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

• //
  // Copyright (c) 2002-2011 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.
  //
  
  #include "angle_gl.h"
  #include "compiler/translator/BuiltInFunctionEmulator.h"
  #include "compiler/translator/SymbolTable.h"
  #include "compiler/translator/Cache.h"
  
  namespace sh
  {
  
  class BuiltInFunctionEmulator::BuiltInFunctionEmulationMarker : public TIntermTraverser
  {
    public:
      BuiltInFunctionEmulationMarker(BuiltInFunctionEmulator &emulator)
          : TIntermTraverser(true, false, false), mEmulator(emulator)
      {
      }
  
      bool visitUnary(Visit visit, TIntermUnary *node) override
      {
          if (visit == PreVisit)
          {
              bool needToEmulate =
                  mEmulator.SetFunctionCalled(node->getOp(), node->getOperand()->getType());
              if (needToEmulate)
                  node->setUseEmulatedFunction();
          }
          return true;
      }
  
      bool visitAggregate(Visit visit, TIntermAggregate *node) override
      {
          if (visit == PreVisit)
          {
              // Here we handle all the built-in functions instead of the ones we
              // currently identified as problematic.
              switch (node->getOp())
              {
                  case EOpLessThan:
                  case EOpGreaterThan:
                  case EOpLessThanEqual:
                  case EOpGreaterThanEqual:
                  case EOpVectorEqual:
                  case EOpVectorNotEqual:
                  case EOpMod:
                  case EOpPow:
                  case EOpAtan:
                  case EOpMin:
                  case EOpMax:
                  case EOpClamp:
                  case EOpMix:
                  case EOpStep:
                  case EOpSmoothStep:
                  case EOpDistance:
                  case EOpDot:
                  case EOpCross:
                  case EOpFaceForward:
                  case EOpReflect:
                  case EOpRefract:
                  case EOpOuterProduct:
                  case EOpMul:
                      break;
                  default:
                      return true;
              }
              const TIntermSequence &sequence = *(node->getSequence());
              bool needToEmulate              = false;
              // Right now we only handle built-in functions with two or three parameters.
              if (sequence.size() == 2)
              {
                  TIntermTyped *param1 = sequence[0]->getAsTyped();
                  TIntermTyped *param2 = sequence[1]->getAsTyped();
                  if (!param1 || !param2)
                      return true;
                  needToEmulate = mEmulator.SetFunctionCalled(node->getOp(), param1->getType(),
                                                              param2->getType());
              }
              else if (sequence.size() == 3)
              {
                  TIntermTyped *param1 = sequence[0]->getAsTyped();
                  TIntermTyped *param2 = sequence[1]->getAsTyped();
                  TIntermTyped *param3 = sequence[2]->getAsTyped();
                  if (!param1 || !param2 || !param3)
                      return true;
                  needToEmulate = mEmulator.SetFunctionCalled(node->getOp(), param1->getType(),
                                                              param2->getType(), param3->getType());
              }
              else
              {
                  return true;
              }
  
              if (needToEmulate)
                  node->setUseEmulatedFunction();
          }
          return true;
      }
  
    private:
      BuiltInFunctionEmulator &mEmulator;
  };
  
  BuiltInFunctionEmulator::BuiltInFunctionEmulator()
  {
  }
  
  void BuiltInFunctionEmulator::addEmulatedFunction(TOperator op,
                                                    const TType *param,
                                                    const char *emulatedFunctionDefinition)
  {
      mEmulatedFunctions[FunctionId(op, param)] = std::string(emulatedFunctionDefinition);
  }
  
  void BuiltInFunctionEmulator::addEmulatedFunction(TOperator op,
                                                    const TType *param1,
                                                    const TType *param2,
                                                    const char *emulatedFunctionDefinition)
  {
      mEmulatedFunctions[FunctionId(op, param1, param2)] = std::string(emulatedFunctionDefinition);
  }
  
  void BuiltInFunctionEmulator::addEmulatedFunction(TOperator op,
                                                    const TType *param1,
                                                    const TType *param2,
                                                    const TType *param3,
                                                    const char *emulatedFunctionDefinition)
  {
      mEmulatedFunctions[FunctionId(op, param1, param2, param3)] =
          std::string(emulatedFunctionDefinition);
  }
  
  bool BuiltInFunctionEmulator::IsOutputEmpty() const
  {
      return (mFunctions.size() == 0);
  }
  
  void BuiltInFunctionEmulator::OutputEmulatedFunctions(TInfoSinkBase &out) const
  {
      for (size_t i = 0; i < mFunctions.size(); ++i)
      {
          out << mEmulatedFunctions.find(mFunctions[i])->second << "\n\n";
      }
  }
  
  bool BuiltInFunctionEmulator::SetFunctionCalled(TOperator op, const TType &param)
  {
      return SetFunctionCalled(FunctionId(op, &param));
  }
  
  bool BuiltInFunctionEmulator::SetFunctionCalled(TOperator op,
                                                  const TType &param1,
                                                  const TType &param2)
  {
      return SetFunctionCalled(FunctionId(op, &param1, &param2));
  }
  
  bool BuiltInFunctionEmulator::SetFunctionCalled(TOperator op,
                                                  const TType &param1,
                                                  const TType &param2,
                                                  const TType &param3)
  {
      return SetFunctionCalled(FunctionId(op, &param1, &param2, &param3));
  }
  
  bool BuiltInFunctionEmulator::SetFunctionCalled(const FunctionId &functionId)
  {
      if (mEmulatedFunctions.find(functionId) != mEmulatedFunctions.end())
      {
          for (size_t i = 0; i < mFunctions.size(); ++i)
          {
              if (mFunctions[i] == functionId)
                  return true;
          }
          // Copy the functionId if it needs to be stored, to make sure that the TType pointers inside
          // remain valid and constant.
          mFunctions.push_back(functionId.getCopy());
          return true;
      }
      return false;
  }
  
  void BuiltInFunctionEmulator::MarkBuiltInFunctionsForEmulation(TIntermNode *root)
  {
      ASSERT(root);
  
      if (mEmulatedFunctions.empty())
          return;
  
      BuiltInFunctionEmulationMarker marker(*this);
      root->traverse(&marker);
  }
  
  void BuiltInFunctionEmulator::Cleanup()
  {
      mFunctions.clear();
  }
  
  // static
  TString BuiltInFunctionEmulator::GetEmulatedFunctionName(const TString &name)
  {
      ASSERT(name[name.length() - 1] == '(');
      return "webgl_" + name.substr(0, name.length() - 1) + "_emu(";
  }
  
  BuiltInFunctionEmulator::FunctionId::FunctionId(TOperator op, const TType *param)
      : mOp(op), mParam1(param), mParam2(TCache::getType(EbtVoid)), mParam3(TCache::getType(EbtVoid))
  {
  }
  
  BuiltInFunctionEmulator::FunctionId::FunctionId(TOperator op,
                                                  const TType *param1,
                                                  const TType *param2)
      : mOp(op), mParam1(param1), mParam2(param2), mParam3(TCache::getType(EbtVoid))
  {
  }
  
  BuiltInFunctionEmulator::FunctionId::FunctionId(TOperator op,
                                                  const TType *param1,
                                                  const TType *param2,
                                                  const TType *param3)
      : mOp(op), mParam1(param1), mParam2(param2), mParam3(param3)
  {
  }
  
  bool BuiltInFunctionEmulator::FunctionId::operator==(
      const BuiltInFunctionEmulator::FunctionId &other) const
  {
      return (mOp == other.mOp && *mParam1 == *other.mParam1 && *mParam2 == *other.mParam2 &&
              *mParam3 == *other.mParam3);
  }
  
  bool BuiltInFunctionEmulator::FunctionId::operator<(
      const BuiltInFunctionEmulator::FunctionId &other) const
  {
      if (mOp != other.mOp)
          return mOp < other.mOp;
      if (*mParam1 != *other.mParam1)
          return *mParam1 < *other.mParam1;
      if (*mParam2 != *other.mParam2)
          return *mParam2 < *other.mParam2;
      if (*mParam3 != *other.mParam3)
          return *mParam3 < *other.mParam3;
      return false;  // all fields are equal
  }
  
  BuiltInFunctionEmulator::FunctionId BuiltInFunctionEmulator::FunctionId::getCopy() const
  {
      return FunctionId(mOp, new TType(*mParam1), new TType(*mParam2), new TType(*mParam3));
  }
  
  }  // namespace sh
  

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