mirror of
https://github.com/italicsjenga/slang-shaders.git
synced 2024-11-30 03:11:31 +11:00
215 lines
7.3 KiB
C
215 lines
7.3 KiB
C
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#define kColourSystems 4
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#define kPhosphorSets 5
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#define kD50 5003.0f
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#define kD55 5503.0f
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#define kD65 6504.0f
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#define kD75 7504.0f
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#define kD93 9305.0f
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// Input Colour Standards
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const mat3 k709_to_XYZ = mat3(
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0.412391f, 0.357584f, 0.180481f,
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0.212639f, 0.715169f, 0.072192f,
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0.019331f, 0.119195f, 0.950532f);
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const mat3 kPAL_to_XYZ = mat3(
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0.430554f, 0.341550f, 0.178352f,
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0.222004f, 0.706655f, 0.071341f,
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0.020182f, 0.129553f, 0.939322f);
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const mat3 kNTSC_to_XYZ = mat3(
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0.393521f, 0.365258f, 0.191677f,
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0.212376f, 0.701060f, 0.086564f,
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0.018739f, 0.111934f, 0.958385f);
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// Phosphor Sets - These override the colour standards above when used
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// NTSC-J P22
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const mat3 kNTSCJ_P22_to_XYZ = mat3(
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0.458432f, 0.309549f, 0.182474f,
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0.256722f, 0.668848f, 0.074430f,
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0.018337f, 0.127136f, 0.943584f);
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//P22 (80’s)
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const mat3 kP2280_to_XYZ = mat3(
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0.460844f, 0.307613f, 0.181910f,
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0.244311f, 0.676311f, 0.079378f,
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0.007123f, 0.106901f, 0.975034f);
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//P22 (90’s/tinted phosphors)
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const mat3 kP2290_to_XYZ = mat3(
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0.404151f, 0.354887f, 0.191418f,
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0.201984f, 0.714530f, 0.083485f,
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0.000607f, 0.062960f, 1.025491f);
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//RPTV (late 90’s/early 00’s)
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const mat3 kRPTV00_to_XYZ = mat3(
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0.331718f, 0.429476f, 0.189261f,
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0.173634f, 0.738044f, 0.088322f,
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0.012958f, 0.091941f, 0.984159f);
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// NTSC-FCC 1953 Standard Phosphor
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const mat3 k1953_to_XYZ = mat3(
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0.588010f, 0.179133f, 0.183224f,
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0.289661f, 0.605640f, 0.104699f,
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0.000000f, 0.068241f, 1.020817f);
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// Output Colour Standards
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const mat3 kXYZ_to_709 = mat3(
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3.240970f, -1.537383f, -0.498611f,
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-0.969244f, 1.875968f, 0.041555f,
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0.055630f, -0.203977f, 1.056972f);
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const mat3 kXYZ_to_DCIP3 = mat3 (
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2.4934969119f, -0.9313836179f, -0.4027107845f,
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-0.8294889696f, 1.7626640603f, 0.0236246858f,
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0.0358458302f, -0.0761723893f, 0.9568845240f);
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const mat3 kStandardsColourGamut[kColourSystems] = { k709_to_XYZ, kPAL_to_XYZ, kNTSC_to_XYZ, kNTSC_to_XYZ };
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const mat3 kPhosphorColourGamut[kPhosphorSets] = { kNTSCJ_P22_to_XYZ, kP2280_to_XYZ, kP2290_to_XYZ, kRPTV00_to_XYZ, k1953_to_XYZ };
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//const float kTemperatures[kColourSystems] = { kD65, kD65, kD65, kD93 };
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// Values from: http://blenderartists.org/forum/showthread.php?270332-OSL-Goodness&p=2268693&viewfull=1#post2268693
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const mat3 kWarmTemperature = mat3(
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vec3(0.0, -2902.1955373783176, -8257.7997278925690),
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vec3(0.0, 1669.5803561666639, 2575.2827530017594),
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vec3(1.0, 1.3302673723350029, 1.8993753891711275));
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const mat3 kCoolTemperature = mat3(
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vec3( 1745.0425298314172, 1216.6168361476490, -8257.7997278925690),
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vec3(-2666.3474220535695, -2173.1012343082230, 2575.2827530017594),
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vec3( 0.55995389139931482, 0.70381203140554553, 1.8993753891711275));
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const mat4 kCubicBezier = mat4( 1.0f, 0.0f, 0.0f, 0.0f,
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-3.0f, 3.0f, 0.0f, 0.0f,
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3.0f, -6.0f, 3.0f, 0.0f,
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-1.0f, 3.0f, -3.0f, 1.0f );
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float Bezier(const float t0, const vec4 control_points)
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{
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vec4 t = vec4(1.0, t0, t0*t0, t0*t0*t0);
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return dot(t, control_points * kCubicBezier);
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}
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vec3 WhiteBalance(float temperature, vec3 colour)
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{
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const mat3 m = (temperature < kD65) ? kWarmTemperature : kCoolTemperature;
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const vec3 rgb_temperature = mix(clamp(vec3(m[0] / (vec3(clamp(temperature, 1000.0f, 40000.0f)) + m[1]) + m[2]), vec3(0.0f), vec3(1.0f)), vec3(1.0f), smoothstep(1000.0f, 0.0f, temperature));
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vec3 result = colour * rgb_temperature;
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result *= dot(colour, vec3(0.2126, 0.7152, 0.0722)) / max(dot(result, vec3(0.2126, 0.7152, 0.0722)), 1e-5); // Preserve luminance
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return result;
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}
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float r601r709ToLinear_1(const float channel)
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{
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//return (channel >= 0.081f) ? pow((channel + 0.099f) * (1.0f / 1.099f), (1.0f / 0.45f)) : channel * (1.0f / 4.5f);
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return (channel >= (HCRT_GAMMA_CUTOFF * (1.0f / 1000.0f))) ? pow((channel + 0.099f) * (1.0f / 1.099f), HCRT_GAMMA_IN) : channel * (1.0f / 4.5f);
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}
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vec3 r601r709ToLinear(const vec3 colour)
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{
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return vec3(r601r709ToLinear_1(colour.r), r601r709ToLinear_1(colour.g), r601r709ToLinear_1(colour.b));
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}
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// XYZ Yxy transforms found in Dogway's Grade.slang shader
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vec3 XYZtoYxy(const vec3 XYZ)
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{
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const float XYZrgb = XYZ.r + XYZ.g + XYZ.b;
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const float Yxyg = (XYZrgb <= 0.0f) ? 0.3805f : XYZ.r / XYZrgb;
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const float Yxyb = (XYZrgb <= 0.0f) ? 0.3769f : XYZ.g / XYZrgb;
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return vec3(XYZ.g, Yxyg, Yxyb);
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}
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vec3 YxytoXYZ(const vec3 Yxy)
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{
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const float Xs = Yxy.r * (Yxy.g / Yxy.b);
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const float Xsz = (Yxy.r <= 0.0f) ? 0.0f : 1.0f;
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const vec3 XYZ = vec3(Xsz, Xsz, Xsz) * vec3(Xs, Yxy.r, (Xs / Yxy.g) - Xs - Yxy.r);
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return XYZ;
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}
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const vec4 kTopBrightnessControlPoints = vec4(0.0f, 1.0f, 1.0f, 1.0f);
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const vec4 kMidBrightnessControlPoints = vec4(0.0f, 1.0f / 3.0f, (1.0f / 3.0f) * 2.0f, 1.0f);
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const vec4 kBottomBrightnessControlPoints = vec4(0.0f, 0.0f, 0.0f, 1.0f);
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float Brightness(const float luminance)
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{
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if(HCRT_BRIGHTNESS >= 0.0f)
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{
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return Bezier(luminance, mix(kMidBrightnessControlPoints, kTopBrightnessControlPoints, HCRT_BRIGHTNESS));
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}
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else
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{
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return Bezier(luminance, mix(kMidBrightnessControlPoints, kBottomBrightnessControlPoints, abs(HCRT_BRIGHTNESS)));
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}
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}
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const vec4 kTopContrastControlPoints = vec4(0.0f, 0.0f, 1.0f, 1.0f);
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const vec4 kMidContrastControlPoints = vec4(0.0f, 1.0f / 3.0f, (1.0f / 3.0f) * 2.0f, 1.0f);
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const vec4 kBottomContrastControlPoints = vec4(0.0f, 1.0f, 0.0f, 1.0f);
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float Contrast(const float luminance)
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{
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if(HCRT_CONTRAST >= 0.0f)
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{
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return Bezier(luminance, mix(kMidContrastControlPoints, kTopContrastControlPoints, HCRT_CONTRAST));
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}
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else
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{
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return Bezier(luminance, mix(kMidContrastControlPoints, kBottomContrastControlPoints, abs(HCRT_CONTRAST)));
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}
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}
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vec3 Saturation(const vec3 colour)
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{
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const float luma = dot(colour, vec3(0.2125, 0.7154, 0.0721));
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const float saturation = 0.5f + HCRT_SATURATION * 0.5f;
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return clamp(mix(vec3(luma), colour, vec3(saturation) * 2.0f), 0.0f, 1.0f);
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}
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vec3 BrightnessContrastSaturation(const vec3 xyz)
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{
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const vec3 Yxy = XYZtoYxy(xyz);
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const float Y_gamma = clamp(pow(Yxy.x, 1.0f / 2.4f), 0.0f, 1.0f);
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const float Y_brightness = Brightness(Y_gamma);
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const float Y_contrast = Contrast(Y_brightness);
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const vec3 contrast_linear = vec3(pow(Y_contrast, 2.4f), Yxy.y, Yxy.z);
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const vec3 contrast = clamp(YxytoXYZ(contrast_linear) * kXYZ_to_709, 0.0f, 1.0f);
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const vec3 saturation = Saturation(contrast);
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return saturation;
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}
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vec3 ColourGrade(const vec3 colour)
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{
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const uint colour_system = uint(HCRT_CRT_COLOUR_SYSTEM);
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const uint phosphor_set = uint(HCRT_CRT_PHOSPHOR_SET);
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const float temperature[kColourSystems] = { HCRT_WHITE_TEMPERATURE_D65, HCRT_WHITE_TEMPERATURE_D65, HCRT_WHITE_TEMPERATURE_D65, HCRT_WHITE_TEMPERATURE_D93 };
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const vec3 white_point = WhiteBalance(temperature[colour_system], colour);
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const vec3 linear = pow(white_point, vec3(HCRT_GAMMA_IN)); // r601r709ToLinear(white_point);
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const vec3 xyz = phosphor_set == 0 ? linear * kStandardsColourGamut[colour_system] : linear * kPhosphorColourGamut[phosphor_set - 1];
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const vec3 graded = BrightnessContrastSaturation(xyz);
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return graded;
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}
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