hellcat-nardo-felidal/Assets/Dragon/Materials/OptimizedShaders/Blush/CGI_FunctionsArtistic.cginc

#ifndef POI_FUNCTIONS_ARTISTIC
    #define POI_FUNCTIONS_ARTISTIC
    void poiChannelMixer(float3 In, float3 _ChannelMixer_Red, float3 _ChannelMixer_Green, float3 _ChannelMixer_Blue, out float3 Out)
    {
        Out = float3(dot(In, _ChannelMixer_Red), dot(In, _ChannelMixer_Green), dot(In, _ChannelMixer_Blue));
    }
    void poiContrast(float3 In, float Contrast, out float3 Out)
    {
        float midpoint = pow(0.5, 2.2);
        Out = (In - midpoint) * Contrast + midpoint;
    }
    void poiInvertColors(float4 In, float4 InvertColors, out float4 Out)
    {
        Out = abs(InvertColors - In);
    }
    void poiReplaceColor(float3 In, float3 From, float3 To, float Range, float Fuzziness, out float3 Out)
    {
        float Distance = distance(From, In);
        Out = lerp(To, In, saturate((Distance - Range) / max(Fuzziness, 0.00001)));
    }
    void poiSaturation(float3 In, float Saturation, out float3 Out)
    {
        float luma = dot(In, float3(0.2126729, 0.7151522, 0.0721750));
        Out = luma.xxx + Saturation.xxx * (In - luma.xxx);
    }
    void poiDither(float4 In, float4 ScreenPosition, out float4 Out)
    {
        float2 uv = ScreenPosition.xy * _ScreenParams.xy;
        float DITHER_THRESHOLDS[16] = {
            1.0 / 17.0, 9.0 / 17.0, 3.0 / 17.0, 11.0 / 17.0,
            13.0 / 17.0, 5.0 / 17.0, 15.0 / 17.0, 7.0 / 17.0,
            4.0 / 17.0, 12.0 / 17.0, 2.0 / 17.0, 10.0 / 17.0,
            16.0 / 17.0, 8.0 / 17.0, 14.0 / 17.0, 6.0 / 17.0
        };
        uint index = (uint(uv.x) % 4) * 4 + uint(uv.y) % 4;
        Out = In - DITHER_THRESHOLDS[index];
    }
    void poiColorMask(float3 In, float3 MaskColor, float Range, float Fuzziness, out float4 Out)
    {
        float Distance = distance(MaskColor, In);
        Out = saturate(1 - (Distance - Range) / max(Fuzziness, 0.00001));
    }
    float3 hueShift(float3 color, float Offset)
    {
        float4 K = float4(0.0, -1.0 / 3.0, 2.0 / 3.0, -1.0);
        float4 P = lerp(float4(color.bg, K.wz), float4(color.gb, K.xy), step(color.b, color.g));
        float4 Q = lerp(float4(P.xyw, color.r), float4(color.r, P.yzx), step(P.x, color.r));
        float D = Q.x - min(Q.w, Q.y);
        float E = 0.0000000001;
        float3 hsv = float3(abs(Q.z + (Q.w - Q.y) / (6.0 * D + E)), D / (Q.x + E), Q.x);
        float hue = hsv.x + Offset;
        hsv.x = frac(hue);
        float4 K2 = float4(1.0, 2.0 / 3.0, 1.0 / 3.0, 3.0);
        float3 P2 = abs(frac(hsv.xxx + K2.xyz) * 6.0 - K2.www);
        return hsv.z * lerp(K2.xxx, saturate(P2 - K2.xxx), hsv.y);
    }
    static const float Epsilon = 1e-10;
    static const float3 HCYwts = float3(0.299, 0.587, 0.114);
    static const float HCLgamma = 3;
    static const float HCLy0 = 100;
    static const float HCLmaxL = 0.530454533953517; // == exp(HCLgamma / HCLy0) - 0.5
    static const float3 wref = float3(1.0, 1.0, 1.0);
    #define TAU 6.28318531
    float3 HUEtoRGB(in float H)
    {
        float R = abs(H * 6 - 3) - 1;
        float G = 2 - abs(H * 6 - 2);
        float B = 2 - abs(H * 6 - 4);
        return saturate(float3(R, G, B));
    }
    float3 RGBtoHCV(in float3 RGB)
    {
        float4 P = (RGB.g < RGB.b) ? float4(RGB.bg, -1.0, 2.0 / 3.0): float4(RGB.gb, 0.0, -1.0 / 3.0);
        float4 Q = (RGB.r < P.x) ? float4(P.xyw, RGB.r): float4(RGB.r, P.yzx);
        float C = Q.x - min(Q.w, Q.y);
        float H = abs((Q.w - Q.y) / (6 * C + Epsilon) + Q.z);
        return float3(H, C, Q.x);
    }
    float3 HSVtoRGB(in float3 HSV)
    {
        float3 RGB = HUEtoRGB(HSV.x);
        return((RGB - 1) * HSV.y + 1) * HSV.z;
    }
    float3 RGBtoHSV(in float3 RGB)
    {
        float3 HCV = RGBtoHCV(RGB);
        float S = HCV.y / (HCV.z + Epsilon);
        return float3(HCV.x, S, HCV.z);
    }
    float3 HSLtoRGB(in float3 HSL)
    {
        float3 RGB = HUEtoRGB(HSL.x);
        float C = (1 - abs(2 * HSL.z - 1)) * HSL.y;
        return(RGB - 0.5) * C + HSL.z;
    }
    float3 RGBtoHSL(in float3 RGB)
    {
        float3 HCV = RGBtoHCV(RGB);
        float L = HCV.z - HCV.y * 0.5;
        float S = HCV.y / (1 - abs(L * 2 - 1) + Epsilon);
        return float3(HCV.x, S, L);
    }
    float3 HCYtoRGB(in float3 HCY)
    {
        float3 RGB = HUEtoRGB(HCY.x);
        float Z = dot(RGB, HCYwts);
        if (HCY.z < Z)
        {
            HCY.y *= HCY.z / Z;
        }
        else if(Z < 1)
        {
            HCY.y *= (1 - HCY.z) / (1 - Z);
        }
        return(RGB - Z) * HCY.y + HCY.z;
    }
    float3 RGBtoHCY(in float3 RGB)
    {
        float3 HCV = RGBtoHCV(RGB);
        float Y = dot(RGB, HCYwts);
        float Z = dot(HUEtoRGB(HCV.x), HCYwts);
        if (Y < Z)
        {
            HCV.y *= Z / (Epsilon + Y);
        }
        else
        {
            HCV.y *= (1 - Z) / (Epsilon + 1 - Y);
        }
        return float3(HCV.x, HCV.y, Y);
    }
    float3 HCLtoRGB(in float3 HCL)
    {
        float3 RGB = 0;
        if(HCL.z != 0)
        {
            float H = HCL.x;
            float C = HCL.y;
            float L = HCL.z * HCLmaxL;
            float Q = exp((1 - C / (2 * L)) * (HCLgamma / HCLy0));
            float U = (2 * L - C) / (2 * Q - 1);
            float V = C / Q;
            float A = (H + min(frac(2 * H) / 4, frac(-2 * H) / 8)) * pi * 2;
            float T;
            H *= 6;
            if(H <= 0.999)
            {
                T = tan(A);
                RGB.r = 1;
                RGB.g = T / (1 + T);
            }
            else if(H <= 1.001)
            {
                RGB.r = 1;
                RGB.g = 1;
            }
            else if(H <= 2)
            {
                T = tan(A);
                RGB.r = (1 + T) / T;
                RGB.g = 1;
            }
            else if(H <= 3)
            {
                T = tan(A);
                RGB.g = 1;
                RGB.b = 1 + T;
            }
            else if(H <= 3.999)
            {
                T = tan(A);
                RGB.g = 1 / (1 + T);
                RGB.b = 1;
            }
            else if(H <= 4.001)
            {
                RGB.g = 0;
                RGB.b = 1;
            }
            else if(H <= 5)
            {
                T = tan(A);
                RGB.r = -1 / T;
                RGB.b = 1;
            }
            else
            {
                T = tan(A);
                RGB.r = 1;
                RGB.b = -T;
            }
            RGB = RGB * V + U;
        }
        return RGB;
    }
    float3 RGBtoHCL(in float3 RGB)
    {
        float3 HCL;
        float H = 0;
        float U = min(RGB.r, min(RGB.g, RGB.b));
        float V = max(RGB.r, max(RGB.g, RGB.b));
        float Q = HCLgamma / HCLy0;
        HCL.y = V - U;
        if(HCL.y != 0)
        {
            H = atan2(RGB.g - RGB.b, RGB.r - RGB.g) / pi;
            Q *= U / V;
        }
        Q = exp(Q);
        HCL.x = frac(H / 2 - min(frac(H), frac(-H)) / 6);
        HCL.y *= Q;
        HCL.z = lerp(-U, V, Q) / (HCLmaxL * 2);
        return HCL;
    }
    float3 ModifyViaHSL(float3 color, float3 HSLMod)
    {
        float3 colorHSL = RGBtoHSL(color);
        colorHSL.r = frac(colorHSL.r + HSLMod.r);
        colorHSL.g = saturate(colorHSL.g + HSLMod.g);
        colorHSL.b = saturate(colorHSL.b + HSLMod.b);
        return HSLtoRGB(colorHSL);
    }
    float3 poiSaturation(float3 In, float Saturation)
    {
        float luma = dot(In, float3(0.2126729, 0.7151522, 0.0721750));
        return luma.xxx + Saturation.xxx * (In - luma.xxx);
    }
    float xyzF(float t)
    {
        return lerp(pow(t, 1. / 3.), 7.787037 * t + 0.139731, step(t, 0.00885645));
    }
    float xyzR(float t)
    {
        return lerp(t * t * t, 0.1284185 * (t - 0.139731), step(t, 0.20689655));
    }
    float3 rgb2lch(in float3 c)
    {
        c = mul(float3x3(0.4124, 0.3576, 0.1805,
        0.2126, 0.7152, 0.0722,
        0.0193, 0.1192, 0.9505), c);
        c.x = xyzF(c.x / wref.x);
        c.y = xyzF(c.y / wref.y);
        c.z = xyzF(c.z / wref.z);
        float3 lab = float3(max(0., 116.0 * c.y - 16.0), 500.0 * (c.x - c.y), 200.0 * (c.y - c.z));
        return float3(lab.x, length(float2(lab.y, lab.z)), atan2(lab.z, lab.y));
    }
    float3 lch2rgb(in float3 c)
    {
        c = float3(c.x, cos(c.z) * c.y, sin(c.z) * c.y);
        float lg = 1. / 116. * (c.x + 16.);
        float3 xyz = float3(wref.x * xyzR(lg + 0.002 * c.y),
        wref.y * xyzR(lg),
        wref.z * xyzR(lg - 0.005 * c.z));
        float3 rgb = mul(float3x3(3.2406, -1.5372, -0.4986,
        - 0.9689, 1.8758, 0.0415,
        0.0557, -0.2040, 1.0570), xyz);
        return rgb;
    }
    float lerpAng(in float a, in float b, in float x)
    {
        float ang = fmod(fmod((a - b), TAU) + pi * 3., TAU) - pi;
        return ang * x + b;
    }
    float3 lerpLch(in float3 a, in float3 b, in float x)
    {
        float hue = lerpAng(a.z, b.z, x);
        return float3(lerp(b.xy, a.xy, x), hue);
    }
    float3 poiExpensiveColorBlend(float3 col1, float3 col2, float alpha)
    {
        return lch2rgb(lerpLch(rgb2lch(col1), rgb2lch(col2), alpha));
    }
#endif
I need this shit on linux 2023-09-17 06:37:55 +00:00			`#ifndef POI_FUNCTIONS_ARTISTIC`
			`#define POI_FUNCTIONS_ARTISTIC`
			`void poiChannelMixer(float3 In, float3 _ChannelMixer_Red, float3 _ChannelMixer_Green, float3 _ChannelMixer_Blue, out float3 Out)`
			`{`
			`Out = float3(dot(In, _ChannelMixer_Red), dot(In, _ChannelMixer_Green), dot(In, _ChannelMixer_Blue));`
			`}`
			`void poiContrast(float3 In, float Contrast, out float3 Out)`
			`{`
			`float midpoint = pow(0.5, 2.2);`
			`Out = (In - midpoint) * Contrast + midpoint;`
			`}`
			`void poiInvertColors(float4 In, float4 InvertColors, out float4 Out)`
			`{`
			`Out = abs(InvertColors - In);`
			`}`
			`void poiReplaceColor(float3 In, float3 From, float3 To, float Range, float Fuzziness, out float3 Out)`
			`{`
			`float Distance = distance(From, In);`
			`Out = lerp(To, In, saturate((Distance - Range) / max(Fuzziness, 0.00001)));`
			`}`
			`void poiSaturation(float3 In, float Saturation, out float3 Out)`
			`{`
			`float luma = dot(In, float3(0.2126729, 0.7151522, 0.0721750));`
			`Out = luma.xxx + Saturation.xxx * (In - luma.xxx);`
			`}`
			`void poiDither(float4 In, float4 ScreenPosition, out float4 Out)`
			`{`
			`float2 uv = ScreenPosition.xy * _ScreenParams.xy;`
			`float DITHER_THRESHOLDS[16] = {`
			`1.0 / 17.0, 9.0 / 17.0, 3.0 / 17.0, 11.0 / 17.0,`
			`13.0 / 17.0, 5.0 / 17.0, 15.0 / 17.0, 7.0 / 17.0,`
			`4.0 / 17.0, 12.0 / 17.0, 2.0 / 17.0, 10.0 / 17.0,`
			`16.0 / 17.0, 8.0 / 17.0, 14.0 / 17.0, 6.0 / 17.0`
			`};`
			`uint index = (uint(uv.x) % 4) * 4 + uint(uv.y) % 4;`
			`Out = In - DITHER_THRESHOLDS[index];`
			`}`
			`void poiColorMask(float3 In, float3 MaskColor, float Range, float Fuzziness, out float4 Out)`
			`{`
			`float Distance = distance(MaskColor, In);`
			`Out = saturate(1 - (Distance - Range) / max(Fuzziness, 0.00001));`
			`}`
			`float3 hueShift(float3 color, float Offset)`
			`{`
			`float4 K = float4(0.0, -1.0 / 3.0, 2.0 / 3.0, -1.0);`
			`float4 P = lerp(float4(color.bg, K.wz), float4(color.gb, K.xy), step(color.b, color.g));`
			`float4 Q = lerp(float4(P.xyw, color.r), float4(color.r, P.yzx), step(P.x, color.r));`
			`float D = Q.x - min(Q.w, Q.y);`
			`float E = 0.0000000001;`
			`float3 hsv = float3(abs(Q.z + (Q.w - Q.y) / (6.0 * D + E)), D / (Q.x + E), Q.x);`
			`float hue = hsv.x + Offset;`
			`hsv.x = frac(hue);`
			`float4 K2 = float4(1.0, 2.0 / 3.0, 1.0 / 3.0, 3.0);`
			`float3 P2 = abs(frac(hsv.xxx + K2.xyz) * 6.0 - K2.www);`
			`return hsv.z * lerp(K2.xxx, saturate(P2 - K2.xxx), hsv.y);`
			`}`
			`static const float Epsilon = 1e-10;`
			`static const float3 HCYwts = float3(0.299, 0.587, 0.114);`
			`static const float HCLgamma = 3;`
			`static const float HCLy0 = 100;`
			`static const float HCLmaxL = 0.530454533953517; // == exp(HCLgamma / HCLy0) - 0.5`
			`static const float3 wref = float3(1.0, 1.0, 1.0);`
			`#define TAU 6.28318531`
			`float3 HUEtoRGB(in float H)`
			`{`
			`float R = abs(H * 6 - 3) - 1;`
			`float G = 2 - abs(H * 6 - 2);`
			`float B = 2 - abs(H * 6 - 4);`
			`return saturate(float3(R, G, B));`
			`}`
			`float3 RGBtoHCV(in float3 RGB)`
			`{`
			`float4 P = (RGB.g < RGB.b) ? float4(RGB.bg, -1.0, 2.0 / 3.0): float4(RGB.gb, 0.0, -1.0 / 3.0);`
			`float4 Q = (RGB.r < P.x) ? float4(P.xyw, RGB.r): float4(RGB.r, P.yzx);`
			`float C = Q.x - min(Q.w, Q.y);`
			`float H = abs((Q.w - Q.y) / (6 * C + Epsilon) + Q.z);`
			`return float3(H, C, Q.x);`
			`}`
			`float3 HSVtoRGB(in float3 HSV)`
			`{`
			`float3 RGB = HUEtoRGB(HSV.x);`
			`return((RGB - 1) * HSV.y + 1) * HSV.z;`
			`}`
			`float3 RGBtoHSV(in float3 RGB)`
			`{`
			`float3 HCV = RGBtoHCV(RGB);`
			`float S = HCV.y / (HCV.z + Epsilon);`
			`return float3(HCV.x, S, HCV.z);`
			`}`
			`float3 HSLtoRGB(in float3 HSL)`
			`{`
			`float3 RGB = HUEtoRGB(HSL.x);`
			`float C = (1 - abs(2 * HSL.z - 1)) * HSL.y;`
			`return(RGB - 0.5) * C + HSL.z;`
			`}`
			`float3 RGBtoHSL(in float3 RGB)`
			`{`
			`float3 HCV = RGBtoHCV(RGB);`
			`float L = HCV.z - HCV.y * 0.5;`
			`float S = HCV.y / (1 - abs(L * 2 - 1) + Epsilon);`
			`return float3(HCV.x, S, L);`
			`}`
			`float3 HCYtoRGB(in float3 HCY)`
			`{`
			`float3 RGB = HUEtoRGB(HCY.x);`
			`float Z = dot(RGB, HCYwts);`
			`if (HCY.z < Z)`
			`{`
			`HCY.y *= HCY.z / Z;`
			`}`
			`else if(Z < 1)`
			`{`
			`HCY.y *= (1 - HCY.z) / (1 - Z);`
			`}`
			`return(RGB - Z) * HCY.y + HCY.z;`
			`}`
			`float3 RGBtoHCY(in float3 RGB)`
			`{`
			`float3 HCV = RGBtoHCV(RGB);`
			`float Y = dot(RGB, HCYwts);`
			`float Z = dot(HUEtoRGB(HCV.x), HCYwts);`
			`if (Y < Z)`
			`{`
			`HCV.y *= Z / (Epsilon + Y);`
			`}`
			`else`
			`{`
			`HCV.y *= (1 - Z) / (Epsilon + 1 - Y);`
			`}`
			`return float3(HCV.x, HCV.y, Y);`
			`}`
			`float3 HCLtoRGB(in float3 HCL)`
			`{`
			`float3 RGB = 0;`
			`if(HCL.z != 0)`
			`{`
			`float H = HCL.x;`
			`float C = HCL.y;`
			`float L = HCL.z * HCLmaxL;`
			`float Q = exp((1 - C / (2 * L)) * (HCLgamma / HCLy0));`
			`float U = (2 * L - C) / (2 * Q - 1);`
			`float V = C / Q;`
			`float A = (H + min(frac(2 * H) / 4, frac(-2 * H) / 8)) * pi * 2;`
			`float T;`
			`H *= 6;`
			`if(H <= 0.999)`
			`{`
			`T = tan(A);`
			`RGB.r = 1;`
			`RGB.g = T / (1 + T);`
			`}`
			`else if(H <= 1.001)`
			`{`
			`RGB.r = 1;`
			`RGB.g = 1;`
			`}`
			`else if(H <= 2)`
			`{`
			`T = tan(A);`
			`RGB.r = (1 + T) / T;`
			`RGB.g = 1;`
			`}`
			`else if(H <= 3)`
			`{`
			`T = tan(A);`
			`RGB.g = 1;`
			`RGB.b = 1 + T;`
			`}`
			`else if(H <= 3.999)`
			`{`
			`T = tan(A);`
			`RGB.g = 1 / (1 + T);`
			`RGB.b = 1;`
			`}`
			`else if(H <= 4.001)`
			`{`
			`RGB.g = 0;`
			`RGB.b = 1;`
			`}`
			`else if(H <= 5)`
			`{`
			`T = tan(A);`
			`RGB.r = -1 / T;`
			`RGB.b = 1;`
			`}`
			`else`
			`{`
			`T = tan(A);`
			`RGB.r = 1;`
			`RGB.b = -T;`
			`}`
			`RGB = RGB * V + U;`
			`}`
			`return RGB;`
			`}`
			`float3 RGBtoHCL(in float3 RGB)`
			`{`
			`float3 HCL;`
			`float H = 0;`
			`float U = min(RGB.r, min(RGB.g, RGB.b));`
			`float V = max(RGB.r, max(RGB.g, RGB.b));`
			`float Q = HCLgamma / HCLy0;`
			`HCL.y = V - U;`
			`if(HCL.y != 0)`
			`{`
			`H = atan2(RGB.g - RGB.b, RGB.r - RGB.g) / pi;`
			`Q *= U / V;`
			`}`
			`Q = exp(Q);`
			`HCL.x = frac(H / 2 - min(frac(H), frac(-H)) / 6);`
			`HCL.y *= Q;`
			`HCL.z = lerp(-U, V, Q) / (HCLmaxL * 2);`
			`return HCL;`
			`}`
			`float3 ModifyViaHSL(float3 color, float3 HSLMod)`
			`{`
			`float3 colorHSL = RGBtoHSL(color);`
			`colorHSL.r = frac(colorHSL.r + HSLMod.r);`
			`colorHSL.g = saturate(colorHSL.g + HSLMod.g);`
			`colorHSL.b = saturate(colorHSL.b + HSLMod.b);`
			`return HSLtoRGB(colorHSL);`
			`}`
			`float3 poiSaturation(float3 In, float Saturation)`
			`{`
			`float luma = dot(In, float3(0.2126729, 0.7151522, 0.0721750));`
			`return luma.xxx + Saturation.xxx * (In - luma.xxx);`
			`}`
			`float xyzF(float t)`
			`{`
			`return lerp(pow(t, 1. / 3.), 7.787037 * t + 0.139731, step(t, 0.00885645));`
			`}`
			`float xyzR(float t)`
			`{`
			`return lerp(t * t * t, 0.1284185 * (t - 0.139731), step(t, 0.20689655));`
			`}`
			`float3 rgb2lch(in float3 c)`
			`{`
			`c = mul(float3x3(0.4124, 0.3576, 0.1805,`
			`0.2126, 0.7152, 0.0722,`
			`0.0193, 0.1192, 0.9505), c);`
			`c.x = xyzF(c.x / wref.x);`
			`c.y = xyzF(c.y / wref.y);`
			`c.z = xyzF(c.z / wref.z);`
			`float3 lab = float3(max(0., 116.0 * c.y - 16.0), 500.0 * (c.x - c.y), 200.0 * (c.y - c.z));`
			`return float3(lab.x, length(float2(lab.y, lab.z)), atan2(lab.z, lab.y));`
			`}`
			`float3 lch2rgb(in float3 c)`
			`{`
			`c = float3(c.x, cos(c.z) * c.y, sin(c.z) * c.y);`
			`float lg = 1. / 116. * (c.x + 16.);`
			`float3 xyz = float3(wref.x * xyzR(lg + 0.002 * c.y),`
			`wref.y * xyzR(lg),`
			`wref.z * xyzR(lg - 0.005 * c.z));`
			`float3 rgb = mul(float3x3(3.2406, -1.5372, -0.4986,`
			`- 0.9689, 1.8758, 0.0415,`
			`0.0557, -0.2040, 1.0570), xyz);`
			`return rgb;`
			`}`
			`float lerpAng(in float a, in float b, in float x)`
			`{`
			`float ang = fmod(fmod((a - b), TAU) + pi * 3., TAU) - pi;`
			`return ang * x + b;`
			`}`
			`float3 lerpLch(in float3 a, in float3 b, in float x)`
			`{`
			`float hue = lerpAng(a.z, b.z, x);`
			`return float3(lerp(b.xy, a.xy, x), hue);`
			`}`
			`float3 poiExpensiveColorBlend(float3 col1, float3 col2, float alpha)`
			`{`
			`return lch2rgb(lerpLch(rgb2lch(col1), rgb2lch(col2), alpha));`
			`}`
			`#endif`