floz · December 18, 2014 18:47
diff --git a/gistfile1.glsl b/gistfile1.glsl
 /*
 ** Copyright (c) 2012, Romain Dura [email protected]
 ** 
 ** Permission to use, copy, modify, and/or distribute this software for any 
 ** purpose with or without fee is hereby granted, provided that the above 
 ** copyright notice and this permission notice appear in all copies.
 ** 
 ** THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES 
 ** WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF 
 ** MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY 
 ** SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES 
 ** WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN 
 ** ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR 
 ** IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
 */

 /*
 ** Photoshop & misc math
 ** Blending modes, RGB/HSL/Contrast/Desaturate, levels control
 **
 ** Romain Dura | Romz
 ** Blog: http://mouaif.wordpress.com
 ** Post: http://mouaif.wordpress.com/?p=94
 */



 /*
 ** Desaturation
 */

 vec4 Desaturate(vec3 color, float Desaturation)
 {
 	vec3 grayXfer = vec3(0.3, 0.59, 0.11);
 	vec3 gray = vec3(dot(grayXfer, color));
 	return vec4(mix(color, gray, Desaturation), 1.0);
 }


 /*
 ** Hue, saturation, luminance
 */

 vec3 RGBToHSL(vec3 color)
 {
 	vec3 hsl; // init to 0 to avoid warnings ? (and reverse if + remove first part)
 	
 	float fmin = min(min(color.r, color.g), color.b);    //Min. value of RGB
 	float fmax = max(max(color.r, color.g), color.b);    //Max. value of RGB
 	float delta = fmax - fmin;             //Delta RGB value

 	hsl.z = (fmax + fmin) / 2.0; // Luminance

 	if (delta == 0.0)		//This is a gray, no chroma...
 	{
 		hsl.x = 0.0;	// Hue
 		hsl.y = 0.0;	// Saturation
 	}
 	else                                    //Chromatic data...
 	{
 		if (hsl.z < 0.5)
 			hsl.y = delta / (fmax + fmin); // Saturation
 		else
 			hsl.y = delta / (2.0 - fmax - fmin); // Saturation
 		
 		float deltaR = (((fmax - color.r) / 6.0) + (delta / 2.0)) / delta;
 		float deltaG = (((fmax - color.g) / 6.0) + (delta / 2.0)) / delta;
 		float deltaB = (((fmax - color.b) / 6.0) + (delta / 2.0)) / delta;

 		if (color.r == fmax )
 			hsl.x = deltaB - deltaG; // Hue
 		else if (color.g == fmax)
 			hsl.x = (1.0 / 3.0) + deltaR - deltaB; // Hue
 		else if (color.b == fmax)
 			hsl.x = (2.0 / 3.0) + deltaG - deltaR; // Hue

 		if (hsl.x < 0.0)
 			hsl.x += 1.0; // Hue
 		else if (hsl.x > 1.0)
 			hsl.x -= 1.0; // Hue
 	}

 	return hsl;
 }

 float HueToRGB(float f1, float f2, float hue)
 {
 	if (hue < 0.0)
 		hue += 1.0;
 	else if (hue > 1.0)
 		hue -= 1.0;
 	float res;
 	if ((6.0 * hue) < 1.0)
 		res = f1 + (f2 - f1) * 6.0 * hue;
 	else if ((2.0 * hue) < 1.0)
 		res = f2;
 	else if ((3.0 * hue) < 2.0)
 		res = f1 + (f2 - f1) * ((2.0 / 3.0) - hue) * 6.0;
 	else
 		res = f1;
 	return res;
 }

 vec3 HSLToRGB(vec3 hsl)
 {
 	vec3 rgb;
 	
 	if (hsl.y == 0.0)
 		rgb = vec3(hsl.z); // Luminance
 	else
 	{
 		float f2;
 		
 		if (hsl.z < 0.5)
 			f2 = hsl.z * (1.0 + hsl.y);
 		else
 			f2 = (hsl.z + hsl.y) - (hsl.y * hsl.z);
 			
 		float f1 = 2.0 * hsl.z - f2;
 		
 		rgb.r = HueToRGB(f1, f2, hsl.x + (1.0/3.0));
 		rgb.g = HueToRGB(f1, f2, hsl.x);
 		rgb.b= HueToRGB(f1, f2, hsl.x - (1.0/3.0));
 	}
 	
 	return rgb;
 }


 /*
 ** Contrast, saturation, brightness
 ** Code of this function is from TGM's shader pack
 ** http://irrlicht.sourceforge.net/phpBB2/viewtopic.php?t=21057
 */

 // For all settings: 1.0 = 100% 0.5=50% 1.5 = 150%
 vec3 ContrastSaturationBrightness(vec3 color, float brt, float sat, float con)
 {
 	// Increase or decrease theese values to adjust r, g and b color channels seperately
 	const float AvgLumR = 0.5;
 	const float AvgLumG = 0.5;
 	const float AvgLumB = 0.5;
 	
 	const vec3 LumCoeff = vec3(0.2125, 0.7154, 0.0721);
 	
 	vec3 AvgLumin = vec3(AvgLumR, AvgLumG, AvgLumB);
 	vec3 brtColor = color * brt;
 	vec3 intensity = vec3(dot(brtColor, LumCoeff));
 	vec3 satColor = mix(intensity, brtColor, sat);
 	vec3 conColor = mix(AvgLumin, satColor, con);
 	return conColor;
 }


 /*
 ** Float blending modes
 ** Adapted from here: http://www.nathanm.com/photoshop-blending-math/
 ** But I modified the HardMix (wrong condition), Overlay, SoftLight, ColorDodge, ColorBurn, VividLight, PinLight (inverted layers) ones to have correct results
 */

 #define BlendLinearDodgef 			BlendAddf
 #define BlendLinearBurnf 			BlendSubstractf
 #define BlendAddf(base, blend) 		min(base + blend, 1.0)
 #define BlendSubstractf(base, blend) 	max(base + blend - 1.0, 0.0)
 #define BlendLightenf(base, blend) 		max(blend, base)
 #define BlendDarkenf(base, blend) 		min(blend, base)
 #define BlendLinearLightf(base, blend) 	(blend < 0.5 ? BlendLinearBurnf(base, (2.0 * blend)) : BlendLinearDodgef(base, (2.0 * (blend - 0.5))))
 #define BlendScreenf(base, blend) 		(1.0 - ((1.0 - base) * (1.0 - blend)))
 #define BlendOverlayf(base, blend) 	(base < 0.5 ? (2.0 * base * blend) : (1.0 - 2.0 * (1.0 - base) * (1.0 - blend)))
 #define BlendSoftLightf(base, blend) 	((blend < 0.5) ? (2.0 * base * blend + base * base * (1.0 - 2.0 * blend)) : (sqrt(base) * (2.0 * blend - 1.0) + 2.0 * base * (1.0 - blend)))
 #define BlendColorDodgef(base, blend) 	((blend == 1.0) ? blend : min(base / (1.0 - blend), 1.0))
 #define BlendColorBurnf(base, blend) 	((blend == 0.0) ? blend : max((1.0 - ((1.0 - base) / blend)), 0.0))
 #define BlendVividLightf(base, blend) 	((blend < 0.5) ? BlendColorBurnf(base, (2.0 * blend)) : BlendColorDodgef(base, (2.0 * (blend - 0.5))))
 #define BlendPinLightf(base, blend) 	((blend < 0.5) ? BlendDarkenf(base, (2.0 * blend)) : BlendLightenf(base, (2.0 *(blend - 0.5))))
 #define BlendHardMixf(base, blend) 	((BlendVividLightf(base, blend) < 0.5) ? 0.0 : 1.0)
 #define BlendReflectf(base, blend) 		((blend == 1.0) ? blend : min(base * base / (1.0 - blend), 1.0))


 /*
 ** Vector3 blending modes
 */

 // Component wise blending
 #define Blend(base, blend, funcf) 		vec3(funcf(base.r, blend.r), funcf(base.g, blend.g), funcf(base.b, blend.b))

 #define BlendNormal(base, blend) 		(blend)
 #define BlendLighten				BlendLightenf
 #define BlendDarken				BlendDarkenf
 #define BlendMultiply(base, blend) 		(base * blend)
 #define BlendAverage(base, blend) 		((base + blend) / 2.0)
 #define BlendAdd(base, blend) 		min(base + blend, vec3(1.0))
 #define BlendSubstract(base, blend) 	max(base + blend - vec3(1.0), vec3(0.0))
 #define BlendDifference(base, blend) 	abs(base - blend)
 #define BlendNegation(base, blend) 	(vec3(1.0) - abs(vec3(1.0) - base - blend))
 #define BlendExclusion(base, blend) 	(base + blend - 2.0 * base * blend)
 #define BlendScreen(base, blend) 		Blend(base, blend, BlendScreenf)
 #define BlendOverlay(base, blend) 		Blend(base, blend, BlendOverlayf)
 #define BlendSoftLight(base, blend) 	Blend(base, blend, BlendSoftLightf)
 #define BlendHardLight(base, blend) 	BlendOverlay(blend, base)
 #define BlendColorDodge(base, blend) 	Blend(base, blend, BlendColorDodgef)
 #define BlendColorBurn(base, blend) 	Blend(base, blend, BlendColorBurnf)
 #define BlendLinearDodge			BlendAdd
 #define BlendLinearBurn			BlendSubstract
 // Linear Light is another contrast-increasing mode
 // If the blend color is darker than midgray, Linear Light darkens the image by decreasing the brightness. If the blend color is lighter than midgray, the result is a brighter image due to increased brightness.
 #define BlendLinearLight(base, blend) 	Blend(base, blend, BlendLinearLightf)
 #define BlendVividLight(base, blend) 	Blend(base, blend, BlendVividLightf)
 #define BlendPinLight(base, blend) 		Blend(base, blend, BlendPinLightf)
 #define BlendHardMix(base, blend) 		Blend(base, blend, BlendHardMixf)
 #define BlendReflect(base, blend) 		Blend(base, blend, BlendReflectf)
 #define BlendGlow(base, blend) 		BlendReflect(blend, base)
 #define BlendPhoenix(base, blend) 		(min(base, blend) - max(base, blend) + vec3(1.0))
 #define BlendOpacity(base, blend, F, O) 	(F(base, blend) * O + blend * (1.0 - O))


 // Hue Blend mode creates the result color by combining the luminance and saturation of the base color with the hue of the blend color.
 vec3 BlendHue(vec3 base, vec3 blend)
 {
 	vec3 baseHSL = RGBToHSL(base);
 	return HSLToRGB(vec3(RGBToHSL(blend).r, baseHSL.g, baseHSL.b));
 }

 // Saturation Blend mode creates the result color by combining the luminance and hue of the base color with the saturation of the blend color.
 vec3 BlendSaturation(vec3 base, vec3 blend)
 {
 	vec3 baseHSL = RGBToHSL(base);
 	return HSLToRGB(vec3(baseHSL.r, RGBToHSL(blend).g, baseHSL.b));
 }

 // Color Mode keeps the brightness of the base color and applies both the hue and saturation of the blend color.
 vec3 BlendColor(vec3 base, vec3 blend)
 {
 	vec3 blendHSL = RGBToHSL(blend);
 	return HSLToRGB(vec3(blendHSL.r, blendHSL.g, RGBToHSL(base).b));
 }

 // Luminosity Blend mode creates the result color by combining the hue and saturation of the base color with the luminance of the blend color.
 vec3 BlendLuminosity(vec3 base, vec3 blend)
 {
 	vec3 baseHSL = RGBToHSL(base);
 	return HSLToRGB(vec3(baseHSL.r, baseHSL.g, RGBToHSL(blend).b));
 }


 /*
 ** Gamma correction
 ** Details: http://blog.mouaif.org/2009/01/22/photoshop-gamma-correction-shader/
 */

 #define GammaCorrection(color, gamma)								pow(color, 1.0 / gamma)

 /*
 ** Levels control (input (+gamma), output)
 ** Details: http://blog.mouaif.org/2009/01/28/levels-control-shader/
 */

 #define LevelsControlInputRange(color, minInput, maxInput)				min(max(color - vec3(minInput), vec3(0.0)) / (vec3(maxInput) - vec3(minInput)), vec3(1.0))
 #define LevelsControlInput(color, minInput, gamma, maxInput)				GammaCorrection(LevelsControlInputRange(color, minInput, maxInput), gamma)
 #define LevelsControlOutputRange(color, minOutput, maxOutput) 			mix(vec3(minOutput), vec3(maxOutput), color)
 #define LevelsControl(color, minInput, gamma, maxInput, minOutput, maxOutput) 	LevelsControlOutputRange(LevelsControlInput(color, minInput, gamma, maxInput), minOutput, maxOutput)
	/*
	** Copyright (c) 2012, Romain Dura [email protected]
	**
	** Permission to use, copy, modify, and/or distribute this software for any
	** purpose with or without fee is hereby granted, provided that the above
	** copyright notice and this permission notice appear in all copies.
	**
	** THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
	** WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
	** MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
	** SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
	** WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
	** ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR
	** IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
	*/

	/*
	** Photoshop & misc math
	** Blending modes, RGB/HSL/Contrast/Desaturate, levels control
	**
	** Romain Dura \| Romz
	** Blog: http://mouaif.wordpress.com
	** Post: http://mouaif.wordpress.com/?p=94
	*/



	/*
	** Desaturation
	*/

	vec4 Desaturate(vec3 color, float Desaturation)
	{
	vec3 grayXfer = vec3(0.3, 0.59, 0.11);
	vec3 gray = vec3(dot(grayXfer, color));
	return vec4(mix(color, gray, Desaturation), 1.0);
	}


	/*
	** Hue, saturation, luminance
	*/

	vec3 RGBToHSL(vec3 color)
	{
	vec3 hsl; // init to 0 to avoid warnings ? (and reverse if + remove first part)

	float fmin = min(min(color.r, color.g), color.b); //Min. value of RGB
	float fmax = max(max(color.r, color.g), color.b); //Max. value of RGB
	float delta = fmax - fmin; //Delta RGB value

	hsl.z = (fmax + fmin) / 2.0; // Luminance

	if (delta == 0.0) //This is a gray, no chroma...
	{
	hsl.x = 0.0; // Hue
	hsl.y = 0.0; // Saturation
	}
	else //Chromatic data...
	{
	if (hsl.z < 0.5)
	hsl.y = delta / (fmax + fmin); // Saturation
	else
	hsl.y = delta / (2.0 - fmax - fmin); // Saturation

	float deltaR = (((fmax - color.r) / 6.0) + (delta / 2.0)) / delta;
	float deltaG = (((fmax - color.g) / 6.0) + (delta / 2.0)) / delta;
	float deltaB = (((fmax - color.b) / 6.0) + (delta / 2.0)) / delta;

	if (color.r == fmax )
	hsl.x = deltaB - deltaG; // Hue
	else if (color.g == fmax)
	hsl.x = (1.0 / 3.0) + deltaR - deltaB; // Hue
	else if (color.b == fmax)
	hsl.x = (2.0 / 3.0) + deltaG - deltaR; // Hue

	if (hsl.x < 0.0)
	hsl.x += 1.0; // Hue
	else if (hsl.x > 1.0)
	hsl.x -= 1.0; // Hue
	}

	return hsl;
	}

	float HueToRGB(float f1, float f2, float hue)
	{
	if (hue < 0.0)
	hue += 1.0;
	else if (hue > 1.0)
	hue -= 1.0;
	float res;
	if ((6.0 * hue) < 1.0)
	res = f1 + (f2 - f1) * 6.0 * hue;
	else if ((2.0 * hue) < 1.0)
	res = f2;
	else if ((3.0 * hue) < 2.0)
	res = f1 + (f2 - f1) * ((2.0 / 3.0) - hue) * 6.0;
	else
	res = f1;
	return res;
	}

	vec3 HSLToRGB(vec3 hsl)
	{
	vec3 rgb;

	if (hsl.y == 0.0)
	rgb = vec3(hsl.z); // Luminance
	else
	{
	float f2;

	if (hsl.z < 0.5)
	f2 = hsl.z * (1.0 + hsl.y);
	else
	f2 = (hsl.z + hsl.y) - (hsl.y * hsl.z);

	float f1 = 2.0 * hsl.z - f2;

	rgb.r = HueToRGB(f1, f2, hsl.x + (1.0/3.0));
	rgb.g = HueToRGB(f1, f2, hsl.x);
	rgb.b= HueToRGB(f1, f2, hsl.x - (1.0/3.0));
	}

	return rgb;
	}


	/*
	** Contrast, saturation, brightness
	** Code of this function is from TGM's shader pack
	** http://irrlicht.sourceforge.net/phpBB2/viewtopic.php?t=21057
	*/

	// For all settings: 1.0 = 100% 0.5=50% 1.5 = 150%
	vec3 ContrastSaturationBrightness(vec3 color, float brt, float sat, float con)
	{
	// Increase or decrease theese values to adjust r, g and b color channels seperately
	const float AvgLumR = 0.5;
	const float AvgLumG = 0.5;
	const float AvgLumB = 0.5;

	const vec3 LumCoeff = vec3(0.2125, 0.7154, 0.0721);

	vec3 AvgLumin = vec3(AvgLumR, AvgLumG, AvgLumB);
	vec3 brtColor = color * brt;
	vec3 intensity = vec3(dot(brtColor, LumCoeff));
	vec3 satColor = mix(intensity, brtColor, sat);
	vec3 conColor = mix(AvgLumin, satColor, con);
	return conColor;
	}


	/*
	** Float blending modes
	** Adapted from here: http://www.nathanm.com/photoshop-blending-math/
	** But I modified the HardMix (wrong condition), Overlay, SoftLight, ColorDodge, ColorBurn, VividLight, PinLight (inverted layers) ones to have correct results
	*/

	#define BlendLinearDodgef BlendAddf
	#define BlendLinearBurnf BlendSubstractf
	#define BlendAddf(base, blend) min(base + blend, 1.0)
	#define BlendSubstractf(base, blend) max(base + blend - 1.0, 0.0)
	#define BlendLightenf(base, blend) max(blend, base)
	#define BlendDarkenf(base, blend) min(blend, base)
	#define BlendLinearLightf(base, blend) (blend < 0.5 ? BlendLinearBurnf(base, (2.0 * blend)) : BlendLinearDodgef(base, (2.0 * (blend - 0.5))))
	#define BlendScreenf(base, blend) (1.0 - ((1.0 - base) * (1.0 - blend)))
	#define BlendOverlayf(base, blend) (base < 0.5 ? (2.0 * base * blend) : (1.0 - 2.0 * (1.0 - base) * (1.0 - blend)))
	#define BlendSoftLightf(base, blend) ((blend < 0.5) ? (2.0 * base * blend + base * base * (1.0 - 2.0 * blend)) : (sqrt(base) * (2.0 * blend - 1.0) + 2.0 * base * (1.0 - blend)))
	#define BlendColorDodgef(base, blend) ((blend == 1.0) ? blend : min(base / (1.0 - blend), 1.0))
	#define BlendColorBurnf(base, blend) ((blend == 0.0) ? blend : max((1.0 - ((1.0 - base) / blend)), 0.0))
	#define BlendVividLightf(base, blend) ((blend < 0.5) ? BlendColorBurnf(base, (2.0 * blend)) : BlendColorDodgef(base, (2.0 * (blend - 0.5))))
	#define BlendPinLightf(base, blend) ((blend < 0.5) ? BlendDarkenf(base, (2.0 * blend)) : BlendLightenf(base, (2.0 *(blend - 0.5))))
	#define BlendHardMixf(base, blend) ((BlendVividLightf(base, blend) < 0.5) ? 0.0 : 1.0)
	#define BlendReflectf(base, blend) ((blend == 1.0) ? blend : min(base * base / (1.0 - blend), 1.0))


	/*
	** Vector3 blending modes
	*/

	// Component wise blending
	#define Blend(base, blend, funcf) vec3(funcf(base.r, blend.r), funcf(base.g, blend.g), funcf(base.b, blend.b))

	#define BlendNormal(base, blend) (blend)
	#define BlendLighten BlendLightenf
	#define BlendDarken BlendDarkenf
	#define BlendMultiply(base, blend) (base * blend)
	#define BlendAverage(base, blend) ((base + blend) / 2.0)
	#define BlendAdd(base, blend) min(base + blend, vec3(1.0))
	#define BlendSubstract(base, blend) max(base + blend - vec3(1.0), vec3(0.0))
	#define BlendDifference(base, blend) abs(base - blend)
	#define BlendNegation(base, blend) (vec3(1.0) - abs(vec3(1.0) - base - blend))
	#define BlendExclusion(base, blend) (base + blend - 2.0 * base * blend)
	#define BlendScreen(base, blend) Blend(base, blend, BlendScreenf)
	#define BlendOverlay(base, blend) Blend(base, blend, BlendOverlayf)
	#define BlendSoftLight(base, blend) Blend(base, blend, BlendSoftLightf)
	#define BlendHardLight(base, blend) BlendOverlay(blend, base)
	#define BlendColorDodge(base, blend) Blend(base, blend, BlendColorDodgef)
	#define BlendColorBurn(base, blend) Blend(base, blend, BlendColorBurnf)
	#define BlendLinearDodge BlendAdd
	#define BlendLinearBurn BlendSubstract
	// Linear Light is another contrast-increasing mode
	// If the blend color is darker than midgray, Linear Light darkens the image by decreasing the brightness. If the blend color is lighter than midgray, the result is a brighter image due to increased brightness.
	#define BlendLinearLight(base, blend) Blend(base, blend, BlendLinearLightf)
	#define BlendVividLight(base, blend) Blend(base, blend, BlendVividLightf)
	#define BlendPinLight(base, blend) Blend(base, blend, BlendPinLightf)
	#define BlendHardMix(base, blend) Blend(base, blend, BlendHardMixf)
	#define BlendReflect(base, blend) Blend(base, blend, BlendReflectf)
	#define BlendGlow(base, blend) BlendReflect(blend, base)
	#define BlendPhoenix(base, blend) (min(base, blend) - max(base, blend) + vec3(1.0))
	#define BlendOpacity(base, blend, F, O) (F(base, blend) * O + blend * (1.0 - O))


	// Hue Blend mode creates the result color by combining the luminance and saturation of the base color with the hue of the blend color.
	vec3 BlendHue(vec3 base, vec3 blend)
	{
	vec3 baseHSL = RGBToHSL(base);
	return HSLToRGB(vec3(RGBToHSL(blend).r, baseHSL.g, baseHSL.b));
	}

	// Saturation Blend mode creates the result color by combining the luminance and hue of the base color with the saturation of the blend color.
	vec3 BlendSaturation(vec3 base, vec3 blend)
	{
	vec3 baseHSL = RGBToHSL(base);
	return HSLToRGB(vec3(baseHSL.r, RGBToHSL(blend).g, baseHSL.b));
	}

	// Color Mode keeps the brightness of the base color and applies both the hue and saturation of the blend color.
	vec3 BlendColor(vec3 base, vec3 blend)
	{
	vec3 blendHSL = RGBToHSL(blend);
	return HSLToRGB(vec3(blendHSL.r, blendHSL.g, RGBToHSL(base).b));
	}

	// Luminosity Blend mode creates the result color by combining the hue and saturation of the base color with the luminance of the blend color.
	vec3 BlendLuminosity(vec3 base, vec3 blend)
	{
	vec3 baseHSL = RGBToHSL(base);
	return HSLToRGB(vec3(baseHSL.r, baseHSL.g, RGBToHSL(blend).b));
	}


	/*
	** Gamma correction
	** Details: http://blog.mouaif.org/2009/01/22/photoshop-gamma-correction-shader/
	*/

	#define GammaCorrection(color, gamma) pow(color, 1.0 / gamma)

	/*
	** Levels control (input (+gamma), output)
	** Details: http://blog.mouaif.org/2009/01/28/levels-control-shader/
	*/

	#define LevelsControlInputRange(color, minInput, maxInput) min(max(color - vec3(minInput), vec3(0.0)) / (vec3(maxInput) - vec3(minInput)), vec3(1.0))
	#define LevelsControlInput(color, minInput, gamma, maxInput) GammaCorrection(LevelsControlInputRange(color, minInput, maxInput), gamma)
	#define LevelsControlOutputRange(color, minOutput, maxOutput) mix(vec3(minOutput), vec3(maxOutput), color)
	#define LevelsControl(color, minInput, gamma, maxInput, minOutput, maxOutput) LevelsControlOutputRange(LevelsControlInput(color, minInput, gamma, maxInput), minOutput, maxOutput)