optimizing_compiler.cc revision 827eedbfa882496407375f22b08243a38a5bd53b
1b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray/* 2b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray * Copyright (C) 2014 The Android Open Source Project 3b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray * 4b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray * Licensed under the Apache License, Version 2.0 (the "License"); 5b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray * you may not use this file except in compliance with the License. 6b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray * You may obtain a copy of the License at 7b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray * 8b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray * http://www.apache.org/licenses/LICENSE-2.0 9b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray * 10b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray * Unless required by applicable law or agreed to in writing, software 11b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray * distributed under the License is distributed on an "AS IS" BASIS, 12b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray * See the License for the specific language governing permissions and 14b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray * limitations under the License. 15b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray */ 16b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray 1753c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe#include "optimizing_compiler.h" 1853c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 19f635e63318447ca04731b265a86a573c9ed1737cNicolas Geoffray#include <fstream> 20787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray#include <stdint.h> 21787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray 22f384f88d4d1e89df82f47fbc7245a8acc9c2d49cMingyao Yang#include "bounds_check_elimination.h" 23787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray#include "builder.h" 24787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray#include "code_generator.h" 2553c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe#include "compiler.h" 2675be28332b278cff9039b54bfb228ac72f539cccRoland Levillain#include "constant_folding.h" 2775be28332b278cff9039b54bfb228ac72f539cccRoland Levillain#include "dead_code_elimination.h" 2871fb52fee246b7d511f520febbd73dc7a9bbca79Andreas Gampe#include "dex/quick/dex_file_to_method_inliner_map.h" 29787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray#include "driver/compiler_driver.h" 3092cf83e001357329cbf41fa15a6e053fab6f4933Nicolas Geoffray#include "driver/dex_compilation_unit.h" 31e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray#include "elf_writer_quick.h" 32f635e63318447ca04731b265a86a573c9ed1737cNicolas Geoffray#include "graph_visualizer.h" 33d31cf3d55a0847c018c4eaa2b349b8eea509de64Nicolas Geoffray#include "gvn.h" 34e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray#include "inliner.h" 353c04974a90b0e03f4b509010bff49f0b2a3da57fNicolas Geoffray#include "instruction_simplifier.h" 3671fb52fee246b7d511f520febbd73dc7a9bbca79Andreas Gampe#include "intrinsics.h" 37e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray#include "jni/quick/jni_compiler.h" 38e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray#include "mirror/art_method-inl.h" 39787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray#include "nodes.h" 4026a25ef62a13f409f941aa39825a51b4d6f0f047Nicolas Geoffray#include "prepare_for_register_allocation.h" 41a7062e05e6048c7f817d784a5b94e3122e25b1ecNicolas Geoffray#include "register_allocator.h" 42827eedbfa882496407375f22b08243a38a5bd53bNicolas Geoffray#include "side_effects_analysis.h" 433159674c0863f53cfbc1913d493550221ac47f02Nicolas Geoffray#include "ssa_builder.h" 447dc206a53a42a658f52d5cb0b7e79b47da370c9bNicolas Geoffray#include "ssa_phi_elimination.h" 45804d09372cc3d80d537da1489da4a45e0e19aa5dNicolas Geoffray#include "ssa_liveness_analysis.h" 46787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray#include "utils/arena_allocator.h" 47b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray 48b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffraynamespace art { 49b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray 50787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray/** 51787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray * Used by the code generator, to allocate the code in a vector. 52787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray */ 53787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffrayclass CodeVectorAllocator FINAL : public CodeAllocator { 54787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray public: 5588157efc1e16707d4ae10775d4acb15121c50fe7Nicolas Geoffray CodeVectorAllocator() {} 56787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray 57787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray virtual uint8_t* Allocate(size_t size) { 58787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray size_ = size; 5992cf83e001357329cbf41fa15a6e053fab6f4933Nicolas Geoffray memory_.resize(size); 60787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray return &memory_[0]; 61787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray } 62787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray 63787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray size_t GetSize() const { return size_; } 6492cf83e001357329cbf41fa15a6e053fab6f4933Nicolas Geoffray const std::vector<uint8_t>& GetMemory() const { return memory_; } 65787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray 66787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray private: 67787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray std::vector<uint8_t> memory_; 68787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray size_t size_; 69787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray 70787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray DISALLOW_COPY_AND_ASSIGN(CodeVectorAllocator); 71787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray}; 72787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray 73f635e63318447ca04731b265a86a573c9ed1737cNicolas Geoffray/** 74f635e63318447ca04731b265a86a573c9ed1737cNicolas Geoffray * Filter to apply to the visualizer. Methods whose name contain that filter will 75ee690a3dd364c025ebc1767d9f84097bb7473eecDavid Brazdil * be dumped. 76f635e63318447ca04731b265a86a573c9ed1737cNicolas Geoffray */ 77f635e63318447ca04731b265a86a573c9ed1737cNicolas Geoffraystatic const char* kStringFilter = ""; 78f635e63318447ca04731b265a86a573c9ed1737cNicolas Geoffray 7953c913bb71b218714823c8c87a1f92830c336f61Andreas Gampeclass OptimizingCompiler FINAL : public Compiler { 8053c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe public: 8153c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe explicit OptimizingCompiler(CompilerDriver* driver); 8288157efc1e16707d4ae10775d4acb15121c50fe7Nicolas Geoffray ~OptimizingCompiler(); 8353c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 8453c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe bool CanCompileMethod(uint32_t method_idx, const DexFile& dex_file, CompilationUnit* cu) const 8553c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe OVERRIDE; 8653c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 8753c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe CompiledMethod* Compile(const DexFile::CodeItem* code_item, 8853c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe uint32_t access_flags, 8953c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe InvokeType invoke_type, 9053c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe uint16_t class_def_idx, 9153c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe uint32_t method_idx, 9253c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe jobject class_loader, 9353c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe const DexFile& dex_file) const OVERRIDE; 9453c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 9553c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe CompiledMethod* JniCompile(uint32_t access_flags, 9653c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe uint32_t method_idx, 9753c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe const DexFile& dex_file) const OVERRIDE; 9853c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 9953c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe uintptr_t GetEntryPointOf(mirror::ArtMethod* method) const OVERRIDE 10053c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe SHARED_LOCKS_REQUIRED(Locks::mutator_lock_); 10153c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 10253c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe bool WriteElf(art::File* file, 10353c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe OatWriter* oat_writer, 10453c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe const std::vector<const art::DexFile*>& dex_files, 10553c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe const std::string& android_root, 10653c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe bool is_host) const OVERRIDE SHARED_LOCKS_REQUIRED(Locks::mutator_lock_); 10753c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 108e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray Backend* GetCodeGenerator(CompilationUnit* cu ATTRIBUTE_UNUSED, 109e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray void* compilation_unit ATTRIBUTE_UNUSED) const OVERRIDE { 110e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray return nullptr; 111e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray } 11253c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 113e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray void InitCompilationUnit(CompilationUnit& cu ATTRIBUTE_UNUSED) const OVERRIDE {} 11453c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 115ee690a3dd364c025ebc1767d9f84097bb7473eecDavid Brazdil void Init() OVERRIDE; 11653c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 117e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray void UnInit() const OVERRIDE {} 11853c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 11953c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe private: 12088157efc1e16707d4ae10775d4acb15121c50fe7Nicolas Geoffray // Whether we should run any optimization or register allocation. If false, will 12188157efc1e16707d4ae10775d4acb15121c50fe7Nicolas Geoffray // just run the code generation after the graph was built. 12288157efc1e16707d4ae10775d4acb15121c50fe7Nicolas Geoffray const bool run_optimizations_; 12348c2b03965830c73cdddeae8aea8030f08430137Calin Juravle 12412df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray // Optimize and compile `graph`. 12512df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray CompiledMethod* CompileOptimized(HGraph* graph, 12612df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray CodeGenerator* codegen, 12712df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray CompilerDriver* driver, 12812df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray const DexCompilationUnit& dex_compilation_unit, 12912df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray const HGraphVisualizer& visualizer) const; 13012df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray 13112df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray // Just compile without doing optimizations. 13212df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray CompiledMethod* CompileBaseline(CodeGenerator* codegen, 13312df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray CompilerDriver* driver, 13412df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray const DexCompilationUnit& dex_compilation_unit) const; 13512df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray 13648c2b03965830c73cdddeae8aea8030f08430137Calin Juravle mutable OptimizingCompilerStats compilation_stats_; 13788157efc1e16707d4ae10775d4acb15121c50fe7Nicolas Geoffray 13853c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe std::unique_ptr<std::ostream> visualizer_output_; 13953c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 14053c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe DISALLOW_COPY_AND_ASSIGN(OptimizingCompiler); 14153c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe}; 14253c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 14388157efc1e16707d4ae10775d4acb15121c50fe7Nicolas Geoffraystatic const int kMaximumCompilationTimeBeforeWarning = 100; /* ms */ 14488157efc1e16707d4ae10775d4acb15121c50fe7Nicolas Geoffray 14588157efc1e16707d4ae10775d4acb15121c50fe7Nicolas GeoffrayOptimizingCompiler::OptimizingCompiler(CompilerDriver* driver) 14688157efc1e16707d4ae10775d4acb15121c50fe7Nicolas Geoffray : Compiler(driver, kMaximumCompilationTimeBeforeWarning), 14788157efc1e16707d4ae10775d4acb15121c50fe7Nicolas Geoffray run_optimizations_( 14888157efc1e16707d4ae10775d4acb15121c50fe7Nicolas Geoffray driver->GetCompilerOptions().GetCompilerFilter() != CompilerOptions::kTime), 149ee690a3dd364c025ebc1767d9f84097bb7473eecDavid Brazdil compilation_stats_() {} 150ee690a3dd364c025ebc1767d9f84097bb7473eecDavid Brazdil 151ee690a3dd364c025ebc1767d9f84097bb7473eecDavid Brazdilvoid OptimizingCompiler::Init() { 152ee690a3dd364c025ebc1767d9f84097bb7473eecDavid Brazdil // Enable C1visualizer output. Must be done in Init() because the compiler 153ee690a3dd364c025ebc1767d9f84097bb7473eecDavid Brazdil // driver is not fully initialized when passed to the compiler's constructor. 154ee690a3dd364c025ebc1767d9f84097bb7473eecDavid Brazdil CompilerDriver* driver = GetCompilerDriver(); 155866c03125a3fcd74c9fff04da87865f5eb1767d9David Brazdil const std::string cfg_file_name = driver->GetDumpCfgFileName(); 156866c03125a3fcd74c9fff04da87865f5eb1767d9David Brazdil if (!cfg_file_name.empty()) { 157ee690a3dd364c025ebc1767d9f84097bb7473eecDavid Brazdil CHECK_EQ(driver->GetThreadCount(), 1U) 158ee690a3dd364c025ebc1767d9f84097bb7473eecDavid Brazdil << "Graph visualizer requires the compiler to run single-threaded. " 159ee690a3dd364c025ebc1767d9f84097bb7473eecDavid Brazdil << "Invoke the compiler with '-j1'."; 160866c03125a3fcd74c9fff04da87865f5eb1767d9David Brazdil visualizer_output_.reset(new std::ofstream(cfg_file_name)); 161f635e63318447ca04731b265a86a573c9ed1737cNicolas Geoffray } 162f635e63318447ca04731b265a86a573c9ed1737cNicolas Geoffray} 163787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray 16488157efc1e16707d4ae10775d4acb15121c50fe7Nicolas GeoffrayOptimizingCompiler::~OptimizingCompiler() { 16548c2b03965830c73cdddeae8aea8030f08430137Calin Juravle compilation_stats_.Log(); 16688157efc1e16707d4ae10775d4acb15121c50fe7Nicolas Geoffray} 16788157efc1e16707d4ae10775d4acb15121c50fe7Nicolas Geoffray 168e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffraybool OptimizingCompiler::CanCompileMethod(uint32_t method_idx ATTRIBUTE_UNUSED, 169e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray const DexFile& dex_file ATTRIBUTE_UNUSED, 170e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray CompilationUnit* cu ATTRIBUTE_UNUSED) const { 171e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray return true; 17253c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe} 17353c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 17453c913bb71b218714823c8c87a1f92830c336f61Andreas GampeCompiledMethod* OptimizingCompiler::JniCompile(uint32_t access_flags, 17553c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe uint32_t method_idx, 17653c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe const DexFile& dex_file) const { 177e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray return ArtQuickJniCompileMethod(GetCompilerDriver(), access_flags, method_idx, dex_file); 17853c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe} 17953c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 18053c913bb71b218714823c8c87a1f92830c336f61Andreas Gampeuintptr_t OptimizingCompiler::GetEntryPointOf(mirror::ArtMethod* method) const { 1814179cc148734fbda4677846369ae4a4db68677bfNicolas Geoffray return reinterpret_cast<uintptr_t>(method->GetEntryPointFromQuickCompiledCodePtrSize( 1824179cc148734fbda4677846369ae4a4db68677bfNicolas Geoffray InstructionSetPointerSize(GetCompilerDriver()->GetInstructionSet()))); 18353c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe} 18453c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 18553c913bb71b218714823c8c87a1f92830c336f61Andreas Gampebool OptimizingCompiler::WriteElf(art::File* file, OatWriter* oat_writer, 18653c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe const std::vector<const art::DexFile*>& dex_files, 18753c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe const std::string& android_root, bool is_host) const { 188e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray return art::ElfWriterQuick32::Create(file, oat_writer, dex_files, android_root, is_host, 189e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray *GetCompilerDriver()); 19053c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe} 19153c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 1921ba0f596e9e4ddd778ab431237d11baa85594ebaNicolas Geoffraystatic bool IsInstructionSetSupported(InstructionSet instruction_set) { 1931ba0f596e9e4ddd778ab431237d11baa85594ebaNicolas Geoffray return instruction_set == kArm64 1941ba0f596e9e4ddd778ab431237d11baa85594ebaNicolas Geoffray || (instruction_set == kThumb2 && !kArm32QuickCodeUseSoftFloat) 1951ba0f596e9e4ddd778ab431237d11baa85594ebaNicolas Geoffray || instruction_set == kX86 1961ba0f596e9e4ddd778ab431237d11baa85594ebaNicolas Geoffray || instruction_set == kX86_64; 1971ba0f596e9e4ddd778ab431237d11baa85594ebaNicolas Geoffray} 1981ba0f596e9e4ddd778ab431237d11baa85594ebaNicolas Geoffray 199de58ab2c03ff8112b07ab827c8fa38f670dfc656Nicolas Geoffraystatic bool CanOptimize(const DexFile::CodeItem& code_item) { 200de58ab2c03ff8112b07ab827c8fa38f670dfc656Nicolas Geoffray // TODO: We currently cannot optimize methods with try/catch. 201de58ab2c03ff8112b07ab827c8fa38f670dfc656Nicolas Geoffray return code_item.tries_size_ == 0; 202de58ab2c03ff8112b07ab827c8fa38f670dfc656Nicolas Geoffray} 203de58ab2c03ff8112b07ab827c8fa38f670dfc656Nicolas Geoffray 204e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffraystatic void RunOptimizations(HGraph* graph, 205e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray CompilerDriver* driver, 206e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray OptimizingCompilerStats* stats, 207e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray const DexCompilationUnit& dex_compilation_unit, 208e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray const HGraphVisualizer& visualizer) { 209e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray SsaRedundantPhiElimination redundant_phi(graph); 210e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray SsaDeadPhiElimination dead_phi(graph); 211e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray HDeadCodeElimination dce(graph); 2129ee66183d8e046ea661f642ba884626f16b46e06Nicolas Geoffray HConstantFolding fold1(graph); 213e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray InstructionSimplifier simplify1(graph); 214e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray 215e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray HInliner inliner(graph, dex_compilation_unit, driver, stats); 216e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray 2179ee66183d8e046ea661f642ba884626f16b46e06Nicolas Geoffray HConstantFolding fold2(graph); 21886dde1658a1951c251dd5c6ff21ecc5c281879a6Nicolas Geoffray SideEffectsAnalysis side_effects(graph); 21986dde1658a1951c251dd5c6ff21ecc5c281879a6Nicolas Geoffray GVNOptimization gvn(graph, side_effects); 220f384f88d4d1e89df82f47fbc7245a8acc9c2d49cMingyao Yang BoundsCheckElimination bce(graph); 221e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray InstructionSimplifier simplify2(graph); 2225e6916cea259897baaca019c5c7a5d05746306edNicolas Geoffray 22371fb52fee246b7d511f520febbd73dc7a9bbca79Andreas Gampe IntrinsicsRecognizer intrinsics(graph, dex_compilation_unit.GetDexFile(), driver); 22471fb52fee246b7d511f520febbd73dc7a9bbca79Andreas Gampe 2253159674c0863f53cfbc1913d493550221ac47f02Nicolas Geoffray HOptimization* optimizations[] = { 226e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray &redundant_phi, 227e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray &dead_phi, 22871fb52fee246b7d511f520febbd73dc7a9bbca79Andreas Gampe &intrinsics, 229e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray &dce, 2309ee66183d8e046ea661f642ba884626f16b46e06Nicolas Geoffray &fold1, 231e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray &simplify1, 232e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray &inliner, 2339ee66183d8e046ea661f642ba884626f16b46e06Nicolas Geoffray &fold2, 23486dde1658a1951c251dd5c6ff21ecc5c281879a6Nicolas Geoffray &side_effects, 235e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray &gvn, 236f384f88d4d1e89df82f47fbc7245a8acc9c2d49cMingyao Yang &bce, 237e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray &simplify2 2383159674c0863f53cfbc1913d493550221ac47f02Nicolas Geoffray }; 2395e6916cea259897baaca019c5c7a5d05746306edNicolas Geoffray 2405e6916cea259897baaca019c5c7a5d05746306edNicolas Geoffray for (size_t i = 0; i < arraysize(optimizations); ++i) { 2415e6916cea259897baaca019c5c7a5d05746306edNicolas Geoffray HOptimization* optimization = optimizations[i]; 242ee690a3dd364c025ebc1767d9f84097bb7473eecDavid Brazdil visualizer.DumpGraph(optimization->GetPassName(), /*is_after=*/false); 2435e6916cea259897baaca019c5c7a5d05746306edNicolas Geoffray optimization->Run(); 244ee690a3dd364c025ebc1767d9f84097bb7473eecDavid Brazdil visualizer.DumpGraph(optimization->GetPassName(), /*is_after=*/true); 2453159674c0863f53cfbc1913d493550221ac47f02Nicolas Geoffray optimization->Check(); 2465e6916cea259897baaca019c5c7a5d05746306edNicolas Geoffray } 2475e6916cea259897baaca019c5c7a5d05746306edNicolas Geoffray} 2485e6916cea259897baaca019c5c7a5d05746306edNicolas Geoffray 249376b2bbf7c39108223a7a01568a7b4b04d84eeacNicolas Geoffray// The stack map we generate must be 4-byte aligned on ARM. Since existing 250376b2bbf7c39108223a7a01568a7b4b04d84eeacNicolas Geoffray// maps are generated alongside these stack maps, we must also align them. 251e21dc3db191df04c100620965bee4617b3b24397Andreas Gampestatic ArrayRef<const uint8_t> AlignVectorSize(std::vector<uint8_t>& vector) { 252376b2bbf7c39108223a7a01568a7b4b04d84eeacNicolas Geoffray size_t size = vector.size(); 253376b2bbf7c39108223a7a01568a7b4b04d84eeacNicolas Geoffray size_t aligned_size = RoundUp(size, 4); 254376b2bbf7c39108223a7a01568a7b4b04d84eeacNicolas Geoffray for (; size < aligned_size; ++size) { 255376b2bbf7c39108223a7a01568a7b4b04d84eeacNicolas Geoffray vector.push_back(0); 256376b2bbf7c39108223a7a01568a7b4b04d84eeacNicolas Geoffray } 257e21dc3db191df04c100620965bee4617b3b24397Andreas Gampe return ArrayRef<const uint8_t>(vector); 258376b2bbf7c39108223a7a01568a7b4b04d84eeacNicolas Geoffray} 259376b2bbf7c39108223a7a01568a7b4b04d84eeacNicolas Geoffray 26012df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray 26112df9ebf72255544b0147c81b1dca6644a29764eNicolas GeoffrayCompiledMethod* OptimizingCompiler::CompileOptimized(HGraph* graph, 26212df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray CodeGenerator* codegen, 26312df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray CompilerDriver* compiler_driver, 26412df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray const DexCompilationUnit& dex_compilation_unit, 26512df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray const HGraphVisualizer& visualizer) const { 26612df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray RunOptimizations( 26712df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray graph, compiler_driver, &compilation_stats_, dex_compilation_unit, visualizer); 26812df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray 26912df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray PrepareForRegisterAllocation(graph).Run(); 27012df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray SsaLivenessAnalysis liveness(*graph, codegen); 27112df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray liveness.Analyze(); 27212df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray visualizer.DumpGraph(kLivenessPassName); 27312df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray 27412df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray RegisterAllocator register_allocator(graph->GetArena(), codegen, liveness); 27512df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray register_allocator.AllocateRegisters(); 27612df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray visualizer.DumpGraph(kRegisterAllocatorPassName); 27712df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray 27812df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray CodeVectorAllocator allocator; 27912df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray codegen->CompileOptimized(&allocator); 28012df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray 28112df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray std::vector<uint8_t> stack_map; 28212df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray codegen->BuildStackMaps(&stack_map); 28312df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray 28412df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray compilation_stats_.RecordStat(MethodCompilationStat::kCompiledOptimized); 28512df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray 28612df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray return CompiledMethod::SwapAllocCompiledMethodStackMap( 28712df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray compiler_driver, 28812df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray codegen->GetInstructionSet(), 28912df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray ArrayRef<const uint8_t>(allocator.GetMemory()), 29012df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray codegen->GetFrameSize(), 29112df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray codegen->GetCoreSpillMask(), 292d97dc40d186aec46bfd318b6a2026a98241d7e9cNicolas Geoffray codegen->GetFpuSpillMask(), 29312df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray ArrayRef<const uint8_t>(stack_map)); 29412df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray} 29512df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray 29612df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray 29712df9ebf72255544b0147c81b1dca6644a29764eNicolas GeoffrayCompiledMethod* OptimizingCompiler::CompileBaseline( 29812df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray CodeGenerator* codegen, 29912df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray CompilerDriver* compiler_driver, 30012df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray const DexCompilationUnit& dex_compilation_unit) const { 30112df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray CodeVectorAllocator allocator; 30212df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray codegen->CompileBaseline(&allocator); 30312df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray 30412df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray std::vector<uint8_t> mapping_table; 30512df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray DefaultSrcMap src_mapping_table; 30612df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray bool include_debug_symbol = compiler_driver->GetCompilerOptions().GetIncludeDebugSymbols(); 30712df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray codegen->BuildMappingTable(&mapping_table, include_debug_symbol ? &src_mapping_table : nullptr); 30812df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray std::vector<uint8_t> vmap_table; 30912df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray codegen->BuildVMapTable(&vmap_table); 31012df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray std::vector<uint8_t> gc_map; 31112df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray codegen->BuildNativeGCMap(&gc_map, dex_compilation_unit); 31212df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray 31312df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray compilation_stats_.RecordStat(MethodCompilationStat::kCompiledBaseline); 31412df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray return CompiledMethod::SwapAllocCompiledMethod(compiler_driver, 31512df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray codegen->GetInstructionSet(), 31612df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray ArrayRef<const uint8_t>(allocator.GetMemory()), 31712df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray codegen->GetFrameSize(), 31812df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray codegen->GetCoreSpillMask(), 319d97dc40d186aec46bfd318b6a2026a98241d7e9cNicolas Geoffray codegen->GetFpuSpillMask(), 32012df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray &src_mapping_table, 32112df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray AlignVectorSize(mapping_table), 32212df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray AlignVectorSize(vmap_table), 32312df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray AlignVectorSize(gc_map), 32412df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray ArrayRef<const uint8_t>()); 32512df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray} 32612df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray 327e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas GeoffrayCompiledMethod* OptimizingCompiler::Compile(const DexFile::CodeItem* code_item, 328e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray uint32_t access_flags, 329e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray InvokeType invoke_type, 330e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray uint16_t class_def_idx, 331e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray uint32_t method_idx, 332e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray jobject class_loader, 333e2dc6fa7aa319ee892d6ed407c986c5a3ec3dcd7Nicolas Geoffray const DexFile& dex_file) const { 3346a3c1fcb4ba42ad4d5d142c17a3712a6ddd3866fIan Rogers UNUSED(invoke_type); 33548c2b03965830c73cdddeae8aea8030f08430137Calin Juravle compilation_stats_.RecordStat(MethodCompilationStat::kAttemptCompilation); 336cd6dffedf1bd8e6dfb3fb0c933551f9a90f7de3fCalin Juravle CompilerDriver* compiler_driver = GetCompilerDriver(); 337cd6dffedf1bd8e6dfb3fb0c933551f9a90f7de3fCalin Juravle InstructionSet instruction_set = compiler_driver->GetInstructionSet(); 3388d486731559ba0c5e12c27b4a507181333702b7eNicolas Geoffray // Always use the thumb2 assembler: some runtime functionality (like implicit stack 3398d486731559ba0c5e12c27b4a507181333702b7eNicolas Geoffray // overflow checks) assume thumb2. 3408d486731559ba0c5e12c27b4a507181333702b7eNicolas Geoffray if (instruction_set == kArm) { 3418d486731559ba0c5e12c27b4a507181333702b7eNicolas Geoffray instruction_set = kThumb2; 3428fb5ce3a7e1dec587642f900be86729c10224174Nicolas Geoffray } 3438fb5ce3a7e1dec587642f900be86729c10224174Nicolas Geoffray 3448fb5ce3a7e1dec587642f900be86729c10224174Nicolas Geoffray // Do not attempt to compile on architectures we do not support. 3451ba0f596e9e4ddd778ab431237d11baa85594ebaNicolas Geoffray if (!IsInstructionSetSupported(instruction_set)) { 34648c2b03965830c73cdddeae8aea8030f08430137Calin Juravle compilation_stats_.RecordStat(MethodCompilationStat::kNotCompiledUnsupportedIsa); 3478fb5ce3a7e1dec587642f900be86729c10224174Nicolas Geoffray return nullptr; 3488fb5ce3a7e1dec587642f900be86729c10224174Nicolas Geoffray } 3498fb5ce3a7e1dec587642f900be86729c10224174Nicolas Geoffray 350b5f62b3dc5ac2731ba8ad53cdf3d9bdb14fbf86bNicolas Geoffray if (Compiler::IsPathologicalCase(*code_item, method_idx, dex_file)) { 35148c2b03965830c73cdddeae8aea8030f08430137Calin Juravle compilation_stats_.RecordStat(MethodCompilationStat::kNotCompiledPathological); 352b5f62b3dc5ac2731ba8ad53cdf3d9bdb14fbf86bNicolas Geoffray return nullptr; 353b5f62b3dc5ac2731ba8ad53cdf3d9bdb14fbf86bNicolas Geoffray } 354b5f62b3dc5ac2731ba8ad53cdf3d9bdb14fbf86bNicolas Geoffray 35592cf83e001357329cbf41fa15a6e053fab6f4933Nicolas Geoffray DexCompilationUnit dex_compilation_unit( 35692cf83e001357329cbf41fa15a6e053fab6f4933Nicolas Geoffray nullptr, class_loader, art::Runtime::Current()->GetClassLinker(), dex_file, code_item, 35772d32629303f8f39362a4099481f48646aed042fIan Rogers class_def_idx, method_idx, access_flags, 358cd6dffedf1bd8e6dfb3fb0c933551f9a90f7de3fCalin Juravle compiler_driver->GetVerifiedMethod(&dex_file, method_idx)); 35992cf83e001357329cbf41fa15a6e053fab6f4933Nicolas Geoffray 360e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray std::string method_name = PrettyMethod(method_idx, dex_file); 361e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray 3628ccc3f5d06fd217cdaabd37e743adab2031d3720Nicolas Geoffray // For testing purposes, we put a special marker on method names that should be compiled 3638ccc3f5d06fd217cdaabd37e743adab2031d3720Nicolas Geoffray // with this compiler. This makes sure we're not regressing. 364e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray bool shouldCompile = method_name.find("$opt$") != std::string::npos; 365e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray bool shouldOptimize = method_name.find("$opt$reg$") != std::string::npos; 3668ccc3f5d06fd217cdaabd37e743adab2031d3720Nicolas Geoffray 367787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray ArenaPool pool; 368787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray ArenaAllocator arena(&pool); 36948c2b03965830c73cdddeae8aea8030f08430137Calin Juravle HGraphBuilder builder(&arena, 37048c2b03965830c73cdddeae8aea8030f08430137Calin Juravle &dex_compilation_unit, 371e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray &dex_compilation_unit, 372e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray &dex_file, 373cd6dffedf1bd8e6dfb3fb0c933551f9a90f7de3fCalin Juravle compiler_driver, 37448c2b03965830c73cdddeae8aea8030f08430137Calin Juravle &compilation_stats_); 375f635e63318447ca04731b265a86a573c9ed1737cNicolas Geoffray 376e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray VLOG(compiler) << "Building " << PrettyMethod(method_idx, dex_file); 377787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray HGraph* graph = builder.BuildGraph(*code_item); 378787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray if (graph == nullptr) { 3795667fdbb6e441dee7534ade18b628ed396daf593Zheng Xu CHECK(!shouldCompile) << "Could not build graph in optimizing compiler"; 380787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray return nullptr; 381787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray } 382787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray 38312df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray std::unique_ptr<CodeGenerator> codegen( 384cd6dffedf1bd8e6dfb3fb0c933551f9a90f7de3fCalin Juravle CodeGenerator::Create(graph, 385cd6dffedf1bd8e6dfb3fb0c933551f9a90f7de3fCalin Juravle instruction_set, 386cd6dffedf1bd8e6dfb3fb0c933551f9a90f7de3fCalin Juravle *compiler_driver->GetInstructionSetFeatures(), 387cd6dffedf1bd8e6dfb3fb0c933551f9a90f7de3fCalin Juravle compiler_driver->GetCompilerOptions())); 38812df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray if (codegen.get() == nullptr) { 3895667fdbb6e441dee7534ade18b628ed396daf593Zheng Xu CHECK(!shouldCompile) << "Could not find code generator for optimizing compiler"; 39048c2b03965830c73cdddeae8aea8030f08430137Calin Juravle compilation_stats_.RecordStat(MethodCompilationStat::kNotCompiledNoCodegen); 391787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray return nullptr; 392787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray } 393787c3076635cf117eb646c5a89a9014b2072fb44Nicolas Geoffray 394a7062e05e6048c7f817d784a5b94e3122e25b1ecNicolas Geoffray HGraphVisualizer visualizer( 39512df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray visualizer_output_.get(), graph, kStringFilter, *codegen.get(), method_name.c_str()); 396a7062e05e6048c7f817d784a5b94e3122e25b1ecNicolas Geoffray visualizer.DumpGraph("builder"); 397a7062e05e6048c7f817d784a5b94e3122e25b1ecNicolas Geoffray 39848c2b03965830c73cdddeae8aea8030f08430137Calin Juravle bool can_optimize = CanOptimize(*code_item); 39948c2b03965830c73cdddeae8aea8030f08430137Calin Juravle bool can_allocate_registers = RegisterAllocator::CanAllocateRegistersFor(*graph, instruction_set); 40012df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray CompiledMethod* result = nullptr; 40148c2b03965830c73cdddeae8aea8030f08430137Calin Juravle if (run_optimizations_ && can_optimize && can_allocate_registers) { 40243a539f780af20a1854bca81c3d4835a585f0620Nicolas Geoffray VLOG(compiler) << "Optimizing " << PrettyMethod(method_idx, dex_file); 403e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray if (!graph->TryBuildingSsa()) { 404e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray LOG(INFO) << "Skipping compilation of " 405e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray << PrettyMethod(method_idx, dex_file) 406e53798a7e3267305f696bf658e418c92e63e0834Nicolas Geoffray << ": it contains a non natural loop"; 407f537012ceb6cba8a78b36a5065beb9588451a250Nicolas Geoffray // We could not transform the graph to SSA, bailout. 40848c2b03965830c73cdddeae8aea8030f08430137Calin Juravle compilation_stats_.RecordStat(MethodCompilationStat::kNotCompiledCannotBuildSSA); 40912df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray } else { 41012df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray result = CompileOptimized(graph, codegen.get(), compiler_driver, dex_compilation_unit, visualizer); 411f537012ceb6cba8a78b36a5065beb9588451a250Nicolas Geoffray } 41286dbb9a12119273039ce272b41c809fa548b37b6Nicolas Geoffray } else if (shouldOptimize && RegisterAllocator::Supports(instruction_set)) { 41386dbb9a12119273039ce272b41c809fa548b37b6Nicolas Geoffray LOG(FATAL) << "Could not allocate registers in optimizing compiler"; 4145667fdbb6e441dee7534ade18b628ed396daf593Zheng Xu UNREACHABLE(); 41586dbb9a12119273039ce272b41c809fa548b37b6Nicolas Geoffray } else { 41643a539f780af20a1854bca81c3d4835a585f0620Nicolas Geoffray VLOG(compiler) << "Compile baseline " << PrettyMethod(method_idx, dex_file); 41748c2b03965830c73cdddeae8aea8030f08430137Calin Juravle 41848c2b03965830c73cdddeae8aea8030f08430137Calin Juravle if (!run_optimizations_) { 41948c2b03965830c73cdddeae8aea8030f08430137Calin Juravle compilation_stats_.RecordStat(MethodCompilationStat::kNotOptimizedDisabled); 42048c2b03965830c73cdddeae8aea8030f08430137Calin Juravle } else if (!can_optimize) { 42148c2b03965830c73cdddeae8aea8030f08430137Calin Juravle compilation_stats_.RecordStat(MethodCompilationStat::kNotOptimizedTryCatch); 42248c2b03965830c73cdddeae8aea8030f08430137Calin Juravle } else if (!can_allocate_registers) { 42348c2b03965830c73cdddeae8aea8030f08430137Calin Juravle compilation_stats_.RecordStat(MethodCompilationStat::kNotOptimizedRegisterAllocator); 42448c2b03965830c73cdddeae8aea8030f08430137Calin Juravle } 42548c2b03965830c73cdddeae8aea8030f08430137Calin Juravle 42612df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray result = CompileBaseline(codegen.get(), compiler_driver, dex_compilation_unit); 4273946844c34ad965515f677084b07d663d70ad1b8Nicolas Geoffray } 42812df9ebf72255544b0147c81b1dca6644a29764eNicolas Geoffray return result; 429b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray} 430b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray 43153c913bb71b218714823c8c87a1f92830c336f61Andreas GampeCompiler* CreateOptimizingCompiler(CompilerDriver* driver) { 43253c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe return new OptimizingCompiler(driver); 43353c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe} 43453c913bb71b218714823c8c87a1f92830c336f61Andreas Gampe 435b34f69ab43aaf7a6e6045c95f398baf566ef5023Nicolas Geoffray} // namespace art 436