Urho3D/bin/CoreData/Shaders/HLSL/PostProcess.hlsl

109 lines
3.1 KiB
HLSL

static const float PI = 3.14159265;
float2 Noise(float2 coord)
{
float noiseX = clamp(frac(sin(dot(coord, float2(12.9898, 78.233))) * 43758.5453), 0.0, 1.0);
float noiseY = clamp(frac(sin(dot(coord, float2(12.9898, 78.233) * 2.0)) * 43758.5453), 0.0, 1.0);
return float2(noiseX, noiseY);
}
// Adapted: http://callumhay.blogspot.com/2010/09/gaussian-blur-shader-glsl.html
#ifndef D3D11
float4 GaussianBlur(int blurKernelSize, float2 blurDir, float2 blurRadius, float sigma, sampler2D texSampler, float2 texCoord)
#else
float4 GaussianBlur(int blurKernelSize, float2 blurDir, float2 blurRadius, float sigma, Texture2D tex, SamplerState texSampler, float2 texCoord)
#endif
{
const int blurKernelHalfSize = blurKernelSize / 2;
// Incremental Gaussian Coefficent Calculation (See GPU Gems 3 pp. 877 - 889)
float3 gaussCoeff;
gaussCoeff.x = 1.0 / (sqrt(2.0 * PI) * sigma);
gaussCoeff.y = exp(-0.5 / (sigma * sigma));
gaussCoeff.z = gaussCoeff.y * gaussCoeff.y;
float2 blurVec = blurRadius * blurDir;
float4 avgValue = float4(0.0, 0.0, 0.0, 0.0);
float gaussCoeffSum = 0.0;
#ifndef D3D11
avgValue += tex2D(texSampler, texCoord) * gaussCoeff.x;
#else
avgValue += tex.Sample(texSampler, texCoord) * gaussCoeff.x;
#endif
gaussCoeffSum += gaussCoeff.x;
gaussCoeff.xy *= gaussCoeff.yz;
for (int i = 1; i <= blurKernelHalfSize; i++)
{
#ifndef D3D11
avgValue += tex2D(texSampler, texCoord - i * blurVec) * gaussCoeff.x;
avgValue += tex2D(texSampler, texCoord + i * blurVec) * gaussCoeff.x;
#else
avgValue += tex.Sample(texSampler, texCoord - i * blurVec) * gaussCoeff.x;
avgValue += tex.Sample(texSampler, texCoord + i * blurVec) * gaussCoeff.x;
#endif
gaussCoeffSum += 2.0 * gaussCoeff.x;
gaussCoeff.xy *= gaussCoeff.yz;
}
return avgValue / gaussCoeffSum;
}
static const float3 LumWeights = float3(0.2126, 0.7152, 0.0722);
float3 ReinhardEq3Tonemap(float3 x)
{
return x / (x + 1.0);
}
float3 ReinhardEq4Tonemap(float3 x, float white)
{
return x * (1.0 + x / white) / (1.0 + x);
}
// Unchared2 tone mapping (See http://filmicgames.com)
static const float A = 0.15;
static const float B = 0.50;
static const float C = 0.10;
static const float D = 0.20;
static const float E = 0.02;
static const float F = 0.30;
float3 Uncharted2Tonemap(float3 x)
{
return ((x*(A*x+C*B)+D*E)/(x*(A*x+B)+D*F))-E/F;
}
#ifndef D3D11
float3 ColorCorrection(float3 color, sampler3D lut)
#else
float3 ColorCorrection(float3 color, Texture3D lut, SamplerState lutSampler)
#endif
{
float lutSize = 16.0;
float scale = (lutSize - 1.0) / lutSize;
float offset = 1.0 / (2.0 * lutSize);
#ifndef D3D11
return tex3D(lut, clamp(color, 0.0, 1.0) * scale + offset).rgb;
#else
return lut.Sample(lutSampler, clamp(color, 0.0, 1.0) * scale + offset).rgb;
#endif
}
static const float Gamma = 2.2;
static const float InverseGamma = 1.0 / 2.2;
float3 ToGamma(float3 color)
{
return float3(pow(color, Gamma));
}
float3 ToInverseGamma(float3 color)
{
return float3(pow(color, InverseGamma));
}