render.frag. The python scripts are merely for setting the UI and compiling the GLSL code.
You may simply run
python main.py and then use keyboard and mouse to play with the simulation (for keyboard and mouse control please see the printed doc).
You may also initialize the window by passing more options:
python main.py -size 800x600 -fps 400 -conf 1 -scale 2
-size is the size of the window,
-fps is the frames per second of the animation, if not specified then max possible value will be used,
-conf is the line number of the pattern that the program will load from the file
config.txt (which contains a few precomputed patterns),
-scale is the "resolution" factor of the texture.
You may also use an image file to control the growth of the pattern by adding the
How to save the animation to a video file
ffmpeg is installed on your computer and can be found on system path, windows users need to manually add the path to your
ffmpeg.exe to environment variables, then press
ctrl+v to start saving the video and press
ctrl+v again to stop the saving.
You can use the option
-videorate to control the fps of the video (not the animation!) and the option
-samplerate to control how often a frame is sampled from the animation. If the frames are sampled too frequently the size of the video file will grow very large.
About the code
pyglet is only a thin wrapper of OpenGL so one has to write his own classes to manage things like
framebuffer, etc. There are some modules like
gletools that does similar job, but that lays the burden of learning one more package.
I wrote two scripts
framebuffer.py for compiling the shader programs and rendering to texture. They are not meant to be serious tools, just kept simple and suffice for our work.
The GLSL code borrows heavily from pmneila's work, the most genius part in his code is the use of a
brush variable (
u_mouse in our program) as the interface between the shader and the UI.