#ifndef _RRFRAGMENTOPERATIONS_HPP #define _RRFRAGMENTOPERATIONS_HPP /*------------------------------------------------------------------------- * drawElements Quality Program Reference Renderer * ----------------------------------------------- * * Copyright 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * *//*! * \file * \brief Reference implementation for per-fragment operations. * * \note In this file, a multisample buffer means a tcu::PixelBufferAccess * (or ConstPixelBufferAccess) where the x coordinate is the sample * index and the y and z coordinates are the pixel's x and y * coordinates, respectively. To prevent supplying a buffer in * a wrong format the buffers are wrapped in rr::MultisamplePixelBufferAccess * wrapper. FragmentProcessor::render() operates on * this kind of buffers. The function fromSinglesampleAccess() can be * used to get a one-sampled multisample access to a normal 2d * buffer. *//*--------------------------------------------------------------------*/ #include "rrDefs.hpp" #include "tcuVector.hpp" #include "tcuTexture.hpp" #include "rrRenderState.hpp" #include "rrGenericVector.hpp" #include "rrMultisamplePixelBufferAccess.hpp" namespace rr { struct Fragment { tcu::IVec2 pixelCoord; GenericVec4 value; GenericVec4 value1; deUint32 coverage; const float* sampleDepths; Fragment (const tcu::IVec2& pixelCoord_, const GenericVec4& value_, deUint32 coverage_, const float* sampleDepths_) : pixelCoord (pixelCoord_) , value (value_) , value1 () , coverage (coverage_) , sampleDepths (sampleDepths_) { } Fragment (const tcu::IVec2& pixelCoord_, const GenericVec4& value_, const GenericVec4& value1_, deUint32 coverage_, const float* sampleDepths_) : pixelCoord (pixelCoord_) , value (value_) , value1 (value1_) , coverage (coverage_) , sampleDepths (sampleDepths_) { } Fragment (void) : pixelCoord (0) , value () , coverage (0) , sampleDepths (DE_NULL) { } } DE_WARN_UNUSED_TYPE; // These functions are for clearing only a specific pixel rectangle in a multisample buffer. // When clearing the entire buffer, tcu::clear, tcu::clearDepth and tcu::clearStencil can be used. void clearMultisampleColorBuffer (const tcu::PixelBufferAccess& dst, const tcu::Vec4& value, const WindowRectangle& rect); void clearMultisampleColorBuffer (const tcu::PixelBufferAccess& dst, const tcu::IVec4& value, const WindowRectangle& rect); void clearMultisampleColorBuffer (const tcu::PixelBufferAccess& dst, const tcu::UVec4& value, const WindowRectangle& rect); void clearMultisampleDepthBuffer (const tcu::PixelBufferAccess& dst, float value, const WindowRectangle& rect); void clearMultisampleStencilBuffer (const tcu::PixelBufferAccess& dst, int value, const WindowRectangle& rect); /*--------------------------------------------------------------------*//*! * \brief Reference fragment renderer. * * FragmentProcessor.render() draws a given set of fragments. No two * fragments given in one render() call should have the same pixel * coordinates coordinates, and they must all have the same facing. *//*--------------------------------------------------------------------*/ class FragmentProcessor { public: FragmentProcessor (void); void render (const rr::MultisamplePixelBufferAccess& colorMultisampleBuffer, const rr::MultisamplePixelBufferAccess& depthMultisampleBuffer, const rr::MultisamplePixelBufferAccess& stencilMultisampleBuffer, const Fragment* fragments, int numFragments, FaceType fragmentFacing, const FragmentOperationState& state); private: enum { SAMPLE_REGISTER_SIZE = 64 }; struct SampleData { bool isAlive; bool stencilPassed; bool depthPassed; tcu::Vec4 clampedBlendSrcColor; tcu::Vec4 clampedBlendSrc1Color; tcu::Vec4 clampedBlendDstColor; tcu::Vec3 blendSrcFactorRGB; float blendSrcFactorA; tcu::Vec3 blendDstFactorRGB; float blendDstFactorA; tcu::Vec3 blendedRGB; float blendedA; tcu::Vector signedValue; //!< integer targets tcu::Vector unsignedValue; //!< unsigned integer targets }; // These functions operate on the values in m_sampleRegister and, in some cases, the buffers. void executeScissorTest (int fragNdxOffset, int numSamplesPerFragment, const Fragment* inputFragments, const WindowRectangle& scissorRect); void executeStencilCompare (int fragNdxOffset, int numSamplesPerFragment, const Fragment* inputFragments, const StencilState& stencilState, int numStencilBits, const tcu::ConstPixelBufferAccess& stencilBuffer); void executeStencilSFail (int fragNdxOffset, int numSamplesPerFragment, const Fragment* inputFragments, const StencilState& stencilState, int numStencilBits, const tcu::PixelBufferAccess& stencilBuffer); void executeDepthCompare (int fragNdxOffset, int numSamplesPerFragment, const Fragment* inputFragments, TestFunc depthFunc, const tcu::ConstPixelBufferAccess& depthBuffer); void executeDepthWrite (int fragNdxOffset, int numSamplesPerFragment, const Fragment* inputFragments, const tcu::PixelBufferAccess& depthBuffer); void executeStencilDpFailAndPass (int fragNdxOffset, int numSamplesPerFragment, const Fragment* inputFragments, const StencilState& stencilState, int numStencilBits, const tcu::PixelBufferAccess& stencilBuffer); void executeBlendFactorComputeRGB (const tcu::Vec4& blendColor, const BlendState& blendRGBState); void executeBlendFactorComputeA (const tcu::Vec4& blendColor, const BlendState& blendAState); void executeBlend (const BlendState& blendRGBState, const BlendState& blendAState); void executeAdvancedBlend (BlendEquationAdvanced equation); void executeColorWrite (int fragNdxOffset, int numSamplesPerFragment, const Fragment* inputFragments, bool isSRGB, const tcu::PixelBufferAccess& colorBuffer); void executeRGBA8ColorWrite (int fragNdxOffset, int numSamplesPerFragment, const Fragment* inputFragments, const tcu::PixelBufferAccess& colorBuffer); void executeMaskedColorWrite (int fragNdxOffset, int numSamplesPerFragment, const Fragment* inputFragments, const tcu::Vec4& colorMaskFactor, const tcu::Vec4& colorMaskNegationFactor, bool isSRGB, const tcu::PixelBufferAccess& colorBuffer); void executeSignedValueWrite (int fragNdxOffset, int numSamplesPerFragment, const Fragment* inputFragments, const tcu::BVec4& colorMask, const tcu::PixelBufferAccess& colorBuffer); void executeUnsignedValueWrite (int fragNdxOffset, int numSamplesPerFragment, const Fragment* inputFragments, const tcu::BVec4& colorMask, const tcu::PixelBufferAccess& colorBuffer); SampleData m_sampleRegister[SAMPLE_REGISTER_SIZE]; } DE_WARN_UNUSED_TYPE; } // rr #endif // _RRFRAGMENTOPERATIONS_HPP