Single-file Wave Function Collapse library in C, plus a command-line tool
- License: MIT
- Version: 0.7
This is an early version that supports the overlapping WFC method. The method takes a small input image and generates a larger output image which is locally similar to the input image. A few examples of input/output pairs:
The WFC is often used for procedural map generation, but is not limited to this use-case.
The library is very performant and includes a number of optimizations not found in other implementations. As an example, the generation of the above 128x128 images (from 3x3 patterns, flipped, and rotated), on a MacBook Air M1 (2020) took: 1.35, 0.92, 0.31, 7.7, 1.74, and 0.67 seconds respectively. This includes the image loading/saving time.
One file in your project should include wfc.h
like this:
#define WFC_IMPLEMENTATION
#include "wfc.h"
Other files can also include and use wfc.h
but they shouldn't define
WFC_IMPLEMENTATION
macro.
Alternatively, you can build a traditional .o file with make wfc.o
and use
wfc.h
as a regular header file.
Usage:
struct wfc *wfc = wfc_overlapping(
128, // Output image width in pixels
128, // Output image height in pixels
input_image, // Input image that will be cut into tiles
3, // Tile width in pixels
3, // Tile height in pixels
1, // Expand input image on the right and bottom
1, // Add horizontal flips of all tiles
1, // Add vertical flips of all tiles
1 // Add n*90deg rotations of all tiles
);
wfc_run(wfc, -1); // Run Wave Function Collapse
// -1 means no limit on iterations
struct wfc_image *output_image = wfc_output_image(wfc);
wfc_destroy(wfc);
// use output_image->data
// wfc_img_destroy(output_image);
By default you work with struct wfc_image
for inputs and outputs.
struct wfc_image {
unsigned char *data;
int component_cnt;
int width;
int height;
}
data
is tightly packed without padding. Each pixel consists of
component_cnt
components (e.g., four components for rgba format).
The output image will have the same number of components as the input
image.
wfc_run
returns 0 if it cannot find a solution. You can try again like so:
wfc_init(wfc);
wfc_run(wfc, -1);
wfc can optionally use stb_image.h and stb_image_write.h to provide convenience functions for working directly with image files.
You will normally place stb_image.h
and stb_image_write.h
in the same
directory as wfc.h
and include their implementations in one of the
project files:
#define STB_IMAGE_IMPLEMENTATION
#define STB_IMAGE_WRITE_IMPLEMENTATION
#include "stb_image.h"
#include "stb_image_write.h"
Further, you will instruct wfc.h
to use stb:
#define WFC_IMPLEMENTATION
#define WFC_USE_STB
#include "wfc.h"
Usage:
struct wfc_image *input_image = wfc_img_load("input.png");
struct wfc *wfc = wfc_overlapping(
...
input_image,
...
);
wfc_run(wfc, -1); // Run Wave Function Collapse
// -1 means no restriction on number of iterations
wfc_export(wfc, "output.png");
wfc_img_destroy(input_image);
wfc_destroy(wfc);
Extra functions enabled by the inclusion of stb:
struct wfc_image *image = wfc_img_load("image.png")
wfc_img_save(image, "image.png")
wfc_export(wfc, "output.png")
wfc_export_tiles(wfc, "directory")
// don't forget to wfc_img_destroy(image) loaded images
The command-line tool uses the library and allows to generate WFC images.
The tool depends on stb_image.h
and stb_image_write.h. Place both files in the same
directory as wfctool.c
.
make
./wfc
Run ./wfc
to see available options
Basic usage:
./wfc -m overlapping samples/wrinkles.png output.png
Thanks for using wfc. If you find any bugs, have questions, or feedback please let me know. Also, if you'd like to share your works it's very appreciated.
samp.krystian at gmail.com