/* * 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_OPTIMIZING_OPTIMIZING_UNIT_TEST_H_ #define ART_COMPILER_OPTIMIZING_OPTIMIZING_UNIT_TEST_H_ #include #include #include "base/malloc_arena_pool.h" #include "base/scoped_arena_allocator.h" #include "builder.h" #include "common_compiler_test.h" #include "dex/code_item_accessors-inl.h" #include "dex/dex_file.h" #include "dex/dex_instruction.h" #include "dex/standard_dex_file.h" #include "driver/dex_compilation_unit.h" #include "graph_checker.h" #include "handle_scope-inl.h" #include "mirror/class_loader.h" #include "mirror/dex_cache.h" #include "nodes.h" #include "scoped_thread_state_change.h" #include "ssa_builder.h" #include "ssa_liveness_analysis.h" #include "gtest/gtest.h" namespace art { #define NUM_INSTRUCTIONS(...) \ (sizeof((uint16_t[]) {__VA_ARGS__}) /sizeof(uint16_t)) #define N_REGISTERS_CODE_ITEM(NUM_REGS, ...) \ { NUM_REGS, 0, 0, 0, 0, 0, NUM_INSTRUCTIONS(__VA_ARGS__), 0, __VA_ARGS__ } #define ZERO_REGISTER_CODE_ITEM(...) N_REGISTERS_CODE_ITEM(0, __VA_ARGS__) #define ONE_REGISTER_CODE_ITEM(...) N_REGISTERS_CODE_ITEM(1, __VA_ARGS__) #define TWO_REGISTERS_CODE_ITEM(...) N_REGISTERS_CODE_ITEM(2, __VA_ARGS__) #define THREE_REGISTERS_CODE_ITEM(...) N_REGISTERS_CODE_ITEM(3, __VA_ARGS__) #define FOUR_REGISTERS_CODE_ITEM(...) N_REGISTERS_CODE_ITEM(4, __VA_ARGS__) #define FIVE_REGISTERS_CODE_ITEM(...) N_REGISTERS_CODE_ITEM(5, __VA_ARGS__) #define SIX_REGISTERS_CODE_ITEM(...) N_REGISTERS_CODE_ITEM(6, __VA_ARGS__) LiveInterval* BuildInterval(const size_t ranges[][2], size_t number_of_ranges, ScopedArenaAllocator* allocator, int reg = -1, HInstruction* defined_by = nullptr) { LiveInterval* interval = LiveInterval::MakeInterval(allocator, DataType::Type::kInt32, defined_by); if (defined_by != nullptr) { defined_by->SetLiveInterval(interval); } for (size_t i = number_of_ranges; i > 0; --i) { interval->AddRange(ranges[i - 1][0], ranges[i - 1][1]); } interval->SetRegister(reg); return interval; } void RemoveSuspendChecks(HGraph* graph) { for (HBasicBlock* block : graph->GetBlocks()) { if (block != nullptr) { if (block->GetLoopInformation() != nullptr) { block->GetLoopInformation()->SetSuspendCheck(nullptr); } for (HInstructionIterator it(block->GetInstructions()); !it.Done(); it.Advance()) { HInstruction* current = it.Current(); if (current->IsSuspendCheck()) { current->GetBlock()->RemoveInstruction(current); } } } } } class ArenaPoolAndAllocator { public: ArenaPoolAndAllocator() : pool_(), allocator_(&pool_), arena_stack_(&pool_), scoped_allocator_(&arena_stack_) { } ArenaAllocator* GetAllocator() { return &allocator_; } ArenaStack* GetArenaStack() { return &arena_stack_; } ScopedArenaAllocator* GetScopedAllocator() { return &scoped_allocator_; } private: MallocArenaPool pool_; ArenaAllocator allocator_; ArenaStack arena_stack_; ScopedArenaAllocator scoped_allocator_; }; // Have a separate helper so the OptimizingCFITest can inherit it without causing // multiple inheritance errors from having two gtest as a parent twice. class OptimizingUnitTestHelper { public: OptimizingUnitTestHelper() : pool_and_allocator_(new ArenaPoolAndAllocator()) { } ArenaAllocator* GetAllocator() { return pool_and_allocator_->GetAllocator(); } ArenaStack* GetArenaStack() { return pool_and_allocator_->GetArenaStack(); } ScopedArenaAllocator* GetScopedAllocator() { return pool_and_allocator_->GetScopedAllocator(); } void ResetPoolAndAllocator() { pool_and_allocator_.reset(new ArenaPoolAndAllocator()); handles_.reset(); // When getting rid of the old HGraph, we can also reset handles_. } HGraph* CreateGraph() { ArenaAllocator* const allocator = pool_and_allocator_->GetAllocator(); // Reserve a big array of 0s so the dex file constructor can offsets from the header. static constexpr size_t kDexDataSize = 4 * KB; const uint8_t* dex_data = reinterpret_cast(allocator->Alloc(kDexDataSize)); // Create the dex file based on the fake data. Call the constructor so that we can use virtual // functions. Don't use the arena for the StandardDexFile otherwise the dex location leaks. dex_files_.emplace_back(new StandardDexFile( dex_data, sizeof(StandardDexFile::Header), "no_location", /*location_checksum*/ 0, /*oat_dex_file*/ nullptr, /*container*/ nullptr)); return new (allocator) HGraph( allocator, pool_and_allocator_->GetArenaStack(), *dex_files_.back(), /*method_idx*/-1, kRuntimeISA); } // Create a control-flow graph from Dex instructions. HGraph* CreateCFG(const std::vector& data, DataType::Type return_type = DataType::Type::kInt32) { HGraph* graph = CreateGraph(); // The code item data might not aligned to 4 bytes, copy it to ensure that. const size_t code_item_size = data.size() * sizeof(data.front()); void* aligned_data = GetAllocator()->Alloc(code_item_size); memcpy(aligned_data, &data[0], code_item_size); CHECK_ALIGNED(aligned_data, StandardDexFile::CodeItem::kAlignment); const dex::CodeItem* code_item = reinterpret_cast(aligned_data); { ScopedObjectAccess soa(Thread::Current()); if (handles_ == nullptr) { handles_.reset(new VariableSizedHandleScope(soa.Self())); } const DexCompilationUnit* dex_compilation_unit = new (graph->GetAllocator()) DexCompilationUnit( handles_->NewHandle(nullptr), /* class_linker= */ nullptr, graph->GetDexFile(), code_item, /* class_def_index= */ DexFile::kDexNoIndex16, /* method_idx= */ dex::kDexNoIndex, /* access_flags= */ 0u, /* verified_method= */ nullptr, handles_->NewHandle(nullptr)); CodeItemDebugInfoAccessor accessor(graph->GetDexFile(), code_item, /*dex_method_idx*/ 0u); HGraphBuilder builder(graph, dex_compilation_unit, accessor, handles_.get(), return_type); bool graph_built = (builder.BuildGraph() == kAnalysisSuccess); return graph_built ? graph : nullptr; } } // Run GraphChecker with all checks. // // Return: the status whether the run is successful. bool CheckGraph(HGraph* graph) { return CheckGraph(graph, /*check_ref_type_info=*/true); } // Run GraphChecker with all checks except reference type information checks. // // Return: the status whether the run is successful. bool CheckGraphSkipRefTypeInfoChecks(HGraph* graph) { return CheckGraph(graph, /*check_ref_type_info=*/false); } private: bool CheckGraph(HGraph* graph, bool check_ref_type_info) { GraphChecker checker(graph); checker.SetRefTypeInfoCheckEnabled(check_ref_type_info); checker.Run(); checker.Dump(std::cerr); return checker.IsValid(); } std::vector> dex_files_; std::unique_ptr pool_and_allocator_; std::unique_ptr handles_; }; class OptimizingUnitTest : public CommonCompilerTest, public OptimizingUnitTestHelper {}; // OptimizingUnitTest with some handy functions to ease the graph creation. class ImprovedOptimizingUnitTest : public OptimizingUnitTest { public: ImprovedOptimizingUnitTest() : graph_(CreateGraph()), entry_block_(nullptr), return_block_(nullptr), exit_block_(nullptr) {} virtual ~ImprovedOptimizingUnitTest() {} void InitGraph() { entry_block_ = new (GetAllocator()) HBasicBlock(graph_); graph_->AddBlock(entry_block_); graph_->SetEntryBlock(entry_block_); return_block_ = new (GetAllocator()) HBasicBlock(graph_); graph_->AddBlock(return_block_); exit_block_ = new (GetAllocator()) HBasicBlock(graph_); graph_->AddBlock(exit_block_); graph_->SetExitBlock(exit_block_); entry_block_->AddSuccessor(return_block_); return_block_->AddSuccessor(exit_block_); CreateParameters(); for (HInstruction* parameter : parameters_) { entry_block_->AddInstruction(parameter); } return_block_->AddInstruction(new (GetAllocator()) HReturnVoid()); exit_block_->AddInstruction(new (GetAllocator()) HExit()); } bool CheckGraph() { return OptimizingUnitTestHelper::CheckGraph(graph_); } bool CheckGraphSkipRefTypeInfoChecks() { return OptimizingUnitTestHelper::CheckGraphSkipRefTypeInfoChecks(graph_); } HEnvironment* ManuallyBuildEnvFor(HInstruction* instruction, ArenaVector* current_locals) { HEnvironment* environment = new (GetAllocator()) HEnvironment( (GetAllocator()), current_locals->size(), graph_->GetArtMethod(), instruction->GetDexPc(), instruction); environment->CopyFrom(ArrayRef(*current_locals)); instruction->SetRawEnvironment(environment); return environment; } protected: // Create parameters to be added to the graph entry block. // Subclasses can override it to create parameters they need. virtual void CreateParameters() { /* do nothing */ } HGraph* graph_; HBasicBlock* entry_block_; HBasicBlock* return_block_; HBasicBlock* exit_block_; std::vector parameters_; }; // Naive string diff data type. typedef std::list> diff_t; // An alias for the empty string used to make it clear that a line is // removed in a diff. static const std::string removed = ""; // NOLINT [runtime/string] [4] // Naive patch command: apply a diff to a string. inline std::string Patch(const std::string& original, const diff_t& diff) { std::string result = original; for (const auto& p : diff) { std::string::size_type pos = result.find(p.first); DCHECK_NE(pos, std::string::npos) << "Could not find: \"" << p.first << "\" in \"" << result << "\""; result.replace(pos, p.first.size(), p.second); } return result; } // Returns if the instruction is removed from the graph. inline bool IsRemoved(HInstruction* instruction) { return instruction->GetBlock() == nullptr; } } // namespace art #endif // ART_COMPILER_OPTIMIZING_OPTIMIZING_UNIT_TEST_H_