kc3-lang/angle/src/compiler/translator/tree_ops/ExpandIntegerPowExpressions.cpp

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• Hash : 472c74c6
  Author :
  Date : 2019-08-19T16:32:13
  

  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>
  

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• src/compiler/translator/tree_ops/ExpandIntegerPowExpressions.cpp

• //
  // 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.
  //
  // Implementation of the integer pow expressions HLSL bug workaround.
  // See header for more info.
  
  #include "compiler/translator/tree_ops/ExpandIntegerPowExpressions.h"
  
  #include <cmath>
  #include <cstdlib>
  
  #include "compiler/translator/tree_util/IntermNode_util.h"
  #include "compiler/translator/tree_util/IntermTraverse.h"
  
  namespace sh
  {
  
  namespace
  {
  
  class Traverser : public TIntermTraverser
  {
    public:
      ANGLE_NO_DISCARD static bool Apply(TCompiler *compiler,
                                         TIntermNode *root,
                                         TSymbolTable *symbolTable);
  
    private:
      Traverser(TSymbolTable *symbolTable);
      bool visitAggregate(Visit visit, TIntermAggregate *node) override;
      void nextIteration();
  
      bool mFound = false;
  };
  
  // static
  bool Traverser::Apply(TCompiler *compiler, TIntermNode *root, TSymbolTable *symbolTable)
  {
      Traverser traverser(symbolTable);
      do
      {
          traverser.nextIteration();
          root->traverse(&traverser);
          if (traverser.mFound)
          {
              if (!traverser.updateTree(compiler, root))
              {
                  return false;
              }
          }
      } while (traverser.mFound);
  
      return true;
  }
  
  Traverser::Traverser(TSymbolTable *symbolTable) : TIntermTraverser(true, false, false, symbolTable)
  {}
  
  void Traverser::nextIteration()
  {
      mFound = false;
  }
  
  bool Traverser::visitAggregate(Visit visit, TIntermAggregate *node)
  {
      if (mFound)
      {
          return false;
      }
  
      // Test 0: skip non-pow operators.
      if (node->getOp() != EOpPow)
      {
          return true;
      }
  
      const TIntermSequence *sequence = node->getSequence();
      ASSERT(sequence->size() == 2u);
      const TIntermConstantUnion *constantExponent = sequence->at(1)->getAsConstantUnion();
  
      // Test 1: check for a single constant.
      if (!constantExponent || constantExponent->getNominalSize() != 1)
      {
          return true;
      }
  
      float exponentValue = constantExponent->getConstantValue()->getFConst();
  
      // Test 2: exponentValue is in the problematic range.
      if (exponentValue < -5.0f || exponentValue > 9.0f)
      {
          return true;
      }
  
      // Test 3: exponentValue is integer or pretty close to an integer.
      if (std::abs(exponentValue - std::round(exponentValue)) > 0.0001f)
      {
          return true;
      }
  
      // Test 4: skip -1, 0, and 1
      int exponent = static_cast<int>(std::round(exponentValue));
      int n        = std::abs(exponent);
      if (n < 2)
      {
          return true;
      }
  
      // Potential problem case detected, apply workaround.
  
      TIntermTyped *lhs = sequence->at(0)->getAsTyped();
      ASSERT(lhs);
  
      TIntermDeclaration *lhsVariableDeclaration = nullptr;
      TVariable *lhsVariable =
          DeclareTempVariable(mSymbolTable, lhs, EvqTemporary, &lhsVariableDeclaration);
      insertStatementInParentBlock(lhsVariableDeclaration);
  
      // Create a chain of n-1 multiples.
      TIntermTyped *current = CreateTempSymbolNode(lhsVariable);
      for (int i = 1; i < n; ++i)
      {
          TIntermBinary *mul = new TIntermBinary(EOpMul, current, CreateTempSymbolNode(lhsVariable));
          mul->setLine(node->getLine());
          current = mul;
      }
  
      // For negative pow, compute the reciprocal of the positive pow.
      if (exponent < 0)
      {
          TConstantUnion *oneVal = new TConstantUnion();
          oneVal->setFConst(1.0f);
          TIntermConstantUnion *oneNode = new TIntermConstantUnion(oneVal, node->getType());
          TIntermBinary *div            = new TIntermBinary(EOpDiv, oneNode, current);
          current                       = div;
      }
  
      queueReplacement(current, OriginalNode::IS_DROPPED);
      mFound = true;
      return false;
  }
  
  }  // anonymous namespace
  
  bool ExpandIntegerPowExpressions(TCompiler *compiler, TIntermNode *root, TSymbolTable *symbolTable)
  {
      return Traverser::Apply(compiler, root, symbolTable);
  }
  
  }  // namespace sh
  

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