uniform sampler2D dtex; uniform float density; uniform vec3 fogcol; flat in vec3 center; flat in float energy; flat in vec3 col; flat in float radius; out vec4 Fog; #stk_include "utils/getPosFromUVDepth.frag" void main() { vec4 pseudocenter = u_view_matrix * vec4(center.xyz, 1.0); pseudocenter /= pseudocenter.w; vec3 light_pos = pseudocenter.xyz; vec3 light_col = col.xyz; // Compute pixel position vec2 texc = 2. * gl_FragCoord.xy / u_screen; float z = texture(dtex, texc).x; vec4 pixelpos = getPosFromUVDepth(vec3(texc, z), u_inverse_projection_matrix); vec3 eyedir = -normalize(pixelpos.xyz); vec3 farthestpoint = - eyedir * (min(dot(-eyedir, light_pos) + radius, length(pixelpos.xyz))); vec3 closestpoint = - eyedir * (dot(-eyedir, light_pos) - radius); if (closestpoint.z < 1.) closestpoint = vec3(0.); float stepsize = length(farthestpoint - closestpoint) / 16.; vec3 fog = vec3(0.); vec3 xpos = farthestpoint; for (int i = 0; i < 16; i++) { float d = distance(light_pos, xpos); float l = (16. - float(i)) * stepsize; float att = energy * 20. / (1. + d * d); att *= max((radius - d) / radius, 0.); fog += density * light_col * att * exp(- density * d) * exp(- density * l) * stepsize; xpos += stepsize * eyedir; } Fog = vec4(fogcol * fog, 0.); }