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/*
* Copyright (C) 2014 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef ART_COMPILER_DEX_BB_OPTIMIZATIONS_H_
#define ART_COMPILER_DEX_BB_OPTIMIZATIONS_H_
#include "compiler_internals.h"
#include "pass_me.h"
namespace art {
/**
* @class CacheFieldLoweringInfo
* @brief Cache the lowering info for fields used by IGET/IPUT/SGET/SPUT insns.
*/
class CacheFieldLoweringInfo : public PassME {
public:
CacheFieldLoweringInfo() : PassME("CacheFieldLoweringInfo", kNoNodes) {
}
void Start(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
cUnit->mir_graph->DoCacheFieldLoweringInfo();
}
bool Gate(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
return cUnit->mir_graph->HasFieldAccess();
}
};
/**
* @class CacheMethodLoweringInfo
* @brief Cache the lowering info for methods called by INVOKEs.
*/
class CacheMethodLoweringInfo : public PassME {
public:
CacheMethodLoweringInfo() : PassME("CacheMethodLoweringInfo", kNoNodes) {
}
void Start(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
cUnit->mir_graph->DoCacheMethodLoweringInfo();
}
bool Gate(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
return cUnit->mir_graph->HasInvokes();
}
};
/**
* @class CallInlining
* @brief Perform method inlining pass.
*/
class CallInlining : public PassME {
public:
CallInlining() : PassME("CallInlining") {
}
bool Gate(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
return cUnit->mir_graph->InlineCallsGate();
}
void Start(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
cUnit->mir_graph->InlineCallsStart();
}
bool Worker(const PassDataHolder* data) const {
DCHECK(data != nullptr);
const PassMEDataHolder* pass_me_data_holder = down_cast<const PassMEDataHolder*>(data);
CompilationUnit* cUnit = pass_me_data_holder->c_unit;
DCHECK(cUnit != nullptr);
BasicBlock* bb = pass_me_data_holder->bb;
DCHECK(bb != nullptr);
cUnit->mir_graph->InlineCalls(bb);
// No need of repeating, so just return false.
return false;
}
void End(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
cUnit->mir_graph->InlineCallsEnd();
}
};
/**
* @class CodeLayout
* @brief Perform the code layout pass.
*/
class CodeLayout : public PassME {
public:
CodeLayout() : PassME("CodeLayout", "2_post_layout_cfg") {
}
void Start(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
cUnit->mir_graph->VerifyDataflow();
}
bool Worker(const PassDataHolder* data) const;
};
/**
* @class SSATransformation
* @brief Perform an SSA representation pass on the CompilationUnit.
*/
class SSATransformation : public PassME {
public:
SSATransformation() : PassME("SSATransformation", kPreOrderDFSTraversal, "3_post_ssa_cfg") {
}
bool Worker(const PassDataHolder* data) const;
void Start(const PassDataHolder* data) const;
void End(const PassDataHolder* data) const;
};
/**
* @class ConstantPropagation
* @brief Perform a constant propagation pass.
*/
class ConstantPropagation : public PassME {
public:
ConstantPropagation() : PassME("ConstantPropagation") {
}
bool Worker(const PassDataHolder* data) const;
void Start(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
cUnit->mir_graph->InitializeConstantPropagation();
}
};
/**
* @class InitRegLocations
* @brief Initialize Register Locations.
*/
class InitRegLocations : public PassME {
public:
InitRegLocations() : PassME("InitRegLocation", kNoNodes) {
}
void Start(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
cUnit->mir_graph->InitRegLocations();
}
};
/**
* @class MethodUseCount
* @brief Count the register uses of the method
*/
class MethodUseCount : public PassME {
public:
MethodUseCount() : PassME("UseCount") {
}
bool Worker(const PassDataHolder* data) const;
bool Gate(const PassDataHolder* data) const;
};
/**
* @class NullCheckEliminationAndTypeInference
* @brief Null check elimination and type inference.
*/
class NullCheckEliminationAndTypeInference : public PassME {
public:
NullCheckEliminationAndTypeInference()
: PassME("NCE_TypeInference", kRepeatingPreOrderDFSTraversal, "4_post_nce_cfg") {
}
void Start(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
cUnit->mir_graph->EliminateNullChecksAndInferTypesStart();
}
bool Worker(const PassDataHolder* data) const {
DCHECK(data != nullptr);
const PassMEDataHolder* pass_me_data_holder = down_cast<const PassMEDataHolder*>(data);
CompilationUnit* cUnit = pass_me_data_holder->c_unit;
DCHECK(cUnit != nullptr);
BasicBlock* bb = pass_me_data_holder->bb;
DCHECK(bb != nullptr);
return cUnit->mir_graph->EliminateNullChecksAndInferTypes(bb);
}
void End(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
cUnit->mir_graph->EliminateNullChecksAndInferTypesEnd();
}
};
class ClassInitCheckElimination : public PassME {
public:
ClassInitCheckElimination() : PassME("ClInitCheckElimination", kRepeatingPreOrderDFSTraversal) {
}
bool Gate(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
return cUnit->mir_graph->EliminateClassInitChecksGate();
}
bool Worker(const PassDataHolder* data) const {
DCHECK(data != nullptr);
const PassMEDataHolder* pass_me_data_holder = down_cast<const PassMEDataHolder*>(data);
CompilationUnit* cUnit = pass_me_data_holder->c_unit;
DCHECK(cUnit != nullptr);
BasicBlock* bb = pass_me_data_holder->bb;
DCHECK(bb != nullptr);
return cUnit->mir_graph->EliminateClassInitChecks(bb);
}
void End(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
cUnit->mir_graph->EliminateClassInitChecksEnd();
}
};
/**
* @class NullCheckEliminationAndTypeInference
* @brief Null check elimination and type inference.
*/
class BBCombine : public PassME {
public:
BBCombine() : PassME("BBCombine", kPreOrderDFSTraversal, "5_post_bbcombine_cfg") {
}
bool Gate(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
return ((cUnit->disable_opt & (1 << kSuppressExceptionEdges)) != 0);
}
bool Worker(const PassDataHolder* data) const;
};
/**
* @class BasicBlock Optimizations
* @brief Any simple BasicBlock optimization can be put here.
*/
class BBOptimizations : public PassME {
public:
BBOptimizations() : PassME("BBOptimizations", kNoNodes, "5_post_bbo_cfg") {
}
bool Gate(const PassDataHolder* data) const {
DCHECK(data != nullptr);
CompilationUnit* cUnit = down_cast<const PassMEDataHolder*>(data)->c_unit;
DCHECK(cUnit != nullptr);
return ((cUnit->disable_opt & (1 << kBBOpt)) == 0);
}
void Start(const PassDataHolder* data) const;
};
} // namespace art
#endif // ART_COMPILER_DEX_BB_OPTIMIZATIONS_H_