kc3-lang/angle/src/compiler/translator/SimplifyLoopConditions.cpp

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• Hash : d7b1ab58
  Author :
  Date : 2016-12-12T14:42:19
  

  Fix up translator style.
  
  Using git cl format.
  
  BUG=angleproject:650
  
  Change-Id: I7d3f98d2b0dcfb0a8de6c35327db74e55c28d761
  Reviewed-on: https://chromium-review.googlesource.com/419059
  Reviewed-by: Jamie Madill <jmadill@chromium.org>
  Commit-Queue: Jamie Madill <jmadill@chromium.org>
  

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• src/compiler/translator/SimplifyLoopConditions.cpp

• //
  // 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.
  //
  // 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/SimplifyLoopConditions.h"
  
  #include "compiler/translator/IntermNode.h"
  #include "compiler/translator/IntermNodePatternMatcher.h"
  
  namespace sh
  {
  
  namespace
  {
  
  TIntermConstantUnion *CreateBoolConstantNode(bool value)
  {
      TConstantUnion *u = new TConstantUnion;
      u->setBConst(value);
      TIntermConstantUnion *node =
          new TIntermConstantUnion(u, TType(EbtBool, EbpUndefined, EvqConst, 1));
      return node;
  }
  
  class SimplifyLoopConditionsTraverser : public TLValueTrackingTraverser
  {
    public:
      SimplifyLoopConditionsTraverser(unsigned int conditionsToSimplifyMask,
                                      const TSymbolTable &symbolTable,
                                      int shaderVersion);
  
      void traverseLoop(TIntermLoop *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;
  
      void nextIteration();
      bool foundLoopToChange() const { return mFoundLoopToChange; }
  
    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 mFoundLoopToChange;
      bool mInsideLoopInitConditionOrExpression;
      IntermNodePatternMatcher mConditionsToSimplify;
  };
  
  SimplifyLoopConditionsTraverser::SimplifyLoopConditionsTraverser(
      unsigned int conditionsToSimplifyMask,
      const TSymbolTable &symbolTable,
      int shaderVersion)
      : TLValueTrackingTraverser(true, false, false, symbolTable, shaderVersion),
        mFoundLoopToChange(false),
        mInsideLoopInitConditionOrExpression(false),
        mConditionsToSimplify(conditionsToSimplifyMask)
  {
  }
  
  void SimplifyLoopConditionsTraverser::nextIteration()
  {
      mFoundLoopToChange                   = false;
      mInsideLoopInitConditionOrExpression = false;
      nextTemporaryIndex();
  }
  
  // The visit functions operate in three modes:
  // 1. If a matching expression has already been found, we return early since only one loop can
  //    be transformed on one traversal.
  // 2. We try to find loops. In case a node is not inside a loop and can not contain loops, we
  //    stop traversing the subtree.
  // 3. 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 processed.
  bool SimplifyLoopConditionsTraverser::visitBinary(Visit visit, TIntermBinary *node)
  {
  
      if (mFoundLoopToChange)
          return false;
  
      if (!mInsideLoopInitConditionOrExpression)
          return false;
  
      mFoundLoopToChange = mConditionsToSimplify.match(node, getParentNode(), isLValueRequiredHere());
      return !mFoundLoopToChange;
  }
  
  bool SimplifyLoopConditionsTraverser::visitAggregate(Visit visit, TIntermAggregate *node)
  {
      if (mFoundLoopToChange)
          return false;
  
      if (!mInsideLoopInitConditionOrExpression)
          return false;
  
      mFoundLoopToChange = mConditionsToSimplify.match(node, getParentNode());
      return !mFoundLoopToChange;
  }
  
  bool SimplifyLoopConditionsTraverser::visitTernary(Visit visit, TIntermTernary *node)
  {
      if (mFoundLoopToChange)
          return false;
  
      if (!mInsideLoopInitConditionOrExpression)
          return false;
  
      mFoundLoopToChange = mConditionsToSimplify.match(node);
      return !mFoundLoopToChange;
  }
  
  bool SimplifyLoopConditionsTraverser::visitDeclaration(Visit visit, TIntermDeclaration *node)
  {
      if (mFoundLoopToChange)
          return false;
  
      if (!mInsideLoopInitConditionOrExpression)
          return false;
  
      mFoundLoopToChange = mConditionsToSimplify.match(node);
      return !mFoundLoopToChange;
  }
  
  void SimplifyLoopConditionsTraverser::traverseLoop(TIntermLoop *node)
  {
      if (mFoundLoopToChange)
          return;
  
      // Mark that we're inside a loop condition or expression, and transform the loop if needed.
  
      incrementDepth(node);
  
      // Note: No need to traverse the loop init node.
  
      mInsideLoopInitConditionOrExpression = true;
      TLoopType loopType                   = node->getType();
  
      if (!mFoundLoopToChange && node->getInit())
      {
          node->getInit()->traverse(this);
      }
  
      if (!mFoundLoopToChange && node->getCondition())
      {
          node->getCondition()->traverse(this);
      }
  
      if (!mFoundLoopToChange && node->getExpression())
      {
          node->getExpression()->traverse(this);
      }
  
      if (mFoundLoopToChange)
      {
          // Replace the loop condition with a boolean variable that's updated on each iteration.
          if (loopType == ELoopWhile)
          {
              // Transform:
              //   while (expr) { body; }
              // into
              //   bool s0 = expr;
              //   while (s0) { { body; } s0 = expr; }
              TIntermSequence tempInitSeq;
              tempInitSeq.push_back(createTempInitDeclaration(node->getCondition()->deepCopy()));
              insertStatementsInParentBlock(tempInitSeq);
  
              TIntermBlock *newBody = new TIntermBlock();
              if (node->getBody())
              {
                  newBody->getSequence()->push_back(node->getBody());
              }
              newBody->getSequence()->push_back(
                  createTempAssignment(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 - this node won't be traversed
              // further.
              node->setBody(newBody);
              node->setCondition(createTempSymbol(node->getCondition()->getType()));
          }
          else if (loopType == ELoopDoWhile)
          {
              // Transform:
              //   do {
              //     body;
              //   } while (expr);
              // into
              //   bool s0 = true;
              //   do {
              //     { body; }
              //     s0 = expr;
              //   } while (s0);
              TIntermSequence tempInitSeq;
              tempInitSeq.push_back(createTempInitDeclaration(CreateBoolConstantNode(true)));
              insertStatementsInParentBlock(tempInitSeq);
  
              TIntermBlock *newBody = new TIntermBlock();
              if (node->getBody())
              {
                  newBody->getSequence()->push_back(node->getBody());
              }
              newBody->getSequence()->push_back(
                  createTempAssignment(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 - this node won't be traversed
              // further.
              node->setBody(newBody);
              node->setCondition(createTempSymbol(node->getCondition()->getType()));
          }
          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 = TIntermTyped::CreateBool(true);
              }
              loopScopeSequence->push_back(createTempInitDeclaration(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(
                      createTempAssignment(node->getCondition()->deepCopy()));
              }
  
              // Create "while(s0) { whileLoopBody }"
              TIntermLoop *whileLoop = new TIntermLoop(
                  ELoopWhile, nullptr, createTempSymbol(conditionInitializer->getType()), nullptr,
                  whileLoopBody);
              loopScope->getSequence()->push_back(whileLoop);
              queueReplacementWithParent(getAncestorNode(1), node, loopScope,
                                         OriginalNode::IS_DROPPED);
          }
      }
  
      mInsideLoopInitConditionOrExpression = false;
  
      if (!mFoundLoopToChange && node->getBody())
          node->getBody()->traverse(this);
  
      decrementDepth();
  }
  
  }  // namespace
  
  void SimplifyLoopConditions(TIntermNode *root,
                              unsigned int conditionsToSimplifyMask,
                              unsigned int *temporaryIndex,
                              const TSymbolTable &symbolTable,
                              int shaderVersion)
  {
      SimplifyLoopConditionsTraverser traverser(conditionsToSimplifyMask, symbolTable, shaderVersion);
      ASSERT(temporaryIndex != nullptr);
      traverser.useTemporaryIndex(temporaryIndex);
      // Process one loop at a time, and reset the traverser between iterations.
      do
      {
          traverser.nextIteration();
          root->traverse(&traverser);
          if (traverser.foundLoopToChange())
              traverser.updateTree();
      } while (traverser.foundLoopToChange());
  }
  
  }  // namespace sh
  

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