// // 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. // // SeparateExpressionsReturningArrays splits array-returning expressions that are not array names // from more complex expressions, assigning them to a temporary variable a#. // Examples where a, b and c are all arrays: // (a = b) == (a = c) is split into a = b; type[n] a1 = a; a = c; type[n] a2 = a; a1 == a2; // type d = type[n](...)[i]; is split into type[n] a1 = type[n](...); type d = a1[i]; #include "compiler/translator/SeparateExpressionsReturningArrays.h" #include "compiler/translator/IntermNodePatternMatcher.h" #include "compiler/translator/IntermTraverse.h" namespace sh { namespace { // Traverser that separates one array expression into a statement at a time. class SeparateExpressionsTraverser : public TIntermTraverser { public: SeparateExpressionsTraverser(TSymbolTable *symbolTable); bool visitBinary(Visit visit, TIntermBinary *node) override; bool visitAggregate(Visit visit, TIntermAggregate *node) override; void nextIteration(); bool foundArrayExpression() const { return mFoundArrayExpression; } protected: // Marked to true once an operation that needs to be hoisted out of the expression has been // found. After that, no more AST updates are performed on that traversal. bool mFoundArrayExpression; IntermNodePatternMatcher mPatternToSeparateMatcher; }; SeparateExpressionsTraverser::SeparateExpressionsTraverser(TSymbolTable *symbolTable) : TIntermTraverser(true, false, false, symbolTable), mFoundArrayExpression(false), mPatternToSeparateMatcher(IntermNodePatternMatcher::kExpressionReturningArray) { } // Performs a shallow copy of an assignment node. // These shallow copies are useful when a node gets inserted into an aggregate node // and also needs to be replaced in its original location by a different node. TIntermBinary *CopyAssignmentNode(TIntermBinary *node) { return new TIntermBinary(node->getOp(), node->getLeft(), node->getRight()); } bool SeparateExpressionsTraverser::visitBinary(Visit visit, TIntermBinary *node) { if (mFoundArrayExpression) return false; // Return if the expression is not an array or if we're not inside a complex expression. if (!mPatternToSeparateMatcher.match(node, getParentNode())) return true; ASSERT(node->getOp() == EOpAssign); mFoundArrayExpression = true; TIntermSequence insertions; insertions.push_back(CopyAssignmentNode(node)); // TODO(oetuaho): In some cases it would be more optimal to not add the temporary node, but just // use the original target of the assignment. Care must be taken so that this doesn't happen // when the same array symbol is a target of assignment more than once in one expression. insertions.push_back(createTempInitDeclaration(node->getLeft())); insertStatementsInParentBlock(insertions); queueReplacement(createTempSymbol(node->getType()), OriginalNode::IS_DROPPED); return false; } bool SeparateExpressionsTraverser::visitAggregate(Visit visit, TIntermAggregate *node) { if (mFoundArrayExpression) return false; // No need to traverse further if (!mPatternToSeparateMatcher.match(node, getParentNode())) return true; ASSERT(node->isConstructor() || node->getOp() == EOpCallFunctionInAST); mFoundArrayExpression = true; TIntermSequence insertions; insertions.push_back(createTempInitDeclaration(node->shallowCopy())); insertStatementsInParentBlock(insertions); queueReplacement(createTempSymbol(node->getType()), OriginalNode::IS_DROPPED); return false; } void SeparateExpressionsTraverser::nextIteration() { mFoundArrayExpression = false; nextTemporaryId(); } } // namespace void SeparateExpressionsReturningArrays(TIntermNode *root, TSymbolTable *symbolTable) { SeparateExpressionsTraverser traverser(symbolTable); // Separate one expression at a time, and reset the traverser between iterations. do { traverser.nextIteration(); root->traverse(&traverser); if (traverser.foundArrayExpression()) traverser.updateTree(); } while (traverser.foundArrayExpression()); } } // namespace sh