138 lines
4.2 KiB
GLSL
138 lines
4.2 KiB
GLSL
#version 110
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uniform sampler2D environmentIrradianceMapId[6];
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uniform sampler2D environmentSpecularMapId[6];
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uniform sampler2D textureId;
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uniform int textureEnabled;
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uniform sampler2D normalMapId;
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uniform int normalMapEnabled;
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uniform sampler2D metalnessRoughnessAoMapId;
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uniform int metalnessMapEnabled;
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uniform int roughnessMapEnabled;
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uniform int aoMapEnabled;
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uniform vec3 eyePosition;
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varying vec3 pointPosition;
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varying vec3 pointNormal;
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varying vec3 pointColor;
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varying vec2 pointTexCoord;
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varying float pointAlpha;
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varying float pointMetalness;
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varying float pointRoughness;
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varying mat3 pointTBN;
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const float PI = 3.1415926;
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vec3 fresnelSchlickRoughness(float NoV, vec3 f0, float roughness)
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{
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return f0 + (max(vec3(1.0 - roughness), f0) - f0) * pow(clamp(1.0 - NoV, 0.0, 1.0), 5.0);
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}
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void cubemap(vec3 r, out float texId, out vec2 st)
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{
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vec3 uvw;
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vec3 absr = abs(r);
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if (absr.x > absr.y && absr.x > absr.z) {
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// x major
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float negx = step(r.x, 0.0);
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uvw = vec3(r.zy, absr.x) * vec3(mix(-1.0, 1.0, negx), -1, 1);
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texId = negx;
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} else if (absr.y > absr.z) {
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// y major
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float negy = step(r.y, 0.0);
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uvw = vec3(r.xz, absr.y) * vec3(1.0, mix(1.0, -1.0, negy), 1.0);
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texId = 2.0 + negy;
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} else {
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// z major
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float negz = step(r.z, 0.0);
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uvw = vec3(r.xy, absr.z) * vec3(mix(1.0, -1.0, negz), -1, 1);
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texId = 4.0 + negz;
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}
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st = vec2(uvw.xy / uvw.z + 1.) * .5;
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}
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vec4 texturesAsCube(in sampler2D maps[6], in vec3 direction)
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{
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float texId;
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vec2 st;
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cubemap(direction, texId, st);
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vec4 color = vec4(0);
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{
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vec4 side = texture2D(maps[0], st);
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float select = step(0.0 - 0.5, texId) * step(texId, 0.0 + 0.5);
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color = mix(color, side, select);
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}
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{
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vec4 side = texture2D(maps[1], st);
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float select = step(1.0 - 0.5, texId) * step(texId, 1.0 + 0.5);
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color = mix(color, side, select);
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}
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{
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vec4 side = texture2D(maps[2], st);
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float select = step(2.0 - 0.5, texId) * step(texId, 2.0 + 0.5);
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color = mix(color, side, select);
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}
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{
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vec4 side = texture2D(maps[3], st);
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float select = step(3.0 - 0.5, texId) * step(texId, 3.0 + 0.5);
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color = mix(color, side, select);
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}
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{
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vec4 side = texture2D(maps[4], st);
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float select = step(4.0 - 0.5, texId) * step(texId, 4.0 + 0.5);
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color = mix(color, side, select);
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}
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{
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vec4 side = texture2D(maps[5], st);
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float select = step(5.0 - 0.5, texId) * step(texId, 5.0 + 0.5);
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color = mix(color, side, select);
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}
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return color;
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}
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void main()
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{
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vec3 color = pointColor;
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float alpha = pointAlpha;
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if (1 == textureEnabled) {
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vec4 textColor = texture2D(textureId, pointTexCoord);
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color = textColor.rgb;
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alpha = textColor.a;
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}
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vec3 normal = pointNormal;
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if (1 == normalMapEnabled) {
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normal = texture2D(normalMapId, pointTexCoord).rgb;
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normal = pointTBN * normalize(normal * 2.0 - 1.0);
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}
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float metalness = pointMetalness;
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if (1 == metalnessMapEnabled) {
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metalness = texture2D(metalnessRoughnessAoMapId, pointTexCoord).b;
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}
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float roughness = pointRoughness;
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if (1 == roughnessMapEnabled) {
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roughness = texture2D(metalnessRoughnessAoMapId, pointTexCoord).g;
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}
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float ambientOcclusion = 1.0;
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if (1 == aoMapEnabled) {
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ambientOcclusion = texture2D(metalnessRoughnessAoMapId, pointTexCoord).r;
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}
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vec3 n = normal;
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vec3 v = normalize(eyePosition - pointPosition);
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vec3 r = reflect(-v, n);
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float NoV = abs(dot(n, v)) + 1e-5;
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vec3 irradiance = texturesAsCube(environmentIrradianceMapId, r).rgb;
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vec3 diffuse = irradiance * (1.0 - metalness) * pointColor;
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vec3 f0 = mix(vec3(0.04), pointColor, metalness);
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vec3 fresnelFactor = fresnelSchlickRoughness(NoV, f0, roughness);
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vec3 specular = fresnelFactor * texturesAsCube(environmentSpecularMapId, r).rgb;
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color = (diffuse + specular) * ambientOcclusion;
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color = color / (color + vec3(1.0));
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color = pow(color, vec3(1.0/2.2));
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gl_FragColor = vec4(color, alpha);
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}
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