convert Stable Cascade nodes to V3 schema

comfy_extras/nodes_stable_cascade.py

@@ -17,55 +17,61 @@
 """
 
 import torch
-import nodes
+from typing_extensions import override
+
 import comfy.utils
+import nodes
+from comfy_api.latest import ComfyExtension, io
 
 
-class StableCascade_EmptyLatentImage:
-    def __init__(self, device="cpu"):
-        self.device = device
+class StableCascade_EmptyLatentImage(io.ComfyNode):
+    @classmethod
+    def define_schema(cls):
+        return io.Schema(
+            node_id="StableCascade_EmptyLatentImage",
+            category="latent/stable_cascade",
+            inputs=[
+                io.Int.Input("width", default=1024, min=256, max=nodes.MAX_RESOLUTION, step=8),
+                io.Int.Input("height", default=1024, min=256, max=nodes.MAX_RESOLUTION, step=8),
+                io.Int.Input("compression", default=42, min=4, max=128, step=1),
+                io.Int.Input("batch_size", default=1, min=1, max=4096),
+            ],
+            outputs=[
+                io.Latent.Output(display_name="stage_c"),
+                io.Latent.Output(display_name="stage_b"),
+            ],
+        )
 
     @classmethod
-    def INPUT_TYPES(s):
-        return {"required": {
-            "width": ("INT", {"default": 1024, "min": 256, "max": nodes.MAX_RESOLUTION, "step": 8}),
-            "height": ("INT", {"default": 1024, "min": 256, "max": nodes.MAX_RESOLUTION, "step": 8}),
-            "compression": ("INT", {"default": 42, "min": 4, "max": 128, "step": 1}),
-            "batch_size": ("INT", {"default": 1, "min": 1, "max": 4096})
-        }}
-    RETURN_TYPES = ("LATENT", "LATENT")
-    RETURN_NAMES = ("stage_c", "stage_b")
-    FUNCTION = "generate"
-
-    CATEGORY = "latent/stable_cascade"
-
-    def generate(self, width, height, compression, batch_size=1):
+    def execute(cls, width, height, compression, batch_size=1):
         c_latent = torch.zeros([batch_size, 16, height // compression, width // compression])
         b_latent = torch.zeros([batch_size, 4, height // 4, width // 4])
-        return ({
+        return io.NodeOutput({
             "samples": c_latent,
         }, {
             "samples": b_latent,
         })
 
-class StableCascade_StageC_VAEEncode:
-    def __init__(self, device="cpu"):
-        self.device = device
 
+class StableCascade_StageC_VAEEncode(io.ComfyNode):
     @classmethod
-    def INPUT_TYPES(s):
-        return {"required": {
-            "image": ("IMAGE",),
-            "vae": ("VAE", ),
-            "compression": ("INT", {"default": 42, "min": 4, "max": 128, "step": 1}),
-        }}
-    RETURN_TYPES = ("LATENT", "LATENT")
-    RETURN_NAMES = ("stage_c", "stage_b")
-    FUNCTION = "generate"
-
-    CATEGORY = "latent/stable_cascade"
-
-    def generate(self, image, vae, compression):
+    def define_schema(cls):
+        return io.Schema(
+            node_id="StableCascade_StageC_VAEEncode",
+            category="latent/stable_cascade",
+            inputs=[
+                io.Image.Input("image"),
+                io.Vae.Input("vae"),
+                io.Int.Input("compression", default=42, min=4, max=128, step=1),
+            ],
+            outputs=[
+                io.Latent.Output(display_name="stage_c"),
+                io.Latent.Output(display_name="stage_b"),
+            ],
+        )
+
+    @classmethod
+    def execute(cls, image, vae, compression):
         width = image.shape[-2]
         height = image.shape[-3]
         out_width = (width // compression) * vae.downscale_ratio
@@ -75,67 +81,82 @@ def generate(self, image, vae, compression):
 
         c_latent = vae.encode(s[:,:,:,:3])
         b_latent = torch.zeros([c_latent.shape[0], 4, (height // 8) * 2, (width // 8) * 2])
-        return ({
+        return io.NodeOutput({
             "samples": c_latent,
         }, {
             "samples": b_latent,
         })
 
-class StableCascade_StageB_Conditioning:
-    @classmethod
-    def INPUT_TYPES(s):
-        return {"required": { "conditioning": ("CONDITIONING",),
-                              "stage_c": ("LATENT",),
-                             }}
-    RETURN_TYPES = ("CONDITIONING",)
-
-    FUNCTION = "set_prior"
 
-    CATEGORY = "conditioning/stable_cascade"
+class StableCascade_StageB_Conditioning(io.ComfyNode):
+    @classmethod
+    def define_schema(cls):
+        return io.Schema(
+            node_id="StableCascade_StageB_Conditioning",
+            category="conditioning/stable_cascade",
+            inputs=[
+                io.Conditioning.Input("conditioning"),
+                io.Latent.Input("stage_c"),
+            ],
+            outputs=[
+                io.Conditioning.Output(),
+            ],
+        )
 
-    def set_prior(self, conditioning, stage_c):
+    @classmethod
+    def execute(cls, conditioning, stage_c):
         c = []
         for t in conditioning:
             d = t[1].copy()
-            d['stable_cascade_prior'] = stage_c['samples']
+            d["stable_cascade_prior"] = stage_c["samples"]
             n = [t[0], d]
             c.append(n)
-        return (c, )
+        return io.NodeOutput(c)
 
-class StableCascade_SuperResolutionControlnet:
-    def __init__(self, device="cpu"):
-        self.device = device
 
+class StableCascade_SuperResolutionControlnet(io.ComfyNode):
     @classmethod
-    def INPUT_TYPES(s):
-        return {"required": {
-            "image": ("IMAGE",),
-            "vae": ("VAE", ),
-        }}
-    RETURN_TYPES = ("IMAGE", "LATENT", "LATENT")
-    RETURN_NAMES = ("controlnet_input", "stage_c", "stage_b")
-    FUNCTION = "generate"
-
-    EXPERIMENTAL = True
-    CATEGORY = "_for_testing/stable_cascade"
-
-    def generate(self, image, vae):
+    def define_schema(cls):
+        return io.Schema(
+            node_id="StableCascade_SuperResolutionControlnet",
+            category="_for_testing/stable_cascade",
+            is_experimental=True,
+            inputs=[
+                io.Image.Input("image"),
+                io.Vae.Input("vae"),
+            ],
+            outputs=[
+                io.Image.Output(display_name="controlnet_input"),
+                io.Latent.Output(display_name="stage_c"),
+                io.Latent.Output(display_name="stage_b"),
+            ],
+        )
+
+    @classmethod
+    def execute(cls, image, vae):
         width = image.shape[-2]
         height = image.shape[-3]
         batch_size = image.shape[0]
         controlnet_input = vae.encode(image[:,:,:,:3]).movedim(1, -1)
 
         c_latent = torch.zeros([batch_size, 16, height // 16, width // 16])
         b_latent = torch.zeros([batch_size, 4, height // 2, width // 2])
-        return (controlnet_input, {
+        return io.NodeOutput(controlnet_input, {
             "samples": c_latent,
         }, {
             "samples": b_latent,
         })
 
-NODE_CLASS_MAPPINGS = {
-    "StableCascade_EmptyLatentImage": StableCascade_EmptyLatentImage,
-    "StableCascade_StageB_Conditioning": StableCascade_StageB_Conditioning,
-    "StableCascade_StageC_VAEEncode": StableCascade_StageC_VAEEncode,
-    "StableCascade_SuperResolutionControlnet": StableCascade_SuperResolutionControlnet,
-}
+
+class StableCascadeExtension(ComfyExtension):
+    @override
+    async def get_node_list(self) -> list[type[io.ComfyNode]]:
+        return [
+            StableCascade_EmptyLatentImage,
+            StableCascade_StageB_Conditioning,
+            StableCascade_StageC_VAEEncode,
+            StableCascade_SuperResolutionControlnet,
+        ]
+
+async def comfy_entrypoint() -> StableCascadeExtension:
+    return StableCascadeExtension()