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

 //
 // Copyright (c) 2002-2015 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.
 //
 // The SeparateArrayInitialization function splits each array initialization into a declaration and
 // an assignment.
 // Example:
 //     type[n] a = initializer;
 // will effectively become
 //     type[n] a;
 //     a = initializer;
 //
 // Note that if the array is declared as const, the initialization may still be split, making the
 // AST technically invalid. Because of that this transformation should only be used when subsequent
 // stages don't care about const qualifiers. However, the initialization will not be split if the
 // initializer can be written as a HLSL literal.

 #include "compiler/translator/SeparateArrayInitialization.h"

 #include "compiler/translator/IntermNode.h"
 #include "compiler/translator/OutputHLSL.h"

 namespace sh
 {

 namespace
 {

 class SeparateArrayInitTraverser : private TIntermTraverser
 {
   public:
     static void apply(TIntermNode *root);

   private:
     SeparateArrayInitTraverser();
     bool visitDeclaration(Visit, TIntermDeclaration *node) override;
 };

 void SeparateArrayInitTraverser::apply(TIntermNode *root)
 {
     SeparateArrayInitTraverser separateInit;
     root->traverse(&separateInit);
     separateInit.updateTree();
 }

 SeparateArrayInitTraverser::SeparateArrayInitTraverser() : TIntermTraverser(true, false, false)
 {
 }

 bool SeparateArrayInitTraverser::visitDeclaration(Visit, TIntermDeclaration *node)
 {
     TIntermSequence *sequence = node->getSequence();
     TIntermBinary *initNode   = sequence->back()->getAsBinaryNode();
     if (initNode != nullptr && initNode->getOp() == EOpInitialize)
     {
         TIntermTyped *initializer = initNode->getRight();
         if (initializer->isArray() && !sh::OutputHLSL::canWriteAsHLSLLiteral(initializer))
         {
             // We rely on that array declarations have been isolated to single declarations.
             ASSERT(sequence->size() == 1);
             TIntermTyped *symbol      = initNode->getLeft();
             TIntermBlock *parentBlock = getParentNode()->getAsBlock();
             ASSERT(parentBlock != nullptr);

             TIntermSequence replacements;

             TIntermDeclaration *replacementDeclaration = new TIntermDeclaration();
             replacementDeclaration->appendDeclarator(symbol);
             replacementDeclaration->setLine(symbol->getLine());
             replacements.push_back(replacementDeclaration);

             TIntermBinary *replacementAssignment =
                 new TIntermBinary(EOpAssign, symbol, initializer);
             replacementAssignment->setLine(symbol->getLine());
             replacements.push_back(replacementAssignment);

             mMultiReplacements.push_back(
                 NodeReplaceWithMultipleEntry(parentBlock, node, replacements));
         }
     }
     return false;
 }

 }  // namespace

 void SeparateArrayInitialization(TIntermNode *root)
 {
     SeparateArrayInitTraverser::apply(root);
 }

 }  // namespace sh
	//
	// Copyright (c) 2002-2015 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.
	//
	// The SeparateArrayInitialization function splits each array initialization into a declaration and
	// an assignment.
	// Example:
	// type[n] a = initializer;
	// will effectively become
	// type[n] a;
	// a = initializer;
	//
	// Note that if the array is declared as const, the initialization may still be split, making the
	// AST technically invalid. Because of that this transformation should only be used when subsequent
	// stages don't care about const qualifiers. However, the initialization will not be split if the
	// initializer can be written as a HLSL literal.

	#include "compiler/translator/SeparateArrayInitialization.h"

	#include "compiler/translator/IntermNode.h"
	#include "compiler/translator/OutputHLSL.h"

	namespace sh
	{

	namespace
	{

	class SeparateArrayInitTraverser : private TIntermTraverser
	{
	public:
	static void apply(TIntermNode *root);

	private:
	SeparateArrayInitTraverser();
	bool visitDeclaration(Visit, TIntermDeclaration *node) override;
	};

	void SeparateArrayInitTraverser::apply(TIntermNode *root)
	{
	SeparateArrayInitTraverser separateInit;
	root->traverse(&separateInit);
	separateInit.updateTree();
	}

	SeparateArrayInitTraverser::SeparateArrayInitTraverser() : TIntermTraverser(true, false, false)
	{
	}

	bool SeparateArrayInitTraverser::visitDeclaration(Visit, TIntermDeclaration *node)
	{
	TIntermSequence *sequence = node->getSequence();
	TIntermBinary *initNode = sequence->back()->getAsBinaryNode();
	if (initNode != nullptr && initNode->getOp() == EOpInitialize)
	{
	TIntermTyped *initializer = initNode->getRight();
	if (initializer->isArray() && !sh::OutputHLSL::canWriteAsHLSLLiteral(initializer))
	{
	// We rely on that array declarations have been isolated to single declarations.
	ASSERT(sequence->size() == 1);
	TIntermTyped *symbol = initNode->getLeft();
	TIntermBlock *parentBlock = getParentNode()->getAsBlock();
	ASSERT(parentBlock != nullptr);

	TIntermSequence replacements;

	TIntermDeclaration *replacementDeclaration = new TIntermDeclaration();
	replacementDeclaration->appendDeclarator(symbol);
	replacementDeclaration->setLine(symbol->getLine());
	replacements.push_back(replacementDeclaration);

	TIntermBinary *replacementAssignment =
	new TIntermBinary(EOpAssign, symbol, initializer);
	replacementAssignment->setLine(symbol->getLine());
	replacements.push_back(replacementAssignment);

	mMultiReplacements.push_back(
	NodeReplaceWithMultipleEntry(parentBlock, node, replacements));
	}
	}
	return false;
	}

	} // namespace

	void SeparateArrayInitialization(TIntermNode *root)
	{
	SeparateArrayInitTraverser::apply(root);
	}

	} // namespace sh