src/third_party/angle/src/compiler/translator/blocklayout.cpp - cobalt - Git at Google

 //
 // Copyright (c) 2013-2014 The ANGLE Project Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 //
 // blocklayout.cpp:
 //   Implementation for block layout classes and methods.
 //

 #include "compiler/translator/blocklayout.h"

 #include "common/mathutil.h"
 #include "common/utilities.h"

 namespace sh
 {

 BlockLayoutEncoder::BlockLayoutEncoder() : mCurrentOffset(0)
 {
 }

 BlockMemberInfo BlockLayoutEncoder::encodeType(GLenum type,
                                                unsigned int arraySize,
                                                bool isRowMajorMatrix)
 {
     int arrayStride;
     int matrixStride;

     getBlockLayoutInfo(type, arraySize, isRowMajorMatrix, &arrayStride, &matrixStride);

     const BlockMemberInfo memberInfo(static_cast<int>(mCurrentOffset * BytesPerComponent),
                                      static_cast<int>(arrayStride * BytesPerComponent),
                                      static_cast<int>(matrixStride * BytesPerComponent),
                                      isRowMajorMatrix);

     advanceOffset(type, arraySize, isRowMajorMatrix, arrayStride, matrixStride);

     return memberInfo;
 }

 // static
 size_t BlockLayoutEncoder::getBlockRegister(const BlockMemberInfo &info)
 {
     return (info.offset / BytesPerComponent) / ComponentsPerRegister;
 }

 // static
 size_t BlockLayoutEncoder::getBlockRegisterElement(const BlockMemberInfo &info)
 {
     return (info.offset / BytesPerComponent) % ComponentsPerRegister;
 }

 void BlockLayoutEncoder::nextRegister()
 {
     mCurrentOffset = rx::roundUp<size_t>(mCurrentOffset, ComponentsPerRegister);
 }

 Std140BlockEncoder::Std140BlockEncoder()
 {
 }

 void Std140BlockEncoder::enterAggregateType()
 {
     nextRegister();
 }

 void Std140BlockEncoder::exitAggregateType()
 {
     nextRegister();
 }

 void Std140BlockEncoder::getBlockLayoutInfo(GLenum type,
                                             unsigned int arraySize,
                                             bool isRowMajorMatrix,
                                             int *arrayStrideOut,
                                             int *matrixStrideOut)
 {
     // We assume we are only dealing with 4 byte components (no doubles or half-words currently)
     ASSERT(gl::VariableComponentSize(gl::VariableComponentType(type)) == BytesPerComponent);

     size_t baseAlignment = 0;
     int matrixStride     = 0;
     int arrayStride      = 0;

     if (gl::IsMatrixType(type))
     {
         baseAlignment = ComponentsPerRegister;
         matrixStride  = ComponentsPerRegister;

         if (arraySize > 0)
         {
             const int numRegisters = gl::MatrixRegisterCount(type, isRowMajorMatrix);
             arrayStride            = ComponentsPerRegister * numRegisters;
         }
     }
     else if (arraySize > 0)
     {
         baseAlignment = ComponentsPerRegister;
         arrayStride   = ComponentsPerRegister;
     }
     else
     {
         const int numComponents = gl::VariableComponentCount(type);
         baseAlignment           = (numComponents == 3 ? 4u : static_cast<size_t>(numComponents));
     }

     mCurrentOffset = rx::roundUp(mCurrentOffset, baseAlignment);

     *matrixStrideOut = matrixStride;
     *arrayStrideOut  = arrayStride;
 }

 void Std140BlockEncoder::advanceOffset(GLenum type,
                                        unsigned int arraySize,
                                        bool isRowMajorMatrix,
                                        int arrayStride,
                                        int matrixStride)
 {
     if (arraySize > 0)
     {
         mCurrentOffset += arrayStride * arraySize;
     }
     else if (gl::IsMatrixType(type))
     {
         ASSERT(matrixStride == ComponentsPerRegister);
         const int numRegisters = gl::MatrixRegisterCount(type, isRowMajorMatrix);
         mCurrentOffset += ComponentsPerRegister * numRegisters;
     }
     else
     {
         mCurrentOffset += gl::VariableComponentCount(type);
     }
 }
 }
	//
	// Copyright (c) 2013-2014 The ANGLE Project Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	//
	// blocklayout.cpp:
	// Implementation for block layout classes and methods.
	//

	#include "compiler/translator/blocklayout.h"

	#include "common/mathutil.h"
	#include "common/utilities.h"

	namespace sh
	{

	BlockLayoutEncoder::BlockLayoutEncoder() : mCurrentOffset(0)
	{
	}

	BlockMemberInfo BlockLayoutEncoder::encodeType(GLenum type,
	unsigned int arraySize,
	bool isRowMajorMatrix)
	{
	int arrayStride;
	int matrixStride;

	getBlockLayoutInfo(type, arraySize, isRowMajorMatrix, &arrayStride, &matrixStride);

	const BlockMemberInfo memberInfo(static_cast<int>(mCurrentOffset * BytesPerComponent),
	static_cast<int>(arrayStride * BytesPerComponent),
	static_cast<int>(matrixStride * BytesPerComponent),
	isRowMajorMatrix);

	advanceOffset(type, arraySize, isRowMajorMatrix, arrayStride, matrixStride);

	return memberInfo;
	}

	// static
	size_t BlockLayoutEncoder::getBlockRegister(const BlockMemberInfo &info)
	{
	return (info.offset / BytesPerComponent) / ComponentsPerRegister;
	}

	// static
	size_t BlockLayoutEncoder::getBlockRegisterElement(const BlockMemberInfo &info)
	{
	return (info.offset / BytesPerComponent) % ComponentsPerRegister;
	}

	void BlockLayoutEncoder::nextRegister()
	{
	mCurrentOffset = rx::roundUp<size_t>(mCurrentOffset, ComponentsPerRegister);
	}

	Std140BlockEncoder::Std140BlockEncoder()
	{
	}

	void Std140BlockEncoder::enterAggregateType()
	{
	nextRegister();
	}

	void Std140BlockEncoder::exitAggregateType()
	{
	nextRegister();
	}

	void Std140BlockEncoder::getBlockLayoutInfo(GLenum type,
	unsigned int arraySize,
	bool isRowMajorMatrix,
	int *arrayStrideOut,
	int *matrixStrideOut)
	{
	// We assume we are only dealing with 4 byte components (no doubles or half-words currently)
	ASSERT(gl::VariableComponentSize(gl::VariableComponentType(type)) == BytesPerComponent);

	size_t baseAlignment = 0;
	int matrixStride = 0;
	int arrayStride = 0;

	if (gl::IsMatrixType(type))
	{
	baseAlignment = ComponentsPerRegister;
	matrixStride = ComponentsPerRegister;

	if (arraySize > 0)
	{
	const int numRegisters = gl::MatrixRegisterCount(type, isRowMajorMatrix);
	arrayStride = ComponentsPerRegister * numRegisters;
	}
	}
	else if (arraySize > 0)
	{
	baseAlignment = ComponentsPerRegister;
	arrayStride = ComponentsPerRegister;
	}
	else
	{
	const int numComponents = gl::VariableComponentCount(type);
	baseAlignment = (numComponents == 3 ? 4u : static_cast<size_t>(numComponents));
	}

	mCurrentOffset = rx::roundUp(mCurrentOffset, baseAlignment);

	*matrixStrideOut = matrixStride;
	*arrayStrideOut = arrayStride;
	}

	void Std140BlockEncoder::advanceOffset(GLenum type,
	unsigned int arraySize,
	bool isRowMajorMatrix,
	int arrayStride,
	int matrixStride)
	{
	if (arraySize > 0)
	{
	mCurrentOffset += arrayStride * arraySize;
	}
	else if (gl::IsMatrixType(type))
	{
	ASSERT(matrixStride == ComponentsPerRegister);
	const int numRegisters = gl::MatrixRegisterCount(type, isRowMajorMatrix);
	mCurrentOffset += ComponentsPerRegister * numRegisters;
	}
	else
	{
	mCurrentOffset += gl::VariableComponentCount(type);
	}
	}
	}