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Normal Mapping using PShaders in Processing.js April 4, 2015

Posted by Andor Saga in gfx, GLSL, JavaScript, Open Source, Processing.js.
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Try my normal mapping PShader Demo:

Last year I made a very simple normal map demo in Processing.js and I posted it on OpenProcessing. It was fun to write, but something that bothered me about it was that the performance was very slow. The reason for this was because it uses a 2D canvas–there’s no hardware acceleration.

Now, I have been working on adding PShader support into Processing.js on my spare time. So here and there i’ll make a few updates. After fixing a bug in my implementation recently, I had enough to port over my normal map demo to use shaders. So, instead of having the lighting calculations in the sketch code, I could have them in GLSL/Shader code. I figured this should increase the performance quite a bit.

Converting the demo from Processing/Java code to GLSL was pretty straightforward–except working out a couple of annoying bugs–I got the demo to resemble what I originally had a year ago, but now the performance is much, much, much better 🙂 I’m no longer limited to a tiny 256×256 canvas and I can use the full client area of the browser. Even with specular lighting, it runs at a solid 60 fps. yay!

If you’re interested in the code, here it is. It’s also posted on github.

#ifdef GL_ES
precision mediump float;

uniform vec2 iResolution;
uniform vec3 iCursor;

uniform sampler2D diffuseMap;
uniform sampler2D normalMap;

void main(){
	vec2 uv = vec2(gl_FragCoord.xy / 512.0);
	uv.y = 1.0 - uv.y;

	vec2 p = vec2(gl_FragCoord);
	float mx = p.x - iCursor.x;
	float my = p.y - (iResolution.y - iCursor.y);
	float mz = 500.0;

	vec3 rayOfLight = normalize(vec3(mx, my, mz));
	vec3 normal = vec3(texture2D(normalMap, uv)) - 0.5;
	normal = normalize(normal);

	float nDotL = max(0.0, dot(rayOfLight, normal));
	vec3 reflection = normal * (2.0 * (nDotL)) - rayOfLight;

	vec3 col = vec3(texture2D(diffuseMap, uv)) * nDotL;

	if(iCursor.z == 1.0){
		float specIntensity = max(0.0, dot(reflection, vec3(.0, .0, 1.)));
		float specRaised = pow(specIntensity, 20.0);
		vec3 specColor = specRaised * vec3(1.0, 0.5, 0.2);
		col += specColor;

	gl_FragColor = vec4(col, 1.0);