SHADE_Y3/Assets/Shaders/DeferredComposite_CS.glsl

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#version 450
struct DirectionalLightStruct
{
vec3 direction;
uint isActive;
uint cullingMask;
vec4 diffuseColor;
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mat4 pvMatrix;
uint shadowData;
};
struct AmbientLightStruct
{
vec4 ambientColor;
float strength;
uint isActive;
uint cullingMask;
};
layout(local_size_x = 16, local_size_y = 16) in;
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layout(set = 3, binding = 0, rgba32f) uniform image2D positions;
layout(set = 3, binding = 1, rgba32f) uniform image2D normals;
layout(set = 3, binding = 2, rgba8) uniform image2D albedo;
layout(set = 3, binding = 3, r32ui) uniform uimage2D lightLayerData;
layout(set = 3, binding = 4, r8) uniform image2D ssaoBlurredImage;
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layout(set = 3, binding = 5, rgba8) uniform image2D positionWorldSpace;
layout(set = 3, binding = 6, rgba8) uniform image2D targetImage;
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layout (set = 4, binding = 0) uniform sampler2D shadowMaps[]; // for textures (global)
layout(set = 1, binding = 0) uniform LightCounts
{
uint directionalLights;
uint pointLights;
uint spotLights;
uint ambientLights;
} lightCounts;
layout(std430, set = 1, binding = 1) buffer DirectionalLightData
{
DirectionalLightStruct dLightData[];
} DirLightData;
layout(std430, set = 1, binding = 4) buffer AmbientLightData
{
AmbientLightStruct aLightData[];
} AmbLightData;
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float CalcShadowValue (sampler2D shadowMap, vec4 worldSpaceFragPos, mat4 lightPV)
{
vec4 fragPosLightPOV = lightPV * worldSpaceFragPos;
vec3 converted = (fragPosLightPOV.xyz / fragPosLightPOV.w) * vec3(0.5f) + vec3(0.5f);
return step (fragPosLightPOV.z, texture(shadowMap, converted.xy).r);
}
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void main()
{
// convenient variables
ivec2 globalThread = ivec2(gl_GlobalInvocationID);
// Get the diffuse color of the pixel
vec3 pixelDiffuse = imageLoad (albedo, globalThread).rgb;
// Get position of fragment in world space
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vec4 positionWorld = vec4 (imageLoad (positionWorldSpace, globalThread).rgb, 1.0f);
// Get position of fragment in view spacee
vec3 positionView = imageLoad (positions, globalThread).rgb;
// normal of fragment
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vec3 normalView = imageLoad(normals, globalThread).rgb;
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// light layer index
uint lightLayer = imageLoad (lightLayerData, globalThread).r;
vec3 fragColor = vec3 (0.0f);
vec4 shadowMapColor = vec4 (1.0f);
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for (int i = 0; i < lightCounts.ambientLights; ++i)
{
if ((lightLayer & AmbLightData.aLightData[i].cullingMask) != 0)
{
// Just do some add
//fragColor += pixelDiffuse.rgb * AmbLightData.aLightData[i].ambientColor.rgb * vec3 (0.5f);
fragColor += pixelDiffuse.rgb * AmbLightData.aLightData[i].ambientColor.rgb * vec3 (AmbLightData.aLightData[i].strength);
}
}
for (int i = 0; i < lightCounts.directionalLights; ++i)
{
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if ((lightLayer & DirLightData.dLightData[i].cullingMask) != 0)
{
// get normalized direction of light
vec3 dLightNormalized = normalize (DirLightData.dLightData[i].direction);
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// Get diffuse strength
float diffuseStrength = max (0, dot (dLightNormalized, normalView));
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// Calculate the fragment color
fragColor += DirLightData.dLightData[i].diffuseColor.rgb * diffuseStrength.rrr * pixelDiffuse;
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// If the shadow map is enabled (test the bit)
if ((DirLightData.dLightData[i].shadowData & uint(1)) == 1)
{
// calculate shadow map here
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fragColor *= CalcShadowValue (shadowMaps[0], positionWorld, DirLightData.dLightData[i].pvMatrix).xxx;
}
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}
}
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float ssaoVal = imageLoad (ssaoBlurredImage, globalThread).r;
fragColor *= ssaoVal;
// store result into result image
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imageStore(targetImage, ivec2(gl_GlobalInvocationID.xy), vec4(fragColor.rgb, 1.0f));
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// vec2 normTexCoords = vec2 (gl_GlobalInvocationID.xy) / vec2 (1024.0f);
// vec4 shadowMapVal = texture(shadowMaps[0], normTexCoords);
// if (normTexCoords.x > 1.0f || normTexCoords.y > 1.0f)
// shadowMapVal = vec4(0.0f);
// imageStore(targetImage, ivec2(gl_GlobalInvocationID.xy), shadowMapVal.xxxx);
}