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kc3-lang/angle/src/compiler/translator/tree_ops/SimplifyLoopConditions.cpp
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Author :
Shahbaz Youssefi
Date : 2019-08-19 16:32:13
Hash : 472c74c6
Message : Translator: Allow tree validation in children of TCompiler This is to be able to perform validation inside TranslatorVulkan, even if it's through ASSERTs. Additionally, every transformation is changed such that they do their validation themselves. TIntermTraverser::updateTree() performs the validation, which indirectly validates many of three tree transformations. Some of the more ancient transformations that don't use this function directly call TCompiler::validateAST. Bug: angleproject:2733 Change-Id: Ie4af029d34e053c5ad1dc8c2c2568eecd625d344 Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/1761149 Reviewed-by: Geoff Lang <geofflang@chromium.org> Reviewed-by: Jamie Madill <jmadill@chromium.org> Commit-Queue: Shahbaz Youssefi <syoussefi@chromium.org>
- src/compiler/translator/tree_ops/SimplifyLoopConditions.cpp
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// // Copyright 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. // // SimplifyLoopConditions is an AST traverser that converts loop conditions and loop expressions // to regular statements inside the loop. This way further transformations that generate statements // from loop conditions and loop expressions work correctly. // #include "compiler/translator/tree_ops/SimplifyLoopConditions.h" #include "compiler/translator/StaticType.h" #include "compiler/translator/tree_util/IntermNodePatternMatcher.h" #include "compiler/translator/tree_util/IntermNode_util.h" #include "compiler/translator/tree_util/IntermTraverse.h" namespace sh { namespace { class SimplifyLoopConditionsTraverser : public TLValueTrackingTraverser { public: SimplifyLoopConditionsTraverser(unsigned int conditionsToSimplifyMask, TSymbolTable *symbolTable); void traverseLoop(TIntermLoop *node) override; bool visitUnary(Visit visit, TIntermUnary *node) override; bool visitBinary(Visit visit, TIntermBinary *node) override; bool visitAggregate(Visit visit, TIntermAggregate *node) override; bool visitTernary(Visit visit, TIntermTernary *node) override; bool visitDeclaration(Visit visit, TIntermDeclaration *node) override; bool foundLoopToChange() const { return mFoundLoopToChange; } protected: // Marked to true once an operation that needs to be hoisted out of a loop expression has been // found. bool mFoundLoopToChange; bool mInsideLoopInitConditionOrExpression; IntermNodePatternMatcher mConditionsToSimplify; }; SimplifyLoopConditionsTraverser::SimplifyLoopConditionsTraverser( unsigned int conditionsToSimplifyMask, TSymbolTable *symbolTable) : TLValueTrackingTraverser(true, false, false, symbolTable), mFoundLoopToChange(false), mInsideLoopInitConditionOrExpression(false), mConditionsToSimplify(conditionsToSimplifyMask) {} // If we're inside a loop initialization, condition, or expression, we check for expressions that // should be moved out of the loop condition or expression. If one is found, the loop is // transformed. // If we're not inside loop initialization, condition, or expression, we only need to traverse nodes // that may contain loops. bool SimplifyLoopConditionsTraverser::visitUnary(Visit visit, TIntermUnary *node) { if (!mInsideLoopInitConditionOrExpression) return false; if (mFoundLoopToChange) return false; // Already decided to change this loop. mFoundLoopToChange = mConditionsToSimplify.match(node); return !mFoundLoopToChange; } bool SimplifyLoopConditionsTraverser::visitBinary(Visit visit, TIntermBinary *node) { if (!mInsideLoopInitConditionOrExpression) return false; if (mFoundLoopToChange) return false; // Already decided to change this loop. mFoundLoopToChange = mConditionsToSimplify.match(node, getParentNode(), isLValueRequiredHere()); return !mFoundLoopToChange; } bool SimplifyLoopConditionsTraverser::visitAggregate(Visit visit, TIntermAggregate *node) { if (!mInsideLoopInitConditionOrExpression) return false; if (mFoundLoopToChange) return false; // Already decided to change this loop. mFoundLoopToChange = mConditionsToSimplify.match(node, getParentNode()); return !mFoundLoopToChange; } bool SimplifyLoopConditionsTraverser::visitTernary(Visit visit, TIntermTernary *node) { if (!mInsideLoopInitConditionOrExpression) return false; if (mFoundLoopToChange) return false; // Already decided to change this loop. mFoundLoopToChange = mConditionsToSimplify.match(node); return !mFoundLoopToChange; } bool SimplifyLoopConditionsTraverser::visitDeclaration(Visit visit, TIntermDeclaration *node) { if (!mInsideLoopInitConditionOrExpression) return false; if (mFoundLoopToChange) return false; // Already decided to change this loop. mFoundLoopToChange = mConditionsToSimplify.match(node); return !mFoundLoopToChange; } void SimplifyLoopConditionsTraverser::traverseLoop(TIntermLoop *node) { // Mark that we're inside a loop condition or expression, and determine if the loop needs to be // transformed. ScopedNodeInTraversalPath addToPath(this, node); mInsideLoopInitConditionOrExpression = true; mFoundLoopToChange = false; if (!mFoundLoopToChange && node->getInit()) { node->getInit()->traverse(this); } if (!mFoundLoopToChange && node->getCondition()) { node->getCondition()->traverse(this); } if (!mFoundLoopToChange && node->getExpression()) { node->getExpression()->traverse(this); } mInsideLoopInitConditionOrExpression = false; if (mFoundLoopToChange) { const TType *boolType = StaticType::Get<EbtBool, EbpUndefined, EvqTemporary, 1, 1>(); TVariable *conditionVariable = CreateTempVariable(mSymbolTable, boolType); // Replace the loop condition with a boolean variable that's updated on each iteration. TLoopType loopType = node->getType(); if (loopType == ELoopWhile) { // Transform: // while (expr) { body; } // into // bool s0 = expr; // while (s0) { { body; } s0 = expr; } TIntermDeclaration *tempInitDeclaration = CreateTempInitDeclarationNode(conditionVariable, node->getCondition()->deepCopy()); insertStatementInParentBlock(tempInitDeclaration); TIntermBlock *newBody = new TIntermBlock(); if (node->getBody()) { newBody->getSequence()->push_back(node->getBody()); } newBody->getSequence()->push_back( CreateTempAssignmentNode(conditionVariable, node->getCondition()->deepCopy())); // Can't use queueReplacement to replace old body, since it may have been nullptr. // It's safe to do the replacements in place here - the new body will still be // traversed, but that won't create any problems. node->setBody(newBody); node->setCondition(CreateTempSymbolNode(conditionVariable)); } else if (loopType == ELoopDoWhile) { // Transform: // do { // body; // } while (expr); // into // bool s0 = true; // do { // { body; } // s0 = expr; // } while (s0); TIntermDeclaration *tempInitDeclaration = CreateTempInitDeclarationNode(conditionVariable, CreateBoolNode(true)); insertStatementInParentBlock(tempInitDeclaration); TIntermBlock *newBody = new TIntermBlock(); if (node->getBody()) { newBody->getSequence()->push_back(node->getBody()); } newBody->getSequence()->push_back( CreateTempAssignmentNode(conditionVariable, node->getCondition()->deepCopy())); // Can't use queueReplacement to replace old body, since it may have been nullptr. // It's safe to do the replacements in place here - the new body will still be // traversed, but that won't create any problems. node->setBody(newBody); node->setCondition(CreateTempSymbolNode(conditionVariable)); } else if (loopType == ELoopFor) { // Move the loop condition inside the loop. // Transform: // for (init; expr; exprB) { body; } // into // { // init; // bool s0 = expr; // while (s0) { // { body; } // exprB; // s0 = expr; // } // } TIntermBlock *loopScope = new TIntermBlock(); TIntermSequence *loopScopeSequence = loopScope->getSequence(); // Insert "init;" if (node->getInit()) { loopScopeSequence->push_back(node->getInit()); } // Insert "bool s0 = expr;" if applicable, "bool s0 = true;" otherwise TIntermTyped *conditionInitializer = nullptr; if (node->getCondition()) { conditionInitializer = node->getCondition()->deepCopy(); } else { conditionInitializer = CreateBoolNode(true); } loopScopeSequence->push_back( CreateTempInitDeclarationNode(conditionVariable, conditionInitializer)); // Insert "{ body; }" in the while loop TIntermBlock *whileLoopBody = new TIntermBlock(); if (node->getBody()) { whileLoopBody->getSequence()->push_back(node->getBody()); } // Insert "exprB;" in the while loop if (node->getExpression()) { whileLoopBody->getSequence()->push_back(node->getExpression()); } // Insert "s0 = expr;" in the while loop if (node->getCondition()) { whileLoopBody->getSequence()->push_back( CreateTempAssignmentNode(conditionVariable, node->getCondition()->deepCopy())); } // Create "while(s0) { whileLoopBody }" TIntermLoop *whileLoop = new TIntermLoop(ELoopWhile, nullptr, CreateTempSymbolNode(conditionVariable), nullptr, whileLoopBody); loopScope->getSequence()->push_back(whileLoop); queueReplacement(loopScope, OriginalNode::IS_DROPPED); // After this the old body node will be traversed and loops inside it may be // transformed. This is fine, since the old body node will still be in the AST after the // transformation that's queued here, and transforming loops inside it doesn't need to // know the exact post-transform path to it. } } mFoundLoopToChange = false; // We traverse the body of the loop even if the loop is transformed. if (node->getBody()) node->getBody()->traverse(this); } } // namespace bool SimplifyLoopConditions(TCompiler *compiler, TIntermNode *root, unsigned int conditionsToSimplifyMask, TSymbolTable *symbolTable) { SimplifyLoopConditionsTraverser traverser(conditionsToSimplifyMask, symbolTable); root->traverse(&traverser); return traverser.updateTree(compiler, root); } } // namespace sh