void GrGpuGLShaders::flushViewMatrix() {
GrAssert(NULL != fCurrDrawState.fRenderTarget);
GrMatrix m (
GrIntToScalar(2) / fCurrDrawState.fRenderTarget->width(), 0, -GR_Scalar1,
0,-GrIntToScalar(2) / fCurrDrawState.fRenderTarget->height(), GR_Scalar1,
0, 0, GrMatrix::I()[8]);
m.setConcat(m, fCurrDrawState.fViewMatrix);
// ES doesn't allow you to pass true to the transpose param,
// so do our own transpose
GrScalar mt[] = {
m[GrMatrix::kScaleX],
m[GrMatrix::kSkewY],
m[GrMatrix::kPersp0],
m[GrMatrix::kSkewX],
m[GrMatrix::kScaleY],
m[GrMatrix::kPersp1],
m[GrMatrix::kTransX],
m[GrMatrix::kTransY],
m[GrMatrix::kPersp2]
};
#if ATTRIBUTE_MATRIX
GR_GL(VertexAttrib4fv(VIEWMAT_ATTR_LOCATION+0, mt+0));
GR_GL(VertexAttrib4fv(VIEWMAT_ATTR_LOCATION+1, mt+3));
GR_GL(VertexAttrib4fv(VIEWMAT_ATTR_LOCATION+2, mt+6));
#else
GR_GL(UniformMatrix3fv(fProgramData->fUniLocations.fViewMatrixUni,1,false,mt));
#endif
}
void GrGpuGLShaders::flushTextureMatrix(int stage) {
GrAssert(NULL != fCurrDrawState.fTextures[stage]);
GrGLTexture* texture = (GrGLTexture*) fCurrDrawState.fTextures[stage];
GrMatrix m = getSamplerMatrix(stage);
GrSamplerState::SampleMode mode =
fCurrDrawState.fSamplerStates[0].getSampleMode();
AdjustTextureMatrix(texture, mode, &m);
// ES doesn't allow you to pass true to the transpose param,
// so do our own transpose
GrScalar mt[] = {
m[GrMatrix::kScaleX],
m[GrMatrix::kSkewY],
m[GrMatrix::kPersp0],
m[GrMatrix::kSkewX],
m[GrMatrix::kScaleY],
m[GrMatrix::kPersp1],
m[GrMatrix::kTransX],
m[GrMatrix::kTransY],
m[GrMatrix::kPersp2]
};
#if ATTRIBUTE_MATRIX
GR_GL(VertexAttrib4fv(TEXMAT_ATTR_LOCATION(0)+0, mt+0));
GR_GL(VertexAttrib4fv(TEXMAT_ATTR_LOCATION(0)+1, mt+3));
GR_GL(VertexAttrib4fv(TEXMAT_ATTR_LOCATION(0)+2, mt+6));
#else
GR_GL(UniformMatrix3fv(fProgramData->fUniLocations.fStages[stage].fTextureMatrixUni,
1, false, mt));
#endif
}
void GrGLProgram::setColor(const GrDrawState& drawState,
GrColor color,
SharedGLState* sharedState) {
const GrGLProgramDesc::KeyHeader& header = fDesc.getHeader();
if (!drawState.hasColorVertexAttribute() || drawState.canIgnoreColorAttribute()) {
switch (header.fColorInput) {
case GrGLProgramDesc::kAttribute_ColorInput:
SkASSERT(-1 != header.fColorAttributeIndex);
if (sharedState->fConstAttribColor != color ||
sharedState->fConstAttribColorIndex != header.fColorAttributeIndex) {
// OpenGL ES only supports the float varieties of glVertexAttrib
GrGLfloat c[4];
GrColorToRGBAFloat(color, c);
GL_CALL(VertexAttrib4fv(header.fColorAttributeIndex, c));
sharedState->fConstAttribColor = color;
sharedState->fConstAttribColorIndex = header.fColorAttributeIndex;
}
break;
case GrGLProgramDesc::kUniform_ColorInput:
if (fColor != color && fBuilderOutput.fUniformHandles.fColorUni.isValid()) {
// OpenGL ES doesn't support unsigned byte varieties of glUniform
GrGLfloat c[4];
GrColorToRGBAFloat(color, c);
fUniformManager->set4fv(fBuilderOutput.fUniformHandles.fColorUni, 1, c);
fColor = color;
}
sharedState->fConstAttribColorIndex = -1;
break;
default:
SkFAIL("Unexpected color type.");
}
} else {
sharedState->fConstAttribColorIndex = -1;
}
}
void GrGpuGLShaders::flushTextureMatrix(int s) {
const GrGLint& uni = fProgramData->fUniLocations.fStages[s].fTextureMatrixUni;
GrGLTexture* texture = (GrGLTexture*) fCurrDrawState.fTextures[s];
if (NULL != texture) {
if (GrGLProgram::kUnusedUniform != uni &&
(((1 << s) & fDirtyFlags.fTextureChangedMask) ||
getHWSamplerMatrix(s) != getSamplerMatrix(s))) {
GrAssert(NULL != fCurrDrawState.fTextures[s]);
GrGLTexture* texture = (GrGLTexture*) fCurrDrawState.fTextures[s];
GrMatrix m = getSamplerMatrix(s);
GrSamplerState::SampleMode mode =
fCurrDrawState.fSamplerStates[s].getSampleMode();
AdjustTextureMatrix(texture, mode, &m);
// ES doesn't allow you to pass true to the transpose param,
// so do our own transpose
GrGLfloat mt[] = {
GrScalarToFloat(m[GrMatrix::kMScaleX]),
GrScalarToFloat(m[GrMatrix::kMSkewY]),
GrScalarToFloat(m[GrMatrix::kMPersp0]),
GrScalarToFloat(m[GrMatrix::kMSkewX]),
GrScalarToFloat(m[GrMatrix::kMScaleY]),
GrScalarToFloat(m[GrMatrix::kMPersp1]),
GrScalarToFloat(m[GrMatrix::kMTransX]),
GrScalarToFloat(m[GrMatrix::kMTransY]),
GrScalarToFloat(m[GrMatrix::kMPersp2])
};
if (GrGLProgram::kSetAsAttribute ==
fProgramData->fUniLocations.fStages[s].fTextureMatrixUni) {
int baseIdx = GrGLProgram::TextureMatrixAttributeIdx(s);
GL_CALL(VertexAttrib4fv(baseIdx + 0, mt+0));
GL_CALL(VertexAttrib4fv(baseIdx + 1, mt+3));
GL_CALL(VertexAttrib4fv(baseIdx + 2, mt+6));
} else {
GL_CALL(UniformMatrix3fv(uni, 1, false, mt));
}
recordHWSamplerMatrix(s, getSamplerMatrix(s));
}
}
}
void GrGpuGLShaders::flushViewMatrix() {
const GrMatrix& vm = this->getDrawState().getViewMatrix();
if (GrGpuGLShaders::getHWViewMatrix() != vm) {
const GrRenderTarget* rt = this->getDrawState().getRenderTarget();
GrAssert(NULL != rt);
GrMatrix m;
m.setAll(
GrIntToScalar(2) / rt->width(), 0, -GR_Scalar1,
0,-GrIntToScalar(2) / rt->height(), GR_Scalar1,
0, 0, GrMatrix::I()[8]);
m.setConcat(m, vm);
// ES doesn't allow you to pass true to the transpose param,
// so do our own transpose
GrGLfloat mt[] = {
GrScalarToFloat(m[GrMatrix::kMScaleX]),
GrScalarToFloat(m[GrMatrix::kMSkewY]),
GrScalarToFloat(m[GrMatrix::kMPersp0]),
GrScalarToFloat(m[GrMatrix::kMSkewX]),
GrScalarToFloat(m[GrMatrix::kMScaleY]),
GrScalarToFloat(m[GrMatrix::kMPersp1]),
GrScalarToFloat(m[GrMatrix::kMTransX]),
GrScalarToFloat(m[GrMatrix::kMTransY]),
GrScalarToFloat(m[GrMatrix::kMPersp2])
};
if (GrGLProgram::kSetAsAttribute ==
fProgramData->fUniLocations.fViewMatrixUni) {
int baseIdx = GrGLProgram::ViewMatrixAttributeIdx();
GL_CALL(VertexAttrib4fv(baseIdx + 0, mt+0));
GL_CALL(VertexAttrib4fv(baseIdx + 1, mt+3));
GL_CALL(VertexAttrib4fv(baseIdx + 2, mt+6));
} else {
GrAssert(GrGLProgram::kUnusedUniform !=
fProgramData->fUniLocations.fViewMatrixUni);
GL_CALL(UniformMatrix3fv(fProgramData->fUniLocations.fViewMatrixUni,
1, false, mt));
}
this->recordHWViewMatrix(vm);
}
}
void GrGpuGLShaders::flushColor(GrColor color) {
const ProgramDesc& desc = fCurrentProgram.getDesc();
const GrDrawState& drawState = this->getDrawState();
if (this->getVertexLayout() & kColor_VertexLayoutBit) {
// color will be specified per-vertex as an attribute
// invalidate the const vertex attrib color
fHWDrawState.setColor(GrColor_ILLEGAL);
} else {
switch (desc.fColorInput) {
case ProgramDesc::kAttribute_ColorInput:
if (fHWDrawState.getColor() != color) {
// OpenGL ES only supports the float varieties of
// glVertexAttrib
float c[] = GR_COLOR_TO_VEC4(color);
GL_CALL(VertexAttrib4fv(GrGLProgram::ColorAttributeIdx(),
c));
fHWDrawState.setColor(color);
}
break;
case ProgramDesc::kUniform_ColorInput:
if (fProgramData->fColor != color) {
// OpenGL ES doesn't support unsigned byte varieties of
// glUniform
float c[] = GR_COLOR_TO_VEC4(color);
GrAssert(GrGLProgram::kUnusedUniform !=
fProgramData->fUniLocations.fColorUni);
GL_CALL(Uniform4fv(fProgramData->fUniLocations.fColorUni,
1, c));
fProgramData->fColor = color;
}
break;
case ProgramDesc::kSolidWhite_ColorInput:
case ProgramDesc::kTransBlack_ColorInput:
break;
default:
GrCrash("Unknown color type.");
}
}
if (fProgramData->fUniLocations.fColorFilterUni
!= GrGLProgram::kUnusedUniform
&& fProgramData->fColorFilterColor
!= drawState.getColorFilterColor()) {
float c[] = GR_COLOR_TO_VEC4(drawState.getColorFilterColor());
GL_CALL(Uniform4fv(fProgramData->fUniLocations.fColorFilterUni, 1, c));
fProgramData->fColorFilterColor = drawState.getColorFilterColor();
}
}
void GrGpuGL::flushColor(GrColor color) {
const ProgramDesc& desc = fCurrentProgram->getDesc();
const GrDrawState& drawState = this->getDrawState();
if (this->getVertexLayout() & GrDrawState::kColor_VertexLayoutBit) {
// color will be specified per-vertex as an attribute
// invalidate the const vertex attrib color
fHWConstAttribColor = GrColor_ILLEGAL;
} else {
switch (desc.fColorInput) {
case ProgramDesc::kAttribute_ColorInput:
if (fHWConstAttribColor != color) {
// OpenGL ES only supports the float varieties of glVertexAttrib
GrGLfloat c[4];
GrColorToRGBAFloat(color, c);
GL_CALL(VertexAttrib4fv(GrGLProgram::ColorAttributeIdx(), c));
fHWConstAttribColor = color;
}
break;
case ProgramDesc::kUniform_ColorInput:
if (fCurrentProgram->fColor != color) {
// OpenGL ES doesn't support unsigned byte varieties of glUniform
GrGLfloat c[4];
GrColorToRGBAFloat(color, c);
GrAssert(kInvalidUniformHandle != fCurrentProgram->fUniformHandles.fColorUni);
fCurrentProgram->fUniformManager.set4fv(
fCurrentProgram->fUniformHandles.fColorUni,
0, 1, c);
fCurrentProgram->fColor = color;
}
break;
case ProgramDesc::kSolidWhite_ColorInput:
case ProgramDesc::kTransBlack_ColorInput:
break;
default:
GrCrash("Unknown color type.");
}
}
UniformHandle filterColorUni = fCurrentProgram->fUniformHandles.fColorFilterUni;
if (kInvalidUniformHandle != filterColorUni &&
fCurrentProgram->fColorFilterColor != drawState.getColorFilterColor()) {
GrGLfloat c[4];
GrColorToRGBAFloat(drawState.getColorFilterColor(), c);
fCurrentProgram->fUniformManager.set4fv(filterColorUni, 0, 1, c);
fCurrentProgram->fColorFilterColor = drawState.getColorFilterColor();
}
}
void GrGLProgram::setCoverage(const GrDrawState& drawState,
GrColor coverage,
SharedGLState* sharedState) {
const GrGLProgramDesc::KeyHeader& header = fDesc.getHeader();
if (!drawState.hasCoverageVertexAttribute()) {
switch (header.fCoverageInput) {
case GrGLProgramDesc::kAttribute_ColorInput:
if (sharedState->fConstAttribCoverage != coverage ||
sharedState->fConstAttribCoverageIndex != header.fCoverageAttributeIndex) {
// OpenGL ES only supports the float varieties of glVertexAttrib
GrGLfloat c[4];
GrColorToRGBAFloat(coverage, c);
GL_CALL(VertexAttrib4fv(header.fCoverageAttributeIndex, c));
sharedState->fConstAttribCoverage = coverage;
sharedState->fConstAttribCoverageIndex = header.fCoverageAttributeIndex;
}
break;
case GrGLProgramDesc::kUniform_ColorInput:
if (fCoverage != coverage) {
// OpenGL ES doesn't support unsigned byte varieties of glUniform
GrGLfloat c[4];
GrColorToRGBAFloat(coverage, c);
fUniformManager.set4fv(fUniformHandles.fCoverageUni, 1, c);
fCoverage = coverage;
}
sharedState->fConstAttribCoverageIndex = -1;
break;
case GrGLProgramDesc::kSolidWhite_ColorInput:
case GrGLProgramDesc::kTransBlack_ColorInput:
sharedState->fConstAttribCoverageIndex = -1;
break;
default:
GrCrash("Unknown coverage type.");
}
} else {
sharedState->fConstAttribCoverageIndex = -1;
}
}
bool GrGpuGLShaders::flushGraphicsState(GrPrimitiveType type) {
if (!flushGLStateCommon(type)) {
return false;
}
if (fDirtyFlags.fRenderTargetChanged) {
// our coords are in pixel space and the GL matrices map to NDC
// so if the viewport changed, our matrix is now wrong.
#if ATTRIBUTE_MATRIX
fHWDrawState.fViewMatrix = GrMatrix::InvalidMatrix();
#else
// we assume all shader matrices may be wrong after viewport changes
fProgramCache->invalidateViewMatrices();
#endif
}
if (fGeometrySrc.fVertexLayout & kColor_VertexLayoutBit) {
// invalidate the immediate mode color
fHWDrawState.fColor = GrColor_ILLEGAL;
} else {
if (fHWDrawState.fColor != fCurrDrawState.fColor) {
// OpenGL ES only supports the float varities of glVertexAttrib
float c[] = {
GrColorUnpackR(fCurrDrawState.fColor) / 255.f,
GrColorUnpackG(fCurrDrawState.fColor) / 255.f,
GrColorUnpackB(fCurrDrawState.fColor) / 255.f,
GrColorUnpackA(fCurrDrawState.fColor) / 255.f
};
GR_GL(VertexAttrib4fv(COL_ATTR_LOCATION, c));
fHWDrawState.fColor = fCurrDrawState.fColor;
}
}
buildProgram(type);
fProgramData = fProgramCache->getProgramData(fCurrentProgram, this);
if (fHWProgramID != fProgramData->fProgramID) {
GR_GL(UseProgram(fProgramData->fProgramID));
fHWProgramID = fProgramData->fProgramID;
}
if (!fCurrentProgram.doGLSetup(type, fProgramData)) {
return false;
}
#if ATTRIBUTE_MATRIX
GrMatrix& currViewMatrix = fHWDrawState.fViewMatrix;
#else
GrMatrix& currViewMatrix = fProgramData->fViewMatrix;
#endif
if (currViewMatrix != fCurrDrawState.fViewMatrix) {
flushViewMatrix();
currViewMatrix = fCurrDrawState.fViewMatrix;
}
for (int s = 0; s < kNumStages; ++s) {
GrGLTexture* texture = (GrGLTexture*) fCurrDrawState.fTextures[s];
if (NULL != texture) {
if (-1 != fProgramData->fUniLocations.fStages[s].fTextureMatrixUni &&
(((1 << s) & fDirtyFlags.fTextureChangedMask) ||
getHWSamplerMatrix(s) != getSamplerMatrix(s))) {
flushTextureMatrix(s);
recordHWSamplerMatrix(s, getSamplerMatrix(s));
}
}
const GrSamplerState& sampler = fCurrDrawState.fSamplerStates[s];
if (-1 != fProgramData->fUniLocations.fStages[s].fRadial2Uni &&
(fProgramData->fRadial2CenterX1[s] != sampler.getRadial2CenterX1() ||
fProgramData->fRadial2Radius0[s] != sampler.getRadial2Radius0() ||
fProgramData->fRadial2PosRoot[s] != sampler.isRadial2PosRoot())) {
flushRadial2(s);
fProgramData->fRadial2CenterX1[s] = sampler.getRadial2CenterX1();
fProgramData->fRadial2Radius0[s] = sampler.getRadial2Radius0();
fProgramData->fRadial2PosRoot[s] = sampler.isRadial2PosRoot();
}
}
resetDirtyFlags();
return true;
}
