr}[t]}}class Fu{static decodeText(t){if(console.warn("THREE.LoaderUtils: decodeText() has been deprecated with r165 and will be removed with r175. Use TextDecoder instead."),"undefined"!=typeof TextDecoder)return(new TextDecoder).decode(t);let e="";for(let s=0,i=t.length;s0){const s=new eu(e);r=new lu(s),r.setCrossOrigin(this.crossOrigin);for(let e=0,s=t.length;e0){i=new lu(this.manager),i.setCrossOrigin(this.crossOrigin);for(let e=0,i=t.length;e{const e=new Bi;e.min.fromArray(t.boxMin),e.max.fromArray(t.boxMax);const s=new Yi;return s.radius=t.sphereRadius,s.center.fromArray(t.sphereCenter),{boxInitialized:t.boxInitialized,box:e,sphereInitialized:t.sphereInitialized,sphere:s}})),n._maxInstanceCount=t.maxInstanceCount,n._maxVertexCount=t.maxVertexCount,n._maxIndexCount=t.maxIndexCount,n._geometryInitialized=t.geometryInitialized,n._geometryCount=t.geometryCount,n._matricesTexture=u(t.matricesTexture.uuid),void 0!==t.colorsTexture&&(n._colorsTexture=u(t.colorsTexture.uuid));break;case"LOD":n=new Ao;break;case"Line":n=new Ba(h(t.geometry),l(t.material));break;case"LineLoop":n=new Oa(h(t.geometry),l(t.material));break;case"LineSegments":n=new Ua(h(t.geometry),l(t.material));break;case"PointCloud":case"Points":n=new Ga(h(t.geometry),l(t.material));break;case"Sprite":n=new _o(l(t.material));break;case"Group":n=new ja;break;case"Bone":n=new zo;break;default:n=new Br}if(n.uuid=t.uuid,void 0!==t.name&&(n.name=t.name),void 0!==t.matrix?(n.matrix.fromArray(t.matrix),void 0!==t.matrixAutoUpdate&&(n.matrixAutoUpdate=t.matrixAutoUpdate),n.matrixAutoUpdate&&n.matrix.decompose(n.position,n.quaternion,n.scale)):(void 0!==t.position&&n.position.fromArray(t.position),void 0!==t.rotation&&n.rotation.fromArray(t.rotation),void 0!==t.quaternion&&n.quaternion.fromArray(t.quaternion),void 0!==t.scale&&n.scale.fromArray(t.scale)),void 0!==t.up&&n.up.fromArray(t.up),void 0!==t.castShadow&&(n.castShadow=t.castShadow),void 0!==t.receiveShadow&&(n.receiveShadow=t.receiveShadow),t.shadow&&(void 0!==t.shadow.intensity&&(n.shadow.intensity=t.shadow.intensity),void 0!==t.shadow.bias&&(n.shadow.bias=t.shadow.bias),void 0!==t.shadow.normalBias&&(n.shadow.normalBias=t.shadow.normalBias),void 0!==t.shadow.radius&&(n.shadow.radius=t.shadow.radius),void 0!==t.shadow.mapSize&&n.shadow.mapSize.fromArray(t.shadow.mapSize),void 0!==t.shadow.camera&&(n.shadow.camera=this.parseObject(t.shadow.camera))),void 0!==t.visible&&(n.visible=t.visible),void 0!==t.frustumCulled&&(n.frustumCulled=t.frustumCulled),void 0!==t.renderOrder&&(n.renderOrder=t.renderOrder),void 0!==t.userData&&(n.userData=t.userData),void 0!==t.layers&&(n.layers.mask=t.layers),void 0!==t.children){const o=t.children;for(let t=0;t{e&&e(s),r.manager.itemEnd(t)})).catch((t=>{i&&i(t)})):(setTimeout((function(){e&&e(n),r.manager.itemEnd(t)}),0),n);const o={};o.credentials="anonymous"===this.crossOrigin?"same-origin":"include",o.headers=this.requestHeader;const a=fetch(t,o).then((function(t){return t.blob()})).then((function(t){return createImageBitmap(t,Object.assign(r.options,{colorSpaceConversion:"none"}))})).then((function(s){return tu.add(t,s),e&&e(s),r.manager.itemEnd(t),s})).catch((function(e){i&&i(e),tu.remove(t),r.manager.itemError(t),r.manager.itemEnd(t)}));tu.add(t,a),r.manager.itemStart(t)}}let Gu;class Wu{static getContext(){return void 0===Gu&&(Gu=new(window.AudioContext||window.webkitAudioContext)),Gu}static setContext(t){Gu=t}}class ju extends iu{constructor(t){super(t)}load(t,e,s,i){const r=this,n=new ou(this.manager);function o(e){i?i(e):console.error(e),r.manager.itemError(t)}n.setResponseType("arraybuffer"),n.setPath(this.path),n.setRequestHeader(this.requestHeader),n.setWithCredentials(this.withCredentials),n.load(t,(function(t){try{const s=t.slice(0);Wu.getContext().decodeAudioData(s,(function(t){e(t)})).catch(o)}catch(t){o(t)}}),s,i)}}const Hu=new rr,qu=new rr,$u=new rr;class Xu{constructor(){this.type="StereoCamera",this.aspect=1,this.eyeSep=.064,this.cameraL=new Jn,this.cameraL.layers.enable(1),this.cameraL.matrixAutoUpdate=!1,this.cameraR=new Jn,this.cameraR.layers.enable(2),this.cameraR.matrixAutoUpdate=!1,this._cache={focus:null,fov:null,aspect:null,near:null,far:null,zoom:null,eyeSep:null}}update(t){const e=this._cache;if(e.focus!==t.focus||e.fov!==t.fov||e.aspect!==t.aspect*this.aspect||e.near!==t.near||e.far!==t.far||e.zoom!==t.zoom||e.eyeSep!==this.eyeSep){e.focus=t.focus,e.fov=t.fov,e.aspect=t.aspect*this.aspect,e.near=t.near,e.far=t.far,e.zoom=t.zoom,e.eyeSep=this.eyeSep,$u.copy(t.projectionMatrix);const s=e.eyeSep/2,i=s*e.near/e.focus,r=e.near*Math.tan(Gs*e.fov*.5)/e.zoom;let n,o;qu.elements[12]=-s,Hu.elements[12]=s,n=-r*e.aspect+i,o=r*e.aspect+i,$u.elements[0]=2*e.near/(o-n),$u.elements[8]=(o+n)/(o-n),this.cameraL.projectionMatrix.copy($u),n=-r*e.aspect-i,o=r*e.aspect-i,$u.elements[0]=2*e.near/(o-n),$u.elements[8]=(o+n)/(o-n),this.cameraR.projectionMatrix.copy($u)}this.cameraL.matrixWorld.copy(t.matrixWorld).multiply(qu),this.cameraR.matrixWorld.copy(t.matrixWorld).multiply(Hu)}}class Yu extends Jn{constructor(t=[]){super(),this.isArrayCamera=!0,this.cameras=t}}class Ju{constructor(t=!0){this.autoStart=t,this.startTime=0,this.oldTime=0,this.elapsedTime=0,this.running=!1}start(){this.startTime=Zu(),this.oldTime=this.startTime,this.elapsedTime=0,this.running=!0}stop(){this.getElapsedTime(),this.running=!1,this.autoStart=!1}getElapsedTime(){return this.getDelta(),this.elapsedTime}getDelta(){let t=0;if(this.autoStart&&!this.running)return this.start(),0;if(this.running){const e=Zu();t=(e-this.oldTime)/1e3,this.oldTime=e,this.elapsedTime+=t}return t}}function Zu(){return("undefined"==typeof performance?Date:performance).now()}const Qu=new Ri,Ku=new Ni,tc=new Ri,ec=new Ri;class sc extends Br{constructor(){super(),this.type="AudioListener",this.context=Wu.getContext(),this.gain=this.context.createGain(),this.gain.connect(this.context.destination),this.filter=null,this.timeDelta=0,this._clock=new Ju}getInput(){return this.gain}removeFilter(){return null!==this.filter&&(this.gain.disconnect(this.filter),this.filter.disconnect(this.context.destination),this.gain.connect(this.context.destination),this.filter=null),this}getFilter(){return this.filter}setFilter(t){return null!==this.filter?(this.gain.disconnect(this.filter),this.filter.disconnect(this.context.destination)):this.gain.disconnect(this.context.destination),this.filter=t,this.gain.connect(this.filter),this.filter.connect(this.context.destination),this}getMasterVolume(){return this.gain.gain.value}setMasterVolume(t){return this.gain.gain.setTargetAtTime(t,this.context.currentTime,.01),this}updateMatrixWorld(t){super.updateMatrixWorld(t);const e=this.context.listener,s=this.up;if(this.timeDelta=this._clock.getDelta(),this.matrixWorld.decompose(Qu,Ku,tc),ec.set(0,0,-1).applyQuaternion(Ku),e.positionX){const t=this.context.currentTime+this.timeDelta;e.positionX.linearRampToValueAtTime(Qu.x,t),e.positionY.linearRampToValueAtTime(Qu.y,t),e.positionZ.linearRampToValueAtTime(Qu.z,t),e.forwardX.linearRampToValueAtTime(ec.x,t),e.forwardY.linearRampToValueAtTime(ec.y,t),e.forwardZ.linearRampToValueAtTime(ec.z,t),e.upX.linearRampToValueAtTime(s.x,t),e.upY.linearRampToValueAtTime(s.y,t),e.upZ.linearRampToValueAtTime(s.z,t)}else e.setPosition(Qu.x,Qu.y,Qu.z),e.setOrientation(ec.x,ec.y,ec.z,s.x,s.y,s.z)}}class ic extends Br{constructor(t){super(),this.type="Audio",this.listener=t,this.context=t.context,this.gain=this.context.createGain(),this.gain.connect(t.getInput()),this.autoplay=!1,this.buffer=null,this.detune=0,this.loop=!1,this.loopStart=0,this.loopEnd=0,this.offset=0,this.duration=void 0,this.playbackRate=1,this.isPlaying=!1,this.hasPlaybackControl=!0,this.source=null,this.sourceType="empty",this._startedAt=0,this._progress=0,this._connected=!1,this.filters=[]}getOutput(){return this.gain}setNodeSource(t){return this.hasPlaybackControl=!1,this.sourceType="audioNode",this.source=t,this.connect(),this}setMediaElementSource(t){return this.hasPlaybackControl=!1,this.sourceType="mediaNode",this.source=this.context.createMediaElementSource(t),this.connect(),this}setMediaStreamSource(t){return this.hasPlaybackControl=!1,this.sourceType="mediaStreamNode",this.source=this.context.createMediaStreamSource(t),this.connect(),this}setBuffer(t){return this.buffer=t,this.sourceType="buffer",this.autoplay&&this.play(),this}play(t=0){if(!0===this.isPlaying)return void console.warn("THREE.Audio: Audio is already playing.");if(!1===this.hasPlaybackControl)return void console.warn("THREE.Audio: this Audio has no playback control.");this._startedAt=this.context.currentTime+t;const e=this.context.createBufferSource();return e.buffer=this.buffer,e.loop=this.loop,e.loopStart=this.loopStart,e.loopEnd=this.loopEnd,e.onended=this.onEnded.bind(this),e.start(this._startedAt,this._progress+this.offset,this.duration),this.isPlaying=!0,this.source=e,this.setDetune(this.detune),this.setPlaybackRate(this.playbackRate),this.connect()}pause(){if(!1!==this.hasPlaybackControl)return!0===this.isPlaying&&(this._progress+=Math.max(this.context.currentTime-this._startedAt,0)*this.playbackRate,!0===this.loop&&(this._progress=this._progress%(this.duration||this.buffer.duration)),this.source.stop(),this.source.onended=null,this.isPlaying=!1),this;console.warn("THREE.Audio: this Audio has no playback control.")}stop(){if(!1!==this.hasPlaybackControl)return this._progress=0,null!==this.source&&(this.source.stop(),this.source.onended=null),this.isPlaying=!1,this;console.warn("THREE.Audio: this Audio has no playback control.")}connect(){if(this.filters.length>0){this.source.connect(this.filters[0]);for(let t=1,e=this.filters.length;t0){this.source.disconnect(this.filters[0]);for(let t=1,e=this.filters.length;t0&&this._mixBufferRegionAdditive(s,i,this._addIndex*e,1,e);for(let t=e,r=e+e;t!==r;++t)if(s[t]!==s[t+e]){o.setValue(s,i);break}}saveOriginalState(){const t=this.binding,e=this.buffer,s=this.valueSize,i=s*this._origIndex;t.getValue(e,i);for(let t=s,r=i;t!==r;++t)e[t]=e[i+t%s];this._setIdentity(),this.cumulativeWeight=0,this.cumulativeWeightAdditive=0}restoreOriginalState(){const t=3*this.valueSize;this.binding.setValue(this.buffer,t)}_setAdditiveIdentityNumeric(){const t=this._addIndex*this.valueSize,e=t+this.valueSize;for(let s=t;s=.5)for(let i=0;i!==r;++i)t[e+i]=t[s+i]}_slerp(t,e,s,i){Ni.slerpFlat(t,e,t,e,t,s,i)}_slerpAdditive(t,e,s,i,r){const n=this._workIndex*r;Ni.multiplyQuaternionsFlat(t,n,t,e,t,s),Ni.slerpFlat(t,e,t,e,t,n,i)}_lerp(t,e,s,i,r){const n=1-i;for(let o=0;o!==r;++o){const r=e+o;t[r]=t[r]*n+t[s+o]*i}}_lerpAdditive(t,e,s,i,r){for(let n=0;n!==r;++n){const r=e+n;t[r]=t[r]+t[s+n]*i}}}const cc="\\[\\]\\.:\\/",dc=new RegExp("["+cc+"]","g"),pc="[^"+cc+"]",mc="[^"+cc.replace("\\.","")+"]",gc=new RegExp("^"+/((?:WC+[\/:])*)/.source.replace("WC",pc)+/(WCOD+)?/.source.replace("WCOD",mc)+/(?:\.(WC+)(?:\[(.+)\])?)?/.source.replace("WC",pc)+/\.(WC+)(?:\[(.+)\])?/.source.replace("WC",pc)+"$"),fc=["material","materials","bones","map"];class yc{constructor(t,e,s){this.path=e,this.parsedPath=s||yc.parseTrackName(e),this.node=yc.findNode(t,this.parsedPath.nodeName),this.rootNode=t,this.getValue=this._getValue_unbound,this.setValue=this._setValue_unbound}static create(t,e,s){return t&&t.isAnimationObjectGroup?new yc.Composite(t,e,s):new yc(t,e,s)}static sanitizeNodeName(t){return t.replace(/\s/g,"_").replace(dc,"")}static parseTrackName(t){const e=gc.exec(t);if(null===e)throw new Error("PropertyBinding: Cannot parse trackName: "+t);const s={nodeName:e[2],objectName:e[3],objectIndex:e[4],propertyName:e[5],propertyIndex:e[6]},i=s.nodeName&&s.nodeName.lastIndexOf(".");if(void 0!==i&&-1!==i){const t=s.nodeName.substring(i+1);-1!==fc.indexOf(t)&&(s.nodeName=s.nodeName.substring(0,i),s.objectName=t)}if(null===s.propertyName||0===s.propertyName.length)throw new Error("PropertyBinding: can not parse propertyName from trackName: "+t);return s}static findNode(t,e){if(void 0===e||""===e||"."===e||-1===e||e===t.name||e===t.uuid)return t;if(t.skeleton){const s=t.skeleton.getBoneByName(e);if(void 0!==s)return s}if(t.children){const s=function(t){for(let i=0;i=r){const n=r++,l=t[n];e[l.uuid]=h,t[h]=l,e[a]=n,t[n]=o;for(let t=0,e=i;t!==e;++t){const e=s[t],i=e[n],r=e[h];e[h]=i,e[n]=r}}}this.nCachedObjects_=r}uncache(){const t=this._objects,e=this._indicesByUUID,s=this._bindings,i=s.length;let r=this.nCachedObjects_,n=t.length;for(let o=0,a=arguments.length;o!==a;++o){const a=arguments[o].uuid,h=e[a];if(void 0!==h)if(delete e[a],h0&&(e[o.uuid]=h),t[h]=o,t.pop();for(let t=0,e=i;t!==e;++t){const e=s[t];e[h]=e[r],e.pop()}}}this.nCachedObjects_=r}subscribe_(t,e){const s=this._bindingsIndicesByPath;let i=s[t];const r=this._bindings;if(void 0!==i)return r[i];const n=this._paths,o=this._parsedPaths,a=this._objects,h=a.length,l=this.nCachedObjects_,u=new Array(h);i=r.length,s[t]=i,n.push(t),o.push(e),r.push(u);for(let s=l,i=a.length;s!==i;++s){const i=a[s];u[s]=new yc(i,t,e)}return u}unsubscribe_(t){const e=this._bindingsIndicesByPath,s=e[t];if(void 0!==s){const i=this._paths,r=this._parsedPaths,n=this._bindings,o=n.length-1,a=n[o];e[t[o]]=s,n[s]=a,n.pop(),r[s]=r[o],r.pop(),i[s]=i[o],i.pop()}}}class bc{constructor(t,e,s=null,i=e.blendMode){this._mixer=t,this._clip=e,this._localRoot=s,this.blendMode=i;const r=e.tracks,n=r.length,o=new Array(n),a={endingStart:Ue,endingEnd:Ue};for(let t=0;t!==n;++t){const e=r[t].createInterpolant(null);o[t]=e,e.settings=a}this._interpolantSettings=a,this._interpolants=o,this._propertyBindings=new Array(n),this._cacheIndex=null,this._byClipCacheIndex=null,this._timeScaleInterpolant=null,this._weightInterpolant=null,this.loop=2201,this._loopCount=-1,this._startTime=null,this.time=0,this.timeScale=1,this._effectiveTimeScale=1,this.weight=1,this._effectiveWeight=1,this.repetitions=1/0,this.paused=!1,this.enabled=!0,this.clampWhenFinished=!1,this.zeroSlopeAtStart=!0,this.zeroSlopeAtEnd=!0}play(){return this._mixer._activateAction(this),this}stop(){return this._mixer._deactivateAction(this),this.reset()}reset(){return this.paused=!1,this.enabled=!0,this.time=0,this._loopCount=-1,this._startTime=null,this.stopFading().stopWarping()}isRunning(){return this.enabled&&!this.paused&&0!==this.timeScale&&null===this._startTime&&this._mixer._isActiveAction(this)}isScheduled(){return this._mixer._isActiveAction(this)}startAt(t){return this._startTime=t,this}setLoop(t,e){return this.loop=t,this.repetitions=e,this}setEffectiveWeight(t){return this.weight=t,this._effectiveWeight=this.enabled?t:0,this.stopFading()}getEffectiveWeight(){return this._effectiveWeight}fadeIn(t){return this._scheduleFading(t,0,1)}fadeOut(t){return this._scheduleFading(t,1,0)}crossFadeFrom(t,e,s){if(t.fadeOut(e),this.fadeIn(e),s){const s=this._clip.duration,i=t._clip.duration,r=i/s,n=s/i;t.warp(1,r,e),this.warp(n,1,e)}return this}crossFadeTo(t,e,s){return t.crossFadeFrom(this,e,s)}stopFading(){const t=this._weightInterpolant;return null!==t&&(this._weightInterpolant=null,this._mixer._takeBackControlInterpolant(t)),this}setEffectiveTimeScale(t){return this.timeScale=t,this._effectiveTimeScale=this.paused?0:t,this.stopWarping()}getEffectiveTimeScale(){return this._effectiveTimeScale}setDuration(t){return this.timeScale=this._clip.duration/t,this.stopWarping()}syncWith(t){return this.time=t.time,this.timeScale=t.timeScale,this.stopWarping()}halt(t){return this.warp(this._effectiveTimeScale,0,t)}warp(t,e,s){const i=this._mixer,r=i.time,n=this.timeScale;let o=this._timeScaleInterpolant;null===o&&(o=i._lendControlInterpolant(),this._timeScaleInterpolant=o);const a=o.parameterPositions,h=o.sampleValues;return a[0]=r,a[1]=r+s,h[0]=t/n,h[1]=e/n,this}stopWarping(){const t=this._timeScaleInterpolant;return null!==t&&(this._timeScaleInterpolant=null,this._mixer._takeBackControlInterpolant(t)),this}getMixer(){return this._mixer}getClip(){return this._clip}getRoot(){return this._localRoot||this._mixer._root}_update(t,e,s,i){if(!this.enabled)return void this._updateWeight(t);const r=this._startTime;if(null!==r){const i=(t-r)*s;i<0||0===s?e=0:(this._startTime=null,e=s*i)}e*=this._updateTimeScale(t);const n=this._updateTime(e),o=this._updateWeight(t);if(o>0){const t=this._interpolants,e=this._propertyBindings;if(this.blendMode===Ve)for(let s=0,i=t.length;s!==i;++s)t[s].evaluate(n),e[s].accumulateAdditive(o);else for(let s=0,r=t.length;s!==r;++s)t[s].evaluate(n),e[s].accumulate(i,o)}}_updateWeight(t){let e=0;if(this.enabled){e=this.weight;const s=this._weightInterpolant;if(null!==s){const i=s.evaluate(t)[0];e*=i,t>s.parameterPositions[1]&&(this.stopFading(),0===i&&(this.enabled=!1))}}return this._effectiveWeight=e,e}_updateTimeScale(t){let e=0;if(!this.paused){e=this.timeScale;const s=this._timeScaleInterpolant;if(null!==s){e*=s.evaluate(t)[0],t>s.parameterPositions[1]&&(this.stopWarping(),0===e?this.paused=!0:this.timeScale=e)}}return this._effectiveTimeScale=e,e}_updateTime(t){const e=this._clip.duration,s=this.loop;let i=this.time+t,r=this._loopCount;const n=2202===s;if(0===t)return-1===r?i:n&&1==(1&r)?e-i:i;if(2200===s){-1===r&&(this._loopCount=0,this._setEndings(!0,!0,!1));t:{if(i>=e)i=e;else{if(!(i<0)){this.time=i;break t}i=0}this.clampWhenFinished?this.paused=!0:this.enabled=!1,this.time=i,this._mixer.dispatchEvent({type:"finished",action:this,direction:t<0?-1:1})}}else{if(-1===r&&(t>=0?(r=0,this._setEndings(!0,0===this.repetitions,n)):this._setEndings(0===this.repetitions,!0,n)),i>=e||i<0){const s=Math.floor(i/e);i-=e*s,r+=Math.abs(s);const o=this.repetitions-r;if(o<=0)this.clampWhenFinished?this.paused=!0:this.enabled=!1,i=t>0?e:0,this.time=i,this._mixer.dispatchEvent({type:"finished",action:this,direction:t>0?1:-1});else{if(1===o){const e=t<0;this._setEndings(e,!e,n)}else this._setEndings(!1,!1,n);this._loopCount=r,this.time=i,this._mixer.dispatchEvent({type:"loop",action:this,loopDelta:s})}}else this.time=i;if(n&&1==(1&r))return e-i}return i}_setEndings(t,e,s){const i=this._interpolantSettings;s?(i.endingStart=Oe,i.endingEnd=Oe):(i.endingStart=t?this.zeroSlopeAtStart?Oe:Ue:ze,i.endingEnd=e?this.zeroSlopeAtEnd?Oe:Ue:ze)}_scheduleFading(t,e,s){const i=this._mixer,r=i.time;let n=this._weightInterpolant;null===n&&(n=i._lendControlInterpolant(),this._weightInterpolant=n);const o=n.parameterPositions,a=n.sampleValues;return o[0]=r,a[0]=e,o[1]=r+t,a[1]=s,this}}const vc=new Float32Array(1);class Tc extends Vs{constructor(t){super(),this._root=t,this._initMemoryManager(),this._accuIndex=0,this.time=0,this.timeScale=1}_bindAction(t,e){const s=t._localRoot||this._root,i=t._clip.tracks,r=i.length,n=t._propertyBindings,o=t._interpolants,a=s.uuid,h=this._bindingsByRootAndName;let l=h[a];void 0===l&&(l={},h[a]=l);for(let t=0;t!==r;++t){const r=i[t],h=r.name;let u=l[h];if(void 0!==u)++u.referenceCount,n[t]=u;else{if(u=n[t],void 0!==u){null===u._cacheIndex&&(++u.referenceCount,this._addInactiveBinding(u,a,h));continue}const i=e&&e._propertyBindings[t].binding.parsedPath;u=new uc(yc.create(s,h,i),r.ValueTypeName,r.getValueSize()),++u.referenceCount,this._addInactiveBinding(u,a,h),n[t]=u}o[t].resultBuffer=u.buffer}}_activateAction(t){if(!this._isActiveAction(t)){if(null===t._cacheIndex){const e=(t._localRoot||this._root).uuid,s=t._clip.uuid,i=this._actionsByClip[s];this._bindAction(t,i&&i.knownActions[0]),this._addInactiveAction(t,s,e)}const e=t._propertyBindings;for(let t=0,s=e.length;t!==s;++t){const s=e[t];0==s.useCount++&&(this._lendBinding(s),s.saveOriginalState())}this._lendAction(t)}}_deactivateAction(t){if(this._isActiveAction(t)){const e=t._propertyBindings;for(let t=0,s=e.length;t!==s;++t){const s=e[t];0==--s.useCount&&(s.restoreOriginalState(),this._takeBackBinding(s))}this._takeBackAction(t)}}_initMemoryManager(){this._actions=[],this._nActiveActions=0,this._actionsByClip={},this._bindings=[],this._nActiveBindings=0,this._bindingsByRootAndName={},this._controlInterpolants=[],this._nActiveControlInterpolants=0;const t=this;this.stats={actions:{get total(){return t._actions.length},get inUse(){return t._nActiveActions}},bindings:{get total(){return t._bindings.length},get inUse(){return t._nActiveBindings}},controlInterpolants:{get total(){return t._controlInterpolants.length},get inUse(){return t._nActiveControlInterpolants}}}}_isActiveAction(t){const e=t._cacheIndex;return null!==e&&e=0;--e)t[e].stop();return this}update(t){t*=this.timeScale;const e=this._actions,s=this._nActiveActions,i=this.time+=t,r=Math.sign(t),n=this._accuIndex^=1;for(let o=0;o!==s;++o){e[o]._update(i,t,r,n)}const o=this._bindings,a=this._nActiveBindings;for(let t=0;t!==a;++t)o[t].apply(n);return this}setTime(t){this.time=0;for(let t=0;tthis.max.x||t.ythis.max.y)}containsBox(t){return this.min.x<=t.min.x&&t.max.x<=this.max.x&&this.min.y<=t.min.y&&t.max.y<=this.max.y}getParameter(t,e){return e.set((t.x-this.min.x)/(this.max.x-this.min.x),(t.y-this.min.y)/(this.max.y-this.min.y))}intersectsBox(t){return!(t.max.xthis.max.x||t.max.ythis.max.y)}clampPoint(t,e){return e.copy(t).clamp(this.min,this.max)}distanceToPoint(t){return this.clampPoint(t,Pc).distanceTo(t)}intersect(t){return this.min.max(t.min),this.max.min(t.max),this.isEmpty()&&this.makeEmpty(),this}union(t){return this.min.min(t.min),this.max.max(t.max),this}translate(t){return this.min.add(t),this.max.add(t),this}equals(t){return t.min.equals(this.min)&&t.max.equals(this.max)}}const Uc=new Ri,Oc=new Ri;class zc{constructor(t=new Ri,e=new Ri){this.start=t,this.end=e}set(t,e){return this.start.copy(t),this.end.copy(e),this}copy(t){return this.start.copy(t.start),this.end.copy(t.end),this}getCenter(t){return t.addVectors(this.start,this.end).multiplyScalar(.5)}delta(t){return t.subVectors(this.end,this.start)}distanceSq(){return this.start.distanceToSquared(this.end)}distance(){return this.start.distanceTo(this.end)}at(t,e){return this.delta(e).multiplyScalar(t).add(this.start)}closestPointToPointParameter(t,e){Uc.subVectors(t,this.start),Oc.subVectors(this.end,this.start);const s=Oc.dot(Oc);let i=Oc.dot(Uc)/s;return e&&(i=Hs(i,0,1)),i}closestPointToPoint(t,e,s){const i=this.closestPointToPointParameter(t,e);return this.delta(s).multiplyScalar(i).add(this.start)}applyMatrix4(t){return this.start.applyMatrix4(t),this.end.applyMatrix4(t),this}equals(t){return t.start.equals(this.start)&&t.end.equals(this.end)}clone(){return(new this.constructor).copy(this)}}const Lc=new Ri;class Vc extends Br{constructor(t,e){super(),this.light=t,this.matrixAutoUpdate=!1,this.color=e,this.type="SpotLightHelper";const s=new wn,i=[0,0,0,0,0,1,0,0,0,1,0,1,0,0,0,-1,0,1,0,0,0,0,1,1,0,0,0,0,-1,1];for(let t=0,e=1,s=32;t1)for(let s=0;s.99999)this.quaternion.set(0,0,0,1);else if(t.y<-.99999)this.quaternion.set(1,0,0,0);else{ud.set(t.z,0,-t.x).normalize();const e=Math.acos(t.y);this.quaternion.setFromAxisAngle(ud,e)}}setLength(t,e=.2*t,s=.2*e){this.line.scale.set(1,Math.max(1e-4,t-e),1),this.line.updateMatrix(),this.cone.scale.set(s,e,s),this.cone.position.y=t,this.cone.updateMatrix()}setColor(t){this.line.material.color.set(t),this.cone.material.color.set(t)}copy(t){return super.copy(t,!1),this.line.copy(t.line),this.cone.copy(t.cone),this}dispose(){this.line.geometry.dispose(),this.line.material.dispose(),this.cone.geometry.dispose(),this.cone.material.dispose()}}class md extends Ua{constructor(t=1){const e=[0,0,0,t,0,0,0,0,0,0,t,0,0,0,0,0,0,t],s=new wn;s.setAttribute("position",new gn(e,3)),s.setAttribute("color",new gn([1,0,0,1,.6,0,0,1,0,.6,1,0,0,0,1,0,.6,1],3));super(s,new wa({vertexColors:!0,toneMapped:!1})),this.type="AxesHelper"}setColors(t,e,s){const i=new $r,r=this.geometry.attributes.color.array;return i.set(t),i.toArray(r,0),i.toArray(r,3),i.set(e),i.toArray(r,6),i.toArray(r,9),i.set(s),i.toArray(r,12),i.toArray(r,15),this.geometry.attributes.color.needsUpdate=!0,this}dispose(){this.geometry.dispose(),this.material.dispose()}}class gd{constructor(){this.type="ShapePath",this.color=new $r,this.subPaths=[],this.currentPath=null}moveTo(t,e){return this.currentPath=new bh,this.subPaths.push(this.currentPath),this.currentPath.moveTo(t,e),this}lineTo(t,e){return this.currentPath.lineTo(t,e),this}quadraticCurveTo(t,e,s,i){return this.currentPath.quadraticCurveTo(t,e,s,i),this}bezierCurveTo(t,e,s,i,r,n){return this.currentPath.bezierCurveTo(t,e,s,i,r,n),this}splineThru(t){return this.currentPath.splineThru(t),this}toShapes(t){function e(t,e){const s=e.length;let i=!1;for(let r=s-1,n=0;nNumber.EPSILON){if(h<0&&(s=e[n],a=-a,o=e[r],h=-h),t.yo.y)continue;if(t.y===s.y){if(t.x===s.x)return!0}else{const e=h*(t.x-s.x)-a*(t.y-s.y);if(0===e)return!0;if(e<0)continue;i=!i}}else{if(t.y!==s.y)continue;if(o.x<=t.x&&t.x<=s.x||s.x<=t.x&&t.x<=o.x)return!0}}return i}const s=rl.isClockWise,i=this.subPaths;if(0===i.length)return[];let r,n,o;const a=[];if(1===i.length)return n=i[0],o=new Ih,o.curves=n.curves,a.push(o),a;let h=!s(i[0].getPoints());h=t?!h:h;const l=[],u=[];let c,d,p=[],m=0;u[m]=void 0,p[m]=[];for(let e=0,o=i.length;e1){let t=!1,s=0;for(let t=0,e=u.length;t0&&!1===t&&(p=l)}for(let t=0,e=u.length;t{this.requestId=self.requestAnimationFrame(t),!0===this.info.autoReset&&this.info.reset(),this.nodes.nodeFrame.update(),this.info.frame=this.nodes.nodeFrame.frameId,null!==this.animationLoop&&this.animationLoop(e,s)};t()}dispose(){self.cancelAnimationFrame(this.requestId),this.requestId=null}setAnimationLoop(t){this.animationLoop=t}}class vd{constructor(){this.weakMap=new WeakMap}get(t){let e=this.weakMap;for(let s=0;s{this.dispose()},this.material.addEventListener("dispose",this.onMaterialDispose)}updateClipping(t){const e=this.material;let s=this.clippingContext;Array.isArray(e.clippingPlanes)?(s!==t&&s||(s=new wd,this.clippingContext=s),s.update(t,e)):this.clippingContext!==t&&(this.clippingContext=t)}get clippingNeedsUpdate(){return this.clippingContext.version!==this.clippingContextVersion&&(this.clippingContextVersion=this.clippingContext.version,!0)}getNodeBuilderState(){return this._nodeBuilderState||(this._nodeBuilderState=this._nodes.getForRender(this))}getBindings(){return this._bindings||(this._bindings=this.getNodeBuilderState().createBindings())}getIndex(){return this._geometries.getIndex(this)}getChainArray(){return[this.object,this.material,this.context,this.lightsNode]}getAttributes(){if(null!==this.attributes)return this.attributes;const t=this.getNodeBuilderState().nodeAttributes,e=this.geometry,s=[],i=new Set;for(const r of t){const t=r.node&&r.node.attribute?r.node.attribute:e.getAttribute(r.name);if(void 0===t)continue;s.push(t);const n=t.isInterleavedBufferAttribute?t.data:t;i.add(n)}return this.attributes=s,this.vertexBuffers=Array.from(i.values()),s}getVertexBuffers(){return null===this.vertexBuffers&&this.getAttributes(),this.vertexBuffers}getMaterialCacheKey(){const{object:t,material:e}=this;let s=e.customProgramCacheKey();for(const t of function(t){const e=Object.keys(t);let s=Object.getPrototypeOf(t);for(;s;){const t=Object.getOwnPropertyDescriptors(s);for(const s in t)if(void 0!==t[s]){const i=t[s];i&&"function"==typeof i.get&&e.push(s)}s=Object.getPrototypeOf(s)}return e}(e)){if(/^(is[A-Z]|_)|^(visible|version|uuid|name|opacity|userData)$/.test(t))continue;let i=e[t];if(null!==i){const t=typeof i;"number"===t?i=0!==i?"1":"0":"object"===t&&(i="{}")}s+=i+","}return s+=this.clippingContextVersion+",",t.skeleton&&(s+=t.skeleton.bones.length+","),t.morphTargetInfluences&&(s+=t.morphTargetInfluences.length+","),t.isBatchedMesh&&(s+=t._matricesTexture.uuid+",",null!==t._colorsTexture&&(s+=t._colorsTexture.uuid+",")),t.count>1&&(s+=t.count+","),s}get needsUpdate(){return this.initialNodesCacheKey!==this.getNodesCacheKey()||this.clippingNeedsUpdate}getNodesCacheKey(){return this._nodes.getCacheKey(this.scene,this.lightsNode)}getCacheKey(){return this.getMaterialCacheKey()+","+this.getNodesCacheKey()}dispose(){this.material.removeEventListener("dispose",this.onMaterialDispose),this.onDispose()}}class Ad{constructor(t,e,s,i,r,n){this.renderer=t,this.nodes=e,this.geometries=s,this.pipelines=i,this.bindings=r,this.info=n,this.chainMaps={}}get(t,e,s,i,r,n,o){const a=this.getChainMap(o),h=[t,e,n,r];let l=a.get(h);return void 0===l?(l=this.createRenderObject(this.nodes,this.geometries,this.renderer,t,e,s,i,r,n,o),a.set(h,l)):(l.updateClipping(n.clippingContext),(l.version!==e.version||l.needsUpdate)&&(l.initialCacheKey!==l.getCacheKey()?(l.dispose(),l=this.get(t,e,s,i,r,n,o)):l.version=e.version)),l}getChainMap(t="default"){return this.chainMaps[t]||(this.chainMaps[t]=new vd)}dispose(){this.chainMaps={}}createRenderObject(t,e,s,i,r,n,o,a,h,l){const u=this.getChainMap(l),c=new Md(t,e,s,i,r,n,o,a,h);return c.onDispose=()=>{this.pipelines.delete(c),this.bindings.delete(c),this.nodes.delete(c),u.delete(c.getChainArray())},c}}class Nd{constructor(){this.data=new WeakMap}get(t){let e=this.data.get(t);return void 0===e&&(e={},this.data.set(t,e)),e}delete(t){let e;return this.data.has(t)&&(e=this.data.get(t),this.data.delete(t)),e}has(t){return this.data.has(t)}dispose(){this.data=new WeakMap}}const Rd=1,Cd=2,Ed=4,Bd=16;class Id extends Nd{constructor(t){super(),this.backend=t}delete(t){const e=super.delete(t);return void 0!==e&&this.backend.destroyAttribute(t),e}update(t,e){const s=this.get(t);if(void 0===s.version)e===Rd?this.backend.createAttribute(t):e===Cd?this.backend.createIndexAttribute(t):e===Ed&&this.backend.createStorageAttribute(t),s.version=this._getBufferAttribute(t).version;else{const e=this._getBufferAttribute(t);(s.version=0;--e)if(t[e]>=65535)return!0;return!1}(e)?pn:cn)(e,1);return r.version=Pd(t),r}class Ud extends Nd{constructor(t,e){super(),this.attributes=t,this.info=e,this.wireframes=new WeakMap,this.attributeCall=new WeakMap}has(t){const e=t.geometry;return super.has(e)&&!0===this.get(e).initialized}updateForRender(t){!1===this.has(t)&&this.initGeometry(t),this.updateAttributes(t)}initGeometry(t){const e=t.geometry;this.get(e).initialized=!0,this.info.memory.geometries++;const s=()=>{this.info.memory.geometries--;const i=e.index,r=t.getAttributes();null!==i&&this.attributes.delete(i);for(const t of r)this.attributes.delete(t);const n=this.wireframes.get(e);void 0!==n&&this.attributes.delete(n),e.removeEventListener("dispose",s)};e.addEventListener("dispose",s)}updateAttributes(t){const e=t.getAttributes();for(const t of e)t.isStorageBufferAttribute||t.isStorageInstancedBufferAttribute?this.updateAttribute(t,Ed):this.updateAttribute(t,Rd);const s=this.getIndex(t);null!==s&&this.updateAttribute(s,Cd)}updateAttribute(t,e){const s=this.info.render.calls;t.isInterleavedBufferAttribute?void 0===this.attributeCall.get(t)?(this.attributes.update(t,e),this.attributeCall.set(t,s)):this.attributeCall.get(t.data)!==s&&(this.attributes.update(t,e),this.attributeCall.set(t.data,s),this.attributeCall.set(t,s)):this.attributeCall.get(t)!==s&&(this.attributes.update(t,e),this.attributeCall.set(t,s))}getIndex(t){const{geometry:e,material:s}=t;let i=e.index;if(!0===s.wireframe){const t=this.wireframes;let s=t.get(e);void 0===s?(s=Fd(e),t.set(e,s)):s.version!==Pd(e)&&(this.attributes.delete(s),s=Fd(e),t.set(e,s)),i=s}return i}}class Od{constructor(){this.autoReset=!0,this.frame=0,this.calls=0,this.render={calls:0,frameCalls:0,drawCalls:0,triangles:0,points:0,lines:0,timestamp:0,previousFrameCalls:0,timestampCalls:0},this.compute={calls:0,frameCalls:0,timestamp:0,previousFrameCalls:0,timestampCalls:0},this.memory={geometries:0,textures:0}}update(t,e,s){this.render.drawCalls++,t.isMesh||t.isSprite?this.render.triangles+=s*(e/3):t.isPoints?this.render.points+=s*e:t.isLineSegments?this.render.lines+=s*(e/2):t.isLine?this.render.lines+=s*(e-1):console.error("THREE.WebGPUInfo: Unknown object type.")}updateTimestamp(t,e){0===this[t].timestampCalls&&(this[t].timestamp=0),this[t].timestamp+=e,this[t].timestampCalls++,this[t].timestampCalls>=this[t].previousFrameCalls&&(this[t].timestampCalls=0)}reset(){const t=this.render.frameCalls;this.render.previousFrameCalls=t;const e=this.compute.frameCalls;this.compute.previousFrameCalls=e,this.render.drawCalls=0,this.render.frameCalls=0,this.compute.frameCalls=0,this.render.triangles=0,this.render.points=0,this.render.lines=0}dispose(){this.reset(),this.calls=0,this.render.calls=0,this.compute.calls=0,this.render.timestamp=0,this.compute.timestamp=0,this.memory.geometries=0,this.memory.textures=0}}class zd{constructor(t){this.cacheKey=t,this.usedTimes=0}}class Ld extends zd{constructor(t,e,s){super(t),this.vertexProgram=e,this.fragmentProgram=s}}class Vd extends zd{constructor(t,e){super(t),this.computeProgram=e,this.isComputePipeline=!0}}let Dd=0;class kd{constructor(t,e,s=null,i=null){this.id=Dd++,this.code=t,this.stage=e,this.transforms=s,this.attributes=i,this.usedTimes=0}}class Gd extends Nd{constructor(t,e){super(),this.backend=t,this.nodes=e,this.bindings=null,this.caches=new Map,this.programs={vertex:new Map,fragment:new Map,compute:new Map}}getForCompute(t,e){const{backend:s}=this,i=this.get(t);if(this._needsComputeUpdate(t)){const r=i.pipeline;r&&(r.usedTimes--,r.computeProgram.usedTimes--);const n=this.nodes.getForCompute(t);let o=this.programs.compute.get(n.computeShader);void 0===o&&(r&&0===r.computeProgram.usedTimes&&this._releaseProgram(r.computeProgram),o=new kd(n.computeShader,"compute",n.transforms,n.nodeAttributes),this.programs.compute.set(n.computeShader,o),s.createProgram(o));const a=this._getComputeCacheKey(t,o);let h=this.caches.get(a);void 0===h&&(r&&0===r.usedTimes&&this._releasePipeline(r),h=this._getComputePipeline(t,o,a,e)),h.usedTimes++,o.usedTimes++,i.version=t.version,i.pipeline=h}return i.pipeline}getForRender(t,e=null){const{backend:s}=this,i=this.get(t);if(this._needsRenderUpdate(t)){const r=i.pipeline;r&&(r.usedTimes--,r.vertexProgram.usedTimes--,r.fragmentProgram.usedTimes--);const n=t.getNodeBuilderState();let o=this.programs.vertex.get(n.vertexShader);void 0===o&&(r&&0===r.vertexProgram.usedTimes&&this._releaseProgram(r.vertexProgram),o=new kd(n.vertexShader,"vertex"),this.programs.vertex.set(n.vertexShader,o),s.createProgram(o));let a=this.programs.fragment.get(n.fragmentShader);void 0===a&&(r&&0===r.fragmentProgram.usedTimes&&this._releaseProgram(r.fragmentProgram),a=new kd(n.fragmentShader,"fragment"),this.programs.fragment.set(n.fragmentShader,a),s.createProgram(a));const h=this._getRenderCacheKey(t,o,a);let l=this.caches.get(h);void 0===l?(r&&0===r.usedTimes&&this._releasePipeline(r),l=this._getRenderPipeline(t,o,a,h,e)):t.pipeline=l,l.usedTimes++,o.usedTimes++,a.usedTimes++,i.pipeline=l}return i.pipeline}delete(t){const e=this.get(t).pipeline;return e&&(e.usedTimes--,0===e.usedTimes&&this._releasePipeline(e),e.isComputePipeline?(e.computeProgram.usedTimes--,0===e.computeProgram.usedTimes&&this._releaseProgram(e.computeProgram)):(e.fragmentProgram.usedTimes--,e.vertexProgram.usedTimes--,0===e.vertexProgram.usedTimes&&this._releaseProgram(e.vertexProgram),0===e.fragmentProgram.usedTimes&&this._releaseProgram(e.fragmentProgram))),super.delete(t)}dispose(){super.dispose(),this.caches=new Map,this.programs={vertex:new Map,fragment:new Map,compute:new Map}}updateForRender(t){this.getForRender(t)}_getComputePipeline(t,e,s,i){s=s||this._getComputeCacheKey(t,e);let r=this.caches.get(s);return void 0===r&&(r=new Vd(s,e),this.caches.set(s,r),this.backend.createComputePipeline(r,i)),r}_getRenderPipeline(t,e,s,i,r){i=i||this._getRenderCacheKey(t,e,s);let n=this.caches.get(i);return void 0===n&&(n=new Ld(i,e,s),this.caches.set(i,n),t.pipeline=n,this.backend.createRenderPipeline(t,r)),n}_getComputeCacheKey(t,e){return t.id+","+e.id}_getRenderCacheKey(t,e,s){return e.id+","+s.id+","+this.backend.getRenderCacheKey(t)}_releasePipeline(t){this.caches.delete(t.cacheKey)}_releaseProgram(t){const e=t.code,s=t.stage;this.programs[s].delete(e)}_needsComputeUpdate(t){const e=this.get(t);return void 0===e.pipeline||e.version!==t.version}_needsRenderUpdate(t){return void 0===this.get(t).pipeline||this.backend.needsRenderUpdate(t)}}class Wd extends Nd{constructor(t,e,s,i,r,n){super(),this.backend=t,this.textures=s,this.pipelines=r,this.attributes=i,this.nodes=e,this.info=n,this.pipelines.bindings=this}getForRender(t){const e=t.getBindings();for(const t of e){const s=this.get(t);void 0===s.bindGroup&&(this._init(t),this.backend.createBindings(t,e),s.bindGroup=t)}return e}getForCompute(t){const e=this.nodes.getForCompute(t).bindings;for(const t of e){const s=this.get(t);void 0===s.bindGroup&&(this._init(t),this.backend.createBindings(t,e),s.bindGroup=t)}return e}updateForCompute(t){this._updateBindings(t,this.getForCompute(t))}updateForRender(t){this._updateBindings(t,this.getForRender(t))}_updateBindings(t,e){for(const s of e)this._update(t,s,e)}_init(t){for(const e of t.bindings)if(e.isSampledTexture)this.textures.updateTexture(e.texture);else if(e.isStorageBuffer){const t=e.attribute;this.attributes.update(t,Ed)}}_update(t,e,s){const{backend:i}=this;let r=!1;for(const t of e.bindings){if(t.isNodeUniformsGroup){if(!this.nodes.updateGroup(t))continue}if(t.isUniformBuffer){t.update()&&i.updateBinding(t)}else if(t.isSampler)t.update();else if(t.isSampledTexture){const e=t.texture;t.needsBindingsUpdate&&(r=!0);const s=t.update();s&&this.textures.updateTexture(t.texture);const n=i.get(t.texture);if(!0===i.isWebGPUBackend&&void 0===n.texture&&void 0===n.externalTexture&&(console.error("Bindings._update: binding should be available:",t,s,t.texture,t.textureNode.value),this.textures.updateTexture(t.texture),r=!0),!0===e.isStorageTexture){const s=this.get(e);!0===t.store?s.needsMipmap=!0:!0===e.generateMipmaps&&this.textures.needsMipmaps(e)&&!0===s.needsMipmap&&(this.backend.generateMipmaps(e),s.needsMipmap=!1)}}}if(!0===r){const i=this.pipelines.getForRender(t);this.backend.updateBindings(e,s,i)}}}const jd={VERTEX:"vertex",FRAGMENT:"fragment"},Hd={NONE:"none",FRAME:"frame",RENDER:"render",OBJECT:"object"},qd={BOOLEAN:"bool",INTEGER:"int",FLOAT:"float",VECTOR2:"vec2",VECTOR3:"vec3",VECTOR4:"vec4",MATRIX2:"mat2",MATRIX3:"mat3",MATRIX4:"mat4"},$d=["fragment","vertex"],Xd=["setup","analyze","generate"],Yd=[...$d,"compute"],Jd=["x","y","z","w"];function Zd(t,e=!1){let s="{";!0===t.isNode&&(s+=t.id);for(const{property:i,childNode:r}of Qd(t))s+=","+i.slice(0,-4)+":"+r.getCacheKey(e);return s+="}",s}function*Qd(t,e=!1){for(const s in t){if(!0===s.startsWith("_"))continue;const i=t[s];if(!0===Array.isArray(i))for(let t=0;tt.charCodeAt(0))).buffer}var ip=Object.freeze({__proto__:null,arrayBufferToBase64:ep,base64ToArrayBuffer:sp,getCacheKey:Zd,getNodeChildren:Qd,getValueFromType:tp,getValueType:Kd});const rp=new Map;let np=0;class op extends Vs{constructor(t=null){super(),this.nodeType=t,this.updateType=Hd.NONE,this.updateBeforeType=Hd.NONE,this.updateAfterType=Hd.NONE,this.uuid=Js.generateUUID(),this.version=0,this._cacheKey=null,this._cacheKeyVersion=0,this.global=!1,this.isNode=!0,Object.defineProperty(this,"id",{value:np++})}set needsUpdate(t){!0===t&&this.version++}get type(){return this.constructor.type}onUpdate(t,e){return this.updateType=e,this.update=t.bind(this.getSelf()),this}onFrameUpdate(t){return this.onUpdate(t,Hd.FRAME)}onRenderUpdate(t){return this.onUpdate(t,Hd.RENDER)}onObjectUpdate(t){return this.onUpdate(t,Hd.OBJECT)}onReference(t){return this.updateReference=t.bind(this.getSelf()),this}getSelf(){return this.self||this}updateReference(){return this}isGlobal(){return this.global}*getChildren(){for(const{childNode:t}of Qd(this))yield t}dispose(){this.dispatchEvent({type:"dispose"})}traverse(t){t(this);for(const e of this.getChildren())e.traverse(t)}getCacheKey(t=!1){return!0!==(t=t||this.version!==this._cacheKeyVersion)&&null!==this._cacheKey||(this._cacheKey=Zd(this,t),this._cacheKeyVersion=this.version),this._cacheKey}getHash(){return this.uuid}getUpdateType(){return this.updateType}getUpdateBeforeType(){return this.updateBeforeType}getUpdateAfterType(){return this.updateAfterType}getElementType(t){const e=this.getNodeType(t);return t.getElementType(e)}getNodeType(t){const e=t.getNodeProperties(this);return e.outputNode?e.outputNode.getNodeType(t):this.nodeType}getShared(t){const e=this.getHash(t);return t.getNodeFromHash(e)||this}setup(t){const e=t.getNodeProperties(this);let s=0;for(const t of this.getChildren())e["node"+s++]=t;return null}construct(t){return console.warn("THREE.Node: construct() is deprecated. Use setup() instead."),this.setup(t)}increaseUsage(t){const e=t.getDataFromNode(this);return e.usageCount=void 0===e.usageCount?1:e.usageCount+1,e.usageCount}analyze(t){if(1===this.increaseUsage(t)){const e=t.getNodeProperties(this);for(const s of Object.values(e))s&&!0===s.isNode&&s.build(t)}}generate(t,e){const{outputNode:s}=t.getNodeProperties(this);if(s&&!0===s.isNode)return s.build(t,e)}updateBefore(){console.warn("Abstract function.")}updateAfter(){console.warn("Abstract function.")}update(){console.warn("Abstract function.")}build(t,e=null){const s=this.getShared(t);if(this!==s)return s.build(t,e);t.addNode(this),t.addChain(this);let i=null;const r=t.getBuildStage();if("setup"===r){this.updateReference(t);const e=t.getNodeProperties(this);if(!0!==e.initialized){const s=t.stack.nodes.length;e.initialized=!0,e.outputNode=this.setup(t),null!==e.outputNode&&t.stack.nodes.length!==s&&(e.outputNode=t.stack);for(const s of Object.values(e))s&&!0===s.isNode&&s.build(t)}}else if("analyze"===r)this.analyze(t);else if("generate"===r){if(1===this.generate.length){const s=this.getNodeType(t),r=t.getDataFromNode(this);i=r.snippet,void 0===i&&(i=this.generate(t)||"",r.snippet=i),i=t.format(i,s,e)}else i=this.generate(t,e)||""}return t.removeChain(this),i}getSerializeChildren(){return Qd(this)}serialize(t){const e=this.getSerializeChildren(),s={};for(const{property:i,index:r,childNode:n}of e)void 0!==r?(void 0===s[i]&&(s[i]=Number.isInteger(r)?[]:{}),s[i][r]=n.toJSON(t.meta).uuid):s[i]=n.toJSON(t.meta).uuid;Object.keys(s).length>0&&(t.inputNodes=s)}deserialize(t){if(void 0!==t.inputNodes){const e=t.meta.nodes;for(const s in t.inputNodes)if(Array.isArray(t.inputNodes[s])){const i=[];for(const r of t.inputNodes[s])i.push(e[r]);this[s]=i}else if("object"==typeof t.inputNodes[s]){const i={};for(const r in t.inputNodes[s]){const n=t.inputNodes[s][r];i[r]=e[n]}this[s]=i}else{const i=t.inputNodes[s];this[s]=e[i]}}}toJSON(t){const{uuid:e,type:s}=this,i=void 0===t||"string"==typeof t;i&&(t={textures:{},images:{},nodes:{}});let r=t.nodes[e];function n(t){const e=[];for(const s in t){const i=t[s];delete i.metadata,e.push(i)}return e}if(void 0===r&&(r={uuid:e,type:s,meta:t,metadata:{version:4.6,type:"Node",generator:"Node.toJSON"}},!0!==i&&(t.nodes[r.uuid]=r),this.serialize(r),delete r.meta),i){const e=n(t.textures),s=n(t.images),i=n(t.nodes);e.length>0&&(r.textures=e),s.length>0&&(r.images=s),i.length>0&&(r.nodes=i)}return r}}function ap(t,e){if("function"!=typeof e||!t)throw new Error(`Node class ${t} is not a class`);rp.has(t)?console.warn(`Redefinition of node class ${t}`):(rp.set(t,e),e.type=t)}function hp(t){const e=rp.get(t);if(void 0!==e)return new e}class lp extends op{constructor(t){super(t),this.isTempNode=!0}hasDependencies(t){return t.getDataFromNode(this).usageCount>1}build(t,e){if("generate"===t.getBuildStage()){const s=t.getVectorType(this.getNodeType(t,e)),i=t.getDataFromNode(this);if(void 0!==i.propertyName)return t.format(i.propertyName,s,e);if("void"!==s&&"void"!==e&&this.hasDependencies(t)){const r=super.build(t,s),n=t.getVarFromNode(this,null,s),o=t.getPropertyName(n);return t.addLineFlowCode(`${o} = ${r}`),i.snippet=r,i.propertyName=o,t.format(i.propertyName,s,e)}}return super.build(t,e)}}ap("TempNode",lp);class up extends op{constructor(t,e){super(),this.node=t,this.indexNode=e,this.isArrayElementNode=!0}getNodeType(t){return this.node.getElementType(t)}generate(t){return`${this.node.build(t)}[ ${this.indexNode.build(t,"uint")} ]`}}ap("ArrayElementNode",up);class cp extends op{constructor(t,e){super(),this.node=t,this.convertTo=e}getNodeType(t){const e=this.node.getNodeType(t);let s=null;for(const i of this.convertTo.split("|"))null!==s&&t.getTypeLength(e)!==t.getTypeLength(i)||(s=i);return s}serialize(t){super.serialize(t),t.convertTo=this.convertTo}deserialize(t){super.deserialize(t),this.convertTo=t.convertTo}generate(t,e){const s=this.node,i=this.getNodeType(t),r=s.build(t,i);return t.format(r,i,e)}}ap("ConvertNode",cp);class dp extends lp{constructor(t=[],e=null){super(e),this.nodes=t}getNodeType(t){return null!==this.nodeType?t.getVectorType(this.nodeType):t.getTypeFromLength(this.nodes.reduce(((e,s)=>e+t.getTypeLength(s.getNodeType(t))),0))}generate(t,e){const s=this.getNodeType(t),i=this.nodes,r=t.getComponentType(s),n=[];for(const e of i){let s=e.build(t);const i=t.getComponentType(e.getNodeType(t));i!==r&&(s=t.format(s,i,r)),n.push(s)}const o=`${t.getType(s)}( ${n.join(", ")} )`;return t.format(o,s,e)}}ap("JoinNode",dp);const pp=Jd.join("");class mp extends op{constructor(t,e="x"){super(),this.node=t,this.components=e,this.isSplitNode=!0}getVectorLength(){let t=this.components.length;for(const e of this.components)t=Math.max(Jd.indexOf(e)+1,t);return t}getComponentType(t){return t.getComponentType(this.node.getNodeType(t))}getNodeType(t){return t.getTypeFromLength(this.components.length,this.getComponentType(t))}generate(t,e){const s=this.node,i=t.getTypeLength(s.getNodeType(t));let r=null;if(i>1){let n=null;this.getVectorLength()>=i&&(n=t.getTypeFromLength(this.getVectorLength(),this.getComponentType(t)));const o=s.build(t,n);r=this.components.length===i&&this.components===pp.slice(0,this.components.length)?t.format(o,n,e):t.format(`${o}.${this.components}`,this.getNodeType(t),e)}else r=s.build(t,e);return r}serialize(t){super.serialize(t),t.components=this.components}deserialize(t){super.deserialize(t),this.components=t.components}}ap("SplitNode",mp);class gp extends lp{constructor(t,e,s){super(),this.sourceNode=t,this.components=e,this.targetNode=s}getNodeType(t){return this.sourceNode.getNodeType(t)}generate(t){const{sourceNode:e,components:s,targetNode:i}=this,r=this.getNodeType(t),n=t.getTypeFromLength(s.length),o=i.build(t,n),a=e.build(t,r),h=t.getTypeLength(r),l=[];for(let t=0;tt.replace(/r|s/g,"x").replace(/g|t/g,"y").replace(/b|p/g,"z").replace(/a|q/g,"w"),_p={setup(t,e){const s=e.shift();return t($p(s),...e)},get(t,e,s){if("string"==typeof e&&void 0===t[e]){if(!0!==t.isStackNode&&"assign"===e)return(...t)=>(xp.assign(s,...t),s);if(bp.has(e)){const i=bp.get(e);return t.isStackNode?(...t)=>s.add(i(...t)):(...t)=>i(s,...t)}if("self"===e)return t;if(e.endsWith("Assign")&&bp.has(e.slice(0,e.length-6))){const i=bp.get(e.slice(0,e.length-6));return t.isStackNode?(...t)=>s.assign(t[0],i(...t)):(...t)=>s.assign(i(s,...t))}if(!0===/^[xyzwrgbastpq]{1,4}$/.test(e))return e=Tp(e),qp(new mp(s,e));if(!0===/^set[XYZWRGBASTPQ]{1,4}$/.test(e))return e=(e=Tp(e.slice(3).toLowerCase())).split("").sort().join(""),s=>qp(new gp(t,e,s));if("width"===e||"height"===e||"depth"===e)return"width"===e?e="x":"height"===e?e="y":"depth"===e&&(e="z"),qp(new mp(t,e));if(!0===/^\d+$/.test(e))return qp(new up(s,new yp(Number(e),"uint")))}return Reflect.get(t,e,s)},set:(t,e,s,i)=>"string"!=typeof e||void 0!==t[e]||!0!==/^[xyzwrgbastpq]{1,4}$/.test(e)&&"width"!==e&&"height"!==e&&"depth"!==e&&!0!==/^\d+$/.test(e)?Reflect.set(t,e,s,i):(i[e].assign(s),!0)},wp=new WeakMap,Sp=new WeakMap,Mp=function(t,e=null){for(const s in t)t[s]=qp(t[s],e);return t},Ap=function(t,e=null){const s=t.length;for(let i=0;iqp(null!==i?Object.assign(t,i):t);return null===e?(...e)=>r(new t(...Xp(e))):null!==s?(s=qp(s),(...i)=>r(new t(e,...Xp(i),s))):(...s)=>r(new t(e,...Xp(s)))},Rp=function(t,...e){return qp(new t(...Xp(e)))};class Cp extends op{constructor(t,e){super(),this.shaderNode=t,this.inputNodes=e}getNodeType(t){const e=t.getNodeProperties(this);return null===e.outputNode&&(e.outputNode=this.setupOutput(t)),e.outputNode.getNodeType(t)}call(t){const{shaderNode:e,inputNodes:s}=this;if(e.layout){let i=Sp.get(t.constructor);void 0===i&&(i=new WeakMap,Sp.set(t.constructor,i));let r=i.get(e);return void 0===r&&(r=qp(t.buildFunctionNode(e)),i.set(e,r)),null!==t.currentFunctionNode&&t.currentFunctionNode.includes.push(r),qp(r.call(s))}const i=e.jsFunc,r=null!==s?i(s,t.stack,t):i(t.stack,t);return qp(r)}setup(t){const{outputNode:e}=t.getNodeProperties(this);return e||this.setupOutput(t)}setupOutput(t){return t.addStack(),t.stack.outputNode=this.call(t),t.removeStack()}generate(t,e){const{outputNode:s}=t.getNodeProperties(this);return null===s?this.call(t).build(t,e):super.generate(t,e)}}class Ep extends op{constructor(t){super(),this.jsFunc=t,this.layout=null,this.global=!0}get isArrayInput(){return/^\((\s+)?\[/.test(this.jsFunc.toString())}setLayout(t){return this.layout=t,this}call(t=null){return $p(t),qp(new Cp(this,t))}setup(){return this.call()}}const Bp=[!1,!0],Ip=[0,1,2,3],Pp=[-1,-2],Fp=[.5,1.5,1/3,1e-6,1e6,Math.PI,2*Math.PI,1/Math.PI,2/Math.PI,1/(2*Math.PI),Math.PI/2],Up=new Map;for(const t of Bp)Up.set(t,new yp(t));const Op=new Map;for(const t of Ip)Op.set(t,new yp(t,"uint"));const zp=new Map([...Op].map((t=>new yp(t.value,"int"))));for(const t of Pp)zp.set(t,new yp(t,"int"));const Lp=new Map([...zp].map((t=>new yp(t.value))));for(const t of Fp)Lp.set(t,new yp(t));for(const t of Fp)Lp.set(-t,new yp(-t));const Vp={bool:Up,uint:Op,ints:zp,float:Lp},Dp=new Map([...Up,...Lp]),kp=(t,e)=>Dp.has(t)?Dp.get(t):!0===t.isNode?t:new yp(t,e),Gp=function(t,e=null){return(...s)=>{if((0===s.length||!["bool","float","int","uint"].includes(t)&&s.every((t=>"object"!=typeof t)))&&(s=[tp(t,...s)]),1===s.length&&null!==e&&e.has(s[0]))return qp(e.get(s[0]));if(1===s.length){const e=kp(s[0],t);return(t=>{try{return t.getNodeType()}catch(t){return}})(e)===t?qp(e):qp(new cp(e,t))}const i=s.map((t=>kp(t)));return qp(new dp(i,t))}},Wp=t=>t&&t.value,jp=t=>null!=t?t.nodeType||t.convertTo||("string"==typeof t?t:null):null;function Hp(t){return new Proxy(new Ep(t),_p)}const qp=(t,e=null)=>function(t,e=null){const s=Kd(t);if("node"===s){let e=wp.get(t);return void 0===e&&(e=new Proxy(t,_p),wp.set(t,e),wp.set(e,e)),e}return null===e&&("float"===s||"boolean"===s)||s&&"shader"!==s&&"string"!==s?qp(kp(t,e)):"shader"===s?Zp(t):t}(t,e),$p=(t,e=null)=>new Mp(t,e),Xp=(t,e=null)=>new Ap(t,e),Yp=(...t)=>new Np(...t),Jp=(...t)=>new Rp(...t),Zp=t=>{const e=new Hp(t),s=(...t)=>{let s;return $p(t),s=t[0]&&t[0].isNode?[...t]:t[0],e.call(s)};return s.shaderNode=e,s.setLayout=t=>(e.setLayout(t),s),s};ap("ShaderNode",Hp),vp("toGlobal",(t=>(t.global=!0,t)));const Qp=t=>{xp=t},Kp=()=>xp,tm=(...t)=>xp.if(...t);function em(t){return xp&&xp.add(t),t}vp("append",em);const sm=new Gp("color"),im=new Gp("float",Vp.float),rm=new Gp("int",Vp.ints),nm=new Gp("uint",Vp.uint),om=new Gp("bool",Vp.bool),am=new Gp("vec2"),hm=new Gp("ivec2"),lm=new Gp("uvec2"),um=new Gp("bvec2"),cm=new Gp("vec3"),dm=new Gp("ivec3"),pm=new Gp("uvec3"),mm=new Gp("bvec3"),gm=new Gp("vec4"),fm=new Gp("ivec4"),ym=new Gp("uvec4"),xm=new Gp("bvec4"),bm=new Gp("mat2"),vm=new Gp("imat2"),Tm=new Gp("umat2"),_m=new Gp("bmat2"),wm=new Gp("mat3"),Sm=new Gp("imat3"),Mm=new Gp("umat3"),Am=new Gp("bmat3"),Nm=new Gp("mat4"),Rm=new Gp("imat4"),Cm=new Gp("umat4"),Em=new Gp("bmat4"),Bm=(t="")=>qp(new yp(t,"string")),Im=t=>qp(new yp(t,"ArrayBuffer"));vp("toColor",sm),vp("toFloat",im),vp("toInt",rm),vp("toUint",nm),vp("toBool",om),vp("toVec2",am),vp("toIvec2",hm),vp("toUvec2",lm),vp("toBvec2",um),vp("toVec3",cm),vp("toIvec3",dm),vp("toUvec3",pm),vp("toBvec3",mm),vp("toVec4",gm),vp("toIvec4",fm),vp("toUvec4",ym),vp("toBvec4",xm),vp("toMat2",bm),vp("toImat2",vm),vp("toUmat2",Tm),vp("toBmat2",_m),vp("toMat3",wm),vp("toImat3",Sm),vp("toUmat3",Mm),vp("toBmat3",Am),vp("toMat4",Nm),vp("toImat4",Rm),vp("toUmat4",Cm),vp("toBmat4",Em);const Pm=Yp(up),Fm=(t,e)=>qp(new cp(qp(t),e)),Um=(t,e)=>qp(new mp(qp(t),e));vp("element",Pm),vp("convert",Fm);class Om extends lp{constructor(t,e){super(),this.targetNode=t,this.sourceNode=e}hasDependencies(){return!1}getNodeType(t,e){return"void"!==e?this.targetNode.getNodeType(t):"void"}needsSplitAssign(t){const{targetNode:e}=this;if(!1===t.isAvailable("swizzleAssign")&&e.isSplitNode&&e.components.length>1){const s=t.getTypeLength(e.node.getNodeType(t));return Jd.join("").slice(0,s)!==e.components}return!1}generate(t,e){const{targetNode:s,sourceNode:i}=this,r=this.needsSplitAssign(t),n=s.getNodeType(t),o=s.context({assign:!0}).build(t),a=i.build(t,n),h=i.getNodeType(t),l=t.getDataFromNode(this);let u;if(!0===l.initialized)"void"!==e&&(u=o);else if(r){const i=t.getVarFromNode(this,null,n),r=t.getPropertyName(i);t.addLineFlowCode(`${r} = ${a}`);const h=s.node.context({assign:!0}).build(t);for(let e=0;eqp(new Dm(t,e,qp(s)));ap("AttributeNode",Dm);class Gm extends op{constructor(t,e){super(),this.isBypassNode=!0,this.outputNode=t,this.callNode=e}getNodeType(t){return this.outputNode.getNodeType(t)}generate(t){const e=this.callNode.build(t,"void");return""!==e&&t.addLineFlowCode(e),this.outputNode.build(t)}}const Wm=Yp(Gm);vp("bypass",Wm),ap("BypassNode",Gm);class jm extends op{constructor(t,e=!0){super(),this.node=t,this.parent=e,this.isCacheNode=!0}getNodeType(t){return this.node.getNodeType(t)}build(t,...e){const s=t.getCache(),i=t.getCacheFromNode(this,parent);t.setCache(i);const r=this.node.build(t,...e);return t.setCache(s),r}}const Hm=(t,...e)=>qp(new jm(qp(t),...e));vp("cache",Hm),ap("CacheNode",jm);class qm extends op{constructor(t,e={}){super(),this.isContextNode=!0,this.node=t,this.context=e}getNodeType(t){return this.node.getNodeType(t)}analyze(t){this.node.build(t)}setup(t){const e=t.getContext();t.setContext({...t.context,...this.context});const s=this.node.build(t);return t.setContext(e),s}generate(t,e){const s=t.getContext();t.setContext({...t.context,...this.context});const i=this.node.build(t,e);return t.setContext(s),i}}const $m=Yp(qm),Xm=(t,e)=>$m(t,{label:e});vp("context",$m),vp("label",Xm),ap("ContextNode",qm);class Ym extends op{constructor(t){super("uint"),this.scope=t,this.isInstanceIndexNode=!0}generate(t){const e=this.getNodeType(t),s=this.scope;let i,r;if(s===Ym.VERTEX)i=t.getVertexIndex();else if(s===Ym.INSTANCE)i=t.getInstanceIndex();else{if(s!==Ym.DRAW)throw new Error("THREE.IndexNode: Unknown scope: "+s);i=t.getDrawIndex()}if("vertex"===t.shaderStage||"compute"===t.shaderStage)r=i;else{r=Vm(this).build(t,e)}return r}}Ym.VERTEX="vertex",Ym.INSTANCE="instance",Ym.DRAW="draw";const Jm=Jp(Ym,Ym.VERTEX),Zm=Jp(Ym,Ym.INSTANCE),Qm=Jp(Ym,Ym.DRAW);ap("IndexNode",Ym);class Km{start(){}finish(){}direct(){}directRectArea(){}indirectDiffuse(){}indirectSpecular(){}ambientOcclusion(){}}class tg extends op{constructor(t,e=null){super(),this.node=t,this.name=e,this.global=!0,this.isVarNode=!0}getHash(t){return this.name||super.getHash(t)}getNodeType(t){return this.node.getNodeType(t)}generate(t){const{node:e,name:s}=this,i=t.getVarFromNode(this,s,t.getVectorType(this.getNodeType(t))),r=t.getPropertyName(i),n=e.build(t,i.type);return t.addLineFlowCode(`${r} = ${n}`),r}}const eg=Yp(tg);vp("temp",eg),vp("toVar",((...t)=>eg(...t).append())),ap("VarNode",tg);class sg{constructor(t,e,s=null){this.isNodeAttribute=!0,this.name=t,this.type=e,this.node=s}}class ig{constructor(t,e,s){this.isNodeUniform=!0,this.name=t,this.type=e,this.node=s.getSelf()}get value(){return this.node.value}set value(t){this.node.value=t}get id(){return this.node.id}get groupNode(){return this.node.groupNode}}class rg{constructor(t,e){this.isNodeVar=!0,this.name=t,this.type=e}}class ng extends rg{constructor(t,e){super(t,e),this.needsInterpolation=!1,this.isNodeVarying=!0}}class og{constructor(t,e,s=""){this.name=t,this.type=e,this.code=s,Object.defineProperty(this,"isNodeCode",{value:!0})}}class ag{constructor(){this.keywords=[],this.nodes={},this.keywordsCallback={}}getNode(t){let e=this.nodes[t];return void 0===e&&void 0!==this.keywordsCallback[t]&&(e=this.keywordsCallback[t](t),this.nodes[t]=e),e}addKeyword(t,e){return this.keywords.push(t),this.keywordsCallback[t]=e,this}parse(t){const e=this.keywords,s=new RegExp(`\\b${e.join("\\b|\\b")}\\b`,"g"),i=t.match(s),r=[];if(null!==i)for(const t of i){const e=this.getNode(t);void 0!==e&&-1===r.indexOf(e)&&r.push(e)}return r}include(t,e){const s=this.parse(e);for(const e of s)e.build(t)}}let hg=0;class lg{constructor(t=null){this.id=hg++,this.nodesData=new WeakMap,this.parent=t}getData(t){let e=this.nodesData.get(t);return void 0===e&&null!==this.parent&&(e=this.parent.getData(t)),e}setData(t,e){this.nodesData.set(t,e)}}class ug extends op{constructor(t,e=null,s=!1){super(t),this.name=e,this.varying=s,this.isPropertyNode=!0}getHash(t){return this.name||super.getHash(t)}isGlobal(){return!0}generate(t){let e;return!0===this.varying?(e=t.getVaryingFromNode(this,this.name),e.needsInterpolation=!0):e=t.getVarFromNode(this,this.name),t.getPropertyName(e)}}const cg=(t,e)=>qp(new ug(t,e)),dg=(t,e)=>qp(new ug(t,e,!0)),pg=Jp(ug,"vec4","DiffuseColor"),mg=Jp(ug,"float","Roughness"),gg=Jp(ug,"float","Metalness"),fg=Jp(ug,"float","Clearcoat"),yg=Jp(ug,"float","ClearcoatRoughness"),xg=Jp(ug,"vec3","Sheen"),bg=Jp(ug,"float","SheenRoughness"),vg=Jp(ug,"float","Iridescence"),Tg=Jp(ug,"float","IridescenceIOR"),_g=Jp(ug,"float","IridescenceThickness"),wg=Jp(ug,"float","AlphaT"),Sg=Jp(ug,"float","Anisotropy"),Mg=Jp(ug,"vec3","AnisotropyT"),Ag=Jp(ug,"vec3","AnisotropyB"),Ng=Jp(ug,"color","SpecularColor"),Rg=Jp(ug,"float","SpecularF90"),Cg=Jp(ug,"float","Shininess"),Eg=Jp(ug,"vec4","Output"),Bg=Jp(ug,"float","dashSize"),Ig=Jp(ug,"float","gapSize"),Pg=Jp(ug,"float","pointWidth"),Fg=Jp(ug,"float","IOR"),Ug=Jp(ug,"float","Transmission"),Og=Jp(ug,"float","Thickness"),zg=Jp(ug,"float","AttenuationDistance"),Lg=Jp(ug,"color","AttenuationColor"),Vg=Jp(ug,"float","Dispersion");ap("PropertyNode",ug);class Dg extends ug{constructor(t,e=null){super(t,e),this.isParameterNode=!0}getHash(){return this.uuid}generate(){return this.name}}const kg=(t,e)=>qp(new Dg(t,e));ap("ParameterNode",Dg);class Gg extends op{constructor(t="",e=[],s=""){super("code"),this.isCodeNode=!0,this.code=t,this.language=s,this.includes=e}isGlobal(){return!0}setIncludes(t){return this.includes=t,this}getIncludes(){return this.includes}generate(t){const e=this.getIncludes(t);for(const s of e)s.build(t);const s=t.getCodeFromNode(this,this.getNodeType(t));return s.code=this.code,s.code}serialize(t){super.serialize(t),t.code=this.code,t.language=this.language}deserialize(t){super.deserialize(t),this.code=t.code,this.language=t.language}}const Wg=Yp(Gg),jg=(t,e)=>Wg(t,e,"js"),Hg=(t,e)=>Wg(t,e,"wgsl"),qg=(t,e)=>Wg(t,e,"glsl");ap("CodeNode",Gg);class $g extends Gg{constructor(t="",e=[],s=""){super(t,e,s),this.keywords={}}getNodeType(t){return this.getNodeFunction(t).type}getInputs(t){return this.getNodeFunction(t).inputs}getNodeFunction(t){const e=t.getDataFromNode(this);let s=e.nodeFunction;return void 0===s&&(s=t.parser.parseFunction(this.code),e.nodeFunction=s),s}generate(t,e){super.generate(t);const s=this.getNodeFunction(t),i=s.name,r=s.type,n=t.getCodeFromNode(this,r);""!==i&&(n.name=i);const o=t.getPropertyName(n);let a=this.getNodeFunction(t).getCode(o);const h=this.keywords,l=Object.keys(h);if(l.length>0)for(const e of l){const s=new RegExp(`\\b${e}\\b`,"g"),i=h[e].build(t,"property");a=a.replace(s,i)}return n.code=a+"\n","property"===e?o:t.format(`${o}()`,r,e)}}const Xg=(t,e=[],s="")=>{for(let t=0;ti.call(...t);return r.functionNode=i,r},Yg=(t,e)=>Xg(t,e,"glsl"),Jg=(t,e)=>Xg(t,e,"wgsl");ap("FunctionNode",$g);class Zg extends op{constructor(t,e=!1){super("string"),this.name=t,this.version=0,this.shared=e,this.isUniformGroup=!0}set needsUpdate(t){!0===t&&this.version++}}const Qg=t=>new Zg(t),Kg=t=>new Zg(t,!0),tf=Kg("frame"),ef=Kg("render"),sf=Qg("object");ap("UniformGroupNode",Zg);class rf extends fp{constructor(t,e=null){super(t,e),this.isUniformNode=!0,this.name="",this.groupNode=sf}label(t){return this.name=t,this}setGroup(t){return this.groupNode=t,this}getGroup(){return this.groupNode}getUniformHash(t){return this.getHash(t)}onUpdate(t,e){const s=this.getSelf();return t=t.bind(s),super.onUpdate((e=>{const i=t(e,s);void 0!==i&&(this.value=i)}),e)}generate(t,e){const s=this.getNodeType(t),i=this.getUniformHash(t);let r=t.getNodeFromHash(i);void 0===r&&(t.setHashNode(this,i),r=this);const n=r.getInputType(t),o=t.getUniformFromNode(r,n,t.shaderStage,this.name||t.context.label),a=t.getPropertyName(o);return void 0!==t.context.label&&delete t.context.label,t.format(a,s,e)}}const nf=(t,e)=>{const s=jp(e||t),i=t&&!0===t.isNode?t.node&&t.node.value||t.value:t;return qp(new rf(i,s))};ap("UniformNode",rf);const of=t=>km("uv"+(t>0?t:""),"vec2");class af extends op{constructor(t,e=null){super("uvec2"),this.isTextureSizeNode=!0,this.textureNode=t,this.levelNode=e}generate(t,e){const s=this.textureNode.build(t,"property"),i=this.levelNode.build(t,"int");return t.format(`${t.getMethod("textureDimensions")}( ${s}, ${i} )`,this.getNodeType(t),e)}}const hf=Yp(af);vp("textureSize",hf),ap("TextureSizeNode",af);class lf extends lp{constructor(t,e,s,...i){if(super(),i.length>0){let r=new lf(t,e,s);for(let e=0;e>"===s||"<<"===s)return t.getIntegerType(n);if("!"===s||"=="===s||"&&"===s||"||"===s||"^^"===s)return"bool";if("<"===s||">"===s||"<="===s||">="===s){const s=e?t.getTypeLength(e):Math.max(t.getTypeLength(n),t.getTypeLength(o));return s>1?`bvec${s}`:"bool"}return"float"===n&&t.isMatrix(o)?o:t.isMatrix(n)&&t.isVector(o)?t.getVectorFromMatrix(n):t.isVector(n)&&t.isMatrix(o)?t.getVectorFromMatrix(o):t.getTypeLength(o)>t.getTypeLength(n)?o:n}generate(t,e){const s=this.op,i=this.aNode,r=this.bNode,n=this.getNodeType(t,e);let o=null,a=null;"void"!==n?(o=i.getNodeType(t),a=void 0!==r?r.getNodeType(t):null,"<"===s||">"===s||"<="===s||">="===s||"=="===s?t.isVector(o)?a=o:o=a="float":">>"===s||"<<"===s?(o=n,a=t.changeComponentType(a,"uint")):t.isMatrix(o)&&t.isVector(a)?a=t.getVectorFromMatrix(o):o=t.isVector(o)&&t.isMatrix(a)?t.getVectorFromMatrix(a):a=n):o=a=n;const h=i.build(t,o),l=void 0!==r?r.build(t,a):null,u=t.getTypeLength(e),c=t.getFunctionOperator(s);return"void"!==e?"<"===s&&u>1?t.format(`${t.getMethod("lessThan")}( ${h}, ${l} )`,n,e):"<="===s&&u>1?t.format(`${t.getMethod("lessThanEqual")}( ${h}, ${l} )`,n,e):">"===s&&u>1?t.format(`${t.getMethod("greaterThan")}( ${h}, ${l} )`,n,e):">="===s&&u>1?t.format(`${t.getMethod("greaterThanEqual")}( ${h}, ${l} )`,n,e):"!"===s||"~"===s?t.format(`(${s}${h})`,o,e):c?t.format(`${c}( ${h}, ${l} )`,n,e):t.format(`( ${h} ${s} ${l} )`,n,e):"void"!==o?c?t.format(`${c}( ${h}, ${l} )`,n,e):t.format(`${h} ${s} ${l}`,n,e):void 0}serialize(t){super.serialize(t),t.op=this.op}deserialize(t){super.deserialize(t),this.op=t.op}}const uf=Yp(lf,"+"),cf=Yp(lf,"-"),df=Yp(lf,"*"),pf=Yp(lf,"/"),mf=Yp(lf,"%"),gf=Yp(lf,"=="),ff=Yp(lf,"!="),yf=Yp(lf,"<"),xf=Yp(lf,">"),bf=Yp(lf,"<="),vf=Yp(lf,">="),Tf=Yp(lf,"&&"),_f=Yp(lf,"||"),wf=Yp(lf,"!"),Sf=Yp(lf,"^^"),Mf=Yp(lf,"&"),Af=Yp(lf,"~"),Nf=Yp(lf,"|"),Rf=Yp(lf,"^"),Cf=Yp(lf,"<<"),Ef=Yp(lf,">>");vp("add",uf),vp("sub",cf),vp("mul",df),vp("div",pf),vp("remainder",mf),vp("equal",gf),vp("notEqual",ff),vp("lessThan",yf),vp("greaterThan",xf),vp("lessThanEqual",bf),vp("greaterThanEqual",vf),vp("and",Tf),vp("or",_f),vp("not",wf),vp("xor",Sf),vp("bitAnd",Mf),vp("bitNot",Af),vp("bitOr",Nf),vp("bitXor",Rf),vp("shiftLeft",Cf),vp("shiftRight",Ef),ap("OperatorNode",lf);class Bf extends lp{constructor(t,e,s=null,i=null){super(),this.method=t,this.aNode=e,this.bNode=s,this.cNode=i}getInputType(t){const e=this.aNode.getNodeType(t),s=this.bNode?this.bNode.getNodeType(t):null,i=this.cNode?this.cNode.getNodeType(t):null,r=t.isMatrix(e)?0:t.getTypeLength(e),n=t.isMatrix(s)?0:t.getTypeLength(s),o=t.isMatrix(i)?0:t.getTypeLength(i);return r>n&&r>o?e:n>o?s:o>r?i:e}getNodeType(t){const e=this.method;return e===Bf.LENGTH||e===Bf.DISTANCE||e===Bf.DOT?"float":e===Bf.CROSS?"vec3":e===Bf.ALL?"bool":e===Bf.EQUALS?t.changeComponentType(this.aNode.getNodeType(t),"bool"):e===Bf.MOD?this.aNode.getNodeType(t):this.getInputType(t)}generate(t,e){const s=this.method,i=this.getNodeType(t),r=this.getInputType(t),n=this.aNode,o=this.bNode,a=this.cNode,h=!0===t.renderer.isWebGLRenderer;if(s===Bf.TRANSFORM_DIRECTION){let s=n,i=o;t.isMatrix(s.getNodeType(t))?i=gm(cm(i),0):s=gm(cm(s),0);const r=df(s,i).xyz;return Yf(r).build(t,e)}if(s===Bf.NEGATE)return t.format("( - "+n.build(t,r)+" )",i,e);if(s===Bf.ONE_MINUS)return cf(1,n).build(t,e);if(s===Bf.RECIPROCAL)return pf(1,n).build(t,e);if(s===Bf.DIFFERENCE)return iy(cf(n,o)).build(t,e);{const l=[];return s===Bf.CROSS||s===Bf.MOD?l.push(n.build(t,i),o.build(t,i)):s===Bf.STEP?l.push(n.build(t,1===t.getTypeLength(n.getNodeType(t))?"float":r),o.build(t,r)):h&&(s===Bf.MIN||s===Bf.MAX)||s===Bf.MOD?l.push(n.build(t,r),o.build(t,1===t.getTypeLength(o.getNodeType(t))?"float":r)):s===Bf.REFRACT?l.push(n.build(t,r),o.build(t,r),a.build(t,"float")):s===Bf.MIX?l.push(n.build(t,r),o.build(t,r),a.build(t,1===t.getTypeLength(a.getNodeType(t))?"float":r)):(l.push(n.build(t,r)),null!==o&&l.push(o.build(t,r)),null!==a&&l.push(a.build(t,r))),t.format(`${t.getMethod(s,i)}( ${l.join(", ")} )`,i,e)}}serialize(t){super.serialize(t),t.method=this.method}deserialize(t){super.deserialize(t),this.method=t.method}}Bf.ALL="all",Bf.ANY="any",Bf.EQUALS="equals",Bf.RADIANS="radians",Bf.DEGREES="degrees",Bf.EXP="exp",Bf.EXP2="exp2",Bf.LOG="log",Bf.LOG2="log2",Bf.SQRT="sqrt",Bf.INVERSE_SQRT="inversesqrt",Bf.FLOOR="floor",Bf.CEIL="ceil",Bf.NORMALIZE="normalize",Bf.FRACT="fract",Bf.SIN="sin",Bf.COS="cos",Bf.TAN="tan",Bf.ASIN="asin",Bf.ACOS="acos",Bf.ATAN="atan",Bf.ABS="abs",Bf.SIGN="sign",Bf.LENGTH="length",Bf.NEGATE="negate",Bf.ONE_MINUS="oneMinus",Bf.DFDX="dFdx",Bf.DFDY="dFdy",Bf.ROUND="round",Bf.RECIPROCAL="reciprocal",Bf.TRUNC="trunc",Bf.FWIDTH="fwidth",Bf.BITCAST="bitcast",Bf.TRANSPOSE="transpose",Bf.ATAN2="atan2",Bf.MIN="min",Bf.MAX="max",Bf.MOD="mod",Bf.STEP="step",Bf.REFLECT="reflect",Bf.DISTANCE="distance",Bf.DIFFERENCE="difference",Bf.DOT="dot",Bf.CROSS="cross",Bf.POW="pow",Bf.TRANSFORM_DIRECTION="transformDirection",Bf.MIX="mix",Bf.CLAMP="clamp",Bf.REFRACT="refract",Bf.SMOOTHSTEP="smoothstep",Bf.FACEFORWARD="faceforward";const If=im(1e-6),Pf=im(1e6),Ff=im(Math.PI),Uf=im(2*Math.PI),Of=Yp(Bf,Bf.ALL),zf=Yp(Bf,Bf.ANY),Lf=Yp(Bf,Bf.EQUALS),Vf=Yp(Bf,Bf.RADIANS),Df=Yp(Bf,Bf.DEGREES),kf=Yp(Bf,Bf.EXP),Gf=Yp(Bf,Bf.EXP2),Wf=Yp(Bf,Bf.LOG),jf=Yp(Bf,Bf.LOG2),Hf=Yp(Bf,Bf.SQRT),qf=Yp(Bf,Bf.INVERSE_SQRT),$f=Yp(Bf,Bf.FLOOR),Xf=Yp(Bf,Bf.CEIL),Yf=Yp(Bf,Bf.NORMALIZE),Jf=Yp(Bf,Bf.FRACT),Zf=Yp(Bf,Bf.SIN),Qf=Yp(Bf,Bf.COS),Kf=Yp(Bf,Bf.TAN),ty=Yp(Bf,Bf.ASIN),ey=Yp(Bf,Bf.ACOS),sy=Yp(Bf,Bf.ATAN),iy=Yp(Bf,Bf.ABS),ry=Yp(Bf,Bf.SIGN),ny=Yp(Bf,Bf.LENGTH),oy=Yp(Bf,Bf.NEGATE),ay=Yp(Bf,Bf.ONE_MINUS),hy=Yp(Bf,Bf.DFDX),ly=Yp(Bf,Bf.DFDY),uy=Yp(Bf,Bf.ROUND),cy=Yp(Bf,Bf.RECIPROCAL),dy=Yp(Bf,Bf.TRUNC),py=Yp(Bf,Bf.FWIDTH),my=Yp(Bf,Bf.BITCAST),gy=Yp(Bf,Bf.TRANSPOSE),fy=Yp(Bf,Bf.ATAN2),yy=Yp(Bf,Bf.MIN),xy=Yp(Bf,Bf.MAX),by=Yp(Bf,Bf.MOD),vy=Yp(Bf,Bf.STEP),Ty=Yp(Bf,Bf.REFLECT),_y=Yp(Bf,Bf.DISTANCE),wy=Yp(Bf,Bf.DIFFERENCE),Sy=Yp(Bf,Bf.DOT),My=Yp(Bf,Bf.CROSS),Ay=Yp(Bf,Bf.POW),Ny=Yp(Bf,Bf.POW,2),Ry=Yp(Bf,Bf.POW,3),Cy=Yp(Bf,Bf.POW,4),Ey=Yp(Bf,Bf.TRANSFORM_DIRECTION),By=t=>df(ry(t),Ay(iy(t),1/3)),Iy=t=>Sy(t,t),Py=Yp(Bf,Bf.MIX),Fy=(t,e=0,s=1)=>qp(new Bf(Bf.CLAMP,qp(t),qp(e),qp(s))),Uy=t=>Fy(t),Oy=Yp(Bf,Bf.REFRACT),zy=Yp(Bf,Bf.SMOOTHSTEP),Ly=Yp(Bf,Bf.FACEFORWARD);vp("all",Of),vp("any",zf),vp("equals",Lf),vp("radians",Vf),vp("degrees",Df),vp("exp",kf),vp("exp2",Gf),vp("log",Wf),vp("log2",jf),vp("sqrt",Hf),vp("inverseSqrt",qf),vp("floor",$f),vp("ceil",Xf),vp("normalize",Yf),vp("fract",Jf),vp("sin",Zf),vp("cos",Qf),vp("tan",Kf),vp("asin",ty),vp("acos",ey),vp("atan",sy),vp("abs",iy),vp("sign",ry),vp("length",ny),vp("lengthSq",Iy),vp("negate",oy),vp("oneMinus",ay),vp("dFdx",hy),vp("dFdy",ly),vp("round",uy),vp("reciprocal",cy),vp("trunc",dy),vp("fwidth",py),vp("atan2",fy),vp("min",yy),vp("max",xy),vp("mod",by),vp("step",vy),vp("reflect",Ty),vp("distance",_y),vp("dot",Sy),vp("cross",My),vp("pow",Ay),vp("pow2",Ny),vp("pow3",Ry),vp("pow4",Cy),vp("transformDirection",Ey),vp("mix",((t,e,s)=>Py(e,s,t))),vp("clamp",Fy),vp("refract",Oy),vp("smoothstep",((t,e,s)=>zy(e,s,t))),vp("faceForward",Ly),vp("difference",wy),vp("saturate",Uy),vp("cbrt",By),vp("transpose",gy),ap("MathNode",Bf);const Vy=Zp((t=>{const{value:e}=t,{rgb:s}=e,i=s.mul(.9478672986).add(.0521327014).pow(2.4),r=s.mul(.0773993808),n=s.lessThanEqual(.04045),o=Py(i,r,n);return gm(o,e.a)})),Dy=Zp((t=>{const{value:e}=t,{rgb:s}=e,i=s.pow(.41666).mul(1.055).sub(.055),r=s.mul(12.92),n=s.lessThanEqual(.0031308),o=Py(i,r,n);return gm(o,e.a)})),ky=t=>{let e=null;return t===Ye?e="Linear":t===Xe&&(e="sRGB"),e},Gy=(t,e)=>ky(t)+"To"+ky(e);class Wy extends lp{constructor(t,e){super("vec4"),this.method=t,this.node=e}setup(){const{method:t,node:e}=this;return t===Wy.LINEAR_TO_LINEAR?e:jy[t]({value:e})}}Wy.LINEAR_TO_LINEAR="LinearToLinear",Wy.LINEAR_TO_sRGB="LinearTosRGB",Wy.sRGB_TO_LINEAR="sRGBToLinear";const jy={[Wy.LINEAR_TO_sRGB]:Dy,[Wy.sRGB_TO_LINEAR]:Vy},Hy=(t,e)=>qp(new Wy(Gy(Ye,e),qp(t))),qy=(t,e)=>qp(new Wy(Gy(e,Ye),qp(t))),$y=Yp(Wy,Wy.LINEAR_TO_sRGB),Xy=Yp(Wy,Wy.sRGB_TO_LINEAR);vp("linearTosRGB",$y),vp("sRGBToLinear",Xy),vp("linearToColorSpace",Hy),vp("colorSpaceToLinear",qy),ap("ColorSpaceNode",Wy);class Yy extends op{constructor(t="",e="void"){super(e),this.snippet=t}generate(t,e){const s=this.getNodeType(t),i=this.snippet;if("void"!==s)return t.format(`( ${i} )`,s,e);t.addLineFlowCode(i)}}const Jy=Yp(Yy);ap("ExpressionNode",Yy);class Zy extends rf{constructor(t){super(0),this.textureNode=t,this.updateType=Hd.FRAME}get texture(){return this.textureNode.value}update(){const t=this.texture,e=t.images,s=e&&e.length>0?e[0]&&e[0].image||e[0]:t.image;if(s&&void 0!==s.width){const{width:t,height:e}=s;this.value=Math.log2(Math.max(t,e))}}}const Qy=Yp(Zy);ap("MaxMipLevelNode",Zy);class Ky extends rf{constructor(t,e=null,s=null){super(t),this.isTextureNode=!0,this.uvNode=e,this.levelNode=s,this.compareNode=null,this.depthNode=null,this.gradNode=null,this.sampler=!0,this.updateMatrix=!1,this.updateType=Hd.NONE,this.referenceNode=null,this._value=t,this.setUpdateMatrix(null===e)}set value(t){this.referenceNode?this.referenceNode.value=t:this._value=t}get value(){return this.referenceNode?this.referenceNode.value:this._value}getUniformHash(){return this.value.uuid}getNodeType(){return!0===this.value.isDepthTexture?"float":this.value.type===Bt?"uvec4":this.value.type===Et?"ivec4":"vec4"}getInputType(){return"texture"}getDefaultUV(){return of(this.value.channel)}updateReference(){return this.value}getTransformedUV(t){const e=this.value;return nf(e.matrix).mul(cm(t,1)).xy}setUpdateMatrix(t){return this.updateMatrix=t,this.updateType=t?Hd.FRAME:Hd.NONE,this}setupUV(t,e){const s=this.value;return!t.isFlipY()||!0!==s.isRenderTargetTexture&&!0!==s.isFramebufferTexture&&!0!==s.isDepthTexture||(e=e.setY(e.y.oneMinus())),e}setup(t){const e=t.getNodeProperties(this);let s=this.uvNode;null!==s&&!0!==t.context.forceUVContext||!t.context.getUV||(s=t.context.getUV(this)),s||(s=this.getDefaultUV()),!0===this.updateMatrix&&(s=this.getTransformedUV(s)),s=this.setupUV(t,s);let i=this.levelNode;null===i&&t.context.getTextureLevel&&(i=t.context.getTextureLevel(this)),e.uvNode=s,e.levelNode=i,e.compareNode=this.compareNode,e.gradNode=this.gradNode,e.depthNode=this.depthNode}generateUV(t,e){return e.build(t,!0===this.sampler?"vec2":"ivec2")}generateSnippet(t,e,s,i,r,n,o){const a=this.value;let h;return h=i?t.generateTextureLevel(a,e,s,i,r):o?t.generateTextureGrad(a,e,s,o,r):n?t.generateTextureCompare(a,e,s,n,r):!1===this.sampler?t.generateTextureLoad(a,e,s,r):t.generateTexture(a,e,s,r),h}generate(t,e){const s=t.getNodeProperties(this),i=this.value;if(!i||!0!==i.isTexture)throw new Error("TextureNode: Need a three.js texture.");const r=super.generate(t,"property");if("sampler"===e)return r+"_sampler";if(t.isReference(e))return r;{const n=t.getDataFromNode(this);let o=n.propertyName;if(void 0===o){const{uvNode:e,levelNode:i,compareNode:a,depthNode:h,gradNode:l}=s,u=this.generateUV(t,e),c=i?i.build(t,"float"):null,d=h?h.build(t,"int"):null,p=a?a.build(t,"float"):null,m=l?[l[0].build(t,"vec2"),l[1].build(t,"vec2")]:null,g=t.getVarFromNode(this);o=t.getPropertyName(g);const f=this.generateSnippet(t,r,u,c,d,p,m);t.addLineFlowCode(`${o} = ${f}`),n.snippet=f,n.propertyName=o}let a=o;const h=this.getNodeType(t);return t.needsColorSpaceToLinear(i)&&(a=qy(Jy(a,h),i.colorSpace).setup(t).build(t,h)),t.format(a,h,e)}}setSampler(t){return this.sampler=t,this}getSampler(){return this.sampler}uv(t){const e=this.clone();return e.uvNode=t,e.referenceNode=this,qp(e)}blur(t){const e=this.clone();return e.levelNode=t.mul(Qy(e)),e.referenceNode=this,qp(e)}level(t){const e=this.clone();return e.levelNode=t,e.referenceNode=this,e}size(t){return hf(this,t)}compare(t){const e=this.clone();return e.compareNode=qp(t),e.referenceNode=this,qp(e)}grad(t,e){const s=this.clone();return s.gradNode=[qp(t),qp(e)],s.referenceNode=this,qp(s)}depth(t){const e=this.clone();return e.depthNode=qp(t),e.referenceNode=this,qp(e)}serialize(t){super.serialize(t),t.value=this.value.toJSON(t.meta).uuid}deserialize(t){super.deserialize(t),this.value=t.meta.textures[t.value]}update(){const t=this.value;!0===t.matrixAutoUpdate&&t.updateMatrix()}clone(){const t=new this.constructor(this.value,this.uvNode,this.levelNode);return t.sampler=this.sampler,t}}const tx=Yp(Ky),ex=(...t)=>tx(...t).setSampler(!1),sx=t=>(!0===t.isNode?t:tx(t)).convert("sampler");vp("texture",tx),ap("TextureNode",Ky);class ix extends rf{constructor(t,e,s=0){super(t,e),this.isBufferNode=!0,this.bufferType=e,this.bufferCount=s}getElementType(t){return this.getNodeType(t)}getInputType(){return"buffer"}}const rx=(t,e,s)=>qp(new ix(t,e,s));ap("BufferNode",ix);class nx extends up{constructor(t,e){super(t,e),this.isArrayBufferElementNode=!0}getNodeType(t){return this.node.getElementType(t)}generate(t){const e=super.generate(t),s=this.getNodeType();return t.format(e,"vec4",s)}}class ox extends ix{constructor(t,e=null){super(null,"vec4"),this.array=t,this.elementType=e,this._elementType=null,this._elementLength=0,this.updateType=Hd.RENDER,this.isArrayBufferNode=!0}getElementType(){return this.elementType||this._elementType}getElementLength(){return this._elementLength}update(){const{array:t,value:e}=this,s=this.getElementLength(),i=this.getElementType();if(1===s)for(let s=0;sqp(new ox(t,e));ap("UniformsNode",ox);class hx extends up{constructor(t,e){super(t,e),this.referenceNode=t,this.isReferenceElementNode=!0}getNodeType(){return this.referenceNode.uniformType}generate(t){const e=super.generate(t),s=this.referenceNode.getNodeType(),i=this.getNodeType();return t.format(e,s,i)}}class lx extends op{constructor(t,e,s=null,i=null){super(),this.property=t,this.uniformType=e,this.object=s,this.count=i,this.properties=t.split("."),this.reference=null,this.node=null,this.updateType=Hd.OBJECT}element(t){return qp(new hx(this,qp(t)))}setNodeType(t){let e=null;e=null!==this.count?rx(null,t,this.count):Array.isArray(this.getValueFromReference())?ax(null,t):"texture"===t?tx(null):nf(null,t),this.node=e}getNodeType(t){return null===this.node&&this.updateValue(),this.node.getNodeType(t)}getValueFromReference(t=this.reference){const{properties:e}=this;let s=t[e[0]];for(let t=1;tqp(new lx(t,e,s)),cx=(t,e,s,i)=>qp(new lx(t,e,i,s));ap("ReferenceNode",lx);class dx extends lx{constructor(t,e,s=null){super(t,e,s),this.material=s}updateReference(t){return this.reference=null!==this.material?this.material:t.material,this.reference}}const px=(t,e,s)=>qp(new dx(t,e,s));ap("MaterialReferenceNode",dx);const mx=Kg("camera").onRenderUpdate((()=>{mx.needsUpdate=!0})),gx=nf("float").label("cameraNear").setGroup(mx).onRenderUpdate((({camera:t})=>t.near)),fx=nf("float").label("cameraFar").setGroup(mx).onRenderUpdate((({camera:t})=>t.far)),yx=nf("float").label("cameraLogDepth").setGroup(mx).onRenderUpdate((({camera:t})=>2/(Math.log(t.far+1)/Math.LN2))),xx=nf("mat4").label("cameraProjectionMatrix").setGroup(mx).onRenderUpdate((({camera:t})=>t.projectionMatrix)),bx=nf("mat4").label("cameraProjectionMatrixInverse").setGroup(mx).onRenderUpdate((({camera:t})=>t.projectionMatrixInverse)),vx=nf("mat4").label("cameraViewMatrix").setGroup(mx).onRenderUpdate((({camera:t})=>t.matrixWorldInverse)),Tx=nf("mat4").label("cameraWorldMatrix").setGroup(mx).onRenderUpdate((({camera:t})=>t.matrixWorld)),_x=nf("mat3").label("cameraNormalMatrix").setGroup(mx).onRenderUpdate((({camera:t})=>t.normalMatrix)),wx=nf(new Ri).label("cameraPosition").setGroup(mx).onRenderUpdate((({camera:t},e)=>e.value.setFromMatrixPosition(t.matrixWorld)));class Sx extends op{constructor(t=Sx.VIEW_MATRIX,e=null){super(),this.scope=t,this.object3d=e,this.updateType=Hd.OBJECT,this._uniformNode=new rf(null)}getNodeType(){const t=this.scope;return t===Sx.WORLD_MATRIX||t===Sx.VIEW_MATRIX?"mat4":t===Sx.NORMAL_MATRIX?"mat3":t===Sx.POSITION||t===Sx.VIEW_POSITION||t===Sx.DIRECTION||t===Sx.SCALE?"vec3":void 0}update(t){const e=this.object3d,s=this._uniformNode,i=this.scope;if(i===Sx.VIEW_MATRIX)s.value=e.modelViewMatrix;else if(i===Sx.NORMAL_MATRIX)s.value=e.normalMatrix;else if(i===Sx.WORLD_MATRIX)s.value=e.matrixWorld;else if(i===Sx.POSITION)s.value=s.value||new Ri,s.value.setFromMatrixPosition(e.matrixWorld);else if(i===Sx.SCALE)s.value=s.value||new Ri,s.value.setFromMatrixScale(e.matrixWorld);else if(i===Sx.DIRECTION)s.value=s.value||new Ri,e.getWorldDirection(s.value);else if(i===Sx.VIEW_POSITION){const i=t.camera;s.value=s.value||new Ri,s.value.setFromMatrixPosition(e.matrixWorld),s.value.applyMatrix4(i.matrixWorldInverse)}}generate(t){const e=this.scope;return e===Sx.WORLD_MATRIX||e===Sx.VIEW_MATRIX?this._uniformNode.nodeType="mat4":e===Sx.NORMAL_MATRIX?this._uniformNode.nodeType="mat3":e!==Sx.POSITION&&e!==Sx.VIEW_POSITION&&e!==Sx.DIRECTION&&e!==Sx.SCALE||(this._uniformNode.nodeType="vec3"),this._uniformNode.build(t)}serialize(t){super.serialize(t),t.scope=this.scope}deserialize(t){super.deserialize(t),this.scope=t.scope}}Sx.VIEW_MATRIX="viewMatrix",Sx.NORMAL_MATRIX="normalMatrix",Sx.WORLD_MATRIX="worldMatrix",Sx.POSITION="position",Sx.SCALE="scale",Sx.VIEW_POSITION="viewPosition",Sx.DIRECTION="direction";const Mx=Yp(Sx,Sx.DIRECTION),Ax=Yp(Sx,Sx.VIEW_MATRIX),Nx=Yp(Sx,Sx.NORMAL_MATRIX),Rx=Yp(Sx,Sx.WORLD_MATRIX),Cx=Yp(Sx,Sx.POSITION),Ex=Yp(Sx,Sx.SCALE),Bx=Yp(Sx,Sx.VIEW_POSITION);ap("Object3DNode",Sx);class Ix extends Sx{constructor(t=Ix.VIEW_MATRIX){super(t)}update(t){this.object3d=t.object,super.update(t)}}const Px=Jp(Ix,Ix.DIRECTION),Fx=Jp(Ix,Ix.VIEW_MATRIX).label("modelViewMatrix").temp("ModelViewMatrix"),Ux=Jp(Ix,Ix.NORMAL_MATRIX),Ox=Jp(Ix,Ix.WORLD_MATRIX),zx=Jp(Ix,Ix.POSITION),Lx=Jp(Ix,Ix.SCALE),Vx=Jp(Ix,Ix.VIEW_POSITION),Dx=nf(new rr).onObjectUpdate((({object:t},e)=>e.value.copy(t.matrixWorld).invert()));ap("ModelNode",Ix);const kx=km("normal","vec3",cm(0,1,0)),Gx=kx.toVar("normalLocal"),Wx=Vm(Ux.mul(Gx),"v_normalView").normalize().toVar("normalView"),jx=Vm(Wx.transformDirection(vx),"v_normalWorld").normalize().toVar("transformedNormalWorld"),Hx=cg("vec3","transformedNormalView"),qx=Hx.transformDirection(vx).normalize().toVar("transformedNormalWorld"),$x=cg("vec3","transformedClearcoatNormalView"),Xx=new Map;class Yx extends op{constructor(t){super(),this.scope=t}getCache(t,e){let s=Xx.get(t);return void 0===s&&(s=px(t,e),Xx.set(t,s)),s}getFloat(t){return this.getCache(t,"float")}getColor(t){return this.getCache(t,"color")}getTexture(t){return this.getCache("map"===t?"map":t+"Map","texture")}setup(t){const e=t.context.material,s=this.scope;let i=null;if(s===Yx.COLOR){const t=this.getColor(s);i=e.map&&!0===e.map.isTexture?t.mul(this.getTexture("map")):t}else if(s===Yx.OPACITY){const t=this.getFloat(s);i=e.alphaMap&&!0===e.alphaMap.isTexture?t.mul(this.getTexture("alpha")):t}else if(s===Yx.SPECULAR_STRENGTH)i=e.specularMap&&!0===e.specularMap.isTexture?this.getTexture("specular").r:im(1);else if(s===Yx.SPECULAR_INTENSITY){const t=this.getFloat(s);i=e.specularMap?t.mul(this.getTexture(s).a):t}else if(s===Yx.SPECULAR_COLOR){const t=this.getColor(s);i=e.specularColorMap&&!0===e.specularColorMap.isTexture?t.mul(this.getTexture(s).rgb):t}else if(s===Yx.ROUGHNESS){const t=this.getFloat(s);i=e.roughnessMap&&!0===e.roughnessMap.isTexture?t.mul(this.getTexture(s).g):t}else if(s===Yx.METALNESS){const t=this.getFloat(s);i=e.metalnessMap&&!0===e.metalnessMap.isTexture?t.mul(this.getTexture(s).b):t}else if(s===Yx.EMISSIVE){const t=this.getColor(s);i=e.emissiveMap&&!0===e.emissiveMap.isTexture?t.mul(this.getTexture(s)):t}else if(s===Yx.NORMAL)i=e.normalMap?this.getTexture("normal").normalMap(this.getCache("normalScale","vec2")):e.bumpMap?this.getTexture("bump").r.bumpMap(this.getFloat("bumpScale")):Wx;else if(s===Yx.CLEARCOAT){const t=this.getFloat(s);i=e.clearcoatMap&&!0===e.clearcoatMap.isTexture?t.mul(this.getTexture(s).r):t}else if(s===Yx.CLEARCOAT_ROUGHNESS){const t=this.getFloat(s);i=e.clearcoatRoughnessMap&&!0===e.clearcoatRoughnessMap.isTexture?t.mul(this.getTexture(s).r):t}else if(s===Yx.CLEARCOAT_NORMAL)i=e.clearcoatNormalMap?this.getTexture(s).normalMap(this.getCache(s+"Scale","vec2")):Wx;else if(s===Yx.SHEEN){const t=this.getColor("sheenColor").mul(this.getFloat("sheen"));i=e.sheenColorMap&&!0===e.sheenColorMap.isTexture?t.mul(this.getTexture("sheenColor").rgb):t}else if(s===Yx.SHEEN_ROUGHNESS){const t=this.getFloat(s);i=e.sheenRoughnessMap&&!0===e.sheenRoughnessMap.isTexture?t.mul(this.getTexture(s).a):t,i=i.clamp(.07,1)}else if(s===Yx.ANISOTROPY)if(e.anisotropyMap&&!0===e.anisotropyMap.isTexture){const t=this.getTexture(s);i=bm(Bb.x,Bb.y,Bb.y.negate(),Bb.x).mul(t.rg.mul(2).sub(am(1)).normalize().mul(t.b))}else i=Bb;else if(s===Yx.IRIDESCENCE_THICKNESS){const t=ux("1","float",e.iridescenceThicknessRange);if(e.iridescenceThicknessMap){const r=ux("0","float",e.iridescenceThicknessRange);i=t.sub(r).mul(this.getTexture(s).g).add(r)}else i=t}else if(s===Yx.TRANSMISSION){const t=this.getFloat(s);i=e.transmissionMap?t.mul(this.getTexture(s).r):t}else if(s===Yx.THICKNESS){const t=this.getFloat(s);i=e.thicknessMap?t.mul(this.getTexture(s).g):t}else if(s===Yx.IOR)i=this.getFloat(s);else{const e=this.getNodeType(t);i=this.getCache(s,e)}return i}}Yx.ALPHA_TEST="alphaTest",Yx.COLOR="color",Yx.OPACITY="opacity",Yx.SHININESS="shininess",Yx.SPECULAR="specular",Yx.SPECULAR_STRENGTH="specularStrength",Yx.SPECULAR_INTENSITY="specularIntensity",Yx.SPECULAR_COLOR="specularColor",Yx.REFLECTIVITY="reflectivity",Yx.ROUGHNESS="roughness",Yx.METALNESS="metalness",Yx.NORMAL="normal",Yx.CLEARCOAT="clearcoat",Yx.CLEARCOAT_ROUGHNESS="clearcoatRoughness",Yx.CLEARCOAT_NORMAL="clearcoatNormal",Yx.EMISSIVE="emissive",Yx.ROTATION="rotation",Yx.SHEEN="sheen",Yx.SHEEN_ROUGHNESS="sheenRoughness",Yx.ANISOTROPY="anisotropy",Yx.IRIDESCENCE="iridescence",Yx.IRIDESCENCE_IOR="iridescenceIOR",Yx.IRIDESCENCE_THICKNESS="iridescenceThickness",Yx.IOR="ior",Yx.TRANSMISSION="transmission",Yx.THICKNESS="thickness",Yx.ATTENUATION_DISTANCE="attenuationDistance",Yx.ATTENUATION_COLOR="attenuationColor",Yx.LINE_SCALE="scale",Yx.LINE_DASH_SIZE="dashSize",Yx.LINE_GAP_SIZE="gapSize",Yx.LINE_WIDTH="linewidth",Yx.LINE_DASH_OFFSET="dashOffset",Yx.POINT_WIDTH="pointWidth",Yx.DISPERSION="dispersion";const Jx=Jp(Yx,Yx.ALPHA_TEST),Zx=Jp(Yx,Yx.COLOR),Qx=Jp(Yx,Yx.SHININESS),Kx=Jp(Yx,Yx.EMISSIVE),tb=Jp(Yx,Yx.OPACITY),eb=Jp(Yx,Yx.SPECULAR),sb=Jp(Yx,Yx.SPECULAR_INTENSITY),ib=Jp(Yx,Yx.SPECULAR_COLOR),rb=Jp(Yx,Yx.SPECULAR_STRENGTH),nb=Jp(Yx,Yx.REFLECTIVITY),ob=Jp(Yx,Yx.ROUGHNESS),ab=Jp(Yx,Yx.METALNESS),hb=Jp(Yx,Yx.NORMAL),lb=Jp(Yx,Yx.CLEARCOAT),ub=Jp(Yx,Yx.CLEARCOAT_ROUGHNESS),cb=Jp(Yx,Yx.CLEARCOAT_NORMAL),db=Jp(Yx,Yx.ROTATION),pb=Jp(Yx,Yx.SHEEN),mb=Jp(Yx,Yx.SHEEN_ROUGHNESS),gb=Jp(Yx,Yx.ANISOTROPY),fb=Jp(Yx,Yx.IRIDESCENCE),yb=Jp(Yx,Yx.IRIDESCENCE_IOR),xb=Jp(Yx,Yx.IRIDESCENCE_THICKNESS),bb=Jp(Yx,Yx.TRANSMISSION),vb=Jp(Yx,Yx.THICKNESS),Tb=Jp(Yx,Yx.IOR),_b=Jp(Yx,Yx.ATTENUATION_DISTANCE),wb=Jp(Yx,Yx.ATTENUATION_COLOR),Sb=Jp(Yx,Yx.LINE_SCALE),Mb=Jp(Yx,Yx.LINE_DASH_SIZE),Ab=Jp(Yx,Yx.LINE_GAP_SIZE),Nb=Jp(Yx,Yx.LINE_WIDTH),Rb=Jp(Yx,Yx.LINE_DASH_OFFSET),Cb=Jp(Yx,Yx.POINT_WIDTH),Eb=Jp(Yx,Yx.DISPERSION),Bb=nf(new Zs).onReference((function(t){return t.material})).onRenderUpdate((function({material:t}){this.value.set(t.anisotropy*Math.cos(t.anisotropyRotation),t.anisotropy*Math.sin(t.anisotropyRotation))}));ap("MaterialNode",Yx);const Ib=km("position","vec3"),Pb=Ib.toVar("positionLocal"),Fb=Vm(Ox.mul(Pb).xyz,"v_positionWorld"),Ub=Vm(Pb.transformDirection(Ox),"v_positionWorldDirection").normalize().toVar("positionWorldDirection"),Ob=Vm(Fx.mul(Pb).xyz,"v_positionView"),zb=Vm(Ob.negate(),"v_positionViewDirection").normalize().toVar("positionViewDirection");class Lb extends lp{constructor(t=null){super("vec4"),this.positionNode=t}setup(t){if("fragment"===t.shaderStage)return Vm(t.context.mvp);const e=this.positionNode||Pb;return xx.mul(Fx).mul(e)}}const Vb=Yp(Lb);ap("ModelViewProjectionNode",Lb);class Db extends fp{constructor(t,e=null,s=0,i=0){super(t,e),this.isBufferNode=!0,this.bufferType=e,this.bufferStride=s,this.bufferOffset=i,this.usage=As,this.instanced=!1,this.attribute=null,this.global=!0,t&&!0===t.isBufferAttribute&&(this.attribute=t,this.usage=t.usage,this.instanced=t.isInstancedBufferAttribute)}getHash(t){if(0===this.bufferStride&&0===this.bufferOffset){let e=t.globalCache.getData(this.value);return void 0===e&&(e={node:this},t.globalCache.setData(this.value,e)),e.node.uuid}return this.uuid}getNodeType(t){return null===this.bufferType&&(this.bufferType=t.getTypeFromAttribute(this.attribute)),this.bufferType}setup(t){if(null!==this.attribute)return;const e=this.getNodeType(t),s=this.value,i=t.getTypeLength(e),r=this.bufferStride||i,n=this.bufferOffset,o=!0===s.isInterleavedBuffer?s:new ro(s,r),a=new oo(o,i,n);o.setUsage(this.usage),this.attribute=a,this.attribute.isInstancedBufferAttribute=this.instanced}generate(t){const e=this.getNodeType(t),s=t.getBufferAttributeFromNode(this,e),i=t.getPropertyName(s);let r=null;if("vertex"===t.shaderStage||"compute"===t.shaderStage)this.name=i,r=i;else{r=Vm(this).build(t,e)}return r}getInputType(){return"bufferAttribute"}setUsage(t){return this.usage=t,this.attribute&&!0===this.attribute.isBufferAttribute&&(this.attribute.usage=t),this}setInstanced(t){return this.instanced=t,this}}const kb=(t,e,s,i)=>qp(new Db(t,e,s,i)),Gb=(t,e,s,i)=>kb(t,e,s,i).setUsage(Ns),Wb=(t,e,s,i)=>kb(t,e,s,i).setInstanced(!0),jb=(t,e,s,i)=>Gb(t,e,s,i).setInstanced(!0);vp("toAttribute",(t=>kb(t.value))),ap("BufferAttributeNode",Db);class Hb extends op{constructor(t){super("void"),this.instanceMesh=t,this.instanceMatrixNode=null,this.instanceColorNode=null,this.updateType=Hd.FRAME,this.buffer=null,this.bufferColor=null}setup(){let t=this.instanceMatrixNode;const e=this.instanceMesh;if(null===t){const s=e.instanceMatrix,i=new Mc(s.array,16,1);this.buffer=i;const r=s.usage===Ns?jb:Wb,n=[r(i,"vec4",16,0),r(i,"vec4",16,4),r(i,"vec4",16,8),r(i,"vec4",16,12)];t=Nm(...n),this.instanceMatrixNode=t}const s=e.instanceColor;if(s&&null===this.instanceColorNode){const t=new Go(s.array,3),e=s.usage===Ns?jb:Wb;this.bufferColor=t,this.instanceColorNode=cm(e(t,"vec3",3,0))}const i=t.mul(Pb).xyz,r=wm(t[0].xyz,t[1].xyz,t[2].xyz),n=Gx.div(cm(r[0].dot(r[0]),r[1].dot(r[1]),r[2].dot(r[2]))),o=r.mul(n).xyz;Pb.assign(i),Gx.assign(o),null!==this.instanceColorNode&&dg("vec3","vInstanceColor").assign(this.instanceColorNode)}update(){this.instanceMesh.instanceMatrix.usage!==Ns&&this.instanceMesh.instanceMatrix.version!==this.buffer.version&&(this.buffer.version=this.instanceMesh.instanceMatrix.version),this.instanceMesh.instanceColor&&this.instanceMesh.instanceColor.usage!==Ns&&this.instanceMesh.instanceColor.version!==this.bufferColor.version&&(this.bufferColor.version=this.instanceMesh.instanceColor.version)}}const qb=Yp(Hb);ap("InstanceNode",Hb);const $b=Zp(((t,e)=>(!1===e.geometry.hasAttribute("tangent")&&e.geometry.computeTangents(),km("tangent","vec4"))))(),Xb=$b.xyz.toVar("tangentLocal"),Yb=Vm(Fx.mul(gm(Xb,0)).xyz,"v_tangentView").normalize().toVar("tangentView"),Jb=Vm(Yb.transformDirection(vx),"v_tangentWorld").normalize().toVar("tangentWorld"),Zb=Yb.toVar("transformedTangentView"),Qb=Zb.transformDirection(vx).normalize().toVar("transformedTangentWorld");class Kb extends op{constructor(t){super("void"),this.batchMesh=t,this.instanceColorNode=null,this.batchingIdNode=null}setup(t){null===this.batchingIdNode&&(null===t.getDrawIndex()?this.batchingIdNode=Zm:this.batchingIdNode=Qm);const e=Zp((([t])=>{const e=hf(ex(this.batchMesh._indirectTexture),0),s=rm(t).remainder(rm(e)),i=rm(t).div(rm(e));return ex(this.batchMesh._indirectTexture,hm(s,i),null,"uvec4").x})).setLayout({name:"getIndirectIndex",type:"uint",inputs:[{name:"id",type:"int"}]}),s=this.batchMesh._matricesTexture,i=hf(ex(s),0),r=im(e(rm(this.batchingIdNode))).mul(4).toVar(),n=rm(r.mod(i)),o=rm(r).div(rm(i)),a=Nm(ex(s,hm(n,o)),ex(s,hm(n.add(1),o)),ex(s,hm(n.add(2),o)),ex(s,hm(n.add(3),o))),h=wm(a[0].xyz,a[1].xyz,a[2].xyz);Pb.assign(a.mul(Pb));const l=Gx.div(cm(h[0].dot(h[0]),h[1].dot(h[1]),h[2].dot(h[2]))),u=h.mul(l).xyz;Gx.assign(u),t.hasGeometryAttribute("tangent")&&Xb.mulAssign(h)}}const tv=Yp(Kb);ap("batch",Kb);class ev extends op{constructor(t,e=!1){let s,i,r;super("void"),this.skinnedMesh=t,this.useReference=e,this.updateType=Hd.OBJECT,this.skinIndexNode=km("skinIndex","uvec4"),this.skinWeightNode=km("skinWeight","vec4"),e?(s=ux("bindMatrix","mat4"),i=ux("bindMatrixInverse","mat4"),r=cx("skeleton.boneMatrices","mat4",t.skeleton.bones.length)):(s=nf(t.bindMatrix,"mat4"),i=nf(t.bindMatrixInverse,"mat4"),r=rx(t.skeleton.boneMatrices,"mat4",t.skeleton.bones.length)),this.bindMatrixNode=s,this.bindMatrixInverseNode=i,this.boneMatricesNode=r}setup(t){const{skinIndexNode:e,skinWeightNode:s,bindMatrixNode:i,bindMatrixInverseNode:r,boneMatricesNode:n}=this,o=n.element(e.x),a=n.element(e.y),h=n.element(e.z),l=n.element(e.w),u=i.mul(Pb),c=uf(o.mul(s.x).mul(u),a.mul(s.y).mul(u),h.mul(s.z).mul(u),l.mul(s.w).mul(u)),d=r.mul(c).xyz;let p=uf(s.x.mul(o),s.y.mul(a),s.z.mul(h),s.w.mul(l));p=r.mul(p).mul(i);const m=p.transformDirection(Gx).xyz;Pb.assign(d),Gx.assign(m),t.hasGeometryAttribute("tangent")&&Xb.assign(m)}generate(t,e){if("void"!==e)return Pb.build(t,e)}update(t){(this.useReference?t.object:this.skinnedMesh).skeleton.update()}}const sv=t=>qp(new ev(t)),iv=t=>qp(new ev(t,!0));ap("SkinningNode",ev);class rv extends op{constructor(t=[]){super(),this.params=t}getVarName(t){return String.fromCharCode("i".charCodeAt()+t)}getProperties(t){const e=t.getNodeProperties(this);if(void 0!==e.stackNode)return e;const s={};for(let t=0,e=this.params.length-1;tNumber(n)?">=":"<"));const u={start:r,end:n,condition:h},c=u.start,d=u.end;let p="",m="",g="";l||(l="int"===a||"uint"===a?h.includes("<")?"++":"--":h.includes("<")?"+= 1.":"-= 1."),p+=t.getVar(a,o)+" = "+c,m+=o+" "+h+" "+d,g+=o+" "+l;const f=`for ( ${p}; ${m}; ${g} )`;t.addFlowCode((0===e?"\n":"")+t.tab+f+" {\n\n").addFlowTab()}const r=i.build(t,"void"),n=e.returnsNode?e.returnsNode.build(t):"";t.removeFlowTab().addFlowCode("\n"+t.tab+r);for(let e=0,s=this.params.length-1;eqp(new rv(Xp(t,"int"))).append(),ov=()=>Jy("continue").append(),av=()=>Jy("break").append();vp("loop",((t,...e)=>Wm(t,nv(...e)))),ap("LoopNode",rv);const hv=new WeakMap,lv=new vi,uv=Zp((({bufferMap:t,influence:e,stride:s,width:i,depth:r,offset:n})=>{const o=rm(Jm).mul(s).add(n),a=o.div(i),h=o.sub(a.mul(i));return ex(t,hm(h,a)).depth(r).mul(e)}));class cv extends op{constructor(t){super("void"),this.mesh=t,this.morphBaseInfluence=nf(1),this.updateType=Hd.OBJECT}setup(t){const{geometry:e}=t,s=void 0!==e.morphAttributes.position,i=void 0!==e.morphAttributes.normal,r=e.morphAttributes.position||e.morphAttributes.normal||e.morphAttributes.color,n=void 0!==r?r.length:0,{texture:o,stride:a,size:h}=function(t){const e=void 0!==t.morphAttributes.position,s=void 0!==t.morphAttributes.normal,i=void 0!==t.morphAttributes.color,r=t.morphAttributes.position||t.morphAttributes.normal||t.morphAttributes.color,n=void 0!==r?r.length:0;let o=hv.get(t);if(void 0===o||o.count!==n){void 0!==o&&o.texture.dispose();const a=t.morphAttributes.position||[],h=t.morphAttributes.normal||[],l=t.morphAttributes.color||[];let u=0;!0===e&&(u=1),!0===s&&(u=2),!0===i&&(u=3);let c=t.attributes.position.count*u,d=1;const p=4096;c>p&&(d=Math.ceil(c/p),c=p);const m=new Float32Array(c*d*4*n),g=new wi(m,c,d,n);g.type=It,g.needsUpdate=!0;const f=4*u;for(let x=0;x{const e=im(0).toVar();this.mesh.count>1&&null!==this.mesh.morphTexture&&void 0!==this.mesh.morphTexture?e.assign(ex(this.mesh.morphTexture,hm(rm(t).add(1),rm(Zm))).r):e.assign(ux("morphTargetInfluences","float").element(t).toVar()),!0===s&&Pb.addAssign(uv({bufferMap:o,influence:e,stride:a,width:l,depth:t,offset:rm(0)})),!0===i&&Gx.addAssign(uv({bufferMap:o,influence:e,stride:a,width:l,depth:t,offset:rm(1)}))}))}update(){const t=this.morphBaseInfluence;this.mesh.geometry.morphTargetsRelative?t.value=1:t.value=1-this.mesh.morphTargetInfluences.reduce(((t,e)=>t+e),0)}}const dv=Yp(cv);ap("MorphNode",cv);const pv=zb.negate().reflect(Hx),mv=pv.transformDirection(vx).toVar("reflectVector");class gv extends Ky{constructor(t,e=null,s=null){super(t,e,s),this.isCubeTextureNode=!0}getInputType(){return"cubeTexture"}getDefaultUV(){return mv}setUpdateMatrix(){}setupUV(t,e){const s=this.value;return t.renderer.coordinateSystem!==Ls&&s.isRenderTargetTexture?e:cm(e.x.negate(),e.yz)}generateUV(t,e){return e.build(t,"vec3")}}const fv=Yp(gv);vp("cubeTexture",fv),ap("CubeTextureNode",gv);class yv extends op{constructor(){super("vec3")}generate(){console.warn("Abstract function.")}}ap("LightingNode",yv);let xv=null;class bv extends yv{constructor(t=null){super(),this.updateType=Hd.FRAME,this.light=t,this.rtt=null,this.shadowNode=null,this.shadowMaskNode=null,this.color=new $r,this._defaultColorNode=nf(this.color),this.colorNode=this._defaultColorNode,this.isAnalyticLightNode=!0}getCacheKey(){return super.getCacheKey()+"-"+this.light.id+"-"+(this.light.castShadow?"1":"0")}getHash(){return this.light.uuid}setupShadow(t){const{object:e}=t;if(!1===e.receiveShadow)return;let s=this.shadowNode;if(null===s){null===xv&&(xv=t.createNodeMaterial(),xv.fragmentNode=gm(0,0,0,1),xv.isShadowNodeMaterial=!0);const i=this.light.shadow,r=t.createRenderTarget(i.mapSize.width,i.mapSize.height),n=new Za;n.minFilter=ft,n.magFilter=ft,n.image.width=i.mapSize.width,n.image.height=i.mapSize.height,n.compareFunction=bs,r.depthTexture=n,i.camera.updateProjectionMatrix();const o=ux("intensity","float",i),a=ux("bias","float",i),h=ux("normalBias","float",i),l=e.material.shadowPositionNode||Fb;let u=nf(i.matrix).mul(l.add(jx.mul(h)));u=u.xyz.div(u.w);const c=u.x.greaterThanEqual(0).and(u.x.lessThanEqual(1)).and(u.y.greaterThanEqual(0)).and(u.y.lessThanEqual(1)).and(u.z.lessThanEqual(1));let d=u.z.add(a);t.renderer.coordinateSystem===Ls&&(d=d.mul(2).sub(1)),u=cm(u.x,u.y.oneMinus(),d);const p=(t,e,s)=>tx(t,e).compare(s);s=p(n,u.xy,u.z);const m=tx(r.texture,u),g=c.mix(1,s.mix(m.a.mix(1,m),1));this.rtt=r,this.colorNode=this.colorNode.mul(Py(1,g,o)),this.shadowNode=s,this.shadowMaskNode=g,this.updateBeforeType=Hd.RENDER}}setup(t){this.light.castShadow?this.setupShadow(t):null!==this.shadowNode&&this.disposeShadow()}updateShadow(t){const{rtt:e,light:s}=this,{renderer:i,scene:r,camera:n}=t,o=r.overrideMaterial;r.overrideMaterial=xv,e.setSize(s.shadow.mapSize.width,s.shadow.mapSize.height),s.shadow.updateMatrices(s),s.shadow.camera.layers.mask=n.layers.mask;const a=i.toneMapping,h=i.getRenderTarget(),l=i.getRenderObjectFunction();i.setRenderObjectFunction(((t,...e)=>{!0===t.castShadow&&i.renderObject(t,...e)})),i.setRenderTarget(e),i.toneMapping=0,i.render(r,s.shadow.camera),i.setRenderTarget(h),i.setRenderObjectFunction(l),i.toneMapping=a,r.overrideMaterial=o}disposeShadow(){this.rtt.dispose(),this.shadowNode=null,this.shadowMaskNode=null,this.rtt=null,this.colorNode=this._defaultColorNode}updateBefore(t){const{light:e}=this;e.castShadow&&this.updateShadow(t)}update(){const{light:t}=this;this.color.copy(t.color).multiplyScalar(t.intensity)}}ap("AnalyticLightNode",bv);const vv=new WeakMap;class Tv extends op{constructor(t=[]){super("vec3"),this.totalDiffuseNode=cm().temp("totalDiffuse"),this.totalSpecularNode=cm().temp("totalSpecular"),this.outgoingLightNode=cm().temp("outgoingLight"),this.lightNodes=t,this._hash=null}get hasLight(){return this.lightNodes.length>0}getHash(){if(null===this._hash){const t=[];for(const e of this.lightNodes)t.push(e.getHash());this._hash="lights-"+t.join(",")}return this._hash}analyze(t){const e=t.getDataFromNode(this);for(const s of e.nodes)s.build(t)}setup(t){const e=t.context,s=e.lightingModel;let i=this.outgoingLightNode;if(s){const{lightNodes:r,totalDiffuseNode:n,totalSpecularNode:o}=this;e.outgoingLight=i;const a=t.addStack();t.getDataFromNode(this).nodes=a.nodes,s.start(e,a,t);for(const e of r)e.build(t);s.indirectDiffuse(e,a,t),s.indirectSpecular(e,a,t),s.ambientOcclusion(e,a,t);const{backdrop:h,backdropAlpha:l}=e,{directDiffuse:u,directSpecular:c,indirectDiffuse:d,indirectSpecular:p}=e.reflectedLight;let m=u.add(d);null!==h&&(m=cm(null!==l?l.mix(m,h):h),e.material.transparent=!0),n.assign(m),o.assign(c.add(p)),i.assign(n.add(o)),s.finish(e,a,t),i=i.bypass(t.removeStack())}return i}_getLightNodeById(t){for(const e of this.lightNodes)if(e.isAnalyticLightNode&&e.light.id===t)return e;return null}fromLights(t=[]){const e=[];t=(t=>t.sort(((t,e)=>t.id-e.id)))(t);for(const s of t){let t=this._getLightNodeById(s.id);if(null===t){const e=s.constructor,i=vv.has(e)?vv.get(e):bv;t=qp(new i(s))}e.push(t)}return this.lightNodes=e,this._hash=null,this}}const _v=t=>qp((new Tv).fromLights(t)),wv=Yp(Tv);function Sv(t,e){if(vv.has(t))console.warn(`Redefinition of light node ${e.type}`);else{if("function"!=typeof t)throw new Error(`Light ${t.name} is not a class`);if("function"!=typeof e||!e.type)throw new Error(`Light node ${e.type} is not a class`);vv.set(t,e)}}class Mv extends yv{constructor(t=null){super(),this.aoNode=t}setup(t){const e=this.aoNode.x.sub(1).mul(1).add(1);t.context.ambientOcclusion.mulAssign(e)}}ap("AONode",Mv);class Av extends qm{constructor(t,e=null,s=null,i=null){super(t),this.lightingModel=e,this.backdropNode=s,this.backdropAlphaNode=i,this._context=null}getContext(){const{backdropNode:t,backdropAlphaNode:e}=this,s={directDiffuse:cm().temp("directDiffuse"),directSpecular:cm().temp("directSpecular"),indirectDiffuse:cm().temp("indirectDiffuse"),indirectSpecular:cm().temp("indirectSpecular")};return{radiance:cm().temp("radiance"),irradiance:cm().temp("irradiance"),iblIrradiance:cm().temp("iblIrradiance"),ambientOcclusion:im(1).temp("ambientOcclusion"),reflectedLight:s,backdrop:t,backdropAlpha:e}}setup(t){return this.context=this._context||(this._context=this.getContext()),this.context.lightingModel=this.lightingModel||t.context.lightingModel,super.setup(t)}}const Nv=Yp(Av);vp("lightingContext",Nv),ap("LightingContextNode",Av);const Rv=t=>t.mul($b.w).xyz,Cv=Vm(Rv(kx.cross($b)),"v_bitangentGeometry").normalize().toVar("bitangentGeometry"),Ev=Vm(Rv(Gx.cross(Xb)),"v_bitangentLocal").normalize().toVar("bitangentLocal"),Bv=Vm(Rv(Wx.cross(Yb)),"v_bitangentView").normalize().toVar("bitangentView"),Iv=Vm(Rv(jx.cross(Jb)),"v_bitangentWorld").normalize().toVar("bitangentWorld"),Pv=Rv(Hx.cross(Zb)).normalize().toVar("transformedBitangentView"),Fv=Pv.transformDirection(vx).normalize().toVar("transformedBitangentWorld"),Uv=wm(Yb,Bv,Wx),Ov=zb.mul(Uv),zv=(t,e)=>t.sub(Ov.mul(e)),Lv=(()=>{let t=Ag.cross(zb);return t=t.cross(Ag).normalize(),t=Py(t,Hx,Sg.mul(mg.oneMinus()).oneMinus().pow2().pow2()).normalize(),t})();class Vv extends op{constructor(t,e,s=null){super(),this.condNode=t,this.ifNode=e,this.elseNode=s}getNodeType(t){const e=this.ifNode.getNodeType(t);if(null!==this.elseNode){const s=this.elseNode.getNodeType(t);if(t.getTypeLength(s)>t.getTypeLength(e))return s}return e}setup(t){const e=t.getNodeProperties(this);e.condNode=this.condNode.cache(),e.ifNode=this.ifNode.cache(),e.elseNode=this.elseNode?this.elseNode.cache():null}generate(t,e){const s=this.getNodeType(t),i=t.getDataFromNode(this);if(void 0!==i.nodeProperty)return i.nodeProperty;const{condNode:r,ifNode:n,elseNode:o}=t.getNodeProperties(this),a="void"!==e,h=a?cg(s).build(t):"";i.nodeProperty=h;const l=r.build(t,"bool");t.addFlowCode(`\n${t.tab}if ( ${l} ) {\n\n`).addFlowTab();let u=n.build(t,s);if(u&&(u=a?h+" = "+u+";":"return "+u+";"),t.removeFlowTab().addFlowCode(t.tab+"\t"+u+"\n\n"+t.tab+"}"),null!==o){t.addFlowCode(" else {\n\n").addFlowTab();let e=o.build(t,s);e&&(e=a?h+" = "+e+";":"return "+e+";"),t.removeFlowTab().addFlowCode(t.tab+"\t"+e+"\n\n"+t.tab+"}\n\n")}else t.addFlowCode("\n\n");return t.format(h,s,e)}}const Dv=Yp(Vv);vp("cond",Dv),ap("CondNode",Vv);const kv=im(1),Gv=im(-2),Wv=im(.8),jv=im(-1),Hv=im(.4),qv=im(2),$v=im(.305),Xv=im(3),Yv=im(.21),Jv=im(4),Zv=im(4),Qv=im(16),Kv=Zp((([t])=>{const e=cm(iy(t)).toVar(),s=im(-1).toVar();return tm(e.x.greaterThan(e.z),(()=>{tm(e.x.greaterThan(e.y),(()=>{s.assign(Dv(t.x.greaterThan(0),0,3))})).else((()=>{s.assign(Dv(t.y.greaterThan(0),1,4))}))})).else((()=>{tm(e.z.greaterThan(e.y),(()=>{s.assign(Dv(t.z.greaterThan(0),2,5))})).else((()=>{s.assign(Dv(t.y.greaterThan(0),1,4))}))})),s})).setLayout({name:"getFace",type:"float",inputs:[{name:"direction",type:"vec3"}]}),tT=Zp((([t,e])=>{const s=am().toVar();return tm(e.equal(0),(()=>{s.assign(am(t.z,t.y).div(iy(t.x)))})).elseif(e.equal(1),(()=>{s.assign(am(t.x.negate(),t.z.negate()).div(iy(t.y)))})).elseif(e.equal(2),(()=>{s.assign(am(t.x.negate(),t.y).div(iy(t.z)))})).elseif(e.equal(3),(()=>{s.assign(am(t.z.negate(),t.y).div(iy(t.x)))})).elseif(e.equal(4),(()=>{s.assign(am(t.x.negate(),t.z).div(iy(t.y)))})).else((()=>{s.assign(am(t.x,t.y).div(iy(t.z)))})),df(.5,s.add(1))})).setLayout({name:"getUV",type:"vec2",inputs:[{name:"direction",type:"vec3"},{name:"face",type:"float"}]}),eT=Zp((([t])=>{const e=im(0).toVar();return tm(t.greaterThanEqual(Wv),(()=>{e.assign(kv.sub(t).mul(jv.sub(Gv)).div(kv.sub(Wv)).add(Gv))})).elseif(t.greaterThanEqual(Hv),(()=>{e.assign(Wv.sub(t).mul(qv.sub(jv)).div(Wv.sub(Hv)).add(jv))})).elseif(t.greaterThanEqual($v),(()=>{e.assign(Hv.sub(t).mul(Xv.sub(qv)).div(Hv.sub($v)).add(qv))})).elseif(t.greaterThanEqual(Yv),(()=>{e.assign($v.sub(t).mul(Jv.sub(Xv)).div($v.sub(Yv)).add(Xv))})).else((()=>{e.assign(im(-2).mul(jf(df(1.16,t))))})),e})).setLayout({name:"roughnessToMip",type:"float",inputs:[{name:"roughness",type:"float"}]}),sT=Zp((([t,e])=>{const s=t.toVar();s.assign(df(2,s).sub(1));const i=cm(s,1).toVar();return tm(e.equal(0),(()=>{i.assign(i.zyx)})).elseif(e.equal(1),(()=>{i.assign(i.xzy),i.xz.mulAssign(-1)})).elseif(e.equal(2),(()=>{i.x.mulAssign(-1)})).elseif(e.equal(3),(()=>{i.assign(i.zyx),i.xz.mulAssign(-1)})).elseif(e.equal(4),(()=>{i.assign(i.xzy),i.xy.mulAssign(-1)})).elseif(e.equal(5),(()=>{i.z.mulAssign(-1)})),i})).setLayout({name:"getDirection",type:"vec3",inputs:[{name:"uv",type:"vec2"},{name:"face",type:"float"}]}),iT=Zp((([t,e,s,i,r,n])=>{const o=im(s),a=cm(e),h=Fy(eT(o),Gv,n),l=Jf(h),u=$f(h),c=cm(rT(t,a,u,i,r,n)).toVar();return tm(l.notEqual(0),(()=>{const e=cm(rT(t,a,u.add(1),i,r,n)).toVar();c.assign(Py(c,e,l))})),c})),rT=Zp((([t,e,s,i,r,n])=>{const o=im(s).toVar(),a=cm(e),h=im(Kv(a)).toVar(),l=im(xy(Zv.sub(o),0)).toVar();o.assign(xy(o,Zv));const u=im(Gf(o)).toVar(),c=am(tT(a,h).mul(u.sub(2)).add(1)).toVar();return tm(h.greaterThan(2),(()=>{c.y.addAssign(u),h.subAssign(3)})),c.x.addAssign(h.mul(u)),c.x.addAssign(l.mul(df(3,Qv))),c.y.addAssign(df(4,Gf(n).sub(u))),c.x.mulAssign(i),c.y.mulAssign(r),t.uv(c).grad(am(),am())})),nT=Zp((({envMap:t,mipInt:e,outputDirection:s,theta:i,axis:r,CUBEUV_TEXEL_WIDTH:n,CUBEUV_TEXEL_HEIGHT:o,CUBEUV_MAX_MIP:a})=>{const h=Qf(i),l=s.mul(h).add(r.cross(s).mul(Zf(i))).add(r.mul(r.dot(s).mul(h.oneMinus())));return rT(t,l,e,n,o,a)})),oT=Zp((({n:t,latitudinal:e,poleAxis:s,outputDirection:i,weights:r,samples:n,dTheta:o,mipInt:a,envMap:h,CUBEUV_TEXEL_WIDTH:l,CUBEUV_TEXEL_HEIGHT:u,CUBEUV_MAX_MIP:c})=>{const d=cm(Dv(e,s,My(s,i))).toVar();tm(Of(d.equals(cm(0))),(()=>{d.assign(cm(i.z,0,i.x.negate()))})),d.assign(Yf(d));const p=cm().toVar();return p.addAssign(r.element(rm(0)).mul(nT({theta:0,axis:d,outputDirection:i,mipInt:a,envMap:h,CUBEUV_TEXEL_WIDTH:l,CUBEUV_TEXEL_HEIGHT:u,CUBEUV_MAX_MIP:c}))),nv({start:rm(1),end:t},(({i:t})=>{tm(t.greaterThanEqual(n),(()=>{av()}));const e=im(o.mul(im(t))).toVar();p.addAssign(r.element(t).mul(nT({theta:e.mul(-1),axis:d,outputDirection:i,mipInt:a,envMap:h,CUBEUV_TEXEL_WIDTH:l,CUBEUV_TEXEL_HEIGHT:u,CUBEUV_MAX_MIP:c}))),p.addAssign(r.element(t).mul(nT({theta:e,axis:d,outputDirection:i,mipInt:a,envMap:h,CUBEUV_TEXEL_WIDTH:l,CUBEUV_TEXEL_HEIGHT:u,CUBEUV_MAX_MIP:c})))})),gm(p,1)}));let aT=null;const hT=new WeakMap;class lT extends lp{constructor(t,e=null,s=null){super("vec3"),this._value=t,this._pmrem=null,this.uvNode=e,this.levelNode=s,this._generator=null,this._texture=tx(null),this._width=nf(0),this._height=nf(0),this._maxMip=nf(0),this.updateBeforeType=Hd.RENDER}set value(t){this._value=t,this._pmrem=null}get value(){return this._value}updateFromTexture(t){const e=function(t){const e=Math.log2(t)-2,s=1/t;return{texelWidth:1/(3*Math.max(Math.pow(2,e),112)),texelHeight:s,maxMip:e}}(t.image.height);this._texture.value=t,this._width.value=e.texelWidth,this._height.value=e.texelHeight,this._maxMip.value=e.maxMip}updateBefore(){let t=this._pmrem;const e=t?t.pmremVersion:-1,s=this._value;e!==s.pmremVersion&&(t=!0===s.isPMREMTexture?s:function(t){let e=hT.get(t);if((void 0!==e?e.pmremVersion:-1)!==t.pmremVersion){if(t.isCubeTexture){if(t.source.data.some((t=>void 0===t)))throw new Error("PMREMNode: Undefined texture in CubeTexture. Use onLoad callback or async loader");e=aT.fromCubemap(t,e)}else{if(void 0===t.image)throw new Error("PMREMNode: Undefined image in Texture. Use onLoad callback or async loader");e=aT.fromEquirectangular(t,e)}e.pmremVersion=t.pmremVersion,hT.set(t,e)}return e.texture}(s),this._pmrem=t,this.updateFromTexture(t))}setup(t){null===aT&&(aT=t.createPMREMGenerator()),this.updateBefore(t);let e=this.uvNode;null===e&&t.context.getUV&&(e=t.context.getUV(this));const s=this.value;t.renderer.coordinateSystem===zs&&!0!==s.isPMREMTexture&&!0===s.isRenderTargetTexture&&(e=cm(e.x.negate(),e.yz));let i=this.levelNode;return null===i&&t.context.getTextureLevel&&(i=t.context.getTextureLevel(this)),iT(this._texture,e,i,this._width,this._height,this._maxMip)}}const uT=Yp(lT);ap("PMREMNode",lT);const cT=new WeakMap;class dT extends yv{constructor(t=null){super(),this.envNode=t}setup(t){let e=this.envNode;if(e.isTextureNode){let t=cT.get(e.value);void 0===t&&(t=uT(e.value),cT.set(e.value,t)),e=t}const{material:s}=t,i=s.envMap?ux("envMapIntensity","float",t.material):ux("environmentIntensity","float",t.scene),r=!0===s.useAnisotropy||s.anisotropy>0,n=$m(e,pT(mg,r?Lv:Hx)).mul(i),o=$m(e,mT(qx)).mul(Math.PI).mul(i),a=Hm(n),h=Hm(o);t.context.radiance.addAssign(a),t.context.iblIrradiance.addAssign(h);const l=t.context.lightingModel.clearcoatRadiance;if(l){const t=$m(e,pT(yg,$x)).mul(i),s=Hm(t);l.addAssign(s)}}}const pT=(t,e)=>{let s=null;return{getUV:()=>(null===s&&(s=zb.negate().reflect(e),s=t.mul(t).mix(s,e).normalize(),s=s.transformDirection(vx)),s),getTextureLevel:()=>t}},mT=t=>({getUV:()=>t,getTextureLevel:()=>im(1)});ap("EnvironmentNode",dT);class gT extends yv{constructor(t){super(),this.node=t}setup(t){t.context.irradiance.addAssign(this.node)}}let fT,yT;ap("IrradianceNode",gT);class xT extends op{constructor(t){super(),this.scope=t,this.isViewportNode=!0}getNodeType(){return this.scope===xT.VIEWPORT?"vec4":this.scope===xT.COORDINATE?"vec3":"vec2"}getUpdateType(){let t=Hd.NONE;return this.scope!==xT.RESOLUTION&&this.scope!==xT.VIEWPORT||(t=Hd.RENDER),this.updateType=t,t}update({renderer:t}){this.scope===xT.VIEWPORT?t.getViewport(yT):t.getDrawingBufferSize(fT)}setup(){const t=this.scope;let e=null;if(t===xT.RESOLUTION)e=nf(fT||(fT=new Zs));else if(t===xT.VIEWPORT)e=nf(yT||(yT=new vi));else{e=bT.div(vT);let s=e.x,i=e.y;/bottom/i.test(t)&&(i=i.oneMinus()),/right/i.test(t)&&(s=s.oneMinus()),e=am(s,i)}return e}generate(t){if(this.scope===xT.COORDINATE){let e=t.getFragCoord();if(t.isFlipY()){const s=t.getNodeProperties(vT).outputNode.build(t);e=`${t.getType("vec3")}( ${e}.x, ${s}.y - ${e}.y, ${e}.z )`}return e}return super.generate(t)}}xT.COORDINATE="coordinate",xT.RESOLUTION="resolution",xT.VIEWPORT="viewport",xT.TOP_LEFT="topLeft",xT.BOTTOM_LEFT="bottomLeft",xT.TOP_RIGHT="topRight",xT.BOTTOM_RIGHT="bottomRight";const bT=Jp(xT,xT.COORDINATE),vT=Jp(xT,xT.RESOLUTION),TT=Jp(xT,xT.VIEWPORT),_T=Jp(xT,xT.TOP_LEFT),wT=Jp(xT,xT.BOTTOM_LEFT),ST=Jp(xT,xT.TOP_RIGHT),MT=Jp(xT,xT.BOTTOM_RIGHT);ap("ViewportNode",xT);const AT=new Zs;class NT extends Ky{constructor(t=_T,e=null,s=null){null===s&&((s=new qa).minFilter=St),super(s,t,e),this.generateMipmaps=!1,this.isOutputTextureNode=!0,this.updateBeforeType=Hd.FRAME}updateBefore(t){const e=t.renderer;e.getDrawingBufferSize(AT);const s=this.value;s.image.width===AT.width&&s.image.height===AT.height||(s.image.width=AT.width,s.image.height=AT.height,s.needsUpdate=!0);const i=s.generateMipmaps;s.generateMipmaps=this.generateMipmaps,e.copyFramebufferToTexture(s),s.generateMipmaps=i}clone(){const t=new this.constructor(this.uvNode,this.levelNode,this.value);return t.generateMipmaps=this.generateMipmaps,t}}const RT=Yp(NT),CT=Yp(NT,null,null,{generateMipmaps:!0});vp("viewportTexture",RT),vp("viewportMipTexture",CT),ap("ViewportTextureNode",NT);let ET=null;class BT extends NT{constructor(t=_T,e=null){null===ET&&(ET=new Za),super(t,e,ET)}}const IT=Yp(BT);vp("viewportDepthTexture",IT),ap("ViewportDepthTextureNode",BT);class PT extends op{constructor(t,e=null){super("float"),this.scope=t,this.valueNode=e,this.isViewportDepthNode=!0}generate(t){const{scope:e}=this;return e===PT.DEPTH?t.getFragDepth():super.generate(t)}setup({camera:t}){const{scope:e}=this,s=this.valueNode;let i=null;if(e===PT.DEPTH)i=null!==s?LT().assign(s):t.isPerspectiveCamera?OT(Ob.z,gx,fx):FT(Ob.z,gx,fx);else if(e===PT.LINEAR_DEPTH)if(null!==s)if(t.isPerspectiveCamera){const t=zT(s,gx,fx);i=FT(t,gx,fx)}else i=s;else i=FT(Ob.z,gx,fx);return i}}const FT=(t,e,s)=>t.add(e).div(e.sub(s)),UT=(t,e,s)=>e.sub(s).mul(t).sub(e),OT=(t,e,s)=>e.add(t).mul(s).div(s.sub(e).mul(t)),zT=(t,e,s)=>e.mul(s).div(s.sub(e).mul(t).sub(s));PT.DEPTH="depth",PT.LINEAR_DEPTH="linearDepth";const LT=Yp(PT,PT.DEPTH),VT=Jp(PT,PT.DEPTH),DT=Yp(PT,PT.LINEAR_DEPTH),kT=DT(IT());VT.assign=t=>LT(t),ap("ViewportDepthNode",PT);class GT extends op{constructor(t=GT.DEFAULT){super(),this.scope=t}setup(t){super.setup(t);const e=t.clippingContext,{localClipIntersection:s,localClippingCount:i,globalClippingCount:r}=e,n=r+i,o=s?n-i:n;return this.scope===GT.ALPHA_TO_COVERAGE?this.setupAlphaToCoverage(e.planes,n,o):this.setupDefault(e.planes,n,o)}setupAlphaToCoverage(t,e,s){return Zp((()=>{const i=ax(t),r=cg("float","distanceToPlane"),n=cg("float","distanceToGradient"),o=cg("float","clipOpacity");let a;if(o.assign(1),nv(s,(({i:t})=>{a=i.element(t),r.assign(Ob.dot(a.xyz).negate().add(a.w)),n.assign(r.fwidth().div(2)),o.mulAssign(zy(n.negate(),n,r)),o.equal(0).discard()})),s{a=i.element(e),r.assign(Ob.dot(a.xyz).negate().add(a.w)),n.assign(r.fwidth().div(2)),t.mulAssign(zy(n.negate(),n,r).oneMinus())})),o.mulAssign(t.oneMinus())}pg.a.mulAssign(o),pg.a.equal(0).discard()}))()}setupDefault(t,e,s){return Zp((()=>{const i=ax(t);let r;if(nv(s,(({i:t})=>{r=i.element(t),Ob.dot(r.xyz).greaterThan(r.w).discard()})),s{r=i.element(e),t.assign(Ob.dot(r.xyz).greaterThan(r.w).and(t))})),t.discard()}}))()}}GT.ALPHA_TO_COVERAGE="alphaToCoverage",GT.DEFAULT="default";class WT extends op{constructor(){super("bool"),this.isFrontFacingNode=!0}generate(t){const{renderer:e,material:s}=t;return e.coordinateSystem===zs&&s.side===d?"false":t.getFrontFacing()}}const jT=Jp(WT),HT=im(jT).mul(2).sub(1);ap("FrontFacingNode",WT);const qT=new Map;class $T extends Jr{constructor(){super(),this.isNodeMaterial=!0,this.type=this.constructor.type,this.forceSinglePass=!1,this.fog=!0,this.lights=!0,this.normals=!0,this.lightsNode=null,this.envNode=null,this.aoNode=null,this.colorNode=null,this.normalNode=null,this.opacityNode=null,this.backdropNode=null,this.backdropAlphaNode=null,this.alphaTestNode=null,this.positionNode=null,this.depthNode=null,this.shadowNode=null,this.shadowPositionNode=null,this.outputNode=null,this.fragmentNode=null,this.vertexNode=null}customProgramCacheKey(){return this.type+Zd(this)}build(t){this.setup(t)}setup(t){let e;t.addStack(),t.stack.outputNode=this.vertexNode||this.setupPosition(t),t.addFlow("vertex",t.removeStack()),t.addStack();const s=this.setupClipping(t);if(!0===this.depthWrite&&this.setupDepth(t),null===this.fragmentNode){!0===this.normals&&this.setupNormal(t),this.setupDiffuseColor(t),this.setupVariants(t);const i=this.setupLighting(t);null!==s&&t.stack.add(s);const r=gm(i,pg.a).max(0);e=this.setupOutput(t,r),Eg.assign(e),null!==this.outputNode&&(e=this.outputNode)}else{let s=this.fragmentNode;!0!==s.isOutputStructNode&&(s=gm(s)),e=this.setupOutput(t,s)}t.stack.outputNode=e,t.addFlow("fragment",t.removeStack())}setupClipping(t){if(null===t.clippingContext)return null;const{globalClippingCount:e,localClippingCount:s}=t.clippingContext;let i=null;return(e||s)&&(this.alphaToCoverage?i=qp(new GT(GT.ALPHA_TO_COVERAGE)):t.stack.add(qp(new GT))),i}setupDepth(t){const{renderer:e}=t;let s=this.depthNode;if(null===s&&!0===e.logarithmicDepthBuffer){s=Vb().w.add(1).log2().mul(yx).mul(.5)}null!==s&&VT.assign(s).append()}setupPosition(t){const{object:e}=t,s=e.geometry;if(t.addStack(),(s.morphAttributes.position||s.morphAttributes.normal||s.morphAttributes.color)&&dv(e).append(),!0===e.isSkinnedMesh&&iv(e).append(),this.displacementMap){const t=px("displacementMap","texture"),e=px("displacementScale","float"),s=px("displacementBias","float");Pb.addAssign(Gx.normalize().mul(t.x.mul(e).add(s)))}e.isBatchedMesh&&tv(e).append(),e.instanceMatrix&&!0===e.instanceMatrix.isInstancedBufferAttribute&&qb(e).append(),null!==this.positionNode&&Pb.assign(this.positionNode);const i=Vb();return t.context.vertex=t.removeStack(),t.context.mvp=i,i}setupDiffuseColor({object:t,geometry:e}){let s=this.colorNode?gm(this.colorNode):Zx;if(!0===this.vertexColors&&e.hasAttribute("color")&&(s=gm(s.xyz.mul(km("color","vec3")),s.a)),t.instanceColor){s=dg("vec3","vInstanceColor").mul(s)}pg.assign(s);const i=this.opacityNode?im(this.opacityNode):tb;if(pg.a.assign(pg.a.mul(i)),null!==this.alphaTestNode||this.alphaTest>0){const t=null!==this.alphaTestNode?im(this.alphaTestNode):Jx;pg.a.lessThanEqual(t).discard()}!1===this.transparent&&1===this.blending&&!1===this.alphaToCoverage&&pg.a.assign(1)}setupVariants(){}setupNormal(){if(!0===this.flatShading){const t=Ob.dFdx().cross(Ob.dFdy()).normalize();Hx.assign(t.mul(HT))}else{const t=this.normalNode?cm(this.normalNode):hb;Hx.assign(t.mul(HT))}}getEnvNode(t){let e=null;return this.envNode?e=this.envNode:this.envMap?e=this.envMap.isCubeTexture?fv(this.envMap):tx(this.envMap):t.environmentNode&&(e=t.environmentNode),e}setupLights(t){const e=this.getEnvNode(t),s=[];if(e&&s.push(new dT(e)),t.material.lightMap&&s.push(new gT(px("lightMap","texture"))),null!==this.aoNode||t.material.aoMap){const e=null!==this.aoNode?this.aoNode:tx(t.material.aoMap);s.push(new Mv(e))}let i=this.lightsNode||t.lightsNode;return s.length>0&&(i=wv([...i.lightNodes,...s])),i}setupLightingModel(){}setupLighting(t){const{material:e}=t,{backdropNode:s,backdropAlphaNode:i,emissiveNode:r}=this,n=!0===this.lights||null!==this.lightsNode?this.setupLights(t):null;let o=pg.rgb;if(n&&!1!==n.hasLight){const e=this.setupLightingModel(t);o=Nv(n,e,s,i)}else null!==s&&(o=cm(null!==i?Py(o,s,i):s));return(r&&!0===r.isNode||e.emissive&&!0===e.emissive.isColor)&&(o=o.add(cm(r||Kx))),o}setupOutput(t,e){if(!0===this.fog){const s=t.fogNode;s&&(e=gm(s.mix(e.rgb,s.colorNode),e.a))}return e}setDefaultValues(t){for(const e in t){const s=t[e];void 0===this[e]&&(this[e]=s,s&&s.clone&&(this[e]=s.clone()))}const e=Object.getOwnPropertyDescriptors(t.constructor.prototype);for(const t in e)void 0===Object.getOwnPropertyDescriptor(this.constructor.prototype,t)&&void 0!==e[t].get&&Object.defineProperty(this.constructor.prototype,t,e[t])}toJSON(t){const e=void 0===t||"string"==typeof t;e&&(t={textures:{},images:{},nodes:{}});const s=Jr.prototype.toJSON.call(this,t),i=Qd(this);s.inputNodes={};for(const{property:e,childNode:r}of i)s.inputNodes[e]=r.toJSON(t).uuid;function r(t){const e=[];for(const s in t){const i=t[s];delete i.metadata,e.push(i)}return e}if(e){const e=r(t.textures),i=r(t.images),n=r(t.nodes);e.length>0&&(s.textures=e),i.length>0&&(s.images=i),n.length>0&&(s.nodes=n)}return s}copy(t){return this.lightsNode=t.lightsNode,this.envNode=t.envNode,this.colorNode=t.colorNode,this.normalNode=t.normalNode,this.opacityNode=t.opacityNode,this.backdropNode=t.backdropNode,this.backdropAlphaNode=t.backdropAlphaNode,this.alphaTestNode=t.alphaTestNode,this.positionNode=t.positionNode,this.depthNode=t.depthNode,this.shadowNode=t.shadowNode,this.shadowPositionNode=t.shadowPositionNode,this.outputNode=t.outputNode,this.fragmentNode=t.fragmentNode,this.vertexNode=t.vertexNode,super.copy(t)}static fromMaterial(t){if(!0===t.isNodeMaterial)return t;const e=YT(t.type.replace("Material","NodeMaterial"));if(void 0===e)throw new Error(`NodeMaterial: Material "${t.type}" is not compatible.`);for(const s in t)e[s]=t[s];return e}}function XT(t,e){if("function"!=typeof e||!t)throw new Error(`Node material ${t} is not a class`);qT.has(t)?console.warn(`Redefinition of node material ${t}`):(qT.set(t,e),e.type=t)}function YT(t){const e=qT.get(t);if(void 0!==e)return new e}XT("NodeMaterial",$T);class JT{constructor(t,e){this.name=t,this.value=e,this.boundary=0,this.itemSize=0,this.offset=0}setValue(t){this.value=t}getValue(){return this.value}}class ZT extends JT{constructor(t,e=0){super(t,e),this.isNumberUniform=!0,this.boundary=4,this.itemSize=1}}class QT extends JT{constructor(t,e=new Zs){super(t,e),this.isVector2Uniform=!0,this.boundary=8,this.itemSize=2}}class KT extends JT{constructor(t,e=new Ri){super(t,e),this.isVector3Uniform=!0,this.boundary=16,this.itemSize=3}}class t_ extends JT{constructor(t,e=new vi){super(t,e),this.isVector4Uniform=!0,this.boundary=16,this.itemSize=4}}class e_ extends JT{constructor(t,e=new $r){super(t,e),this.isColorUniform=!0,this.boundary=16,this.itemSize=3}}class s_ extends JT{constructor(t,e=new Qs){super(t,e),this.isMatrix3Uniform=!0,this.boundary=48,this.itemSize=12}}class i_ extends JT{constructor(t,e=new rr){super(t,e),this.isMatrix4Uniform=!0,this.boundary=64,this.itemSize=16}}class r_ extends ZT{constructor(t){super(t.name,t.value),this.nodeUniform=t}getValue(){return this.nodeUniform.value}}class n_ extends QT{constructor(t){super(t.name,t.value),this.nodeUniform=t}getValue(){return this.nodeUniform.value}}class o_ extends KT{constructor(t){super(t.name,t.value),this.nodeUniform=t}getValue(){return this.nodeUniform.value}}class a_ extends t_{constructor(t){super(t.name,t.value),this.nodeUniform=t}getValue(){return this.nodeUniform.value}}class h_ extends e_{constructor(t){super(t.name,t.value),this.nodeUniform=t}getValue(){return this.nodeUniform.value}}class l_ extends s_{constructor(t){super(t.name,t.value),this.nodeUniform=t}getValue(){return this.nodeUniform.value}}class u_ extends i_{constructor(t){super(t.name,t.value),this.nodeUniform=t}getValue(){return this.nodeUniform.value}}class c_ extends op{constructor(t=null){super(),this.nodes=[],this.outputNode=null,this.parent=t,this._currentCond=null,this.isStackNode=!0}getNodeType(t){return this.outputNode?this.outputNode.getNodeType(t):"void"}add(t){return this.nodes.push(t),this}if(t,e){const s=new Hp(e);return this._currentCond=Dv(t,s),this.add(this._currentCond)}elseif(t,e){const s=new Hp(e),i=Dv(t,s);return this._currentCond.elseNode=i,this._currentCond=i,this}else(t){return this._currentCond.elseNode=new Hp(t),this}build(t,...e){const s=Kp();Qp(this);for(const e of this.nodes)e.build(t,"void");return Qp(s),this.outputNode?this.outputNode.build(t,...e):super.build(t,...e)}}const d_=Yp(c_);ap("StackNode",c_);class p_ extends lp{constructor(t=Ub){super("vec2"),this.dirNode=t}setup(){const t=this.dirNode,e=t.z.atan2(t.x).mul(1/(2*Math.PI)).add(.5),s=t.y.clamp(-1,1).asin().mul(1/Math.PI).add(.5);return am(e,s)}}const m_=Yp(p_);ap("EquirectUVNode",p_);class g_ extends to{constructor(t=1,e={}){super(t,e),this.isCubeRenderTarget=!0}fromEquirectangularTexture(t,e){const s=e.minFilter,i=e.generateMipmaps;e.generateMipmaps=!0,this.texture.type=e.type,this.texture.colorSpace=e.colorSpace,this.texture.generateMipmaps=e.generateMipmaps,this.texture.minFilter=e.minFilter,this.texture.magFilter=e.magFilter;const r=new Wn(5,5,5),n=m_(Ub),o=YT("MeshBasicNodeMaterial");o.colorNode=tx(e,n,0),o.side=d,o.blending=m;const a=new kn(r,o),h=new io;h.add(a),e.minFilter===St&&(e.minFilter=Tt);return new Qn(1,10,this).update(t,h),e.minFilter=s,e.currentGenerateMipmaps=i,a.geometry.dispose(),a.material.dispose(),this}}const f_=[.125,.215,.35,.446,.526,.582],y_=20,x_=new Au(-1,1,1,-1,0,1),b_=new Jn(90,1),v_=new $r;let T_=null,__=0,w_=0;const S_=(1+Math.sqrt(5))/2,M_=1/S_,A_=[new Ri(-S_,M_,0),new Ri(S_,M_,0),new Ri(-M_,0,S_),new Ri(M_,0,S_),new Ri(0,S_,-M_),new Ri(0,S_,M_),new Ri(-1,1,-1),new Ri(1,1,-1),new Ri(-1,1,1),new Ri(1,1,1)],N_=[3,1,5,0,4,2],R_=sT(of(),km("faceIndex")).normalize(),C_=cm(R_.x,R_.y.negate(),R_.z);class E_{constructor(t){this._renderer=t,this._pingPongRenderTarget=null,this._lodMax=0,this._cubeSize=0,this._lodPlanes=[],this._sizeLods=[],this._sigmas=[],this._lodMeshes=[],this._blurMaterial=null,this._cubemapMaterial=null,this._equirectMaterial=null,this._backgroundBox=null}fromScene(t,e=0,s=.1,i=100){T_=this._renderer.getRenderTarget(),__=this._renderer.getActiveCubeFace(),w_=this._renderer.getActiveMipmapLevel(),this._setSize(256);const r=this._allocateTargets();return r.depthBuffer=!0,this._sceneToCubeUV(t,s,i,r),e>0&&this._blur(r,0,0,e),this._applyPMREM(r),this._cleanup(r),r}fromEquirectangular(t,e=null){return this._fromTexture(t,e)}fromCubemap(t,e=null){return this._fromTexture(t,e)}compileCubemapShader(){null===this._cubemapMaterial&&(this._cubemapMaterial=F_(),this._compileMaterial(this._cubemapMaterial))}compileEquirectangularShader(){null===this._equirectMaterial&&(this._equirectMaterial=U_(),this._compileMaterial(this._equirectMaterial))}dispose(){this._dispose(),null!==this._cubemapMaterial&&this._cubemapMaterial.dispose(),null!==this._equirectMaterial&&this._equirectMaterial.dispose(),null!==this._backgroundBox&&(this._backgroundBox.geometry.dispose(),this._backgroundBox.material.dispose())}_setSize(t){this._lodMax=Math.floor(Math.log2(t)),this._cubeSize=Math.pow(2,this._lodMax)}_dispose(){null!==this._blurMaterial&&this._blurMaterial.dispose(),null!==this._pingPongRenderTarget&&this._pingPongRenderTarget.dispose();for(let t=0;tt-4?h=f_[a-t+4-1]:0===a&&(h=0),i.push(h);const l=1/(o-2),u=-l,c=1+l,d=[u,u,c,u,c,c,u,u,c,c,u,c],p=6,m=6,g=3,f=2,y=1,x=new Float32Array(g*m*p),b=new Float32Array(f*m*p),v=new Float32Array(y*m*p);for(let t=0;t2?0:-1,i=[e,s,0,e+2/3,s,0,e+2/3,s+1,0,e,s,0,e+2/3,s+1,0,e,s+1,0],r=N_[t];x.set(i,g*m*r),b.set(d,f*m*r);const n=[r,r,r,r,r,r];v.set(n,y*m*r)}const T=new wn;T.setAttribute("position",new on(x,g)),T.setAttribute("uv",new on(b,f)),T.setAttribute("faceIndex",new on(v,y)),e.push(T),r.push(new kn(T,null)),n>4&&n--}return{lodPlanes:e,sizeLods:s,sigmas:i,lodMeshes:r}}(i)),this._blurMaterial=function(t,e,s){const i=ax(new Array(y_).fill(0)),r=nf(new Ri(0,1,0)),n=nf(0),o=im(y_),a=nf(0),h=nf(1),l=tx(null),u=nf(0),c=im(1/e),d=im(1/s),p=im(t),m={n:o,latitudinal:a,weights:i,poleAxis:r,outputDirection:C_,dTheta:n,samples:h,envMap:l,mipInt:u,CUBEUV_TEXEL_WIDTH:c,CUBEUV_TEXEL_HEIGHT:d,CUBEUV_MAX_MIP:p},g=P_();return g.uniforms=m,g.fragmentNode=oT({...m,latitudinal:a.equal(1)}),g}(i,t,e)}return i}_compileMaterial(t){const e=this._lodMeshes[0];e.material=t,this._renderer.compile(e,x_)}_sceneToCubeUV(t,e,s,i){const r=b_;r.near=e,r.far=s;const n=[-1,1,-1,-1,-1,-1],o=[1,1,1,-1,-1,-1],a=this._renderer,h=a.autoClear;a.getClearColor(v_),a.autoClear=!1;let l=this._backgroundBox;if(null===l){const t=new Zr({name:"PMREM.Background",side:d,depthWrite:!1,depthTest:!1});l=new kn(new Wn,t)}let u=!1;const c=t.background;c?c.isColor&&(l.material.color.copy(c),t.background=null,u=!0):(l.material.color.copy(v_),u=!0),a.setRenderTarget(i),a.clear(),u&&a.render(l,r);for(let e=0;e<6;e++){const s=e%3;0===s?(r.up.set(0,n[e],0),r.lookAt(o[e],0,0)):1===s?(r.up.set(0,0,n[e]),r.lookAt(0,o[e],0)):(r.up.set(0,n[e],0),r.lookAt(0,0,o[e]));const h=this._cubeSize;I_(i,s*h,e>2?h:0,h,h),a.render(t,r)}a.autoClear=h,t.background=c}_textureToCubeUV(t,e){const s=this._renderer,i=t.mapping===ht||t.mapping===lt;i?null===this._cubemapMaterial&&(this._cubemapMaterial=F_(t)):null===this._equirectMaterial&&(this._equirectMaterial=U_(t));const r=i?this._cubemapMaterial:this._equirectMaterial;r.fragmentNode.value=t;const n=this._lodMeshes[0];n.material=r;const o=this._cubeSize;I_(e,0,0,3*o,2*o),s.setRenderTarget(e),s.render(n,x_)}_applyPMREM(t){const e=this._renderer,s=e.autoClear;e.autoClear=!1;const i=this._lodPlanes.length;for(let e=1;ey_&&console.warn(`sigmaRadians, ${r}, is too large and will clip, as it requested ${m} samples when the maximum is set to 20`);const g=[];let f=0;for(let t=0;ty-4?i-y+4:0),4*(this._cubeSize-x),3*x,2*x),a.setRenderTarget(e),a.render(l,x_)}}function B_(t,e,s){const i=new Ti(t,e,s);return i.texture.mapping=306,i.texture.name="PMREM.cubeUv",i.texture.isPMREMTexture=!0,i.scissorTest=!0,i}function I_(t,e,s,i,r){const n=t.height-r-s;t.viewport.set(e,n,i,r),t.scissor.set(e,n,i,r)}function P_(){const t=new $T;return t.depthTest=!1,t.depthWrite=!1,t.blending=m,t}function F_(t){const e=P_();return e.fragmentNode=fv(t,C_),e}function U_(t){const e=P_();return e.fragmentNode=tx(t,m_(C_),0),e}let O_=0;class z_{constructor(t="",e=[]){this.name=t,this.bindings=e,this.id=O_++}}const L_=new WeakMap,V_=new Map([[2,"vec2"],[3,"vec3"],[4,"vec4"],[9,"mat3"],[16,"mat4"]]),D_=new Map([[Int8Array,"int"],[Int16Array,"int"],[Int32Array,"int"],[Uint8Array,"uint"],[Uint16Array,"uint"],[Uint32Array,"uint"],[Float32Array,"float"]]),k_=t=>(t=Number(t))+(t%1?"":".0");class G_{constructor(t,e,s){this.object=t,this.material=t&&t.material||null,this.geometry=t&&t.geometry||null,this.renderer=e,this.parser=s,this.scene=null,this.camera=null,this.nodes=[],this.updateNodes=[],this.updateBeforeNodes=[],this.updateAfterNodes=[],this.hashNodes={},this.lightsNode=null,this.environmentNode=null,this.fogNode=null,this.clippingContext=null,this.vertexShader=null,this.fragmentShader=null,this.computeShader=null,this.flowNodes={vertex:[],fragment:[],compute:[]},this.flowCode={vertex:"",fragment:"",compute:""},this.uniforms={vertex:[],fragment:[],compute:[],index:0},this.structs={vertex:[],fragment:[],compute:[],index:0},this.bindings={vertex:{},fragment:{},compute:{}},this.bindingsIndexes={},this.bindGroups=null,this.attributes=[],this.bufferAttributes=[],this.varyings=[],this.codes={},this.vars={},this.flow={code:""},this.chaining=[],this.stack=d_(),this.stacks=[],this.tab="\t",this.instanceBindGroups=!0,this.currentFunctionNode=null,this.context={keywords:new ag,material:this.material},this.cache=new lg,this.globalCache=this.cache,this.flowsData=new WeakMap,this.shaderStage=null,this.buildStage=null}getBingGroupsCache(){let t=L_.get(this.renderer);return void 0===t&&(t=new vd,L_.set(this.renderer,t)),t}createRenderTarget(t,e,s){return new Ti(t,e,s)}createCubeRenderTarget(t,e){return new g_(t,e)}createPMREMGenerator(){return new E_(this.renderer)}includes(t){return this.nodes.includes(t)}_getBindGroup(t,e){const s=this.getBingGroupsCache(),i=[];let r,n=!0;for(const t of e)if(!0===t.groupNode.shared){const e=t.getNodes();let r=s.get(e);void 0===r&&(s.set(e,t),r=t),i.push(r)}else i.push(t),n=!1;return n?(r=s.get(i),void 0===r&&(r=new z_(t,i),s.set(i,r))):r=new z_(t,i),r}getBindGroupArray(t,e){const s=this.bindings[e];let i=s[t];return void 0===i&&(void 0===this.bindingsIndexes[t]&&(this.bindingsIndexes[t]={binding:0,group:Object.keys(this.bindingsIndexes).length}),s[t]=i=[]),i}getBindings(){let t=this.bindGroups;if(null===t){const e={},s=this.bindings;for(const t of Yd)for(const i in s[t]){const r=s[t][i];(e[i]||(e[i]=[])).push(...r)}t=[];for(const s in e){const i=e[s],r=this._getBindGroup(s,i);t.push(r)}this.bindGroups=t}return t}setHashNode(t,e){this.hashNodes[e]=t}addNode(t){!1===this.nodes.includes(t)&&(this.nodes.push(t),this.setHashNode(t,t.getHash(this)))}buildUpdateNodes(){for(const t of this.nodes){const e=t.getUpdateType(),s=t.getUpdateBeforeType(),i=t.getUpdateAfterType();e!==Hd.NONE&&this.updateNodes.push(t.getSelf()),s!==Hd.NONE&&this.updateBeforeNodes.push(t),i!==Hd.NONE&&this.updateAfterNodes.push(t)}}get currentNode(){return this.chaining[this.chaining.length-1]}isFilteredTexture(t){return t.magFilter===Tt||t.magFilter===_t||t.magFilter===bt||t.magFilter===St||t.minFilter===Tt||t.minFilter===_t||t.minFilter===bt||t.minFilter===St}addChain(t){this.chaining.push(t)}removeChain(t){if(this.chaining.pop()!==t)throw new Error("NodeBuilder: Invalid node chaining!")}getMethod(t){return t}getNodeFromHash(t){return this.hashNodes[t]}addFlow(t,e){return this.flowNodes[t].push(e),e}setContext(t){this.context=t}getContext(){return this.context}setCache(t){this.cache=t}getCache(){return this.cache}getCacheFromNode(t,e=!0){const s=this.getDataFromNode(t);return void 0===s.cache&&(s.cache=new lg(e?this.getCache():null)),s.cache}isAvailable(){return!1}getVertexIndex(){console.warn("Abstract function.")}getInstanceIndex(){console.warn("Abstract function.")}getDrawIndex(){console.warn("Abstract function.")}getFrontFacing(){console.warn("Abstract function.")}getFragCoord(){console.warn("Abstract function.")}isFlipY(){return!1}generateTexture(){console.warn("Abstract function.")}generateTextureLod(){console.warn("Abstract function.")}generateConst(t,e=null){if(null===e&&("float"===t||"int"===t||"uint"===t?e=0:"bool"===t?e=!1:"color"===t?e=new $r:"vec2"===t?e=new Zs:"vec3"===t?e=new Ri:"vec4"===t&&(e=new vi)),"float"===t)return k_(e);if("int"===t)return`${Math.round(e)}`;if("uint"===t)return e>=0?`${Math.round(e)}u`:"0u";if("bool"===t)return e?"true":"false";if("color"===t)return`${this.getType("vec3")}( ${k_(e.r)}, ${k_(e.g)}, ${k_(e.b)} )`;const s=this.getTypeLength(t),i=this.getComponentType(t),r=t=>this.generateConst(i,t);if(2===s)return`${this.getType(t)}( ${r(e.x)}, ${r(e.y)} )`;if(3===s)return`${this.getType(t)}( ${r(e.x)}, ${r(e.y)}, ${r(e.z)} )`;if(4===s)return`${this.getType(t)}( ${r(e.x)}, ${r(e.y)}, ${r(e.z)}, ${r(e.w)} )`;if(s>4&&e&&(e.isMatrix3||e.isMatrix4))return`${this.getType(t)}( ${e.elements.map(r).join(", ")} )`;if(s>4)return`${this.getType(t)}()`;throw new Error(`NodeBuilder: Type '${t}' not found in generate constant attempt.`)}getType(t){return"color"===t?"vec3":t}hasGeometryAttribute(t){return this.geometry&&void 0!==this.geometry.getAttribute(t)}getAttribute(t,e){const s=this.attributes;for(const e of s)if(e.name===t)return e;const i=new sg(t,e);return s.push(i),i}getPropertyName(t){return t.name}isVector(t){return/vec\d/.test(t)}isMatrix(t){return/mat\d/.test(t)}isReference(t){return"void"===t||"property"===t||"sampler"===t||"texture"===t||"cubeTexture"===t||"storageTexture"===t||"depthTexture"===t||"texture3D"===t}needsColorSpaceToLinear(){return!1}getComponentTypeFromTexture(t){const e=t.type;if(t.isDataTexture){if(e===Et)return"int";if(e===Bt)return"uint"}return"float"}getElementType(t){return"mat2"===t?"vec2":"mat3"===t?"vec3":"mat4"===t?"vec4":this.getComponentType(t)}getComponentType(t){if("float"===(t=this.getVectorType(t))||"bool"===t||"int"===t||"uint"===t)return t;const e=/(b|i|u|)(vec|mat)([2-4])/.exec(t);return null===e?null:"b"===e[1]?"bool":"i"===e[1]?"int":"u"===e[1]?"uint":"float"}getVectorType(t){return"color"===t?"vec3":"texture"===t||"cubeTexture"===t||"storageTexture"===t||"texture3D"===t?"vec4":t}getTypeFromLength(t,e="float"){if(1===t)return e;const s=V_.get(t);return("float"===e?"":e[0])+s}getTypeFromArray(t){return D_.get(t.constructor)}getTypeFromAttribute(t){let e=t;t.isInterleavedBufferAttribute&&(e=t.data);const s=e.array,i=t.itemSize,r=t.normalized;let n;return t instanceof mn||!0===r||(n=this.getTypeFromArray(s)),this.getTypeFromLength(i,n)}getTypeLength(t){const e=this.getVectorType(t),s=/vec([2-4])/.exec(e);return null!==s?Number(s[1]):"float"===e||"bool"===e||"int"===e||"uint"===e?1:!0===/mat2/.test(t)?4:!0===/mat3/.test(t)?9:!0===/mat4/.test(t)?16:0}getVectorFromMatrix(t){return t.replace("mat","vec")}changeComponentType(t,e){return this.getTypeFromLength(this.getTypeLength(t),e)}getIntegerType(t){const e=this.getComponentType(t);return"int"===e||"uint"===e?t:this.changeComponentType(t,"int")}addStack(){return this.stack=d_(this.stack),this.stacks.push(Kp()||this.stack),Qp(this.stack),this.stack}removeStack(){const t=this.stack;return this.stack=t.parent,Qp(this.stacks.pop()),t}getDataFromNode(t,e=this.shaderStage,s=null){let i=(s=null===s?t.isGlobal(this)?this.globalCache:this.cache:s).getData(t);return void 0===i&&(i={},s.setData(t,i)),void 0===i[e]&&(i[e]={}),i[e]}getNodeProperties(t,e="any"){const s=this.getDataFromNode(t,e);return s.properties||(s.properties={outputNode:null})}getBufferAttributeFromNode(t,e){const s=this.getDataFromNode(t);let i=s.bufferAttribute;if(void 0===i){const r=this.uniforms.index++;i=new sg("nodeAttribute"+r,e,t),this.bufferAttributes.push(i),s.bufferAttribute=i}return i}getStructTypeFromNode(t,e=this.shaderStage){const s=this.getDataFromNode(t,e);if(void 0===s.structType){const i=this.structs.index++;t.name=`StructType${i}`,this.structs[e].push(t),s.structType=t}return t}getUniformFromNode(t,e,s=this.shaderStage,i=null){const r=this.getDataFromNode(t,s,this.globalCache);let n=r.uniform;if(void 0===n){const o=this.uniforms.index++;n=new ig(i||"nodeUniform"+o,e,t),this.uniforms[s].push(n),r.uniform=n}return n}getVarFromNode(t,e=null,s=t.getNodeType(this),i=this.shaderStage){const r=this.getDataFromNode(t,i);let n=r.variable;if(void 0===n){const t=this.vars[i]||(this.vars[i]=[]);null===e&&(e="nodeVar"+t.length),n=new rg(e,s),t.push(n),r.variable=n}return n}getVaryingFromNode(t,e=null,s=t.getNodeType(this)){const i=this.getDataFromNode(t,"any");let r=i.varying;if(void 0===r){const t=this.varyings,n=t.length;null===e&&(e="nodeVarying"+n),r=new ng(e,s),t.push(r),i.varying=r}return r}getCodeFromNode(t,e,s=this.shaderStage){const i=this.getDataFromNode(t);let r=i.code;if(void 0===r){const t=this.codes[s]||(this.codes[s]=[]),n=t.length;r=new og("nodeCode"+n,e),t.push(r),i.code=r}return r}addLineFlowCode(t){return""===t||(t=this.tab+t,/;\s*$/.test(t)||(t+=";\n"),this.flow.code+=t),this}addFlowCode(t){return this.flow.code+=t,this}addFlowTab(){return this.tab+="\t",this}removeFlowTab(){return this.tab=this.tab.slice(0,-1),this}getFlowData(t){return this.flowsData.get(t)}flowNode(t){const e=t.getNodeType(this),s=this.flowChildNode(t,e);return this.flowsData.set(t,s),s}buildFunctionNode(t){const e=new $g,s=this.currentFunctionNode;return this.currentFunctionNode=e,e.code=this.buildFunctionCode(t),this.currentFunctionNode=s,e}flowShaderNode(t){const e=t.layout;let s;if(t.isArrayInput){s=[];for(const t of e.inputs)s.push(new Dg(t.type,t.name))}else{s={};for(const t of e.inputs)s[t.name]=new Dg(t.type,t.name)}t.layout=null;const i=t.call(s),r=this.flowStagesNode(i,e.type);return t.layout=e,r}flowStagesNode(t,e=null){const s=this.flow,i=this.vars,r=this.cache,n=this.buildStage,o=this.stack,a={code:""};this.flow=a,this.vars={},this.cache=new lg,this.stack=d_();for(const s of Xd)this.setBuildStage(s),a.result=t.build(this,e);return a.vars=this.getVars(this.shaderStage),this.flow=s,this.vars=i,this.cache=r,this.stack=o,this.setBuildStage(n),a}getFunctionOperator(){return null}flowChildNode(t,e=null){const s=this.flow,i={code:""};return this.flow=i,i.result=t.build(this,e),this.flow=s,i}flowNodeFromShaderStage(t,e,s=null,i=null){const r=this.shaderStage;this.setShaderStage(t);const n=this.flowChildNode(e,s);return null!==i&&(n.code+=`${this.tab+i} = ${n.result};\n`),this.flowCode[t]=this.flowCode[t]+n.code,this.setShaderStage(r),n}getAttributesArray(){return this.attributes.concat(this.bufferAttributes)}getAttributes(){console.warn("Abstract function.")}getVaryings(){console.warn("Abstract function.")}getVar(t,e){return`${this.getType(t)} ${e}`}getVars(t){let e="";const s=this.vars[t];if(void 0!==s)for(const t of s)e+=`${this.getVar(t.type,t.name)}; `;return e}getUniforms(){console.warn("Abstract function.")}getCodes(t){const e=this.codes[t];let s="";if(void 0!==e)for(const t of e)s+=t.code+"\n";return s}getHash(){return this.vertexShader+this.fragmentShader+this.computeShader}setShaderStage(t){this.shaderStage=t}getShaderStage(){return this.shaderStage}setBuildStage(t){this.buildStage=t}getBuildStage(){return this.buildStage}buildCode(){console.warn("Abstract function.")}build(){const{object:t,material:e}=this;null!==e?$T.fromMaterial(e).build(this):this.addFlow("compute",t);for(const t of Xd){this.setBuildStage(t),this.context.vertex&&this.context.vertex.isNode&&this.flowNodeFromShaderStage("vertex",this.context.vertex);for(const e of Yd){this.setShaderStage(e);const s=this.flowNodes[e];for(const e of s)"generate"===t?this.flowNode(e):e.build(this)}}return this.setBuildStage(null),this.setShaderStage(null),this.buildCode(),this.buildUpdateNodes(),this}getNodeUniform(t,e){if("float"===e||"int"===e||"uint"===e)return new r_(t);if("vec2"===e||"ivec2"===e||"uvec2"===e)return new n_(t);if("vec3"===e||"ivec3"===e||"uvec3"===e)return new o_(t);if("vec4"===e||"ivec4"===e||"uvec4"===e)return new a_(t);if("color"===e)return new h_(t);if("mat3"===e)return new l_(t);if("mat4"===e)return new u_(t);throw new Error(`Uniform "${e}" not declared.`)}createNodeMaterial(t="NodeMaterial"){return YT(t)}format(t,e,s){if((e=this.getVectorType(e))===(s=this.getVectorType(s))||null===s||this.isReference(s))return t;const i=this.getTypeLength(e),r=this.getTypeLength(s);return i>4||r>4||0===r?t:i===r?`${this.getType(s)}( ${t} )`:i>r?this.format(`${t}.${"xyz".slice(0,r)}`,this.getTypeFromLength(r,this.getComponentType(e)),s):4===r&&i>1?`${this.getType(s)}( ${this.format(t,e,"vec3")}, 1.0 )`:2===i?`${this.getType(s)}( ${this.format(t,e,"vec2")}, 0.0 )`:(1===i&&r>1&&e!==this.getComponentType(s)&&(t=`${this.getType(this.getComponentType(s))}( ${t} )`),`${this.getType(s)}( ${t} )`)}getSignature(){return`// Three.js r${t} - Node System\n`}}class W_{constructor(){this.time=0,this.deltaTime=0,this.frameId=0,this.renderId=0,this.startTime=null,this.updateMap=new WeakMap,this.updateBeforeMap=new WeakMap,this.updateAfterMap=new WeakMap,this.renderer=null,this.material=null,this.camera=null,this.object=null,this.scene=null}_getMaps(t,e){let s=t.get(e);return void 0===s&&(s={renderMap:new WeakMap,frameMap:new WeakMap},t.set(e,s)),s}updateBeforeNode(t){const e=t.getUpdateBeforeType(),s=t.updateReference(this);if(e===Hd.FRAME){const{frameMap:e}=this._getMaps(this.updateBeforeMap,s);e.get(s)!==this.frameId&&!1!==t.updateBefore(this)&&e.set(s,this.frameId)}else if(e===Hd.RENDER){const{renderMap:e}=this._getMaps(this.updateBeforeMap,s);e.get(s)!==this.renderId&&!1!==t.updateBefore(this)&&e.set(s,this.renderId)}else e===Hd.OBJECT&&t.updateBefore(this)}updateAfterNode(t){const e=t.getUpdateAfterType(),s=t.updateReference(this);if(e===Hd.FRAME){const{frameMap:e}=this._getMaps(this.updateAfterMap,s);e.get(s)!==this.frameId&&!1!==t.updateAfter(this)&&e.set(s,this.frameId)}else if(e===Hd.RENDER){const{renderMap:e}=this._getMaps(this.updateAfterMap,s);e.get(s)!==this.renderId&&!1!==t.updateAfter(this)&&e.set(s,this.renderId)}else e===Hd.OBJECT&&t.updateAfter(this)}updateNode(t){const e=t.getUpdateType(),s=t.updateReference(this);if(e===Hd.FRAME){const{frameMap:e}=this._getMaps(this.updateMap,s);e.get(s)!==this.frameId&&!1!==t.update(this)&&e.set(s,this.frameId)}else if(e===Hd.RENDER){const{renderMap:e}=this._getMaps(this.updateMap,s);e.get(s)!==this.renderId&&!1!==t.update(this)&&e.set(s,this.renderId)}else e===Hd.OBJECT&&t.update(this)}update(){this.frameId++,void 0===this.lastTime&&(this.lastTime=performance.now()),this.deltaTime=(performance.now()-this.lastTime)/1e3,this.lastTime=performance.now(),this.time+=this.deltaTime}}class j_{constructor(t,e,s=null,i="",r=!1){this.type=t,this.name=e,this.count=s,this.qualifier=i,this.isConst=r}}j_.isNodeFunctionInput=!0;class H_ extends op{constructor(t){super(),this.types=t,this.isStructTypeNode=!0}getMemberTypes(){return this.types}}ap("StructTypeNode",H_);class q_ extends op{constructor(...t){super(),this.members=t,this.isOutputStructNode=!0}setup(t){super.setup(t);const e=this.members,s=[];for(let i=0;iAy(df(4,t.mul(cf(1,t))),e),Z_=(t,e)=>t.lessThan(.5)?J_(t.mul(2),e).div(2):cf(1,J_(df(cf(1,t),2),e).div(2)),Q_=(t,e,s)=>Ay(pf(Ay(t,e),uf(Ay(t,e),Ay(cf(1,t),s))),1/e),K_=(t,e)=>Zf(Ff.mul(e.mul(t).sub(1))).div(Ff.mul(e.mul(t).sub(1)));vp("parabola",J_),vp("gain",Z_),vp("pcurve",Q_),vp("sinc",K_);const tw=Zp((([t])=>t.fract().sub(.5).abs())),ew=Zp((([t])=>cm(tw(t.z.add(tw(t.y.mul(1)))),tw(t.z.add(tw(t.x.mul(1)))),tw(t.y.add(tw(t.x.mul(1))))))),sw=Zp((([t,e,s])=>{const i=cm(t).toVar(),r=im(1.4).toVar(),n=im(0).toVar(),o=cm(i).toVar();return nv({start:im(0),end:im(3),type:"float",condition:"<="},(()=>{const t=cm(ew(o.mul(2))).toVar();i.addAssign(t.add(s.mul(im(.1).mul(e)))),o.mulAssign(1.8),r.mulAssign(1.5),i.mulAssign(1.2);const a=im(tw(i.z.add(tw(i.x.add(tw(i.y)))))).toVar();n.addAssign(a.div(r)),o.addAssign(.14)})),n}));let iw;tw.setLayout({name:"tri",type:"float",inputs:[{name:"x",type:"float"}]}),ew.setLayout({name:"tri3",type:"vec3",inputs:[{name:"p",type:"vec3"}]}),sw.setLayout({name:"triNoise3D",type:"float",inputs:[{name:"p",type:"vec3"},{name:"spd",type:"float"},{name:"time",type:"float"}]});class rw extends Vv{constructor(t){iw=iw||Jy("discard"),super(t,iw)}}const nw=Yp(rw),ow=t=>nw(t).append(),aw=()=>Jy("return").append();vp("discard",ow),ap("DiscardNode",rw);class hw extends op{constructor(t=[],...e){super(),this.functionNodes=t,this.parametersNodes=e,this._candidateFnCall=null,this.global=!0}getNodeType(){return this.functionNodes[0].shaderNode.layout.type}setup(t){const e=this.parametersNodes;let s=this._candidateFnCall;if(null===s){let i=null,r=-1;for(const s of this.functionNodes){const n=s.shaderNode.layout;if(null===n)throw new Error("FunctionOverloadingNode: FunctionNode must be a layout.");const o=n.inputs;if(e.length===o.length){let n=0;for(let s=0;sr&&(i=s,r=n)}}this._candidateFnCall=s=i(...e)}return s}}const lw=Yp(hw),uw=t=>(...e)=>lw(t,...e);ap("FunctionOverloadingNode",hw);class cw extends lp{constructor(){super("vec2")}setup(){const t=cm(zb.z,0,zb.x.negate()).normalize(),e=zb.cross(t);return am(t.dot(Hx),e.dot(Hx)).mul(.495).add(.5)}}const dw=Jp(cw);ap("MatcapUVNode",cw);class pw extends rf{constructor(t=pw.LOCAL,e=1,s=0){super(s),this.scope=t,this.scale=e,this.updateType=Hd.FRAME}update(t){const e=this.scope,s=this.scale;e===pw.LOCAL?this.value+=t.deltaTime*s:e===pw.DELTA?this.value=t.deltaTime*s:e===pw.FRAME?this.value=t.frameId:this.value=t.time*s}serialize(t){super.serialize(t),t.scope=this.scope,t.scale=this.scale}deserialize(t){super.deserialize(t),this.scope=t.scope,this.scale=t.scale}}pw.LOCAL="local",pw.GLOBAL="global",pw.DELTA="delta",pw.FRAME="frame";const mw=(t,e=0)=>qp(new pw(pw.LOCAL,t,e)),gw=(t,e=0)=>qp(new pw(pw.GLOBAL,t,e)),fw=(t,e=0)=>qp(new pw(pw.DELTA,t,e)),yw=Jp(pw,pw.FRAME).toUint();ap("TimerNode",pw);class xw extends op{constructor(t=xw.SINE,e=mw()){super(),this.method=t,this.timeNode=e}getNodeType(t){return this.timeNode.getNodeType(t)}setup(){const t=this.method,e=qp(this.timeNode);let s=null;return t===xw.SINE?s=e.add(.75).mul(2*Math.PI).sin().mul(.5).add(.5):t===xw.SQUARE?s=e.fract().round():t===xw.TRIANGLE?s=e.add(.5).fract().mul(2).sub(1).abs():t===xw.SAWTOOTH&&(s=e.fract()),s}serialize(t){super.serialize(t),t.method=this.method}deserialize(t){super.deserialize(t),this.method=t.method}}xw.SINE="sine",xw.SQUARE="square",xw.TRIANGLE="triangle",xw.SAWTOOTH="sawtooth";const bw=Yp(xw,xw.SINE),vw=Yp(xw,xw.SQUARE),Tw=Yp(xw,xw.TRIANGLE),_w=Yp(xw,xw.SAWTOOTH);ap("OscNode",xw);class ww extends lp{constructor(t,e){super(),this.scope=t,this.node=e}getNodeType(t){return this.node.getNodeType(t)}setup(){const{scope:t,node:e}=this;let s=null;return t===ww.DIRECTION_TO_COLOR?s=e.mul(.5).add(.5):t===ww.COLOR_TO_DIRECTION&&(s=e.mul(2).sub(1)),s}}ww.DIRECTION_TO_COLOR="directionToColor",ww.COLOR_TO_DIRECTION="colorToDirection";const Sw=Yp(ww,ww.DIRECTION_TO_COLOR),Mw=Yp(ww,ww.COLOR_TO_DIRECTION);vp("directionToColor",Sw),vp("colorToDirection",Mw),ap("PackingNode",ww);class Aw extends op{constructor(t,e,s,i=im(0),r=im(1)){super(),this.node=t,this.inLowNode=e,this.inHighNode=s,this.outLowNode=i,this.outHighNode=r,this.doClamp=!0}setup(){const{node:t,inLowNode:e,inHighNode:s,outLowNode:i,outHighNode:r,doClamp:n}=this;let o=t.sub(e).div(s.sub(e));return!0===n&&(o=o.clamp()),o.mul(r.sub(i)).add(i)}}const Nw=Yp(Aw,null,null,{doClamp:!1}),Rw=Yp(Aw);vp("remap",Nw),vp("remapClamp",Rw),ap("RemapNode",Aw);class Cw extends lp{constructor(t,e,s=am(.5)){super("vec2"),this.uvNode=t,this.rotationNode=e,this.centerNode=s}setup(){const{uvNode:t,rotationNode:e,centerNode:s}=this;return t.sub(s).rotate(e).add(s)}}const Ew=Yp(Cw);vp("rotateUV",Ew),ap("RotateUVNode",Cw);class Bw extends lp{constructor(t,e){super(),this.positionNode=t,this.rotationNode=e}getNodeType(t){return this.positionNode.getNodeType(t)}setup(t){const{rotationNode:e,positionNode:s}=this;if("vec2"===this.getNodeType(t)){const t=e.cos(),i=e.sin();return bm(t,i,i.negate(),t).mul(s)}{const t=e,i=Nm(gm(1,0,0,0),gm(0,Qf(t.x),Zf(t.x).negate(),0),gm(0,Zf(t.x),Qf(t.x),0),gm(0,0,0,1)),r=Nm(gm(Qf(t.y),0,Zf(t.y),0),gm(0,1,0,0),gm(Zf(t.y).negate(),0,Qf(t.y),0),gm(0,0,0,1)),n=Nm(gm(Qf(t.z),Zf(t.z).negate(),0,0),gm(Zf(t.z),Qf(t.z),0,0),gm(0,0,1,0),gm(0,0,0,1));return i.mul(r).mul(n).mul(gm(s,1)).xyz}}}const Iw=Yp(Bw);vp("rotate",Iw),ap("RotateNode",Bw);class Pw extends op{constructor(t,e=of(),s=im(0)){super("vec2"),this.countNode=t,this.uvNode=e,this.frameNode=s}setup(){const{frameNode:t,uvNode:e,countNode:s}=this,{width:i,height:r}=s,n=t.mod(i.mul(r)).floor(),o=n.mod(i),a=r.sub(n.add(1).div(i).ceil()),h=s.reciprocal(),l=am(o,a);return e.add(l).mul(h)}}const Fw=Yp(Pw);ap("SpriteSheetUVNode",Pw);class Uw extends up{constructor(t,e){super(t,e),this.isStorageArrayElementNode=!0}set storageBufferNode(t){this.node=t}get storageBufferNode(){return this.node}setup(t){return!1===t.isAvailable("storageBuffer")&&(this.node.instanceIndex||!0!==this.node.bufferObject||t.setupPBO(this.node)),super.setup(t)}generate(t,e){let s;const i=t.context.assign;if(!1===t.isAvailable("storageBuffer")){const{node:e}=this;s=e.instanceIndex||!0!==this.node.bufferObject||!0===i?e.build(t):t.generatePBO(this)}else s=super.generate(t);if(!0!==i){const i=this.getNodeType(t);s=t.format(s,i,e)}return s}}const Ow=Yp(Uw);vp("storageElement",Ow),ap("StorageArrayElementNode",Uw);class zw extends op{constructor(t,e=null,s=null,i=im(1),r=Pb,n=Gx){super("vec4"),this.textureXNode=t,this.textureYNode=e,this.textureZNode=s,this.scaleNode=i,this.positionNode=r,this.normalNode=n}setup(){const{textureXNode:t,textureYNode:e,textureZNode:s,scaleNode:i,positionNode:r,normalNode:n}=this;let o=n.abs().normalize();o=o.div(o.dot(cm(1)));const a=r.yz.mul(i),h=r.zx.mul(i),l=r.xy.mul(i),u=t.value,c=null!==e?e.value:u,d=null!==s?s.value:u,p=tx(u,a).mul(o.x),m=tx(c,h).mul(o.y),g=tx(d,l).mul(o.z);return uf(p,m,g)}}const Lw=Yp(zw),Vw=(...t)=>Lw(...t);vp("triplanarTexture",Vw),ap("TriplanarTexturesNode",zw);const Dw=new ta,kw=new Ri,Gw=new Ri,Ww=new Ri,jw=new rr,Hw=new Ri(0,0,-1),qw=new vi,$w=new Ri,Xw=new Ri,Yw=new vi,Jw=new Zs,Zw=new Ti,Qw=am(_T.x.oneMinus(),_T.y);let Kw=!1;class tS extends Ky{constructor(t={}){super(Zw.texture,Qw);const{target:e=new Br,resolution:s=1,generateMipmaps:i=!1,bounces:r=!0}=t;this.target=e,this.resolution=s,this.generateMipmaps=i,this.bounces=r,this.updateBeforeType=r?Hd.RENDER:Hd.FRAME,this.virtualCameras=new WeakMap,this.renderTargets=new WeakMap}_updateResolution(t,e){const s=this.resolution;e.getDrawingBufferSize(Jw),t.setSize(Math.round(Jw.width*s),Math.round(Jw.height*s))}setup(t){return this._updateResolution(Zw,t.renderer),super.setup(t)}getTextureNode(){return this.textureNode}getVirtualCamera(t){let e=this.virtualCameras.get(t);return void 0===e&&(e=t.clone(),this.virtualCameras.set(t,e)),e}getRenderTarget(t){let e=this.renderTargets.get(t);return void 0===e&&(e=new Ti(0,0,{type:Pt}),!0===this.generateMipmaps&&(e.texture.minFilter=1008,e.texture.generateMipmaps=!0),this.renderTargets.set(t,e)),e}updateBefore(t){if(!1===this.bounces&&Kw)return!1;Kw=!0;const{scene:e,camera:s,renderer:i,material:r}=t,{target:n}=this,o=this.getVirtualCamera(s),a=this.getRenderTarget(o);if(i.getDrawingBufferSize(Jw),this._updateResolution(a,i),Gw.setFromMatrixPosition(n.matrixWorld),Ww.setFromMatrixPosition(s.matrixWorld),jw.extractRotation(n.matrixWorld),kw.set(0,0,1),kw.applyMatrix4(jw),$w.subVectors(Gw,Ww),$w.dot(kw)>0)return;$w.reflect(kw).negate(),$w.add(Gw),jw.extractRotation(s.matrixWorld),Hw.set(0,0,-1),Hw.applyMatrix4(jw),Hw.add(Ww),Xw.subVectors(Gw,Hw),Xw.reflect(kw).negate(),Xw.add(Gw),o.coordinateSystem=s.coordinateSystem,o.position.copy($w),o.up.set(0,1,0),o.up.applyMatrix4(jw),o.up.reflect(kw),o.lookAt(Xw),o.near=s.near,o.far=s.far,o.updateMatrixWorld(),o.projectionMatrix.copy(s.projectionMatrix),Dw.setFromNormalAndCoplanarPoint(kw,Gw),Dw.applyMatrix4(o.matrixWorldInverse),qw.set(Dw.normal.x,Dw.normal.y,Dw.normal.z,Dw.constant);const h=o.projectionMatrix;Yw.x=(Math.sign(qw.x)+h.elements[8])/h.elements[0],Yw.y=(Math.sign(qw.y)+h.elements[9])/h.elements[5],Yw.z=-1,Yw.w=(1+h.elements[10])/h.elements[14],qw.multiplyScalar(1/qw.dot(Yw));h.elements[2]=qw.x,h.elements[6]=qw.y,h.elements[10]=qw.z-0,h.elements[14]=qw.w,this.value=a.texture,r.visible=!1;const l=i.getRenderTarget();i.setRenderTarget(a),i.render(e,o),i.setRenderTarget(l),r.visible=!0,Kw=!1}}const eS=t=>qp(new tS(t));class sS extends Dm{constructor(t=0){super(null,"vec4"),this.isVertexColorNode=!0,this.index=t}getAttributeName(){const t=this.index;return"color"+(t>0?t:"")}generate(t){const e=this.getAttributeName(t);let s;return s=!0===t.hasGeometryAttribute(e)?super.generate(t):t.generateConst(this.nodeType,new vi(1,1,1,1)),s}serialize(t){super.serialize(t),t.index=this.index}deserialize(t){super.deserialize(t),this.index=t.index}}const iS=(...t)=>qp(new sS(...t));ap("VertexColorNode",sS);class rS extends lx{constructor(t,e,s=null){super(t,e,s),this.renderer=s}updateReference(t){return this.reference=null!==this.renderer?this.renderer:t.renderer,this.reference}}const nS=(t,e,s)=>qp(new rS(t,e,s));ap("RendererReferenceNode",rS);const oS=1/6,aS=t=>df(oS,df(t,df(t,t.negate().add(3)).sub(3)).add(1)),hS=t=>df(oS,df(t,df(t,df(3,t).sub(6))).add(4)),lS=t=>df(oS,df(t,df(t,df(-3,t).add(3)).add(3)).add(1)),uS=t=>df(oS,Ay(t,3)),cS=t=>aS(t).add(hS(t)),dS=t=>lS(t).add(uS(t)),pS=t=>uf(-1,hS(t).div(aS(t).add(hS(t)))),mS=t=>uf(1,uS(t).div(lS(t).add(uS(t)))),gS=(t,e,s)=>{const i=t.uvNode,r=df(i,e.zw).add(.5),n=$f(r),o=Jf(r),a=cS(o.x),h=dS(o.x),l=pS(o.x),u=mS(o.x),c=pS(o.y),d=mS(o.y),p=am(n.x.add(l),n.y.add(c)).sub(.5).mul(e.xy),m=am(n.x.add(u),n.y.add(c)).sub(.5).mul(e.xy),g=am(n.x.add(l),n.y.add(d)).sub(.5).mul(e.xy),f=am(n.x.add(u),n.y.add(d)).sub(.5).mul(e.xy),y=cS(o.y).mul(uf(a.mul(t.uv(p).level(s)),h.mul(t.uv(m).level(s)))),x=dS(o.y).mul(uf(a.mul(t.uv(g).level(s)),h.mul(t.uv(f).level(s))));return y.add(x)};class fS extends lp{constructor(t,e=im(3)){super("vec4"),this.textureNode=t,this.blurNode=e}setup(){return((t,e)=>{const s=am(t.size(rm(e))),i=am(t.size(rm(e.add(1)))),r=pf(1,s),n=pf(1,i),o=gS(t,gm(r,s),$f(e)),a=gS(t,gm(n,i),Xf(e));return Jf(e).mix(o,a)})(this.textureNode,this.blurNode)}}const yS=Yp(fS);vp("bicubic",yS),ap("TextureBicubicNode",fS);class xS extends op{constructor(){super("vec2"),this.isPointUVNode=!0}generate(){return"vec2( gl_PointCoord.x, 1.0 - gl_PointCoord.y )"}}const bS=Jp(xS);ap("PointUVNode",xS);class vS extends op{constructor(t=vS.BACKGROUND_BLURRINESS,e=null){super(),this.scope=t,this.scene=e}setup(t){const e=this.scope,s=null!==this.scene?this.scene:t.scene;let i;return e===vS.BACKGROUND_BLURRINESS?i=ux("backgroundBlurriness","float",s):e===vS.BACKGROUND_INTENSITY?i=ux("backgroundIntensity","float",s):console.error("THREE.SceneNode: Unknown scope:",e),i}}vS.BACKGROUND_BLURRINESS="backgroundBlurriness",vS.BACKGROUND_INTENSITY="backgroundIntensity";const TS=Jp(vS,vS.BACKGROUND_BLURRINESS),_S=Jp(vS,vS.BACKGROUND_INTENSITY);ap("SceneNode",vS);const wS="point-list",SS="line-list",MS="line-strip",AS="triangle-list",NS="triangle-strip",RS="never",CS="less",ES="equal",BS="less-equal",IS="greater",PS="not-equal",FS="greater-equal",US="always",OS="store",zS="load",LS="clear",VS="ccw",DS="none",kS="front",GS="back",WS="uint16",jS="uint32",HS={R8Unorm:"r8unorm",R8Snorm:"r8snorm",R8Uint:"r8uint",R8Sint:"r8sint",R16Uint:"r16uint",R16Sint:"r16sint",R16Float:"r16float",RG8Unorm:"rg8unorm",RG8Snorm:"rg8snorm",RG8Uint:"rg8uint",RG8Sint:"rg8sint",R32Uint:"r32uint",R32Sint:"r32sint",R32Float:"r32float",RG16Uint:"rg16uint",RG16Sint:"rg16sint",RG16Float:"rg16float",RGBA8Unorm:"rgba8unorm",RGBA8UnormSRGB:"rgba8unorm-srgb",RGBA8Snorm:"rgba8snorm",RGBA8Uint:"rgba8uint",RGBA8Sint:"rgba8sint",BGRA8Unorm:"bgra8unorm",BGRA8UnormSRGB:"bgra8unorm-srgb",RGB9E5UFloat:"rgb9e5ufloat",RGB10A2Unorm:"rgb10a2unorm",RG11B10uFloat:"rgb10a2unorm",RG32Uint:"rg32uint",RG32Sint:"rg32sint",RG32Float:"rg32float",RGBA16Uint:"rgba16uint",RGBA16Sint:"rgba16sint",RGBA16Float:"rgba16float",RGBA32Uint:"rgba32uint",RGBA32Sint:"rgba32sint",RGBA32Float:"rgba32float",Stencil8:"stencil8",Depth16Unorm:"depth16unorm",Depth24Plus:"depth24plus",Depth24PlusStencil8:"depth24plus-stencil8",Depth32Float:"depth32float",Depth32FloatStencil8:"depth32float-stencil8",BC1RGBAUnorm:"bc1-rgba-unorm",BC1RGBAUnormSRGB:"bc1-rgba-unorm-srgb",BC2RGBAUnorm:"bc2-rgba-unorm",BC2RGBAUnormSRGB:"bc2-rgba-unorm-srgb",BC3RGBAUnorm:"bc3-rgba-unorm",BC3RGBAUnormSRGB:"bc3-rgba-unorm-srgb",BC4RUnorm:"bc4-r-unorm",BC4RSnorm:"bc4-r-snorm",BC5RGUnorm:"bc5-rg-unorm",BC5RGSnorm:"bc5-rg-snorm",BC6HRGBUFloat:"bc6h-rgb-ufloat",BC6HRGBFloat:"bc6h-rgb-float",BC7RGBAUnorm:"bc7-rgba-unorm",BC7RGBAUnormSRGB:"bc7-rgba-srgb",ETC2RGB8Unorm:"etc2-rgb8unorm",ETC2RGB8UnormSRGB:"etc2-rgb8unorm-srgb",ETC2RGB8A1Unorm:"etc2-rgb8a1unorm",ETC2RGB8A1UnormSRGB:"etc2-rgb8a1unorm-srgb",ETC2RGBA8Unorm:"etc2-rgba8unorm",ETC2RGBA8UnormSRGB:"etc2-rgba8unorm-srgb",EACR11Unorm:"eac-r11unorm",EACR11Snorm:"eac-r11snorm",EACRG11Unorm:"eac-rg11unorm",EACRG11Snorm:"eac-rg11snorm",ASTC4x4Unorm:"astc-4x4-unorm",ASTC4x4UnormSRGB:"astc-4x4-unorm-srgb",ASTC5x4Unorm:"astc-5x4-unorm",ASTC5x4UnormSRGB:"astc-5x4-unorm-srgb",ASTC5x5Unorm:"astc-5x5-unorm",ASTC5x5UnormSRGB:"astc-5x5-unorm-srgb",ASTC6x5Unorm:"astc-6x5-unorm",ASTC6x5UnormSRGB:"astc-6x5-unorm-srgb",ASTC6x6Unorm:"astc-6x6-unorm",ASTC6x6UnormSRGB:"astc-6x6-unorm-srgb",ASTC8x5Unorm:"astc-8x5-unorm",ASTC8x5UnormSRGB:"astc-8x5-unorm-srgb",ASTC8x6Unorm:"astc-8x6-unorm",ASTC8x6UnormSRGB:"astc-8x6-unorm-srgb",ASTC8x8Unorm:"astc-8x8-unorm",ASTC8x8UnormSRGB:"astc-8x8-unorm-srgb",ASTC10x5Unorm:"astc-10x5-unorm",ASTC10x5UnormSRGB:"astc-10x5-unorm-srgb",ASTC10x6Unorm:"astc-10x6-unorm",ASTC10x6UnormSRGB:"astc-10x6-unorm-srgb",ASTC10x8Unorm:"astc-10x8-unorm",ASTC10x8UnormSRGB:"astc-10x8-unorm-srgb",ASTC10x10Unorm:"astc-10x10-unorm",ASTC10x10UnormSRGB:"astc-10x10-unorm-srgb",ASTC12x10Unorm:"astc-12x10-unorm",ASTC12x10UnormSRGB:"astc-12x10-unorm-srgb",ASTC12x12Unorm:"astc-12x12-unorm",ASTC12x12UnormSRGB:"astc-12x12-unorm-srgb"},qS="clamp-to-edge",$S="repeat",XS="mirror-repeat",YS="linear",JS="nearest",ZS="zero",QS="one",KS="src",tM="one-minus-src",eM="src-alpha",sM="one-minus-src-alpha",iM="dst",rM="one-minus-dst",nM="dst-alpha",oM="one-minus-dst-alpha",aM="src-alpha-saturated",hM="constant",lM="one-minus-constant",uM="add",cM="subtract",dM="reverse-subtract",pM="min",mM="max",gM=0,fM=15,yM="keep",xM="zero",bM="replace",vM="invert",TM="increment-clamp",_M="decrement-clamp",wM="increment-wrap",SM="decrement-wrap",MM="storage",AM="read-only-storage",NM="write-only",RM="read-only",CM="unfilterable-float",EM="depth",BM="sint",IM="uint",PM="2d",FM="3d",UM="2d",OM="2d-array",zM="cube",LM="3d",VM="all",DM="vertex",kM="instance",GM={DepthClipControl:"depth-clip-control",Depth32FloatStencil8:"depth32float-stencil8",TextureCompressionBC:"texture-compression-bc",TextureCompressionETC2:"texture-compression-etc2",TextureCompressionASTC:"texture-compression-astc",TimestampQuery:"timestamp-query",IndirectFirstInstance:"indirect-first-instance",ShaderF16:"shader-f16",RG11B10UFloat:"rg11b10ufloat-renderable",BGRA8UNormStorage:"bgra8unorm-storage",Float32Filterable:"float32-filterable"};class WM extends ix{constructor(t,e,s=0){super(t,e,s),this.isStorageBufferNode=!0,this.access=MM,this.bufferObject=!1,this.bufferCount=s,this._attribute=null,this._varying=null,this.global=!0,!0!==t.isStorageBufferAttribute&&!0!==t.isStorageInstancedBufferAttribute&&(t.isInstancedBufferAttribute?t.isStorageInstancedBufferAttribute=!0:t.isStorageBufferAttribute=!0)}getHash(t){if(0===this.bufferCount){let e=t.globalCache.getData(this.value);return void 0===e&&(e={node:this},t.globalCache.setData(this.value,e)),e.node.uuid}return this.uuid}getInputType(){return"storageBuffer"}element(t){return Ow(this,t)}setBufferObject(t){return this.bufferObject=t,this}setAccess(t){return this.access=t,this}toReadOnly(){return this.setAccess(AM)}generate(t){if(t.isAvailable("storageBuffer"))return super.generate(t);const e=this.getNodeType(t);null===this._attribute&&(this._attribute=kb(this.value),this._varying=Vm(this._attribute));const s=this._varying.build(t,e);return t.registerTransform(s,this._attribute),s}}const jM=(t,e,s)=>qp(new WM(t,e,s)),HM=(t,e,s)=>qp(new WM(t,e,s).setBufferObject(!0));ap("StorageBufferNode",WM);class qM extends Ky{constructor(t,e,s=null){super(t,e),this.storeNode=s,this.isStorageTextureNode=!0,this.access=NM}getInputType(){return"storageTexture"}setup(t){super.setup(t);t.getNodeProperties(this).storeNode=this.storeNode}setAccess(t){return this.access=t,this}generate(t,e){let s;return s=null!==this.storeNode?this.generateStore(t):super.generate(t,e),s}toReadOnly(){return this.setAccess(RM)}toWriteOnly(){return this.setAccess(NM)}generateStore(t){const e=t.getNodeProperties(this),{uvNode:s,storeNode:i}=e,r=super.generate(t,"property"),n=s.build(t,"uvec2"),o=i.build(t,"vec4"),a=t.generateTextureStore(t,r,n,o);t.addLineFlowCode(a)}}const $M=Yp(qM),XM=(t,e,s)=>{const i=$M(t,e,s);return null!==s&&i.append(),i};ap("StorageTextureNode",qM);const YM=Zp((({texture:t,uv:e})=>{const s=1e-4,i=cm().temp();return tm(e.x.lessThan(s),(()=>{i.assign(cm(1,0,0))})).elseif(e.y.lessThan(s),(()=>{i.assign(cm(0,1,0))})).elseif(e.z.lessThan(s),(()=>{i.assign(cm(0,0,1))})).elseif(e.x.greaterThan(.9999),(()=>{i.assign(cm(-1,0,0))})).elseif(e.y.greaterThan(.9999),(()=>{i.assign(cm(0,-1,0))})).elseif(e.z.greaterThan(.9999),(()=>{i.assign(cm(0,0,-1))})).else((()=>{const s=.01,r=t.uv(e.add(cm(-.01,0,0))).r.sub(t.uv(e.add(cm(s,0,0))).r),n=t.uv(e.add(cm(0,-.01,0))).r.sub(t.uv(e.add(cm(0,s,0))).r),o=t.uv(e.add(cm(0,0,-.01))).r.sub(t.uv(e.add(cm(0,0,s))).r);i.assign(cm(r,n,o))})),i.normalize()}));class JM extends Ky{constructor(t,e=null,s=null){super(t,e,s),this.isTexture3DNode=!0}getInputType(){return"texture3D"}getDefaultUV(){return cm(.5,.5,.5)}setUpdateMatrix(){}setupUV(t,e){return e}generateUV(t,e){return e.build(t,"vec3")}normal(t){return YM({texture:this,uv:t})}}const ZM=Yp(JM);ap("Texture3DNode",JM);class QM extends lx{constructor(t,e,s=null){super(t,e,s),this.userData=s}update(t){this.reference=null!==this.userData?this.userData:t.object.userData,super.update(t)}}const KM=(t,e,s)=>qp(new QM(t,e,s));ap("UserDataNode",QM);const tA=Zp((({base:t,blend:e})=>{const s=s=>e[s].lessThan(If).cond(e[s],t[s].oneMinus().div(e[s]).oneMinus().max(0));return cm(s("x"),s("y"),s("z"))})).setLayout({name:"burnColor",type:"vec3",inputs:[{name:"base",type:"vec3"},{name:"blend",type:"vec3"}]}),eA=Zp((({base:t,blend:e})=>{const s=s=>e[s].equal(1).cond(e[s],t[s].div(e[s].oneMinus()).max(0));return cm(s("x"),s("y"),s("z"))})).setLayout({name:"dodgeColor",type:"vec3",inputs:[{name:"base",type:"vec3"},{name:"blend",type:"vec3"}]}),sA=Zp((({base:t,blend:e})=>{const s=s=>t[s].oneMinus().mul(e[s].oneMinus()).oneMinus();return cm(s("x"),s("y"),s("z"))})).setLayout({name:"screenColor",type:"vec3",inputs:[{name:"base",type:"vec3"},{name:"blend",type:"vec3"}]}),iA=Zp((({base:t,blend:e})=>{const s=s=>t[s].lessThan(.5).cond(t[s].mul(e[s],2),t[s].oneMinus().mul(e[s].oneMinus()).oneMinus());return cm(s("x"),s("y"),s("z"))})).setLayout({name:"overlayColor",type:"vec3",inputs:[{name:"base",type:"vec3"},{name:"blend",type:"vec3"}]});class rA extends lp{constructor(t,e,s){super(),this.blendMode=t,this.baseNode=e,this.blendNode=s}setup(){const{blendMode:t,baseNode:e,blendNode:s}=this,i={base:e,blend:s};let r=null;return t===rA.BURN?r=tA(i):t===rA.DODGE?r=eA(i):t===rA.SCREEN?r=sA(i):t===rA.OVERLAY&&(r=iA(i)),r}}rA.BURN="burn",rA.DODGE="dodge",rA.SCREEN="screen",rA.OVERLAY="overlay";const nA=Yp(rA,rA.BURN),oA=Yp(rA,rA.DODGE),aA=Yp(rA,rA.OVERLAY),hA=Yp(rA,rA.SCREEN);vp("burn",nA),vp("dodge",oA),vp("overlay",aA),vp("screen",hA),ap("BlendModeNode",rA);const lA=Zp((({textureNode:t,bumpScale:e})=>{const s=e=>t.cache().context({getUV:t=>e(t.uvNode||of()),forceUVContext:!0}),i=im(s((t=>t)));return am(im(s((t=>t.add(t.dFdx())))).sub(i),im(s((t=>t.add(t.dFdy())))).sub(i)).mul(e)})),uA=Zp((t=>{const{surf_pos:e,surf_norm:s,dHdxy:i}=t,r=e.dFdx().normalize(),n=s,o=e.dFdy().normalize().cross(n),a=n.cross(r),h=r.dot(o).mul(HT),l=h.sign().mul(i.x.mul(o).add(i.y.mul(a)));return h.abs().mul(s).sub(l).normalize()}));class cA extends lp{constructor(t,e=null){super("vec3"),this.textureNode=t,this.scaleNode=e}setup(){const t=null!==this.scaleNode?this.scaleNode:1,e=lA({textureNode:this.textureNode,bumpScale:t});return uA({surf_pos:Ob,surf_norm:Wx,dHdxy:e})}}const dA=Yp(cA);vp("bumpMap",dA),ap("BumpMapNode",cA);const pA=Zp((({color:t,adjustment:e})=>e.mix(TA(t.rgb),t.rgb))),mA=Zp((({color:t,adjustment:e})=>{const s=uf(t.r,t.g,t.b).div(3),i=t.r.max(t.g.max(t.b)),r=i.sub(s).mul(e).mul(-3);return Py(t.rgb,i,r)})),gA=Zp((({color:t,adjustment:e})=>{const s=cm(.57735,.57735,.57735),i=e.cos();return cm(t.rgb.mul(i).add(s.cross(t.rgb).mul(e.sin()).add(s.mul(Sy(s,t.rgb).mul(i.oneMinus())))))}));class fA extends lp{constructor(t,e,s=im(1)){super("vec3"),this.method=t,this.colorNode=e,this.adjustmentNode=s}setup(){const{method:t,colorNode:e,adjustmentNode:s}=this,i={color:e,adjustment:s};let r=null;return t===fA.SATURATION?r=pA(i):t===fA.VIBRANCE?r=mA(i):t===fA.HUE?r=gA(i):console.error(`${this.type}: Method "${this.method}" not supported!`),r}}fA.SATURATION="saturation",fA.VIBRANCE="vibrance",fA.HUE="hue";const yA=Yp(fA,fA.SATURATION),xA=Yp(fA,fA.VIBRANCE),bA=Yp(fA,fA.HUE),vA=cm(.2125,.7154,.0721),TA=(t,e=vA)=>Sy(t,e),_A=(t,e)=>Py(cm(0),t,TA(t).sub(e).max(0));vp("saturation",yA),vp("vibrance",xA),vp("hue",bA),vp("threshold",_A),ap("ColorAdjustmentNode",fA);const wA=Zp((t=>{const{eye_pos:e,surf_norm:s,mapN:i,uv:r}=t,n=e.dFdx(),o=e.dFdy(),a=r.dFdx(),h=r.dFdy(),l=s,u=o.cross(l),c=l.cross(n),d=u.mul(a.x).add(c.mul(h.x)),p=u.mul(a.y).add(c.mul(h.y)),m=d.dot(d).max(p.dot(p)),g=HT.mul(m.inverseSqrt());return uf(d.mul(i.x,g),p.mul(i.y,g),l.mul(i.z)).normalize()}));class SA extends lp{constructor(t,e=null){super("vec3"),this.node=t,this.scaleNode=e,this.normalMapType=0}setup(t){const{normalMapType:e,scaleNode:s}=this;let i=this.node.mul(2).sub(1);null!==s&&(i=cm(i.xy.mul(s),i.z));let r=null;if(1===e)r=Ux.mul(i).normalize();else if(0===e){r=!0===t.hasGeometryAttribute("tangent")?Uv.mul(i).normalize():wA({eye_pos:Ob,surf_norm:Wx,mapN:i,uv:of()})}return r}}const MA=Yp(SA);vp("normalMap",MA),ap("NormalMapNode",SA);class AA extends lp{constructor(t,e){super(),this.sourceNode=t,this.stepsNode=e}setup(){const{sourceNode:t,stepsNode:e}=this;return t.mul(e).floor().div(e)}}const NA=Yp(AA);vp("posterize",NA),ap("PosterizeNode",AA);const RA=Zp((({color:t,exposure:e})=>t.mul(e).clamp())),CA=Zp((({color:t,exposure:e})=>(t=t.mul(e)).div(t.add(1)).clamp())),EA=Zp((({color:t,exposure:e})=>{const s=(t=(t=t.mul(e)).sub(.004).max(0)).mul(t.mul(6.2).add(.5)),i=t.mul(t.mul(6.2).add(1.7)).add(.06);return s.div(i).pow(2.2)})),BA=Zp((({color:t})=>{const e=t.mul(t.add(.0245786)).sub(90537e-9),s=t.mul(t.add(.432951).mul(.983729)).add(.238081);return e.div(s)})),IA=Zp((({color:t,exposure:e})=>{const s=wm(.59719,.35458,.04823,.076,.90834,.01566,.0284,.13383,.83777),i=wm(1.60475,-.53108,-.07367,-.10208,1.10813,-.00605,-.00327,-.07276,1.07602);return t=t.mul(e).div(.6),t=s.mul(t),t=BA({color:t}),(t=i.mul(t)).clamp()})),PA=wm(cm(1.6605,-.1246,-.0182),cm(-.5876,1.1329,-.1006),cm(-.0728,-.0083,1.1187)),FA=wm(cm(.6274,.0691,.0164),cm(.3293,.9195,.088),cm(.0433,.0113,.8956)),UA=Zp((([t])=>{const e=cm(t).toVar(),s=cm(e.mul(e)).toVar(),i=cm(s.mul(s)).toVar();return im(15.5).mul(i.mul(s)).sub(df(40.14,i.mul(e))).add(df(31.96,i).sub(df(6.868,s.mul(e))).add(df(.4298,s).add(df(.1191,e).sub(.00232))))})),OA=Zp((({color:t,exposure:e})=>{const s=cm(t).toVar(),i=wm(cm(.856627153315983,.137318972929847,.11189821299995),cm(.0951212405381588,.761241990602591,.0767994186031903),cm(.0482516061458583,.101439036467562,.811302368396859)),r=wm(cm(1.1271005818144368,-.1413297634984383,-.14132976349843826),cm(-.11060664309660323,1.157823702216272,-.11060664309660294),cm(-.016493938717834573,-.016493938717834257,1.2519364065950405)),n=im(-12.47393),o=im(4.026069);return s.mulAssign(e),s.assign(FA.mul(s)),s.assign(i.mul(s)),s.assign(xy(s,1e-10)),s.assign(jf(s)),s.assign(s.sub(n).div(o.sub(n))),s.assign(Fy(s,0,1)),s.assign(UA(s)),s.assign(r.mul(s)),s.assign(Ay(xy(cm(0),s),cm(2.2))),s.assign(PA.mul(s)),s.assign(Fy(s,0,1)),s})),zA=Zp((({color:t,exposure:e})=>{const s=im(.76),i=im(.15);t=t.mul(e);const r=yy(t.r,yy(t.g,t.b)),n=Dv(r.lessThan(.08),r.sub(df(6.25,r.mul(r))),.04);t.subAssign(n);const o=xy(t.r,xy(t.g,t.b));tm(o.lessThan(s),(()=>t));const a=cf(1,s),h=cf(1,a.mul(a).div(o.add(a.sub(s))));t.mulAssign(h.div(o));const l=cf(1,pf(1,i.mul(o.sub(h)).add(1)));return Py(t,cm(h),l)})).setLayout({name:"NeutralToneMapping",type:"vec3",inputs:[{name:"color",type:"vec3"},{name:"exposure",type:"float"}]}),LA={1:RA,2:CA,3:EA,4:IA,6:OA,7:zA};class VA extends lp{constructor(t=0,e=kA,s=null){super("vec3"),this.toneMapping=t,this.exposureNode=e,this.colorNode=s}getCacheKey(){let t=super.getCacheKey();return t="{toneMapping:"+this.toneMapping+",nodes:"+t+"}",t}setup(t){const e=this.colorNode||t.context.color,s=this.toneMapping;if(0===s)return e;const i={exposure:this.exposureNode,color:e},r=LA[s];let n=null;return r?n=r(i):(console.error("ToneMappingNode: Unsupported Tone Mapping configuration.",s),n=e),n}}const DA=(t,e,s)=>qp(new VA(t,qp(e),qp(s))),kA=nS("toneMappingExposure","float");vp("toneMapping",((t,e,s)=>DA(e,s,t))),ap("ToneMappingNode",VA);let GA=null;class WA extends NT{constructor(t=_T,e=null){null===GA&&(GA=new qa),super(t,e,GA)}updateReference(){return this}}const jA=Yp(WA);vp("viewportSharedTexture",jA),ap("ViewportSharedTextureNode",WA);const HA=new Zs;class qA extends Ky{constructor(t,e){super(e),this.passNode=t,this.setUpdateMatrix(!1)}setup(t){return this.passNode.build(t),super.setup(t)}clone(){return new this.constructor(this.passNode,this.value)}}class $A extends lp{constructor(t,e,s){super("vec4"),this.scope=t,this.scene=e,this.camera=s,this._pixelRatio=1,this._width=1,this._height=1;const i=new Za;i.isRenderTargetTexture=!0,i.name="PostProcessingDepth";const r=new Ti(this._width*this._pixelRatio,this._height*this._pixelRatio,{type:Pt});r.texture.name="PostProcessing",r.depthTexture=i,this.renderTarget=r,this.updateBeforeType=Hd.FRAME,this._textureNode=qp(new qA(this,r.texture)),this._depthTextureNode=qp(new qA(this,i)),this._linearDepthNode=null,this._viewZNode=null,this._cameraNear=nf(0),this._cameraFar=nf(0),this.isPassNode=!0}isGlobal(){return!0}getTextureNode(){return this._textureNode}getTextureDepthNode(){return this._depthTextureNode}getViewZNode(){if(null===this._viewZNode){const t=this._cameraNear,e=this._cameraFar;this._viewZNode=zT(this._depthTextureNode,t,e)}return this._viewZNode}getLinearDepthNode(){if(null===this._linearDepthNode){const t=this._cameraNear,e=this._cameraFar;this._linearDepthNode=FT(this.getViewZNode(),t,e)}return this._linearDepthNode}setup(){return this.scope===$A.COLOR?this.getTextureNode():this.getLinearDepthNode()}updateBefore(t){const{renderer:e}=t,{scene:s,camera:i}=this;this._pixelRatio=e.getPixelRatio();const r=e.getSize(HA);this.setSize(r.width,r.height);const n=e.toneMapping,o=e.toneMappingNode,a=e.getRenderTarget();this._cameraNear.value=i.near,this._cameraFar.value=i.far,e.toneMapping=0,e.toneMappingNode=null,e.setRenderTarget(this.renderTarget),e.render(s,i),e.toneMapping=n,e.toneMappingNode=o,e.setRenderTarget(a)}setSize(t,e){this._width=t,this._height=e;const s=this._width*this._pixelRatio,i=this._height*this._pixelRatio;this.renderTarget.setSize(s,i)}setPixelRatio(t){this._pixelRatio=t,this.setSize(this._width,this._height)}dispose(){this.renderTarget.dispose()}}$A.COLOR="color",$A.DEPTH="depth";const XA=(t,e)=>qp(new $A($A.COLOR,t,e)),YA=(t,e)=>qp(new qA(t,e)),JA=(t,e)=>qp(new $A($A.DEPTH,t,e));ap("PassNode",$A);const ZA=new Au(-1,1,1,-1,0,1);const QA=new class extends wn{constructor(t=!1){super();const e=!1===t?[0,-1,0,1,2,1]:[0,2,0,0,2,0];this.setAttribute("position",new gn([-1,3,0,-1,-1,0,3,-1,0],3)),this.setAttribute("uv",new gn(e,2))}};class KA extends kn{constructor(t=null){super(QA,t),this.camera=ZA}renderAsync(t){return t.renderAsync(this,ZA)}render(t){t.render(this,ZA)}}const tN=new KA,eN=new KA;class sN extends lp{constructor(t,e=2){super("vec4"),this.textureNode=t,this.sigma=e,this.directionNode=am(1),this._invSize=nf(new Zs),this._passDirection=nf(new Zs),this._horizontalRT=new Ti,this._horizontalRT.texture.name="GaussianBlurNode.horizontal",this._verticalRT=new Ti,this._verticalRT.texture.name="GaussianBlurNode.vertical",this._textureNode=YA(this,this._verticalRT.texture),this.updateBeforeType=Hd.RENDER,this.resolution=new Zs(1,1)}setSize(t,e){t=Math.max(Math.round(t*this.resolution.x),1),e=Math.max(Math.round(e*this.resolution.y),1),this._invSize.value.set(1/t,1/e),this._horizontalRT.setSize(t,e),this._verticalRT.setSize(t,e)}updateBefore(t){const{renderer:e}=t,s=this.textureNode,i=s.value,r=e.getRenderTarget(),n=s.value;tN.material=this._material,eN.material=this._material,this.setSize(i.image.width,i.image.height);const o=i.type;this._horizontalRT.texture.type=o,this._verticalRT.texture.type=o,e.setRenderTarget(this._horizontalRT),this._passDirection.value.set(1,0),tN.render(e),s.value=this._horizontalRT.texture,e.setRenderTarget(this._verticalRT),this._passDirection.value.set(0,1),eN.render(e),e.setRenderTarget(r),s.value=n}getTextureNode(){return this._textureNode}setup(t){const e=this.textureNode;if(!0!==e.isTextureNode)return console.error("GaussianBlurNode requires a TextureNode."),gm();const s=e.uvNode||of(),i=t=>e.cache().context({getUV:()=>t,forceUVContext:!0}),r=Zp((()=>{const t=3+2*this.sigma,e=this._getCoefficients(t),r=this._invSize,n=am(this.directionNode).mul(this._passDirection),o=im(e[0]).toVar(),a=gm(i(s).mul(o)).toVar();for(let h=1;hqp(new sN(qp(t),e));vp("gaussianBlur",iN);const rN=new Zs,nN=new KA;class oN extends lp{constructor(t,e=.96){super(t),this.textureNode=t,this.textureNodeOld=tx(),this.damp=nf(e),this._compRT=new Ti,this._compRT.texture.name="AfterImageNode.comp",this._oldRT=new Ti,this._oldRT.texture.name="AfterImageNode.old",this._textureNode=YA(this,this._compRT.texture),this.updateBeforeType=Hd.RENDER}getTextureNode(){return this._textureNode}setSize(t,e){this._compRT.setSize(t,e),this._oldRT.setSize(t,e)}updateBefore(t){const{renderer:e}=t,s=this.textureNode,i=s.value.type;this._compRT.texture.type=i,this._oldRT.texture.type=i,e.getDrawingBufferSize(rN),this.setSize(rN.x,rN.y);const r=e.toneMapping,n=e.toneMappingNode,o=e.getRenderTarget(),a=s.value;this.textureNodeOld.value=this._oldRT.texture,e.toneMapping=0,e.toneMappingNode=null,e.setRenderTarget(this._compRT),nN.render(e);const h=this._oldRT;this._oldRT=this._compRT,this._compRT=h,e.toneMapping=r,e.toneMappingNode=n,e.setRenderTarget(o),s.value=a}setup(t){const e=this.textureNode,s=this.textureNodeOld;if(!0!==e.isTextureNode)return console.error("AfterImageNode requires a TextureNode."),gm();const i=e.uvNode||of();s.uvNode=i;const r=Zp((([t,e])=>{const s=im(e).toVar(),i=gm(t).toVar();return xy(ry(i.sub(s)),0)})),n=Zp((()=>{const t=gm(s),n=gm((t=>e.cache().context({getUV:()=>t,forceUVContext:!0}))(i));return t.mulAssign(this.damp.mul(r(t,.1))),xy(n,t)})),o=this._materialComposed||(this._materialComposed=t.createNodeMaterial());o.fragmentNode=n(),nN.material=o;return t.getNodeProperties(this).textureNode=e,this._textureNode}}const aN=(t,e)=>qp(new oN(qp(t),e));vp("afterImage",aN);const hN=new KA;class lN extends lp{constructor(t,e,s,i){super("vec4"),this.textureNode=t,this.tresholdNode=e,this.scaleNode=s,this.colorNode=cm(.1,0,1),this.samples=i,this.resolution=new Zs(1,1),this._renderTarget=new Ti,this._renderTarget.texture.name="anamorphic",this._invSize=nf(new Zs),this._textureNode=YA(this,this._renderTarget.texture),this.updateBeforeType=Hd.RENDER}getTextureNode(){return this._textureNode}setSize(t,e){this._invSize.value.set(1/t,1/e),t=Math.max(Math.round(t*this.resolution.x),1),e=Math.max(Math.round(e*this.resolution.y),1),this._renderTarget.setSize(t,e)}updateBefore(t){const{renderer:e}=t,s=this.textureNode,i=s.value;this._renderTarget.texture.type=i.type;const r=e.getRenderTarget(),n=s.value;hN.material=this._material,this.setSize(i.image.width,i.image.height),e.setRenderTarget(this._renderTarget),hN.render(e),e.setRenderTarget(r),s.value=n}setup(t){const e=this.textureNode;if(!0!==e.isTextureNode)return console.error("AnamorphNode requires a TextureNode."),gm();const s=e.uvNode||of(),i=Zp((()=>{const t=this.samples,i=Math.floor(t/2),r=cm(0).toVar();return nv({start:-i,end:i},(({i:t})=>{const n=im(t).abs().div(i).oneMinus(),o=(t=>e.cache().context({getUV:()=>t,forceUVContext:!0}))(am(s.x.add(this._invSize.x.mul(t).mul(this.scaleNode)),s.y)),a=_A(o,this.tresholdNode).mul(n);r.addAssign(a)})),r.mul(this.colorNode)}));(this._material||(this._material=t.createNodeMaterial())).fragmentNode=i();return t.getNodeProperties(this).textureNode=e,this._textureNode}}const uN=(t,e=.9,s=3,i=32)=>qp(new lN(qp(t),qp(e),qp(s),i));vp("anamorphic",uN);class cN extends lp{constructor(t){super(),this.textureNode=t,this.updateBeforeType=Hd.RENDER,this._invSize=nf(new Zs)}updateBefore(){const t=this.textureNode.value;this._invSize.value.set(1/t.image.width,1/t.image.height)}setup(){const{textureNode:t}=this,e=t.uvNode||of(),s=t=>this.textureNode.cache().context({getUV:()=>t,forceUVContext:!0});return Zp((()=>{const t=this._invSize,i=wm(-1,-2,-1,0,0,0,1,2,1),r=wm(-1,0,1,-2,0,2,-1,0,1),n=TA(s(e.add(t.mul(am(-1,-1)))).xyz),o=TA(s(e.add(t.mul(am(-1,0)))).xyz),a=TA(s(e.add(t.mul(am(-1,1)))).xyz),h=TA(s(e.add(t.mul(am(0,-1)))).xyz),l=TA(s(e.add(t.mul(am(0,0)))).xyz),u=TA(s(e.add(t.mul(am(0,1)))).xyz),c=TA(s(e.add(t.mul(am(1,-1)))).xyz),d=TA(s(e.add(t.mul(am(1,0)))).xyz),p=TA(s(e.add(t.mul(am(1,1)))).xyz),m=uf(i[0][0].mul(n),i[1][0].mul(h),i[2][0].mul(c),i[0][1].mul(o),i[1][1].mul(l),i[2][1].mul(d),i[0][2].mul(a),i[1][2].mul(u),i[2][2].mul(p)),g=uf(r[0][0].mul(n),r[1][0].mul(h),r[2][0].mul(c),r[0][1].mul(o),r[1][1].mul(l),r[2][1].mul(d),r[0][2].mul(a),r[1][2].mul(u),r[2][2].mul(p)),f=m.mul(m).add(g.mul(g)).sqrt();return gm(cm(f),1)}))()}}const dN=t=>qp(new cN(qp(t)));vp("sobel",dN);class pN extends lp{constructor(t,e,s=1,i=.025,r=1){super(),this.textureNode=t,this.viewZNode=e,this.focus=nf(s),this.aperture=nf(i),this.maxblur=nf(r),this._aspect=nf(0),this.updateBeforeType=Hd.RENDER}updateBefore(){const t=this.textureNode.value;this._aspect.value=t.image.width/t.image.height}setup(){const{textureNode:t}=this,e=t.uvNode||of(),s=t=>this.textureNode.uv(t);return Zp((()=>{const t=am(1,this._aspect),i=this.focus.add(this.viewZNode),r=am(Fy(i.mul(this.aperture),this.maxblur.negate(),this.maxblur)),n=r.mul(.9),o=r.mul(.7),a=r.mul(.4);let h=gm(0);return h=h.add(s(e)),h=h.add(s(e.add(am(0,.4).mul(t).mul(r)))),h=h.add(s(e.add(am(.15,.37).mul(t).mul(r)))),h=h.add(s(e.add(am(.29,.29).mul(t).mul(r)))),h=h.add(s(e.add(am(-.37,.15).mul(t).mul(r)))),h=h.add(s(e.add(am(.4,0).mul(t).mul(r)))),h=h.add(s(e.add(am(.37,-.15).mul(t).mul(r)))),h=h.add(s(e.add(am(.29,-.29).mul(t).mul(r)))),h=h.add(s(e.add(am(-.15,-.37).mul(t).mul(r)))),h=h.add(s(e.add(am(0,-.4).mul(t).mul(r)))),h=h.add(s(e.add(am(-.15,.37).mul(t).mul(r)))),h=h.add(s(e.add(am(-.29,.29).mul(t).mul(r)))),h=h.add(s(e.add(am(.37,.15).mul(t).mul(r)))),h=h.add(s(e.add(am(-.4,0).mul(t).mul(r)))),h=h.add(s(e.add(am(-.37,-.15).mul(t).mul(r)))),h=h.add(s(e.add(am(-.29,-.29).mul(t).mul(r)))),h=h.add(s(e.add(am(.15,-.37).mul(t).mul(r)))),h=h.add(s(e.add(am(.15,.37).mul(t).mul(n)))),h=h.add(s(e.add(am(-.37,.15).mul(t).mul(n)))),h=h.add(s(e.add(am(.37,-.15).mul(t).mul(n)))),h=h.add(s(e.add(am(-.15,-.37).mul(t).mul(n)))),h=h.add(s(e.add(am(-.15,.37).mul(t).mul(n)))),h=h.add(s(e.add(am(.37,.15).mul(t).mul(n)))),h=h.add(s(e.add(am(-.37,-.15).mul(t).mul(n)))),h=h.add(s(e.add(am(.15,-.37).mul(t).mul(n)))),h=h.add(s(e.add(am(.29,.29).mul(t).mul(o)))),h=h.add(s(e.add(am(.4,0).mul(t).mul(o)))),h=h.add(s(e.add(am(.29,-.29).mul(t).mul(o)))),h=h.add(s(e.add(am(0,-.4).mul(t).mul(o)))),h=h.add(s(e.add(am(-.29,.29).mul(t).mul(o)))),h=h.add(s(e.add(am(-.4,0).mul(t).mul(o)))),h=h.add(s(e.add(am(-.29,-.29).mul(t).mul(o)))),h=h.add(s(e.add(am(0,.4).mul(t).mul(o)))),h=h.add(s(e.add(am(.29,.29).mul(t).mul(a)))),h=h.add(s(e.add(am(.4,0).mul(t).mul(a)))),h=h.add(s(e.add(am(.29,-.29).mul(t).mul(a)))),h=h.add(s(e.add(am(0,-.4).mul(t).mul(a)))),h=h.add(s(e.add(am(-.29,.29).mul(t).mul(a)))),h=h.add(s(e.add(am(-.4,0).mul(t).mul(a)))),h=h.add(s(e.add(am(-.29,-.29).mul(t).mul(a)))),h=h.add(s(e.add(am(0,.4).mul(t).mul(a)))),h=h.div(41),h.a=1,gm(h)}))()}}const mN=(t,e,s,i,r)=>qp(new pN(qp(t),qp(e),s,i,r));vp("dof",mN);const gN=new KA;class fN extends lp{constructor(t,e=new Zs(.5,.5),s=1.57,i=1){super("vec4"),this.colorNode=t,this.center=nf(e),this.angle=nf(s),this.scale=nf(i),this._renderTarget=new Ti,this._renderTarget.texture.name="dotScreen",this._size=nf(new Zs),this._textureNode=YA(this,this._renderTarget.texture),this.updateBeforeType=Hd.RENDER}getTextureNode(){return this._textureNode}setSize(t,e){this._size.value.set(t,e),this._renderTarget.setSize(t,e)}updateBefore(t){const{renderer:e}=t,s=this.colorNode,i=s.value;this._renderTarget.texture.type=i.type;const r=e.getRenderTarget(),n=s.value;gN.material=this._material,this.setSize(i.image.width,i.image.height),e.setRenderTarget(this._renderTarget),gN.render(e),e.setRenderTarget(r),s.value=n}setup(t){const e=this.colorNode,s=Zp((()=>{const t=Zf(this.angle),e=Qf(this.angle),s=of().mul(this._size).sub(this.center),i=am(e.mul(s.x).sub(t.mul(s.y)),t.mul(s.x).add(e.mul(s.y))).mul(this.scale);return Zf(i.x).mul(Zf(i.y)).mul(4)})),i=Zp((()=>{const t=e,i=uf(t.r,t.g,t.b).div(3);return gm(cm(i.mul(10).sub(5).add(s())),t.a)}));(this._material||(this._material=t.createNodeMaterial())).fragmentNode=i();return t.getNodeProperties(this).textureNode=e,this._textureNode}}const yN=(t,e,s,i)=>qp(new fN(qp(t),e,s,i));vp("dotScreen",yN);class xN extends lp{constructor(t,e=.005,s=0){super("vec4"),this.textureNode=t,this.amount=nf(e),this.angle=nf(s),this.updateBeforeType=Hd.RENDER}updateBefore(){}setup(){const{textureNode:t}=this,e=t.uvNode||of(),s=t=>this.textureNode.uv(t);return Zp((()=>{const t=am(Qf(this.angle),Zf(this.angle)).mul(this.amount),i=s(e.add(t)),r=s(e),n=s(e.sub(t));return gm(i.r,r.g,n.b,r.a)}))()}}const bN=(t,e,s)=>qp(new xN(qp(t),e,s));vp("rgbShift",bN);class vN extends lp{constructor(t=null,e={}){super(),this.functionNode=t,this.parameters=e}setParameters(t){return this.parameters=t,this}getParameters(){return this.parameters}getNodeType(t){return this.functionNode.getNodeType(t)}generate(t){const e=[],s=this.functionNode,i=s.getInputs(t),r=this.parameters;if(Array.isArray(r))for(let s=0;s(e=e.length>1||e[0]&&!0===e[0].isNode?Xp(e):$p(e[0]),qp(new vN(qp(t),e)));vp("call",TN),ap("FunctionCallNode",vN);class _N extends op{constructor(t=null){super(),this._value=t,this._cache=null,this.inputType=null,this.outpuType=null,this.events=new Vs,this.isScriptableValueNode=!0}get isScriptableOutputNode(){return null!==this.outputType}set value(t){this._value!==t&&(this._cache&&"URL"===this.inputType&&this.value.value instanceof ArrayBuffer&&(URL.revokeObjectURL(this._cache),this._cache=null),this._value=t,this.events.dispatchEvent({type:"change"}),this.refresh())}get value(){return this._value}refresh(){this.events.dispatchEvent({type:"refresh"})}getValue(){const t=this.value;if(t&&null===this._cache&&"URL"===this.inputType&&t.value instanceof ArrayBuffer)this._cache=URL.createObjectURL(new Blob([t.value]));else if(t&&null!==t.value&&void 0!==t.value&&(("URL"===this.inputType||"String"===this.inputType)&&"string"==typeof t.value||"Number"===this.inputType&&"number"==typeof t.value||"Vector2"===this.inputType&&t.value.isVector2||"Vector3"===this.inputType&&t.value.isVector3||"Vector4"===this.inputType&&t.value.isVector4||"Color"===this.inputType&&t.value.isColor||"Matrix3"===this.inputType&&t.value.isMatrix3||"Matrix4"===this.inputType&&t.value.isMatrix4))return t.value;return this._cache||t}getNodeType(t){return this.value&&this.value.isNode?this.value.getNodeType(t):"float"}setup(){return this.value&&this.value.isNode?this.value:im()}serialize(t){super.serialize(t),null!==this.value?"ArrayBuffer"===this.inputType?t.value=ep(this.value):t.value=this.value?this.value.toJSON(t.meta).uuid:null:t.value=null,t.inputType=this.inputType,t.outputType=this.outputType}deserialize(t){super.deserialize(t);let e=null;null!==t.value&&(e="ArrayBuffer"===t.inputType?sp(t.value):"Texture"===t.inputType?t.meta.textures[t.value]:t.meta.nodes[t.value]||null),this.value=e,this.inputType=t.inputType,this.outputType=t.outputType}}const wN=Yp(_N);vp("scriptableValue",wN),ap("ScriptableValueNode",_N);class SN extends Map{get(t,e=null,...s){if(this.has(t))return super.get(t);if(null!==e){const i=e(...s);return this.set(t,i),i}}}class MN{constructor(t){this.scriptableNode=t}get parameters(){return this.scriptableNode.parameters}get layout(){return this.scriptableNode.getLayout()}getInputLayout(t){return this.scriptableNode.getInputLayout(t)}get(t){const e=this.parameters[t];return e?e.getValue():null}}const AN=new SN;class NN extends op{constructor(t=null,e={}){super(),this.codeNode=t,this.parameters=e,this._local=new SN,this._output=wN(),this._outputs={},this._source=this.source,this._method=null,this._object=null,this._value=null,this._needsOutputUpdate=!0,this.onRefresh=this.onRefresh.bind(this),this.isScriptableNode=!0}get source(){return this.codeNode?this.codeNode.code:""}setLocal(t,e){return this._local.set(t,e)}getLocal(t){return this._local.get(t)}onRefresh(){this._refresh()}getInputLayout(t){for(const e of this.getLayout())if(e.inputType&&(e.id===t||e.name===t))return e}getOutputLayout(t){for(const e of this.getLayout())if(e.outputType&&(e.id===t||e.name===t))return e}setOutput(t,e){const s=this._outputs;return void 0===s[t]?s[t]=wN(e):s[t].value=e,this}getOutput(t){return this._outputs[t]}getParameter(t){return this.parameters[t]}setParameter(t,e){const s=this.parameters;return e&&e.isScriptableNode?(this.deleteParameter(t),s[t]=e,s[t].getDefaultOutput().events.addEventListener("refresh",this.onRefresh)):e&&e.isScriptableValueNode?(this.deleteParameter(t),s[t]=e,s[t].events.addEventListener("refresh",this.onRefresh)):void 0===s[t]?(s[t]=wN(e),s[t].events.addEventListener("refresh",this.onRefresh)):s[t].value=e,this}getValue(){return this.getDefaultOutput().getValue()}deleteParameter(t){let e=this.parameters[t];return e&&(e.isScriptableNode&&(e=e.getDefaultOutput()),e.events.removeEventListener("refresh",this.onRefresh)),this}clearParameters(){for(const t of Object.keys(this.parameters))this.deleteParameter(t);return this.needsUpdate=!0,this}call(t,...e){const s=this.getObject()[t];if("function"==typeof s)return s(...e)}async callAsync(t,...e){const s=this.getObject()[t];if("function"==typeof s)return"AsyncFunction"===s.constructor.name?await s(...e):s(...e)}getNodeType(t){return this.getDefaultOutputNode().getNodeType(t)}refresh(t=null){null!==t?this.getOutput(t).refresh():this._refresh()}getObject(){if(this.needsUpdate&&this.dispose(),null!==this._object)return this._object;const t=new MN(this),e=AN.get("THREE"),s=AN.get("TSL"),i=this.getMethod(this.codeNode),r=[t,this._local,AN,()=>this.refresh(),(t,e)=>this.setOutput(t,e),e,s];this._object=i(...r);const n=this._object.layout;if(n&&(!1===n.cache&&this._local.clear(),this._output.outputType=n.outputType||null,Array.isArray(n.elements)))for(const t of n.elements){const e=t.id||t.name;t.inputType&&(void 0===this.getParameter(e)&&this.setParameter(e,null),this.getParameter(e).inputType=t.inputType),t.outputType&&(void 0===this.getOutput(e)&&this.setOutput(e,null),this.getOutput(e).outputType=t.outputType)}return this._object}deserialize(t){super.deserialize(t);for(const t in this.parameters){let e=this.parameters[t];e.isScriptableNode&&(e=e.getDefaultOutput()),e.events.addEventListener("refresh",this.onRefresh)}}getLayout(){return this.getObject().layout}getDefaultOutputNode(){const t=this.getDefaultOutput().value;return t&&t.isNode?t:im()}getDefaultOutput(){return this._exec()._output}getMethod(){if(this.needsUpdate&&this.dispose(),null!==this._method)return this._method;const t=["layout","init","main","dispose"].join(", "),e="\nreturn { ...output, "+t+" };",s="var "+t+"; var output = {};\n"+this.codeNode.code+e;return this._method=new Function(...["parameters","local","global","refresh","setOutput","THREE","TSL"],s),this._method}dispose(){null!==this._method&&(this._object&&"function"==typeof this._object.dispose&&this._object.dispose(),this._method=null,this._object=null,this._source=null,this._value=null,this._needsOutputUpdate=!0,this._output.value=null,this._outputs={})}setup(){return this.getDefaultOutputNode()}set needsUpdate(t){!0===t&&this.dispose()}get needsUpdate(){return this.source!==this._source}_exec(){return null===this.codeNode||(!0===this._needsOutputUpdate&&(this._value=this.call("main"),this._needsOutputUpdate=!1),this._output.value=this._value),this}_refresh(){this.needsUpdate=!0,this._exec(),this._output.refresh()}}const RN=Yp(NN);vp("scriptable",RN),ap("ScriptableNode",NN);class CN extends op{constructor(t,e){super("float"),this.isFogNode=!0,this.colorNode=t,this.factorNode=e}getViewZNode(t){let e;const s=t.context.getViewZ;return void 0!==s&&(e=s(this)),(e||Ob.z).negate()}setup(){return this.factorNode}}const EN=Yp(CN);vp("fog",EN),ap("FogNode",CN);class BN extends CN{constructor(t,e,s){super(t),this.isFogRangeNode=!0,this.nearNode=e,this.farNode=s}setup(t){const e=this.getViewZNode(t);return zy(this.nearNode,this.farNode,e)}}const IN=Yp(BN);vp("rangeFog",IN),ap("FogRangeNode",BN);class PN extends CN{constructor(t,e){super(t),this.isFogExp2Node=!0,this.densityNode=e}setup(t){const e=this.getViewZNode(t),s=this.densityNode;return s.mul(s,e,e).negate().exp().oneMinus()}}const FN=Yp(PN);vp("densityFog",FN),ap("FogExp2Node",PN);let UN=null,ON=null;class zN extends op{constructor(t=im(),e=im()){super(),this.minNode=t,this.maxNode=e}getVectorLength(t){const e=t.getTypeLength(Kd(this.minNode.value)),s=t.getTypeLength(Kd(this.maxNode.value));return e>s?e:s}getNodeType(t){return t.object.count>1?t.getTypeFromLength(this.getVectorLength(t)):"float"}setup(t){const e=t.object;let s=null;if(e.count>1){const i=this.minNode.value,r=this.maxNode.value,n=t.getTypeLength(Kd(i)),o=t.getTypeLength(Kd(r));UN=UN||new vi,ON=ON||new vi,UN.setScalar(0),ON.setScalar(0),1===n?UN.setScalar(i):i.isColor?UN.set(i.r,i.g,i.b):UN.set(i.x,i.y,i.z||0,i.w||0),1===o?ON.setScalar(r):r.isColor?ON.set(r.r,r.g,r.b):ON.set(r.x,r.y,r.z||0,r.w||0);const a=4,h=a*e.count,l=new Float32Array(h);for(let t=0;tqp(new VN(qp(t),e,s));vp("compute",DN),ap("ComputeNode",VN);class kN extends op{constructor(t=kN.TARGET_DIRECTION,e=null){super(),this.scope=t,this.light=e}setup(){const{scope:t,light:e}=this;let s=null;return t===kN.TARGET_DIRECTION&&(s=vx.transformDirection(Cx(e).sub(Cx(e.target)))),s}serialize(t){super.serialize(t),t.scope=this.scope}deserialize(t){super.deserialize(t),this.scope=t.scope}}kN.TARGET_DIRECTION="targetDirection";const GN=Yp(kN,kN.TARGET_DIRECTION);ap("LightNode",kN);const WN=Zp((t=>{const{lightDistance:e,cutoffDistance:s,decayExponent:i}=t,r=e.pow(i).max(.01).reciprocal();return s.greaterThan(0).cond(r.mul(e.div(s).pow4().oneMinus().clamp().pow2()),r)}));class jN extends bv{constructor(t=null){super(t),this.cutoffDistanceNode=nf(0),this.decayExponentNode=nf(0)}update(t){const{light:e}=this;super.update(t),this.cutoffDistanceNode.value=e.distance,this.decayExponentNode.value=e.decay}setup(t){const{colorNode:e,cutoffDistanceNode:s,decayExponentNode:i,light:r}=this,n=t.context.lightingModel,o=Bx(r).sub(Ob),a=o.normalize(),h=o.length(),l=WN({lightDistance:h,cutoffDistance:s,decayExponent:i}),u=e.mul(l),c=t.context.reflectedLight;n.direct({lightDirection:a,lightColor:u,reflectedLight:c,shadowMask:this.shadowMaskNode},t.stack,t)}}ap("PointLightNode",jN),Sv(Mu,jN);class HN extends bv{constructor(t=null){super(t)}setup(t){super.setup(t);const e=t.context.lightingModel,s=this.colorNode,i=GN(this.light),r=t.context.reflectedLight;e.direct({lightDirection:i,lightColor:s,reflectedLight:r,shadowMask:this.shadowMaskNode},t.stack,t)}}ap("DirectionalLightNode",HN),Sv(Ru,HN);const qN=new rr,$N=new rr;let XN=null;class YN extends bv{constructor(t=null){super(t),this.halfHeight=nf(new Ri),this.halfWidth=nf(new Ri)}update(t){super.update(t);const{light:e}=this,s=t.camera.matrixWorldInverse;$N.identity(),qN.copy(e.matrixWorld),qN.premultiply(s),$N.extractRotation(qN),this.halfWidth.value.set(.5*e.width,0,0),this.halfHeight.value.set(0,.5*e.height,0),this.halfWidth.value.applyMatrix4($N),this.halfHeight.value.applyMatrix4($N)}setup(t){let e,s;super.setup(t),t.isAvailable("float32Filterable")?(e=tx(XN.LTC_FLOAT_1),s=tx(XN.LTC_FLOAT_2)):(e=tx(XN.LTC_HALF_1),s=tx(XN.LTC_HALF_2));const{colorNode:i,light:r}=this,n=t.context.lightingModel,o=Bx(r),a=t.context.reflectedLight;n.directRectArea({lightColor:i,lightPosition:o,halfWidth:this.halfWidth,halfHeight:this.halfHeight,reflectedLight:a,ltc_1:e,ltc_2:s},t.stack,t)}static setLTC(t){XN=t}}ap("RectAreaLightNode",YN),Sv(Eu,YN);class JN extends bv{constructor(t=null){super(t),this.coneCosNode=nf(0),this.penumbraCosNode=nf(0),this.cutoffDistanceNode=nf(0),this.decayExponentNode=nf(0)}update(t){super.update(t);const{light:e}=this;this.coneCosNode.value=Math.cos(e.angle),this.penumbraCosNode.value=Math.cos(e.angle*(1-e.penumbra)),this.cutoffDistanceNode.value=e.distance,this.decayExponentNode.value=e.decay}getSpotAttenuation(t){const{coneCosNode:e,penumbraCosNode:s}=this;return zy(e,s,t)}setup(t){super.setup(t);const e=t.context.lightingModel,{colorNode:s,cutoffDistanceNode:i,decayExponentNode:r,light:n}=this,o=Bx(n).sub(Ob),a=o.normalize(),h=a.dot(GN(n)),l=this.getSpotAttenuation(h),u=o.length(),c=WN({lightDistance:u,cutoffDistance:i,decayExponent:r}),d=s.mul(l).mul(c),p=t.context.reflectedLight;e.direct({lightDirection:a,lightColor:d,reflectedLight:p,shadowMask:this.shadowMaskNode},t.stack,t)}}ap("SpotLightNode",JN),Sv(vu,JN);class ZN extends vu{constructor(t,e,s,i,r,n){super(t,e,s,i,r,n),this.iesMap=null}copy(t,e){return super.copy(t,e),this.iesMap=t.iesMap,this}}class QN extends JN{getSpotAttenuation(t){const e=this.light.iesMap;let s=null;if(e&&!0===e.isTexture){const i=t.acos().mul(1/Math.PI);s=tx(e,am(i,0),0).r}else s=super.getSpotAttenuation(t);return s}}ap("IESSpotLightNode",QN),Sv(ZN,QN);class KN extends bv{constructor(t=null){super(t)}setup({context:t}){t.irradiance.addAssign(this.colorNode)}}ap("AmbientLightNode",KN),Sv(Cu,KN);class tR extends bv{constructor(t=null){super(t),this.lightPositionNode=Cx(t),this.lightDirectionNode=this.lightPositionNode.normalize(),this.groundColorNode=nf(new $r)}update(t){const{light:e}=this;super.update(t),this.lightPositionNode.object3d=e,this.groundColorNode.value.copy(e.groundColor).multiplyScalar(e.intensity)}setup(t){const{colorNode:e,groundColorNode:s,lightDirectionNode:i}=this,r=Wx.dot(i).mul(.5).add(.5),n=Py(s,e,r);t.context.irradiance.addAssign(n)}}ap("HemisphereLightNode",tR),Sv(mu,tR);const eR=Zp((t=>{const e=t.uv.mul(2),s=e.x.floor(),i=e.y.floor();return s.add(i).mod(2).sign()}));class sR extends lp{constructor(t=of()){super("float"),this.uvNode=t}setup(){return eR({uv:this.uvNode})}}const iR=Yp(sR);vp("checker",iR),ap("CheckerNode",sR);class rR extends iu{constructor(t){super(t),this.textures={}}load(t,e,s,i){const r=new ou(this.manager);r.setPath(this.path),r.setRequestHeader(this.requestHeader),r.setWithCredentials(this.withCredentials),r.load(t,(s=>{try{e(this.parse(JSON.parse(s)))}catch(e){i?i(e):console.error(e),this.manager.itemError(t)}}),s,i)}parseNodes(t){const e={};if(void 0!==t){for(const s of t){const{uuid:t,type:i}=s;e[t]=qp(hp(i)),e[t].uuid=t}const s={nodes:e,textures:this.textures};for(const i of t){i.meta=s;e[i.uuid].deserialize(i),delete i.meta}}return e}parse(t){const e=qp(hp(t.type));e.uuid=t.uuid;const s={nodes:this.parseNodes(t.nodes),textures:this.textures};return t.meta=s,e.deserialize(t),delete t.meta,e}setTextures(t){return this.textures=t,this}}const nR=new za;class oR extends $T{constructor(t={}){super(),this.normals=!1,this.lights=!1,this.useAlphaToCoverage=!0,this.useColor=t.vertexColors,this.pointWidth=1,this.pointColorNode=null,this.setDefaultValues(nR),this.setupShaders(),this.setValues(t)}setupShaders(){const t=this.alphaToCoverage,e=this.useColor;this.vertexNode=Zp((()=>{Vm(am(),"vUv").assign(of());const t=km("instancePosition"),e=cg("vec4","mvPos");e.assign(Fx.mul(gm(t,1)));const s=TT.z.div(TT.w),i=xx.mul(e),r=cg("vec2","offset");return r.assign(Ib.xy),r.assign(r.mul(Cb)),r.assign(r.div(TT.z)),r.y.assign(r.y.mul(s)),r.assign(r.mul(i.w)),i.assign(i.add(gm(r,0,0))),i}))(),this.fragmentNode=Zp((()=>{const s=Vm(am(),"vUv"),i=cg("float","alpha");i.assign(1);const r=s.x,n=s.y,o=r.mul(r).add(n.mul(n));if(t){const t=cg("float","dlen");t.assign(o.fwidth()),i.assign(zy(t.oneMinus(),t.add(1),o).oneMinus())}else o.greaterThan(1).discard();let a;if(this.pointColorNode)a=this.pointColorNode;else if(e){a=km("instanceColor").mul(Zx)}else a=Zx;return gm(a,i)}))(),this.needsUpdate=!0}get alphaToCoverage(){return this.useAlphaToCoverage}set alphaToCoverage(t){this.useAlphaToCoverage!==t&&(this.useAlphaToCoverage=t,this.setupShaders())}}XT("InstancedPointsNodeMaterial",oR);const aR=new wa;class hR extends $T{constructor(t){super(),this.isLineBasicNodeMaterial=!0,this.lights=!1,this.normals=!1,this.setDefaultValues(aR),this.setValues(t)}}XT("LineBasicNodeMaterial",hR);const lR=new Pl;class uR extends $T{constructor(t){super(),this.isLineDashedNodeMaterial=!0,this.lights=!1,this.normals=!1,this.setDefaultValues(lR),this.offsetNode=null,this.dashScaleNode=null,this.dashSizeNode=null,this.gapSizeNode=null,this.setValues(t)}setupVariants(){const t=this.offsetNode,e=this.dashScaleNode?im(this.dashScaleNode):Sb,s=this.dashSizeNode?im(this.dashSizeNode):Mb,i=this.dashSizeNode?im(this.dashGapNode):Ab;Bg.assign(s),Ig.assign(i);const r=Vm(km("lineDistance").mul(e));(t?r.add(t):r).mod(Bg.add(Ig)).greaterThan(Bg).discard()}}XT("LineDashedNodeMaterial",uR);const cR=new Pl;class dR extends $T{constructor(t={}){super(),this.normals=!1,this.lights=!1,this.setDefaultValues(cR),this.useAlphaToCoverage=!0,this.useColor=t.vertexColors,this.useDash=t.dashed,this.useWorldUnits=!1,this.dashOffset=0,this.lineWidth=1,this.lineColorNode=null,this.offsetNode=null,this.dashScaleNode=null,this.dashSizeNode=null,this.gapSizeNode=null,this.setValues(t)}setup(t){this.setupShaders(),super.setup(t)}setupShaders(){const t=this.alphaToCoverage,e=this.useColor,s=this.dashed,i=this.worldUnits,r=Zp((({start:t,end:e})=>{const s=xx.element(2).element(2),i=xx.element(3).element(2).mul(-.5).div(s).sub(t.z).div(e.z.sub(t.z));return gm(Py(t.xyz,e.xyz,i),e.w)}));this.vertexNode=Zp((()=>{dg("vec2","vUv").assign(of());const t=km("instanceStart"),e=km("instanceEnd"),n=cg("vec4","start"),o=cg("vec4","end");n.assign(Fx.mul(gm(t,1))),o.assign(Fx.mul(gm(e,1))),i&&(dg("vec3","worldStart").assign(n.xyz),dg("vec3","worldEnd").assign(o.xyz));const a=TT.z.div(TT.w),h=xx.element(2).element(3).equal(-1);tm(h,(()=>{tm(n.z.lessThan(0).and(o.z.greaterThan(0)),(()=>{o.assign(r({start:n,end:o}))})).elseif(o.z.lessThan(0).and(n.z.greaterThanEqual(0)),(()=>{n.assign(r({start:o,end:n}))}))}));const l=xx.mul(n),u=xx.mul(o),c=l.xyz.div(l.w),d=u.xyz.div(u.w),p=d.xy.sub(c.xy).temp();p.x.assign(p.x.mul(a)),p.assign(p.normalize());const m=eg(gm());if(i){const t=o.xyz.sub(n.xyz).normalize(),e=Py(n.xyz,o.xyz,.5).normalize(),i=t.cross(e).normalize(),r=t.cross(i),a=dg("vec4","worldPos");a.assign(Ib.y.lessThan(.5).cond(n,o));const h=Nb.mul(.5);a.addAssign(gm(Ib.x.lessThan(0).cond(i.mul(h),i.mul(h).negate()),0)),s||(a.addAssign(gm(Ib.y.lessThan(.5).cond(t.mul(h).negate(),t.mul(h)),0)),a.addAssign(gm(r.mul(h),0)),tm(Ib.y.greaterThan(1).or(Ib.y.lessThan(0)),(()=>{a.subAssign(gm(r.mul(2).mul(h),0))}))),m.assign(xx.mul(a));const l=eg(cm());l.assign(Ib.y.lessThan(.5).cond(c,d)),m.z.assign(l.z.mul(m.w))}else{const t=cg("vec2","offset");t.assign(am(p.y,p.x.negate())),p.x.assign(p.x.div(a)),t.x.assign(t.x.div(a)),t.assign(Ib.x.lessThan(0).cond(t.negate(),t)),tm(Ib.y.lessThan(0),(()=>{t.assign(t.sub(p))})).elseif(Ib.y.greaterThan(1),(()=>{t.assign(t.add(p))})),t.assign(t.mul(Nb)),t.assign(t.div(TT.w)),m.assign(Ib.y.lessThan(.5).cond(l,u)),t.assign(t.mul(m.w)),m.assign(m.add(gm(t,0,0)))}return m}))();const n=Zp((({p1:t,p2:e,p3:s,p4:i})=>{const r=t.sub(s),n=i.sub(s),o=e.sub(t),a=r.dot(n),h=n.dot(o),l=r.dot(o),u=n.dot(n),c=o.dot(o).mul(u).sub(h.mul(h)),d=a.mul(h).sub(l.mul(u)).div(c).clamp(),p=a.add(h.mul(d)).div(u).clamp();return am(d,p)}));this.fragmentNode=Zp((()=>{const r=dg("vec2","vUv");if(s){const t=this.offsetNode?im(this.offsetNodeNode):Rb,e=this.dashScaleNode?im(this.dashScaleNode):Sb,s=this.dashSizeNode?im(this.dashSizeNode):Mb,i=this.dashSizeNode?im(this.dashGapNode):Ab;Bg.assign(s),Ig.assign(i);const n=km("instanceDistanceStart"),o=km("instanceDistanceEnd"),a=Ib.y.lessThan(.5).cond(e.mul(n),Sb.mul(o)),h=Vm(a.add(Rb)),l=t?h.add(t):h;r.y.lessThan(-1).or(r.y.greaterThan(1)).discard(),l.mod(Bg.add(Ig)).greaterThan(Bg).discard()}const o=cg("float","alpha");if(o.assign(1),i){const e=dg("vec3","worldStart"),i=dg("vec3","worldEnd"),r=dg("vec4","worldPos").xyz.normalize().mul(1e5),a=i.sub(e),h=n({p1:e,p2:i,p3:cm(0,0,0),p4:r}),l=e.add(a.mul(h.x)),u=r.mul(h.y),c=l.sub(u).length().div(Nb);if(!s)if(t){const t=c.fwidth();o.assign(zy(t.negate().add(.5),t.add(.5),c).oneMinus())}else c.greaterThan(.5).discard()}else if(t){const t=r.x,e=r.y.greaterThan(0).cond(r.y.sub(1),r.y.add(1)),s=t.mul(t).add(e.mul(e)),i=cg("float","dlen");i.assign(s.fwidth()),tm(r.y.abs().greaterThan(1),(()=>{o.assign(zy(i.oneMinus(),i.add(1),s).oneMinus())}))}else tm(r.y.abs().greaterThan(1),(()=>{const t=r.x,e=r.y.greaterThan(0).cond(r.y.sub(1),r.y.add(1));t.mul(t).add(e.mul(e)).greaterThan(1).discard()}));let a;if(this.lineColorNode)a=this.lineColorNode;else if(e){const t=km("instanceColorStart"),e=km("instanceColorEnd");a=Ib.y.lessThan(.5).cond(t,e).mul(Zx)}else a=Zx;return gm(a,o)}))()}get worldUnits(){return this.useWorldUnits}set worldUnits(t){this.useWorldUnits!==t&&(this.useWorldUnits=t,this.needsUpdate=!0)}get dashed(){return this.useDash}set dashed(t){this.useDash!==t&&(this.useDash=t,this.needsUpdate=!0)}get alphaToCoverage(){return this.useAlphaToCoverage}set alphaToCoverage(t){this.useAlphaToCoverage!==t&&(this.useAlphaToCoverage=t,this.needsUpdate=!0)}}XT("Line2NodeMaterial",dR);const pR=new Rl;class mR extends $T{constructor(t){super(),this.lights=!1,this.isMeshNormalNodeMaterial=!0,this.setDefaultValues(pR),this.setValues(t)}setupDiffuseColor(){const t=this.opacityNode?im(this.opacityNode):tb;pg.assign(gm(Sw(Hx),t))}}XT("MeshNormalNodeMaterial",mR);const gR=new Zr;class fR extends $T{constructor(t){super(),this.isMeshBasicNodeMaterial=!0,this.lights=!1,this.setDefaultValues(gR),this.setValues(t)}}XT("MeshBasicNodeMaterial",fR);const yR=Zp((({f0:t,f90:e,dotVH:s})=>{const i=s.mul(-5.55473).sub(6.98316).mul(s).exp2();return t.mul(i.oneMinus()).add(e.mul(i))})),xR=Zp((t=>t.diffuseColor.mul(1/Math.PI))),bR=Zp((({dotNH:t})=>Cg.mul(im(.5)).add(1).mul(im(1/Math.PI)).mul(t.pow(Cg)))),vR=Zp((({lightDirection:t})=>{const e=t.add(zb).normalize(),s=Hx.dot(e).clamp(),i=zb.dot(e).clamp(),r=yR({f0:Ng,f90:1,dotVH:i}),n=im(.25),o=bR({dotNH:s});return r.mul(n).mul(o)}));class TR extends Km{constructor(t=!0){super(),this.specular=t}direct({lightDirection:t,lightColor:e,reflectedLight:s}){const i=Hx.dot(t).clamp().mul(e);s.directDiffuse.addAssign(i.mul(xR({diffuseColor:pg.rgb}))),!0===this.specular&&s.directSpecular.addAssign(i.mul(vR({lightDirection:t})).mul(rb))}indirectDiffuse({irradiance:t,reflectedLight:e}){e.indirectDiffuse.addAssign(t.mul(xR({diffuseColor:pg})))}}const _R=new Cl;class wR extends $T{constructor(t){super(),this.isMeshLambertNodeMaterial=!0,this.lights=!0,this.setDefaultValues(_R),this.setValues(t)}setupLightingModel(){return new TR(!1)}}XT("MeshLambertNodeMaterial",wR);const SR=new Al;class MR extends $T{constructor(t){super(),this.isMeshPhongNodeMaterial=!0,this.lights=!0,this.shininessNode=null,this.specularNode=null,this.setDefaultValues(SR),this.setValues(t)}setupLightingModel(){return new TR}setupVariants(){const t=(this.shininessNode?im(this.shininessNode):Qx).max(1e-4);Cg.assign(t);const e=this.specularNode||eb;Ng.assign(e)}copy(t){return this.shininessNode=t.shininessNode,this.specularNode=t.specularNode,super.copy(t)}}XT("MeshPhongNodeMaterial",MR);const AR=Zp((()=>{const t=kx.dFdx().abs().max(kx.dFdy().abs());return t.x.max(t.y).max(t.z)})),NR=Zp((t=>{const{roughness:e}=t,s=AR();let i=e.max(.0525);return i=i.add(s),i=i.min(1),i})),RR=Zp((({alpha:t,dotNL:e,dotNV:s})=>{const i=t.pow2(),r=e.mul(i.add(i.oneMinus().mul(s.pow2())).sqrt()),n=s.mul(i.add(i.oneMinus().mul(e.pow2())).sqrt());return pf(.5,r.add(n).max(If))})).setLayout({name:"V_GGX_SmithCorrelated",type:"float",inputs:[{name:"alpha",type:"float"},{name:"dotNL",type:"float"},{name:"dotNV",type:"float"}]}),CR=Zp((({alphaT:t,alphaB:e,dotTV:s,dotBV:i,dotTL:r,dotBL:n,dotNV:o,dotNL:a})=>{const h=a.mul(cm(t.mul(s),e.mul(i),o).length()),l=o.mul(cm(t.mul(r),e.mul(n),a).length());return pf(.5,h.add(l)).saturate()})).setLayout({name:"V_GGX_SmithCorrelated_Anisotropic",type:"float",inputs:[{name:"alphaT",type:"float",qualifier:"in"},{name:"alphaB",type:"float",qualifier:"in"},{name:"dotTV",type:"float",qualifier:"in"},{name:"dotBV",type:"float",qualifier:"in"},{name:"dotTL",type:"float",qualifier:"in"},{name:"dotBL",type:"float",qualifier:"in"},{name:"dotNV",type:"float",qualifier:"in"},{name:"dotNL",type:"float",qualifier:"in"}]}),ER=Zp((({alpha:t,dotNH:e})=>{const s=t.pow2(),i=e.pow2().mul(s.oneMinus()).oneMinus();return s.div(i.pow2()).mul(1/Math.PI)})).setLayout({name:"D_GGX",type:"float",inputs:[{name:"alpha",type:"float"},{name:"dotNH",type:"float"}]}),BR=im(1/Math.PI),IR=Zp((({alphaT:t,alphaB:e,dotNH:s,dotTH:i,dotBH:r})=>{const n=t.mul(e),o=cm(e.mul(i),t.mul(r),n.mul(s)),a=o.dot(o),h=n.div(a);return BR.mul(n.mul(h.pow2()))})).setLayout({name:"D_GGX_Anisotropic",type:"float",inputs:[{name:"alphaT",type:"float",qualifier:"in"},{name:"alphaB",type:"float",qualifier:"in"},{name:"dotNH",type:"float",qualifier:"in"},{name:"dotTH",type:"float",qualifier:"in"},{name:"dotBH",type:"float",qualifier:"in"}]}),PR=Zp((t=>{const{lightDirection:e,f0:s,f90:i,roughness:r,f:n,USE_IRIDESCENCE:o,USE_ANISOTROPY:a}=t,h=t.normalView||Hx,l=r.pow2(),u=e.add(zb).normalize(),c=h.dot(e).clamp(),d=h.dot(zb).clamp(),p=h.dot(u).clamp(),m=zb.dot(u).clamp();let g,f,y=yR({f0:s,f90:i,dotVH:m});if(Wp(o)&&(y=vg.mix(y,n)),Wp(a)){const t=Mg.dot(e),s=Mg.dot(zb),i=Mg.dot(u),r=Ag.dot(e),n=Ag.dot(zb),o=Ag.dot(u);g=CR({alphaT:wg,alphaB:l,dotTV:s,dotBV:n,dotTL:t,dotBL:r,dotNV:d,dotNL:c}),f=IR({alphaT:wg,alphaB:l,dotNH:p,dotTH:i,dotBH:o})}else g=RR({alpha:l,dotNL:c,dotNV:d}),f=ER({alpha:l,dotNH:p});return y.mul(g).mul(f)})),FR=Zp((({roughness:t,dotNV:e})=>{const s=gm(-1,-.0275,-.572,.022),i=gm(1,.0425,1.04,-.04),r=t.mul(s).add(i),n=r.x.mul(r.x).min(e.mul(-9.28).exp2()).mul(r.x).add(r.y);return am(-1.04,1.04).mul(n).add(r.zw)})).setLayout({name:"DFGApprox",type:"vec2",inputs:[{name:"roughness",type:"float"},{name:"dotNV",type:"vec3"}]}),UR=Zp((t=>{const{dotNV:e,specularColor:s,specularF90:i,roughness:r}=t,n=FR({dotNV:e,roughness:r});return s.mul(n.x).add(i.mul(n.y))})),OR=Zp((({f:t,f90:e,dotVH:s})=>{const i=s.oneMinus().saturate(),r=i.mul(i),n=i.mul(r,r).clamp(0,.9999);return t.sub(cm(e).mul(n)).div(n.oneMinus())})).setLayout({name:"Schlick_to_F0",type:"vec3",inputs:[{name:"f",type:"vec3"},{name:"f90",type:"float"},{name:"dotVH",type:"float"}]}),zR=Zp((({roughness:t,dotNH:e})=>{const s=t.pow2(),i=im(1).div(s),r=e.pow2().oneMinus().max(.0078125);return im(2).add(i).mul(r.pow(i.mul(.5))).div(2*Math.PI)})).setLayout({name:"D_Charlie",type:"float",inputs:[{name:"roughness",type:"float"},{name:"dotNH",type:"float"}]}),LR=Zp((({dotNV:t,dotNL:e})=>im(1).div(im(4).mul(e.add(t).sub(e.mul(t)))))).setLayout({name:"V_Neubelt",type:"float",inputs:[{name:"dotNV",type:"float"},{name:"dotNL",type:"float"}]}),VR=Zp((({lightDirection:t})=>{const e=t.add(zb).normalize(),s=Hx.dot(t).clamp(),i=Hx.dot(zb).clamp(),r=Hx.dot(e).clamp(),n=zR({roughness:bg,dotNH:r}),o=LR({dotNV:i,dotNL:s});return xg.mul(n).mul(o)})),DR=Zp((({N:t,V:e,roughness:s})=>{const i=t.dot(e).saturate(),r=am(s,i.oneMinus().sqrt());return r.assign(r.mul(.984375).add(.0078125)),r})).setLayout({name:"LTC_Uv",type:"vec2",inputs:[{name:"N",type:"vec3"},{name:"V",type:"vec3"},{name:"roughness",type:"float"}]}),kR=Zp((({f:t})=>{const e=t.length();return xy(e.mul(e).add(t.z).div(e.add(1)),0)})).setLayout({name:"LTC_ClippedSphereFormFactor",type:"float",inputs:[{name:"f",type:"vec3"}]}),GR=Zp((({v1:t,v2:e})=>{const s=t.dot(e),i=s.abs().toVar(),r=i.mul(.0145206).add(.4965155).mul(i).add(.8543985).toVar(),n=i.add(4.1616724).mul(i).add(3.417594).toVar(),o=r.div(n),a=s.greaterThan(0).cond(o,xy(s.mul(s).oneMinus(),1e-7).inverseSqrt().mul(.5).sub(o));return t.cross(e).mul(a)})).setLayout({name:"LTC_EdgeVectorFormFactor",type:"vec3",inputs:[{name:"v1",type:"vec3"},{name:"v2",type:"vec3"}]}),WR=Zp((({N:t,V:e,P:s,mInv:i,p0:r,p1:n,p2:o,p3:a})=>{const h=n.sub(r).toVar(),l=a.sub(r).toVar(),u=h.cross(l),c=cm().toVar();return tm(u.dot(s.sub(r)).greaterThanEqual(0),(()=>{const h=e.sub(t.mul(e.dot(t))).normalize(),l=t.cross(h).negate(),u=i.mul(wm(h,l,t).transpose()).toVar(),d=u.mul(r.sub(s)).normalize().toVar(),p=u.mul(n.sub(s)).normalize().toVar(),m=u.mul(o.sub(s)).normalize().toVar(),g=u.mul(a.sub(s)).normalize().toVar(),f=cm(0).toVar();f.addAssign(GR({v1:d,v2:p})),f.addAssign(GR({v1:p,v2:m})),f.addAssign(GR({v1:m,v2:g})),f.addAssign(GR({v1:g,v2:d})),c.assign(cm(kR({f:f})))})),c})).setLayout({name:"LTC_Evaluate",type:"vec3",inputs:[{name:"N",type:"vec3"},{name:"V",type:"vec3"},{name:"P",type:"vec3"},{name:"mInv",type:"mat3"},{name:"p0",type:"vec3"},{name:"p1",type:"vec3"},{name:"p2",type:"vec3"},{name:"p3",type:"vec3"}]}),jR=Zp((([t,e,s,i,r])=>{const n=cm(Oy(e.negate(),Yf(t),pf(1,i))),o=cm(ny(r[0].xyz),ny(r[1].xyz),ny(r[2].xyz));return Yf(n).mul(s.mul(o))})).setLayout({name:"getVolumeTransmissionRay",type:"vec3",inputs:[{name:"n",type:"vec3"},{name:"v",type:"vec3"},{name:"thickness",type:"float"},{name:"ior",type:"float"},{name:"modelMatrix",type:"mat4"}]}),HR=Zp((([t,e])=>t.mul(Fy(e.mul(2).sub(2),0,1)))).setLayout({name:"applyIorToRoughness",type:"float",inputs:[{name:"roughness",type:"float"},{name:"ior",type:"float"}]}),qR=CT(),$R=Zp((([t,e,s])=>{const i=qR.uv(t),r=jf(im(vT.x)).mul(HR(e,s));return i.bicubic(r)})),XR=Zp((([t,e,s])=>(tm(s.notEqual(0),(()=>{const i=Wf(e).negate().div(s);return kf(i.negate().mul(t))})),cm(1)))).setLayout({name:"volumeAttenuation",type:"vec3",inputs:[{name:"transmissionDistance",type:"float"},{name:"attenuationColor",type:"vec3"},{name:"attenuationDistance",type:"float"}]}),YR=Zp((([t,e,s,i,r,n,o,a,h,l,u,c,d,p,m])=>{let g,f;if(m){g=gm().toVar(),f=cm().toVar();const r=u.sub(1).mul(m.mul(.025)),n=cm(u.sub(r),u,u.add(r));nv({start:0,end:3},(({i:r})=>{const u=n.element(r),m=jR(t,e,c,u,a),y=o.add(m),x=l.mul(h.mul(gm(y,1))),b=am(x.xy.div(x.w)).toVar();b.addAssign(1),b.divAssign(2),b.assign(am(b.x,b.y.oneMinus()));const v=$R(b,s,u);g.element(r).assign(v.element(r)),g.a.addAssign(v.a),f.element(r).assign(i.element(r).mul(XR(ny(m),d,p).element(r)))})),g.a.divAssign(3)}else{const r=jR(t,e,c,u,a),n=o.add(r),m=l.mul(h.mul(gm(n,1))),y=am(m.xy.div(m.w)).toVar();y.addAssign(1),y.divAssign(2),y.assign(am(y.x,y.y.oneMinus())),g=$R(y,s,u),f=i.mul(XR(ny(r),d,p))}const y=f.rgb.mul(g.rgb),x=t.dot(e).clamp(),b=cm(UR({dotNV:x,specularColor:r,specularF90:n,roughness:s})),v=f.r.add(f.g,f.b).div(3);return gm(b.oneMinus().mul(y),g.a.oneMinus().mul(v).oneMinus())})),JR=wm(3.2404542,-.969266,.0556434,-1.5371385,1.8760108,-.2040259,-.4985314,.041556,1.0572252),ZR=(t,e)=>t.sub(e).div(t.add(e)).pow2(),QR=(t,e)=>{const s=t.mul(2*Math.PI*1e-9),i=cm(54856e-17,44201e-17,52481e-17),r=cm(1681e3,1795300,2208400),n=cm(43278e5,93046e5,66121e5),o=im(9747e-17*Math.sqrt(2*Math.PI*45282e5)).mul(s.mul(2239900).add(e.x).cos()).mul(s.pow2().mul(-45282e5).exp());let a=i.mul(n.mul(2*Math.PI).sqrt()).mul(r.mul(s).add(e).cos()).mul(s.pow2().negate().mul(n).exp());a=cm(a.x.add(o),a.y,a.z).div(1.0685e-7);return JR.mul(a)},KR=Zp((({outsideIOR:t,eta2:e,cosTheta1:s,thinFilmThickness:i,baseF0:r})=>{const n=Py(t,e,zy(0,.03,i)),o=t.div(n).pow2().mul(im(1).sub(s.pow2())),a=im(1).sub(o).sqrt(),h=ZR(n,t),l=yR({f0:h,f90:1,dotVH:s}),u=l.oneMinus(),c=n.lessThan(t).cond(Math.PI,0),d=im(Math.PI).sub(c),p=(t=>{const e=t.sqrt();return cm(1).add(e).div(cm(1).sub(e))})(r.clamp(0,.9999)),m=ZR(p,n.toVec3()),g=yR({f0:m,f90:1,dotVH:a}),f=cm(p.x.lessThan(n).cond(Math.PI,0),p.y.lessThan(n).cond(Math.PI,0),p.z.lessThan(n).cond(Math.PI,0)),y=n.mul(i,a,2),x=cm(d).add(f),b=l.mul(g).clamp(1e-5,.9999),v=b.sqrt(),T=u.pow2().mul(g).div(cm(1).sub(b));let _=l.add(T),w=T.sub(u);for(let t=1;t<=2;++t){w=w.mul(v);const e=QR(im(t).mul(y),im(t).mul(x)).mul(2);_=_.add(w.mul(e))}return _.max(cm(0))})).setLayout({name:"evalIridescence",type:"vec3",inputs:[{name:"outsideIOR",type:"float"},{name:"eta2",type:"float"},{name:"cosTheta1",type:"float"},{name:"thinFilmThickness",type:"float"},{name:"baseF0",type:"vec3"}]}),tC=Zp((({normal:t,viewDir:e,roughness:s})=>{const i=t.dot(e).saturate(),r=s.pow2(),n=Dv(s.lessThan(.25),im(-339.2).mul(r).add(im(161.4).mul(s)).sub(25.9),im(-8.48).mul(r).add(im(14.3).mul(s)).sub(9.95)),o=Dv(s.lessThan(.25),im(44).mul(r).sub(im(23.7).mul(s)).add(3.26),im(1.97).mul(r).sub(im(3.27).mul(s)).add(.72));return Dv(s.lessThan(.25),0,im(.1).mul(s).sub(.025)).add(n.mul(i).add(o).exp()).mul(1/Math.PI).saturate()})),eC=cm(.04),sC=im(1);class iC extends Km{constructor(t=!1,e=!1,s=!1,i=!1,r=!1,n=!1){super(),this.clearcoat=t,this.sheen=e,this.iridescence=s,this.anisotropy=i,this.transmission=r,this.dispersion=n,this.clearcoatRadiance=null,this.clearcoatSpecularDirect=null,this.clearcoatSpecularIndirect=null,this.sheenSpecularDirect=null,this.sheenSpecularIndirect=null,this.iridescenceFresnel=null,this.iridescenceF0=null}start(t){if(!0===this.clearcoat&&(this.clearcoatRadiance=cm().temp("clearcoatRadiance"),this.clearcoatSpecularDirect=cm().temp("clearcoatSpecularDirect"),this.clearcoatSpecularIndirect=cm().temp("clearcoatSpecularIndirect")),!0===this.sheen&&(this.sheenSpecularDirect=cm().temp("sheenSpecularDirect"),this.sheenSpecularIndirect=cm().temp("sheenSpecularIndirect")),!0===this.iridescence){const t=Hx.dot(zb).clamp();this.iridescenceFresnel=KR({outsideIOR:im(1),eta2:Tg,cosTheta1:t,thinFilmThickness:_g,baseF0:Ng}),this.iridescenceF0=OR({f:this.iridescenceFresnel,f90:1,dotVH:t})}if(!0===this.transmission){const e=Fb,s=wx.sub(Fb).normalize(),i=qx;t.backdrop=YR(i,s,mg,pg,Ng,Rg,e,Ox,vx,xx,Fg,Og,Lg,zg,this.dispersion?Vg:null),t.backdropAlpha=Ug,pg.a.mulAssign(Py(1,t.backdrop.a,Ug))}}computeMultiscattering(t,e,s){const i=Hx.dot(zb).clamp(),r=FR({roughness:mg,dotNV:i}),n=(this.iridescenceF0?vg.mix(Ng,this.iridescenceF0):Ng).mul(r.x).add(s.mul(r.y)),o=r.x.add(r.y).oneMinus(),a=Ng.add(Ng.oneMinus().mul(.047619)),h=n.mul(a).div(o.mul(a).oneMinus());t.addAssign(n),e.addAssign(h.mul(o))}direct({lightDirection:t,lightColor:e,reflectedLight:s}){const i=Hx.dot(t).clamp().mul(e);if(!0===this.sheen&&this.sheenSpecularDirect.addAssign(i.mul(VR({lightDirection:t}))),!0===this.clearcoat){const s=$x.dot(t).clamp().mul(e);this.clearcoatSpecularDirect.addAssign(s.mul(PR({lightDirection:t,f0:eC,f90:sC,roughness:yg,normalView:$x})))}s.directDiffuse.addAssign(i.mul(xR({diffuseColor:pg.rgb}))),s.directSpecular.addAssign(i.mul(PR({lightDirection:t,f0:Ng,f90:1,roughness:mg,iridescence:this.iridescence,f:this.iridescenceFresnel,USE_IRIDESCENCE:this.iridescence,USE_ANISOTROPY:this.anisotropy})))}directRectArea({lightColor:t,lightPosition:e,halfWidth:s,halfHeight:i,reflectedLight:r,ltc_1:n,ltc_2:o}){const a=e.add(s).sub(i),h=e.sub(s).sub(i),l=e.sub(s).add(i),u=e.add(s).add(i),c=Hx,d=zb,p=Ob.toVar(),m=DR({N:c,V:d,roughness:mg}),g=n.uv(m).toVar(),f=o.uv(m).toVar(),y=wm(cm(g.x,0,g.y),cm(0,1,0),cm(g.z,0,g.w)).toVar(),x=Ng.mul(f.x).add(Ng.oneMinus().mul(f.y)).toVar();r.directSpecular.addAssign(t.mul(x).mul(WR({N:c,V:d,P:p,mInv:y,p0:a,p1:h,p2:l,p3:u}))),r.directDiffuse.addAssign(t.mul(pg).mul(WR({N:c,V:d,P:p,mInv:wm(1,0,0,0,1,0,0,0,1),p0:a,p1:h,p2:l,p3:u})))}indirectDiffuse({irradiance:t,reflectedLight:e}){e.indirectDiffuse.addAssign(t.mul(xR({diffuseColor:pg})))}indirectSpecular({radiance:t,iblIrradiance:e,reflectedLight:s}){if(!0===this.sheen&&this.sheenSpecularIndirect.addAssign(e.mul(xg,tC({normal:Hx,viewDir:zb,roughness:bg}))),!0===this.clearcoat){const t=$x.dot(zb).clamp(),e=UR({dotNV:t,specularColor:eC,specularF90:sC,roughness:yg});this.clearcoatSpecularIndirect.addAssign(this.clearcoatRadiance.mul(e))}const i=cm().temp("singleScattering"),r=cm().temp("multiScattering"),n=e.mul(1/Math.PI);this.computeMultiscattering(i,r,Rg);const o=i.add(r),a=pg.mul(o.r.max(o.g).max(o.b).oneMinus());s.indirectSpecular.addAssign(t.mul(i)),s.indirectSpecular.addAssign(r.mul(n)),s.indirectDiffuse.addAssign(a.mul(n))}ambientOcclusion({ambientOcclusion:t,reflectedLight:e}){const s=Hx.dot(zb).clamp().add(t),i=mg.mul(-16).oneMinus().negate().exp2(),r=t.sub(s.pow(i).oneMinus()).clamp();!0===this.clearcoat&&this.clearcoatSpecularIndirect.mulAssign(t),!0===this.sheen&&this.sheenSpecularIndirect.mulAssign(t),e.indirectDiffuse.mulAssign(t),e.indirectSpecular.mulAssign(r)}finish(t){const{outgoingLight:e}=t;if(!0===this.clearcoat){const t=$x.dot(zb).clamp(),s=yR({dotVH:t,f0:eC,f90:sC}),i=e.mul(fg.mul(s).oneMinus()).add(this.clearcoatSpecularDirect.add(this.clearcoatSpecularIndirect).mul(fg));e.assign(i)}if(!0===this.sheen){const t=xg.r.max(xg.g).max(xg.b).mul(.157).oneMinus(),s=e.mul(t).add(this.sheenSpecularDirect,this.sheenSpecularIndirect);e.assign(s)}}}const rC=new Sl;class nC extends $T{constructor(t){super(),this.isMeshStandardNodeMaterial=!0,this.emissiveNode=null,this.metalnessNode=null,this.roughnessNode=null,this.setDefaultValues(rC),this.setValues(t)}setupLightingModel(){return new iC}setupSpecular(){const t=Py(cm(.04),pg.rgb,gg);Ng.assign(t),Rg.assign(1)}setupVariants(){const t=this.metalnessNode?im(this.metalnessNode):ab;gg.assign(t);let e=this.roughnessNode?im(this.roughnessNode):ob;e=NR({roughness:e}),mg.assign(e),this.setupSpecular(),pg.assign(gm(pg.rgb.mul(t.oneMinus()),pg.a))}copy(t){return this.emissiveNode=t.emissiveNode,this.metalnessNode=t.metalnessNode,this.roughnessNode=t.roughnessNode,super.copy(t)}}XT("MeshStandardNodeMaterial",nC);const oC=new Ml;class aC extends nC{constructor(t){super(),this.isMeshPhysicalNodeMaterial=!0,this.clearcoatNode=null,this.clearcoatRoughnessNode=null,this.clearcoatNormalNode=null,this.sheenNode=null,this.sheenRoughnessNode=null,this.iridescenceNode=null,this.iridescenceIORNode=null,this.iridescenceThicknessNode=null,this.specularIntensityNode=null,this.specularColorNode=null,this.iorNode=null,this.transmissionNode=null,this.thicknessNode=null,this.attenuationDistanceNode=null,this.attenuationColorNode=null,this.dispersionNode=null,this.anisotropyNode=null,this.setDefaultValues(oC),this.setValues(t)}get useClearcoat(){return this.clearcoat>0||null!==this.clearcoatNode}get useIridescence(){return this.iridescence>0||null!==this.iridescenceNode}get useSheen(){return this.sheen>0||null!==this.sheenNode}get useAnisotropy(){return this.anisotropy>0||null!==this.anisotropyNode}get useTransmission(){return this.transmission>0||null!==this.transmissionNode}get useDispersion(){return this.dispersion>0||null!==this.dispersionNode}setupSpecular(){const t=this.iorNode?im(this.iorNode):Tb;Fg.assign(t),Ng.assign(Py(yy(Ny(Fg.sub(1).div(Fg.add(1))).mul(ib),cm(1)).mul(sb),pg.rgb,gg)),Rg.assign(Py(sb,1,gg))}setupLightingModel(){return new iC(this.useClearcoat,this.useSheen,this.useIridescence,this.useAnisotropy,this.useTransmission,this.useDispersion)}setupVariants(t){if(super.setupVariants(t),this.useClearcoat){const t=this.clearcoatNode?im(this.clearcoatNode):lb,e=this.clearcoatRoughnessNode?im(this.clearcoatRoughnessNode):ub;fg.assign(t),yg.assign(NR({roughness:e}))}if(this.useSheen){const t=this.sheenNode?cm(this.sheenNode):pb,e=this.sheenRoughnessNode?im(this.sheenRoughnessNode):mb;xg.assign(t),bg.assign(e)}if(this.useIridescence){const t=this.iridescenceNode?im(this.iridescenceNode):fb,e=this.iridescenceIORNode?im(this.iridescenceIORNode):yb,s=this.iridescenceThicknessNode?im(this.iridescenceThicknessNode):xb;vg.assign(t),Tg.assign(e),_g.assign(s)}if(this.useAnisotropy){const t=(this.anisotropyNode?am(this.anisotropyNode):gb).toVar();Sg.assign(t.length()),tm(Sg.equal(0),(()=>{t.assign(am(1,0))})).else((()=>{t.divAssign(am(Sg)),Sg.assign(Sg.saturate())})),wg.assign(Sg.pow2().mix(mg.pow2(),1)),Mg.assign(Uv[0].mul(t.x).add(Uv[1].mul(t.y))),Ag.assign(Uv[1].mul(t.x).sub(Uv[0].mul(t.y)))}if(this.useTransmission){const t=this.transmissionNode?im(this.transmissionNode):bb,e=this.thicknessNode?im(this.thicknessNode):vb,s=this.attenuationDistanceNode?im(this.attenuationDistanceNode):_b,i=this.attenuationColorNode?cm(this.attenuationColorNode):wb;if(Ug.assign(t),Og.assign(e),zg.assign(s),Lg.assign(i),this.useDispersion){const t=this.dispersionNode?im(this.dispersionNode):Eb;Vg.assign(t)}}}setupNormal(t){super.setupNormal(t);const e=this.clearcoatNormalNode?cm(this.clearcoatNormalNode):cb;$x.assign(e)}copy(t){return this.clearcoatNode=t.clearcoatNode,this.clearcoatRoughnessNode=t.clearcoatRoughnessNode,this.clearcoatNormalNode=t.clearcoatNormalNode,this.sheenNode=t.sheenNode,this.sheenRoughnessNode=t.sheenRoughnessNode,this.iridescenceNode=t.iridescenceNode,this.iridescenceIORNode=t.iridescenceIORNode,this.iridescenceThicknessNode=t.iridescenceThicknessNode,this.specularIntensityNode=t.specularIntensityNode,this.specularColorNode=t.specularColorNode,this.transmissionNode=t.transmissionNode,this.thicknessNode=t.thicknessNode,this.attenuationDistanceNode=t.attenuationDistanceNode,this.attenuationColorNode=t.attenuationColorNode,this.dispersionNode=t.dispersionNode,this.anisotropyNode=t.anisotropyNode,super.copy(t)}}XT("MeshPhysicalNodeMaterial",aC);class hC extends iC{constructor(t,e,s,i){super(t,e,s),this.useSSS=i}direct({lightDirection:t,lightColor:e,reflectedLight:s},i,r){if(!0===this.useSSS){const i=r.material,{thicknessColorNode:n,thicknessDistortionNode:o,thicknessAmbientNode:a,thicknessAttenuationNode:h,thicknessPowerNode:l,thicknessScaleNode:u}=i,c=t.add(Hx.mul(o)).normalize(),d=im(zb.dot(c.negate()).saturate().pow(l).mul(u)),p=cm(d.add(a).mul(n));s.directDiffuse.addAssign(p.mul(h.mul(e)))}super.direct({lightDirection:t,lightColor:e,reflectedLight:s},i,r)}}class lC extends aC{constructor(t){super(t),this.thicknessColorNode=null,this.thicknessDistortionNode=im(.1),this.thicknessAmbientNode=im(0),this.thicknessAttenuationNode=im(.1),this.thicknessPowerNode=im(2),this.thicknessScaleNode=im(10)}get useSSS(){return null!==this.thicknessColorNode}setupLightingModel(){return new hC(this.useClearcoat,this.useSheen,this.useIridescence,this.useSSS)}copy(t){return this.thicknessColorNode=t.thicknessColorNode,this.thicknessDistortionNode=t.thicknessDistortionNode,this.thicknessAmbientNode=t.thicknessAmbientNode,this.thicknessAttenuationNode=t.thicknessAttenuationNode,this.thicknessPowerNode=t.thicknessPowerNode,this.thicknessScaleNode=t.thicknessScaleNode,super.copy(t)}}XT("MeshSSSNodeMaterial",lC);const uC=Zp((({normal:t,lightDirection:e,builder:s})=>{const i=t.dot(e),r=am(i.mul(.5).add(.5),0);if(s.material.gradientMap){const t=px("gradientMap","texture").context({getUV:()=>r});return cm(t.r)}{const t=r.fwidth().mul(.5);return Py(cm(.7),cm(1),zy(im(.7).sub(t.x),im(.7).add(t.x),r.x))}}));class cC extends Km{direct({lightDirection:t,lightColor:e,reflectedLight:s},i,r){const n=uC({normal:kx,lightDirection:t,builder:r}).mul(e);s.directDiffuse.addAssign(n.mul(xR({diffuseColor:pg.rgb})))}indirectDiffuse({irradiance:t,reflectedLight:e}){e.indirectDiffuse.addAssign(t.mul(xR({diffuseColor:pg})))}}const dC=new Nl;class pC extends $T{constructor(t){super(),this.isMeshToonNodeMaterial=!0,this.lights=!0,this.setDefaultValues(dC),this.setValues(t)}setupLightingModel(){return new cC}}XT("MeshToonNodeMaterial",pC);const mC=new Il;class gC extends $T{constructor(t){super(),this.lights=!1,this.isMeshMatcapNodeMaterial=!0,this.setDefaultValues(mC),this.setValues(t)}setupVariants(t){const e=dw;let s;s=t.material.matcap?px("matcap","texture").context({getUV:()=>e}):cm(Py(.2,.8,e.y)),pg.rgb.mulAssign(s.rgb)}}XT("MeshMatcapNodeMaterial",gC);const fC=new za;class yC extends $T{constructor(t){super(),this.isPointsNodeMaterial=!0,this.lights=!1,this.normals=!1,this.transparent=!0,this.sizeNode=null,this.setDefaultValues(fC),this.setValues(t)}copy(t){return this.sizeNode=t.sizeNode,super.copy(t)}}XT("PointsNodeMaterial",yC);const xC=new ao;class bC extends $T{constructor(t){super(),this.isSpriteNodeMaterial=!0,this.lights=!1,this.normals=!1,this.positionNode=null,this.rotationNode=null,this.scaleNode=null,this.setDefaultValues(xC),this.setValues(t)}setupPosition({object:t,context:e}){const{positionNode:s,rotationNode:i,scaleNode:r}=this,n=Pb;let o=Fx.mul(cm(s||0)),a=am(Ox[0].xyz.length(),Ox[1].xyz.length());null!==r&&(a=a.mul(r));let h=n.xy;t.center&&!0===t.center.isVector2&&(h=h.sub(nf(t.center).sub(.5))),h=h.mul(a);const l=im(i||db),u=h.rotate(l);o=gm(o.xy.add(u),o.zw);const c=xx.mul(o);return e.vertex=n,c}copy(t){return this.positionNode=t.positionNode,this.rotationNode=t.rotationNode,this.scaleNode=t.scaleNode,super.copy(t)}}XT("SpriteNodeMaterial",bC);class vC extends Km{constructor(){super(),this.shadowNode=im(1).toVar("shadowMask")}direct({shadowMask:t}){this.shadowNode.mulAssign(t)}finish(t){pg.a.mulAssign(this.shadowNode.oneMinus()),t.outgoingLight.rgb.assign(pg.rgb)}}const TC=new _l;class _C extends $T{constructor(t){super(),this.isShadowNodeMaterial=!0,this.lights=!0,this.setDefaultValues(TC),this.setValues(t)}setupLightingModel(){return new vC}}XT("ShadowNodeMaterial",_C);class wC extends $T{constructor(t={}){super(),this.normals=!1,this.lights=!1,this.isVolumeNodeMaterial=!0,this.testNode=null,this.setValues(t)}setup(t){const e=ZM(this.map,null,0),s=Zp((({orig:t,dir:e})=>{const s=cm(-.5),i=cm(.5),r=e.reciprocal(),n=s.sub(t).mul(r),o=i.sub(t).mul(r),a=yy(n,o),h=xy(n,o),l=xy(a.x,xy(a.y,a.z)),u=yy(h.x,yy(h.y,h.z));return am(l,u)}));this.fragmentNode=Zp((()=>{const t=Vm(cm(Dx.mul(gm(wx,1)))),i=Vm(Ib.sub(t)).normalize(),r=cg("vec2","bounds").assign(s({orig:t,dir:i}));r.x.greaterThan(r.y).discard(),r.assign(am(xy(r.x,0),r.y));const n=cg("vec3","p").assign(t.add(r.x.mul(i))),o=cg("vec3","inc").assign(cm(i.abs().reciprocal())),a=cg("float","delta").assign(yy(o.x,yy(o.y,o.z)));a.divAssign(px("steps","float"));const h=cg("vec4","ac").assign(gm(px("base","color"),0));return nv({type:"float",start:r.x,end:r.y,update:"+= delta"},(()=>{const t=cg("float","d").assign(e.uv(n.add(.5)).r);null!==this.testNode?this.testNode({map:e,mapValue:t,probe:n,finalColor:h}).append():(h.a.assign(1),av()),n.addAssign(i.mul(a))})),h.a.equal(0).discard(),gm(h)}))(),super.setup(t)}}XT("VolumeNodeMaterial",wC);const SC=Pu.createMaterialFromType;Pu.createMaterialFromType=function(t){const e=YT(t);return void 0!==e?e:SC.call(this,t)};class MC extends Pu{constructor(t){super(t),this.nodes={}}parse(t){const e=super.parse(t),s=this.nodes,i=t.inputNodes;for(const t in i){const r=i[t];e[t]=s[r]}return e}setNodes(t){return this.nodes=t,this}}class AC extends zu{constructor(t){super(t),this._nodesJSON=null}parse(t,e){this._nodesJSON=t.nodes;const s=super.parse(t,e);return this._nodesJSON=null,s}parseNodes(t,e){if(void 0!==t){const s=new rR;return s.setTextures(e),s.parseNodes(t)}return{}}parseMaterials(t,e){const s={};if(void 0!==t){const i=this.parseNodes(this._nodesJSON,e),r=new MC;r.setTextures(e),r.setNodes(i);for(let e=0,i=t.length;e{const e=(t=t.trim()).indexOf(BC),s=-1!==e?t.slice(e+12):t,i=s.match(CC);if(null!==i&&5===i.length){const r=i[4],n=[];let o=null;for(;null!==(o=EC.exec(r));)n.push(o);const a=[];let h=0;for(;h{const i=im(s).toVar(),r=im(e).toVar(),n=om(t).toVar();return Dv(n,r,i)})).setLayout({name:"mx_select",type:"float",inputs:[{name:"b",type:"bool"},{name:"t",type:"float"},{name:"f",type:"float"}]}),UC=Zp((([t,e])=>{const s=om(e).toVar(),i=im(t).toVar();return Dv(s,i.negate(),i)})).setLayout({name:"mx_negate_if",type:"float",inputs:[{name:"val",type:"float"},{name:"b",type:"bool"}]}),OC=Zp((([t])=>{const e=im(t).toVar();return rm($f(e))})).setLayout({name:"mx_floor",type:"int",inputs:[{name:"x",type:"float"}]}),zC=Zp((([t,e])=>{const s=im(t).toVar();return e.assign(OC(s)),s.sub(im(e))})),LC=uw([Zp((([t,e,s,i,r,n])=>{const o=im(n).toVar(),a=im(r).toVar(),h=im(i).toVar(),l=im(s).toVar(),u=im(e).toVar(),c=im(t).toVar(),d=im(cf(1,a)).toVar();return cf(1,o).mul(c.mul(d).add(u.mul(a))).add(o.mul(l.mul(d).add(h.mul(a))))})).setLayout({name:"mx_bilerp_0",type:"float",inputs:[{name:"v0",type:"float"},{name:"v1",type:"float"},{name:"v2",type:"float"},{name:"v3",type:"float"},{name:"s",type:"float"},{name:"t",type:"float"}]}),Zp((([t,e,s,i,r,n])=>{const o=im(n).toVar(),a=im(r).toVar(),h=cm(i).toVar(),l=cm(s).toVar(),u=cm(e).toVar(),c=cm(t).toVar(),d=im(cf(1,a)).toVar();return cf(1,o).mul(c.mul(d).add(u.mul(a))).add(o.mul(l.mul(d).add(h.mul(a))))})).setLayout({name:"mx_bilerp_1",type:"vec3",inputs:[{name:"v0",type:"vec3"},{name:"v1",type:"vec3"},{name:"v2",type:"vec3"},{name:"v3",type:"vec3"},{name:"s",type:"float"},{name:"t",type:"float"}]})]),VC=uw([Zp((([t,e,s,i,r,n,o,a,h,l,u])=>{const c=im(u).toVar(),d=im(l).toVar(),p=im(h).toVar(),m=im(a).toVar(),g=im(o).toVar(),f=im(n).toVar(),y=im(r).toVar(),x=im(i).toVar(),b=im(s).toVar(),v=im(e).toVar(),T=im(t).toVar(),_=im(cf(1,p)).toVar(),w=im(cf(1,d)).toVar();return im(cf(1,c)).toVar().mul(w.mul(T.mul(_).add(v.mul(p))).add(d.mul(b.mul(_).add(x.mul(p))))).add(c.mul(w.mul(y.mul(_).add(f.mul(p))).add(d.mul(g.mul(_).add(m.mul(p))))))})).setLayout({name:"mx_trilerp_0",type:"float",inputs:[{name:"v0",type:"float"},{name:"v1",type:"float"},{name:"v2",type:"float"},{name:"v3",type:"float"},{name:"v4",type:"float"},{name:"v5",type:"float"},{name:"v6",type:"float"},{name:"v7",type:"float"},{name:"s",type:"float"},{name:"t",type:"float"},{name:"r",type:"float"}]}),Zp((([t,e,s,i,r,n,o,a,h,l,u])=>{const c=im(u).toVar(),d=im(l).toVar(),p=im(h).toVar(),m=cm(a).toVar(),g=cm(o).toVar(),f=cm(n).toVar(),y=cm(r).toVar(),x=cm(i).toVar(),b=cm(s).toVar(),v=cm(e).toVar(),T=cm(t).toVar(),_=im(cf(1,p)).toVar(),w=im(cf(1,d)).toVar();return im(cf(1,c)).toVar().mul(w.mul(T.mul(_).add(v.mul(p))).add(d.mul(b.mul(_).add(x.mul(p))))).add(c.mul(w.mul(y.mul(_).add(f.mul(p))).add(d.mul(g.mul(_).add(m.mul(p))))))})).setLayout({name:"mx_trilerp_1",type:"vec3",inputs:[{name:"v0",type:"vec3"},{name:"v1",type:"vec3"},{name:"v2",type:"vec3"},{name:"v3",type:"vec3"},{name:"v4",type:"vec3"},{name:"v5",type:"vec3"},{name:"v6",type:"vec3"},{name:"v7",type:"vec3"},{name:"s",type:"float"},{name:"t",type:"float"},{name:"r",type:"float"}]})]),DC=Zp((([t,e,s])=>{const i=im(s).toVar(),r=im(e).toVar(),n=nm(t).toVar(),o=nm(n.bitAnd(nm(7))).toVar(),a=im(FC(o.lessThan(nm(4)),r,i)).toVar(),h=im(df(2,FC(o.lessThan(nm(4)),i,r))).toVar();return UC(a,om(o.bitAnd(nm(1)))).add(UC(h,om(o.bitAnd(nm(2)))))})).setLayout({name:"mx_gradient_float_0",type:"float",inputs:[{name:"hash",type:"uint"},{name:"x",type:"float"},{name:"y",type:"float"}]}),kC=Zp((([t,e,s,i])=>{const r=im(i).toVar(),n=im(s).toVar(),o=im(e).toVar(),a=nm(t).toVar(),h=nm(a.bitAnd(nm(15))).toVar(),l=im(FC(h.lessThan(nm(8)),o,n)).toVar(),u=im(FC(h.lessThan(nm(4)),n,FC(h.equal(nm(12)).or(h.equal(nm(14))),o,r))).toVar();return UC(l,om(h.bitAnd(nm(1)))).add(UC(u,om(h.bitAnd(nm(2)))))})).setLayout({name:"mx_gradient_float_1",type:"float",inputs:[{name:"hash",type:"uint"},{name:"x",type:"float"},{name:"y",type:"float"},{name:"z",type:"float"}]}),GC=uw([DC,kC]),WC=Zp((([t,e,s])=>{const i=im(s).toVar(),r=im(e).toVar(),n=pm(t).toVar();return cm(GC(n.x,r,i),GC(n.y,r,i),GC(n.z,r,i))})).setLayout({name:"mx_gradient_vec3_0",type:"vec3",inputs:[{name:"hash",type:"uvec3"},{name:"x",type:"float"},{name:"y",type:"float"}]}),jC=Zp((([t,e,s,i])=>{const r=im(i).toVar(),n=im(s).toVar(),o=im(e).toVar(),a=pm(t).toVar();return cm(GC(a.x,o,n,r),GC(a.y,o,n,r),GC(a.z,o,n,r))})).setLayout({name:"mx_gradient_vec3_1",type:"vec3",inputs:[{name:"hash",type:"uvec3"},{name:"x",type:"float"},{name:"y",type:"float"},{name:"z",type:"float"}]}),HC=uw([WC,jC]),qC=Zp((([t])=>{const e=im(t).toVar();return df(.6616,e)})).setLayout({name:"mx_gradient_scale2d_0",type:"float",inputs:[{name:"v",type:"float"}]}),$C=Zp((([t])=>{const e=im(t).toVar();return df(.982,e)})).setLayout({name:"mx_gradient_scale3d_0",type:"float",inputs:[{name:"v",type:"float"}]}),XC=uw([qC,Zp((([t])=>{const e=cm(t).toVar();return df(.6616,e)})).setLayout({name:"mx_gradient_scale2d_1",type:"vec3",inputs:[{name:"v",type:"vec3"}]})]),YC=uw([$C,Zp((([t])=>{const e=cm(t).toVar();return df(.982,e)})).setLayout({name:"mx_gradient_scale3d_1",type:"vec3",inputs:[{name:"v",type:"vec3"}]})]),JC=Zp((([t,e])=>{const s=rm(e).toVar(),i=nm(t).toVar();return i.shiftLeft(s).bitOr(i.shiftRight(rm(32).sub(s)))})).setLayout({name:"mx_rotl32",type:"uint",inputs:[{name:"x",type:"uint"},{name:"k",type:"int"}]}),ZC=Zp((([t,e,s])=>{t.subAssign(s),t.bitXorAssign(JC(s,rm(4))),s.addAssign(e),e.subAssign(t),e.bitXorAssign(JC(t,rm(6))),t.addAssign(s),s.subAssign(e),s.bitXorAssign(JC(e,rm(8))),e.addAssign(t),t.subAssign(s),t.bitXorAssign(JC(s,rm(16))),s.addAssign(e),e.subAssign(t),e.bitXorAssign(JC(t,rm(19))),t.addAssign(s),s.subAssign(e),s.bitXorAssign(JC(e,rm(4))),e.addAssign(t)})),QC=Zp((([t,e,s])=>{const i=nm(s).toVar(),r=nm(e).toVar(),n=nm(t).toVar();return i.bitXorAssign(r),i.subAssign(JC(r,rm(14))),n.bitXorAssign(i),n.subAssign(JC(i,rm(11))),r.bitXorAssign(n),r.subAssign(JC(n,rm(25))),i.bitXorAssign(r),i.subAssign(JC(r,rm(16))),n.bitXorAssign(i),n.subAssign(JC(i,rm(4))),r.bitXorAssign(n),r.subAssign(JC(n,rm(14))),i.bitXorAssign(r),i.subAssign(JC(r,rm(24))),i})).setLayout({name:"mx_bjfinal",type:"uint",inputs:[{name:"a",type:"uint"},{name:"b",type:"uint"},{name:"c",type:"uint"}]}),KC=Zp((([t])=>{const e=nm(t).toVar();return im(e).div(im(nm(rm(4294967295))))})).setLayout({name:"mx_bits_to_01",type:"float",inputs:[{name:"bits",type:"uint"}]}),tE=Zp((([t])=>{const e=im(t).toVar();return e.mul(e).mul(e).mul(e.mul(e.mul(6).sub(15)).add(10))})).setLayout({name:"mx_fade",type:"float",inputs:[{name:"t",type:"float"}]}),eE=uw([Zp((([t])=>{const e=rm(t).toVar(),s=nm(nm(1)).toVar(),i=nm(nm(rm(3735928559)).add(s.shiftLeft(nm(2))).add(nm(13))).toVar();return QC(i.add(nm(e)),i,i)})).setLayout({name:"mx_hash_int_0",type:"uint",inputs:[{name:"x",type:"int"}]}),Zp((([t,e])=>{const s=rm(e).toVar(),i=rm(t).toVar(),r=nm(nm(2)).toVar(),n=nm().toVar(),o=nm().toVar(),a=nm().toVar();return n.assign(o.assign(a.assign(nm(rm(3735928559)).add(r.shiftLeft(nm(2))).add(nm(13))))),n.addAssign(nm(i)),o.addAssign(nm(s)),QC(n,o,a)})).setLayout({name:"mx_hash_int_1",type:"uint",inputs:[{name:"x",type:"int"},{name:"y",type:"int"}]}),Zp((([t,e,s])=>{const i=rm(s).toVar(),r=rm(e).toVar(),n=rm(t).toVar(),o=nm(nm(3)).toVar(),a=nm().toVar(),h=nm().toVar(),l=nm().toVar();return a.assign(h.assign(l.assign(nm(rm(3735928559)).add(o.shiftLeft(nm(2))).add(nm(13))))),a.addAssign(nm(n)),h.addAssign(nm(r)),l.addAssign(nm(i)),QC(a,h,l)})).setLayout({name:"mx_hash_int_2",type:"uint",inputs:[{name:"x",type:"int"},{name:"y",type:"int"},{name:"z",type:"int"}]}),Zp((([t,e,s,i])=>{const r=rm(i).toVar(),n=rm(s).toVar(),o=rm(e).toVar(),a=rm(t).toVar(),h=nm(nm(4)).toVar(),l=nm().toVar(),u=nm().toVar(),c=nm().toVar();return l.assign(u.assign(c.assign(nm(rm(3735928559)).add(h.shiftLeft(nm(2))).add(nm(13))))),l.addAssign(nm(a)),u.addAssign(nm(o)),c.addAssign(nm(n)),ZC(l,u,c),l.addAssign(nm(r)),QC(l,u,c)})).setLayout({name:"mx_hash_int_3",type:"uint",inputs:[{name:"x",type:"int"},{name:"y",type:"int"},{name:"z",type:"int"},{name:"xx",type:"int"}]}),Zp((([t,e,s,i,r])=>{const n=rm(r).toVar(),o=rm(i).toVar(),a=rm(s).toVar(),h=rm(e).toVar(),l=rm(t).toVar(),u=nm(nm(5)).toVar(),c=nm().toVar(),d=nm().toVar(),p=nm().toVar();return c.assign(d.assign(p.assign(nm(rm(3735928559)).add(u.shiftLeft(nm(2))).add(nm(13))))),c.addAssign(nm(l)),d.addAssign(nm(h)),p.addAssign(nm(a)),ZC(c,d,p),c.addAssign(nm(o)),d.addAssign(nm(n)),QC(c,d,p)})).setLayout({name:"mx_hash_int_4",type:"uint",inputs:[{name:"x",type:"int"},{name:"y",type:"int"},{name:"z",type:"int"},{name:"xx",type:"int"},{name:"yy",type:"int"}]})]),sE=uw([Zp((([t,e])=>{const s=rm(e).toVar(),i=rm(t).toVar(),r=nm(eE(i,s)).toVar(),n=pm().toVar();return n.x.assign(r.bitAnd(rm(255))),n.y.assign(r.shiftRight(rm(8)).bitAnd(rm(255))),n.z.assign(r.shiftRight(rm(16)).bitAnd(rm(255))),n})).setLayout({name:"mx_hash_vec3_0",type:"uvec3",inputs:[{name:"x",type:"int"},{name:"y",type:"int"}]}),Zp((([t,e,s])=>{const i=rm(s).toVar(),r=rm(e).toVar(),n=rm(t).toVar(),o=nm(eE(n,r,i)).toVar(),a=pm().toVar();return a.x.assign(o.bitAnd(rm(255))),a.y.assign(o.shiftRight(rm(8)).bitAnd(rm(255))),a.z.assign(o.shiftRight(rm(16)).bitAnd(rm(255))),a})).setLayout({name:"mx_hash_vec3_1",type:"uvec3",inputs:[{name:"x",type:"int"},{name:"y",type:"int"},{name:"z",type:"int"}]})]),iE=uw([Zp((([t])=>{const e=am(t).toVar(),s=rm().toVar(),i=rm().toVar(),r=im(zC(e.x,s)).toVar(),n=im(zC(e.y,i)).toVar(),o=im(tE(r)).toVar(),a=im(tE(n)).toVar(),h=im(LC(GC(eE(s,i),r,n),GC(eE(s.add(rm(1)),i),r.sub(1),n),GC(eE(s,i.add(rm(1))),r,n.sub(1)),GC(eE(s.add(rm(1)),i.add(rm(1))),r.sub(1),n.sub(1)),o,a)).toVar();return XC(h)})).setLayout({name:"mx_perlin_noise_float_0",type:"float",inputs:[{name:"p",type:"vec2"}]}),Zp((([t])=>{const e=cm(t).toVar(),s=rm().toVar(),i=rm().toVar(),r=rm().toVar(),n=im(zC(e.x,s)).toVar(),o=im(zC(e.y,i)).toVar(),a=im(zC(e.z,r)).toVar(),h=im(tE(n)).toVar(),l=im(tE(o)).toVar(),u=im(tE(a)).toVar(),c=im(VC(GC(eE(s,i,r),n,o,a),GC(eE(s.add(rm(1)),i,r),n.sub(1),o,a),GC(eE(s,i.add(rm(1)),r),n,o.sub(1),a),GC(eE(s.add(rm(1)),i.add(rm(1)),r),n.sub(1),o.sub(1),a),GC(eE(s,i,r.add(rm(1))),n,o,a.sub(1)),GC(eE(s.add(rm(1)),i,r.add(rm(1))),n.sub(1),o,a.sub(1)),GC(eE(s,i.add(rm(1)),r.add(rm(1))),n,o.sub(1),a.sub(1)),GC(eE(s.add(rm(1)),i.add(rm(1)),r.add(rm(1))),n.sub(1),o.sub(1),a.sub(1)),h,l,u)).toVar();return YC(c)})).setLayout({name:"mx_perlin_noise_float_1",type:"float",inputs:[{name:"p",type:"vec3"}]})]),rE=uw([Zp((([t])=>{const e=am(t).toVar(),s=rm().toVar(),i=rm().toVar(),r=im(zC(e.x,s)).toVar(),n=im(zC(e.y,i)).toVar(),o=im(tE(r)).toVar(),a=im(tE(n)).toVar(),h=cm(LC(HC(sE(s,i),r,n),HC(sE(s.add(rm(1)),i),r.sub(1),n),HC(sE(s,i.add(rm(1))),r,n.sub(1)),HC(sE(s.add(rm(1)),i.add(rm(1))),r.sub(1),n.sub(1)),o,a)).toVar();return XC(h)})).setLayout({name:"mx_perlin_noise_vec3_0",type:"vec3",inputs:[{name:"p",type:"vec2"}]}),Zp((([t])=>{const e=cm(t).toVar(),s=rm().toVar(),i=rm().toVar(),r=rm().toVar(),n=im(zC(e.x,s)).toVar(),o=im(zC(e.y,i)).toVar(),a=im(zC(e.z,r)).toVar(),h=im(tE(n)).toVar(),l=im(tE(o)).toVar(),u=im(tE(a)).toVar(),c=cm(VC(HC(sE(s,i,r),n,o,a),HC(sE(s.add(rm(1)),i,r),n.sub(1),o,a),HC(sE(s,i.add(rm(1)),r),n,o.sub(1),a),HC(sE(s.add(rm(1)),i.add(rm(1)),r),n.sub(1),o.sub(1),a),HC(sE(s,i,r.add(rm(1))),n,o,a.sub(1)),HC(sE(s.add(rm(1)),i,r.add(rm(1))),n.sub(1),o,a.sub(1)),HC(sE(s,i.add(rm(1)),r.add(rm(1))),n,o.sub(1),a.sub(1)),HC(sE(s.add(rm(1)),i.add(rm(1)),r.add(rm(1))),n.sub(1),o.sub(1),a.sub(1)),h,l,u)).toVar();return YC(c)})).setLayout({name:"mx_perlin_noise_vec3_1",type:"vec3",inputs:[{name:"p",type:"vec3"}]})]),nE=uw([Zp((([t])=>{const e=im(t).toVar(),s=rm(OC(e)).toVar();return KC(eE(s))})).setLayout({name:"mx_cell_noise_float_0",type:"float",inputs:[{name:"p",type:"float"}]}),Zp((([t])=>{const e=am(t).toVar(),s=rm(OC(e.x)).toVar(),i=rm(OC(e.y)).toVar();return KC(eE(s,i))})).setLayout({name:"mx_cell_noise_float_1",type:"float",inputs:[{name:"p",type:"vec2"}]}),Zp((([t])=>{const e=cm(t).toVar(),s=rm(OC(e.x)).toVar(),i=rm(OC(e.y)).toVar(),r=rm(OC(e.z)).toVar();return KC(eE(s,i,r))})).setLayout({name:"mx_cell_noise_float_2",type:"float",inputs:[{name:"p",type:"vec3"}]}),Zp((([t])=>{const e=gm(t).toVar(),s=rm(OC(e.x)).toVar(),i=rm(OC(e.y)).toVar(),r=rm(OC(e.z)).toVar(),n=rm(OC(e.w)).toVar();return KC(eE(s,i,r,n))})).setLayout({name:"mx_cell_noise_float_3",type:"float",inputs:[{name:"p",type:"vec4"}]})]),oE=uw([Zp((([t])=>{const e=im(t).toVar(),s=rm(OC(e)).toVar();return cm(KC(eE(s,rm(0))),KC(eE(s,rm(1))),KC(eE(s,rm(2))))})).setLayout({name:"mx_cell_noise_vec3_0",type:"vec3",inputs:[{name:"p",type:"float"}]}),Zp((([t])=>{const e=am(t).toVar(),s=rm(OC(e.x)).toVar(),i=rm(OC(e.y)).toVar();return cm(KC(eE(s,i,rm(0))),KC(eE(s,i,rm(1))),KC(eE(s,i,rm(2))))})).setLayout({name:"mx_cell_noise_vec3_1",type:"vec3",inputs:[{name:"p",type:"vec2"}]}),Zp((([t])=>{const e=cm(t).toVar(),s=rm(OC(e.x)).toVar(),i=rm(OC(e.y)).toVar(),r=rm(OC(e.z)).toVar();return cm(KC(eE(s,i,r,rm(0))),KC(eE(s,i,r,rm(1))),KC(eE(s,i,r,rm(2))))})).setLayout({name:"mx_cell_noise_vec3_2",type:"vec3",inputs:[{name:"p",type:"vec3"}]}),Zp((([t])=>{const e=gm(t).toVar(),s=rm(OC(e.x)).toVar(),i=rm(OC(e.y)).toVar(),r=rm(OC(e.z)).toVar(),n=rm(OC(e.w)).toVar();return cm(KC(eE(s,i,r,n,rm(0))),KC(eE(s,i,r,n,rm(1))),KC(eE(s,i,r,n,rm(2))))})).setLayout({name:"mx_cell_noise_vec3_3",type:"vec3",inputs:[{name:"p",type:"vec4"}]})]),aE=Zp((([t,e,s,i])=>{const r=im(i).toVar(),n=im(s).toVar(),o=rm(e).toVar(),a=cm(t).toVar(),h=im(0).toVar(),l=im(1).toVar();return nv(o,(()=>{h.addAssign(l.mul(iE(a))),l.mulAssign(r),a.mulAssign(n)})),h})).setLayout({name:"mx_fractal_noise_float",type:"float",inputs:[{name:"p",type:"vec3"},{name:"octaves",type:"int"},{name:"lacunarity",type:"float"},{name:"diminish",type:"float"}]}),hE=Zp((([t,e,s,i])=>{const r=im(i).toVar(),n=im(s).toVar(),o=rm(e).toVar(),a=cm(t).toVar(),h=cm(0).toVar(),l=im(1).toVar();return nv(o,(()=>{h.addAssign(l.mul(rE(a))),l.mulAssign(r),a.mulAssign(n)})),h})).setLayout({name:"mx_fractal_noise_vec3",type:"vec3",inputs:[{name:"p",type:"vec3"},{name:"octaves",type:"int"},{name:"lacunarity",type:"float"},{name:"diminish",type:"float"}]}),lE=Zp((([t,e,s,i])=>{const r=im(i).toVar(),n=im(s).toVar(),o=rm(e).toVar(),a=cm(t).toVar();return am(aE(a,o,n,r),aE(a.add(cm(rm(19),rm(193),rm(17))),o,n,r))})).setLayout({name:"mx_fractal_noise_vec2",type:"vec2",inputs:[{name:"p",type:"vec3"},{name:"octaves",type:"int"},{name:"lacunarity",type:"float"},{name:"diminish",type:"float"}]}),uE=Zp((([t,e,s,i])=>{const r=im(i).toVar(),n=im(s).toVar(),o=rm(e).toVar(),a=cm(t).toVar(),h=cm(hE(a,o,n,r)).toVar(),l=im(aE(a.add(cm(rm(19),rm(193),rm(17))),o,n,r)).toVar();return gm(h,l)})).setLayout({name:"mx_fractal_noise_vec4",type:"vec4",inputs:[{name:"p",type:"vec3"},{name:"octaves",type:"int"},{name:"lacunarity",type:"float"},{name:"diminish",type:"float"}]}),cE=Zp((([t,e,s,i,r,n,o])=>{const a=rm(o).toVar(),h=im(n).toVar(),l=rm(r).toVar(),u=rm(i).toVar(),c=rm(s).toVar(),d=rm(e).toVar(),p=am(t).toVar(),m=cm(oE(am(d.add(u),c.add(l)))).toVar(),g=am(m.x,m.y).toVar();g.subAssign(.5),g.mulAssign(h),g.addAssign(.5);const f=am(am(im(d),im(c)).add(g)).toVar(),y=am(f.sub(p)).toVar();return tm(a.equal(rm(2)),(()=>iy(y.x).add(iy(y.y)))),tm(a.equal(rm(3)),(()=>xy(iy(y.x),iy(y.y)))),Sy(y,y)})).setLayout({name:"mx_worley_distance_0",type:"float",inputs:[{name:"p",type:"vec2"},{name:"x",type:"int"},{name:"y",type:"int"},{name:"xoff",type:"int"},{name:"yoff",type:"int"},{name:"jitter",type:"float"},{name:"metric",type:"int"}]}),dE=uw([cE,Zp((([t,e,s,i,r,n,o,a,h])=>{const l=rm(h).toVar(),u=im(a).toVar(),c=rm(o).toVar(),d=rm(n).toVar(),p=rm(r).toVar(),m=rm(i).toVar(),g=rm(s).toVar(),f=rm(e).toVar(),y=cm(t).toVar(),x=cm(oE(cm(f.add(p),g.add(d),m.add(c)))).toVar();x.subAssign(.5),x.mulAssign(u),x.addAssign(.5);const b=cm(cm(im(f),im(g),im(m)).add(x)).toVar(),v=cm(b.sub(y)).toVar();return tm(l.equal(rm(2)),(()=>iy(v.x).add(iy(v.y)).add(iy(v.z)))),tm(l.equal(rm(3)),(()=>xy(xy(iy(v.x),iy(v.y)),iy(v.z)))),Sy(v,v)})).setLayout({name:"mx_worley_distance_1",type:"float",inputs:[{name:"p",type:"vec3"},{name:"x",type:"int"},{name:"y",type:"int"},{name:"z",type:"int"},{name:"xoff",type:"int"},{name:"yoff",type:"int"},{name:"zoff",type:"int"},{name:"jitter",type:"float"},{name:"metric",type:"int"}]})]),pE=Zp((([t,e,s])=>{const i=rm(s).toVar(),r=im(e).toVar(),n=am(t).toVar(),o=rm().toVar(),a=rm().toVar(),h=am(zC(n.x,o),zC(n.y,a)).toVar(),l=im(1e6).toVar();return nv({start:-1,end:rm(1),name:"x",condition:"<="},(({x:t})=>{nv({start:-1,end:rm(1),name:"y",condition:"<="},(({y:e})=>{const s=im(dE(h,t,e,o,a,r,i)).toVar();l.assign(yy(l,s))}))})),tm(i.equal(rm(0)),(()=>{l.assign(Hf(l))})),l})).setLayout({name:"mx_worley_noise_float_0",type:"float",inputs:[{name:"p",type:"vec2"},{name:"jitter",type:"float"},{name:"metric",type:"int"}]}),mE=Zp((([t,e,s])=>{const i=rm(s).toVar(),r=im(e).toVar(),n=am(t).toVar(),o=rm().toVar(),a=rm().toVar(),h=am(zC(n.x,o),zC(n.y,a)).toVar(),l=am(1e6,1e6).toVar();return nv({start:-1,end:rm(1),name:"x",condition:"<="},(({x:t})=>{nv({start:-1,end:rm(1),name:"y",condition:"<="},(({y:e})=>{const s=im(dE(h,t,e,o,a,r,i)).toVar();tm(s.lessThan(l.x),(()=>{l.y.assign(l.x),l.x.assign(s)})).elseif(s.lessThan(l.y),(()=>{l.y.assign(s)}))}))})),tm(i.equal(rm(0)),(()=>{l.assign(Hf(l))})),l})).setLayout({name:"mx_worley_noise_vec2_0",type:"vec2",inputs:[{name:"p",type:"vec2"},{name:"jitter",type:"float"},{name:"metric",type:"int"}]}),gE=Zp((([t,e,s])=>{const i=rm(s).toVar(),r=im(e).toVar(),n=am(t).toVar(),o=rm().toVar(),a=rm().toVar(),h=am(zC(n.x,o),zC(n.y,a)).toVar(),l=cm(1e6,1e6,1e6).toVar();return nv({start:-1,end:rm(1),name:"x",condition:"<="},(({x:t})=>{nv({start:-1,end:rm(1),name:"y",condition:"<="},(({y:e})=>{const s=im(dE(h,t,e,o,a,r,i)).toVar();tm(s.lessThan(l.x),(()=>{l.z.assign(l.y),l.y.assign(l.x),l.x.assign(s)})).elseif(s.lessThan(l.y),(()=>{l.z.assign(l.y),l.y.assign(s)})).elseif(s.lessThan(l.z),(()=>{l.z.assign(s)}))}))})),tm(i.equal(rm(0)),(()=>{l.assign(Hf(l))})),l})).setLayout({name:"mx_worley_noise_vec3_0",type:"vec3",inputs:[{name:"p",type:"vec2"},{name:"jitter",type:"float"},{name:"metric",type:"int"}]}),fE=uw([pE,Zp((([t,e,s])=>{const i=rm(s).toVar(),r=im(e).toVar(),n=cm(t).toVar(),o=rm().toVar(),a=rm().toVar(),h=rm().toVar(),l=cm(zC(n.x,o),zC(n.y,a),zC(n.z,h)).toVar(),u=im(1e6).toVar();return nv({start:-1,end:rm(1),name:"x",condition:"<="},(({x:t})=>{nv({start:-1,end:rm(1),name:"y",condition:"<="},(({y:e})=>{nv({start:-1,end:rm(1),name:"z",condition:"<="},(({z:s})=>{const n=im(dE(l,t,e,s,o,a,h,r,i)).toVar();u.assign(yy(u,n))}))}))})),tm(i.equal(rm(0)),(()=>{u.assign(Hf(u))})),u})).setLayout({name:"mx_worley_noise_float_1",type:"float",inputs:[{name:"p",type:"vec3"},{name:"jitter",type:"float"},{name:"metric",type:"int"}]})]),yE=uw([mE,Zp((([t,e,s])=>{const i=rm(s).toVar(),r=im(e).toVar(),n=cm(t).toVar(),o=rm().toVar(),a=rm().toVar(),h=rm().toVar(),l=cm(zC(n.x,o),zC(n.y,a),zC(n.z,h)).toVar(),u=am(1e6,1e6).toVar();return nv({start:-1,end:rm(1),name:"x",condition:"<="},(({x:t})=>{nv({start:-1,end:rm(1),name:"y",condition:"<="},(({y:e})=>{nv({start:-1,end:rm(1),name:"z",condition:"<="},(({z:s})=>{const n=im(dE(l,t,e,s,o,a,h,r,i)).toVar();tm(n.lessThan(u.x),(()=>{u.y.assign(u.x),u.x.assign(n)})).elseif(n.lessThan(u.y),(()=>{u.y.assign(n)}))}))}))})),tm(i.equal(rm(0)),(()=>{u.assign(Hf(u))})),u})).setLayout({name:"mx_worley_noise_vec2_1",type:"vec2",inputs:[{name:"p",type:"vec3"},{name:"jitter",type:"float"},{name:"metric",type:"int"}]})]),xE=uw([gE,Zp((([t,e,s])=>{const i=rm(s).toVar(),r=im(e).toVar(),n=cm(t).toVar(),o=rm().toVar(),a=rm().toVar(),h=rm().toVar(),l=cm(zC(n.x,o),zC(n.y,a),zC(n.z,h)).toVar(),u=cm(1e6,1e6,1e6).toVar();return nv({start:-1,end:rm(1),name:"x",condition:"<="},(({x:t})=>{nv({start:-1,end:rm(1),name:"y",condition:"<="},(({y:e})=>{nv({start:-1,end:rm(1),name:"z",condition:"<="},(({z:s})=>{const n=im(dE(l,t,e,s,o,a,h,r,i)).toVar();tm(n.lessThan(u.x),(()=>{u.z.assign(u.y),u.y.assign(u.x),u.x.assign(n)})).elseif(n.lessThan(u.y),(()=>{u.z.assign(u.y),u.y.assign(n)})).elseif(n.lessThan(u.z),(()=>{u.z.assign(n)}))}))}))})),tm(i.equal(rm(0)),(()=>{u.assign(Hf(u))})),u})).setLayout({name:"mx_worley_noise_vec3_1",type:"vec3",inputs:[{name:"p",type:"vec3"},{name:"jitter",type:"float"},{name:"metric",type:"int"}]})]),bE=Zp((([t])=>{const e=cm(t).toVar(),s=im(e.x).toVar(),i=im(e.y).toVar(),r=im(e.z).toVar();tm(i.lessThan(1e-4),(()=>cm(r,r,r))).else((()=>{s.assign(df(6,s.sub($f(s))));const t=rm(dy(s)).toVar(),e=im(s.sub(im(t))).toVar(),n=im(r.mul(cf(1,i))).toVar(),o=im(r.mul(cf(1,i.mul(e)))).toVar(),a=im(r.mul(cf(1,i.mul(cf(1,e))))).toVar();return tm(t.equal(rm(0)),(()=>cm(r,a,n))).elseif(t.equal(rm(1)),(()=>cm(o,r,n))).elseif(t.equal(rm(2)),(()=>cm(n,r,a))).elseif(t.equal(rm(3)),(()=>cm(n,o,r))).elseif(t.equal(rm(4)),(()=>cm(a,n,r))),cm(r,n,o)}))})).setLayout({name:"mx_hsvtorgb",type:"vec3",inputs:[{name:"hsv",type:"vec3"}]}),vE=Zp((([t])=>{const e=cm(t).toVar(),s=im(e.x).toVar(),i=im(e.y).toVar(),r=im(e.z).toVar(),n=im(yy(s,yy(i,r))).toVar(),o=im(xy(s,xy(i,r))).toVar(),a=im(o.sub(n)).toVar(),h=im().toVar(),l=im().toVar(),u=im().toVar();return u.assign(o),tm(o.greaterThan(0),(()=>{l.assign(a.div(o))})).else((()=>{l.assign(0)})),tm(l.lessThanEqual(0),(()=>{h.assign(0)})).else((()=>{tm(s.greaterThanEqual(o),(()=>{h.assign(i.sub(r).div(a))})).elseif(i.greaterThanEqual(o),(()=>{h.assign(uf(2,r.sub(s).div(a)))})).else((()=>{h.assign(uf(4,s.sub(i).div(a)))})),h.mulAssign(1/6),tm(h.lessThan(0),(()=>{h.addAssign(1)}))})),cm(h,l,u)})).setLayout({name:"mx_rgbtohsv",type:"vec3",inputs:[{name:"c",type:"vec3"}]}),TE=Zp((([t])=>{const e=cm(t).toVar(),s=mm(xf(e,cm(.04045))).toVar(),i=cm(e.div(12.92)).toVar(),r=cm(Ay(xy(e.add(cm(.055)),cm(0)).div(1.055),cm(2.4))).toVar();return Py(i,r,s)})).setLayout({name:"mx_srgb_texture_to_lin_rec709",type:"vec3",inputs:[{name:"color",type:"vec3"}]}),_E=(t,e)=>{t=im(t),e=im(e);const s=am(e.dFdx(),e.dFdy()).length().mul(.7071067811865476);return zy(t.sub(s),t.add(s),e)},wE=(t,e,s,i)=>Py(t,e,s[i].clamp()),SE=(t,e,s=of())=>wE(t,e,s,"x"),ME=(t,e,s=of())=>wE(t,e,s,"y"),AE=(t,e,s,i,r)=>Py(t,e,_E(s,i[r])),NE=(t,e,s,i=of())=>AE(t,e,s,i,"x"),RE=(t,e,s,i=of())=>AE(t,e,s,i,"y"),CE=(t=1,e=0,s=of())=>s.mul(t).add(e),EE=(t,e=1)=>(t=im(t)).abs().pow(e).mul(t.sign()),BE=(t,e=1,s=.5)=>im(t).sub(s).mul(e).add(s),IE=(t=of(),e=1,s=0)=>iE(t.convert("vec2|vec3")).mul(e).add(s),PE=(t=of(),e=1,s=0)=>rE(t.convert("vec2|vec3")).mul(e).add(s),FE=(t=of(),e=1,s=0)=>{t=t.convert("vec2|vec3");return gm(rE(t),iE(t.add(am(19,73)))).mul(e).add(s)},UE=(t=of(),e=1)=>fE(t.convert("vec2|vec3"),e,rm(1)),OE=(t=of(),e=1)=>yE(t.convert("vec2|vec3"),e,rm(1)),zE=(t=of(),e=1)=>xE(t.convert("vec2|vec3"),e,rm(1)),LE=(t=of())=>nE(t.convert("vec2|vec3")),VE=(t=of(),e=3,s=2,i=.5,r=1)=>aE(t,rm(e),s,i).mul(r),DE=(t=of(),e=3,s=2,i=.5,r=1)=>lE(t,rm(e),s,i).mul(r),kE=(t=of(),e=3,s=2,i=.5,r=1)=>hE(t,rm(e),s,i).mul(r),GE=(t=of(),e=3,s=2,i=.5,r=1)=>uE(t,rm(e),s,i).mul(r);function WE(t,e){return t.groupOrder!==e.groupOrder?t.groupOrder-e.groupOrder:t.renderOrder!==e.renderOrder?t.renderOrder-e.renderOrder:t.material.id!==e.material.id?t.material.id-e.material.id:t.z!==e.z?t.z-e.z:t.id-e.id}function jE(t,e){return t.groupOrder!==e.groupOrder?t.groupOrder-e.groupOrder:t.renderOrder!==e.renderOrder?t.renderOrder-e.renderOrder:t.z!==e.z?e.z-t.z:t.id-e.id}class HE{constructor(){this.renderItems=[],this.renderItemsIndex=0,this.opaque=[],this.transparent=[],this.bundles=[],this.lightsNode=new Tv([]),this.lightsArray=[],this.occlusionQueryCount=0}begin(){return this.renderItemsIndex=0,this.opaque.length=0,this.transparent.length=0,this.bundles.length=0,this.lightsArray.length=0,this.occlusionQueryCount=0,this}getNextRenderItem(t,e,s,i,r,n){let o=this.renderItems[this.renderItemsIndex];return void 0===o?(o={id:t.id,object:t,geometry:e,material:s,groupOrder:i,renderOrder:t.renderOrder,z:r,group:n},this.renderItems[this.renderItemsIndex]=o):(o.id=t.id,o.object=t,o.geometry=e,o.material=s,o.groupOrder=i,o.renderOrder=t.renderOrder,o.z=r,o.group=n),this.renderItemsIndex++,o}push(t,e,s,i,r,n){const o=this.getNextRenderItem(t,e,s,i,r,n);!0===t.occlusionTest&&this.occlusionQueryCount++,(!0===s.transparent||s.transmission>0?this.transparent:this.opaque).push(o)}unshift(t,e,s,i,r,n){const o=this.getNextRenderItem(t,e,s,i,r,n);(!0===s.transparent?this.transparent:this.opaque).unshift(o)}pushBundle(t){this.bundles.push(t)}pushLight(t){this.lightsArray.push(t)}getLightsNode(){return this.lightsNode.fromLights(this.lightsArray)}sort(t,e){this.opaque.length>1&&this.opaque.sort(t||WE),this.transparent.length>1&&this.transparent.sort(e||jE)}finish(){this.lightsNode.fromLights(this.lightsArray);for(let t=this.renderItemsIndex,e=this.renderItems.length;t>e,l=a.height>>e;let u=t.depthTexture||r[e],c=!1;void 0===u&&(u=new Za,u.format=t.stencilBuffer?jt:Wt,u.type=t.stencilBuffer?Ot:Bt,u.image.width=h,u.image.height=l,r[e]=u),s.width===a.width&&a.height===s.height||(c=!0,u.needsUpdate=!0,u.image.width=h,u.image.height=l),s.width=a.width,s.height=a.height,s.textures=o,s.depthTexture=u,s.depth=t.depthBuffer,s.stencil=t.stencilBuffer,s.renderTarget=t,s.sampleCount!==i&&(c=!0,u.needsUpdate=!0,s.sampleCount=i);const d={sampleCount:i};for(let t=0;t{if(t.removeEventListener("dispose",e),void 0!==o)for(let t=0;t0){const i=t.image;if(void 0===i)console.warn("THREE.Renderer: Texture marked for update but image is undefined.");else if(!1===i.complete)console.warn("THREE.Renderer: Texture marked for update but image is incomplete.");else{if(t.images){const s=[];for(const e of t.images)s.push(e);e.images=s}else e.image=i;void 0!==s.isDefaultTexture&&!0!==s.isDefaultTexture||(r.createTexture(t,e),s.isDefaultTexture=!1),!0===t.source.dataReady&&r.updateTexture(t,e),e.needsMipmaps&&0===t.mipmaps.length&&r.generateMipmaps(t)}}else r.createDefaultTexture(t),s.isDefaultTexture=!0}if(!0!==s.initialized){s.initialized=!0,this.info.memory.textures++;const e=()=>{t.removeEventListener("dispose",e),this._destroyTexture(t),this.info.memory.textures--};t.addEventListener("dispose",e)}s.version=t.version}getSize(t,e=JE){let s=t.images?t.images[0]:t.image;return s?(void 0!==s.image&&(s=s.image),e.width=s.width,e.height=s.height,e.depth=t.isCubeTexture?6:s.depth||1):e.width=e.height=e.depth=1,e}getMipLevels(t,e,s){let i;return i=t.isCompressedTexture?t.mipmaps.length:Math.floor(Math.log2(Math.max(e,s)))+1,i}needsMipmaps(t){return!!this.isEnvironmentTexture(t)||(!0===t.isCompressedTexture||t.minFilter!==ft&&t.minFilter!==Tt)}isEnvironmentTexture(t){const e=t.mapping;return e===ut||e===ct||e===ht||e===lt}_destroyTexture(t){this.backend.destroySampler(t),this.backend.destroyTexture(t),this.delete(t)}}class QE extends $r{constructor(t,e,s,i=1){super(t,e,s),this.a=i}set(t,e,s,i=1){return this.a=i,super.set(t,e,s)}copy(t){return void 0!==t.a&&(this.a=t.a),super.copy(t)}clone(){return new this.constructor(this.r,this.g,this.b,this.a)}}const KE=new QE;class tB extends Nd{constructor(t,e){super(),this.renderer=t,this.nodes=e}update(t,e,s){const i=this.renderer,r=this.nodes.getBackgroundNode(t)||t.background;let n=!1;if(null===r)i._clearColor.getRGB(KE,Ye),KE.a=i._clearColor.a;else if(!0===r.isColor)r.getRGB(KE,Ye),KE.a=1,n=!0;else if(!0===r.isNode){const s=this.get(t),n=r;KE.copy(i._clearColor);let o=s.backgroundMesh;if(void 0===o){const t=$m(gm(n).mul(_S),{getUV:()=>jx,getTextureLevel:()=>TS});let e=Vb();e=e.setZ(e.w);const i=new $T;i.side=d,i.depthTest=!1,i.depthWrite=!1,i.fog=!1,i.vertexNode=e,i.fragmentNode=t,s.backgroundMeshNode=t,s.backgroundMesh=o=new kn(new ml(1,32,32),i),o.frustumCulled=!1,o.onBeforeRender=function(t,e,s){this.matrixWorld.copyPosition(s.matrixWorld)}}const a=n.getCacheKey();s.backgroundCacheKey!==a&&(s.backgroundMeshNode.node=gm(n).mul(_S),o.material.needsUpdate=!0,s.backgroundCacheKey=a),e.unshift(o,o.geometry,o.material,0,0,null)}else console.error("THREE.Renderer: Unsupported background configuration.",r);if(!0===i.autoClear||!0===n){KE.multiplyScalar(KE.a);const t=s.clearColorValue;t.r=KE.r,t.g=KE.g,t.b=KE.b,t.a=KE.a,s.depthClearValue=i._clearDepth,s.stencilClearValue=i._clearStencil,s.clearColor=!0===i.autoClearColor,s.clearDepth=!0===i.autoClearDepth,s.clearStencil=!0===i.autoClearStencil}else s.clearColor=!1,s.clearDepth=!1,s.clearStencil=!1}}class eB{constructor(t,e,s,i,r,n,o,a,h=!0,l=[]){this.vertexShader=t,this.fragmentShader=e,this.computeShader=s,this.transforms=l,this.nodeAttributes=i,this.bindings=r,this.updateNodes=n,this.updateBeforeNodes=o,this.updateAfterNodes=a,this.instanceBindGroups=h,this.usedTimes=0}createBindings(){const t=[];for(const e of this.bindings){if(!0!==(this.instanceBindGroups&&e.bindings[0].groupNode.shared)){const s=new z_(e.name);t.push(s);for(const t of e.bindings)s.bindings.push(t.clone())}else t.push(e)}return t}}class sB extends Nd{constructor(t,e){super(),this.renderer=t,this.backend=e,this.nodeFrame=new W_,this.nodeBuilderCache=new Map,this.callHashCache=new vd,this.groupsData=new vd}updateGroup(t){const e=t.groupNode,s=e.name;if(s===sf.name)return!0;if(s===ef.name){const e=this.get(t),s=this.nodeFrame.renderId;return e.renderId!==s&&(e.renderId=s,!0)}if(s===tf.name){const e=this.get(t),s=this.nodeFrame.frameId;return e.frameId!==s&&(e.frameId=s,!0)}const i=[e,t];let r=this.groupsData.get(i);return void 0===r&&this.groupsData.set(i,r={}),r.version!==e.version&&(r.version=e.version,!0)}getForRenderCacheKey(t){return t.initialCacheKey}getForRender(t){const e=this.get(t);let s=e.nodeBuilderState;if(void 0===s){const{nodeBuilderCache:i}=this,r=this.getForRenderCacheKey(t);if(s=i.get(r),void 0===s){const e=this.backend.createNodeBuilder(t.object,this.renderer);e.scene=t.scene,e.material=t.material,e.camera=t.camera,e.context.material=t.material,e.lightsNode=t.lightsNode,e.environmentNode=this.getEnvironmentNode(t.scene),e.fogNode=this.getFogNode(t.scene),e.clippingContext=t.clippingContext,e.build(),s=this._createNodeBuilderState(e),i.set(r,s)}s.usedTimes++,e.nodeBuilderState=s}return s}delete(t){if(t.isRenderObject){const e=this.get(t).nodeBuilderState;e.usedTimes--,0===e.usedTimes&&this.nodeBuilderCache.delete(this.getForRenderCacheKey(t))}return super.delete(t)}getForCompute(t){const e=this.get(t);let s=e.nodeBuilderState;if(void 0===s){const i=this.backend.createNodeBuilder(t,this.renderer);i.build(),s=this._createNodeBuilderState(i),e.nodeBuilderState=s}return s}_createNodeBuilderState(t){return new eB(t.vertexShader,t.fragmentShader,t.computeShader,t.getAttributesArray(),t.getBindings(),t.updateNodes,t.updateBeforeNodes,t.updateAfterNodes,t.instanceBindGroups,t.transforms)}getEnvironmentNode(t){return t.environmentNode||this.get(t).environmentNode||null}getBackgroundNode(t){return t.backgroundNode||this.get(t).backgroundNode||null}getFogNode(t){return t.fogNode||this.get(t).fogNode||null}getCacheKey(t,e){const s=[t,e],i=this.renderer.info.calls;let r=this.callHashCache.get(s);if(void 0===r||r.callId!==i){const n=this.getEnvironmentNode(t),o=this.getFogNode(t),a=[];e&&a.push(e.getCacheKey()),n&&a.push(n.getCacheKey()),o&&a.push(o.getCacheKey()),r={callId:i,cacheKey:a.join(",")},this.callHashCache.set(s,r)}return r.cacheKey}updateScene(t){this.updateEnvironment(t),this.updateFog(t),this.updateBackground(t)}get isToneMappingState(){return!this.renderer.getRenderTarget()}updateBackground(t){const e=this.get(t),s=t.background;if(s){if(e.background!==s){let t=null;!0===s.isCubeTexture||s.mapping===ut||s.mapping===ct?t=uT(s,jx):!0===s.isTexture?t=tx(s,wT).setUpdateMatrix(!0):!0!==s.isColor&&console.error("WebGPUNodes: Unsupported background configuration.",s),e.backgroundNode=t,e.background=s}}else e.backgroundNode&&(delete e.backgroundNode,delete e.background)}updateFog(t){const e=this.get(t),s=t.fog;if(s){if(e.fog!==s){let t=null;s.isFogExp2?t=FN(ux("color","color",s),ux("density","float",s)):s.isFog?t=IN(ux("color","color",s),ux("near","float",s),ux("far","float",s)):console.error("WebGPUNodes: Unsupported fog configuration.",s),e.fogNode=t,e.fog=s}}else delete e.fogNode,delete e.fog}updateEnvironment(t){const e=this.get(t),s=t.environment;if(s){if(e.environment!==s){let t=null;!0===s.isCubeTexture?t=fv(s):!0===s.isTexture?t=tx(s):console.error("Nodes: Unsupported environment configuration.",s),e.environmentNode=t,e.environment=s}}else e.environmentNode&&(delete e.environmentNode,delete e.environment)}getNodeFrame(t=this.renderer,e=null,s=null,i=null,r=null){const n=this.nodeFrame;return n.renderer=t,n.scene=e,n.object=s,n.camera=i,n.material=r,n}getNodeFrameForRender(t){return this.getNodeFrame(t.renderer,t.scene,t.object,t.camera,t.material)}getOutputNode(t){let e=tx(t,_T);return this.isToneMappingState&&(this.renderer.toneMappingNode?e=gm(this.renderer.toneMappingNode.context({color:e.rgb}),e.a):0!==this.renderer.toneMapping&&(e=e.toneMapping(this.renderer.toneMapping))),this.renderer.currentColorSpace===Xe&&(e=e.linearToColorSpace(this.renderer.currentColorSpace)),e}updateBefore(t){const e=this.getNodeFrameForRender(t),s=t.getNodeBuilderState();for(const t of s.updateBeforeNodes)e.updateBeforeNode(t)}updateAfter(t){const e=this.getNodeFrameForRender(t),s=t.getNodeBuilderState();for(const t of s.updateAfterNodes)e.updateAfterNode(t)}updateForCompute(t){const e=this.getNodeFrame(),s=this.getForCompute(t);for(const t of s.updateNodes)e.updateNode(t)}updateForRender(t){const e=this.getNodeFrameForRender(t),s=t.getNodeBuilderState();for(const t of s.updateNodes)e.updateNode(t)}dispose(){super.dispose(),this.nodeFrame=new W_,this.nodeBuilderCache=new Map}}class iB{constructor(t,e){this.scene=t,this.camera=e}clone(){return Object.assign(new this.constructor,this)}}class rB{constructor(){this.lists=new vd}get(t,e){const s=this.lists,i=[t,e];let r=s.get(i);return void 0===r&&(r=new iB(t,e),s.set(i,r)),r}dispose(){this.lists=new vd}}const nB=new io,oB=new Zs,aB=new vi,hB=new ia,lB=new rr,uB=new Ri,cB=new KA(new $T);class dB{constructor(t,e={}){this.isRenderer=!0;const{logarithmicDepthBuffer:s=!1,alpha:i=!0}=e;this.domElement=t.getDomElement(),this.backend=t,this.autoClear=!0,this.autoClearColor=!0,this.autoClearDepth=!0,this.autoClearStencil=!0,this.alpha=i,this.logarithmicDepthBuffer=s,this.outputColorSpace=Xe,this.toneMapping=0,this.toneMappingExposure=1,this.sortObjects=!0,this.depth=!0,this.stencil=!1,this.clippingPlanes=[],this.info=new Od,this.toneMappingNode=null,this._pixelRatio=1,this._width=this.domElement.width,this._height=this.domElement.height,this._viewport=new vi(0,0,this._width,this._height),this._scissor=new vi(0,0,this._width,this._height),this._scissorTest=!1,this._attributes=null,this._geometries=null,this._nodes=null,this._animation=null,this._bindings=null,this._objects=null,this._pipelines=null,this._bundles=null,this._renderLists=null,this._renderContexts=null,this._textures=null,this._background=null,this._currentRenderContext=null,this._opaqueSort=null,this._transparentSort=null,this._frameBufferTarget=null;const r=!0===this.alpha?0:1;this._clearColor=new QE(0,0,0,r),this._clearDepth=1,this._clearStencil=0,this._renderTarget=null,this._activeCubeFace=0,this._activeMipmapLevel=0,this._renderObjectFunction=null,this._currentRenderObjectFunction=null,this._currentRenderBundle=null,this._handleObjectFunction=this._renderObjectDirect,this._initialized=!1,this._initPromise=null,this._compilationPromises=null,this.shadowMap={enabled:!1,type:null},this.xr={enabled:!1},this.debug={checkShaderErrors:!0,onShaderError:null}}async init(){if(this._initialized)throw new Error("Renderer: Backend has already been initialized.");return null!==this._initPromise||(this._initPromise=new Promise((async(t,e)=>{const s=this.backend;try{await s.init(this)}catch(t){return void e(t)}this._nodes=new sB(this,s),this._animation=new bd(this._nodes,this.info),this._attributes=new Id(s),this._background=new tB(this,this._nodes),this._geometries=new Ud(this._attributes,this.info),this._textures=new ZE(this,s,this.info),this._pipelines=new Gd(s,this._nodes),this._bindings=new Wd(s,this._nodes,this._textures,this._attributes,this._pipelines,this.info),this._objects=new Ad(this,this._nodes,this._geometries,this._pipelines,this._bindings,this.info),this._renderLists=new qE,this._bundles=new rB,this._renderContexts=new YE,this._initialized=!0,t()}))),this._initPromise}get coordinateSystem(){return this.backend.coordinateSystem}async compileAsync(t,e,s=null){!1===this._initialized&&await this.init();const i=this._nodes.nodeFrame,r=i.renderId,n=this._currentRenderContext,o=this._currentRenderObjectFunction,a=this._compilationPromises,h=!0===t.isScene?t:nB;null===s&&(s=t);const l=this._renderTarget,u=this._renderContexts.get(s,e,l),c=this._activeMipmapLevel,d=[];this._currentRenderContext=u,this._currentRenderObjectFunction=this.renderObject,this._handleObjectFunction=this._createObjectPipeline,this._compilationPromises=d,i.renderId++,i.update(),u.depth=this.depth,u.stencil=this.stencil,u.clippingContext||(u.clippingContext=new wd),u.clippingContext.updateGlobal(this,e),h.onBeforeRender(this,t,e,l);const p=this._renderLists.get(t,e);if(p.begin(),this._projectObject(t,e,0,p),s!==t&&s.traverseVisible((function(t){t.isLight&&t.layers.test(e.layers)&&p.pushLight(t)})),p.finish(),null!==l){this._textures.updateRenderTarget(l,c);const t=this._textures.get(l);u.textures=t.textures,u.depthTexture=t.depthTexture}else u.textures=null,u.depthTexture=null;this._nodes.updateScene(h),this._background.update(h,p,u);const m=p.opaque,g=p.transparent,f=p.lightsNode;m.length>0&&this._renderObjects(m,e,h,f),g.length>0&&this._renderObjects(g,e,h,f),i.renderId=r,this._currentRenderContext=n,this._currentRenderObjectFunction=o,this._compilationPromises=a,this._handleObjectFunction=this._renderObjectDirect,await Promise.all(d)}async renderAsync(t,e){!1===this._initialized&&await this.init();const s=this._renderScene(t,e);await this.backend.resolveTimestampAsync(s,"render")}_renderBundle(t,e,s){const{object:i,camera:r,renderList:n}=t,o=this._currentRenderContext,a=this.backend.get(o),h=this._bundles.get(i,r),l=this.backend.get(h);void 0===l.renderContexts&&(l.renderContexts=new Set);const u=!1===l.renderContexts.has(o)||!0===i.needsUpdate;if(l.renderContexts.add(o),u){if(void 0===a.renderObjects||!0===i.needsUpdate){const t=this._nodes.nodeFrame;a.renderObjects=[],a.renderBundles=[],a.scene=e,a.camera=r,a.renderId=t.renderId,a.registerBundlesPhase=!0}this._currentRenderBundle=h;const t=n.opaque;t.length>0&&this._renderObjects(t,r,e,s),this._currentRenderBundle=null,i.needsUpdate=!1}else{const t=this._currentRenderContext,e=this.backend.get(t);for(let t=0,s=e.renderObjects.length;t>=c,p.viewportValue.height>>=c,p.viewportValue.minDepth=x,p.viewportValue.maxDepth=b,p.viewport=!1===p.viewportValue.equals(aB),p.scissorValue.copy(f).multiplyScalar(y).floor(),p.scissor=this._scissorTest&&!1===p.scissorValue.equals(aB),p.scissorValue.width>>=c,p.scissorValue.height>>=c,p.clippingContext||(p.clippingContext=new wd),p.clippingContext.updateGlobal(this,e),h.onBeforeRender(this,t,e,d),lB.multiplyMatrices(e.projectionMatrix,e.matrixWorldInverse),hB.setFromProjectionMatrix(lB,m);const v=this._renderLists.get(t,e);if(v.begin(),this._projectObject(t,e,0,v),v.finish(),!0===this.sortObjects&&v.sort(this._opaqueSort,this._transparentSort),null!==d){this._textures.updateRenderTarget(d,c);const t=this._textures.get(d);p.textures=t.textures,p.depthTexture=t.depthTexture,p.width=t.width,p.height=t.height,p.renderTarget=d,p.depth=d.depthBuffer,p.stencil=d.stencilBuffer}else p.textures=null,p.depthTexture=null,p.width=this.domElement.width,p.height=this.domElement.height,p.depth=this.depth,p.stencil=this.stencil;p.width>>=c,p.height>>=c,p.activeCubeFace=u,p.activeMipmapLevel=c,p.occlusionQueryCount=v.occlusionQueryCount,this._nodes.updateScene(h),this._background.update(h,v,p),this.backend.beginRender(p);const T=v.opaque,_=v.transparent,w=v.bundles,S=v.lightsNode;return w.length>0&&this._renderBundles(w,h,S),T.length>0&&this._renderObjects(T,e,h,S),_.length>0&&this._renderObjects(_,e,h,S),this.backend.finishRender(p),r.renderId=n,this._currentRenderContext=o,this._currentRenderObjectFunction=a,null!==i&&(this.setRenderTarget(l,u,c),cB.material.fragmentNode=this._nodes.getOutputNode(d.texture),this._renderScene(cB,cB.camera,!1)),h.onAfterRender(this,t,e,d),p}getMaxAnisotropy(){return this.backend.getMaxAnisotropy()}getActiveCubeFace(){return this._activeCubeFace}getActiveMipmapLevel(){return this._activeMipmapLevel}async setAnimationLoop(t){!1===this._initialized&&await this.init(),this._animation.setAnimationLoop(t)}async getArrayBufferAsync(t){return await this.backend.getArrayBufferAsync(t)}getContext(){return this.backend.getContext()}getPixelRatio(){return this._pixelRatio}getDrawingBufferSize(t){return t.set(this._width*this._pixelRatio,this._height*this._pixelRatio).floor()}getSize(t){return t.set(this._width,this._height)}setPixelRatio(t=1){this._pixelRatio=t,this.setSize(this._width,this._height,!1)}setDrawingBufferSize(t,e,s){this._width=t,this._height=e,this._pixelRatio=s,this.domElement.width=Math.floor(t*s),this.domElement.height=Math.floor(e*s),this.setViewport(0,0,t,e),this._initialized&&this.backend.updateSize()}setSize(t,e,s=!0){this._width=t,this._height=e,this.domElement.width=Math.floor(t*this._pixelRatio),this.domElement.height=Math.floor(e*this._pixelRatio),!0===s&&(this.domElement.style.width=t+"px",this.domElement.style.height=e+"px"),this.setViewport(0,0,t,e),this._initialized&&this.backend.updateSize()}setOpaqueSort(t){this._opaqueSort=t}setTransparentSort(t){this._transparentSort=t}getScissor(t){const e=this._scissor;return t.x=e.x,t.y=e.y,t.width=e.width,t.height=e.height,t}setScissor(t,e,s,i){const r=this._scissor;t.isVector4?r.copy(t):r.set(t,e,s,i)}getScissorTest(){return this._scissorTest}setScissorTest(t){this._scissorTest=t,this.backend.setScissorTest(t)}getViewport(t){return t.copy(this._viewport)}setViewport(t,e,s,i,r=0,n=1){const o=this._viewport;t.isVector4?o.copy(t):o.set(t,e,s,i),o.minDepth=r,o.maxDepth=n}getClearColor(t){return t.copy(this._clearColor)}setClearColor(t,e=1){this._clearColor.set(t),this._clearColor.a=e}getClearAlpha(){return this._clearColor.a}setClearAlpha(t){this._clearColor.a=t}getClearDepth(){return this._clearDepth}setClearDepth(t){this._clearDepth=t}getClearStencil(){return this._clearStencil}setClearStencil(t){this._clearStencil=t}isOccluded(t){const e=this._currentRenderContext;return e&&this.backend.isOccluded(e,t)}clear(t=!0,e=!0,s=!0){if(!1===this._initialized)return console.warn("THREE.Renderer: .clear() called before the backend is initialized. Try using .clearAsync() instead."),this.clearAsync(t,e,s);const i=this._renderTarget||this._getFrameBufferTarget();let r=null;null!==i&&(this._textures.updateRenderTarget(i),r=this._textures.get(i)),this.backend.clear(t,e,s,r),null!==i&&null===this._renderTarget&&(cB.material.fragmentNode=this._nodes.getOutputNode(i.texture),this._renderScene(cB,cB.camera,!1))}clearColor(){return this.clear(!0,!1,!1)}clearDepth(){return this.clear(!1,!0,!1)}clearStencil(){return this.clear(!1,!1,!0)}async clearAsync(t=!0,e=!0,s=!0){!1===this._initialized&&await this.init(),this.clear(t,e,s)}clearColorAsync(){return this.clearAsync(!0,!1,!1)}clearDepthAsync(){return this.clearAsync(!1,!0,!1)}clearStencilAsync(){return this.clearAsync(!1,!1,!0)}get currentColorSpace(){const t=this._renderTarget;if(null!==t){const e=t.texture;return(Array.isArray(e)?e[0]:e).colorSpace}return this.outputColorSpace}dispose(){this.info.dispose(),this._animation.dispose(),this._objects.dispose(),this._pipelines.dispose(),this._nodes.dispose(),this._bindings.dispose(),this._renderLists.dispose(),this._renderContexts.dispose(),this._textures.dispose(),this.setRenderTarget(null),this.setAnimationLoop(null)}setRenderTarget(t,e=0,s=0){this._renderTarget=t,this._activeCubeFace=e,this._activeMipmapLevel=s}getRenderTarget(){return this._renderTarget}setRenderObjectFunction(t){this._renderObjectFunction=t}getRenderObjectFunction(){return this._renderObjectFunction}async computeAsync(t){!1===this._initialized&&await this.init();const e=this._nodes.nodeFrame,s=e.renderId;this.info.calls++,this.info.compute.calls++,this.info.compute.frameCalls++,e.renderId=this.info.calls;const i=this.backend,r=this._pipelines,n=this._bindings,o=this._nodes,a=Array.isArray(t)?t:[t];if(void 0===a[0]||!0!==a[0].isComputeNode)throw new Error("THREE.Renderer: .compute() expects a ComputeNode.");i.beginCompute(t);for(const e of a){if(!1===r.has(e)){const t=()=>{e.removeEventListener("dispose",t),r.delete(e),n.delete(e),o.delete(e)};e.addEventListener("dispose",t),e.onInit({renderer:this})}o.updateForCompute(e),n.updateForCompute(e);const s=n.getForCompute(e),a=r.getForCompute(e,s);i.compute(t,e,s,a)}i.finishCompute(t),await this.backend.resolveTimestampAsync(t,"compute"),e.renderId=s}async hasFeatureAsync(t){return!1===this._initialized&&await this.init(),this.backend.hasFeature(t)}hasFeature(t){return!1===this._initialized?(console.warn("THREE.Renderer: .hasFeature() called before the backend is initialized. Try using .hasFeatureAsync() instead."),!1):this.backend.hasFeature(t)}copyFramebufferToTexture(t){const e=this._currentRenderContext;this._textures.updateTexture(t),this.backend.copyFramebufferToTexture(t,e)}copyTextureToTexture(t,e,s=null,i=null,r=0){this._textures.updateTexture(t),this._textures.updateTexture(e),this.backend.copyTextureToTexture(t,e,s,i,r)}readRenderTargetPixelsAsync(t,e,s,i,r,n=0){return this.backend.copyTextureToBuffer(t.textures[n],e,s,i,r)}_projectObject(t,e,s,i){if(!1===t.visible)return;if(t.layers.test(e.layers))if(t.isGroup)s=t.renderOrder;else if(t.isLOD)!0===t.autoUpdate&&t.update(e);else if(t.isLight)i.pushLight(t);else if(t.isSprite){if(!t.frustumCulled||hB.intersectsSprite(t)){!0===this.sortObjects&&uB.setFromMatrixPosition(t.matrixWorld).applyMatrix4(lB);const e=t.geometry,r=t.material;r.visible&&i.push(t,e,r,s,uB.z,null)}}else if(t.isLineLoop)console.error("THREE.Renderer: Objects of type THREE.LineLoop are not supported. Please use THREE.Line or THREE.LineSegments.");else if((t.isMesh||t.isLine||t.isPoints)&&(!t.frustumCulled||hB.intersectsObject(t))){const e=t.geometry,r=t.material;if(!0===this.sortObjects&&(null===e.boundingSphere&&e.computeBoundingSphere(),uB.copy(e.boundingSphere.center).applyMatrix4(t.matrixWorld).applyMatrix4(lB)),Array.isArray(r)){const n=e.groups;for(let o=0,a=n.length;o0?i:"";e=`${t.name} {\n\t${s} ${r.name}[${n}];\n};\n`}else{e=`${this.getVectorType(r.type)} ${this.getPropertyName(r,t)};`,n=!0}const o=r.node.precision;if(null!==o&&(e=NB[o]+" "+e),n){e="\t"+e;const t=r.groupNode.name;(i[t]||(i[t]=[])).push(e)}else e="uniform "+e,s.push(e)}let r="";for(const e in i){const s=i[e];r+=this._getGLSLUniformStruct(t+"_"+e,s.join("\n"))+"\n"}return r+=s.join("\n"),r}getTypeFromAttribute(t){let e=super.getTypeFromAttribute(t);if(/^[iu]/.test(e)&&t.gpuType!==Et){let s=t;t.isInterleavedBufferAttribute&&(s=t.data);const i=s.array;!1==(i instanceof Uint32Array||i instanceof Int32Array||i instanceof Uint16Array||i instanceof Int16Array)&&(e=e.slice(1))}return e}getAttributes(t){let e="";if("vertex"===t||"compute"===t){const t=this.getAttributesArray();let s=0;for(const i of t)e+=`layout( location = ${s++} ) in ${i.type} ${i.name};\n`}return e}getStructMembers(t){const e=[],s=t.getMemberTypes();for(let t=0;t0&&(s+="\n"),s+=`\t// flow -> ${n}\n\t`),s+=`${i.code}\n\t`,t===r&&"compute"!==e&&(s+="// result\n\t","vertex"===e?(s+="gl_Position = ",s+=`${i.result};`):"fragment"===e&&(t.outputNode.isOutputStructNode||(s+="fragColor = ",s+=`${i.result};`)))}const n=t[e];n.extensions=this.getExtensions(e),n.uniforms=this.getUniforms(e),n.attributes=this.getAttributes(e),n.varyings=this.getVaryings(e),n.vars=this.getVars(e),n.structs=this.getStructs(e),n.codes=this.getCodes(e),n.transforms=this.getTransforms(e),n.flow=s}null!==this.material?(this.vertexShader=this._getGLSLVertexCode(t.vertex),this.fragmentShader=this._getGLSLFragmentCode(t.fragment)):this.computeShader=this._getGLSLVertexCode(t.compute)}getUniformFromNode(t,e,s,i=null){const r=super.getUniformFromNode(t,e,s,i),n=this.getDataFromNode(t,s,this.globalCache);let o=n.uniformGPU;if(void 0===o){const i=t.groupNode,a=i.name,h=this.getBindGroupArray(a,s);if("texture"===e)o=new wB(r.name,r.node,i),h.push(o);else if("cubeTexture"===e)o=new SB(r.name,r.node,i),h.push(o);else if("texture3D"===e)o=new MB(r.name,r.node,i),h.push(o);else if("buffer"===e){t.name=`NodeBuffer_${t.id}`,r.name=`buffer${t.id}`;const e=new yB(t,i);e.name=t.name,h.push(e),o=e}else{const t=this.uniformGroups[s]||(this.uniformGroups[s]={});let n=t[a];void 0===n&&(n=new vB(s+"_"+a,i),t[a]=n,h.push(n)),o=this.getNodeUniform(r,e),n.addUniform(o)}n.uniformGPU=o}return r}}let BB=null,IB=null,PB=null;class FB{constructor(t={}){this.parameters=Object.assign({},t),this.data=new WeakMap,this.renderer=null,this.domElement=null}async init(t){this.renderer=t}begin(){}finish(){}draw(){}createProgram(){}destroyProgram(){}createBindings(){}updateBindings(){}createRenderPipeline(){}createComputePipeline(){}destroyPipeline(){}needsRenderUpdate(){}getRenderCacheKey(){}createNodeBuilder(){}createSampler(){}createDefaultTexture(){}createTexture(){}copyTextureToBuffer(){}createAttribute(){}createIndexAttribute(){}updateAttribute(){}destroyAttribute(){}getContext(){}updateSize(){}resolveTimestampAsync(){}hasFeatureAsync(){}hasFeature(){}getInstanceCount(t){const{object:e,geometry:s}=t;return s.isInstancedBufferGeometry?s.instanceCount:e.count>1?e.count:1}getDrawingBufferSize(){return BB=BB||new Zs,this.renderer.getDrawingBufferSize(BB)}getScissor(){return IB=IB||new vi,this.renderer.getScissor(IB)}setScissorTest(){}getClearColor(){const t=this.renderer;return PB=PB||new QE,t.getClearColor(PB),PB.getRGB(PB,this.renderer.currentColorSpace),PB}getDomElement(){let e=this.domElement;return null===e&&(e=void 0!==this.parameters.canvas?this.parameters.canvas:ii(),"setAttribute"in e&&e.setAttribute("data-engine",`three.js r${t} webgpu`),this.domElement=e),e}set(t,e){this.data.set(t,e)}get(t){let e=this.data.get(t);return void 0===e&&(e={},this.data.set(t,e)),e}has(t){return this.data.has(t)}delete(t){this.data.delete(t)}}let UB=0;class OB{constructor(t,e){this.buffers=[t.bufferGPU,e],this.type=t.type,this.bufferType=t.bufferType,this.pbo=t.pbo,this.byteLength=t.byteLength,this.bytesPerElement=t.BYTES_PER_ELEMENT,this.version=t.version,this.isInteger=t.isInteger,this.activeBufferIndex=0,this.baseId=t.id}get id(){return`${this.baseId}|${this.activeBufferIndex}`}get bufferGPU(){return this.buffers[this.activeBufferIndex]}get transformBuffer(){return this.buffers[1^this.activeBufferIndex]}switchBuffers(){this.activeBufferIndex^=1}}class zB{constructor(t){this.backend=t}createAttribute(t,e){const s=this.backend,{gl:i}=s,r=t.array,n=t.usage||i.STATIC_DRAW,o=t.isInterleavedBufferAttribute?t.data:t,a=s.get(o);let h,l=a.bufferGPU;if(void 0===l&&(l=this._createBuffer(i,e,r,n),a.bufferGPU=l,a.bufferType=e,a.version=o.version),r instanceof Float32Array)h=i.FLOAT;else if(r instanceof Uint16Array)h=t.isFloat16BufferAttribute?i.HALF_FLOAT:i.UNSIGNED_SHORT;else if(r instanceof Int16Array)h=i.SHORT;else if(r instanceof Uint32Array)h=i.UNSIGNED_INT;else if(r instanceof Int32Array)h=i.INT;else if(r instanceof Int8Array)h=i.BYTE;else if(r instanceof Uint8Array)h=i.UNSIGNED_BYTE;else{if(!(r instanceof Uint8ClampedArray))throw new Error("THREE.WebGLBackend: Unsupported buffer data format: "+r);h=i.UNSIGNED_BYTE}let u={bufferGPU:l,bufferType:e,type:h,byteLength:r.byteLength,bytesPerElement:r.BYTES_PER_ELEMENT,version:t.version,pbo:t.pbo,isInteger:h===i.INT||h===i.UNSIGNED_INT||h===i.UNSIGNED_SHORT||t.gpuType===Et,id:UB++};if(t.isStorageBufferAttribute||t.isStorageInstancedBufferAttribute){const t=this._createBuffer(i,e,r,n);u=new OB(u,t)}s.set(t,u)}updateAttribute(t){const e=this.backend,{gl:s}=e,i=t.array,r=t.isInterleavedBufferAttribute?t.data:t,n=e.get(r),o=n.bufferType,a=t.isInterleavedBufferAttribute?t.data.updateRanges:t.updateRanges;if(s.bindBuffer(o,n.bufferGPU),0===a.length)s.bufferSubData(o,0,i);else{for(let t=0,e=a.length;t{!function r(){const n=t.clientWaitSync(e,t.SYNC_FLUSH_COMMANDS_BIT,0);if(n===t.WAIT_FAILED)return t.deleteSync(e),void i();n!==t.TIMEOUT_EXPIRED?(t.deleteSync(e),s()):requestAnimationFrame(r)}()}))}}let WB,jB,HB,qB=!1;class $B{constructor(t){this.backend=t,this.gl=t.gl,this.extensions=t.extensions,this.defaultTextures={},!1===qB&&(this._init(this.gl),qB=!0)}_init(t){WB={[pt]:t.REPEAT,[mt]:t.CLAMP_TO_EDGE,[gt]:t.MIRRORED_REPEAT},jB={[ft]:t.NEAREST,[yt]:t.NEAREST_MIPMAP_NEAREST,[bt]:t.NEAREST_MIPMAP_LINEAR,[Tt]:t.LINEAR,[_t]:t.LINEAR_MIPMAP_NEAREST,[St]:t.LINEAR_MIPMAP_LINEAR},HB={512:t.NEVER,519:t.ALWAYS,[bs]:t.LESS,515:t.LEQUAL,514:t.EQUAL,518:t.GEQUAL,516:t.GREATER,517:t.NOTEQUAL}}filterFallback(t){const{gl:e}=this;return t===ft||t===yt||t===bt?e.NEAREST:e.LINEAR}getGLTextureType(t){const{gl:e}=this;let s;return s=!0===t.isCubeTexture?e.TEXTURE_CUBE_MAP:!0===t.isDataArrayTexture?e.TEXTURE_2D_ARRAY:!0===t.isData3DTexture?e.TEXTURE_3D:e.TEXTURE_2D,s}getInternalFormat(t,e,s,i,r=!1){const{gl:n,extensions:o}=this;if(null!==t){if(void 0!==n[t])return n[t];console.warn("THREE.WebGLRenderer: Attempt to use non-existing WebGL internal format '"+t+"'")}let a=e;return e===n.RED&&(s===n.FLOAT&&(a=n.R32F),s===n.HALF_FLOAT&&(a=n.R16F),s===n.UNSIGNED_BYTE&&(a=n.R8),s===n.UNSIGNED_SHORT&&(a=n.R16),s===n.UNSIGNED_INT&&(a=n.R32UI),s===n.BYTE&&(a=n.R8I),s===n.SHORT&&(a=n.R16I),s===n.INT&&(a=n.R32I)),e===n.RED_INTEGER&&(s===n.UNSIGNED_BYTE&&(a=n.R8UI),s===n.UNSIGNED_SHORT&&(a=n.R16UI),s===n.UNSIGNED_INT&&(a=n.R32UI),s===n.BYTE&&(a=n.R8I),s===n.SHORT&&(a=n.R16I),s===n.INT&&(a=n.R32I)),e===n.RG&&(s===n.FLOAT&&(a=n.RG32F),s===n.HALF_FLOAT&&(a=n.RG16F),s===n.UNSIGNED_BYTE&&(a=n.RG8),s===n.UNSIGNED_SHORT&&(a=n.RG16),s===n.UNSIGNED_INT&&(a=n.RG32UI),s===n.BYTE&&(a=n.RG8I),s===n.SHORT&&(a=n.RG16I),s===n.INT&&(a=n.RG32I)),e===n.RG_INTEGER&&(s===n.UNSIGNED_BYTE&&(a=n.RG8UI),s===n.UNSIGNED_SHORT&&(a=n.RG16UI),s===n.UNSIGNED_INT&&(a=n.RG32UI),s===n.BYTE&&(a=n.RG8I),s===n.SHORT&&(a=n.RG16I),s===n.INT&&(a=n.RG32I)),e===n.RGB&&(s===n.FLOAT&&(a=n.RGB32F),s===n.HALF_FLOAT&&(a=n.RGB16F),s===n.UNSIGNED_BYTE&&(a=n.RGB8),s===n.UNSIGNED_SHORT&&(a=n.RGB16),s===n.UNSIGNED_INT&&(a=n.RGB32UI),s===n.BYTE&&(a=n.RGB8I),s===n.SHORT&&(a=n.RGB16I),s===n.INT&&(a=n.RGB32I),s===n.UNSIGNED_BYTE&&(a=i===Xe&&!1===r?n.SRGB8:n.RGB8),s===n.UNSIGNED_SHORT_5_6_5&&(a=n.RGB565),s===n.UNSIGNED_SHORT_5_5_5_1&&(a=n.RGB5_A1),s===n.UNSIGNED_SHORT_4_4_4_4&&(a=n.RGB4),s===n.UNSIGNED_INT_5_9_9_9_REV&&(a=n.RGB9_E5)),e===n.RGB_INTEGER&&(s===n.UNSIGNED_BYTE&&(a=n.RGB8UI),s===n.UNSIGNED_SHORT&&(a=n.RGB16UI),s===n.UNSIGNED_INT&&(a=n.RGB32UI),s===n.BYTE&&(a=n.RGB8I),s===n.SHORT&&(a=n.RGB16I),s===n.INT&&(a=n.RGB32I)),e===n.RGBA&&(s===n.FLOAT&&(a=n.RGBA32F),s===n.HALF_FLOAT&&(a=n.RGBA16F),s===n.UNSIGNED_BYTE&&(a=n.RGBA8),s===n.UNSIGNED_SHORT&&(a=n.RGBA16),s===n.UNSIGNED_INT&&(a=n.RGBA32UI),s===n.BYTE&&(a=n.RGBA8I),s===n.SHORT&&(a=n.RGBA16I),s===n.INT&&(a=n.RGBA32I),s===n.UNSIGNED_BYTE&&(a=i===Xe&&!1===r?n.SRGB8_ALPHA8:n.RGBA8),s===n.UNSIGNED_SHORT_4_4_4_4&&(a=n.RGBA4),s===n.UNSIGNED_SHORT_5_5_5_1&&(a=n.RGB5_A1)),e===n.RGBA_INTEGER&&(s===n.UNSIGNED_BYTE&&(a=n.RGBA8UI),s===n.UNSIGNED_SHORT&&(a=n.RGBA16UI),s===n.UNSIGNED_INT&&(a=n.RGBA32UI),s===n.BYTE&&(a=n.RGBA8I),s===n.SHORT&&(a=n.RGBA16I),s===n.INT&&(a=n.RGBA32I)),e===n.DEPTH_COMPONENT&&(s===n.UNSIGNED_INT&&(a=n.DEPTH24_STENCIL8),s===n.FLOAT&&(a=n.DEPTH_COMPONENT32F)),e===n.DEPTH_STENCIL&&s===n.UNSIGNED_INT_24_8&&(a=n.DEPTH24_STENCIL8),a!==n.R16F&&a!==n.R32F&&a!==n.RG16F&&a!==n.RG32F&&a!==n.RGBA16F&&a!==n.RGBA32F||o.get("EXT_color_buffer_float"),a}setTextureParameters(t,e){const{gl:s,extensions:i,backend:r}=this,{currentAnisotropy:n}=r.get(e);s.texParameteri(t,s.TEXTURE_WRAP_S,WB[e.wrapS]),s.texParameteri(t,s.TEXTURE_WRAP_T,WB[e.wrapT]),t!==s.TEXTURE_3D&&t!==s.TEXTURE_2D_ARRAY||s.texParameteri(t,s.TEXTURE_WRAP_R,WB[e.wrapR]),s.texParameteri(t,s.TEXTURE_MAG_FILTER,jB[e.magFilter]);const o=e.isVideoTexture||e.minFilter!==Tt?e.minFilter:St;if(s.texParameteri(t,s.TEXTURE_MIN_FILTER,jB[o]),e.compareFunction&&(s.texParameteri(t,s.TEXTURE_COMPARE_MODE,s.COMPARE_REF_TO_TEXTURE),s.texParameteri(t,s.TEXTURE_COMPARE_FUNC,HB[e.compareFunction])),!0===i.has("EXT_texture_filter_anisotropic")){if(e.magFilter===ft)return;if(e.minFilter!==bt&&e.minFilter!==St)return;if(e.type===It&&!1===i.has("OES_texture_float_linear"))return;if(e.anisotropy>1||n!==e.anisotropy){const n=i.get("EXT_texture_filter_anisotropic");s.texParameterf(t,n.TEXTURE_MAX_ANISOTROPY_EXT,Math.min(e.anisotropy,r.getMaxAnisotropy())),r.get(e).currentAnisotropy=e.anisotropy}}}createDefaultTexture(t){const{gl:e,backend:s,defaultTextures:i}=this,r=this.getGLTextureType(t);let n=i[r];void 0===n&&(n=e.createTexture(),s.state.bindTexture(r,n),e.texParameteri(r,e.TEXTURE_MIN_FILTER,e.NEAREST),e.texParameteri(r,e.TEXTURE_MAG_FILTER,e.NEAREST),i[r]=n),s.set(t,{textureGPU:n,glTextureType:r,isDefault:!0})}createTexture(t,e){const{gl:s,backend:i}=this,{levels:r,width:n,height:o,depth:a}=e,h=i.utils.convert(t.format,t.colorSpace),l=i.utils.convert(t.type),u=this.getInternalFormat(t.internalFormat,h,l,t.colorSpace,t.isVideoTexture),c=s.createTexture(),d=this.getGLTextureType(t);i.state.bindTexture(d,c),s.pixelStorei(s.UNPACK_FLIP_Y_WEBGL,t.flipY),s.pixelStorei(s.UNPACK_PREMULTIPLY_ALPHA_WEBGL,t.premultiplyAlpha),s.pixelStorei(s.UNPACK_ALIGNMENT,t.unpackAlignment),s.pixelStorei(s.UNPACK_COLORSPACE_CONVERSION_WEBGL,s.NONE),this.setTextureParameters(d,t),t.isDataArrayTexture?s.texStorage3D(s.TEXTURE_2D_ARRAY,r,u,n,o,a):t.isData3DTexture?s.texStorage3D(s.TEXTURE_3D,r,u,n,o,a):t.isVideoTexture||s.texStorage2D(d,r,u,n,o),i.set(t,{textureGPU:c,glTextureType:d,glFormat:h,glType:l,glInternalFormat:u})}copyBufferToTexture(t,e){const{gl:s,backend:i}=this,{textureGPU:r,glTextureType:n,glFormat:o,glType:a}=i.get(e),{width:h,height:l}=e.source.data;s.bindBuffer(s.PIXEL_UNPACK_BUFFER,t),i.state.bindTexture(n,r),s.pixelStorei(s.UNPACK_FLIP_Y_WEBGL,!1),s.pixelStorei(s.UNPACK_PREMULTIPLY_ALPHA_WEBGL,!1),s.texSubImage2D(n,0,0,0,h,l,o,a,0),s.bindBuffer(s.PIXEL_UNPACK_BUFFER,null),i.state.unbindTexture()}updateTexture(t,e){const{gl:s}=this,{width:i,height:r}=e,{textureGPU:n,glTextureType:o,glFormat:a,glType:h,glInternalFormat:l}=this.backend.get(t);if(t.isRenderTargetTexture||void 0===n)return;const u=t=>t.isDataTexture?t.image.data:t instanceof ImageBitmap||t instanceof OffscreenCanvas||t instanceof HTMLImageElement||t instanceof HTMLCanvasElement?t:t.data;if(this.backend.state.bindTexture(o,n),t.isCompressedTexture){const i=t.mipmaps;for(let r=0;r0){let a,h;!0===t.isDepthTexture?(a=s.DEPTH_BUFFER_BIT,h=s.DEPTH_ATTACHMENT,e.stencil&&(a|=s.STENCIL_BUFFER_BIT)):(a=s.COLOR_BUFFER_BIT,h=s.COLOR_ATTACHMENT0);const l=s.createFramebuffer();i.bindFramebuffer(s.DRAW_FRAMEBUFFER,l),s.framebufferTexture2D(s.DRAW_FRAMEBUFFER,h,s.TEXTURE_2D,r,0),s.blitFramebuffer(0,0,n,o,0,0,n,o,a,s.NEAREST),s.deleteFramebuffer(l)}else i.bindTexture(s.TEXTURE_2D,r),s.copyTexSubImage2D(s.TEXTURE_2D,0,0,0,0,0,n,o),i.unbindTexture();t.generateMipmaps&&this.generateMipmaps(t),this.backend._setFramebuffer(e)}setupRenderBufferStorage(t,e){const{gl:s}=this,i=e.renderTarget,{samples:r,depthTexture:n,depthBuffer:o,stencilBuffer:a,width:h,height:l}=i;if(s.bindRenderbuffer(s.RENDERBUFFER,t),o&&!a){let e=s.DEPTH_COMPONENT24;r>0?(n&&n.isDepthTexture&&n.type===s.FLOAT&&(e=s.DEPTH_COMPONENT32F),s.renderbufferStorageMultisample(s.RENDERBUFFER,r,e,h,l)):s.renderbufferStorage(s.RENDERBUFFER,e,h,l),s.framebufferRenderbuffer(s.FRAMEBUFFER,s.DEPTH_ATTACHMENT,s.RENDERBUFFER,t)}else o&&a&&(r>0?s.renderbufferStorageMultisample(s.RENDERBUFFER,r,s.DEPTH24_STENCIL8,h,l):s.renderbufferStorage(s.RENDERBUFFER,s.DEPTH_STENCIL,h,l),s.framebufferRenderbuffer(s.FRAMEBUFFER,s.DEPTH_STENCIL_ATTACHMENT,s.RENDERBUFFER,t))}async copyTextureToBuffer(t,e,s,i,r){const{backend:n,gl:o}=this,{textureGPU:a,glFormat:h,glType:l}=this.backend.get(t),u=o.createFramebuffer();o.bindFramebuffer(o.READ_FRAMEBUFFER,u),o.framebufferTexture2D(o.READ_FRAMEBUFFER,o.COLOR_ATTACHMENT0,o.TEXTURE_2D,a,0);const c=this._getTypedArrayType(l),d=i*r*this._getBytesPerTexel(h),p=o.createBuffer();o.bindBuffer(o.PIXEL_PACK_BUFFER,p),o.bufferData(o.PIXEL_PACK_BUFFER,d,o.STREAM_READ),o.readPixels(e,s,i,r,h,l,0),o.bindBuffer(o.PIXEL_PACK_BUFFER,null),await n.utils._clientWaitAsync();const m=new c(d/c.BYTES_PER_ELEMENT);return o.bindBuffer(o.PIXEL_PACK_BUFFER,p),o.getBufferSubData(o.PIXEL_PACK_BUFFER,0,m),o.bindBuffer(o.PIXEL_PACK_BUFFER,null),o.deleteFramebuffer(u),m}_getTypedArrayType(t){const{gl:e}=this;if(t===e.UNSIGNED_BYTE)return Uint8Array;if(t===e.UNSIGNED_SHORT_4_4_4_4)return Uint16Array;if(t===e.UNSIGNED_SHORT_5_5_5_1)return Uint16Array;if(t===e.UNSIGNED_SHORT_5_6_5)return Uint16Array;if(t===e.UNSIGNED_SHORT)return Uint16Array;if(t===e.UNSIGNED_INT)return Uint32Array;if(t===e.FLOAT)return Float32Array;throw new Error(`Unsupported WebGL type: ${t}`)}_getBytesPerTexel(t){const{gl:e}=this;return t===e.RGBA?4:t===e.RGB?3:t===e.ALPHA?1:void 0}}class XB{constructor(t){this.backend=t,this.gl=this.backend.gl,this.availableExtensions=this.gl.getSupportedExtensions(),this.extensions={}}get(t){let e=this.extensions[t];return void 0===e&&(e=this.gl.getExtension(t),this.extensions[t]=e),e}has(t){return this.availableExtensions.includes(t)}}class YB{constructor(t){this.backend=t,this.maxAnisotropy=null}getMaxAnisotropy(){if(null!==this.maxAnisotropy)return this.maxAnisotropy;const t=this.backend.gl,e=this.backend.extensions;if(!0===e.has("EXT_texture_filter_anisotropic")){const s=e.get("EXT_texture_filter_anisotropic");this.maxAnisotropy=t.getParameter(s.MAX_TEXTURE_MAX_ANISOTROPY_EXT)}else this.maxAnisotropy=0;return this.maxAnisotropy}}const JB={WEBGL_multi_draw:"WEBGL_multi_draw",WEBGL_compressed_texture_astc:"texture-compression-astc",WEBGL_compressed_texture_etc:"texture-compression-etc2",WEBGL_compressed_texture_etc1:"texture-compression-etc1",WEBGL_compressed_texture_pvrtc:"texture-compression-pvrtc",WEBKIT_WEBGL_compressed_texture_pvrtc:"texture-compression-pvrtc",WEBGL_compressed_texture_s3tc:"texture-compression-bc",EXT_texture_compression_bptc:"texture-compression-bptc",EXT_disjoint_timer_query_webgl2:"timestamp-query"};class ZB{constructor(t){this.gl=t.gl,this.extensions=t.extensions,this.info=t.renderer.info,this.mode=null,this.index=0,this.type=null,this.object=null}render(t,e){const{gl:s,mode:i,object:r,type:n,info:o,index:a}=this;0!==a?s.drawElements(i,e,n,t):s.drawArrays(i,t,e),o.update(r,e,i,1)}renderInstances(t,e,s){const{gl:i,mode:r,type:n,index:o,object:a,info:h}=this;0!==s&&(0!==o?i.drawElementsInstanced(r,e,n,t,s):i.drawArraysInstanced(r,t,e,s),h.update(a,e,r,s))}renderMultiDraw(t,e,s){const{extensions:i,mode:r,object:n,info:o}=this;if(0===s)return;const a=i.get("WEBGL_multi_draw");if(null===a)for(let i=0;i0)){const t=e.queryQueue.shift();this.initTimestampQuery(t)}}async resolveTimestampAsync(t,e="render"){if(!this.disjoint||!this.trackTimestamp)return;const s=this.get(t);s.gpuQueries||(s.gpuQueries=[]);for(let t=0;t0&&(s.currentOcclusionQueries=s.occlusionQueries,s.currentOcclusionQueryObjects=s.occlusionQueryObjects,s.lastOcclusionObject=null,s.occlusionQueries=new Array(i),s.occlusionQueryObjects=new Array(i),s.occlusionQueryIndex=0)}finishRender(t){const{gl:e,state:s}=this,i=this.get(t).previousContext,r=t.textures;if(null!==r)for(let t=0;t0){const r=i.msaaFrameBuffer,a=t.textures;s.bindFramebuffer(e.READ_FRAMEBUFFER,r),s.bindFramebuffer(e.DRAW_FRAMEBUFFER,n);for(let s=0;s0){if(n>this.get(t).occlusionQueryIndex){const{gl:t}=this;t.endQuery(t.ANY_SAMPLES_PASSED)}this.resolveOccludedAsync(t)}this.prepareTimestampBuffer(t)}resolveOccludedAsync(t){const e=this.get(t),{currentOcclusionQueries:s,currentOcclusionQueryObjects:i}=e;if(s&&i){const t=new WeakSet,{gl:r}=this;e.currentOcclusionQueryObjects=null,e.currentOcclusionQueries=null;const n=()=>{let o=0;for(let e=0;e0&&t.add(i[e]),s[e]=null,r.deleteQuery(n),o++))}o1?f.renderInstances(m,y,x):f.render(m,y),o.bindVertexArray(null)}needsRenderUpdate(){return!1}getRenderCacheKey(t){return t.id}createDefaultTexture(t){this.textureUtils.createDefaultTexture(t)}createTexture(t,e){this.textureUtils.createTexture(t,e)}updateTexture(t,e){this.textureUtils.updateTexture(t,e)}generateMipmaps(t){this.textureUtils.generateMipmaps(t)}destroyTexture(t){this.textureUtils.destroyTexture(t)}copyTextureToBuffer(t,e,s,i,r){return this.textureUtils.copyTextureToBuffer(t,e,s,i,r)}createSampler(){}destroySampler(){}createNodeBuilder(t,e){return new EB(t,e)}createProgram(t){const e=this.gl,{stage:s,code:i}=t,r="fragment"===s?e.createShader(e.FRAGMENT_SHADER):e.createShader(e.VERTEX_SHADER);e.shaderSource(r,i),e.compileShader(r),this.set(t,{shaderGPU:r})}destroyProgram(){console.warn("Abstract class.")}createRenderPipeline(t,e){const s=this.gl,i=t.pipeline,{fragmentProgram:r,vertexProgram:n}=i,o=s.createProgram(),a=this.get(r).shaderGPU,h=this.get(n).shaderGPU;if(s.attachShader(o,a),s.attachShader(o,h),s.linkProgram(o),this.set(i,{programGPU:o,fragmentShader:a,vertexShader:h}),null!==e&&this.parallel){const r=new Promise((e=>{const r=this.parallel,n=()=>{s.getProgramParameter(o,r.COMPLETION_STATUS_KHR)?(this._completeCompile(t,i),e()):requestAnimationFrame(n)};n()}));e.push(r)}else this._completeCompile(t,i)}_handleSource(t,e){const s=t.split("\n"),i=[],r=Math.max(e-6,0),n=Math.min(e+6,s.length);for(let t=r;t":" "} ${r}: ${s[t]}`)}return i.join("\n")}_getShaderErrors(t,e,s){const i=t.getShaderParameter(e,t.COMPILE_STATUS),r=t.getShaderInfoLog(e).trim();if(i&&""===r)return"";const n=/ERROR: 0:(\d+)/.exec(r);if(n){const i=parseInt(n[1]);return s.toUpperCase()+"\n\n"+r+"\n\n"+this._handleSource(t.getShaderSource(e),i)}return r}_logProgramError(t,e,s){if(this.renderer.debug.checkShaderErrors){const i=this.gl,r=i.getProgramInfoLog(t).trim();if(!1===i.getProgramParameter(t,i.LINK_STATUS))if("function"==typeof this.renderer.debug.onShaderError)this.renderer.debug.onShaderError(i,t,s,e);else{const n=this._getShaderErrors(i,s,"vertex"),o=this._getShaderErrors(i,e,"fragment");console.error("THREE.WebGLProgram: Shader Error "+i.getError()+" - VALIDATE_STATUS "+i.getProgramParameter(t,i.VALIDATE_STATUS)+"\n\nProgram Info Log: "+r+"\n"+n+"\n"+o)}else""!==r&&console.warn("THREE.WebGLProgram: Program Info Log:",r)}}_completeCompile(t,e){const s=this.gl,i=this.get(e),{programGPU:r,fragmentShader:n,vertexShader:o}=i;!1===s.getProgramParameter(r,s.LINK_STATUS)&&this._logProgramError(r,n,o),s.useProgram(r);const a=t.getBindings();this._setupBindings(a,r),this.set(e,{programGPU:r})}createComputePipeline(t,e){const s=this.gl,i={stage:"fragment",code:"#version 300 es\nprecision highp float;\nvoid main() {}"};this.createProgram(i);const{computeProgram:r}=t,n=s.createProgram(),o=this.get(i).shaderGPU,a=this.get(r).shaderGPU,h=r.transforms,l=[],u=[];for(let t=0;tJB[e]===t)),s=this.extensions;for(let t=0;t0){if(void 0===d){const i=[];d=e.createFramebuffer(),s.bindFramebuffer(e.FRAMEBUFFER,d);const r=[],l=t.textures;for(let s=0;s,\n\t@location( 0 ) vTex : vec2\n};\n\n@vertex\nfn main( @builtin( vertex_index ) vertexIndex : u32 ) -> VarysStruct {\n\n\tvar Varys : VarysStruct;\n\n\tvar pos = array< vec2, 4 >(\n\t\tvec2( -1.0, 1.0 ),\n\t\tvec2( 1.0, 1.0 ),\n\t\tvec2( -1.0, -1.0 ),\n\t\tvec2( 1.0, -1.0 )\n\t);\n\n\tvar tex = array< vec2, 4 >(\n\t\tvec2( 0.0, 0.0 ),\n\t\tvec2( 1.0, 0.0 ),\n\t\tvec2( 0.0, 1.0 ),\n\t\tvec2( 1.0, 1.0 )\n\t);\n\n\tVarys.vTex = tex[ vertexIndex ];\n\tVarys.Position = vec4( pos[ vertexIndex ], 0.0, 1.0 );\n\n\treturn Varys;\n\n}\n"}),this.mipmapFragmentShaderModule=t.createShaderModule({label:"mipmapFragment",code:"\n@group( 0 ) @binding( 0 )\nvar imgSampler : sampler;\n\n@group( 0 ) @binding( 1 )\nvar img : texture_2d;\n\n@fragment\nfn main( @location( 0 ) vTex : vec2 ) -> @location( 0 ) vec4 {\n\n\treturn textureSample( img, imgSampler, vTex );\n\n}\n"}),this.flipYFragmentShaderModule=t.createShaderModule({label:"flipYFragment",code:"\n@group( 0 ) @binding( 0 )\nvar imgSampler : sampler;\n\n@group( 0 ) @binding( 1 )\nvar img : texture_2d;\n\n@fragment\nfn main( @location( 0 ) vTex : vec2 ) -> @location( 0 ) vec4 {\n\n\treturn textureSample( img, imgSampler, vec2( vTex.x, 1.0 - vTex.y ) );\n\n}\n"})}getTransferPipeline(t){let e=this.transferPipelines[t];return void 0===e&&(e=this.device.createRenderPipeline({vertex:{module:this.mipmapVertexShaderModule,entryPoint:"main"},fragment:{module:this.mipmapFragmentShaderModule,entryPoint:"main",targets:[{format:t}]},primitive:{topology:NS,stripIndexFormat:jS},layout:"auto"}),this.transferPipelines[t]=e),e}getFlipYPipeline(t){let e=this.flipYPipelines[t];return void 0===e&&(e=this.device.createRenderPipeline({vertex:{module:this.mipmapVertexShaderModule,entryPoint:"main"},fragment:{module:this.flipYFragmentShaderModule,entryPoint:"main",targets:[{format:t}]},primitive:{topology:NS,stripIndexFormat:jS},layout:"auto"}),this.flipYPipelines[t]=e),e}flipY(t,e,s=0){const i=e.format,{width:r,height:n}=e.size,o=this.getTransferPipeline(i),a=this.getFlipYPipeline(i),h=this.device.createTexture({size:{width:r,height:n,depthOrArrayLayers:1},format:i,usage:GPUTextureUsage.RENDER_ATTACHMENT|GPUTextureUsage.TEXTURE_BINDING}),l=t.createView({baseMipLevel:0,mipLevelCount:1,dimension:UM,baseArrayLayer:s}),u=h.createView({baseMipLevel:0,mipLevelCount:1,dimension:UM,baseArrayLayer:0}),c=this.device.createCommandEncoder({}),d=(t,e,s)=>{const i=t.getBindGroupLayout(0),r=this.device.createBindGroup({layout:i,entries:[{binding:0,resource:this.flipYSampler},{binding:1,resource:e}]}),n=c.beginRenderPass({colorAttachments:[{view:s,loadOp:LS,storeOp:OS,clearValue:[0,0,0,0]}]});n.setPipeline(t),n.setBindGroup(0,r),n.draw(4,1,0,0),n.end()};d(o,l,u),d(a,u,l),this.device.queue.submit([c.finish()]),h.destroy()}generateMipmaps(t,e,s=0){const i=this.getTransferPipeline(e.format),r=this.device.createCommandEncoder({}),n=i.getBindGroupLayout(0);let o=t.createView({baseMipLevel:0,mipLevelCount:1,dimension:UM,baseArrayLayer:s});for(let a=1;a1&&(u=Math.pow(2,Math.floor(Math.log2(u))),2===u&&(u=4));const c=t.isRenderTargetTexture?1:u;let d=GPUTextureUsage.TEXTURE_BINDING|GPUTextureUsage.COPY_DST|GPUTextureUsage.COPY_SRC;!0===t.isStorageTexture&&(d|=GPUTextureUsage.STORAGE_BINDING),!0!==t.isCompressedTexture&&(d|=GPUTextureUsage.RENDER_ATTACHMENT);const p={label:t.name,size:{width:r,height:n,depthOrArrayLayers:o},mipLevelCount:a,sampleCount:c,dimension:h,format:l,usage:d};if(t.isVideoTexture){const e=t.source.data,s=new VideoFrame(e);p.size.width=s.displayWidth,p.size.height=s.displayHeight,s.close(),i.externalTexture=e}else{if(void 0===l)return console.warn("WebGPURenderer: Texture format not supported."),this.createDefaultTexture(t);i.texture=s.device.createTexture(p)}if(t.isRenderTargetTexture&&u>1){const t=Object.assign({},p);t.label=t.label+"-msaa",t.sampleCount=u,i.msaaTexture=s.device.createTexture(t)}i.initialized=!0,i.textureDescriptorGPU=p}destroyTexture(t){const e=this.backend,s=e.get(t);s.texture.destroy(),void 0!==s.msaaTexture&&s.msaaTexture.destroy(),e.delete(t)}destroySampler(t){delete this.backend.get(t).sampler}generateMipmaps(t){const e=this.backend.get(t);if(t.isCubeTexture)for(let t=0;t<6;t++)this._generateMipmaps(e.texture,e.textureDescriptorGPU,t);else this._generateMipmaps(e.texture,e.textureDescriptorGPU)}getColorBuffer(){this.colorBuffer&&this.colorBuffer.destroy();const t=this.backend,{width:e,height:s}=t.getDrawingBufferSize();return this.colorBuffer=t.device.createTexture({label:"colorBuffer",size:{width:e,height:s,depthOrArrayLayers:1},sampleCount:t.parameters.sampleCount,format:HS.BGRA8Unorm,usage:GPUTextureUsage.RENDER_ATTACHMENT|GPUTextureUsage.COPY_SRC}),this.colorBuffer}getDepthBuffer(t=!0,e=!1){const s=this.backend,{width:i,height:r}=s.getDrawingBufferSize(),n=this.depthTexture,o=s.get(n).texture;let a,h;if(e?(a=jt,h=Ot):t&&(a=Wt,h=Bt),void 0!==o){if(n.image.width===i&&n.image.height===r&&n.format===a&&n.type===h)return o;this.destroyTexture(n)}return n.name="depthBuffer",n.format=a,n.type=h,n.image.width=i,n.image.height=r,this.createTexture(n,{sampleCount:s.parameters.sampleCount,width:i,height:r}),s.get(n).texture}updateTexture(t,e){const s=this.backend.get(t),{textureDescriptorGPU:i}=s;if(!t.isRenderTargetTexture&&void 0!==i){if(t.isDataTexture)this._copyBufferToTexture(e.image,s.texture,i,0,t.flipY);else if(t.isDataArrayTexture||t.isData3DTexture)for(let r=0;r]*\s*([a-z_0-9]+(?:<[\s\S]+?>)?)/i,uI=/([a-z_0-9]+)\s*:\s*([a-z_0-9]+(?:<[\s\S]+?>)?)/gi,cI={f32:"float",i32:"int",u32:"uint",bool:"bool","vec2":"vec2","vec2":"ivec2","vec2":"uvec2","vec2":"bvec2",vec2f:"vec2",vec2i:"ivec2",vec2u:"uvec2",vec2b:"bvec2","vec3":"vec3","vec3":"ivec3","vec3":"uvec3","vec3":"bvec3",vec3f:"vec3",vec3i:"ivec3",vec3u:"uvec3",vec3b:"bvec3","vec4":"vec4","vec4":"ivec4","vec4":"uvec4","vec4":"bvec4",vec4f:"vec4",vec4i:"ivec4",vec4u:"uvec4",vec4b:"bvec4","mat2x2":"mat2",mat2x2f:"mat2","mat3x3":"mat3",mat3x3f:"mat3","mat4x4":"mat4",mat4x4f:"mat4",sampler:"sampler",texture_2d:"texture",texture_cube:"cubeTexture",texture_depth_2d:"depthTexture",texture_storage_2d:"storageTexture",texture_3d:"texture3D"};class dI extends RC{constructor(t){const{type:e,inputs:s,name:i,inputsCode:r,blockCode:n,outputType:o}=(t=>{const e=(t=t.trim()).match(lI);if(null!==e&&4===e.length){const s=e[2],i=[];let r=null;for(;null!==(r=uI.exec(s));)i.push({name:r[1],type:r[2]});const n=[];for(let t=0;t "+this.outputType:"";return`fn ${t} ( ${this.inputsCode.trim()} ) ${e}`+this.blockCode}}class pI extends NC{parseFunction(t){return new dI(t)}}const mI=self.GPUShaderStage,gI={vertex:mI?mI.VERTEX:1,fragment:mI?mI.FRAGMENT:2,compute:mI?mI.COMPUTE:4},fI={instance:!0,swizzleAssign:!1,storageBuffer:!0},yI={"^^":"threejs_xor"},xI={float:"f32",int:"i32",uint:"u32",bool:"bool",color:"vec3",vec2:"vec2",ivec2:"vec2",uvec2:"vec2",bvec2:"vec2",vec3:"vec3",ivec3:"vec3",uvec3:"vec3",bvec3:"vec3",vec4:"vec4",ivec4:"vec4",uvec4:"vec4",bvec4:"vec4",mat2:"mat2x2",imat2:"mat2x2",umat2:"mat2x2",bmat2:"mat2x2",mat3:"mat3x3",imat3:"mat3x3",umat3:"mat3x3",bmat3:"mat3x3",mat4:"mat4x4",imat4:"mat4x4",umat4:"mat4x4",bmat4:"mat4x4"},bI={dFdx:"dpdx",dFdy:"- dpdy",mod_float:"threejs_mod_float",mod_vec2:"threejs_mod_vec2",mod_vec3:"threejs_mod_vec3",mod_vec4:"threejs_mod_vec4",equals_bool:"threejs_equals_bool",equals_bvec2:"threejs_equals_bvec2",equals_bvec3:"threejs_equals_bvec3",equals_bvec4:"threejs_equals_bvec4",lessThanEqual:"threejs_lessThanEqual",greaterThan:"threejs_greaterThan",inversesqrt:"inverseSqrt",bitcast:"bitcast"},vI={threejs_xor:new Gg("\nfn threejs_xor( a : bool, b : bool ) -> bool {\n\n\treturn ( a || b ) && !( a && b );\n\n}\n"),lessThanEqual:new Gg("\nfn threejs_lessThanEqual( a : vec3, b : vec3 ) -> vec3 {\n\n\treturn vec3( a.x <= b.x, a.y <= b.y, a.z <= b.z );\n\n}\n"),greaterThan:new Gg("\nfn threejs_greaterThan( a : vec3, b : vec3 ) -> vec3 {\n\n\treturn vec3( a.x > b.x, a.y > b.y, a.z > b.z );\n\n}\n"),mod_float:new Gg("fn threejs_mod_float( x : f32, y : f32 ) -> f32 { return x - y * floor( x / y ); }"),mod_vec2:new Gg("fn threejs_mod_vec2( x : vec2f, y : vec2f ) -> vec2f { return x - y * floor( x / y ); }"),mod_vec3:new Gg("fn threejs_mod_vec3( x : vec3f, y : vec3f ) -> vec3f { return x - y * floor( x / y ); }"),mod_vec4:new Gg("fn threejs_mod_vec4( x : vec4f, y : vec4f ) -> vec4f { return x - y * floor( x / y ); }"),equals_bool:new Gg("fn threejs_equals_bool( a : bool, b : bool ) -> bool { return a == b; }"),equals_bvec2:new Gg("fn threejs_equals_bvec2( a : vec2f, b : vec2f ) -> vec2 { return vec2( a.x == b.x, a.y == b.y ); }"),equals_bvec3:new Gg("fn threejs_equals_bvec3( a : vec3f, b : vec3f ) -> vec3 { return vec3( a.x == b.x, a.y == b.y, a.z == b.z ); }"),equals_bvec4:new Gg("fn threejs_equals_bvec4( a : vec4f, b : vec4f ) -> vec4 { return vec4( a.x == b.x, a.y == b.y, a.z == b.z, a.w == b.w ); }"),repeatWrapping:new Gg("\nfn threejs_repeatWrapping( uv : vec2, dimension : vec2 ) -> vec2 {\n\n\tlet uvScaled = vec2( uv * vec2( dimension ) );\n\n\treturn ( ( uvScaled % dimension ) + dimension ) % dimension;\n\n}\n"),biquadraticTexture:new Gg("\nfn threejs_biquadraticTexture( map : texture_2d, coord : vec2f, level : i32 ) -> vec4f {\n\n\tlet res = vec2f( textureDimensions( map, level ) );\n\n\tlet uvScaled = coord * res;\n\tlet uvWrapping = ( ( uvScaled % res ) + res ) % res;\n\n\t// https://www.shadertoy.com/view/WtyXRy\n\n\tlet uv = uvWrapping - 0.5;\n\tlet iuv = floor( uv );\n\tlet f = fract( uv );\n\n\tlet rg1 = textureLoad( map, vec2i( iuv + vec2( 0.5, 0.5 ) ), level );\n\tlet rg2 = textureLoad( map, vec2i( iuv + vec2( 1.5, 0.5 ) ), level );\n\tlet rg3 = textureLoad( map, vec2i( iuv + vec2( 0.5, 1.5 ) ), level );\n\tlet rg4 = textureLoad( map, vec2i( iuv + vec2( 1.5, 1.5 ) ), level );\n\n\treturn mix( mix( rg1, rg2, f.x ), mix( rg3, rg4, f.x ), f.y );\n\n}\n")};class TI extends G_{constructor(t,e){super(t,e,new pI),this.uniformGroups={},this.builtins={}}needsColorSpaceToLinear(t){return!0===t.isVideoTexture&&t.colorSpace!==$e}_generateTextureSample(t,e,s,i,r=this.shaderStage){return"fragment"===r?i?`textureSample( ${e}, ${e}_sampler, ${s}, ${i} )`:`textureSample( ${e}, ${e}_sampler, ${s} )`:this.isFilteredTexture(t)?this.generateFilteredTexture(t,e,s):this.generateTextureLod(t,e,s,"0")}_generateVideoSample(t,e,s=this.shaderStage){if("fragment"===s)return`textureSampleBaseClampToEdge( ${t}, ${t}_sampler, vec2( ${e}.x, 1.0 - ${e}.y ) )`;console.error(`WebGPURenderer: THREE.VideoTexture does not support ${s} shader.`)}_generateTextureSampleLevel(t,e,s,i,r,n=this.shaderStage){return"fragment"===n&&!1===this.isUnfilterable(t)?`textureSampleLevel( ${e}, ${e}_sampler, ${s}, ${i} )`:this.isFilteredTexture(t)?this.generateFilteredTexture(t,e,s,i):this.generateTextureLod(t,e,s,i)}generateFilteredTexture(t,e,s,i="0"){return this._include("biquadraticTexture"),`threejs_biquadraticTexture( ${e}, ${s}, i32( ${i} ) )`}generateTextureLod(t,e,s,i="0"){this._include("repeatWrapping");return`textureLoad( ${e}, threejs_repeatWrapping( ${s}, ${`textureDimensions( ${e}, 0 )`} ), i32( ${i} ) )`}generateTextureLoad(t,e,s,i,r="0u"){return i?`textureLoad( ${e}, ${s}, ${i}, ${r} )`:`textureLoad( ${e}, ${s}, ${r} )`}generateTextureStore(t,e,s,i){return`textureStore( ${e}, ${s}, ${i} )`}isUnfilterable(t){return"float"!==this.getComponentTypeFromTexture(t)||!0===t.isDataTexture&&t.type===It}generateTexture(t,e,s,i,r=this.shaderStage){let n=null;return n=!0===t.isVideoTexture?this._generateVideoSample(e,s,r):this.isUnfilterable(t)?this.generateTextureLod(t,e,s,"0",i,r):this._generateTextureSample(t,e,s,i,r),n}generateTextureGrad(t,e,s,i,r,n=this.shaderStage){if("fragment"===n)return`textureSampleGrad( ${e}, ${e}_sampler, ${s}, ${i[0]}, ${i[1]} )`;console.error(`WebGPURenderer: THREE.TextureNode.gradient() does not support ${n} shader.`)}generateTextureCompare(t,e,s,i,r,n=this.shaderStage){if("fragment"===n)return`textureSampleCompare( ${e}, ${e}_sampler, ${s}, ${i} )`;console.error(`WebGPURenderer: THREE.DepthTexture.compareFunction() does not support ${n} shader.`)}generateTextureLevel(t,e,s,i,r,n=this.shaderStage){let o=null;return o=!0===t.isVideoTexture?this._generateVideoSample(e,s,n):this._generateTextureSampleLevel(t,e,s,i,r,n),o}getPropertyName(t,e=this.shaderStage){if(!0===t.isNodeVarying&&!0===t.needsInterpolation){if("vertex"===e)return`varyings.${t.name}`}else if(!0===t.isNodeUniform){const e=t.name,s=t.type;return"texture"===s||"cubeTexture"===s||"storageTexture"===s||"texture3D"===s?e:"buffer"===s||"storageBuffer"===s?`NodeBuffer_${t.id}.${e}`:t.groupNode.name+"."+e}return super.getPropertyName(t)}getOutputStructName(){return"output"}_getUniformGroupCount(t){return Object.keys(this.uniforms[t]).length}getFunctionOperator(t){const e=yI[t];return void 0!==e?(this._include(e),e):null}getStorageAccess(t){if(t.isStorageTextureNode)switch(t.access){case RM:return"read";case NM:return"write";default:return"read_write"}else switch(t.access){case MM:return"read_write";case AM:return"read";default:return"write"}}getUniformFromNode(t,e,s,i=null){const r=super.getUniformFromNode(t,e,s,i),n=this.getDataFromNode(t,s,this.globalCache);if(void 0===n.uniformGPU){let i;const o=t.groupNode,a=o.name,h=this.getBindGroupArray(a,s);if("texture"===e||"cubeTexture"===e||"storageTexture"===e||"texture3D"===e){let n=null;if("texture"===e||"storageTexture"===e?n=new wB(r.name,r.node,o,t.access?t.access:null):"cubeTexture"===e?n=new SB(r.name,r.node,o,t.access?t.access:null):"texture3D"===e&&(n=new MB(r.name,r.node,o,t.access?t.access:null)),n.store=!0===t.isStorageTextureNode,n.setVisibility(gI[s]),"fragment"===s&&!1===this.isUnfilterable(t.value)&&!1===n.store){const t=new tI(`${r.name}_sampler`,r.node,o);t.setVisibility(gI[s]),h.push(t,n),i=[t,n]}else h.push(n),i=[n]}else if("buffer"===e||"storageBuffer"===e){const r=new("storageBuffer"===e?iI:yB)(t,o);r.setVisibility(gI[s]),h.push(r),i=r}else{const t=this.uniformGroups[s]||(this.uniformGroups[s]={});let n=t[a];void 0===n&&(n=new vB(a,o),n.setVisibility(gI[s]),t[a]=n,h.push(n)),i=this.getNodeUniform(r,e),n.addUniform(i)}n.uniformGPU=i}return r}getBuiltin(t,e,s,i=this.shaderStage){const r=this.builtins[i]||(this.builtins[i]=new Map);return!1===r.has(t)&&r.set(t,{name:t,property:e,type:s}),e}getVertexIndex(){return"vertex"===this.shaderStage?this.getBuiltin("vertex_index","vertexIndex","u32","attribute"):"vertexIndex"}buildFunctionCode(t){const e=t.layout,s=this.flowShaderNode(t),i=[];for(const t of e.inputs)i.push(t.name+" : "+this.getType(t.type));return`fn ${e.name}( ${i.join(", ")} ) -> ${this.getType(e.type)} {\n${s.vars}\n${s.code}\n\treturn ${s.result};\n\n}`}getInstanceIndex(){return"vertex"===this.shaderStage?this.getBuiltin("instance_index","instanceIndex","u32","attribute"):"instanceIndex"}getDrawIndex(){return null}getFrontFacing(){return this.getBuiltin("front_facing","isFront","bool")}getFragCoord(){return this.getBuiltin("position","fragCoord","vec4")+".xyz"}getFragDepth(){return"output."+this.getBuiltin("frag_depth","depth","f32","output")}isFlipY(){return!1}getBuiltins(t){const e=[],s=this.builtins[t];if(void 0!==s)for(const{name:t,property:i,type:r}of s.values())e.push(`@builtin( ${t} ) ${i} : ${r}`);return e.join(",\n\t")}getAttributes(t){const e=[];if("compute"===t&&this.getBuiltin("global_invocation_id","id","vec3","attribute"),"vertex"===t||"compute"===t){const t=this.getBuiltins("attribute");t&&e.push(t);const s=this.getAttributesArray();for(let t=0,i=s.length;t`)}const i=this.getBuiltins("output");return i&&e.push(i),e.join(",\n")}getStructs(t){const e=[],s=this.structs[t];for(let t=0,i=s.length;t output : ${r};\n\n`)}return e.join("\n\n")}getVar(t,e){return`var ${e} : ${this.getType(t)}`}getVars(t){const e=[],s=this.vars[t];if(void 0!==s)for(const t of s)e.push(`\t${this.getVar(t.type,t.name)};`);return`\n${e.join("\n")}\n`}getVaryings(t){const e=[];if("vertex"===t&&this.getBuiltin("position","Vertex","vec4","vertex"),"vertex"===t||"fragment"===t){const s=this.varyings,i=this.vars[t];for(let r=0;r";else if(!0===e.isDataArrayTexture)i="texture_2d_array";else if(!0===e.isDepthTexture)i="texture_depth_2d";else if(!0===e.isVideoTexture)i="texture_external";else if(!0===e.isData3DTexture)i="texture_3d";else if(!0===r.node.isStorageTextureNode){i=`texture_storage_2d<${hI(e)}, ${this.getStorageAccess(r.node)}>`}else{i=`texture_2d<${this.getComponentTypeFromTexture(e).charAt(0)}32>`}s.push(`@binding( ${o.binding++} ) @group( ${o.group} ) var ${r.name} : ${i};`)}else if("buffer"===r.type||"storageBuffer"===r.type){const t=r.node,e=this.getType(t.bufferType),s=t.bufferCount,n=s>0?", "+s:"",a=`\t${r.name} : array< ${e}${n} >\n`,h=t.isStorageBufferNode?`storage, ${this.getStorageAccess(t)}`:"uniform";i.push(this._getWGSLStructBinding("NodeBuffer_"+t.id,a,h,o.binding++,o.group))}else{const t=this.getType(this.getVectorType(r.type)),e=r.groupNode.name;(n[e]||(n[e]={index:o.binding++,id:o.group,snippets:[]})).snippets.push(`\t${r.name} : ${t}`)}}for(const t in n){const e=n[t];r.push(this._getWGSLStructBinding(t,e.snippets.join(",\n"),"uniform",e.index,e.id))}let o=s.join("\n");return o+=i.join("\n"),o+=r.join("\n"),o}buildCode(){const t=null!==this.material?{fragment:{},vertex:{}}:{compute:{}};for(const e in t){const s=t[e];s.uniforms=this.getUniforms(e),s.attributes=this.getAttributes(e),s.varyings=this.getVaryings(e),s.structs=this.getStructs(e),s.vars=this.getVars(e),s.codes=this.getCodes(e);let i="// code\n\n";i+=this.flowCode[e];const r=this.flowNodes[e],n=r[r.length-1],o=n.outputNode,a=void 0!==o&&!0===o.isOutputStructNode;for(const t of r){const r=this.getFlowData(t),h=t.name;if(h&&(i.length>0&&(i+="\n"),i+=`\t// flow -> ${h}\n\t`),i+=`${r.code}\n\t`,t===n&&"compute"!==e)if(i+="// result\n\n\t","vertex"===e)i+=`varyings.Vertex = ${r.result};`;else if("fragment"===e)if(a)s.returnType=o.nodeType,i+=`return ${r.result};`;else{let t="\t@location(0) color: vec4";const e=this.getBuiltins("output");e&&(t+=",\n\t"+e),s.returnType="OutputStruct",s.structs+=this._getWGSLStruct("OutputStruct",t),s.structs+="\nvar output : OutputStruct;\n\n",i+=`output.color = ${r.result};\n\n\treturn output;`}}s.flow=i}null!==this.material?(this.vertexShader=this._getWGSLVertexCode(t.vertex),this.fragmentShader=this._getWGSLFragmentCode(t.fragment)):this.computeShader=this._getWGSLComputeCode(t.compute,(this.object.workgroupSize||[64]).join(", "))}getMethod(t,e=null){let s;return null!==e&&(s=this._getWGSLMethod(t+"_"+e)),void 0===s&&(s=this._getWGSLMethod(t)),s||t}getType(t){return xI[t]||t}isAvailable(t){let e=fI[t];return void 0===e&&("float32Filterable"===t&&(e=this.renderer.hasFeature("float32-filterable")),fI[t]=e),e}_getWGSLMethod(t){return void 0!==vI[t]&&this._include(t),bI[t]}_include(t){const e=vI[t];return e.build(this),null!==this.currentFunctionNode&&this.currentFunctionNode.includes.push(e),e}_getWGSLVertexCode(t){return`${this.getSignature()}\n\n// uniforms\n${t.uniforms}\n\n// varyings\n${t.varyings}\nvar varyings : VaryingsStruct;\n\n// codes\n${t.codes}\n\n@vertex\nfn main( ${t.attributes} ) -> VaryingsStruct {\n\n\t// vars\n\t${t.vars}\n\n\t// flow\n\t${t.flow}\n\n\treturn varyings;\n\n}\n`}_getWGSLFragmentCode(t){return`${this.getSignature()}\n\n// uniforms\n${t.uniforms}\n\n// structs\n${t.structs}\n\n// codes\n${t.codes}\n\n@fragment\nfn main( ${t.varyings} ) -> ${t.returnType} {\n\n\t// vars\n\t${t.vars}\n\n\t// flow\n\t${t.flow}\n\n}\n`}_getWGSLComputeCode(t,e){return`${this.getSignature()}\n// system\nvar instanceIndex : u32;\n\n// uniforms\n${t.uniforms}\n\n// codes\n${t.codes}\n\n@compute @workgroup_size( ${e} )\nfn main( ${t.attributes} ) {\n\n\t// system\n\tinstanceIndex = id.x;\n\n\t// vars\n\t${t.vars}\n\n\t// flow\n\t${t.flow}\n\n}\n`}_getWGSLStruct(t,e){return`\nstruct ${t} {\n${e}\n};`}_getWGSLStructBinding(t,e,s,i=0,r=0){const n=t+"Struct";return`${this._getWGSLStruct(n,e)}\n@binding( ${i} ) @group( ${r} )\nvar<${s}> ${t} : ${n};`}}class _I{constructor(t){this.backend=t}getCurrentDepthStencilFormat(t){let e;return null!==t.depthTexture?e=this.getTextureFormatGPU(t.depthTexture):t.depth&&t.stencil?e=HS.Depth24PlusStencil8:t.depth&&(e=HS.Depth24Plus),e}getTextureFormatGPU(t){return this.backend.get(t).texture.format}getCurrentColorFormat(t){let e;return e=null!==t.textures?this.getTextureFormatGPU(t.textures[0]):HS.BGRA8Unorm,e}getCurrentColorSpace(t){return null!==t.textures?t.textures[0].colorSpace:this.backend.renderer.outputColorSpace}getPrimitiveTopology(t,e){return t.isPoints?wS:t.isLineSegments||t.isMesh&&!0===e.wireframe?SS:t.isLine?MS:t.isMesh?AS:void 0}getSampleCount(t){return null!==t.textures?t.sampleCount:this.backend.parameters.sampleCount}}const wI=new Map([[Int8Array,["sint8","snorm8"]],[Uint8Array,["uint8","unorm8"]],[Int16Array,["sint16","snorm16"]],[Uint16Array,["uint16","unorm16"]],[Int32Array,["sint32","snorm32"]],[Uint32Array,["uint32","unorm32"]],[Float32Array,["float32"]]]),SI=new Map([[mn,["float16"]]]),MI=new Map([[Int32Array,"sint32"],[Int16Array,"sint32"],[Uint32Array,"uint32"],[Uint16Array,"uint32"],[Float32Array,"float32"]]);class AI{constructor(t){this.backend=t}createAttribute(t,e){const s=this._getBufferAttribute(t),i=this.backend,r=i.get(s);let n=r.buffer;if(void 0===n){const o=i.device;let a=s.array;if(!1===t.normalized&&(a.constructor===Int16Array||a.constructor===Uint16Array)){const t=new Uint32Array(a.length);for(let e=0;e1&&(e=Math.pow(2,Math.floor(Math.log2(e))),2===e&&(e=4)),e}createRenderPipeline(t,e){const{object:s,material:i,geometry:r,pipeline:n}=t,{vertexProgram:o,fragmentProgram:a}=n,h=this.backend,l=h.device,u=h.utils,c=h.get(n),d=[];for(const e of t.getBindings()){const t=h.get(e);d.push(t.layout)}const p=h.attributeUtils.createShaderVertexBuffers(t);let g;!0===i.transparent&&i.blending!==m&&(g=this._getBlending(i));let f={};!0===i.stencilWrite&&(f={compare:this._getStencilCompare(i),failOp:this._getStencilOperation(i.stencilFail),depthFailOp:this._getStencilOperation(i.stencilZFail),passOp:this._getStencilOperation(i.stencilZPass)});const y=this._getColorWriteMask(i),x=[];if(null!==t.context.textures){const e=t.context.textures;for(let t=0;t{l.createRenderPipelineAsync(M).then((e=>{c.pipeline=e,t()}))}));e.push(t)}}createBundleEncoder(t,e){const s=this.backend,{utils:i,device:r}=s,n=s.get(t),o=s.get(e),a=i.getCurrentDepthStencilFormat(t),h={label:"renderBundleEncoder",colorFormats:[i.getCurrentColorFormat(t)],depthStencilFormat:a,sampleCount:this._getSampleCount(e.context)},l=r.createRenderBundleEncoder(h);return o.bundleEncoder=l,n.currentSets={attributes:{}},n._renderBundleViewport=t.width+"_"+t.height,l}createComputePipeline(t,e){const s=this.backend,i=s.device,r=s.get(t.computeProgram).module,n=s.get(t),o=[];for(const t of e){const e=s.get(t);o.push(e.layout)}n.pipeline=i.createComputePipeline({compute:r,layout:i.createPipelineLayout({bindGroupLayouts:o})})}_getBlending(t){let e,s;const i=t.blending,r=t.blendSrc,n=t.blendDst,o=t.blendEquation;if(5===i){const i=null!==t.blendSrcAlpha?t.blendSrcAlpha:r,a=null!==t.blendDstAlpha?t.blendDstAlpha:n,h=null!==t.blendEquationAlpha?t.blendEquationAlpha:o;e={srcFactor:this._getBlendFactor(r),dstFactor:this._getBlendFactor(n),operation:this._getBlendOperation(o)},s={srcFactor:this._getBlendFactor(i),dstFactor:this._getBlendFactor(a),operation:this._getBlendOperation(h)}}else{const r=(t,i,r,n)=>{e={srcFactor:t,dstFactor:i,operation:uM},s={srcFactor:r,dstFactor:n,operation:uM}};if(t.premultipliedAlpha)switch(i){case 1:r(eM,sM,QS,sM);break;case 2:r(eM,QS,QS,QS);break;case 3:r(ZS,tM,ZS,QS);break;case 4:r(ZS,KS,ZS,eM)}else switch(i){case 1:r(eM,sM,QS,sM);break;case 2:r(eM,QS,eM,QS);break;case 3:r(ZS,tM,ZS,QS);break;case 4:r(ZS,KS,ZS,KS)}}if(void 0!==e&&void 0!==s)return{color:e,alpha:s};console.error("THREE.WebGPURenderer: Invalid blending: ",i)}_getBlendFactor(t){let e;switch(t){case 200:e=ZS;break;case 201:e=QS;break;case 202:e=KS;break;case 203:e=tM;break;case C:e=eM;break;case E:e=sM;break;case 208:e=iM;break;case 209:e=rM;break;case 206:e=nM;break;case 207:e=oM;break;case 210:e=aM;break;case 211:e=hM;break;case 212:e=lM;break;default:console.error("THREE.WebGPURenderer: Blend factor not supported.",t)}return e}_getStencilCompare(t){let e;const s=t.stencilFunc;switch(s){case 512:e=RS;break;case ys:e=US;break;case 513:e=CS;break;case 515:e=BS;break;case 514:e=ES;break;case 518:e=FS;break;case 516:e=IS;break;case 517:e=PS;break;default:console.error("THREE.WebGPURenderer: Invalid stencil function.",s)}return e}_getStencilOperation(t){let e;switch(t){case is:e=yM;break;case 0:e=xM;break;case 7681:e=bM;break;case 5386:e=vM;break;case 7682:e=TM;break;case 7683:e=_M;break;case 34055:e=wM;break;case 34056:e=SM;break;default:console.error("THREE.WebGPURenderer: Invalid stencil operation.",e)}return e}_getBlendOperation(t){let e;switch(t){case v:e=uM;break;case 101:e=cM;break;case 102:e=dM;break;case 103:e=pM;break;case 104:e=mM;break;default:console.error("THREE.WebGPUPipelineUtils: Blend equation not supported.",t)}return e}_getPrimitiveState(t,e,s){const i={},r=this.backend.utils;switch(i.topology=r.getPrimitiveTopology(t,s),null!==e.index&&!0===t.isLine&&!0!==t.isLineSegments&&(i.stripIndexFormat=e.index.array instanceof Uint16Array?WS:jS),s.side){case c:i.frontFace=VS,i.cullMode=GS;break;case d:i.frontFace=VS,i.cullMode=kS;break;case 2:i.frontFace=VS,i.cullMode=DS;break;default:console.error("THREE.WebGPUPipelineUtils: Unknown material.side value.",s.side)}return i}_getColorWriteMask(t){return!0===t.colorWrite?fM:gM}_getDepthCompare(t){let e;if(!1===t.depthTest)e=US;else{const s=t.depthFunc;switch(s){case 0:e=RS;break;case 1:e=US;break;case 2:e=CS;break;case 3:e=BS;break;case 4:e=ES;break;case 5:e=FS;break;case 6:e=IS;break;case 7:e=PS;break;default:console.error("THREE.WebGPUPipelineUtils: Invalid depth function.",s)}}return e}}class CI extends FB{constructor(t={}){super(t),this.isWebGPUBackend=!0,this.parameters.alpha=void 0===t.alpha||t.alpha,this.parameters.antialias=!0===t.antialias,!0===this.parameters.antialias?this.parameters.sampleCount=void 0===t.sampleCount?4:t.sampleCount:this.parameters.sampleCount=1,this.parameters.requiredLimits=void 0===t.requiredLimits?{}:t.requiredLimits,this.trackTimestamp=!0===t.trackTimestamp,this.device=null,this.context=null,this.colorBuffer=null,this.defaultRenderPassdescriptor=null,this.utils=new _I(this),this.attributeUtils=new AI(this),this.bindingUtils=new NI(this),this.pipelineUtils=new RI(this),this.textureUtils=new aI(this),this.occludedResolveCache=new Map}async init(t){await super.init(t);const e=this.parameters;let s;if(void 0===e.device){const t={powerPreference:e.powerPreference},i=await navigator.gpu.requestAdapter(t);if(null===i)throw new Error("WebGPUBackend: Unable to create WebGPU adapter.");const r=Object.values(GM),n=[];for(const t of r)i.features.has(t)&&n.push(t);const o={requiredFeatures:n,requiredLimits:e.requiredLimits};s=await i.requestDevice(o)}else s=e.device;const i=void 0!==e.context?e.context:t.domElement.getContext("webgpu");this.device=s,this.context=i;const r=e.alpha?"premultiplied":"opaque";this.context.configure({device:this.device,format:HS.BGRA8Unorm,usage:GPUTextureUsage.RENDER_ATTACHMENT|GPUTextureUsage.COPY_SRC,alphaMode:r}),this.updateSize()}get coordinateSystem(){return Ls}async getArrayBufferAsync(t){return await this.attributeUtils.getArrayBufferAsync(t)}getContext(){return this.context}_getDefaultRenderPassDescriptor(){let t=this.defaultRenderPassdescriptor;const e=this.parameters.antialias;if(null===t){const s=this.renderer;t={colorAttachments:[{view:null}],depthStencilAttachment:{view:this.textureUtils.getDepthBuffer(s.depth,s.stencil).createView()}};const i=t.colorAttachments[0];!0===e?i.view=this.colorBuffer.createView():i.resolveTarget=void 0,this.defaultRenderPassdescriptor=t}const s=t.colorAttachments[0];return!0===e?s.resolveTarget=this.context.getCurrentTexture().createView():s.view=this.context.getCurrentTexture().createView(),t}_getRenderPassDescriptor(t){const e=t.renderTarget,s=this.get(e);let i=s.descriptors;void 0===i&&(i=[],s.descriptors=i),s.width===e.width&&s.height===e.height&&s.activeMipmapLevel===e.activeMipmapLevel&&s.samples===e.samples||(i.length=0);let r=i[t.activeCubeFace];if(void 0===r){const n=t.textures,o=[];for(let e=0;e0&&(e.currentOcclusionQuerySet&&e.currentOcclusionQuerySet.destroy(),e.currentOcclusionQueryBuffer&&e.currentOcclusionQueryBuffer.destroy(),e.currentOcclusionQuerySet=e.occlusionQuerySet,e.currentOcclusionQueryBuffer=e.occlusionQueryBuffer,e.currentOcclusionQueryObjects=e.occlusionQueryObjects,r=s.createQuerySet({type:"occlusion",count:i}),e.occlusionQuerySet=r,e.occlusionQueryIndex=0,e.occlusionQueryObjects=new Array(i),e.lastOcclusionObject=null),n=null===t.textures?this._getDefaultRenderPassDescriptor():this._getRenderPassDescriptor(t),this.initTimestampQuery(t,n),n.occlusionQuerySet=r;const o=n.depthStencilAttachment;if(null!==t.textures){const e=n.colorAttachments;for(let s=0;s0&&(e.registerBundlesPhase=!1,e.currentPass.executeBundles(e.renderBundles)),s>e.occlusionQueryIndex&&e.currentPass.endOcclusionQuery(),e.currentPass.end(),s>0){const i=8*s;let r=this.occludedResolveCache.get(i);void 0===r&&(r=this.device.createBuffer({size:i,usage:GPUBufferUsage.QUERY_RESOLVE|GPUBufferUsage.COPY_SRC}),this.occludedResolveCache.set(i,r));const n=this.device.createBuffer({size:i,usage:GPUBufferUsage.COPY_DST|GPUBufferUsage.MAP_READ});e.encoder.resolveQuerySet(e.occlusionQuerySet,0,s,r,0),e.encoder.copyBufferToBuffer(r,0,n,0,i),e.occlusionQueryBuffer=n,this.resolveOccludedAsync(t)}if(this.prepareTimestampBuffer(t,e.encoder),this.device.queue.submit([e.encoder.finish()]),null!==t.textures){const e=t.textures;for(let t=0;t1?0:s;g.drawIndexed(e[s]/n,i,t[s]/4,0,o)}}else if(!0===y){const t=b.count!==1/0?b.count:f.count;g.drawIndexed(t,T,v,0,0),e.update(s,t,T)}else{const t=i.attributes.position,r=b.count!==1/0?b.count:t.count;g.draw(r,T,v,0),e.update(s,r,T)}if(this.renderer._currentRenderBundle){const t=g.finish();u.lastPipelineGPU=h,u.renderBundle=t,u.bundleEncoder=g}}}needsRenderUpdate(t){const e=this.get(t),{object:s,material:i}=t,r=this.utils,n=r.getSampleCount(t.context),o=r.getCurrentColorSpace(t.context),a=r.getCurrentColorFormat(t.context),h=r.getCurrentDepthStencilFormat(t.context),l=r.getPrimitiveTopology(s,i);let u=!1;return e.material===i&&e.materialVersion===i.version&&e.transparent===i.transparent&&e.blending===i.blending&&e.premultipliedAlpha===i.premultipliedAlpha&&e.blendSrc===i.blendSrc&&e.blendDst===i.blendDst&&e.blendEquation===i.blendEquation&&e.blendSrcAlpha===i.blendSrcAlpha&&e.blendDstAlpha===i.blendDstAlpha&&e.blendEquationAlpha===i.blendEquationAlpha&&e.colorWrite===i.colorWrite&&e.depthWrite===i.depthWrite&&e.depthTest===i.depthTest&&e.depthFunc===i.depthFunc&&e.stencilWrite===i.stencilWrite&&e.stencilFunc===i.stencilFunc&&e.stencilFail===i.stencilFail&&e.stencilZFail===i.stencilZFail&&e.stencilZPass===i.stencilZPass&&e.stencilFuncMask===i.stencilFuncMask&&e.stencilWriteMask===i.stencilWriteMask&&e.side===i.side&&e.alphaToCoverage===i.alphaToCoverage&&e.sampleCount===n&&e.colorSpace===o&&e.colorFormat===a&&e.depthStencilFormat===h&&e.primitiveTopology===l&&e.clippingContextVersion===t.clippingContextVersion||(e.material=i,e.materialVersion=i.version,e.transparent=i.transparent,e.blending=i.blending,e.premultipliedAlpha=i.premultipliedAlpha,e.blendSrc=i.blendSrc,e.blendDst=i.blendDst,e.blendEquation=i.blendEquation,e.blendSrcAlpha=i.blendSrcAlpha,e.blendDstAlpha=i.blendDstAlpha,e.blendEquationAlpha=i.blendEquationAlpha,e.colorWrite=i.colorWrite,e.depthWrite=i.depthWrite,e.depthTest=i.depthTest,e.depthFunc=i.depthFunc,e.stencilWrite=i.stencilWrite,e.stencilFunc=i.stencilFunc,e.stencilFail=i.stencilFail,e.stencilZFail=i.stencilZFail,e.stencilZPass=i.stencilZPass,e.stencilFuncMask=i.stencilFuncMask,e.stencilWriteMask=i.stencilWriteMask,e.side=i.side,e.alphaToCoverage=i.alphaToCoverage,e.sampleCount=n,e.colorSpace=o,e.colorFormat=a,e.depthStencilFormat=h,e.primitiveTopology=l,e.clippingContextVersion=t.clippingContextVersion,u=!0),u}getRenderCacheKey(t){const{object:e,material:s}=t,i=this.utils,r=t.context;return[s.transparent,s.blending,s.premultipliedAlpha,s.blendSrc,s.blendDst,s.blendEquation,s.blendSrcAlpha,s.blendDstAlpha,s.blendEquationAlpha,s.colorWrite,s.depthWrite,s.depthTest,s.depthFunc,s.stencilWrite,s.stencilFunc,s.stencilFail,s.stencilZFail,s.stencilZPass,s.stencilFuncMask,s.stencilWriteMask,s.side,i.getSampleCount(r),i.getCurrentColorSpace(r),i.getCurrentColorFormat(r),i.getCurrentDepthStencilFormat(r),i.getPrimitiveTopology(e,s),t.clippingContextVersion].join()}createSampler(t){this.textureUtils.createSampler(t)}destroySampler(t){this.textureUtils.destroySampler(t)}createDefaultTexture(t){this.textureUtils.createDefaultTexture(t)}createTexture(t,e){this.textureUtils.createTexture(t,e)}updateTexture(t,e){this.textureUtils.updateTexture(t,e)}generateMipmaps(t){this.textureUtils.generateMipmaps(t)}destroyTexture(t){this.textureUtils.destroyTexture(t)}copyTextureToBuffer(t,e,s,i,r){return this.textureUtils.copyTextureToBuffer(t,e,s,i,r)}initTimestampQuery(t,e){if(!this.hasFeature(GM.TimestampQuery)||!this.trackTimestamp)return;const s=this.get(t);if(!s.timeStampQuerySet){const t=this.device.createQuerySet({type:"timestamp",count:2}),i={querySet:t,beginningOfPassWriteIndex:0,endOfPassWriteIndex:1};Object.assign(e,{timestampWrites:i}),s.timeStampQuerySet=t}}prepareTimestampBuffer(t,e){if(!this.hasFeature(GM.TimestampQuery)||!this.trackTimestamp)return;const s=this.get(t),i=2*BigInt64Array.BYTES_PER_ELEMENT;void 0===s.currentTimestampQueryBuffers&&(s.currentTimestampQueryBuffers={resolveBuffer:this.device.createBuffer({label:"timestamp resolve buffer",size:i,usage:GPUBufferUsage.QUERY_RESOLVE|GPUBufferUsage.COPY_SRC}),resultBuffer:this.device.createBuffer({label:"timestamp result buffer",size:i,usage:GPUBufferUsage.COPY_DST|GPUBufferUsage.MAP_READ}),isMappingPending:!1});const{resolveBuffer:r,resultBuffer:n,isMappingPending:o}=s.currentTimestampQueryBuffers;!0!==o&&(e.resolveQuerySet(s.timeStampQuerySet,0,2,r,0),e.copyBufferToBuffer(r,0,n,0,i))}async resolveTimestampAsync(t,e="render"){if(!this.hasFeature(GM.TimestampQuery)||!this.trackTimestamp)return;const s=this.get(t);if(void 0===s.currentTimestampQueryBuffers)return;const{resultBuffer:i,isMappingPending:r}=s.currentTimestampQueryBuffers;!0!==r&&(s.currentTimestampQueryBuffers.isMappingPending=!0,i.mapAsync(GPUMapMode.READ).then((()=>{const t=new BigUint64Array(i.getMappedRange()),r=Number(t[1]-t[0])/1e6;this.renderer.info.updateTimestamp(e,r),i.unmap(),s.currentTimestampQueryBuffers.isMappingPending=!1})))}createNodeBuilder(t,e){return new TI(t,e)}createProgram(t){this.get(t).module={module:this.device.createShaderModule({code:t.code,label:t.stage}),entryPoint:"main"}}destroyProgram(t){this.delete(t)}createRenderPipeline(t,e){this.pipelineUtils.createRenderPipeline(t,e)}createComputePipeline(t,e){this.pipelineUtils.createComputePipeline(t,e)}createBundleEncoder(t,e){return this.pipelineUtils.createBundleEncoder(t,e)}createBindings(t){this.bindingUtils.createBindings(t)}updateBindings(t){this.bindingUtils.createBindings(t)}updateBinding(t){this.bindingUtils.updateBinding(t)}createIndexAttribute(t){this.attributeUtils.createAttribute(t,GPUBufferUsage.INDEX|GPUBufferUsage.COPY_SRC|GPUBufferUsage.COPY_DST)}createAttribute(t){this.attributeUtils.createAttribute(t,GPUBufferUsage.VERTEX|GPUBufferUsage.COPY_SRC|GPUBufferUsage.COPY_DST)}createStorageAttribute(t){this.attributeUtils.createAttribute(t,GPUBufferUsage.STORAGE|GPUBufferUsage.VERTEX|GPUBufferUsage.COPY_SRC|GPUBufferUsage.COPY_DST)}updateAttribute(t){this.attributeUtils.updateAttribute(t)}destroyAttribute(t){this.attributeUtils.destroyAttribute(t)}updateSize(){this.colorBuffer=this.textureUtils.getColorBuffer(),this.defaultRenderPassdescriptor=null}getMaxAnisotropy(){return 16}hasFeature(t){return this.device.features.has(t)}copyTextureToTexture(t,e,s=null,i=null,r=0){let n=0,o=0,a=0,h=0,l=t.image.width,u=t.image.height;null!==s&&(a=s.x,h=s.y,l=s.width,u=s.height),null!==i&&(n=i.x,o=i.y);const c=this.device.createCommandEncoder({label:"copyTextureToTexture_"+t.id+"_"+e.id}),d=this.get(t).texture,p=this.get(e).texture;c.copyTextureToTexture({texture:d,mipLevel:r,origin:{x:a,y:h,z:0}},{texture:p,mipLevel:r,origin:{x:n,y:o,z:0}},[l,u]),this.device.queue.submit([c.finish()])}copyFramebufferToTexture(t,e){const s=this.get(e),{encoder:i,descriptor:r}=s;let n=null;n=e.renderTarget?t.isDepthTexture?this.get(e.depthTexture).texture:this.get(e.textures[0]).texture:t.isDepthTexture?this.textureUtils.getDepthBuffer(e.depth,e.stencil):this.context.getCurrentTexture();const o=this.get(t).texture;n.format===o.format?(s.currentPass.end(),i.copyTextureToTexture({texture:n,origin:{x:0,y:0,z:0}},{texture:o},[t.image.width,t.image.height]),t.generateMipmaps&&this.textureUtils.generateMipmaps(t),r.colorAttachments[0].loadOp=zS,e.depth&&(r.depthStencilAttachment.depthLoadOp=zS),e.stencil&&(r.depthStencilAttachment.stencilLoadOp=zS),s.currentPass=i.beginRenderPass(r),s.currentSets={attributes:{}}):console.error("WebGPUBackend: copyFramebufferToTexture: Source and destination formats do not match.",n.format,o.format)}}class EI extends dB{constructor(t={}){let e;t.forceWebGL?e=QB:xd.isAvailable()?e=CI:(e=QB,console.warn("THREE.WebGPURenderer: WebGPU is not available, running under WebGL2 backend."));super(new e(t),t),this.isWebGPURenderer=!0}}const BI=new KA(new $T);class II{constructor(t,e=gm(0,0,1,1)){this.renderer=t,this.outputNode=e}render(){BI.material.fragmentNode=this.outputNode,BI.render(this.renderer)}renderAsync(){return BI.material.fragmentNode=this.outputNode,BI.renderAsync(this.renderer)}set needsUpdate(t){BI.material.needsUpdate=t}}class PI extends bi{constructor(t=1,e=1){super(),this.image={width:t,height:e},this.magFilter=Tt,this.minFilter=Tt,this.isStorageTexture=!0}}class FI extends on{constructor(t,e,s=Float32Array){!1===ArrayBuffer.isView(t)&&(t=new s(t*e)),super(t,e),this.isStorageBufferAttribute=!0}}class UI extends Go{constructor(t,e,s=Float32Array){!1===ArrayBuffer.isView(t)&&(t=new s(t*e)),super(t,e),this.isStorageInstancedBufferAttribute=!0}}"undefined"!=typeof __THREE_DEVTOOLS__&&__THREE_DEVTOOLS__.dispatchEvent(new CustomEvent("register",{detail:{revision:t}})),"undefined"!=typeof window&&(window.__THREE__?console.warn("WARNING: Multiple instances of Three.js being imported."):window.__THREE__=t);export{et as ACESFilmicToneMapping,Mv as AONode,v as AddEquation,J as AddOperation,Ve as AdditiveAnimationBlendMode,f as AdditiveBlending,oN as AfterImageNode,it as AgXToneMapping,Lt as AlphaFormat,Ms as AlwaysCompare,k as AlwaysDepth,ys as AlwaysStencilFunc,Cu as AmbientLight,KN as AmbientLightNode,bv as AnalyticLightNode,lN as AnamorphicNode,bc as AnimationAction,Ql as AnimationClip,au as AnimationLoader,Tc as AnimationMixer,xc as AnimationObjectGroup,Vl as AnimationUtils,th as ArcCurve,Yu as ArrayCamera,up as ArrayElementNode,pd as ArrowHelper,Om as AssignNode,nt as AttachedBindMode,Dm as AttributeNode,ic as Audio,lc as AudioAnalyser,Wu as AudioContext,sc as AudioListener,ju as AudioLoader,md as AxesHelper,PR as BRDF_GGX,xR as BRDF_Lambert,d as BackSide,We as BasicDepthPacking,a as BasicShadowMap,Kb as BatchNode,_a as BatchedMesh,rA as BlendModeNode,zo as Bone,Hl as BooleanKeyframeTrack,Fc as Box2,Bi as Box3,hd as Box3Helper,Wn as BoxGeometry,ad as BoxHelper,av as Break,on as BufferAttribute,Db as BufferAttributeNode,wn as BufferGeometry,Ou as BufferGeometryLoader,ix as BufferNode,cA as BumpMapNode,Gm as BypassNode,Nt as ByteType,tu as Cache,jm as CacheNode,qn as Camera,rd as CameraHelper,Ja as CanvasTexture,Th as CapsuleGeometry,oh as CatmullRomCurve3,sR as CheckerNode,tt as CineonToneMapping,_h as CircleGeometry,mt as ClampToEdgeWrapping,Ju as Clock,Gg as CodeNode,$r as Color,fA as ColorAdjustmentNode,ql as ColorKeyframeTrack,ui as ColorManagement,Wy as ColorSpaceNode,Xa as CompressedArrayTexture,Ya as CompressedCubeTexture,$a as CompressedTexture,hu as CompressedTextureLoader,VN as ComputeNode,Vv as CondNode,Sh as ConeGeometry,yp as ConstNode,L as ConstantAlphaFactor,O as ConstantColorFactor,qm as ContextNode,ov as Continue,cp as ConvertNode,Qn as CubeCamera,ht as CubeReflectionMapping,lt as CubeRefractionMapping,Kn as CubeTexture,uu as CubeTextureLoader,gv as CubeTextureNode,dt as CubeUVReflectionMapping,uh as CubicBezierCurve,ch as CubicBezierCurve3,kl as CubicInterpolant,r as CullFaceBack,n as CullFaceFront,o as CullFaceFrontBack,i as CullFaceNone,Qa as Curve,xh as CurvePath,b as CustomBlending,st as CustomToneMapping,wh as CylinderGeometry,Ic as Cylindrical,FR as DFGApprox,ER as D_GGX,Mi as Data3DTexture,wi as DataArrayTexture,Lo as DataTexture,cu as DataTextureLoader,sn as DataUtils,os as DecrementStencilOp,hs as DecrementWrapStencilOp,su as DefaultLoadingManager,Wt as DepthFormat,pN as DepthOfFieldNode,jt as DepthStencilFormat,Za as DepthTexture,ot as DetachedBindMode,Ru as DirectionalLight,ed as DirectionalLightHelper,HN as DirectionalLightNode,rw as DiscardNode,Wl as DiscreteInterpolant,Je as DisplayP3ColorSpace,Ah as DodecahedronGeometry,fN as DotScreenNode,p as DoubleSide,B as DstAlphaFactor,P as DstColorFactor,Ps as DynamicCopyUsage,Ns as DynamicDrawUsage,Es as DynamicReadUsage,If as EPSILON,Bh as EdgesGeometry,Ka as EllipseCurve,dT as EnvironmentNode,vs as EqualCompare,j as EqualDepth,ds as EqualStencilFunc,p_ as EquirectUVNode,ut as EquirectangularReflectionMapping,ct as EquirectangularRefractionMapping,mr as Euler,Vs as EventDispatcher,Yy as ExpressionNode,al as ExtrudeGeometry,yR as F_Schlick,ou as FileLoader,mn as Float16BufferAttribute,gn as Float32BufferAttribute,It as FloatType,so as Fog,eo as FogExp2,PN as FogExp2Node,CN as FogNode,BN as FogRangeNode,qa as FramebufferTexture,WT as FrontFacingNode,c as FrontSide,ia as Frustum,vN as FunctionCallNode,$g as FunctionNode,hw as FunctionOverloadingNode,Ac as GLBufferAttribute,Us as GLSL1,Os as GLSL3,PC as GLSLNodeParser,sN as GaussianBlurNode,_s as GreaterCompare,q as GreaterDepth,Ss as GreaterEqualCompare,H as GreaterEqualDepth,fs as GreaterEqualStencilFunc,ms as GreaterStencilFunc,Jc as GridHelper,ja as Group,Pt as HalfFloatType,X_ as HashNode,mu as HemisphereLight,Yc as HemisphereLightHelper,tR as HemisphereLightNode,ZN as IESSpotLight,QN as IESSpotLightNode,Pf as INFINITY,ll as IcosahedronGeometry,tm as If,ku as ImageBitmapLoader,lu as ImageLoader,mi as ImageUtils,ns as IncrementStencilOp,as as IncrementWrapStencilOp,Ym as IndexNode,Hb as InstanceNode,Go as InstancedBufferAttribute,Uu as InstancedBufferGeometry,Mc as InstancedInterleavedBuffer,Jo as InstancedMesh,oR as InstancedPointsNodeMaterial,un as Int16BufferAttribute,dn as Int32BufferAttribute,an as Int8BufferAttribute,Et as IntType,ro as InterleavedBuffer,oo as InterleavedBufferAttribute,Dl as Interpolant,Ie as InterpolateDiscrete,Pe as InterpolateLinear,Fe as InterpolateSmooth,ls as InvertStencilOp,gT as IrradianceNode,dp as JoinNode,is as KeepStencilOp,jl as KeyframeTrack,Ao as LOD,vh as LatheGeometry,gr as Layers,bs as LessCompare,G as LessDepth,Ts as LessEqualCompare,W as LessEqualDepth,ps as LessEqualStencilFunc,cs as LessStencilFunc,pu as Light,kN as LightNode,Iu as LightProbe,Av as LightingContextNode,Km as LightingModel,yv as LightingNode,Tv as LightsNode,Ba as Line,dR as Line2NodeMaterial,zc as Line3,wa as LineBasicMaterial,hR as LineBasicNodeMaterial,dh as LineCurve,ph as LineCurve3,Pl as LineDashedMaterial,uR as LineDashedNodeMaterial,Oa as LineLoop,Ua as LineSegments,Ze as LinearDisplayP3ColorSpace,Tt as LinearFilter,Gl as LinearInterpolant,Mt as LinearMipMapLinearFilter,wt as LinearMipMapNearestFilter,St as LinearMipmapLinearFilter,_t as LinearMipmapNearestFilter,Ye as LinearSRGBColorSpace,Q as LinearToneMapping,Qe as LinearTransfer,iu as Loader,Fu as LoaderUtils,eu as LoadingManager,rv as LoopNode,Ce as LoopOnce,Be as LoopPingPong,Ee as LoopRepeat,Gt as LuminanceAlphaFormat,kt as LuminanceFormat,e as MOUSE,cw as MatcapUVNode,Jr as Material,Pu as MaterialLoader,Yx as MaterialNode,dx as MaterialReferenceNode,Bf as MathNode,Js as MathUtils,Qs as Matrix3,rr as Matrix4,S as MaxEquation,Zy as MaxMipLevelNode,kn as Mesh,Zr as MeshBasicMaterial,fR as MeshBasicNodeMaterial,El as MeshDepthMaterial,Bl as MeshDistanceMaterial,Cl as MeshLambertMaterial,wR as MeshLambertNodeMaterial,Il as MeshMatcapMaterial,gC as MeshMatcapNodeMaterial,Rl as MeshNormalMaterial,mR as MeshNormalNodeMaterial,Al as MeshPhongMaterial,MR as MeshPhongNodeMaterial,Ml as MeshPhysicalMaterial,aC as MeshPhysicalNodeMaterial,lC as MeshSSSNodeMaterial,Sl as MeshStandardMaterial,nC as MeshStandardNodeMaterial,Nl as MeshToonMaterial,pC as MeshToonNodeMaterial,w as MinEquation,gt as MirroredRepeatWrapping,Y as MixOperation,Ix as ModelNode,Lb as ModelViewProjectionNode,cv as MorphNode,x as MultiplyBlending,X as MultiplyOperation,ft as NearestFilter,vt as NearestMipMapLinearFilter,xt as NearestMipMapNearestFilter,bt as NearestMipmapLinearFilter,yt as NearestMipmapNearestFilter,rt as NeutralToneMapping,xs as NeverCompare,D as NeverDepth,us as NeverStencilFunc,m as NoBlending,$e as NoColorSpace,Z as NoToneMapping,op as Node,sg as NodeAttribute,G_ as NodeBuilder,lg as NodeCache,og as NodeCode,W_ as NodeFrame,j_ as NodeFunctionInput,ag as NodeKeywords,rR as NodeLoader,$T as NodeMaterial,MC as NodeMaterialLoader,AC as NodeObjectLoader,jd as NodeShaderStage,qd as NodeType,ig as NodeUniform,Hd as NodeUpdateType,ip as NodeUtils,rg as NodeVar,ng as NodeVarying,Le as NormalAnimationBlendMode,g as NormalBlending,SA as NormalMapNode,ws as NotEqualCompare,$ as NotEqualDepth,gs as NotEqualStencilFunc,$l as NumberKeyframeTrack,Br as Object3D,Sx as Object3DNode,zu as ObjectLoader,qe as ObjectSpaceNormalMap,ul as OctahedronGeometry,A as OneFactor,V as OneMinusConstantAlphaFactor,z as OneMinusConstantColorFactor,I as OneMinusDstAlphaFactor,F as OneMinusDstColorFactor,E as OneMinusSrcAlphaFactor,R as OneMinusSrcColorFactor,lf as OperatorNode,Au as OrthographicCamera,xw as OscNode,q_ as OutputStructNode,es as P3Primaries,h as PCFShadowMap,l as PCFSoftShadowMap,Ff as PI,Uf as PI2,E_ as PMREMGenerator,lT as PMREMNode,ww as PackingNode,Dg as ParameterNode,$A as PassNode,bh as Path,Jn as PerspectiveCamera,TR as PhongLightingModel,iC as PhysicalLightingModel,ta as Plane,cl as PlaneGeometry,ld as PlaneHelper,Mu as PointLight,Hc as PointLightHelper,jN as PointLightNode,xS as PointUVNode,Ga as Points,za as PointsMaterial,yC as PointsNodeMaterial,Zc as PolarGridHelper,Mh as PolyhedronGeometry,hc as PositionalAudio,II as PostProcessing,AA as PosterizeNode,yc as PropertyBinding,uc as PropertyMixer,ug as PropertyNode,KA as QuadMesh,mh as QuadraticBezierCurve,gh as QuadraticBezierCurve3,Ni as Quaternion,Yl as QuaternionKeyframeTrack,Xl as QuaternionLinearInterpolant,Ne as RED_GREEN_RGTC2_Format,Me as RED_RGTC1_Format,t as REVISION,je as RGBADepthPacking,Dt as RGBAFormat,Jt as RGBAIntegerFormat,be as RGBA_ASTC_10x10_Format,fe as RGBA_ASTC_10x5_Format,ye as RGBA_ASTC_10x6_Format,xe as RGBA_ASTC_10x8_Format,ve as RGBA_ASTC_12x10_Format,Te as RGBA_ASTC_12x12_Format,he as RGBA_ASTC_4x4_Format,le as RGBA_ASTC_5x4_Format,ue as RGBA_ASTC_5x5_Format,ce as RGBA_ASTC_6x5_Format,de as RGBA_ASTC_6x6_Format,pe as RGBA_ASTC_8x5_Format,me as RGBA_ASTC_8x6_Format,ge as RGBA_ASTC_8x8_Format,_e as RGBA_BPTC_Format,ae as RGBA_ETC2_EAC_Format,re as RGBA_PVRTC_2BPPV1_Format,ie as RGBA_PVRTC_4BPPV1_Format,Qt as RGBA_S3TC_DXT1_Format,Kt as RGBA_S3TC_DXT3_Format,te as RGBA_S3TC_DXT5_Format,Vt as RGBFormat,Yt as RGBIntegerFormat,xN as RGBShiftNode,we as RGB_BPTC_SIGNED_Format,Se as RGB_BPTC_UNSIGNED_Format,ne as RGB_ETC1_Format,oe as RGB_ETC2_Format,se as RGB_PVRTC_2BPPV1_Format,ee as RGB_PVRTC_4BPPV1_Format,Zt as RGB_S3TC_DXT1_Format,$t as RGFormat,Xt as RGIntegerFormat,zN as RangeNode,wl as RawShaderMaterial,ir as Ray,Rc as Raycaster,ts as Rec709Primaries,Eu as RectAreaLight,YN as RectAreaLightNode,Ht as RedFormat,qt as RedIntegerFormat,lx as ReferenceNode,tS as ReflectorNode,K as ReinhardToneMapping,Aw as RemapNode,Ti as RenderTarget,rS as RendererReferenceNode,pt as RepeatWrapping,rs as ReplaceStencilOp,aw as Return,_ as ReverseSubtractEquation,dl as RingGeometry,Bw as RotateNode,Cw as RotateUVNode,Re as SIGNED_RED_GREEN_RGTC2_Format,Ae as SIGNED_RED_RGTC1_Format,Xe as SRGBColorSpace,Ke as SRGBTransfer,io as Scene,vS as SceneNode,OR as Schlick_to_F0,NN as ScriptableNode,_N as ScriptableValueNode,gp as SetNode,Hn as ShaderMaterial,Hp as ShaderNode,_l as ShadowMaterial,_C as ShadowNodeMaterial,Ih as Shape,pl as ShapeGeometry,gd as ShapePath,rl as ShapeUtils,Rt as ShortType,ko as Skeleton,Wc as SkeletonHelper,Oo as SkinnedMesh,ev as SkinningNode,cN as SobelOperatorNode,fi as Source,Yi as Sphere,ml as SphereGeometry,Bc as Spherical,Bu as SphericalHarmonics3,fh as SplineCurve,mp as SplitNode,vu as SpotLight,Vc as SpotLightHelper,JN as SpotLightNode,_o as Sprite,ao as SpriteMaterial,bC as SpriteNodeMaterial,Pw as SpriteSheetUVNode,C as SrcAlphaFactor,U as SrcAlphaSaturateFactor,N as SrcColorFactor,c_ as StackNode,Is as StaticCopyUsage,As as StaticDrawUsage,Cs as StaticReadUsage,Xu as StereoCamera,Uw as StorageArrayElementNode,FI as StorageBufferAttribute,WM as StorageBufferNode,UI as StorageInstancedBufferAttribute,PI as StorageTexture,qM as StorageTextureNode,Fs as StreamCopyUsage,Rs as StreamDrawUsage,Bs as StreamReadUsage,Jl as StringKeyframeTrack,T as SubtractEquation,y as SubtractiveBlending,Uv as TBNViewMatrix,s as TOUCH,He as TangentSpaceNormalMap,lp as TempNode,gl as TetrahedronGeometry,bi as Texture,JM as Texture3DNode,fS as TextureBicubicNode,du as TextureLoader,Ky as TextureNode,af as TextureSizeNode,pw as TimerNode,VA as ToneMappingNode,fl as TorusGeometry,yl as TorusKnotGeometry,Gr as Triangle,Ge as TriangleFanDrawMode,ke as TriangleStripDrawMode,De as TrianglesDrawMode,zw as TriplanarTexturesNode,xl as TubeGeometry,at as UVMapping,cn as Uint16BufferAttribute,pn as Uint32BufferAttribute,hn as Uint8BufferAttribute,ln as Uint8ClampedBufferAttribute,_c as Uniform,Zg as UniformGroupNode,rf as UniformNode,Sc as UniformsGroup,ox as UniformsNode,At as UnsignedByteType,Ot as UnsignedInt248Type,zt as UnsignedInt5999Type,Bt as UnsignedIntType,Ft as UnsignedShort4444Type,Ut as UnsignedShort5551Type,Ct as UnsignedShortType,QM as UserDataNode,u as VSMShadowMap,RR as V_GGX_SmithCorrelated,tg as VarNode,Lm as VaryingNode,Zs as Vector2,Ri as Vector3,vi as Vector4,Zl as VectorKeyframeTrack,sS as VertexColorNode,Ha as VideoTexture,PT as ViewportDepthNode,BT as ViewportDepthTextureNode,xT as ViewportNode,WA as ViewportSharedTextureNode,NT as ViewportTextureNode,wC as VolumeNodeMaterial,Ai as WebGL3DRenderTarget,Si as WebGLArrayRenderTarget,zs as WebGLCoordinateSystem,to as WebGLCubeRenderTarget,fd as WebGLMultipleRenderTargets,_i as WebGLRenderTarget,Ls as WebGPUCoordinateSystem,EI as WebGPURenderer,bl as WireframeGeometry,ze as WrapAroundEnding,Ue as ZeroCurvatureEnding,M as ZeroFactor,Oe as ZeroSlopeEnding,ss as ZeroStencilOp,iy as abs,ey as acos,uf as add,Sv as addLightNode,ap as addNodeClass,vp as addNodeElement,XT as addNodeMaterial,aN as afterImage,Of as all,wg as alphaT,uN as anamorphic,Tf as and,Sg as anisotropy,Ag as anisotropyB,Mg as anisotropyT,zf as any,em as append,Im as arrayBuffer,ty as asin,zm as assign,sy as atan,fy as atan2,km as attribute,TS as backgroundBlurriness,_S as backgroundIntensity,tv as batch,Mf as bitAnd,Af as bitNot,Nf as bitOr,Rf as bitXor,Cv as bitangentGeometry,Ev as bitangentLocal,Bv as bitangentView,Iv as bitangentWorld,my as bitcast,oT as blur,_m as bmat2,Am as bmat3,Em as bmat4,om as bool,rx as buffer,kb as bufferAttribute,dA as bumpMap,nA as burn,um as bvec2,mm as bvec3,xm as bvec4,Wm as bypass,Hm as cache,TN as call,fx as cameraFar,yx as cameraLogDepth,gx as cameraNear,_x as cameraNormalMatrix,wx as cameraPosition,xx as cameraProjectionMatrix,bx as cameraProjectionMatrixInverse,vx as cameraViewMatrix,Tx as cameraWorldMatrix,By as cbrt,Xf as ceil,iR as checker,Fy as clamp,fg as clearcoat,yg as clearcoatRoughness,Wg as code,sm as color,qy as colorSpaceToLinear,Mw as colorToDirection,DN as compute,Dv as cond,$m as context,Fm as convert,Qf as cos,ii as createCanvasElement,hp as createNodeFromType,YT as createNodeMaterialFromType,My as cross,fv as cubeTexture,hy as dFdx,ly as dFdy,Bg as dashSize,Xd as defaultBuildStages,$d as defaultShaderStages,Wp as defined,Df as degrees,FN as densityFog,VT as depth,JA as depthPass,wy as difference,pg as diffuseColor,Sw as directionToColor,ow as discard,_y as distance,pf as div,oA as dodge,mN as dof,Sy as dot,yN as dotScreen,Qm as drawIndex,Gb as dynamicBufferAttribute,Pm as element,gf as equal,Lf as equals,m_ as equirectUV,kf as exp,Gf as exp2,Jy as expression,HT as faceDirection,Ly as faceForward,im as float,$f as floor,EN as fog,Jf as fract,tf as frameGroup,yw as frameId,jT as frontFacing,py as fwidth,Z_ as gain,Ig as gapSize,iN as gaussianBlur,jp as getConstNodeType,Kp as getCurrentStack,sT as getDirection,WN as getDistanceAttenuation,AR as getGeometryRoughness,NR as getRoughness,AN as global,qg as glsl,Yg as glslFn,xf as greaterThan,vf as greaterThanEqual,Y_ as hash,bA as hue,vm as imat2,Sm as imat3,Rm as imat4,qb as instance,Zm as instanceIndex,Wb as instancedBufferAttribute,jb as instancedDynamicBufferAttribute,rm as int,qf as inverseSqrt,vg as iridescence,Tg as iridescenceIOR,_g as iridescenceThickness,hm as ivec2,dm as ivec3,fm as ivec4,jg as js,Xm as label,ny as length,Iy as lengthSq,yf as lessThan,bf as lessThanEqual,GN as lightTargetDirection,Nv as lightingContext,_v as lights,wv as lightsNode,DT as linearDepth,Hy as linearToColorSpace,$y as linearTosRGB,Wf as log,jf as log2,nv as loop,vA as lumaCoeffs,TA as luminance,bm as mat2,wm as mat3,Nm as mat4,dw as matcapUV,Jx as materialAlphaTest,gb as materialAnisotropy,Bb as materialAnisotropyVector,lb as materialClearcoat,cb as materialClearcoatNormal,ub as materialClearcoatRoughness,Zx as materialColor,Eb as materialDispersion,Kx as materialEmissive,fb as materialIridescence,yb as materialIridescenceIOR,xb as materialIridescenceThickness,Rb as materialLineDashOffset,Mb as materialLineDashSize,Ab as materialLineGapSize,Sb as materialLineScale,Nb as materialLineWidth,ab as materialMetalness,hb as materialNormal,tb as materialOpacity,Cb as materialPointWidth,px as materialReference,nb as materialReflectivity,db as materialRotation,ob as materialRoughness,pb as materialSheen,mb as materialSheenRoughness,Qx as materialShininess,eb as materialSpecular,rb as materialSpecularStrength,xy as max,Qy as maxMipLevel,gg as metalness,yy as min,Py as mix,by as mod,Px as modelDirection,Ux as modelNormalMatrix,zx as modelPosition,Lx as modelScale,Fx as modelViewMatrix,Vx as modelViewPosition,Vb as modelViewProjection,Ox as modelWorldMatrix,Dx as modelWorldMatrixInverse,dv as morphReference,df as mul,_E as mx_aastep,LE as mx_cell_noise_float,BE as mx_contrast,VE as mx_fractal_noise_float,DE as mx_fractal_noise_vec2,kE as mx_fractal_noise_vec3,GE as mx_fractal_noise_vec4,bE as mx_hsvtorgb,IE as mx_noise_float,PE as mx_noise_vec3,FE as mx_noise_vec4,SE as mx_ramplr,ME as mx_ramptb,vE as mx_rgbtohsv,EE as mx_safepower,NE as mx_splitlr,RE as mx_splittb,TE as mx_srgb_texture_to_lin_rec709,CE as mx_transform_uv,UE as mx_worley_noise_float,OE as mx_worley_noise_vec2,zE as mx_worley_noise_vec3,oy as negate,Xp as nodeArray,Jp as nodeImmutable,qp as nodeObject,$p as nodeObjects,Yp as nodeProxy,kx as normalGeometry,Gx as normalLocal,MA as normalMap,Wx as normalView,jx as normalWorld,Yf as normalize,wf as not,Mx as objectDirection,sf as objectGroup,Nx as objectNormalMatrix,Cx as objectPosition,Ex as objectScale,Ax as objectViewMatrix,Bx as objectViewPosition,Rx as objectWorldMatrix,ay as oneMinus,_f as or,UT as orthographicDepthToViewZ,_w as oscSawtooth,bw as oscSine,vw as oscSquare,Tw as oscTriangle,Eg as output,$_ as outputStruct,aA as overlay,uw as overloadingFn,J_ as parabola,Ov as parallaxDirection,zv as parallaxUV,kg as parameter,XA as pass,Q_ as pcurve,zT as perspectiveDepthToViewZ,uT as pmremTexture,bS as pointUV,Pg as pointWidth,Ib as positionGeometry,Pb as positionLocal,Ob as positionView,zb as positionViewDirection,Fb as positionWorld,Ub as positionWorldDirection,NA as posterize,Ay as pow,Ny as pow2,Ry as pow3,Cy as pow4,cg as property,Vf as radians,LN as range,IN as rangeFog,cy as reciprocal,ux as reference,cx as referenceBuffer,Ty as reflect,mv as reflectVector,pv as reflectView,eS as reflector,Oy as refract,mf as remainder,Nw as remap,Rw as remapClamp,ef as renderGroup,nS as rendererReference,bN as rgbShift,Iw as rotate,Ew as rotateUV,mg as roughness,uy as round,Xy as sRGBToLinear,sx as sampler,Uy as saturate,yA as saturation,hA as screen,RN as scriptable,wN as scriptableValue,Qp as setCurrentStack,Yd as shaderStages,xg as sheen,bg as sheenRoughness,Cf as shiftLeft,Ef as shiftRight,Cg as shininess,ry as sign,Zf as sin,K_ as sinc,sv as skinning,iv as skinningReference,zy as smoothstep,dN as sobel,Ng as specularColor,Um as split,Fw as spritesheetUV,Hf as sqrt,d_ as stack,vy as step,jM as storage,HM as storageObject,$M as storageTexture,Bm as string,cf as sub,Kf as tan,$b as tangentGeometry,Xb as tangentLocal,Yb as tangentView,Jb as tangentWorld,eg as temp,tx as texture,ZM as texture3D,yS as textureBicubic,iT as textureCubeUV,ex as textureLoad,YA as texturePass,hf as textureSize,XM as textureStore,_A as threshold,fw as timerDelta,gw as timerGlobal,mw as timerLocal,DA as toneMapping,Ey as transformDirection,Lv as transformedBentNormalView,Pv as transformedBitangentView,Fv as transformedBitangentWorld,$x as transformedClearcoatNormalView,Hx as transformedNormalView,qx as transformedNormalWorld,Zb as transformedTangentView,Qb as transformedTangentWorld,gy as transpose,sw as triNoise3D,Vw as triplanarTexture,Lw as triplanarTextures,dy as trunc,Zp as tslFn,nm as uint,Tm as umat2,Mm as umat3,Cm as umat4,nf as uniform,Qg as uniformGroup,ax as uniforms,KM as userData,of as uv,lm as uvec2,pm as uvec3,ym as uvec4,Vm as varying,dg as varyingProperty,am as vec2,cm as vec3,gm as vec4,Jd as vectorComponents,iS as vertexColor,Jm as vertexIndex,xA as vibrance,FT as viewZToOrthographicDepth,OT as viewZToPerspectiveDepth,TT as viewport,wT as viewportBottomLeft,MT as viewportBottomRight,bT as viewportCoordinate,IT as viewportDepthTexture,kT as viewportLinearDepth,CT as viewportMipTexture,vT as viewportResolution,jA as viewportSharedTexture,RT as viewportTexture,_T as viewportTopLeft,ST as viewportTopRight,Hg as wgsl,Jg as wgslFn,Sf as xor}; diff --git a/examples/jsm/lights/RectAreaLightTexturesLib.js b/examples/jsm/lights/RectAreaLightTexturesLib.js new file mode 100644 index 00000000000000..b0ae50ec062871 --- /dev/null +++ b/examples/jsm/lights/RectAreaLightTexturesLib.js @@ -0,0 +1,91 @@ +import { + ClampToEdgeWrapping, + DataTexture, + DataUtils, + FloatType, + HalfFloatType, + LinearFilter, + NearestFilter, + RGBAFormat, + UVMapping +} from 'three'; + +/** + * Uniforms library for RectAreaLight shared webgl shaders + * + * NOTE: This is a temporary location for the BRDF approximation texture data + * based off of Eric Heitz's work (see citation below). BRDF data for + * RectAreaLight is currently approximated using a precomputed texture + * of roughly 80kb in size. The hope is to find a better way to include + * the large texture data before including the full RectAreaLight implementation + * in the main build files. + * + * TODO: figure out a way to compress the LTC BRDF data + */ + +// Real-Time Polygonal-Light Shading with Linearly Transformed Cosines +// by Eric Heitz, Jonathan Dupuy, Stephen Hill and David Neubelt +// code: https://github.com/selfshadow/ltc_code/ + +class RectAreaLightTexturesLib { + + static init() { + + // source: https://github.com/selfshadow/ltc_code/tree/master/fit/results/ltc.js + + const LTC_MAT_1 = [ 1, 0, 0, 2e-05, 1, 0, 0, 0.000503905, 1, 0, 0, 0.00201562, 1, 0, 0, 0.00453516, 1, 0, 0, 0.00806253, 1, 0, 0, 0.0125978, 1, 0, 0, 0.018141, 1, 0, 0, 0.0246924, 1, 0, 0, 0.0322525, 1, 0, 0, 0.0408213, 1, 0, 0, 0.0503999, 1, 0, 0, 0.0609894, 1, 0, 0, 0.0725906, 1, 0, 0, 0.0852058, 1, 0, 0, 0.0988363, 1, 0, 0, 0.113484, 1, 0, 0, 0.129153, 1, 0, 0, 0.145839, 1, 0, 0, 0.163548, 1, 0, 0, 0.182266, 1, 0, 0, 0.201942, 1, 0, 0, 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0.412148, 0.302508, 0.338809, - 0.210856, 0.418266, 0.337264, 0.372678, - 0.220655, 0.428723, 0.374881, 0.405632, - 0.230053, 0.433887, 0.415656, 0.442293, - 0.237993, 0.439911, 0.457982, 0.477256, - 0.244897, 0.440175, 0.502831, 0.515592, - 0.250657, 0.441079, 0.550277, 0.550969, - 0.255459, 0.435219, 0.601102, 0.592883, - 0.257696, 0.432882, 0.651785, 0.629092, - 0.259894, 0.421054, 0.708961, 0.672033, - 0.258592, 0.41177, 0.763806, 0.709147, - 0.256525, 0.395267, 0.824249, 0.745367, - 0.254677, 0.375013, 0.8951, 0.784715, - 0.247892, 0.353906, 0.959317, 0.818107, - 0.240162, 0.327801, 1.03153, 0.847895, - 0.229741, 0.298821, 1.10601, 0.879603, - 0.213084, 0.269115, 1.164, 0.902605, - 0.195242, 0.236606, 1.22854, 0.922788, - 0.174505, 0.203442, 1.29017, 0.944831, - 0.150169, 0.169594, 1.34157, 0.959656, - 0.124099, 0.135909, 1.3956, 0.972399, - 0.0960626, 0.0990563, 1.45128, 0.986549, - 0.0657097, 0.0602348, 1.50312, 1.00013, - 0.0333558, 0.0186694, 1.55364, 6.19747e-06, - 1e-07, 0.00778326, 7.96756e-11, 2.37499e-08, - 9.99999e-08, 2.82592e-05, 1.14596e-10, 1.00292e-06, - 1.66369e-06, 0.000250354, 6.77492e-09, 3.50752e-06, - 6.37769e-06, 0.000357289, 6.31655e-08, 8.26445e-06, - 1.74689e-05, 0.000516179, 3.1851e-07, 2.42481e-05, - 4.50868e-05, 0.0010223, 1.30577e-06, 4.55631e-05, - 8.9044e-05, 0.00144302, 3.74587e-06, 9.71222e-05, - 0.000178311, 0.00241912, 1.02584e-05, 0.000171403, - 0.000313976, 0.00354938, 2.36481e-05, 0.000292747, - 0.000520026, 0.00513765, 4.96014e-05, 0.000789827, - 0.00118187, 0.0238621, 0.000139056, 0.00114093, - 0.00171827, 0.0286691, 0.000244093, 0.00176119, - 0.00249667, 0.0368565, 0.000420623, 0.0022233, - 0.00333742, 0.0400469, 0.00065673, 0.00343382, - 0.00481976, 0.0535751, 0.00109323, 0.00427602, - 0.00600755, 0.057099, 0.00155268, 0.00461435, - 0.00737637, 0.0551084, 0.00215031, 0.00695698, - 0.00971401, 0.0715767, 0.00316529, 0.00867619, - 0.0120943, 0.0793314, 0.00436995, 0.0106694, - 0.0148202, 0.0869391, 0.0058959, 0.0140351, - 0.0183501, 0.101572, 0.00798757, 0.0168939, - 0.022006, 0.11018, 0.0104233, 0.020197, - 0.0261568, 0.119041, 0.0134167, 0.0254702, - 0.0312778, 0.135404, 0.0173009, 0.0298384, - 0.0362469, 0.1437, 0.0215428, 0.035159, - 0.042237, 0.15512, 0.0268882, 0.0427685, - 0.0488711, 0.17128, 0.033235, 0.0494848, - 0.0557997, 0.181813, 0.0404443, 0.0592394, - 0.0635578, 0.198745, 0.0490043, 0.0681463, - 0.071838, 0.210497, 0.0588239, 0.0804753, - 0.0809297, 0.228864, 0.0702835, 0.0942205, - 0.0906488, 0.247008, 0.0834012, 0.106777, - 0.100216, 0.258812, 0.0975952, 0.124471, - 0.110827, 0.278617, 0.114162, 0.138389, - 0.121193, 0.287049, 0.131983, 0.159543, - 0.13253, 0.307151, 0.152541, 0.176432, - 0.143611, 0.31564, 0.174673, 0.201723, - 0.15548, 0.33538, 0.199842, 0.229721, - 0.167166, 0.355256, 0.227097, 0.250206, - 0.178238, 0.360047, 0.256014, 0.282118, - 0.189905, 0.378761, 0.28855, 0.312821, - 0.201033, 0.39181, 0.323348, 0.341482, - 0.211584, 0.397716, 0.360564, 0.377368, - 0.221314, 0.410141, 0.400004, 0.418229, - 0.230474, 0.423485, 0.442371, 0.444881, - 0.239443, 0.418874, 0.488796, 0.488899, - 0.245987, 0.427545, 0.535012, 0.520317, - 0.253948, 0.422147, 0.589678, 0.568566, - 0.256616, 0.42719, 0.637683, 0.599607, - 0.26376, 0.415114, 0.703363, 0.64222, - 0.268687, 0.408715, 0.771363, 0.685698, - 0.2694, 0.399722, 0.83574, 0.732327, - 0.266642, 0.388651, 0.897764, 0.769873, - 0.267712, 0.369198, 0.983312, 0.806733, - 0.263479, 0.346802, 1.06222, 0.843466, - 0.254575, 0.321368, 1.13477, 0.873008, - 0.242749, 0.29211, 1.20712, 0.908438, - 0.22725, 0.262143, 1.27465, 0.936321, - 0.207621, 0.228876, 1.33203, 0.950353, - 0.187932, 0.19484, 1.40439, 0.96442, - 0.165154, 0.163178, 1.4732, 0.979856, - 0.139302, 0.127531, 1.53574, 0.982561, - 0.11134, 0.0903457, 1.59982, 0.996389, - 0.0808124, 0.0489007, 1.6577 ]; + + const LTC_MAT_2 = [ 1, 0, 0, 0, 1, 7.91421e-31, 0, 0, 1, 1.04392e-24, 0, 0, 1, 3.49405e-21, 0, 0, 1, 1.09923e-18, 0, 0, 1, 9.47414e-17, 0, 0, 1, 3.59627e-15, 0, 0, 1, 7.72053e-14, 0, 0, 1, 1.08799e-12, 0, 0, 1, 1.10655e-11, 0, 0, 1, 8.65818e-11, 0, 0, 0.999998, 5.45037e-10, 0, 0, 0.999994, 2.85095e-09, 0, 0, 0.999989, 1.26931e-08, 0, 0, 0.999973, 4.89938e-08, 0, 0, 0.999947, 1.66347e-07, 0, 0, 0.999894, 5.02694e-07, 0, 0, 0.999798, 1.36532e-06, 0, 0, 0.999617, 3.35898e-06, 0, 0, 0.999234, 7.52126e-06, 0, 0, 0.998258, 1.52586e-05, 0, 0, 0.99504, 2.66207e-05, 0, 0, 0.980816, 2.36802e-05, 0, 0, 0.967553, 2.07684e-06, 0, 0, 0.966877, 4.03733e-06, 0, 0, 0.965752, 7.41174e-06, 0, 0, 0.96382, 1.27746e-05, 0, 0, 0.960306, 2.02792e-05, 0, 0, 0.953619, 2.80232e-05, 0, 0, 0.941103, 2.78816e-05, 0, 0, 0.926619, 1.60221e-05, 0, 0, 0.920983, 2.35164e-05, 0, 0, 0.912293, 3.11924e-05, 0, 0.0158731, 0.899277, 3.48118e-05, 0, 0.0476191, 0.880884, 2.6041e-05, 0, 0.0793651, 0.870399, 3.38726e-05, 0, 0.111111, 0.856138, 3.92906e-05, 0, 0.142857, 0.837436, 3.72874e-05, 0, 0.174603, 0.820973, 3.92558e-05, 0, 0.206349, 0.803583, 4.34658e-05, 0, 0.238095, 0.782168, 4.0256e-05, 0, 0.269841, 0.764107, 4.48159e-05, 0, 0.301587, 0.743092, 4.57627e-05, 0, 0.333333, 0.721626, 4.55314e-05, 0, 0.365079, 0.700375, 4.77335e-05, 0, 0.396825, 0.677334, 4.61072e-05, 0, 0.428571, 0.655702, 4.84393e-05, 0, 0.460317, 0.632059, 4.64583e-05, 0, 0.492064, 0.610125, 4.83923e-05, 0, 0.52381, 0.58653, 4.64342e-05, 0, 0.555556, 0.564508, 4.77033e-05, 0, 0.587302, 0.541405, 4.59263e-05, 0, 0.619048, 0.519556, 4.6412e-05, 0, 0.650794, 0.497292, 4.48913e-05, 0, 0.68254, 0.475898, 4.45789e-05, 0, 0.714286, 0.454722, 4.33496e-05, 0, 0.746032, 0.434042, 4.23054e-05, 0, 0.777778, 0.414126, 4.13737e-05, 0, 0.809524, 0.394387, 3.97265e-05, 0, 0.84127, 0.375841, 3.90709e-05, 0, 0.873016, 0.357219, 3.69938e-05, 0, 0.904762, 0.340084, 3.65618e-05, 0, 0.936508, 0.322714, 3.42533e-05, 0, 0.968254, 0.306974, 3.39596e-05, 0, 1, 1, 1.01524e-18, 0, 0, 1, 1.0292e-18, 0, 0, 1, 1.30908e-18, 0, 0, 1, 4.73331e-18, 0, 0, 1, 6.25319e-17, 0, 0, 1, 1.07932e-15, 0, 0, 1, 1.63779e-14, 0, 0, 1, 2.03198e-13, 0, 0, 1, 2.04717e-12, 0, 0, 0.999999, 1.68995e-11, 0, 0, 0.999998, 1.15855e-10, 0, 0, 0.999996, 6.6947e-10, 0, 0, 0.999991, 3.30863e-09, 0, 0, 0.999983, 1.41737e-08, 0, 0, 0.999968, 5.32626e-08, 0, 0, 0.99994, 1.77431e-07, 0, 0, 0.999891, 5.28835e-07, 0, 0, 0.999797, 1.42169e-06, 0, 0, 0.999617, 3.47057e-06, 0, 0, 0.999227, 7.7231e-06, 0, 0, 0.998239, 1.55753e-05, 0, 0, 0.994937, 2.68495e-05, 0, 0, 0.980225, 2.13742e-05, 0, 0, 0.967549, 2.1631e-06, 0, 0, 0.966865, 4.17989e-06, 0, 0, 0.965739, 7.63341e-06, 0, 0, 0.963794, 1.30892e-05, 0, 0, 0.960244, 2.06456e-05, 0, 0, 0.953495, 2.82016e-05, 0, 0.000148105, 0.940876, 2.71581e-05, 0, 0.002454, 0.926569, 1.64159e-05, 0, 0.00867491, 0.920905, 2.39521e-05, 0, 0.01956, 0.912169, 3.15127e-05, 0, 0.035433, 0.899095, 3.46626e-05, 0, 0.056294, 0.882209, 2.90223e-05, 0, 0.0818191, 0.870272, 3.42992e-05, 0, 0.111259, 0.855977, 3.94164e-05, 0, 0.142857, 0.837431, 3.72343e-05, 0, 0.174603, 0.820826, 3.96691e-05, 0, 0.206349, 0.803408, 4.35395e-05, 0, 0.238095, 0.782838, 4.19579e-05, 0, 0.269841, 0.763941, 4.50953e-05, 0, 0.301587, 0.742904, 4.55847e-05, 0, 0.333333, 0.721463, 4.58833e-05, 0, 0.365079, 0.700197, 4.77159e-05, 0, 0.396825, 0.677501, 4.70641e-05, 0, 0.428571, 0.655527, 4.84732e-05, 0, 0.460317, 0.6324, 4.76834e-05, 0, 0.492064, 0.609964, 4.84213e-05, 0, 0.52381, 0.586839, 4.75541e-05, 0, 0.555556, 0.564353, 4.76951e-05, 0, 0.587302, 0.541589, 4.67611e-05, 0, 0.619048, 0.519413, 4.63493e-05, 0, 0.650794, 0.497337, 4.53994e-05, 0, 0.68254, 0.475797, 4.45308e-05, 0, 0.714286, 0.454659, 4.35787e-05, 0, 0.746032, 0.434065, 4.24839e-05, 0, 0.777778, 0.414018, 4.1436e-05, 0, 0.809524, 0.39455, 4.01902e-05, 0, 0.84127, 0.375742, 3.90813e-05, 0, 0.873016, 0.357501, 3.77116e-05, 0, 0.904762, 0.339996, 3.6535e-05, 0, 0.936508, 0.323069, 3.51265e-05, 0, 0.968254, 0.306897, 3.39112e-05, 0, 1, 1, 1.0396e-15, 0, 0, 1, 1.04326e-15, 0, 0, 1, 1.10153e-15, 0, 0, 1, 1.44668e-15, 0, 0, 1, 3.4528e-15, 0, 0, 1, 1.75958e-14, 0, 0, 1, 1.2627e-13, 0, 0, 1, 9.36074e-13, 0, 0, 1, 6.45742e-12, 0, 0, 0.999998, 4.01228e-11, 0, 0, 0.999997, 2.22338e-10, 0, 0, 0.999995, 1.0967e-09, 0, 0, 0.999991, 4.82132e-09, 0, 0, 0.999981, 1.89434e-08, 0, 0, 0.999967, 6.67716e-08, 0, 0, 0.999938, 2.12066e-07, 0, 0, 0.999886, 6.0977e-07, 0, 0, 0.999792, 1.59504e-06, 0, 0, 0.999608, 3.81191e-06, 0, 0, 0.999209, 8.33727e-06, 0, 0, 0.998179, 1.65288e-05, 0, 0, 0.994605, 2.74387e-05, 0, 0, 0.979468, 1.67316e-05, 0, 0, 0.967529, 2.42877e-06, 0, 0, 0.966836, 4.61696e-06, 0, 0, 0.96569, 8.30977e-06, 0, 0, 0.963706, 1.40427e-05, 0, 2.44659e-06, 0.960063, 2.17353e-05, 0, 0.000760774, 0.953113, 2.86606e-05, 0, 0.00367261, 0.940192, 2.47691e-05, 0, 0.00940263, 0.927731, 1.95814e-05, 0, 0.018333, 0.920669, 2.52531e-05, 0, 0.0306825, 0.911799, 3.24277e-05, 0, 0.0465556, 0.89857, 3.40982e-05, 0, 0.0659521, 0.883283, 3.19622e-05, 0, 0.0887677, 0.86989, 3.5548e-05, 0, 0.114784, 0.855483, 3.97143e-05, 0, 0.143618, 0.837987, 3.91665e-05, 0, 0.174606, 0.820546, 4.11306e-05, 0, 0.206349, 0.802878, 4.36753e-05, 0, 0.238095, 0.783402, 4.44e-05, 0, 0.269841, 0.763439, 4.58726e-05, 0, 0.301587, 0.742925, 4.67097e-05, 0, 0.333333, 0.721633, 4.78887e-05, 0, 0.365079, 0.69985, 4.81251e-05, 0, 0.396825, 0.67783, 4.91811e-05, 0, 0.428571, 0.655126, 4.88199e-05, 0, 0.460318, 0.632697, 4.96025e-05, 0, 0.492064, 0.609613, 4.8829e-05, 0, 0.52381, 0.587098, 4.92754e-05, 0, 0.555556, 0.564119, 4.82625e-05, 0, 0.587302, 0.541813, 4.82807e-05, 0, 0.619048, 0.519342, 4.71552e-05, 0, 0.650794, 0.497514, 4.66765e-05, 0, 0.68254, 0.475879, 4.55582e-05, 0, 0.714286, 0.454789, 4.46007e-05, 0, 0.746032, 0.434217, 4.35382e-05, 0, 0.777778, 0.414086, 4.21753e-05, 0, 0.809524, 0.394744, 4.12093e-05, 0, 0.84127, 0.375782, 3.96634e-05, 0, 0.873016, 0.357707, 3.86419e-05, 0, 0.904762, 0.340038, 3.70345e-05, 0, 0.936508, 0.323284, 3.59725e-05, 0, 0.968254, 0.306954, 3.436e-05, 0, 1, 1, 5.99567e-14, 0, 0, 1, 6.00497e-14, 0, 0, 1, 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0.165869, 0, 0.539683, 0.933011, 0.156468, 0, 0.555556, 0.933013, 0.147719, 0, 0.571429, 0.933013, 0.139579, 0, 0.587302, 0.93301, 0.132007, 0, 0.603175, 0.933004, 0.124965, 0, 0.619048, 0.932994, 0.118416, 0, 0.634921, 0.932982, 0.112326, 0, 0.650794, 0.932968, 0.106663, 0, 0.666667, 0.93295, 0.101397, 0, 0.68254, 0.932931, 0.0964993, 0, 0.698413, 0.932908, 0.0919438, 0, 0.714286, 0.932883, 0.0877057, 0, 0.730159, 0.932856, 0.0837623, 0, 0.746032, 0.932827, 0.0800921, 0, 0.761905, 0.932796, 0.0766754, 0, 0.777778, 0.932762, 0.0734936, 0, 0.793651, 0.932727, 0.0705296, 0, 0.809524, 0.932689, 0.0677676, 0, 0.825397, 0.93265, 0.0651929, 0, 0.84127, 0.932609, 0.0627917, 0, 0.857143, 0.932565, 0.0605515, 0, 0.873016, 0.932521, 0.0584606, 0, 0.888889, 0.932474, 0.0565082, 0, 0.904762, 0.932427, 0.0546841, 0, 0.920635, 0.932377, 0.0529793, 0, 0.936508, 0.932326, 0.0513851, 0, 0.952381, 0.932274, 0.0498936, 0, 0.968254, 0.93222, 0.0484975, 0, 0.984127, 0.932164, 0.0471899, 0, 1 ]; + + // data textures + + const ltc_float_1 = new Float32Array( LTC_MAT_1 ); + const ltc_float_2 = new Float32Array( LTC_MAT_2 ); + + const LTC_FLOAT_1 = new DataTexture( ltc_float_1, 64, 64, RGBAFormat, FloatType, UVMapping, ClampToEdgeWrapping, ClampToEdgeWrapping, LinearFilter, NearestFilter, 1 ); + const LTC_FLOAT_2 = new DataTexture( ltc_float_2, 64, 64, RGBAFormat, FloatType, UVMapping, ClampToEdgeWrapping, ClampToEdgeWrapping, LinearFilter, NearestFilter, 1 ); + + LTC_FLOAT_1.needsUpdate = true; + LTC_FLOAT_2.needsUpdate = true; + + const ltc_half_1 = new Uint16Array( LTC_MAT_1.length ); + + LTC_MAT_1.forEach( function ( x, index ) { + + ltc_half_1[ index ] = DataUtils.toHalfFloat( x ); + + } ); + + const ltc_half_2 = new Uint16Array( LTC_MAT_2.length ); + + LTC_MAT_2.forEach( function ( x, index ) { + + ltc_half_2[ index ] = DataUtils.toHalfFloat( x ); + + } ); + + const LTC_HALF_1 = new DataTexture( ltc_half_1, 64, 64, RGBAFormat, HalfFloatType, UVMapping, ClampToEdgeWrapping, ClampToEdgeWrapping, LinearFilter, NearestFilter, 1 ); + const LTC_HALF_2 = new DataTexture( ltc_half_2, 64, 64, RGBAFormat, HalfFloatType, UVMapping, ClampToEdgeWrapping, ClampToEdgeWrapping, LinearFilter, NearestFilter, 1 ); + + LTC_HALF_1.needsUpdate = true; + LTC_HALF_2.needsUpdate = true; + + this.LTC_HALF_1 = LTC_HALF_1; + this.LTC_HALF_1 = LTC_HALF_2; + + this.LTC_FLOAT_1 = LTC_FLOAT_1; + this.LTC_FLOAT_2 = LTC_FLOAT_2; + + return this; + + } + +} + +RectAreaLightTexturesLib.LTC_HALF_1 = null; +RectAreaLightTexturesLib.LTC_HALF_1 = null; + +RectAreaLightTexturesLib.LTC_FLOAT_1 = null; +RectAreaLightTexturesLib.LTC_FLOAT_2 = null; + +export { RectAreaLightTexturesLib }; diff --git a/examples/jsm/lights/RectAreaLightUniformsLib.js b/examples/jsm/lights/RectAreaLightUniformsLib.js index cf916b31ab251e..b0589784d8df75 100644 --- a/examples/jsm/lights/RectAreaLightUniformsLib.js +++ b/examples/jsm/lights/RectAreaLightUniformsLib.js @@ -1,76 +1,21 @@ -import { - ClampToEdgeWrapping, - DataTexture, - DataUtils, - FloatType, - HalfFloatType, - LinearFilter, - NearestFilter, - RGBAFormat, - UVMapping, - UniformsLib -} from 'three'; - -/** - * Uniforms library for RectAreaLight shared webgl shaders - * - * NOTE: This is a temporary location for the BRDF approximation texture data - * based off of Eric Heitz's work (see citation below). BRDF data for - * RectAreaLight is currently approximated using a precomputed texture - * of roughly 80kb in size. The hope is to find a better way to include - * the large texture data before including the full RectAreaLight implementation - * in the main build files. - * - * TODO: figure out a way to compress the LTC BRDF data - */ - -// Real-Time Polygonal-Light Shading with Linearly Transformed Cosines -// by Eric Heitz, Jonathan Dupuy, Stephen Hill and David Neubelt -// code: https://github.com/selfshadow/ltc_code/ +import { UniformsLib } from 'three'; +import { RectAreaLightTexturesLib } from './RectAreaLightTexturesLib.js'; class RectAreaLightUniformsLib { static init() { - // source: https://github.com/selfshadow/ltc_code/tree/master/fit/results/ltc.js + RectAreaLightTexturesLib.init(); - const LTC_MAT_1 = [ 1, 0, 0, 2e-05, 1, 0, 0, 0.000503905, 1, 0, 0, 0.00201562, 1, 0, 0, 0.00453516, 1, 0, 0, 0.00806253, 1, 0, 0, 0.0125978, 1, 0, 0, 0.018141, 1, 0, 0, 0.0246924, 1, 0, 0, 0.0322525, 1, 0, 0, 0.0408213, 1, 0, 0, 0.0503999, 1, 0, 0, 0.0609894, 1, 0, 0, 0.0725906, 1, 0, 0, 0.0852058, 1, 0, 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0.166307, 0.369352, 0.210669, 0.252213, - 0.178051, 0.386242, 0.238895, 0.277321, - 0.189335, 0.395294, 0.269182, 0.310332, - 0.200683, 0.412148, 0.302508, 0.338809, - 0.210856, 0.418266, 0.337264, 0.372678, - 0.220655, 0.428723, 0.374881, 0.405632, - 0.230053, 0.433887, 0.415656, 0.442293, - 0.237993, 0.439911, 0.457982, 0.477256, - 0.244897, 0.440175, 0.502831, 0.515592, - 0.250657, 0.441079, 0.550277, 0.550969, - 0.255459, 0.435219, 0.601102, 0.592883, - 0.257696, 0.432882, 0.651785, 0.629092, - 0.259894, 0.421054, 0.708961, 0.672033, - 0.258592, 0.41177, 0.763806, 0.709147, - 0.256525, 0.395267, 0.824249, 0.745367, - 0.254677, 0.375013, 0.8951, 0.784715, - 0.247892, 0.353906, 0.959317, 0.818107, - 0.240162, 0.327801, 1.03153, 0.847895, - 0.229741, 0.298821, 1.10601, 0.879603, - 0.213084, 0.269115, 1.164, 0.902605, - 0.195242, 0.236606, 1.22854, 0.922788, - 0.174505, 0.203442, 1.29017, 0.944831, - 0.150169, 0.169594, 1.34157, 0.959656, - 0.124099, 0.135909, 1.3956, 0.972399, - 0.0960626, 0.0990563, 1.45128, 0.986549, - 0.0657097, 0.0602348, 1.50312, 1.00013, - 0.0333558, 0.0186694, 1.55364, 6.19747e-06, - 1e-07, 0.00778326, 7.96756e-11, 2.37499e-08, - 9.99999e-08, 2.82592e-05, 1.14596e-10, 1.00292e-06, - 1.66369e-06, 0.000250354, 6.77492e-09, 3.50752e-06, - 6.37769e-06, 0.000357289, 6.31655e-08, 8.26445e-06, - 1.74689e-05, 0.000516179, 3.1851e-07, 2.42481e-05, - 4.50868e-05, 0.0010223, 1.30577e-06, 4.55631e-05, - 8.9044e-05, 0.00144302, 3.74587e-06, 9.71222e-05, - 0.000178311, 0.00241912, 1.02584e-05, 0.000171403, - 0.000313976, 0.00354938, 2.36481e-05, 0.000292747, - 0.000520026, 0.00513765, 4.96014e-05, 0.000789827, - 0.00118187, 0.0238621, 0.000139056, 0.00114093, - 0.00171827, 0.0286691, 0.000244093, 0.00176119, - 0.00249667, 0.0368565, 0.000420623, 0.0022233, - 0.00333742, 0.0400469, 0.00065673, 0.00343382, - 0.00481976, 0.0535751, 0.00109323, 0.00427602, - 0.00600755, 0.057099, 0.00155268, 0.00461435, - 0.00737637, 0.0551084, 0.00215031, 0.00695698, - 0.00971401, 0.0715767, 0.00316529, 0.00867619, - 0.0120943, 0.0793314, 0.00436995, 0.0106694, - 0.0148202, 0.0869391, 0.0058959, 0.0140351, - 0.0183501, 0.101572, 0.00798757, 0.0168939, - 0.022006, 0.11018, 0.0104233, 0.020197, - 0.0261568, 0.119041, 0.0134167, 0.0254702, - 0.0312778, 0.135404, 0.0173009, 0.0298384, - 0.0362469, 0.1437, 0.0215428, 0.035159, - 0.042237, 0.15512, 0.0268882, 0.0427685, - 0.0488711, 0.17128, 0.033235, 0.0494848, - 0.0557997, 0.181813, 0.0404443, 0.0592394, - 0.0635578, 0.198745, 0.0490043, 0.0681463, - 0.071838, 0.210497, 0.0588239, 0.0804753, - 0.0809297, 0.228864, 0.0702835, 0.0942205, - 0.0906488, 0.247008, 0.0834012, 0.106777, - 0.100216, 0.258812, 0.0975952, 0.124471, - 0.110827, 0.278617, 0.114162, 0.138389, - 0.121193, 0.287049, 0.131983, 0.159543, - 0.13253, 0.307151, 0.152541, 0.176432, - 0.143611, 0.31564, 0.174673, 0.201723, - 0.15548, 0.33538, 0.199842, 0.229721, - 0.167166, 0.355256, 0.227097, 0.250206, - 0.178238, 0.360047, 0.256014, 0.282118, - 0.189905, 0.378761, 0.28855, 0.312821, - 0.201033, 0.39181, 0.323348, 0.341482, - 0.211584, 0.397716, 0.360564, 0.377368, - 0.221314, 0.410141, 0.400004, 0.418229, - 0.230474, 0.423485, 0.442371, 0.444881, - 0.239443, 0.418874, 0.488796, 0.488899, - 0.245987, 0.427545, 0.535012, 0.520317, - 0.253948, 0.422147, 0.589678, 0.568566, - 0.256616, 0.42719, 0.637683, 0.599607, - 0.26376, 0.415114, 0.703363, 0.64222, - 0.268687, 0.408715, 0.771363, 0.685698, - 0.2694, 0.399722, 0.83574, 0.732327, - 0.266642, 0.388651, 0.897764, 0.769873, - 0.267712, 0.369198, 0.983312, 0.806733, - 0.263479, 0.346802, 1.06222, 0.843466, - 0.254575, 0.321368, 1.13477, 0.873008, - 0.242749, 0.29211, 1.20712, 0.908438, - 0.22725, 0.262143, 1.27465, 0.936321, - 0.207621, 0.228876, 1.33203, 0.950353, - 0.187932, 0.19484, 1.40439, 0.96442, - 0.165154, 0.163178, 1.4732, 0.979856, - 0.139302, 0.127531, 1.53574, 0.982561, - 0.11134, 0.0903457, 1.59982, 0.996389, - 0.0808124, 0.0489007, 1.6577 ]; - - const LTC_MAT_2 = [ 1, 0, 0, 0, 1, 7.91421e-31, 0, 0, 1, 1.04392e-24, 0, 0, 1, 3.49405e-21, 0, 0, 1, 1.09923e-18, 0, 0, 1, 9.47414e-17, 0, 0, 1, 3.59627e-15, 0, 0, 1, 7.72053e-14, 0, 0, 1, 1.08799e-12, 0, 0, 1, 1.10655e-11, 0, 0, 1, 8.65818e-11, 0, 0, 0.999998, 5.45037e-10, 0, 0, 0.999994, 2.85095e-09, 0, 0, 0.999989, 1.26931e-08, 0, 0, 0.999973, 4.89938e-08, 0, 0, 0.999947, 1.66347e-07, 0, 0, 0.999894, 5.02694e-07, 0, 0, 0.999798, 1.36532e-06, 0, 0, 0.999617, 3.35898e-06, 0, 0, 0.999234, 7.52126e-06, 0, 0, 0.998258, 1.52586e-05, 0, 0, 0.99504, 2.66207e-05, 0, 0, 0.980816, 2.36802e-05, 0, 0, 0.967553, 2.07684e-06, 0, 0, 0.966877, 4.03733e-06, 0, 0, 0.965752, 7.41174e-06, 0, 0, 0.96382, 1.27746e-05, 0, 0, 0.960306, 2.02792e-05, 0, 0, 0.953619, 2.80232e-05, 0, 0, 0.941103, 2.78816e-05, 0, 0, 0.926619, 1.60221e-05, 0, 0, 0.920983, 2.35164e-05, 0, 0, 0.912293, 3.11924e-05, 0, 0.0158731, 0.899277, 3.48118e-05, 0, 0.0476191, 0.880884, 2.6041e-05, 0, 0.0793651, 0.870399, 3.38726e-05, 0, 0.111111, 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0.0484975, 0, 0.984127, 0.932164, 0.0471899, 0, 1 ]; + const { LTC_FLOAT_1, LTC_FLOAT_2, LTC_HALF_1, LTC_HALF_2 } = RectAreaLightTexturesLib; // data textures - const ltc_float_1 = new Float32Array( LTC_MAT_1 ); - const ltc_float_2 = new Float32Array( LTC_MAT_2 ); - - UniformsLib.LTC_FLOAT_1 = new DataTexture( ltc_float_1, 64, 64, RGBAFormat, FloatType, UVMapping, ClampToEdgeWrapping, ClampToEdgeWrapping, LinearFilter, NearestFilter, 1 ); - UniformsLib.LTC_FLOAT_2 = new DataTexture( ltc_float_2, 64, 64, RGBAFormat, FloatType, UVMapping, ClampToEdgeWrapping, ClampToEdgeWrapping, LinearFilter, NearestFilter, 1 ); - - UniformsLib.LTC_FLOAT_1.needsUpdate = true; - UniformsLib.LTC_FLOAT_2.needsUpdate = true; - - const ltc_half_1 = new Uint16Array( LTC_MAT_1.length ); - - LTC_MAT_1.forEach( function ( x, index ) { - - ltc_half_1[ index ] = DataUtils.toHalfFloat( x ); - - } ); - - const ltc_half_2 = new Uint16Array( LTC_MAT_2.length ); - - LTC_MAT_2.forEach( function ( x, index ) { - - ltc_half_2[ index ] = DataUtils.toHalfFloat( x ); - - } ); - - UniformsLib.LTC_HALF_1 = new DataTexture( ltc_half_1, 64, 64, RGBAFormat, HalfFloatType, UVMapping, ClampToEdgeWrapping, ClampToEdgeWrapping, LinearFilter, NearestFilter, 1 ); - UniformsLib.LTC_HALF_2 = new DataTexture( ltc_half_2, 64, 64, RGBAFormat, HalfFloatType, UVMapping, ClampToEdgeWrapping, ClampToEdgeWrapping, LinearFilter, NearestFilter, 1 ); - - UniformsLib.LTC_HALF_1.needsUpdate = true; - UniformsLib.LTC_HALF_2.needsUpdate = true; + UniformsLib.LTC_FLOAT_1 = LTC_FLOAT_1; + UniformsLib.LTC_FLOAT_2 = LTC_FLOAT_2; + UniformsLib.LTC_HALF_1 = LTC_HALF_1; + UniformsLib.LTC_HALF_2 = LTC_HALF_2; } diff --git a/examples/jsm/lines/webgpu/Line2.js b/examples/jsm/lines/webgpu/Line2.js new file mode 100644 index 00000000000000..5b55dad8cd2064 --- /dev/null +++ b/examples/jsm/lines/webgpu/Line2.js @@ -0,0 +1,20 @@ +import { LineSegments2 } from './LineSegments2.js'; +import { LineGeometry } from '../LineGeometry.js'; + +import { Line2NodeMaterial } from 'three'; + +class Line2 extends LineSegments2 { + + constructor( geometry = new LineGeometry(), material = new Line2NodeMaterial( { color: Math.random() * 0xffffff } ) ) { + + super( geometry, material ); + + this.isLine2 = true; + + this.type = 'Line2'; + + } + +} + +export { Line2 }; diff --git a/examples/jsm/lines/webgpu/LineSegments2.js b/examples/jsm/lines/webgpu/LineSegments2.js new file mode 100644 index 00000000000000..afdce7dda40cff --- /dev/null +++ b/examples/jsm/lines/webgpu/LineSegments2.js @@ -0,0 +1,376 @@ +import { + Box3, + InstancedInterleavedBuffer, + InterleavedBufferAttribute, + Line3, + MathUtils, + Matrix4, + Mesh, + Sphere, + Vector3, + Vector4, + Line2NodeMaterial +} from 'three'; +import { LineSegmentsGeometry } from '../../lines/LineSegmentsGeometry.js'; + +const _viewport = new Vector4(); + +const _start = new Vector3(); +const _end = new Vector3(); + +const _start4 = new Vector4(); +const _end4 = new Vector4(); + +const _ssOrigin = new Vector4(); +const _ssOrigin3 = new Vector3(); +const _mvMatrix = new Matrix4(); +const _line = new Line3(); +const _closestPoint = new Vector3(); + +const _box = new Box3(); +const _sphere = new Sphere(); +const _clipToWorldVector = new Vector4(); + +let _ray, _lineWidth; + +// Returns the margin required to expand by in world space given the distance from the camera, +// line width, resolution, and camera projection +function getWorldSpaceHalfWidth( camera, distance, resolution ) { + + // transform into clip space, adjust the x and y values by the pixel width offset, then + // transform back into world space to get world offset. Note clip space is [-1, 1] so full + // width does not need to be halved. + _clipToWorldVector.set( 0, 0, - distance, 1.0 ).applyMatrix4( camera.projectionMatrix ); + _clipToWorldVector.multiplyScalar( 1.0 / _clipToWorldVector.w ); + _clipToWorldVector.x = _lineWidth / resolution.width; + _clipToWorldVector.y = _lineWidth / resolution.height; + _clipToWorldVector.applyMatrix4( camera.projectionMatrixInverse ); + _clipToWorldVector.multiplyScalar( 1.0 / _clipToWorldVector.w ); + + return Math.abs( Math.max( _clipToWorldVector.x, _clipToWorldVector.y ) ); + +} + +function raycastWorldUnits( lineSegments, intersects ) { + + const matrixWorld = lineSegments.matrixWorld; + const geometry = lineSegments.geometry; + const instanceStart = geometry.attributes.instanceStart; + const instanceEnd = geometry.attributes.instanceEnd; + const segmentCount = Math.min( geometry.instanceCount, instanceStart.count ); + + for ( let i = 0, l = segmentCount; i < l; i ++ ) { + + _line.start.fromBufferAttribute( instanceStart, i ); + _line.end.fromBufferAttribute( instanceEnd, i ); + + _line.applyMatrix4( matrixWorld ); + + const pointOnLine = new Vector3(); + const point = new Vector3(); + + _ray.distanceSqToSegment( _line.start, _line.end, point, pointOnLine ); + const isInside = point.distanceTo( pointOnLine ) < _lineWidth * 0.5; + + if ( isInside ) { + + intersects.push( { + point, + pointOnLine, + distance: _ray.origin.distanceTo( point ), + object: lineSegments, + face: null, + faceIndex: i, + uv: null, + uv1: null, + } ); + + } + + } + +} + +function raycastScreenSpace( lineSegments, camera, intersects ) { + + const projectionMatrix = camera.projectionMatrix; + const material = lineSegments.material; + const resolution = material.resolution; + const matrixWorld = lineSegments.matrixWorld; + + const geometry = lineSegments.geometry; + const instanceStart = geometry.attributes.instanceStart; + const instanceEnd = geometry.attributes.instanceEnd; + const segmentCount = Math.min( geometry.instanceCount, instanceStart.count ); + + const near = - camera.near; + + // + + // pick a point 1 unit out along the ray to avoid the ray origin + // sitting at the camera origin which will cause "w" to be 0 when + // applying the projection matrix. + _ray.at( 1, _ssOrigin ); + + // ndc space [ - 1.0, 1.0 ] + _ssOrigin.w = 1; + _ssOrigin.applyMatrix4( camera.matrixWorldInverse ); + _ssOrigin.applyMatrix4( projectionMatrix ); + _ssOrigin.multiplyScalar( 1 / _ssOrigin.w ); + + // screen space + _ssOrigin.x *= resolution.x / 2; + _ssOrigin.y *= resolution.y / 2; + _ssOrigin.z = 0; + + _ssOrigin3.copy( _ssOrigin ); + + _mvMatrix.multiplyMatrices( camera.matrixWorldInverse, matrixWorld ); + + for ( let i = 0, l = segmentCount; i < l; i ++ ) { + + _start4.fromBufferAttribute( instanceStart, i ); + _end4.fromBufferAttribute( instanceEnd, i ); + + _start4.w = 1; + _end4.w = 1; + + // camera space + _start4.applyMatrix4( _mvMatrix ); + _end4.applyMatrix4( _mvMatrix ); + + // skip the segment if it's entirely behind the camera + const isBehindCameraNear = _start4.z > near && _end4.z > near; + if ( isBehindCameraNear ) { + + continue; + + } + + // trim the segment if it extends behind camera near + if ( _start4.z > near ) { + + const deltaDist = _start4.z - _end4.z; + const t = ( _start4.z - near ) / deltaDist; + _start4.lerp( _end4, t ); + + } else if ( _end4.z > near ) { + + const deltaDist = _end4.z - _start4.z; + const t = ( _end4.z - near ) / deltaDist; + _end4.lerp( _start4, t ); + + } + + // clip space + _start4.applyMatrix4( projectionMatrix ); + _end4.applyMatrix4( projectionMatrix ); + + // ndc space [ - 1.0, 1.0 ] + _start4.multiplyScalar( 1 / _start4.w ); + _end4.multiplyScalar( 1 / _end4.w ); + + // screen space + _start4.x *= resolution.x / 2; + _start4.y *= resolution.y / 2; + + _end4.x *= resolution.x / 2; + _end4.y *= resolution.y / 2; + + // create 2d segment + _line.start.copy( _start4 ); + _line.start.z = 0; + + _line.end.copy( _end4 ); + _line.end.z = 0; + + // get closest point on ray to segment + const param = _line.closestPointToPointParameter( _ssOrigin3, true ); + _line.at( param, _closestPoint ); + + // check if the intersection point is within clip space + const zPos = MathUtils.lerp( _start4.z, _end4.z, param ); + const isInClipSpace = zPos >= - 1 && zPos <= 1; + + const isInside = _ssOrigin3.distanceTo( _closestPoint ) < _lineWidth * 0.5; + + if ( isInClipSpace && isInside ) { + + _line.start.fromBufferAttribute( instanceStart, i ); + _line.end.fromBufferAttribute( instanceEnd, i ); + + _line.start.applyMatrix4( matrixWorld ); + _line.end.applyMatrix4( matrixWorld ); + + const pointOnLine = new Vector3(); + const point = new Vector3(); + + _ray.distanceSqToSegment( _line.start, _line.end, point, pointOnLine ); + + intersects.push( { + point: point, + pointOnLine: pointOnLine, + distance: _ray.origin.distanceTo( point ), + object: lineSegments, + face: null, + faceIndex: i, + uv: null, + uv1: null, + } ); + + } + + } + +} + +class LineSegments2 extends Mesh { + + constructor( geometry = new LineSegmentsGeometry(), material = new Line2NodeMaterial( { color: Math.random() * 0xffffff } ) ) { + + super( geometry, material ); + + this.isLineSegments2 = true; + + this.type = 'LineSegments2'; + + } + + // for backwards-compatibility, but could be a method of LineSegmentsGeometry... + + computeLineDistances() { + + const geometry = this.geometry; + + const instanceStart = geometry.attributes.instanceStart; + const instanceEnd = geometry.attributes.instanceEnd; + const lineDistances = new Float32Array( 2 * instanceStart.count ); + + for ( let i = 0, j = 0, l = instanceStart.count; i < l; i ++, j += 2 ) { + + _start.fromBufferAttribute( instanceStart, i ); + _end.fromBufferAttribute( instanceEnd, i ); + + lineDistances[ j ] = ( j === 0 ) ? 0 : lineDistances[ j - 1 ]; + lineDistances[ j + 1 ] = lineDistances[ j ] + _start.distanceTo( _end ); + + } + + const instanceDistanceBuffer = new InstancedInterleavedBuffer( lineDistances, 2, 1 ); // d0, d1 + + geometry.setAttribute( 'instanceDistanceStart', new InterleavedBufferAttribute( instanceDistanceBuffer, 1, 0 ) ); // d0 + geometry.setAttribute( 'instanceDistanceEnd', new InterleavedBufferAttribute( instanceDistanceBuffer, 1, 1 ) ); // d1 + + return this; + + } + + raycast( raycaster, intersects ) { + + const worldUnits = this.material.worldUnits; + const camera = raycaster.camera; + + if ( camera === null && ! worldUnits ) { + + console.error( 'LineSegments2: "Raycaster.camera" needs to be set in order to raycast against LineSegments2 while worldUnits is set to false.' ); + + } + + const threshold = ( raycaster.params.Line2 !== undefined ) ? raycaster.params.Line2.threshold || 0 : 0; + + _ray = raycaster.ray; + + const matrixWorld = this.matrixWorld; + const geometry = this.geometry; + const material = this.material; + + _lineWidth = material.linewidth + threshold; + + // check if we intersect the sphere bounds + if ( geometry.boundingSphere === null ) { + + geometry.computeBoundingSphere(); + + } + + _sphere.copy( geometry.boundingSphere ).applyMatrix4( matrixWorld ); + + // increase the sphere bounds by the worst case line screen space width + let sphereMargin; + if ( worldUnits ) { + + sphereMargin = _lineWidth * 0.5; + + } else { + + const distanceToSphere = Math.max( camera.near, _sphere.distanceToPoint( _ray.origin ) ); + sphereMargin = getWorldSpaceHalfWidth( camera, distanceToSphere, material.resolution ); + + } + + _sphere.radius += sphereMargin; + + if ( _ray.intersectsSphere( _sphere ) === false ) { + + return; + + } + + // check if we intersect the box bounds + if ( geometry.boundingBox === null ) { + + geometry.computeBoundingBox(); + + } + + _box.copy( geometry.boundingBox ).applyMatrix4( matrixWorld ); + + // increase the box bounds by the worst case line width + let boxMargin; + if ( worldUnits ) { + + boxMargin = _lineWidth * 0.5; + + } else { + + const distanceToBox = Math.max( camera.near, _box.distanceToPoint( _ray.origin ) ); + boxMargin = getWorldSpaceHalfWidth( camera, distanceToBox, material.resolution ); + + } + + _box.expandByScalar( boxMargin ); + + if ( _ray.intersectsBox( _box ) === false ) { + + return; + + } + + if ( worldUnits ) { + + raycastWorldUnits( this, intersects ); + + } else { + + raycastScreenSpace( this, camera, intersects ); + + } + + } + + onBeforeRender( renderer ) { + + const uniforms = this.material.uniforms; + + if ( uniforms && uniforms.resolution ) { + + renderer.getViewport( _viewport ); + this.material.uniforms.resolution.value.set( _viewport.z, _viewport.w ); + + } + + } + +} + +export { LineSegments2 }; diff --git a/examples/jsm/loaders/MaterialXLoader.js b/examples/jsm/loaders/MaterialXLoader.js index 3536d497ffd433..52eab8e7a1d1b1 100644 --- a/examples/jsm/loaders/MaterialXLoader.js +++ b/examples/jsm/loaders/MaterialXLoader.js @@ -1,12 +1,5 @@ import { - FileLoader, - Loader, - TextureLoader, - RepeatWrapping -} from 'three'; - -import { - MeshBasicNodeMaterial, MeshPhysicalNodeMaterial, + FileLoader, Loader, TextureLoader, MeshBasicNodeMaterial, MeshPhysicalNodeMaterial, RepeatWrapping, float, bool, int, vec2, vec3, vec4, color, texture, positionLocal, positionWorld, uv, vertexColor, normalLocal, normalWorld, tangentLocal, tangentWorld, @@ -20,7 +13,7 @@ import { mx_safepower, mx_contrast, mx_srgb_texture_to_lin_rec709, saturation -} from '../nodes/Nodes.js'; +} from 'three'; const colorSpaceLib = { mx_srgb_texture_to_lin_rec709 diff --git a/examples/jsm/objects/InstancedPoints.js b/examples/jsm/objects/InstancedPoints.js index 6b736295348583..7e67337a80618d 100644 --- a/examples/jsm/objects/InstancedPoints.js +++ b/examples/jsm/objects/InstancedPoints.js @@ -1,8 +1,8 @@ import { - Mesh + Mesh, + InstancedPointsNodeMaterial } from 'three'; import InstancedPointsGeometry from '../geometries/InstancedPointsGeometry.js'; -import InstancedPointsNodeMaterial from '../nodes/materials/InstancedPointsNodeMaterial.js'; class InstancedPoints extends Mesh { diff --git a/examples/jsm/transpiler/TSLEncoder.js b/examples/jsm/transpiler/TSLEncoder.js index 5c44bf0689437c..d88d431cf1d9f4 100644 --- a/examples/jsm/transpiler/TSLEncoder.js +++ b/examples/jsm/transpiler/TSLEncoder.js @@ -1,6 +1,6 @@ -import { REVISION } from 'three'; +import * as THREE from 'three'; + import { VariableDeclaration, Accessor } from './AST.js'; -import * as Nodes from '../nodes/Nodes.js'; const opLib = { '=': 'assign', @@ -68,7 +68,7 @@ class TSLEncoder { name = name.split( '.' )[ 0 ]; - if ( Nodes[ name ] !== undefined && this.global.has( name ) === false && this._currentProperties[ name ] === undefined ) { + if ( THREE[ name ] !== undefined && this.global.has( name ) === false && this._currentProperties[ name ] === undefined ) { this.imports.add( name ); @@ -685,7 +685,7 @@ ${ this.tab }} )`; const imports = [ ...this.imports ]; - let header = '// Three.js Transpiler r' + REVISION + '\n\n'; + let header = '// Three.js Transpiler r' + THREE.REVISION + '\n\n'; let footer = ''; if ( this.iife ) { diff --git a/examples/webgpu_backdrop.html b/examples/webgpu_backdrop.html index ec9c4ce0537e03..d5617289e165af 100644 --- a/examples/webgpu_backdrop.html +++ b/examples/webgpu_backdrop.html @@ -15,9 +15,9 @@ @@ -25,15 +25,10 @@ @@ -25,17 +25,12 @@ @@ -25,16 +25,10 @@ @@ -23,12 +23,6 @@ @@ -29,13 +29,10 @@ @@ -25,16 +25,12 @@ @@ -37,12 +37,7 @@ @@ -24,14 +24,10 @@ @@ -24,16 +24,10 @@ @@ -24,11 +24,9 @@ @@ -24,11 +24,9 @@ @@ -27,12 +27,7 @@ @@ -27,12 +27,7 @@
- three.js - webgpu custom fog + three.js webgpu - custom fog
@@ -24,12 +24,7 @@ @@ -35,11 +35,7 @@ @@ -24,14 +24,7 @@ @@ -25,13 +25,9 @@ @@ -25,15 +25,11 @@ @@ -26,11 +26,7 @@ @@ -25,12 +25,7 @@ @@ -25,9 +25,6 @@ import Stats from 'three/addons/libs/stats.module.js'; - import WebGPURenderer from 'three/addons/renderers/webgpu/WebGPURenderer.js'; - import { MeshStandardNodeMaterial } from 'three/nodes'; - let camera, scene, renderer, stats, mesh, mixer, dummy; const offset = 5000; @@ -101,7 +98,7 @@ dummy = glb.scene.children[ 0 ]; - mesh = new THREE.InstancedMesh( dummy.geometry, new MeshStandardNodeMaterial( { + mesh = new THREE.InstancedMesh( dummy.geometry, new THREE.MeshStandardNodeMaterial( { flatShading: true, } ), 1024 ); @@ -139,8 +136,7 @@ // renderer - renderer = new WebGPURenderer( { antialias: true } ); - + renderer = new THREE.WebGPURenderer( { antialias: true } ); renderer.setAnimationLoop( animate ); renderer.setPixelRatio( window.devicePixelRatio ); renderer.setSize( window.innerWidth, window.innerHeight ); diff --git a/examples/webgpu_lights_custom.html b/examples/webgpu_lights_custom.html index b44718e5994ad6..2f0a22aa4de897 100644 --- a/examples/webgpu_lights_custom.html +++ b/examples/webgpu_lights_custom.html @@ -1,6 +1,6 @@ - three.js - WebGPU - Custom Lighting Model + three.js webgpu - custom lighting model @@ -8,15 +8,15 @@
- three.js WebGPU - Custom Lighting Model + three.js webgpu - custom lighting model
@@ -24,16 +24,11 @@ @@ -26,14 +26,7 @@ import * as THREE from 'three'; - import WebGPU from 'three/addons/capabilities/WebGPU.js'; - import WebGL from 'three/addons/capabilities/WebGL.js'; - - import WebGPURenderer from 'three/addons/renderers/webgpu/WebGPURenderer.js'; - - import IESSpotLight from 'three/addons/lights/IESSpotLight.js'; - - import { OrbitControls } from 'three/addons/controls/OrbitControls.js'; + import { OrbitControls } from './jsm/controls/OrbitControls.js'; import { IESLoader } from 'three/addons/loaders/IESLoader.js'; @@ -42,20 +35,6 @@ async function init() { - if ( WebGPU.isAvailable() === false && WebGL.isWebGL2Available() === false ) { - - document.body.appendChild( WebGPU.getErrorMessage() ); - - throw new Error( 'No WebGPU or WebGL2 support' ); - - } - - // - - scene = new THREE.Scene(); - - // - const iesLoader = new IESLoader().setPath( './ies/' ); //iesLoader.type = THREE.UnsignedByteType; // LDR @@ -68,7 +47,11 @@ // - const spotLight = new IESSpotLight( 0xff0000, 500 ); + scene = new THREE.Scene(); + + // + + const spotLight = new THREE.IESSpotLight( 0xff0000, 500 ); spotLight.position.set( 6.5, 1.5, 6.5 ); spotLight.angle = Math.PI / 8; spotLight.penumbra = 0.7; @@ -78,7 +61,7 @@ // - const spotLight2 = new IESSpotLight( 0x00ff00, 500 ); + const spotLight2 = new THREE.IESSpotLight( 0x00ff00, 500 ); spotLight2.position.set( 6.5, 1.5, - 6.5 ); spotLight2.angle = Math.PI / 8; spotLight2.penumbra = 0.7; @@ -88,7 +71,7 @@ // - const spotLight3 = new IESSpotLight( 0x0000ff, 500 ); + const spotLight3 = new THREE.IESSpotLight( 0x0000ff, 500 ); spotLight3.position.set( - 6.5, 1.5, - 6.5 ); spotLight3.angle = Math.PI / 8; spotLight3.penumbra = 0.7; @@ -98,7 +81,7 @@ // - const spotLight4 = new IESSpotLight( 0xffffff, 500 ); + const spotLight4 = new THREE.IESSpotLight( 0xffffff, 500 ); spotLight4.position.set( - 6.5, 1.5, 6.5 ); spotLight4.angle = Math.PI / 8; spotLight4.penumbra = 0.7; @@ -122,7 +105,7 @@ // - renderer = new WebGPURenderer( { antialias: true } ); + renderer = new THREE.WebGPURenderer( { antialias: true } ); renderer.setPixelRatio( window.devicePixelRatio ); renderer.setSize( window.innerWidth, window.innerHeight ); renderer.setAnimationLoop( render ); diff --git a/examples/webgpu_lights_phong.html b/examples/webgpu_lights_phong.html index 8aec628cd462d5..d64e26588f7357 100644 --- a/examples/webgpu_lights_phong.html +++ b/examples/webgpu_lights_phong.html @@ -1,7 +1,7 @@ - three.js - WebGPU - Lights Phong + three.js webgpu - phong lighting model @@ -9,16 +9,16 @@
- three.js - WebGPU - Phong Model Lighting
+ three.js webgpu - phong lighting model
Left: Red lights - Center: All lights - Right: blue light
@@ -26,18 +26,13 @@ @@ -31,9 +31,7 @@ import { OrbitControls } from 'three/addons/controls/OrbitControls.js'; import { RectAreaLightHelper } from 'three/addons/helpers/RectAreaLightHelper.js'; - import { RectAreaLightUniformsLib } from 'three/addons/lights/RectAreaLightUniformsLib.js'; - - import WebGPURenderer from 'three/addons/renderers/webgpu/WebGPURenderer.js'; + import { RectAreaLightTexturesLib } from 'three/addons/lights/RectAreaLightTexturesLib.js'; let renderer, scene, camera; let stats, meshKnot; @@ -42,9 +40,9 @@ function init() { - RectAreaLightUniformsLib.init(); + THREE.RectAreaLightNode.setLTC( RectAreaLightTexturesLib.init() ); - renderer = new WebGPURenderer( { antialias: true } ); + renderer = new THREE.WebGPURenderer( { antialias: true } ); renderer.setPixelRatio( window.devicePixelRatio ); renderer.setSize( window.innerWidth, window.innerHeight ); renderer.setAnimationLoop( animation ); diff --git a/examples/webgpu_lights_selective.html b/examples/webgpu_lights_selective.html index 28375a1dfdc929..083f02de70c665 100644 --- a/examples/webgpu_lights_selective.html +++ b/examples/webgpu_lights_selective.html @@ -1,7 +1,7 @@ - three.js - WebGPU - Selective Lights + three.js webgpu - selective lights @@ -9,16 +9,16 @@
- three.js - WebGPU - Selective Lights
+ three.js webgpu - selective lights
Left: Red lights - Center: All lights - Right: blue light
@@ -26,7 +26,7 @@ @@ -26,18 +26,13 @@ @@ -31,12 +31,12 @@ import * as THREE from 'three'; - import { MaterialXLoader } from 'three/addons/loaders/MaterialXLoader.js'; - import { OrbitControls } from 'three/addons/controls/OrbitControls.js'; - import { RGBELoader } from 'three/addons/loaders/RGBELoader.js'; - import { GLTFLoader } from 'three/addons/loaders/GLTFLoader.js'; + import { OrbitControls } from './jsm/controls/OrbitControls.js'; - import WebGPURenderer from 'three/addons/renderers/webgpu/WebGPURenderer.js'; + import { RGBELoader } from './jsm/loaders/RGBELoader.js'; + import { GLTFLoader } from './jsm/loaders/GLTFLoader.js'; + + import { MaterialXLoader } from './jsm/loaders/MaterialXLoader.js'; const SAMPLE_PATH = 'https://raw.githubusercontent.com/materialx/MaterialX/main/resources/Materials/Examples/StandardSurface/'; @@ -79,7 +79,7 @@ scene = new THREE.Scene(); - renderer = new WebGPURenderer( { antialias: true } ); + renderer = new THREE.WebGPURenderer( { antialias: true } ); renderer.setPixelRatio( window.devicePixelRatio ); renderer.setSize( window.innerWidth, window.innerHeight ); renderer.toneMapping = THREE.LinearToneMapping; diff --git a/examples/webgpu_materials.html b/examples/webgpu_materials.html index 99436af0a0c2e8..42a364a029d699 100644 --- a/examples/webgpu_materials.html +++ b/examples/webgpu_materials.html @@ -1,7 +1,7 @@ - three.js - WebGPU - Materials + three.js webgpu - materials @@ -9,15 +9,15 @@
- three.js WebGPU - Materials + three.js webgpu - materials
@@ -25,12 +25,7 @@ @@ -30,14 +30,10 @@ import Stats from 'three/addons/libs/stats.module.js'; - import WebGPURenderer from 'three/addons/renderers/webgpu/WebGPURenderer.js'; - import { GUI } from 'three/addons/libs/lil-gui.module.min.js'; - import { OrbitControls } from 'three/addons/controls/OrbitControls.js' + import { OrbitControls } from 'three/addons/controls/OrbitControls.js'; import { OBJLoader } from 'three/addons/loaders/OBJLoader.js'; - import { MeshStandardNodeMaterial } from 'three/nodes'; - let stats; let camera, scene, renderer, controls; @@ -116,7 +112,7 @@ const container = document.createElement( 'div' ); document.body.appendChild( container ); - renderer = new WebGPURenderer(); + renderer = new THREE.WebGPURenderer(); renderer.setAnimationLoop( animate ); renderer.setPixelRatio( window.devicePixelRatio ); renderer.setSize( window.innerWidth, window.innerHeight ); @@ -173,7 +169,7 @@ // material - material = new MeshStandardNodeMaterial( { + material = new THREE.MeshStandardNodeMaterial( { color: 0xc1c1c1, roughness: settings.roughness, diff --git a/examples/webgpu_materials_lightmap.html b/examples/webgpu_materials_lightmap.html index 5aa1ce3c1746e4..1fd056849d9a8a 100644 --- a/examples/webgpu_materials_lightmap.html +++ b/examples/webgpu_materials_lightmap.html @@ -1,7 +1,7 @@ - three.js webgl - materials - lightmap + three.js webgpu - lightmap @@ -11,9 +11,9 @@ @@ -21,15 +21,12 @@ @@ -27,15 +27,11 @@ import * as THREE from 'three'; - import WebGPURenderer from 'three/addons/renderers/webgpu/WebGPURenderer.js'; - import { GUI } from 'three/addons/libs/lil-gui.module.min.js'; import { OrbitControls } from 'three/addons/controls/OrbitControls.js'; import { GLTFLoader } from 'three/addons/loaders/GLTFLoader.js'; import { EXRLoader } from 'three/addons/loaders/EXRLoader.js'; - import { MeshMatcapNodeMaterial } from 'three/nodes'; - let mesh, renderer, scene, camera; const API = { @@ -48,7 +44,7 @@ function init() { // renderer - renderer = new WebGPURenderer( { antialias: true } ); + renderer = new THREE.WebGPURenderer( { antialias: true } ); renderer.setPixelRatio( window.devicePixelRatio ); renderer.setSize( window.innerWidth, window.innerHeight ); document.body.appendChild( renderer.domElement ); @@ -88,7 +84,7 @@ mesh = gltf.scene.children[ 0 ]; mesh.position.y = - 0.25; - mesh.material = new MeshMatcapNodeMaterial( { + mesh.material = new THREE.MeshMatcapNodeMaterial( { color: new THREE.Color().setHex( API.color ).convertSRGBToLinear(), matcap: matcap, diff --git a/examples/webgpu_materials_sss.html b/examples/webgpu_materials_sss.html index 55625eb59ab813..d6a3e4130f58fc 100644 --- a/examples/webgpu_materials_sss.html +++ b/examples/webgpu_materials_sss.html @@ -9,7 +9,7 @@
-
three.js +
three.js webgpu - sss
Fast subsurface scattering
[Thanks for the art support from Shaochun Lin]
@@ -17,9 +17,9 @@ @@ -27,9 +27,6 @@ @@ -25,13 +25,6 @@ import * as THREE from 'three'; - import { MeshBasicNodeMaterial, MeshToonNodeMaterial } from 'three/nodes'; - - import WebGPU from 'three/addons/capabilities/WebGPU.js'; - import WebGL from 'three/addons/capabilities/WebGL.js'; - - import WebGPURenderer from 'three/addons/renderers/webgpu/WebGPURenderer.js'; - import Stats from 'three/addons/libs/stats.module.js'; import { OrbitControls } from 'three/addons/controls/OrbitControls.js'; @@ -52,14 +45,6 @@ function init( font ) { - if ( WebGPU.isAvailable() === false && WebGL.isWebGL2Available() === false ) { - - document.body.appendChild( WebGPU.getErrorMessage() ); - - throw new Error( 'No WebGPU or WebGL2 support' ); - - } - container = document.createElement( 'div' ); document.body.appendChild( container ); @@ -73,7 +58,7 @@ // - renderer = new WebGPURenderer( { antialias: true } ); + renderer = new THREE.WebGPURenderer( { antialias: true } ); renderer.setPixelRatio( window.devicePixelRatio ); renderer.setSize( window.innerWidth, window.innerHeight ); renderer.setAnimationLoop( render ); @@ -108,7 +93,7 @@ // basic monochromatic energy preservation const diffuseColor = new THREE.Color().setHSL( alpha, 0.5, gamma * 0.5 + 0.1 ).multiplyScalar( 1 - beta * 0.2 ); - const material = new MeshToonNodeMaterial( { + const material = new THREE.MeshToonNodeMaterial( { color: diffuseColor, gradientMap: gradientMap } ); @@ -139,7 +124,7 @@ } ); - const textMaterial = new MeshBasicNodeMaterial(); + const textMaterial = new THREE.MeshBasicNodeMaterial(); const textMesh = new THREE.Mesh( textGeo, textMaterial ); textMesh.position.copy( location ); scene.add( textMesh ); @@ -154,7 +139,7 @@ particleLight = new THREE.Mesh( new THREE.SphereGeometry( 4, 8, 8 ), - new MeshBasicNodeMaterial( { color: 0xffffff } ) + new THREE.MeshBasicNodeMaterial( { color: 0xffffff } ) ); scene.add( particleLight ); diff --git a/examples/webgpu_materials_transmission.html b/examples/webgpu_materials_transmission.html index 3c75b1309f38b3..73ad95c1a9c6cc 100644 --- a/examples/webgpu_materials_transmission.html +++ b/examples/webgpu_materials_transmission.html @@ -1,7 +1,7 @@ - threejs webgpu - materials - transmission + threejs webgpu - transmission @@ -14,7 +14,8 @@ @@ -37,8 +37,6 @@ import * as THREE from 'three'; - import WebGPURenderer from 'three/addons/renderers/webgpu/WebGPURenderer.js'; - let container; let camera, scene, renderer; @@ -83,7 +81,7 @@ light.position.set( 0.5, 1, 1 ).normalize(); scene.add( light ); - renderer = new WebGPURenderer( { antialias: true } ); + renderer = new THREE.WebGPURenderer( { antialias: true } ); renderer.setPixelRatio( window.devicePixelRatio ); renderer.setSize( window.innerWidth, window.innerHeight ); renderer.setAnimationLoop( render ); @@ -253,7 +251,6 @@ } - diff --git a/examples/webgpu_materialx_noise.html b/examples/webgpu_materialx_noise.html index f4da2aa96af504..528daa4ff2aff1 100644 --- a/examples/webgpu_materialx_noise.html +++ b/examples/webgpu_materialx_noise.html @@ -1,22 +1,22 @@ - three.js webgpu - materials - materialx nodes + three.js webgpu - materialx noise
- three.js webgpu - MaterialX - Noise + three.js webgpu - materialx noise
@@ -24,18 +24,13 @@ @@ -25,9 +25,7 @@ @@ -29,12 +29,8 @@ import * as THREE from 'three'; import { GUI } from 'three/addons/libs/lil-gui.module.min.js'; - import { OrbitControls } from 'three/addons/controls/OrbitControls.js'; - - import WebGPU from 'three/addons/capabilities/WebGPU.js'; - import WebGL from 'three/addons/capabilities/WebGL.js'; - import WebGPURenderer from 'three/addons/renderers/webgpu/WebGPURenderer.js'; + import { OrbitControls } from 'three/addons/controls/OrbitControls.js'; let container, camera, scene, renderer, mesh; @@ -42,14 +38,6 @@ function init() { - if ( WebGPU.isAvailable() === false && WebGL.isWebGL2Available() === false ) { - - document.body.appendChild( WebGPU.getErrorMessage() ); - - throw new Error( 'No WebGPU or WebGL2 support' ); - - } - container = document.getElementById( 'container' ); scene = new THREE.Scene(); @@ -76,7 +64,7 @@ initGUI(); - renderer = new WebGPURenderer( { antialias: true } ); + renderer = new THREE.WebGPURenderer( { antialias: true } ); renderer.setPixelRatio( window.devicePixelRatio ); renderer.setSize( window.innerWidth, window.innerHeight ); renderer.setAnimationLoop( function () { diff --git a/examples/webgpu_morphtargets_face.html b/examples/webgpu_morphtargets_face.html index 8575eb2edb2c33..045c8f9de583c1 100644 --- a/examples/webgpu_morphtargets_face.html +++ b/examples/webgpu_morphtargets_face.html @@ -1,7 +1,7 @@ - three.js webgpu - morph targets - face + three.js webgpu - morph face targets @@ -14,14 +14,15 @@
- three.js webgpu - morph targets - face
+ three.js webgpu - morph face targets
model by Face Cap
+
- threejs webgpu - Multiple RenderTargets + threejs webgpu - multiple rendertargets
@@ -24,18 +25,11 @@ +
three.js webgpu - mrt readback
@@ -14,9 +15,9 @@ @@ -24,17 +25,11 @@ @@ -24,17 +24,10 @@ @@ -26,24 +26,19 @@ @@ -27,9 +27,7 @@ @@ -24,15 +24,10 @@ @@ -21,10 +21,7 @@ @@ -21,10 +21,7 @@ @@ -21,12 +21,7 @@ @@ -25,12 +25,10 @@ @@ -20,10 +20,7 @@ @@ -20,13 +20,10 @@ @@ -27,14 +27,7 @@ @@ -20,13 +20,10 @@ @@ -20,13 +20,10 @@ @@ -25,16 +25,10 @@ @@ -24,14 +24,7 @@ @@ -24,13 +25,10 @@
- three.js - webgpu shadow map + three.js webgpu - webgpu shadow map
@@ -24,14 +24,10 @@ @@ -25,15 +25,10 @@ @@ -25,16 +25,10 @@ diff --git a/examples/webgpu_skinning_points.html b/examples/webgpu_skinning_points.html index 0c226d269d4d38..349628f97488e4 100644 --- a/examples/webgpu_skinning_points.html +++ b/examples/webgpu_skinning_points.html @@ -1,7 +1,7 @@ - three.js - WebGPU - Skinning Points + three.js webgpu - skinning points @@ -9,15 +9,15 @@
- three.js WebGPU - Skinning Points + three.js webgpu - skinning points
@@ -25,15 +25,10 @@ @@ -24,12 +24,7 @@ @@ -52,10 +52,7 @@ @@ -27,10 +27,7 @@ @@ -28,24 +28,11 @@ @@ -26,7 +26,6 @@ @@ -51,14 +51,10 @@ @@ -28,11 +28,9 @@ diff --git a/examples/webgpu_video_panorama.html b/examples/webgpu_video_panorama.html index acaadcd76b3529..9b25f17386d176 100644 --- a/examples/webgpu_video_panorama.html +++ b/examples/webgpu_video_panorama.html @@ -26,7 +26,8 @@