// // Copyright (c) 2016 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. // // IntermNodePatternMatcher is a helper class for matching node trees to given patterns. // It can be used whenever the same checks for certain node structures are common to multiple AST // traversers. // #include "compiler/translator/IntermNodePatternMatcher.h" #include "compiler/translator/IntermNode.h" namespace sh { IntermNodePatternMatcher::IntermNodePatternMatcher(const unsigned int mask) : mMask(mask) { } // static bool IntermNodePatternMatcher::IsDynamicIndexingOfVectorOrMatrix(TIntermBinary *node) { return node->getOp() == EOpIndexIndirect && !node->getLeft()->isArray() && node->getLeft()->getBasicType() != EbtStruct; } bool IntermNodePatternMatcher::matchInternal(TIntermBinary *node, TIntermNode *parentNode) { if ((mMask & kExpressionReturningArray) != 0) { if (node->isArray() && node->getOp() == EOpAssign && parentNode != nullptr && !parentNode->getAsBlock()) { return true; } } if ((mMask & kUnfoldedShortCircuitExpression) != 0) { if (node->getRight()->hasSideEffects() && (node->getOp() == EOpLogicalOr || node->getOp() == EOpLogicalAnd)) { return true; } } return false; } bool IntermNodePatternMatcher::match(TIntermUnary *node) { if ((mMask & kArrayLengthMethod) != 0) { if (node->getOp() == EOpArrayLength) { return true; } } return false; } bool IntermNodePatternMatcher::match(TIntermBinary *node, TIntermNode *parentNode) { // L-value tracking information is needed to check for dynamic indexing in L-value. // Traversers that don't track l-values can still use this class and match binary nodes with // this variation of this method if they don't need to check for dynamic indexing in l-values. ASSERT((mMask & kDynamicIndexingOfVectorOrMatrixInLValue) == 0); return matchInternal(node, parentNode); } bool IntermNodePatternMatcher::match(TIntermBinary *node, TIntermNode *parentNode, bool isLValueRequiredHere) { if (matchInternal(node, parentNode)) { return true; } if ((mMask & kDynamicIndexingOfVectorOrMatrixInLValue) != 0) { if (isLValueRequiredHere && IsDynamicIndexingOfVectorOrMatrix(node)) { return true; } } return false; } bool IntermNodePatternMatcher::match(TIntermAggregate *node, TIntermNode *parentNode) { if ((mMask & kExpressionReturningArray) != 0) { if (parentNode != nullptr) { TIntermBinary *parentBinary = parentNode->getAsBinaryNode(); bool parentIsAssignment = (parentBinary != nullptr && (parentBinary->getOp() == EOpAssign || parentBinary->getOp() == EOpInitialize)); if (node->getType().isArray() && !parentIsAssignment && (node->isConstructor() || node->isFunctionCall()) && !parentNode->getAsBlock()) { return true; } } } return false; } bool IntermNodePatternMatcher::match(TIntermTernary *node) { if ((mMask & kUnfoldedShortCircuitExpression) != 0) { return true; } return false; } bool IntermNodePatternMatcher::match(TIntermDeclaration *node) { if ((mMask & kMultiDeclaration) != 0) { if (node->getSequence()->size() > 1) { return true; } } if ((mMask & kArrayDeclaration) != 0) { if (node->getSequence()->front()->getAsTyped()->getType().isStructureContainingArrays()) { return true; } // Need to check from all declarators whether they are arrays since that may vary between // declarators. for (TIntermNode *declarator : *node->getSequence()) { if (declarator->getAsTyped()->isArray()) { return true; } } } if ((mMask & kNamelessStructDeclaration) != 0) { TIntermTyped *declarator = node->getSequence()->front()->getAsTyped(); if (declarator->getBasicType() == EbtStruct && declarator->getType().getStruct()->name() == "") { return true; } } return false; } } // namespace sh