uniform float blueLmn[9]; uniform float greenLmn[9]; uniform float redLmn[9]; uniform sampler2D ntex; uniform sampler2D dtex; uniform samplerCube tex; uniform mat4 TransposeViewMatrix; out vec4 Diff; out vec4 Spec; vec3 DecodeNormal(vec2 n); vec4 getPosFromUVDepth(vec3 uvDepth, mat4 InverseProjectionMatrix); mat4 getMatrix(float L[9]) { float c1 = 0.429043, c2 = 0.511664, c3 = 0.743125, c4 = 0.886227, c5 = 0.247708; return mat4( c1 * L[8] /*L22*/, c1 * L[4] /*L2-2*/, c1 * L[7] /*L21*/, c2 * L[3] /*L11*/, c1 * L[4], - c1 * L[8], c1 * L[5] /*L2-1*/, c2 * L[1] /*L1-1*/, c1 * L[7], c1 * L[5], c3 * L[6] /*L20*/, c2 * L[2] /*L10*/, c2 * L[3], c2 * L[1], c2 * L[2], c4 * L[0] /*L00*/ - c5 * L[6] ); } void main(void) { vec2 uv = gl_FragCoord.xy / screen; vec3 normal = normalize(DecodeNormal(2. * texture(ntex, uv).xy - 1.)); // Convert normal in world space (where SH coordinates were computed) vec4 extendednormal = TransposeViewMatrix * vec4(normal, 0.); extendednormal.w = 1.; mat4 rmat = getMatrix(redLmn); mat4 gmat = getMatrix(greenLmn); mat4 bmat = getMatrix(blueLmn); float r = dot(extendednormal, rmat * extendednormal); float g = dot(extendednormal, gmat * extendednormal); float b = dot(extendednormal, bmat * extendednormal); Diff = max(0.25 * vec4(r, g, b, .1), vec4(0.)); float z = texture(dtex, uv).x; vec4 xpos = getPosFromUVDepth(vec3(uv, z), InverseProjectionMatrix); vec3 eyedir = -normalize(xpos.xyz); vec3 sampleDirection = reflect(-eyedir, normal); sampleDirection = (InverseViewMatrix * vec4(sampleDirection, 0.)).xyz; float specval = texture(ntex, uv).z; float lodval = 16 * (1. - ((log2(specval) - 1.) / 10.)); vec4 specular = textureLod(tex, sampleDirection, lodval); Spec = max(specular, vec4(0.)); }