| /* |
| * 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. |
| */ |
| |
| #include "optimizing_compiler.h" |
| |
| #include <fstream> |
| #include <memory> |
| #include <sstream> |
| |
| #include <stdint.h> |
| |
| #include "android-base/strings.h" |
| |
| #ifdef ART_ENABLE_CODEGEN_arm |
| #include "dex_cache_array_fixups_arm.h" |
| #endif |
| |
| #ifdef ART_ENABLE_CODEGEN_arm64 |
| #include "instruction_simplifier_arm64.h" |
| #endif |
| |
| #ifdef ART_ENABLE_CODEGEN_mips |
| #include "dex_cache_array_fixups_mips.h" |
| #include "pc_relative_fixups_mips.h" |
| #endif |
| |
| #ifdef ART_ENABLE_CODEGEN_x86 |
| #include "pc_relative_fixups_x86.h" |
| #endif |
| |
| #if defined(ART_ENABLE_CODEGEN_x86) || defined(ART_ENABLE_CODEGEN_x86_64) |
| #include "x86_memory_gen.h" |
| #endif |
| |
| #include "art_method-inl.h" |
| #include "base/arena_allocator.h" |
| #include "base/arena_containers.h" |
| #include "base/dumpable.h" |
| #include "base/macros.h" |
| #include "base/mutex.h" |
| #include "base/timing_logger.h" |
| #include "bounds_check_elimination.h" |
| #include "builder.h" |
| #include "cha_guard_optimization.h" |
| #include "code_generator.h" |
| #include "code_sinking.h" |
| #include "compiled_method.h" |
| #include "compiler.h" |
| #include "constant_folding.h" |
| #include "dead_code_elimination.h" |
| #include "debug/elf_debug_writer.h" |
| #include "debug/method_debug_info.h" |
| #include "dex/verification_results.h" |
| #include "dex/verified_method.h" |
| #include "dex_file_types.h" |
| #include "driver/compiler_driver-inl.h" |
| #include "driver/compiler_options.h" |
| #include "driver/dex_compilation_unit.h" |
| #include "elf_writer_quick.h" |
| #include "graph_checker.h" |
| #include "graph_visualizer.h" |
| #include "gvn.h" |
| #include "induction_var_analysis.h" |
| #include "inliner.h" |
| #include "instruction_simplifier.h" |
| #include "instruction_simplifier_arm.h" |
| #include "intrinsics.h" |
| #include "jit/debugger_interface.h" |
| #include "jit/jit.h" |
| #include "jit/jit_code_cache.h" |
| #include "jni/quick/jni_compiler.h" |
| #include "licm.h" |
| #include "load_store_elimination.h" |
| #include "loop_optimization.h" |
| #include "nodes.h" |
| #include "oat_quick_method_header.h" |
| #include "prepare_for_register_allocation.h" |
| #include "reference_type_propagation.h" |
| #include "register_allocator_linear_scan.h" |
| #include "select_generator.h" |
| #include "scheduler.h" |
| #include "sharpening.h" |
| #include "side_effects_analysis.h" |
| #include "ssa_builder.h" |
| #include "ssa_liveness_analysis.h" |
| #include "ssa_phi_elimination.h" |
| #include "utils/assembler.h" |
| #include "verifier/verifier_compiler_binding.h" |
| |
| namespace art { |
| |
| static constexpr size_t kArenaAllocatorMemoryReportThreshold = 8 * MB; |
| |
| static constexpr const char* kPassNameSeparator = "$"; |
| |
| /** |
| * Used by the code generator, to allocate the code in a vector. |
| */ |
| class CodeVectorAllocator FINAL : public CodeAllocator { |
| public: |
| explicit CodeVectorAllocator(ArenaAllocator* arena) |
| : memory_(arena->Adapter(kArenaAllocCodeBuffer)), |
| size_(0) {} |
| |
| virtual uint8_t* Allocate(size_t size) { |
| size_ = size; |
| memory_.resize(size); |
| return &memory_[0]; |
| } |
| |
| size_t GetSize() const { return size_; } |
| const ArenaVector<uint8_t>& GetMemory() const { return memory_; } |
| uint8_t* GetData() { return memory_.data(); } |
| |
| private: |
| ArenaVector<uint8_t> memory_; |
| size_t size_; |
| |
| DISALLOW_COPY_AND_ASSIGN(CodeVectorAllocator); |
| }; |
| |
| /** |
| * Filter to apply to the visualizer. Methods whose name contain that filter will |
| * be dumped. |
| */ |
| static constexpr const char kStringFilter[] = ""; |
| |
| class PassScope; |
| |
| class PassObserver : public ValueObject { |
| public: |
| PassObserver(HGraph* graph, |
| CodeGenerator* codegen, |
| std::ostream* visualizer_output, |
| CompilerDriver* compiler_driver, |
| Mutex& dump_mutex) |
| : graph_(graph), |
| cached_method_name_(), |
| timing_logger_enabled_(compiler_driver->GetDumpPasses()), |
| timing_logger_(timing_logger_enabled_ ? GetMethodName() : "", true, true), |
| disasm_info_(graph->GetArena()), |
| visualizer_oss_(), |
| visualizer_output_(visualizer_output), |
| visualizer_enabled_(!compiler_driver->GetCompilerOptions().GetDumpCfgFileName().empty()), |
| visualizer_(&visualizer_oss_, graph, *codegen), |
| visualizer_dump_mutex_(dump_mutex), |
| graph_in_bad_state_(false) { |
| if (timing_logger_enabled_ || visualizer_enabled_) { |
| if (!IsVerboseMethod(compiler_driver, GetMethodName())) { |
| timing_logger_enabled_ = visualizer_enabled_ = false; |
| } |
| if (visualizer_enabled_) { |
| visualizer_.PrintHeader(GetMethodName()); |
| codegen->SetDisassemblyInformation(&disasm_info_); |
| } |
| } |
| } |
| |
| ~PassObserver() { |
| if (timing_logger_enabled_) { |
| LOG(INFO) << "TIMINGS " << GetMethodName(); |
| LOG(INFO) << Dumpable<TimingLogger>(timing_logger_); |
| } |
| DCHECK(visualizer_oss_.str().empty()); |
| } |
| |
| void DumpDisassembly() REQUIRES(!visualizer_dump_mutex_) { |
| if (visualizer_enabled_) { |
| visualizer_.DumpGraphWithDisassembly(); |
| FlushVisualizer(); |
| } |
| } |
| |
| void SetGraphInBadState() { graph_in_bad_state_ = true; } |
| |
| const char* GetMethodName() { |
| // PrettyMethod() is expensive, so we delay calling it until we actually have to. |
| if (cached_method_name_.empty()) { |
| cached_method_name_ = graph_->GetDexFile().PrettyMethod(graph_->GetMethodIdx()); |
| } |
| return cached_method_name_.c_str(); |
| } |
| |
| private: |
| void StartPass(const char* pass_name) REQUIRES(!visualizer_dump_mutex_) { |
| VLOG(compiler) << "Starting pass: " << pass_name; |
| // Dump graph first, then start timer. |
| if (visualizer_enabled_) { |
| visualizer_.DumpGraph(pass_name, /* is_after_pass */ false, graph_in_bad_state_); |
| FlushVisualizer(); |
| } |
| if (timing_logger_enabled_) { |
| timing_logger_.StartTiming(pass_name); |
| } |
| } |
| |
| void FlushVisualizer() REQUIRES(!visualizer_dump_mutex_) { |
| MutexLock mu(Thread::Current(), visualizer_dump_mutex_); |
| *visualizer_output_ << visualizer_oss_.str(); |
| visualizer_output_->flush(); |
| visualizer_oss_.str(""); |
| visualizer_oss_.clear(); |
| } |
| |
| void EndPass(const char* pass_name) REQUIRES(!visualizer_dump_mutex_) { |
| // Pause timer first, then dump graph. |
| if (timing_logger_enabled_) { |
| timing_logger_.EndTiming(); |
| } |
| if (visualizer_enabled_) { |
| visualizer_.DumpGraph(pass_name, /* is_after_pass */ true, graph_in_bad_state_); |
| FlushVisualizer(); |
| } |
| |
| // Validate the HGraph if running in debug mode. |
| if (kIsDebugBuild) { |
| if (!graph_in_bad_state_) { |
| GraphChecker checker(graph_); |
| checker.Run(); |
| if (!checker.IsValid()) { |
| LOG(FATAL) << "Error after " << pass_name << ": " << Dumpable<GraphChecker>(checker); |
| } |
| } |
| } |
| } |
| |
| static bool IsVerboseMethod(CompilerDriver* compiler_driver, const char* method_name) { |
| // Test an exact match to --verbose-methods. If verbose-methods is set, this overrides an |
| // empty kStringFilter matching all methods. |
| if (compiler_driver->GetCompilerOptions().HasVerboseMethods()) { |
| return compiler_driver->GetCompilerOptions().IsVerboseMethod(method_name); |
| } |
| |
| // Test the kStringFilter sub-string. constexpr helper variable to silence unreachable-code |
| // warning when the string is empty. |
| constexpr bool kStringFilterEmpty = arraysize(kStringFilter) <= 1; |
| if (kStringFilterEmpty || strstr(method_name, kStringFilter) != nullptr) { |
| return true; |
| } |
| |
| return false; |
| } |
| |
| HGraph* const graph_; |
| |
| std::string cached_method_name_; |
| |
| bool timing_logger_enabled_; |
| TimingLogger timing_logger_; |
| |
| DisassemblyInformation disasm_info_; |
| |
| std::ostringstream visualizer_oss_; |
| std::ostream* visualizer_output_; |
| bool visualizer_enabled_; |
| HGraphVisualizer visualizer_; |
| Mutex& visualizer_dump_mutex_; |
| |
| // Flag to be set by the compiler if the pass failed and the graph is not |
| // expected to validate. |
| bool graph_in_bad_state_; |
| |
| friend PassScope; |
| |
| DISALLOW_COPY_AND_ASSIGN(PassObserver); |
| }; |
| |
| class PassScope : public ValueObject { |
| public: |
| PassScope(const char *pass_name, PassObserver* pass_observer) |
| : pass_name_(pass_name), |
| pass_observer_(pass_observer) { |
| pass_observer_->StartPass(pass_name_); |
| } |
| |
| ~PassScope() { |
| pass_observer_->EndPass(pass_name_); |
| } |
| |
| private: |
| const char* const pass_name_; |
| PassObserver* const pass_observer_; |
| }; |
| |
| class OptimizingCompiler FINAL : public Compiler { |
| public: |
| explicit OptimizingCompiler(CompilerDriver* driver); |
| ~OptimizingCompiler() OVERRIDE; |
| |
| bool CanCompileMethod(uint32_t method_idx, const DexFile& dex_file) const OVERRIDE; |
| |
| CompiledMethod* Compile(const DexFile::CodeItem* code_item, |
| uint32_t access_flags, |
| InvokeType invoke_type, |
| uint16_t class_def_idx, |
| uint32_t method_idx, |
| Handle<mirror::ClassLoader> class_loader, |
| const DexFile& dex_file, |
| Handle<mirror::DexCache> dex_cache) const OVERRIDE; |
| |
| CompiledMethod* JniCompile(uint32_t access_flags, |
| uint32_t method_idx, |
| const DexFile& dex_file, |
| JniOptimizationFlags optimization_flags) const OVERRIDE { |
| return ArtQuickJniCompileMethod(GetCompilerDriver(), |
| access_flags, |
| method_idx, |
| dex_file, |
| optimization_flags); |
| } |
| |
| uintptr_t GetEntryPointOf(ArtMethod* method) const OVERRIDE |
| REQUIRES_SHARED(Locks::mutator_lock_) { |
| return reinterpret_cast<uintptr_t>(method->GetEntryPointFromQuickCompiledCodePtrSize( |
| InstructionSetPointerSize(GetCompilerDriver()->GetInstructionSet()))); |
| } |
| |
| void Init() OVERRIDE; |
| |
| void UnInit() const OVERRIDE; |
| |
| void MaybeRecordStat(MethodCompilationStat compilation_stat) const { |
| if (compilation_stats_.get() != nullptr) { |
| compilation_stats_->RecordStat(compilation_stat); |
| } |
| } |
| |
| bool JitCompile(Thread* self, jit::JitCodeCache* code_cache, ArtMethod* method, bool osr) |
| OVERRIDE |
| REQUIRES_SHARED(Locks::mutator_lock_); |
| |
| private: |
| void RunOptimizations(HGraph* graph, |
| CodeGenerator* codegen, |
| CompilerDriver* driver, |
| const DexCompilationUnit& dex_compilation_unit, |
| PassObserver* pass_observer, |
| VariableSizedHandleScope* handles) const; |
| |
| void RunOptimizations(HOptimization* optimizations[], |
| size_t length, |
| PassObserver* pass_observer) const; |
| |
| private: |
| // Create a 'CompiledMethod' for an optimized graph. |
| CompiledMethod* Emit(ArenaAllocator* arena, |
| CodeVectorAllocator* code_allocator, |
| CodeGenerator* codegen, |
| CompilerDriver* driver, |
| const DexFile::CodeItem* item) const; |
| |
| // Try compiling a method and return the code generator used for |
| // compiling it. |
| // This method: |
| // 1) Builds the graph. Returns null if it failed to build it. |
| // 2) Transforms the graph to SSA. Returns null if it failed. |
| // 3) Runs optimizations on the graph, including register allocator. |
| // 4) Generates code with the `code_allocator` provided. |
| CodeGenerator* TryCompile(ArenaAllocator* arena, |
| CodeVectorAllocator* code_allocator, |
| const DexFile::CodeItem* code_item, |
| uint32_t access_flags, |
| InvokeType invoke_type, |
| uint16_t class_def_idx, |
| uint32_t method_idx, |
| Handle<mirror::ClassLoader> class_loader, |
| const DexFile& dex_file, |
| Handle<mirror::DexCache> dex_cache, |
| ArtMethod* method, |
| bool osr, |
| VariableSizedHandleScope* handles) const; |
| |
| void MaybeRunInliner(HGraph* graph, |
| CodeGenerator* codegen, |
| CompilerDriver* driver, |
| const DexCompilationUnit& dex_compilation_unit, |
| PassObserver* pass_observer, |
| VariableSizedHandleScope* handles) const; |
| |
| void RunArchOptimizations(InstructionSet instruction_set, |
| HGraph* graph, |
| CodeGenerator* codegen, |
| PassObserver* pass_observer) const; |
| |
| std::unique_ptr<OptimizingCompilerStats> compilation_stats_; |
| |
| std::unique_ptr<std::ostream> visualizer_output_; |
| |
| mutable Mutex dump_mutex_; // To synchronize visualizer writing. |
| |
| DISALLOW_COPY_AND_ASSIGN(OptimizingCompiler); |
| }; |
| |
| static const int kMaximumCompilationTimeBeforeWarning = 100; /* ms */ |
| |
| OptimizingCompiler::OptimizingCompiler(CompilerDriver* driver) |
| : Compiler(driver, kMaximumCompilationTimeBeforeWarning), |
| dump_mutex_("Visualizer dump lock") {} |
| |
| void OptimizingCompiler::Init() { |
| // Enable C1visualizer output. Must be done in Init() because the compiler |
| // driver is not fully initialized when passed to the compiler's constructor. |
| CompilerDriver* driver = GetCompilerDriver(); |
| const std::string cfg_file_name = driver->GetCompilerOptions().GetDumpCfgFileName(); |
| if (!cfg_file_name.empty()) { |
| std::ios_base::openmode cfg_file_mode = |
| driver->GetCompilerOptions().GetDumpCfgAppend() ? std::ofstream::app : std::ofstream::out; |
| visualizer_output_.reset(new std::ofstream(cfg_file_name, cfg_file_mode)); |
| } |
| if (driver->GetDumpStats()) { |
| compilation_stats_.reset(new OptimizingCompilerStats()); |
| } |
| } |
| |
| void OptimizingCompiler::UnInit() const { |
| } |
| |
| OptimizingCompiler::~OptimizingCompiler() { |
| if (compilation_stats_.get() != nullptr) { |
| compilation_stats_->Log(); |
| } |
| } |
| |
| bool OptimizingCompiler::CanCompileMethod(uint32_t method_idx ATTRIBUTE_UNUSED, |
| const DexFile& dex_file ATTRIBUTE_UNUSED) const { |
| return true; |
| } |
| |
| static bool IsInstructionSetSupported(InstructionSet instruction_set) { |
| return (instruction_set == kArm && !kArm32QuickCodeUseSoftFloat) |
| || instruction_set == kArm64 |
| || (instruction_set == kThumb2 && !kArm32QuickCodeUseSoftFloat) |
| || instruction_set == kMips |
| || instruction_set == kMips64 |
| || instruction_set == kX86 |
| || instruction_set == kX86_64; |
| } |
| |
| // Strip pass name suffix to get optimization name. |
| static std::string ConvertPassNameToOptimizationName(const std::string& pass_name) { |
| size_t pos = pass_name.find(kPassNameSeparator); |
| return pos == std::string::npos ? pass_name : pass_name.substr(0, pos); |
| } |
| |
| static HOptimization* BuildOptimization( |
| const std::string& pass_name, |
| ArenaAllocator* arena, |
| HGraph* graph, |
| OptimizingCompilerStats* stats, |
| CodeGenerator* codegen, |
| CompilerDriver* driver, |
| const DexCompilationUnit& dex_compilation_unit, |
| VariableSizedHandleScope* handles, |
| SideEffectsAnalysis* most_recent_side_effects, |
| HInductionVarAnalysis* most_recent_induction) { |
| std::string opt_name = ConvertPassNameToOptimizationName(pass_name); |
| if (opt_name == BoundsCheckElimination::kBoundsCheckEliminationPassName) { |
| CHECK(most_recent_side_effects != nullptr && most_recent_induction != nullptr); |
| return new (arena) BoundsCheckElimination(graph, |
| *most_recent_side_effects, |
| most_recent_induction); |
| } else if (opt_name == GVNOptimization::kGlobalValueNumberingPassName) { |
| CHECK(most_recent_side_effects != nullptr); |
| return new (arena) GVNOptimization(graph, *most_recent_side_effects, pass_name.c_str()); |
| } else if (opt_name == HConstantFolding::kConstantFoldingPassName) { |
| return new (arena) HConstantFolding(graph, pass_name.c_str()); |
| } else if (opt_name == HDeadCodeElimination::kDeadCodeEliminationPassName) { |
| return new (arena) HDeadCodeElimination(graph, stats, pass_name.c_str()); |
| } else if (opt_name == HInliner::kInlinerPassName) { |
| size_t number_of_dex_registers = dex_compilation_unit.GetCodeItem()->registers_size_; |
| return new (arena) HInliner(graph, // outer_graph |
| graph, // outermost_graph |
| codegen, |
| dex_compilation_unit, // outer_compilation_unit |
| dex_compilation_unit, // outermost_compilation_unit |
| driver, |
| handles, |
| stats, |
| number_of_dex_registers, |
| /* total_number_of_instructions */ 0, |
| /* parent */ nullptr); |
| } else if (opt_name == HSharpening::kSharpeningPassName) { |
| return new (arena) HSharpening(graph, codegen, dex_compilation_unit, driver, handles); |
| } else if (opt_name == HSelectGenerator::kSelectGeneratorPassName) { |
| return new (arena) HSelectGenerator(graph, stats); |
| } else if (opt_name == HInductionVarAnalysis::kInductionPassName) { |
| return new (arena) HInductionVarAnalysis(graph); |
| } else if (opt_name == InstructionSimplifier::kInstructionSimplifierPassName) { |
| return new (arena) InstructionSimplifier(graph, codegen, stats, pass_name.c_str()); |
| } else if (opt_name == IntrinsicsRecognizer::kIntrinsicsRecognizerPassName) { |
| return new (arena) IntrinsicsRecognizer(graph, stats); |
| } else if (opt_name == LICM::kLoopInvariantCodeMotionPassName) { |
| CHECK(most_recent_side_effects != nullptr); |
| return new (arena) LICM(graph, *most_recent_side_effects, stats); |
| } else if (opt_name == LoadStoreElimination::kLoadStoreEliminationPassName) { |
| CHECK(most_recent_side_effects != nullptr); |
| return new (arena) LoadStoreElimination(graph, *most_recent_side_effects); |
| } else if (opt_name == SideEffectsAnalysis::kSideEffectsAnalysisPassName) { |
| return new (arena) SideEffectsAnalysis(graph); |
| } else if (opt_name == HLoopOptimization::kLoopOptimizationPassName) { |
| return new (arena) HLoopOptimization(graph, driver, most_recent_induction); |
| } else if (opt_name == CHAGuardOptimization::kCHAGuardOptimizationPassName) { |
| return new (arena) CHAGuardOptimization(graph); |
| } else if (opt_name == CodeSinking::kCodeSinkingPassName) { |
| return new (arena) CodeSinking(graph, stats); |
| #ifdef ART_ENABLE_CODEGEN_arm |
| } else if (opt_name == arm::DexCacheArrayFixups::kDexCacheArrayFixupsArmPassName) { |
| return new (arena) arm::DexCacheArrayFixups(graph, codegen, stats); |
| } else if (opt_name == arm::InstructionSimplifierArm::kInstructionSimplifierArmPassName) { |
| return new (arena) arm::InstructionSimplifierArm(graph, stats); |
| #endif |
| #ifdef ART_ENABLE_CODEGEN_arm64 |
| } else if (opt_name == arm64::InstructionSimplifierArm64::kInstructionSimplifierArm64PassName) { |
| return new (arena) arm64::InstructionSimplifierArm64(graph, stats); |
| #endif |
| #ifdef ART_ENABLE_CODEGEN_mips |
| } else if (opt_name == mips::DexCacheArrayFixups::kDexCacheArrayFixupsMipsPassName) { |
| return new (arena) mips::DexCacheArrayFixups(graph, codegen, stats); |
| } else if (opt_name == mips::PcRelativeFixups::kPcRelativeFixupsMipsPassName) { |
| return new (arena) mips::PcRelativeFixups(graph, codegen, stats); |
| #endif |
| #ifdef ART_ENABLE_CODEGEN_x86 |
| } else if (opt_name == x86::PcRelativeFixups::kPcRelativeFixupsX86PassName) { |
| return new (arena) x86::PcRelativeFixups(graph, codegen, stats); |
| } else if (opt_name == x86::X86MemoryOperandGeneration::kX86MemoryOperandGenerationPassName) { |
| return new (arena) x86::X86MemoryOperandGeneration(graph, codegen, stats); |
| #endif |
| } |
| return nullptr; |
| } |
| |
| static ArenaVector<HOptimization*> BuildOptimizations( |
| const std::vector<std::string>& pass_names, |
| ArenaAllocator* arena, |
| HGraph* graph, |
| OptimizingCompilerStats* stats, |
| CodeGenerator* codegen, |
| CompilerDriver* driver, |
| const DexCompilationUnit& dex_compilation_unit, |
| VariableSizedHandleScope* handles) { |
| // Few HOptimizations constructors require SideEffectsAnalysis or HInductionVarAnalysis |
| // instances. This method assumes that each of them expects the nearest instance preceeding it |
| // in the pass name list. |
| SideEffectsAnalysis* most_recent_side_effects = nullptr; |
| HInductionVarAnalysis* most_recent_induction = nullptr; |
| ArenaVector<HOptimization*> ret(arena->Adapter()); |
| for (const std::string& pass_name : pass_names) { |
| HOptimization* opt = BuildOptimization( |
| pass_name, |
| arena, |
| graph, |
| stats, |
| codegen, |
| driver, |
| dex_compilation_unit, |
| handles, |
| most_recent_side_effects, |
| most_recent_induction); |
| CHECK(opt != nullptr) << "Couldn't build optimization: \"" << pass_name << "\""; |
| ret.push_back(opt); |
| |
| std::string opt_name = ConvertPassNameToOptimizationName(pass_name); |
| if (opt_name == SideEffectsAnalysis::kSideEffectsAnalysisPassName) { |
| most_recent_side_effects = down_cast<SideEffectsAnalysis*>(opt); |
| } else if (opt_name == HInductionVarAnalysis::kInductionPassName) { |
| most_recent_induction = down_cast<HInductionVarAnalysis*>(opt); |
| } |
| } |
| return ret; |
| } |
| |
| void OptimizingCompiler::RunOptimizations(HOptimization* optimizations[], |
| size_t length, |
| PassObserver* pass_observer) const { |
| for (size_t i = 0; i < length; ++i) { |
| PassScope scope(optimizations[i]->GetPassName(), pass_observer); |
| optimizations[i]->Run(); |
| } |
| } |
| |
| void OptimizingCompiler::MaybeRunInliner(HGraph* graph, |
| CodeGenerator* codegen, |
| CompilerDriver* driver, |
| const DexCompilationUnit& dex_compilation_unit, |
| PassObserver* pass_observer, |
| VariableSizedHandleScope* handles) const { |
| OptimizingCompilerStats* stats = compilation_stats_.get(); |
| const CompilerOptions& compiler_options = driver->GetCompilerOptions(); |
| bool should_inline = (compiler_options.GetInlineMaxCodeUnits() > 0); |
| if (!should_inline) { |
| return; |
| } |
| size_t number_of_dex_registers = dex_compilation_unit.GetCodeItem()->registers_size_; |
| HInliner* inliner = new (graph->GetArena()) HInliner( |
| graph, // outer_graph |
| graph, // outermost_graph |
| codegen, |
| dex_compilation_unit, // outer_compilation_unit |
| dex_compilation_unit, // outermost_compilation_unit |
| driver, |
| handles, |
| stats, |
| number_of_dex_registers, |
| /* total_number_of_instructions */ 0, |
| /* parent */ nullptr); |
| HOptimization* optimizations[] = { inliner }; |
| |
| RunOptimizations(optimizations, arraysize(optimizations), pass_observer); |
| } |
| |
| void OptimizingCompiler::RunArchOptimizations(InstructionSet instruction_set, |
| HGraph* graph, |
| CodeGenerator* codegen, |
| PassObserver* pass_observer) const { |
| UNUSED(codegen); // To avoid compilation error when compiling for svelte |
| OptimizingCompilerStats* stats = compilation_stats_.get(); |
| ArenaAllocator* arena = graph->GetArena(); |
| switch (instruction_set) { |
| #if defined(ART_ENABLE_CODEGEN_arm) |
| case kThumb2: |
| case kArm: { |
| arm::DexCacheArrayFixups* fixups = |
| new (arena) arm::DexCacheArrayFixups(graph, codegen, stats); |
| arm::InstructionSimplifierArm* simplifier = |
| new (arena) arm::InstructionSimplifierArm(graph, stats); |
| SideEffectsAnalysis* side_effects = new (arena) SideEffectsAnalysis(graph); |
| GVNOptimization* gvn = new (arena) GVNOptimization(graph, *side_effects, "GVN$after_arch"); |
| HOptimization* arm_optimizations[] = { |
| simplifier, |
| side_effects, |
| gvn, |
| fixups |
| }; |
| RunOptimizations(arm_optimizations, arraysize(arm_optimizations), pass_observer); |
| break; |
| } |
| #endif |
| #ifdef ART_ENABLE_CODEGEN_arm64 |
| case kArm64: { |
| arm64::InstructionSimplifierArm64* simplifier = |
| new (arena) arm64::InstructionSimplifierArm64(graph, stats); |
| SideEffectsAnalysis* side_effects = new (arena) SideEffectsAnalysis(graph); |
| GVNOptimization* gvn = new (arena) GVNOptimization(graph, *side_effects, "GVN$after_arch"); |
| HInstructionScheduling* scheduling = |
| new (arena) HInstructionScheduling(graph, instruction_set); |
| HOptimization* arm64_optimizations[] = { |
| simplifier, |
| side_effects, |
| gvn, |
| scheduling, |
| }; |
| RunOptimizations(arm64_optimizations, arraysize(arm64_optimizations), pass_observer); |
| break; |
| } |
| #endif |
| #ifdef ART_ENABLE_CODEGEN_mips |
| case kMips: { |
| mips::PcRelativeFixups* pc_relative_fixups = |
| new (arena) mips::PcRelativeFixups(graph, codegen, stats); |
| mips::DexCacheArrayFixups* dex_cache_array_fixups = |
| new (arena) mips::DexCacheArrayFixups(graph, codegen, stats); |
| HOptimization* mips_optimizations[] = { |
| pc_relative_fixups, |
| dex_cache_array_fixups |
| }; |
| RunOptimizations(mips_optimizations, arraysize(mips_optimizations), pass_observer); |
| break; |
| } |
| #endif |
| #ifdef ART_ENABLE_CODEGEN_x86 |
| case kX86: { |
| x86::PcRelativeFixups* pc_relative_fixups = |
| new (arena) x86::PcRelativeFixups(graph, codegen, stats); |
| x86::X86MemoryOperandGeneration* memory_gen = |
| new (arena) x86::X86MemoryOperandGeneration(graph, codegen, stats); |
| HOptimization* x86_optimizations[] = { |
| pc_relative_fixups, |
| memory_gen |
| }; |
| RunOptimizations(x86_optimizations, arraysize(x86_optimizations), pass_observer); |
| break; |
| } |
| #endif |
| #ifdef ART_ENABLE_CODEGEN_x86_64 |
| case kX86_64: { |
| x86::X86MemoryOperandGeneration* memory_gen = |
| new (arena) x86::X86MemoryOperandGeneration(graph, codegen, stats); |
| HOptimization* x86_64_optimizations[] = { |
| memory_gen |
| }; |
| RunOptimizations(x86_64_optimizations, arraysize(x86_64_optimizations), pass_observer); |
| break; |
| } |
| #endif |
| default: |
| break; |
| } |
| } |
| |
| NO_INLINE // Avoid increasing caller's frame size by large stack-allocated objects. |
| static void AllocateRegisters(HGraph* graph, |
| CodeGenerator* codegen, |
| PassObserver* pass_observer, |
| RegisterAllocator::Strategy strategy) { |
| { |
| PassScope scope(PrepareForRegisterAllocation::kPrepareForRegisterAllocationPassName, |
| pass_observer); |
| PrepareForRegisterAllocation(graph).Run(); |
| } |
| SsaLivenessAnalysis liveness(graph, codegen); |
| { |
| PassScope scope(SsaLivenessAnalysis::kLivenessPassName, pass_observer); |
| liveness.Analyze(); |
| } |
| { |
| PassScope scope(RegisterAllocator::kRegisterAllocatorPassName, pass_observer); |
| RegisterAllocator::Create(graph->GetArena(), codegen, liveness, strategy)->AllocateRegisters(); |
| } |
| } |
| |
| void OptimizingCompiler::RunOptimizations(HGraph* graph, |
| CodeGenerator* codegen, |
| CompilerDriver* driver, |
| const DexCompilationUnit& dex_compilation_unit, |
| PassObserver* pass_observer, |
| VariableSizedHandleScope* handles) const { |
| OptimizingCompilerStats* stats = compilation_stats_.get(); |
| ArenaAllocator* arena = graph->GetArena(); |
| if (driver->GetCompilerOptions().GetPassesToRun() != nullptr) { |
| ArenaVector<HOptimization*> optimizations = BuildOptimizations( |
| *driver->GetCompilerOptions().GetPassesToRun(), |
| arena, |
| graph, |
| stats, |
| codegen, |
| driver, |
| dex_compilation_unit, |
| handles); |
| RunOptimizations(&optimizations[0], optimizations.size(), pass_observer); |
| return; |
| } |
| |
| HDeadCodeElimination* dce1 = new (arena) HDeadCodeElimination( |
| graph, stats, "dead_code_elimination$initial"); |
| HDeadCodeElimination* dce2 = new (arena) HDeadCodeElimination( |
| graph, stats, "dead_code_elimination$after_inlining"); |
| HDeadCodeElimination* dce3 = new (arena) HDeadCodeElimination( |
| graph, stats, "dead_code_elimination$final"); |
| HConstantFolding* fold1 = new (arena) HConstantFolding(graph, "constant_folding"); |
| InstructionSimplifier* simplify1 = new (arena) InstructionSimplifier(graph, codegen, stats); |
| HSelectGenerator* select_generator = new (arena) HSelectGenerator(graph, stats); |
| HConstantFolding* fold2 = new (arena) HConstantFolding( |
| graph, "constant_folding$after_inlining"); |
| HConstantFolding* fold3 = new (arena) HConstantFolding(graph, "constant_folding$after_bce"); |
| SideEffectsAnalysis* side_effects1 = new (arena) SideEffectsAnalysis( |
| graph, "side_effects$before_gvn"); |
| SideEffectsAnalysis* side_effects2 = new (arena) SideEffectsAnalysis( |
| graph, "side_effects$before_lse"); |
| GVNOptimization* gvn = new (arena) GVNOptimization(graph, *side_effects1); |
| LICM* licm = new (arena) LICM(graph, *side_effects1, stats); |
| HInductionVarAnalysis* induction = new (arena) HInductionVarAnalysis(graph); |
| BoundsCheckElimination* bce = new (arena) BoundsCheckElimination(graph, *side_effects1, induction); |
| HLoopOptimization* loop = new (arena) HLoopOptimization(graph, driver, induction); |
| LoadStoreElimination* lse = new (arena) LoadStoreElimination(graph, *side_effects2); |
| HSharpening* sharpening = new (arena) HSharpening( |
| graph, codegen, dex_compilation_unit, driver, handles); |
| InstructionSimplifier* simplify2 = new (arena) InstructionSimplifier( |
| graph, codegen, stats, "instruction_simplifier$after_inlining"); |
| InstructionSimplifier* simplify3 = new (arena) InstructionSimplifier( |
| graph, codegen, stats, "instruction_simplifier$after_bce"); |
| InstructionSimplifier* simplify4 = new (arena) InstructionSimplifier( |
| graph, codegen, stats, "instruction_simplifier$before_codegen"); |
| IntrinsicsRecognizer* intrinsics = new (arena) IntrinsicsRecognizer(graph, stats); |
| CHAGuardOptimization* cha_guard = new (arena) CHAGuardOptimization(graph); |
| CodeSinking* code_sinking = new (arena) CodeSinking(graph, stats); |
| |
| HOptimization* optimizations1[] = { |
| intrinsics, |
| sharpening, |
| fold1, |
| simplify1, |
| dce1, |
| }; |
| RunOptimizations(optimizations1, arraysize(optimizations1), pass_observer); |
| |
| MaybeRunInliner(graph, codegen, driver, dex_compilation_unit, pass_observer, handles); |
| |
| HOptimization* optimizations2[] = { |
| // SelectGenerator depends on the InstructionSimplifier removing |
| // redundant suspend checks to recognize empty blocks. |
| select_generator, |
| fold2, // TODO: if we don't inline we can also skip fold2. |
| simplify2, |
| dce2, |
| side_effects1, |
| gvn, |
| licm, |
| induction, |
| bce, |
| loop, |
| fold3, // evaluates code generated by dynamic bce |
| simplify3, |
| side_effects2, |
| lse, |
| cha_guard, |
| dce3, |
| code_sinking, |
| // The codegen has a few assumptions that only the instruction simplifier |
| // can satisfy. For example, the code generator does not expect to see a |
| // HTypeConversion from a type to the same type. |
| simplify4, |
| }; |
| RunOptimizations(optimizations2, arraysize(optimizations2), pass_observer); |
| |
| RunArchOptimizations(driver->GetInstructionSet(), graph, codegen, pass_observer); |
| } |
| |
| static ArenaVector<LinkerPatch> EmitAndSortLinkerPatches(CodeGenerator* codegen) { |
| ArenaVector<LinkerPatch> linker_patches(codegen->GetGraph()->GetArena()->Adapter()); |
| codegen->EmitLinkerPatches(&linker_patches); |
| |
| // Sort patches by literal offset. Required for .oat_patches encoding. |
| std::sort(linker_patches.begin(), linker_patches.end(), |
| [](const LinkerPatch& lhs, const LinkerPatch& rhs) { |
| return lhs.LiteralOffset() < rhs.LiteralOffset(); |
| }); |
| |
| return linker_patches; |
| } |
| |
| CompiledMethod* OptimizingCompiler::Emit(ArenaAllocator* arena, |
| CodeVectorAllocator* code_allocator, |
| CodeGenerator* codegen, |
| CompilerDriver* compiler_driver, |
| const DexFile::CodeItem* code_item) const { |
| ArenaVector<LinkerPatch> linker_patches = EmitAndSortLinkerPatches(codegen); |
| ArenaVector<uint8_t> stack_map(arena->Adapter(kArenaAllocStackMaps)); |
| ArenaVector<uint8_t> method_info(arena->Adapter(kArenaAllocStackMaps)); |
| size_t stack_map_size = 0; |
| size_t method_info_size = 0; |
| codegen->ComputeStackMapAndMethodInfoSize(&stack_map_size, &method_info_size); |
| stack_map.resize(stack_map_size); |
| method_info.resize(method_info_size); |
| codegen->BuildStackMaps(MemoryRegion(stack_map.data(), stack_map.size()), |
| MemoryRegion(method_info.data(), method_info.size()), |
| *code_item); |
| |
| CompiledMethod* compiled_method = CompiledMethod::SwapAllocCompiledMethod( |
| compiler_driver, |
| codegen->GetInstructionSet(), |
| ArrayRef<const uint8_t>(code_allocator->GetMemory()), |
| // Follow Quick's behavior and set the frame size to zero if it is |
| // considered "empty" (see the definition of |
| // art::CodeGenerator::HasEmptyFrame). |
| codegen->HasEmptyFrame() ? 0 : codegen->GetFrameSize(), |
| codegen->GetCoreSpillMask(), |
| codegen->GetFpuSpillMask(), |
| ArrayRef<const uint8_t>(method_info), |
| ArrayRef<const uint8_t>(stack_map), |
| ArrayRef<const uint8_t>(*codegen->GetAssembler()->cfi().data()), |
| ArrayRef<const LinkerPatch>(linker_patches)); |
| |
| return compiled_method; |
| } |
| |
| CodeGenerator* OptimizingCompiler::TryCompile(ArenaAllocator* arena, |
| CodeVectorAllocator* code_allocator, |
| const DexFile::CodeItem* code_item, |
| uint32_t access_flags, |
| InvokeType invoke_type, |
| uint16_t class_def_idx, |
| uint32_t method_idx, |
| Handle<mirror::ClassLoader> class_loader, |
| const DexFile& dex_file, |
| Handle<mirror::DexCache> dex_cache, |
| ArtMethod* method, |
| bool osr, |
| VariableSizedHandleScope* handles) const { |
| MaybeRecordStat(MethodCompilationStat::kAttemptCompilation); |
| CompilerDriver* compiler_driver = GetCompilerDriver(); |
| InstructionSet instruction_set = compiler_driver->GetInstructionSet(); |
| |
| // Always use the Thumb-2 assembler: some runtime functionality |
| // (like implicit stack overflow checks) assume Thumb-2. |
| DCHECK_NE(instruction_set, kArm); |
| |
| // Do not attempt to compile on architectures we do not support. |
| if (!IsInstructionSetSupported(instruction_set)) { |
| MaybeRecordStat(MethodCompilationStat::kNotCompiledUnsupportedIsa); |
| return nullptr; |
| } |
| |
| if (Compiler::IsPathologicalCase(*code_item, method_idx, dex_file)) { |
| MaybeRecordStat(MethodCompilationStat::kNotCompiledPathological); |
| return nullptr; |
| } |
| |
| // Implementation of the space filter: do not compile a code item whose size in |
| // code units is bigger than 128. |
| static constexpr size_t kSpaceFilterOptimizingThreshold = 128; |
| const CompilerOptions& compiler_options = compiler_driver->GetCompilerOptions(); |
| if ((compiler_options.GetCompilerFilter() == CompilerFilter::kSpace) |
| && (code_item->insns_size_in_code_units_ > kSpaceFilterOptimizingThreshold)) { |
| MaybeRecordStat(MethodCompilationStat::kNotCompiledSpaceFilter); |
| return nullptr; |
| } |
| |
| ClassLinker* class_linker = Runtime::Current()->GetClassLinker(); |
| DexCompilationUnit dex_compilation_unit( |
| class_loader, |
| class_linker, |
| dex_file, |
| code_item, |
| class_def_idx, |
| method_idx, |
| access_flags, |
| /* verified_method */ nullptr, |
| dex_cache); |
| |
| HGraph* graph = new (arena) HGraph( |
| arena, |
| dex_file, |
| method_idx, |
| compiler_driver->GetInstructionSet(), |
| kInvalidInvokeType, |
| compiler_driver->GetCompilerOptions().GetDebuggable(), |
| osr); |
| |
| const uint8_t* interpreter_metadata = nullptr; |
| if (method == nullptr) { |
| ScopedObjectAccess soa(Thread::Current()); |
| method = compiler_driver->ResolveMethod( |
| soa, dex_cache, class_loader, &dex_compilation_unit, method_idx, invoke_type); |
| } |
| // For AOT compilation, we may not get a method, for example if its class is erroneous. |
| // JIT should always have a method. |
| DCHECK(Runtime::Current()->IsAotCompiler() || method != nullptr); |
| if (method != nullptr) { |
| graph->SetArtMethod(method); |
| ScopedObjectAccess soa(Thread::Current()); |
| interpreter_metadata = method->GetQuickenedInfo(class_linker->GetImagePointerSize()); |
| } |
| |
| std::unique_ptr<CodeGenerator> codegen( |
| CodeGenerator::Create(graph, |
| instruction_set, |
| *compiler_driver->GetInstructionSetFeatures(), |
| compiler_driver->GetCompilerOptions(), |
| compilation_stats_.get())); |
| if (codegen.get() == nullptr) { |
| MaybeRecordStat(MethodCompilationStat::kNotCompiledNoCodegen); |
| return nullptr; |
| } |
| codegen->GetAssembler()->cfi().SetEnabled( |
| compiler_driver->GetCompilerOptions().GenerateAnyDebugInfo()); |
| |
| PassObserver pass_observer(graph, |
| codegen.get(), |
| visualizer_output_.get(), |
| compiler_driver, |
| dump_mutex_); |
| |
| { |
| VLOG(compiler) << "Building " << pass_observer.GetMethodName(); |
| PassScope scope(HGraphBuilder::kBuilderPassName, &pass_observer); |
| HGraphBuilder builder(graph, |
| &dex_compilation_unit, |
| &dex_compilation_unit, |
| &dex_file, |
| *code_item, |
| compiler_driver, |
| codegen.get(), |
| compilation_stats_.get(), |
| interpreter_metadata, |
| dex_cache, |
| handles); |
| GraphAnalysisResult result = builder.BuildGraph(); |
| if (result != kAnalysisSuccess) { |
| switch (result) { |
| case kAnalysisSkipped: |
| MaybeRecordStat(MethodCompilationStat::kNotCompiledSkipped); |
| break; |
| case kAnalysisInvalidBytecode: |
| MaybeRecordStat(MethodCompilationStat::kNotCompiledInvalidBytecode); |
| break; |
| case kAnalysisFailThrowCatchLoop: |
| MaybeRecordStat(MethodCompilationStat::kNotCompiledThrowCatchLoop); |
| break; |
| case kAnalysisFailAmbiguousArrayOp: |
| MaybeRecordStat(MethodCompilationStat::kNotCompiledAmbiguousArrayOp); |
| break; |
| case kAnalysisSuccess: |
| UNREACHABLE(); |
| } |
| pass_observer.SetGraphInBadState(); |
| return nullptr; |
| } |
| } |
| |
| RunOptimizations(graph, |
| codegen.get(), |
| compiler_driver, |
| dex_compilation_unit, |
| &pass_observer, |
| handles); |
| |
| RegisterAllocator::Strategy regalloc_strategy = |
| compiler_options.GetRegisterAllocationStrategy(); |
| AllocateRegisters(graph, codegen.get(), &pass_observer, regalloc_strategy); |
| |
| codegen->Compile(code_allocator); |
| pass_observer.DumpDisassembly(); |
| |
| return codegen.release(); |
| } |
| |
| CompiledMethod* OptimizingCompiler::Compile(const DexFile::CodeItem* code_item, |
| uint32_t access_flags, |
| InvokeType invoke_type, |
| uint16_t class_def_idx, |
| uint32_t method_idx, |
| Handle<mirror::ClassLoader> jclass_loader, |
| const DexFile& dex_file, |
| Handle<mirror::DexCache> dex_cache) const { |
| CompilerDriver* compiler_driver = GetCompilerDriver(); |
| CompiledMethod* method = nullptr; |
| DCHECK(Runtime::Current()->IsAotCompiler()); |
| const VerifiedMethod* verified_method = compiler_driver->GetVerifiedMethod(&dex_file, method_idx); |
| DCHECK(!verified_method->HasRuntimeThrow()); |
| if (compiler_driver->IsMethodVerifiedWithoutFailures(method_idx, class_def_idx, dex_file) |
| || verifier::CanCompilerHandleVerificationFailure( |
| verified_method->GetEncounteredVerificationFailures())) { |
| ArenaAllocator arena(Runtime::Current()->GetArenaPool()); |
| CodeVectorAllocator code_allocator(&arena); |
| std::unique_ptr<CodeGenerator> codegen; |
| { |
| ScopedObjectAccess soa(Thread::Current()); |
| VariableSizedHandleScope handles(soa.Self()); |
| // Go to native so that we don't block GC during compilation. |
| ScopedThreadSuspension sts(soa.Self(), kNative); |
| codegen.reset( |
| TryCompile(&arena, |
| &code_allocator, |
| code_item, |
| access_flags, |
| invoke_type, |
| class_def_idx, |
| method_idx, |
| jclass_loader, |
| dex_file, |
| dex_cache, |
| nullptr, |
| /* osr */ false, |
| &handles)); |
| } |
| if (codegen.get() != nullptr) { |
| MaybeRecordStat(MethodCompilationStat::kCompiled); |
| method = Emit(&arena, &code_allocator, codegen.get(), compiler_driver, code_item); |
| |
| if (kArenaAllocatorCountAllocations) { |
| if (arena.BytesAllocated() > kArenaAllocatorMemoryReportThreshold) { |
| MemStats mem_stats(arena.GetMemStats()); |
| LOG(INFO) << dex_file.PrettyMethod(method_idx) << " " << Dumpable<MemStats>(mem_stats); |
| } |
| } |
| } |
| } else { |
| if (compiler_driver->GetCompilerOptions().VerifyAtRuntime()) { |
| MaybeRecordStat(MethodCompilationStat::kNotCompiledVerifyAtRuntime); |
| } else { |
| MaybeRecordStat(MethodCompilationStat::kNotCompiledVerificationError); |
| } |
| } |
| |
| if (kIsDebugBuild && |
| IsCompilingWithCoreImage() && |
| IsInstructionSetSupported(compiler_driver->GetInstructionSet())) { |
| // For testing purposes, we put a special marker on method names |
| // that should be compiled with this compiler (when the |
| // instruction set is supported). This makes sure we're not |
| // regressing. |
| std::string method_name = dex_file.PrettyMethod(method_idx); |
| bool shouldCompile = method_name.find("$opt$") != std::string::npos; |
| DCHECK((method != nullptr) || !shouldCompile) << "Didn't compile " << method_name; |
| } |
| |
| return method; |
| } |
| |
| Compiler* CreateOptimizingCompiler(CompilerDriver* driver) { |
| return new OptimizingCompiler(driver); |
| } |
| |
| bool IsCompilingWithCoreImage() { |
| const std::string& image = Runtime::Current()->GetImageLocation(); |
| // TODO: This is under-approximating... |
| if (android::base::EndsWith(image, "core.art") || |
| android::base::EndsWith(image, "core-optimizing.art")) { |
| return true; |
| } |
| return false; |
| } |
| |
| bool EncodeArtMethodInInlineInfo(ArtMethod* method ATTRIBUTE_UNUSED) { |
| // Note: the runtime is null only for unit testing. |
| return Runtime::Current() == nullptr || !Runtime::Current()->IsAotCompiler(); |
| } |
| |
| bool CanEncodeInlinedMethodInStackMap(const DexFile& caller_dex_file, ArtMethod* callee) { |
| if (!Runtime::Current()->IsAotCompiler()) { |
| // JIT can always encode methods in stack maps. |
| return true; |
| } |
| if (IsSameDexFile(caller_dex_file, *callee->GetDexFile())) { |
| return true; |
| } |
| // TODO(ngeoffray): Support more AOT cases for inlining: |
| // - methods in multidex |
| // - methods in boot image for on-device non-PIC compilation. |
| return false; |
| } |
| |
| bool OptimizingCompiler::JitCompile(Thread* self, |
| jit::JitCodeCache* code_cache, |
| ArtMethod* method, |
| bool osr) { |
| StackHandleScope<3> hs(self); |
| Handle<mirror::ClassLoader> class_loader(hs.NewHandle( |
| method->GetDeclaringClass()->GetClassLoader())); |
| Handle<mirror::DexCache> dex_cache(hs.NewHandle(method->GetDexCache())); |
| DCHECK(method->IsCompilable()); |
| |
| const DexFile* dex_file = method->GetDexFile(); |
| const uint16_t class_def_idx = method->GetClassDefIndex(); |
| const DexFile::CodeItem* code_item = dex_file->GetCodeItem(method->GetCodeItemOffset()); |
| const uint32_t method_idx = method->GetDexMethodIndex(); |
| const uint32_t access_flags = method->GetAccessFlags(); |
| const InvokeType invoke_type = method->GetInvokeType(); |
| |
| ArenaAllocator arena(Runtime::Current()->GetJitArenaPool()); |
| CodeVectorAllocator code_allocator(&arena); |
| VariableSizedHandleScope handles(self); |
| |
| std::unique_ptr<CodeGenerator> codegen; |
| { |
| // Go to native so that we don't block GC during compilation. |
| ScopedThreadSuspension sts(self, kNative); |
| codegen.reset( |
| TryCompile(&arena, |
| &code_allocator, |
| code_item, |
| access_flags, |
| invoke_type, |
| class_def_idx, |
| method_idx, |
| class_loader, |
| *dex_file, |
| dex_cache, |
| method, |
| osr, |
| &handles)); |
| if (codegen.get() == nullptr) { |
| return false; |
| } |
| |
| if (kArenaAllocatorCountAllocations) { |
| if (arena.BytesAllocated() > kArenaAllocatorMemoryReportThreshold) { |
| MemStats mem_stats(arena.GetMemStats()); |
| LOG(INFO) << dex_file->PrettyMethod(method_idx) << " " << Dumpable<MemStats>(mem_stats); |
| } |
| } |
| } |
| |
| size_t stack_map_size = 0; |
| size_t method_info_size = 0; |
| codegen->ComputeStackMapAndMethodInfoSize(&stack_map_size, &method_info_size); |
| size_t number_of_roots = codegen->GetNumberOfJitRoots(); |
| ClassLinker* class_linker = Runtime::Current()->GetClassLinker(); |
| // We allocate an object array to ensure the JIT roots that we will collect in EmitJitRoots |
| // will be visible by the GC between EmitLiterals and CommitCode. Once CommitCode is |
| // executed, this array is not needed. |
| Handle<mirror::ObjectArray<mirror::Object>> roots( |
| hs.NewHandle(mirror::ObjectArray<mirror::Object>::Alloc( |
| self, class_linker->GetClassRoot(ClassLinker::kObjectArrayClass), number_of_roots))); |
| if (roots == nullptr) { |
| // Out of memory, just clear the exception to avoid any Java exception uncaught problems. |
| DCHECK(self->IsExceptionPending()); |
| self->ClearException(); |
| return false; |
| } |
| uint8_t* stack_map_data = nullptr; |
| uint8_t* method_info_data = nullptr; |
| uint8_t* roots_data = nullptr; |
| uint32_t data_size = code_cache->ReserveData(self, |
| stack_map_size, |
| method_info_size, |
| number_of_roots, |
| method, |
| &stack_map_data, |
| &method_info_data, |
| &roots_data); |
| if (stack_map_data == nullptr || roots_data == nullptr) { |
| return false; |
| } |
| MaybeRecordStat(MethodCompilationStat::kCompiled); |
| codegen->BuildStackMaps(MemoryRegion(stack_map_data, stack_map_size), |
| MemoryRegion(method_info_data, method_info_size), |
| *code_item); |
| codegen->EmitJitRoots(code_allocator.GetData(), roots, roots_data); |
| |
| const void* code = code_cache->CommitCode( |
| self, |
| method, |
| stack_map_data, |
| method_info_data, |
| roots_data, |
| codegen->HasEmptyFrame() ? 0 : codegen->GetFrameSize(), |
| codegen->GetCoreSpillMask(), |
| codegen->GetFpuSpillMask(), |
| code_allocator.GetMemory().data(), |
| code_allocator.GetSize(), |
| data_size, |
| osr, |
| roots, |
| codegen->GetGraph()->HasShouldDeoptimizeFlag(), |
| codegen->GetGraph()->GetCHASingleImplementationList()); |
| |
| if (code == nullptr) { |
| code_cache->ClearData(self, stack_map_data, roots_data); |
| return false; |
| } |
| |
| const CompilerOptions& compiler_options = GetCompilerDriver()->GetCompilerOptions(); |
| if (compiler_options.GetGenerateDebugInfo()) { |
| const auto* method_header = reinterpret_cast<const OatQuickMethodHeader*>(code); |
| const uintptr_t code_address = reinterpret_cast<uintptr_t>(method_header->GetCode()); |
| debug::MethodDebugInfo info = debug::MethodDebugInfo(); |
| info.trampoline_name = nullptr; |
| info.dex_file = dex_file; |
| info.class_def_index = class_def_idx; |
| info.dex_method_index = method_idx; |
| info.access_flags = access_flags; |
| info.code_item = code_item; |
| info.isa = codegen->GetInstructionSet(); |
| info.deduped = false; |
| info.is_native_debuggable = compiler_options.GetNativeDebuggable(); |
| info.is_optimized = true; |
| info.is_code_address_text_relative = false; |
| info.code_address = code_address; |
| info.code_size = code_allocator.GetSize(); |
| info.frame_size_in_bytes = method_header->GetFrameSizeInBytes(); |
| info.code_info = stack_map_size == 0 ? nullptr : stack_map_data; |
| info.cfi = ArrayRef<const uint8_t>(*codegen->GetAssembler()->cfi().data()); |
| std::vector<uint8_t> elf_file = debug::WriteDebugElfFileForMethods( |
| GetCompilerDriver()->GetInstructionSet(), |
| GetCompilerDriver()->GetInstructionSetFeatures(), |
| ArrayRef<const debug::MethodDebugInfo>(&info, 1)); |
| CreateJITCodeEntryForAddress(code_address, std::move(elf_file)); |
| } |
| |
| Runtime::Current()->GetJit()->AddMemoryUsage(method, arena.BytesUsed()); |
| |
| return true; |
| } |
| |
| } // namespace art |