mirror of
https://github.com/ZDoom/qzdoom-gpl.git
synced 2024-11-29 15:12:11 +00:00
fd3128a164
- fixed: The shader code for handling special fixed colormaps did not use the color vertex attribute which was most evident with the 'shadow' render style on the spectre.
344 lines
7.6 KiB
GLSL
344 lines
7.6 KiB
GLSL
in vec4 pixelpos;
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in vec2 glowdist;
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in vec4 vTexCoord;
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in vec4 vColor;
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out vec4 FragColor;
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#ifdef SHADER_STORAGE_LIGHTS
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layout(std430, binding = 1) buffer LightBufferSSO
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{
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vec4 lights[];
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};
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#else
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/*layout(std140)*/ uniform LightBufferUBO
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{
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vec4 lights[NUM_UBO_LIGHTS];
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};
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#endif
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uniform sampler2D tex;
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vec4 Process(vec4 color);
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vec4 ProcessTexel();
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vec4 ProcessLight(vec4 color);
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//===========================================================================
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//
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// Desaturate a color
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//
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//===========================================================================
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vec4 desaturate(vec4 texel)
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{
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if (uDesaturationFactor > 0.0)
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{
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float gray = (texel.r * 0.3 + texel.g * 0.56 + texel.b * 0.14);
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return mix (texel, vec4(gray,gray,gray,texel.a), uDesaturationFactor);
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}
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else
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{
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return texel;
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}
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}
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//===========================================================================
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//
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// This function is common for all (non-special-effect) fragment shaders
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//
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//===========================================================================
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vec4 getTexel(vec2 st)
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{
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vec4 texel = texture2D(tex, st);
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//
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// Apply texture modes
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//
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switch (uTextureMode)
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{
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case 1: // TM_MASK
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texel.rgb = vec3(1.0,1.0,1.0);
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break;
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case 2: // TM_OPAQUE
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texel.a = 1.0;
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break;
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case 3: // TM_INVERSE
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texel = vec4(1.0-texel.r, 1.0-texel.b, 1.0-texel.g, texel.a);
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break;
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case 4: // TM_REDTOALPHA
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texel = vec4(1.0, 1.0, 1.0, texel.r);
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break;
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case 5: // TM_CLAMPY
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if (st.t < 0.0 || st.t > 1.0)
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{
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texel.a = 0.0;
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}
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break;
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}
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texel *= uObjectColor;
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return desaturate(texel);
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}
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//===========================================================================
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//
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// Doom lighting equation ripped from EDGE.
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// Big thanks to EDGE developers for making the only port
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// that actually replicates software renderer's lighting in OpenGL.
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// Float version.
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// Basically replace int with float and divide all constants by 31.
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//
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//===========================================================================
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float R_DoomLightingEquation(float light, float dist)
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{
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// Changing this constant gives results very similar to changing r_visibility.
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// Default is 232, it seems to give exactly the same light bands as software renderer.
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#define DOOMLIGHTFACTOR 232.0
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/* L in the range 0 to 63 */
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float L = light * 63.0/31.0;
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float min_L = clamp(36.0/31.0 - L, 0.0, 1.0);
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// Fix objects getting totally black when close.
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if (dist < 0.0001)
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dist = 0.0001;
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float scale = 1.0 / dist;
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float index = (59.0/31.0 - L) - (scale * DOOMLIGHTFACTOR/31.0 - DOOMLIGHTFACTOR/31.0);
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/* result is colormap index (0 bright .. 31 dark) */
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return clamp(index, min_L, 1.0);
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}
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//===========================================================================
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//
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// Calculate light
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//
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// It is important to note that the light color is not desaturated
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// due to ZDoom's implementation weirdness. Everything that's added
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// on top of it, e.g. dynamic lights and glows are, though, because
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// the objects emitting these lights are also.
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//
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// This is making this a bit more complicated than it needs to
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// because we can't just desaturate the final fragment color.
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//
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//===========================================================================
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vec4 getLightColor(float fogdist, float fogfactor)
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{
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vec4 color = vColor;
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if (uLightLevel >= 0.0)
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{
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float newlightlevel = 1.0 - R_DoomLightingEquation(uLightLevel, gl_FragCoord.z);
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color.rgb *= newlightlevel;
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}
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else if (uFogEnabled > 0.0)
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{
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// brightening around the player for light mode 2
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if (fogdist < uLightDist)
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{
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color.rgb *= uLightFactor - (fogdist / uLightDist) * (uLightFactor - 1.0);
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}
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//
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// apply light diminishing through fog equation
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//
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color.rgb = mix(vec3(0.0, 0.0, 0.0), color.rgb, fogfactor);
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}
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//
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// handle glowing walls
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//
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if (uGlowTopColor.a > 0.0 && glowdist.x < uGlowTopColor.a)
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{
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color.rgb += desaturate(uGlowTopColor * (1.0 - glowdist.x / uGlowTopColor.a)).rgb;
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}
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if (uGlowBottomColor.a > 0.0 && glowdist.y < uGlowBottomColor.a)
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{
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color.rgb += desaturate(uGlowBottomColor * (1.0 - glowdist.y / uGlowBottomColor.a)).rgb;
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}
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color = min(color, 1.0);
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//
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// apply brightmaps (or other light manipulation by custom shaders.
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//
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color = ProcessLight(color);
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//
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// apply dynamic lights (except additive)
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//
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vec4 dynlight = uDynLightColor;
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if (uLightIndex >= 0)
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{
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ivec4 lightRange = ivec4(lights[uLightIndex]) + ivec4(uLightIndex + 1);
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if (lightRange.z > lightRange.x)
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{
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//
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// modulated lights
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//
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for(int i=lightRange.x; i<lightRange.y; i+=2)
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{
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vec4 lightpos = lights[i];
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vec4 lightcolor = lights[i+1];
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lightcolor.rgb *= max(lightpos.w - distance(pixelpos.xyz, lightpos.xyz),0.0) / lightpos.w;
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dynlight.rgb += lightcolor.rgb;
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}
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//
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// subtractive lights
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//
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for(int i=lightRange.y; i<lightRange.z; i+=2)
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{
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vec4 lightpos = lights[i];
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vec4 lightcolor = lights[i+1];
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lightcolor.rgb *= max(lightpos.w - distance(pixelpos.xyz, lightpos.xyz),0.0) / lightpos.w;
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dynlight.rgb -= lightcolor.rgb;
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}
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}
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}
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color.rgb = clamp(color.rgb + desaturate(dynlight).rgb, 0.0, 1.4);
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// prevent any unintentional messing around with the alpha.
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return vec4(color.rgb, vColor.a);
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}
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//===========================================================================
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//
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// Applies colored fog
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//
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//===========================================================================
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vec4 applyFog(vec4 frag, float fogfactor)
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{
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return vec4(mix(uFogColor.rgb, frag.rgb, fogfactor), frag.a);
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}
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//===========================================================================
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//
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// Main shader routine
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//
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//===========================================================================
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void main()
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{
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vec4 frag = ProcessTexel();
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#ifndef NO_ALPHATEST
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if (frag.a <= uAlphaThreshold) discard;
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#endif
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switch (uFixedColormap)
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{
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case 0:
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{
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float fogdist = 0.0;
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float fogfactor = 0.0;
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//
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// calculate fog factor
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//
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if (uFogEnabled != 0)
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{
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if (uFogEnabled == 1 || uFogEnabled == -1)
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{
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fogdist = pixelpos.w;
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}
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else
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{
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fogdist = max(16.0, distance(pixelpos.xyz, uCameraPos.xyz));
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}
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fogfactor = exp2 (uFogDensity * fogdist);
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}
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frag *= getLightColor(fogdist, fogfactor);
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if (uLightIndex >= 0)
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{
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ivec4 lightRange = ivec4(lights[uLightIndex]) + ivec4(uLightIndex + 1);
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if (lightRange.w > lightRange.z)
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{
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vec4 addlight = vec4(0.0,0.0,0.0,0.0);
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//
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// additive lights - these can be done after the alpha test.
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//
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for(int i=lightRange.z; i<lightRange.w; i+=2)
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{
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vec4 lightpos = lights[i];
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vec4 lightcolor = lights[i+1];
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lightcolor.rgb *= max(lightpos.w - distance(pixelpos.xyz, lightpos.xyz),0.0) / lightpos.w;
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addlight.rgb += lightcolor.rgb;
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}
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frag.rgb = clamp(frag.rgb + desaturate(addlight).rgb, 0.0, 1.0);
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}
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}
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//
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// colored fog
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//
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if (uFogEnabled < 0)
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{
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frag = applyFog(frag, fogfactor);
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}
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break;
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}
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case 1:
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{
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float gray = (frag.r * 0.3 + frag.g * 0.56 + frag.b * 0.14);
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vec4 cm = uFixedColormapStart + gray * uFixedColormapRange;
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frag = vec4(clamp(cm.rgb, 0.0, 1.0), frag.a*vColor.a);
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break;
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}
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case 2:
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{
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frag = vColor * frag * uFixedColormapStart;
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break;
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}
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case 3:
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{
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float fogdist;
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float fogfactor;
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//
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// calculate fog factor
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//
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if (uFogEnabled == -1)
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{
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fogdist = pixelpos.w;
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}
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else
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{
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fogdist = max(16.0, distance(pixelpos.xyz, uCameraPos.xyz));
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}
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fogfactor = exp2 (uFogDensity * fogdist);
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frag = vec4(uFogColor.rgb, (1.0 - fogfactor) * frag.a * 0.75 * vColor.a);
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break;
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}
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}
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FragColor = frag;
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}
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