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/****************************************************************************
**
** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
** Contact: Qt Software Information (qt-info@nokia.com)
**
** This file is part of the QtOpenGL module of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** No Commercial Usage
** This file contains pre-release code and may not be distributed.
** You may use this file in accordance with the terms and conditions
** contained in the either Technology Preview License Agreement or the
** Beta Release License Agreement.
**
** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 2.1 as published by the Free Software
** Foundation and appearing in the file LICENSE.LGPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU Lesser General Public License version 2.1 requirements
** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** In addition, as a special exception, Nokia gives you certain
** additional rights. These rights are described in the Nokia Qt LGPL
** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this
** package.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3.0 as published by the Free Software
** Foundation and appearing in the file LICENSE.GPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU General Public License version 3.0 requirements will be
** met: http://www.gnu.org/copyleft/gpl.html.
**
** If you are unsure which license is appropriate for your use, please
** contact the sales department at qt-sales@nokia.com.
** $QT_END_LICENSE$
**
****************************************************************************/
//
// W A R N I N G
// -------------
//
// This file is not part of the Qt API. It exists purely as an
// implementation detail. This header file may change from version to
// version without notice, or even be removed.
//
// We mean it.
//
#ifndef QGL_ENGINE_SHADER_SOURCE_H
#define QGL_ENGINE_SHADER_SOURCE_H
#include "qglengineshadermanager_p.h"
QT_BEGIN_HEADER
QT_BEGIN_NAMESPACE
QT_MODULE(OpenGL)
static const char* const qglslMainVertexShader = "\
void setPosition();\
void main(void)\
{\
setPosition();\
}";
static const char* const qglslMainWithTexCoordsVertexShader = "\
attribute lowp vec2 textureCoordArray; \
varying lowp vec2 textureCoords; \
void setPosition();\
void main(void) \
{\
setPosition();\
textureCoords = textureCoordArray; \
}";
static const char* const qglslPositionOnlyVertexShader = "\
attribute highp vec4 vertexCoordsArray;\
uniform highp mat4 pmvMatrix;\
uniform highp float depth;\
void setPosition(void)\
{\
gl_Position = pmvMatrix * vertexCoordsArray;\
gl_Position.z = depth;\
}";
static const char* const qglslUntransformedPositionVertexShader = "\
attribute highp vec4 vertexCoordsArray;\
uniform highp float depth;\
void setPosition(void)\
{\
gl_Position = vertexCoordsArray;\
gl_Position.z = depth;\
}";
// Pattern Brush - This assumes the texture size is 8x8 and thus, the inverted size is 0.125
static const char* const qglslPositionWithPatternBrushVertexShader = "\
attribute highp vec4 vertexCoordsArray; \
uniform highp mat4 pmvMatrix; \
uniform mediump vec2 halfViewportSize; \
uniform mediump vec2 invertedTextureSize; \
uniform mediump mat3 brushTransform; \
varying mediump vec2 patternTexCoords; \
uniform highp float depth;\
void setPosition(void) { \
gl_Position = pmvMatrix * vertexCoordsArray;\
gl_Position.xy = gl_Position.xy / gl_Position.w; \
gl_Position.z = depth;\
mediump vec2 viewportCoords = (gl_Position.xy + 1.0) * halfViewportSize; \
mediump vec3 hTexCoords = brushTransform * vec3(viewportCoords, 1); \
mediump float invertedHTexCoordsZ = 1.0 / hTexCoords.z; \
gl_Position.xy = gl_Position.xy * invertedHTexCoordsZ; \
gl_Position.w = invertedHTexCoordsZ; \
patternTexCoords.xy = (hTexCoords.xy * 0.125) * invertedHTexCoordsZ; \
patternTexCoords.y = -patternTexCoords.y; \
}";
static const char* const qglslAffinePositionWithPatternBrushVertexShader
= qglslPositionWithPatternBrushVertexShader;
static const char* const qglslPatternBrushSrcFragmentShader = "\
uniform sampler2D brushTexture;\
uniform lowp vec4 patternColor; \
varying mediump vec2 patternTexCoords;\
lowp vec4 srcPixel() { \
return patternColor * (1.0 - texture2D(brushTexture, patternTexCoords).r); \
}\n";
// Linear Gradient Brush
static const char* const qglslPositionWithLinearGradientBrushVertexShader = "\
attribute highp vec4 vertexCoordsArray; \
uniform highp mat4 pmvMatrix; \
uniform mediump vec2 halfViewportSize; \
uniform highp vec3 linearData; \
uniform highp mat3 brushTransform; \
varying mediump float index ; \
uniform highp float depth;\
void setPosition() { \
gl_Position = pmvMatrix * vertexCoordsArray;\
gl_Position.xy = gl_Position.xy / gl_Position.w; \
gl_Position.z = depth;\
mediump vec2 viewportCoords = (gl_Position.xy + 1.0) * halfViewportSize; \
mediump vec3 hTexCoords = brushTransform * vec3(viewportCoords, 1); \
mediump float invertedHTexCoordsZ = 1.0 / hTexCoords.z; \
gl_Position.xy = gl_Position.xy * invertedHTexCoordsZ; \
gl_Position.w = invertedHTexCoordsZ; \
index = (dot(linearData.xy, hTexCoords.xy) * linearData.z) * invertedHTexCoordsZ; \
}";
static const char* const qglslAffinePositionWithLinearGradientBrushVertexShader
= qglslPositionWithLinearGradientBrushVertexShader;
static const char* const qglslLinearGradientBrushSrcFragmentShader = "\
uniform sampler2D brushTexture; \
varying mediump float index; \
lowp vec4 srcPixel() { \
mediump vec2 val = vec2(index, 0.5); \
return texture2D(brushTexture, val); \
}\n";
// Conical Gradient Brush
static const char* const qglslPositionWithConicalGradientBrushVertexShader = "\
attribute highp vec4 vertexCoordsArray;\
uniform highp mat4 pmvMatrix;\
uniform mediump vec2 halfViewportSize; \
uniform highp mat3 brushTransform; \
varying highp vec2 A; \
uniform highp float depth;\
void setPosition(void)\
{\
gl_Position = pmvMatrix * vertexCoordsArray;\
gl_Position.xy = gl_Position.xy / gl_Position.w; \
gl_Position.z = depth; \
mediump vec2 viewportCoords = (gl_Position.xy + 1.0) * halfViewportSize; \
mediump vec3 hTexCoords = brushTransform * vec3(viewportCoords, 1); \
mediump float invertedHTexCoordsZ = 1.0 / hTexCoords.z; \
gl_Position.xy = gl_Position.xy * invertedHTexCoordsZ; \
gl_Position.w = invertedHTexCoordsZ; \
A = hTexCoords.xy * invertedHTexCoordsZ; \
}";
static const char* const qglslAffinePositionWithConicalGradientBrushVertexShader
= qglslPositionWithConicalGradientBrushVertexShader;
static const char* const qglslConicalGradientBrushSrcFragmentShader = "\n\
#define INVERSE_2PI 0.1591549430918953358 \n\
uniform sampler2D brushTexture; \n\
uniform mediump float angle; \
varying highp vec2 A; \
lowp vec4 srcPixel() { \
highp float t; \
if (abs(A.y) == abs(A.x)) \
t = (atan(-A.y + 0.002, A.x) + angle) * INVERSE_2PI; \
else \
t = (atan(-A.y, A.x) + angle) * INVERSE_2PI; \
return texture2D(brushTexture, vec2(t - floor(t), 0.5)); \
}";
// Radial Gradient Brush
static const char* const qglslPositionWithRadialGradientBrushVertexShader = "\
attribute highp vec4 vertexCoordsArray;\
uniform highp mat4 pmvMatrix;\
uniform mediump vec2 halfViewportSize; \
uniform highp mat3 brushTransform; \
uniform highp vec2 fmp; \
varying highp float b; \
varying highp vec2 A; \
uniform highp float depth;\
void setPosition(void) \
{\
gl_Position = pmvMatrix * vertexCoordsArray;\
gl_Position.xy = gl_Position.xy / gl_Position.w; \
gl_Position.z = depth; \
mediump vec2 viewportCoords = (gl_Position.xy + 1.0) * halfViewportSize; \
mediump vec3 hTexCoords = brushTransform * vec3(viewportCoords, 1); \
mediump float invertedHTexCoordsZ = 1.0 / hTexCoords.z; \
gl_Position.xy = gl_Position.xy * invertedHTexCoordsZ; \
gl_Position.w = invertedHTexCoordsZ; \
A = hTexCoords.xy * invertedHTexCoordsZ; \
b = 2.0 * dot(A, fmp); \
}";
static const char* const qglslAffinePositionWithRadialGradientBrushVertexShader
= qglslPositionWithRadialGradientBrushVertexShader;
static const char* const qglslRadialGradientBrushSrcFragmentShader = "\
uniform sampler2D brushTexture; \
uniform highp float fmp2_m_radius2; \
uniform highp float inverse_2_fmp2_m_radius2; \
varying highp float b; \
varying highp vec2 A; \
lowp vec4 srcPixel() { \
highp float c = -dot(A, A); \
highp vec2 val = vec2((-b + sqrt(b*b - 4.0*fmp2_m_radius2*c)) * inverse_2_fmp2_m_radius2, 0.5); \
return texture2D(brushTexture, val); \
}";
// Texture Brush
static const char* const qglslPositionWithTextureBrushVertexShader = "\
attribute highp vec4 vertexCoordsArray; \
uniform highp mat4 pmvMatrix; \
uniform mediump vec2 halfViewportSize; \
uniform mediump vec2 invertedTextureSize; \
uniform mediump mat3 brushTransform; \
varying mediump vec2 brushTextureCoords; \
uniform highp float depth;\
void setPosition(void) { \
gl_Position = pmvMatrix * vertexCoordsArray;\
gl_Position.xy = gl_Position.xy / gl_Position.w; \
gl_Position.z = depth; \
mediump vec2 viewportCoords = (gl_Position.xy + 1.0) * halfViewportSize; \
mediump vec3 hTexCoords = brushTransform * vec3(viewportCoords, 1); \
mediump float invertedHTexCoordsZ = 1.0 / hTexCoords.z; \
gl_Position.xy = gl_Position.xy * invertedHTexCoordsZ; \
gl_Position.w = invertedHTexCoordsZ; \
brushTextureCoords.xy = (hTexCoords.xy * invertedTextureSize) * gl_Position.w; \
brushTextureCoords.y = -brushTextureCoords.y; \
}";
static const char* const qglslAffinePositionWithTextureBrushVertexShader
= qglslPositionWithTextureBrushVertexShader;
static const char* const qglslTextureBrushSrcFragmentShader = "\
varying mediump vec2 brushTextureCoords; \
uniform sampler2D brushTexture; \
lowp vec4 srcPixel() { \
return texture2D(brushTexture, brushTextureCoords); \
}";
static const char* const qglslTextureBrushSrcWithPatternFragmentShader = "\
varying mediump vec2 brushTextureCoords; \
uniform lowp vec4 patternColor; \
uniform sampler2D brushTexture; \
lowp vec4 srcPixel() { \
return patternColor * (1.0 - texture2D(brushTexture, brushTextureCoords).r); \
}";
// Solid Fill Brush
static const char* const qglslSolidBrushSrcFragmentShader = "\
uniform lowp vec4 fragmentColor; \
lowp vec4 srcPixel() { \
return fragmentColor; \
}";
static const char* const qglslImageSrcFragmentShader = "\
varying highp vec2 textureCoords; \
uniform sampler2D imageTexture; \
lowp vec4 srcPixel() { \
return texture2D(imageTexture, textureCoords); \
}";
static const char* const qglslImageSrcWithPatternFragmentShader = "\
varying highp vec2 textureCoords; \
uniform lowp vec4 patternColor; \
uniform sampler2D imageTexture; \
lowp vec4 srcPixel() { \
return patternColor * (1.0 - texture2D(imageTexture, textureCoords).r); \
}\n";
static const char* const qglslNonPremultipliedImageSrcFragmentShader = "\
varying highp vec2 textureCoords; \
uniform sampler2D imageTexture; \
lowp vec4 srcPixel() { \
lowp vec4 sample = texture2D(imageTexture, textureCoords); \
sample.rgb = sample.rgb * sample.a; \
return sample; \
}";
static const char* const qglslShockingPinkSrcFragmentShader = "\
lowp vec4 srcPixel() { \
return vec4(0.98, 0.06, 0.75, 1.0); \
}";
static const char* const qglslMainFragmentShader_CMO = "\
uniform lowp float globalOpacity; \
lowp vec4 srcPixel(); \
lowp vec4 applyMask(lowp vec4); \
lowp vec4 compose(lowp vec4); \
void main() { \
gl_FragColor = applyMask(compose(srcPixel()*globalOpacity))); \
}";
static const char* const qglslMainFragmentShader_CM = "\
lowp vec4 srcPixel(); \
lowp vec4 applyMask(lowp vec4); \
lowp vec4 compose(lowp vec4); \
void main() { \
gl_FragColor = applyMask(compose(srcPixel())); \
}";
static const char* const qglslMainFragmentShader_MO = "\
uniform lowp float globalOpacity; \
lowp vec4 srcPixel(); \
lowp vec4 applyMask(lowp vec4); \
void main() { \
gl_FragColor = applyMask(srcPixel()*globalOpacity); \
}";
static const char* const qglslMainFragmentShader_M = "\
lowp vec4 srcPixel(); \
lowp vec4 applyMask(lowp vec4); \
void main() { \
gl_FragColor = applyMask(srcPixel()); \
}";
static const char* const qglslMainFragmentShader_CO = "\
uniform lowp float globalOpacity; \
lowp vec4 srcPixel(); \
lowp vec4 compose(lowp vec4); \
void main() { \
gl_FragColor = compose(srcPixel()*globalOpacity); \
}";
static const char* const qglslMainFragmentShader_C = "\
lowp vec4 srcPixel(); \
lowp vec4 compose(lowp vec4); \
void main() { \
gl_FragColor = compose(srcPixel()); \
}";
static const char* const qglslMainFragmentShader_O = "\
uniform lowp float globalOpacity; \
lowp vec4 srcPixel(); \
void main() { \
gl_FragColor = srcPixel()*globalOpacity; \
}";
static const char* const qglslMainFragmentShader = "\
lowp vec4 srcPixel(); \
void main() { \
gl_FragColor = srcPixel(); \
}";
static const char* const qglslMaskFragmentShader = "\
varying highp vec2 textureCoords;\
uniform sampler2D maskTexture;\
lowp vec4 applyMask(lowp vec4 src) \
{\
lowp vec4 mask = texture2D(maskTexture, textureCoords); \
return src * mask.a; \
}";
/*
Left to implement:
RgbMaskFragmentShader,
RgbMaskWithGammaFragmentShader,
MultiplyCompositionModeFragmentShader,
ScreenCompositionModeFragmentShader,
OverlayCompositionModeFragmentShader,
DarkenCompositionModeFragmentShader,
LightenCompositionModeFragmentShader,
ColorDodgeCompositionModeFragmentShader,
ColorBurnCompositionModeFragmentShader,
HardLightCompositionModeFragmentShader,
SoftLightCompositionModeFragmentShader,
DifferenceCompositionModeFragmentShader,
ExclusionCompositionModeFragmentShader,
*/
QT_END_NAMESPACE
QT_END_HEADER
#endif // GLGC_SHADER_SOURCE_H
|