diff options
Diffstat (limited to 'src/gui/opengl/qopenglengineshadersource_p.h')
-rw-r--r-- | src/gui/opengl/qopenglengineshadersource_p.h | 529 |
1 files changed, 529 insertions, 0 deletions
diff --git a/src/gui/opengl/qopenglengineshadersource_p.h b/src/gui/opengl/qopenglengineshadersource_p.h new file mode 100644 index 0000000000..cb85212308 --- /dev/null +++ b/src/gui/opengl/qopenglengineshadersource_p.h @@ -0,0 +1,529 @@ +/**************************************************************************** +** +** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). +** All rights reserved. +** Contact: Nokia Corporation (qt-info@nokia.com) +** +** This file is part of the QtGui module of the Qt Toolkit. +** +** $QT_BEGIN_LICENSE:LGPL$ +** GNU Lesser General Public License Usage +** 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 1.1, 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. +** +** Other Usage +** Alternatively, this file may be used in accordance with the terms and +** conditions contained in a signed written agreement between you and Nokia. +** +** +** +** +** +** $QT_END_LICENSE$ +** +****************************************************************************/ + +// +// 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 QOPENGL_ENGINE_SHADER_SOURCE_H +#define QOPENGL_ENGINE_SHADER_SOURCE_H + +#include "qopenglengineshadermanager_p.h" + +QT_BEGIN_HEADER + +QT_BEGIN_NAMESPACE + +QT_MODULE(Gui) + + +static const char* const qopenglslMainVertexShader = "\n\ + void setPosition(); \n\ + void main(void) \n\ + { \n\ + setPosition(); \n\ + }\n"; + +static const char* const qopenglslMainWithTexCoordsVertexShader = "\n\ + attribute highp vec2 textureCoordArray; \n\ + varying highp vec2 textureCoords; \n\ + void setPosition(); \n\ + void main(void) \n\ + { \n\ + setPosition(); \n\ + textureCoords = textureCoordArray; \n\ + }\n"; + +static const char* const qopenglslMainWithTexCoordsAndOpacityVertexShader = "\n\ + attribute highp vec2 textureCoordArray; \n\ + attribute lowp float opacityArray; \n\ + varying highp vec2 textureCoords; \n\ + varying lowp float opacity; \n\ + void setPosition(); \n\ + void main(void) \n\ + { \n\ + setPosition(); \n\ + textureCoords = textureCoordArray; \n\ + opacity = opacityArray; \n\ + }\n"; + +// NOTE: We let GL do the perspective correction so texture lookups in the fragment +// shader are also perspective corrected. +static const char* const qopenglslPositionOnlyVertexShader = "\n\ + attribute highp vec2 vertexCoordsArray; \n\ + attribute highp vec3 pmvMatrix1; \n\ + attribute highp vec3 pmvMatrix2; \n\ + attribute highp vec3 pmvMatrix3; \n\ + void setPosition(void) \n\ + { \n\ + highp mat3 pmvMatrix = mat3(pmvMatrix1, pmvMatrix2, pmvMatrix3); \n\ + vec3 transformedPos = pmvMatrix * vec3(vertexCoordsArray.xy, 1.0); \n\ + gl_Position = vec4(transformedPos.xy, 0.0, transformedPos.z); \n\ + }\n"; + +static const char* const qopenglslComplexGeometryPositionOnlyVertexShader = "\n\ + uniform highp mat3 matrix; \n\ + attribute highp vec2 vertexCoordsArray; \n\ + void setPosition(void) \n\ + { \n\ + gl_Position = vec4(matrix * vec3(vertexCoordsArray, 1), 1);\n\ + } \n"; + +static const char* const qopenglslUntransformedPositionVertexShader = "\n\ + attribute highp vec4 vertexCoordsArray; \n\ + void setPosition(void) \n\ + { \n\ + gl_Position = vertexCoordsArray; \n\ + }\n"; + +// Pattern Brush - This assumes the texture size is 8x8 and thus, the inverted size is 0.125 +static const char* const qopenglslPositionWithPatternBrushVertexShader = "\n\ + attribute highp vec2 vertexCoordsArray; \n\ + attribute highp vec3 pmvMatrix1; \n\ + attribute highp vec3 pmvMatrix2; \n\ + attribute highp vec3 pmvMatrix3; \n\ + uniform mediump vec2 halfViewportSize; \n\ + uniform highp vec2 invertedTextureSize; \n\ + uniform highp mat3 brushTransform; \n\ + varying highp vec2 patternTexCoords; \n\ + void setPosition(void) \n\ + { \n\ + highp mat3 pmvMatrix = mat3(pmvMatrix1, pmvMatrix2, pmvMatrix3); \n\ + vec3 transformedPos = pmvMatrix * vec3(vertexCoordsArray.xy, 1.0); \n\ + gl_Position.xy = transformedPos.xy / transformedPos.z; \n\ + mediump vec2 viewportCoords = (gl_Position.xy + 1.0) * halfViewportSize; \n\ + mediump vec3 hTexCoords = brushTransform * vec3(viewportCoords, 1.0); \n\ + mediump float invertedHTexCoordsZ = 1.0 / hTexCoords.z; \n\ + gl_Position = vec4(gl_Position.xy * invertedHTexCoordsZ, 0.0, invertedHTexCoordsZ); \n\ + patternTexCoords.xy = (hTexCoords.xy * 0.125) * invertedHTexCoordsZ; \n\ + }\n"; + +static const char* const qopenglslAffinePositionWithPatternBrushVertexShader + = qopenglslPositionWithPatternBrushVertexShader; + +static const char* const qopenglslPatternBrushSrcFragmentShader = "\n\ + uniform sampler2D brushTexture; \n\ + uniform lowp vec4 patternColor; \n\ + varying highp vec2 patternTexCoords;\n\ + lowp vec4 srcPixel() \n\ + { \n\ + return patternColor * (1.0 - texture2D(brushTexture, patternTexCoords).r); \n\ + }\n"; + + +// Linear Gradient Brush +static const char* const qopenglslPositionWithLinearGradientBrushVertexShader = "\n\ + attribute highp vec2 vertexCoordsArray; \n\ + attribute highp vec3 pmvMatrix1; \n\ + attribute highp vec3 pmvMatrix2; \n\ + attribute highp vec3 pmvMatrix3; \n\ + uniform mediump vec2 halfViewportSize; \n\ + uniform highp vec3 linearData; \n\ + uniform highp mat3 brushTransform; \n\ + varying mediump float index; \n\ + void setPosition() \n\ + { \n\ + highp mat3 pmvMatrix = mat3(pmvMatrix1, pmvMatrix2, pmvMatrix3); \n\ + vec3 transformedPos = pmvMatrix * vec3(vertexCoordsArray.xy, 1.0); \n\ + gl_Position.xy = transformedPos.xy / transformedPos.z; \n\ + mediump vec2 viewportCoords = (gl_Position.xy + 1.0) * halfViewportSize; \n\ + mediump vec3 hTexCoords = brushTransform * vec3(viewportCoords, 1); \n\ + mediump float invertedHTexCoordsZ = 1.0 / hTexCoords.z; \n\ + gl_Position = vec4(gl_Position.xy * invertedHTexCoordsZ, 0.0, invertedHTexCoordsZ); \n\ + index = (dot(linearData.xy, hTexCoords.xy) * linearData.z) * invertedHTexCoordsZ; \n\ + }\n"; + +static const char* const qopenglslAffinePositionWithLinearGradientBrushVertexShader + = qopenglslPositionWithLinearGradientBrushVertexShader; + +static const char* const qopenglslLinearGradientBrushSrcFragmentShader = "\n\ + uniform sampler2D brushTexture; \n\ + varying mediump float index; \n\ + lowp vec4 srcPixel() \n\ + { \n\ + mediump vec2 val = vec2(index, 0.5); \n\ + return texture2D(brushTexture, val); \n\ + }\n"; + + +// Conical Gradient Brush +static const char* const qopenglslPositionWithConicalGradientBrushVertexShader = "\n\ + attribute highp vec2 vertexCoordsArray; \n\ + attribute highp vec3 pmvMatrix1; \n\ + attribute highp vec3 pmvMatrix2; \n\ + attribute highp vec3 pmvMatrix3; \n\ + uniform mediump vec2 halfViewportSize; \n\ + uniform highp mat3 brushTransform; \n\ + varying highp vec2 A; \n\ + void setPosition(void) \n\ + { \n\ + highp mat3 pmvMatrix = mat3(pmvMatrix1, pmvMatrix2, pmvMatrix3); \n\ + vec3 transformedPos = pmvMatrix * vec3(vertexCoordsArray.xy, 1.0); \n\ + gl_Position.xy = transformedPos.xy / transformedPos.z; \n\ + mediump vec2 viewportCoords = (gl_Position.xy + 1.0) * halfViewportSize; \n\ + mediump vec3 hTexCoords = brushTransform * vec3(viewportCoords, 1); \n\ + mediump float invertedHTexCoordsZ = 1.0 / hTexCoords.z; \n\ + gl_Position = vec4(gl_Position.xy * invertedHTexCoordsZ, 0.0, invertedHTexCoordsZ); \n\ + A = hTexCoords.xy * invertedHTexCoordsZ; \n\ + }\n"; + +static const char* const qopenglslAffinePositionWithConicalGradientBrushVertexShader + = qopenglslPositionWithConicalGradientBrushVertexShader; + +static const char* const qopenglslConicalGradientBrushSrcFragmentShader = "\n\ + #define INVERSE_2PI 0.1591549430918953358 \n\ + uniform sampler2D brushTexture; \n\ + uniform mediump float angle; \n\ + varying highp vec2 A; \n\ + lowp vec4 srcPixel() \n\ + { \n\ + highp float t; \n\ + if (abs(A.y) == abs(A.x)) \n\ + t = (atan(-A.y + 0.002, A.x) + angle) * INVERSE_2PI; \n\ + else \n\ + t = (atan(-A.y, A.x) + angle) * INVERSE_2PI; \n\ + return texture2D(brushTexture, vec2(t - floor(t), 0.5)); \n\ + }\n"; + + +// Radial Gradient Brush +static const char* const qopenglslPositionWithRadialGradientBrushVertexShader = "\n\ + attribute highp vec2 vertexCoordsArray;\n\ + attribute highp vec3 pmvMatrix1; \n\ + attribute highp vec3 pmvMatrix2; \n\ + attribute highp vec3 pmvMatrix3; \n\ + uniform mediump vec2 halfViewportSize; \n\ + uniform highp mat3 brushTransform; \n\ + uniform highp vec2 fmp; \n\ + uniform highp vec3 bradius; \n\ + varying highp float b; \n\ + varying highp vec2 A; \n\ + void setPosition(void) \n\ + {\n\ + highp mat3 pmvMatrix = mat3(pmvMatrix1, pmvMatrix2, pmvMatrix3); \n\ + vec3 transformedPos = pmvMatrix * vec3(vertexCoordsArray.xy, 1.0); \n\ + gl_Position.xy = transformedPos.xy / transformedPos.z; \n\ + mediump vec2 viewportCoords = (gl_Position.xy + 1.0) * halfViewportSize; \n\ + mediump vec3 hTexCoords = brushTransform * vec3(viewportCoords, 1); \n\ + mediump float invertedHTexCoordsZ = 1.0 / hTexCoords.z; \n\ + gl_Position = vec4(gl_Position.xy * invertedHTexCoordsZ, 0.0, invertedHTexCoordsZ); \n\ + A = hTexCoords.xy * invertedHTexCoordsZ; \n\ + b = bradius.x + 2.0 * dot(A, fmp); \n\ + }\n"; + +static const char* const qopenglslAffinePositionWithRadialGradientBrushVertexShader + = qopenglslPositionWithRadialGradientBrushVertexShader; + +static const char* const qopenglslRadialGradientBrushSrcFragmentShader = "\n\ + uniform sampler2D brushTexture; \n\ + uniform highp float fmp2_m_radius2; \n\ + uniform highp float inverse_2_fmp2_m_radius2; \n\ + uniform highp float sqrfr; \n\ + varying highp float b; \n\ + varying highp vec2 A; \n\ + uniform highp vec3 bradius; \n\ + lowp vec4 srcPixel() \n\ + { \n\ + highp float c = sqrfr-dot(A, A); \n\ + highp float det = b*b - 4.0*fmp2_m_radius2*c; \n\ + lowp vec4 result = vec4(0.0); \n\ + if (det >= 0.0) { \n\ + highp float detSqrt = sqrt(det); \n\ + highp float w = max((-b - detSqrt) * inverse_2_fmp2_m_radius2, (-b + detSqrt) * inverse_2_fmp2_m_radius2); \n\ + if (bradius.y + w * bradius.z >= 0.0) \n\ + result = texture2D(brushTexture, vec2(w, 0.5)); \n\ + } \n\ + return result; \n\ + }\n"; + + +// Texture Brush +static const char* const qopenglslPositionWithTextureBrushVertexShader = "\n\ + attribute highp vec2 vertexCoordsArray; \n\ + attribute highp vec3 pmvMatrix1; \n\ + attribute highp vec3 pmvMatrix2; \n\ + attribute highp vec3 pmvMatrix3; \n\ + uniform mediump vec2 halfViewportSize; \n\ + uniform highp vec2 invertedTextureSize; \n\ + uniform highp mat3 brushTransform; \n\ + varying highp vec2 brushTextureCoords; \n\ + void setPosition(void) \n\ + { \n\ + highp mat3 pmvMatrix = mat3(pmvMatrix1, pmvMatrix2, pmvMatrix3); \n\ + vec3 transformedPos = pmvMatrix * vec3(vertexCoordsArray.xy, 1.0); \n\ + gl_Position.xy = transformedPos.xy / transformedPos.z; \n\ + mediump vec2 viewportCoords = (gl_Position.xy + 1.0) * halfViewportSize; \n\ + mediump vec3 hTexCoords = brushTransform * vec3(viewportCoords, 1); \n\ + mediump float invertedHTexCoordsZ = 1.0 / hTexCoords.z; \n\ + gl_Position = vec4(gl_Position.xy * invertedHTexCoordsZ, 0.0, invertedHTexCoordsZ); \n\ + brushTextureCoords.xy = (hTexCoords.xy * invertedTextureSize) * gl_Position.w; \n\ + }\n"; + +static const char* const qopenglslAffinePositionWithTextureBrushVertexShader + = qopenglslPositionWithTextureBrushVertexShader; + +#if defined(QT_OPENGL_ES_2) +// OpenGL ES does not support GL_REPEAT wrap modes for NPOT textures. So instead, +// we emulate GL_REPEAT by only taking the fractional part of the texture coords. +// TODO: Special case POT textures which don't need this emulation +static const char* const qopenglslTextureBrushSrcFragmentShader = "\n\ + varying highp vec2 brushTextureCoords; \n\ + uniform sampler2D brushTexture; \n\ + lowp vec4 srcPixel() { \n\ + return texture2D(brushTexture, fract(brushTextureCoords)); \n\ + }\n"; +#else +static const char* const qopenglslTextureBrushSrcFragmentShader = "\n\ + varying highp vec2 brushTextureCoords; \n\ + uniform sampler2D brushTexture; \n\ + lowp vec4 srcPixel() \n\ + { \n\ + return texture2D(brushTexture, brushTextureCoords); \n\ + }\n"; +#endif + +static const char* const qopenglslTextureBrushSrcWithPatternFragmentShader = "\n\ + varying highp vec2 brushTextureCoords; \n\ + uniform lowp vec4 patternColor; \n\ + uniform sampler2D brushTexture; \n\ + lowp vec4 srcPixel() \n\ + { \n\ + return patternColor * (1.0 - texture2D(brushTexture, brushTextureCoords).r); \n\ + }\n"; + +// Solid Fill Brush +static const char* const qopenglslSolidBrushSrcFragmentShader = "\n\ + uniform lowp vec4 fragmentColor; \n\ + lowp vec4 srcPixel() \n\ + { \n\ + return fragmentColor; \n\ + }\n"; + +static const char* const qopenglslImageSrcFragmentShader = "\n\ + varying highp vec2 textureCoords; \n\ + uniform sampler2D imageTexture; \n\ + lowp vec4 srcPixel() \n\ + { \n" + "return texture2D(imageTexture, textureCoords); \n" + "}\n"; + +static const char* const qopenglslCustomSrcFragmentShader = "\n\ + varying highp vec2 textureCoords; \n\ + uniform sampler2D imageTexture; \n\ + lowp vec4 srcPixel() \n\ + { \n\ + return customShader(imageTexture, textureCoords); \n\ + }\n"; + +static const char* const qopenglslImageSrcWithPatternFragmentShader = "\n\ + varying highp vec2 textureCoords; \n\ + uniform lowp vec4 patternColor; \n\ + uniform sampler2D imageTexture; \n\ + lowp vec4 srcPixel() \n\ + { \n\ + return patternColor * (1.0 - texture2D(imageTexture, textureCoords).r); \n\ + }\n"; + +static const char* const qopenglslNonPremultipliedImageSrcFragmentShader = "\n\ + varying highp vec2 textureCoords; \n\ + uniform sampler2D imageTexture; \n\ + lowp vec4 srcPixel() \n\ + { \n\ + lowp vec4 sample = texture2D(imageTexture, textureCoords); \n\ + sample.rgb = sample.rgb * sample.a; \n\ + return sample; \n\ + }\n"; + +static const char* const qopenglslShockingPinkSrcFragmentShader = "\n\ + lowp vec4 srcPixel() \n\ + { \n\ + return vec4(0.98, 0.06, 0.75, 1.0); \n\ + }\n"; + +static const char* const qopenglslMainFragmentShader_ImageArrays = "\n\ + varying lowp float opacity; \n\ + lowp vec4 srcPixel(); \n\ + void main() \n\ + { \n\ + gl_FragColor = srcPixel() * opacity; \n\ + }\n"; + +static const char* const qopenglslMainFragmentShader_CMO = "\n\ + uniform lowp float globalOpacity; \n\ + lowp vec4 srcPixel(); \n\ + lowp vec4 applyMask(lowp vec4); \n\ + lowp vec4 compose(lowp vec4); \n\ + void main() \n\ + { \n\ + gl_FragColor = applyMask(compose(srcPixel()*globalOpacity))); \n\ + }\n"; + +static const char* const qopenglslMainFragmentShader_CM = "\n\ + lowp vec4 srcPixel(); \n\ + lowp vec4 applyMask(lowp vec4); \n\ + lowp vec4 compose(lowp vec4); \n\ + void main() \n\ + { \n\ + gl_FragColor = applyMask(compose(srcPixel())); \n\ + }\n"; + +static const char* const qopenglslMainFragmentShader_MO = "\n\ + uniform lowp float globalOpacity; \n\ + lowp vec4 srcPixel(); \n\ + lowp vec4 applyMask(lowp vec4); \n\ + void main() \n\ + { \n\ + gl_FragColor = applyMask(srcPixel()*globalOpacity); \n\ + }\n"; + +static const char* const qopenglslMainFragmentShader_M = "\n\ + lowp vec4 srcPixel(); \n\ + lowp vec4 applyMask(lowp vec4); \n\ + void main() \n\ + { \n\ + gl_FragColor = applyMask(srcPixel()); \n\ + }\n"; + +static const char* const qopenglslMainFragmentShader_CO = "\n\ + uniform lowp float globalOpacity; \n\ + lowp vec4 srcPixel(); \n\ + lowp vec4 compose(lowp vec4); \n\ + void main() \n\ + { \n\ + gl_FragColor = compose(srcPixel()*globalOpacity); \n\ + }\n"; + +static const char* const qopenglslMainFragmentShader_C = "\n\ + lowp vec4 srcPixel(); \n\ + lowp vec4 compose(lowp vec4); \n\ + void main() \n\ + { \n\ + gl_FragColor = compose(srcPixel()); \n\ + }\n"; + +static const char* const qopenglslMainFragmentShader_O = "\n\ + uniform lowp float globalOpacity; \n\ + lowp vec4 srcPixel(); \n\ + void main() \n\ + { \n\ + gl_FragColor = srcPixel()*globalOpacity; \n\ + }\n"; + +static const char* const qopenglslMainFragmentShader = "\n\ + lowp vec4 srcPixel(); \n\ + void main() \n\ + { \n\ + gl_FragColor = srcPixel(); \n\ + }\n"; + +static const char* const qopenglslMaskFragmentShader = "\n\ + varying highp vec2 textureCoords;\n\ + uniform sampler2D maskTexture;\n\ + lowp vec4 applyMask(lowp vec4 src) \n\ + {\n\ + lowp vec4 mask = texture2D(maskTexture, textureCoords); \n\ + return src * mask.a; \n\ + }\n"; + +// For source over with subpixel antialiasing, the final color is calculated per component as follows +// (.a is alpha component, .c is red, green or blue component): +// alpha = src.a * mask.c * opacity +// dest.c = dest.c * (1 - alpha) + src.c * alpha +// +// In the first pass, calculate: dest.c = dest.c * (1 - alpha) with blend funcs: zero, 1 - source color +// In the second pass, calculate: dest.c = dest.c + src.c * alpha with blend funcs: one, one +// +// If source is a solid color (src is constant), only the first pass is needed, with blend funcs: constant, 1 - source color + +// For source composition with subpixel antialiasing, the final color is calculated per component as follows: +// alpha = src.a * mask.c * opacity +// dest.c = dest.c * (1 - mask.c) + src.c * alpha +// + +static const char* const qopenglslRgbMaskFragmentShaderPass1 = "\n\ + varying highp vec2 textureCoords;\n\ + uniform sampler2D maskTexture;\n\ + lowp vec4 applyMask(lowp vec4 src) \n\ + { \n\ + lowp vec4 mask = texture2D(maskTexture, textureCoords); \n\ + return src.a * mask; \n\ + }\n"; + +static const char* const qopenglslRgbMaskFragmentShaderPass2 = "\n\ + varying highp vec2 textureCoords;\n\ + uniform sampler2D maskTexture;\n\ + lowp vec4 applyMask(lowp vec4 src) \n\ + { \n\ + lowp vec4 mask = texture2D(maskTexture, textureCoords); \n\ + return src * mask; \n\ + }\n"; + +/* + 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 |