compiler/dex/frontend.cc - platform/art - Git at Google

 /*
  * Copyright (C) 2011 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 <llvm/Support/Threading.h>

 #include "compiler_internals.h"
 #include "driver/compiler_driver.h"
 #include "dataflow_iterator-inl.h"
 #include "leb128.h"
 #include "mirror/object.h"
 #include "runtime.h"
 #include "backend.h"
 #include "base/logging.h"
 #include "base/timing_logger.h"

 #if defined(ART_USE_PORTABLE_COMPILER)
 #include "dex/portable/mir_to_gbc.h"
 #include "llvm/llvm_compilation_unit.h"
 #endif

 namespace {
 #if !defined(ART_USE_PORTABLE_COMPILER)
   pthread_once_t llvm_multi_init = PTHREAD_ONCE_INIT;
 #endif
   void InitializeLLVMForQuick() {
     ::llvm::llvm_start_multithreaded();
   }
 }

 namespace art {
 namespace llvm {
 ::llvm::Module* makeLLVMModuleContents(::llvm::Module* module);
 }

 LLVMInfo::LLVMInfo() {
 #if !defined(ART_USE_PORTABLE_COMPILER)
   pthread_once(&llvm_multi_init, InitializeLLVMForQuick);
 #endif
   // Create context, module, intrinsic helper & ir builder
   llvm_context_.reset(new ::llvm::LLVMContext());
   llvm_module_ = new ::llvm::Module("art", *llvm_context_);
   ::llvm::StructType::create(*llvm_context_, "JavaObject");
   art::llvm::makeLLVMModuleContents(llvm_module_);
   intrinsic_helper_.reset(new art::llvm::IntrinsicHelper(*llvm_context_, *llvm_module_));
   ir_builder_.reset(new art::llvm::IRBuilder(*llvm_context_, *llvm_module_, *intrinsic_helper_));
 }

 LLVMInfo::~LLVMInfo() {
 }

 extern "C" void ArtInitQuickCompilerContext(art::CompilerDriver& compiler) {
   CHECK(compiler.GetCompilerContext() == NULL);
   LLVMInfo* llvm_info = new LLVMInfo();
   compiler.SetCompilerContext(llvm_info);
 }

 extern "C" void ArtUnInitQuickCompilerContext(art::CompilerDriver& compiler) {
   delete reinterpret_cast<LLVMInfo*>(compiler.GetCompilerContext());
   compiler.SetCompilerContext(NULL);
 }

 /* Default optimizer/debug setting for the compiler. */
 static uint32_t kCompilerOptimizerDisableFlags = 0 |  // Disable specific optimizations
   (1 << kLoadStoreElimination) |
   // (1 << kLoadHoisting) |
   // (1 << kSuppressLoads) |
   // (1 << kNullCheckElimination) |
   // (1 << kPromoteRegs) |
   // (1 << kTrackLiveTemps) |
   // (1 << kSafeOptimizations) |
   // (1 << kBBOpt) |
   // (1 << kMatch) |
   // (1 << kPromoteCompilerTemps) |
   0;

 static uint32_t kCompilerDebugFlags = 0 |     // Enable debug/testing modes
   // (1 << kDebugDisplayMissingTargets) |
   // (1 << kDebugVerbose) |
   // (1 << kDebugDumpCFG) |
   // (1 << kDebugSlowFieldPath) |
   // (1 << kDebugSlowInvokePath) |
   // (1 << kDebugSlowStringPath) |
   // (1 << kDebugSlowestFieldPath) |
   // (1 << kDebugSlowestStringPath) |
   // (1 << kDebugExerciseResolveMethod) |
   // (1 << kDebugVerifyDataflow) |
   // (1 << kDebugShowMemoryUsage) |
   // (1 << kDebugShowNops) |
   // (1 << kDebugCountOpcodes) |
   // (1 << kDebugDumpCheckStats) |
   // (1 << kDebugDumpBitcodeFile) |
   // (1 << kDebugVerifyBitcode) |
   // (1 << kDebugShowSummaryMemoryUsage) |
   // (1 << kDebugShowFilterStats) |
   // (1 << kDebugTimings) |
   0;

 // TODO: Add a cumulative version of logging, and combine with dex2oat --dump-timing
 void CompilationUnit::StartTimingSplit(const char* label) {
   if (enable_debug & (1 << kDebugTimings)) {
     timings.StartSplit(label);
   }
 }

 void CompilationUnit::NewTimingSplit(const char* label) {
   if (enable_debug & (1 << kDebugTimings)) {
     timings.NewSplit(label);
   }
 }

 void CompilationUnit::EndTiming() {
   if (enable_debug & (1 << kDebugTimings)) {
     timings.EndSplit();
     LOG(INFO) << "TIMINGS " << PrettyMethod(method_idx, *dex_file);
     LOG(INFO) << Dumpable<base::TimingLogger>(timings);
   }
 }

 static CompiledMethod* CompileMethod(CompilerDriver& compiler,
                                      const CompilerBackend compiler_backend,
                                      const DexFile::CodeItem* code_item,
                                      uint32_t access_flags, InvokeType invoke_type,
                                      uint16_t class_def_idx, uint32_t method_idx,
                                      jobject class_loader, const DexFile& dex_file
 #if defined(ART_USE_PORTABLE_COMPILER)
                                      , llvm::LlvmCompilationUnit* llvm_compilation_unit
 #endif
 ) {
   VLOG(compiler) << "Compiling " << PrettyMethod(method_idx, dex_file) << "...";
   if (code_item->insns_size_in_code_units_ >= 0x10000) {
     LOG(INFO) << "Method size exceeds compiler limits: " << code_item->insns_size_in_code_units_
               << " in " << PrettyMethod(method_idx, dex_file);
     return NULL;
   }

   ClassLinker* class_linker = Runtime::Current()->GetClassLinker();
   CompilationUnit cu(&compiler.GetArenaPool());

   cu.compiler_driver = &compiler;
   cu.class_linker = class_linker;
   cu.instruction_set = compiler.GetInstructionSet();
   cu.compiler_backend = compiler_backend;
   DCHECK((cu.instruction_set == kThumb2) ||
          (cu.instruction_set == kX86) ||
          (cu.instruction_set == kMips));


   /* Adjust this value accordingly once inlining is performed */
   cu.num_dalvik_registers = code_item->registers_size_;
   // TODO: set this from command line
   cu.compiler_flip_match = false;
   bool use_match = !cu.compiler_method_match.empty();
   bool match = use_match && (cu.compiler_flip_match ^
       (PrettyMethod(method_idx, dex_file).find(cu.compiler_method_match) !=
        std::string::npos));
   if (!use_match || match) {
     cu.disable_opt = kCompilerOptimizerDisableFlags;
     cu.enable_debug = kCompilerDebugFlags;
     cu.verbose = VLOG_IS_ON(compiler) ||
         (cu.enable_debug & (1 << kDebugVerbose));
   }

   /*
    * TODO: rework handling of optimization and debug flags.  Should we split out
    * MIR and backend flags?  Need command-line setting as well.
    */

   if (compiler_backend == kPortable) {
     // Fused long branches not currently useful in bitcode.
     cu.disable_opt |= (1 << kBranchFusing);
   }

   if (cu.instruction_set == kMips) {
     // Disable some optimizations for mips for now
     cu.disable_opt |= (
         (1 << kLoadStoreElimination) |
         (1 << kLoadHoisting) |
         (1 << kSuppressLoads) |
         (1 << kNullCheckElimination) |
         (1 << kPromoteRegs) |
         (1 << kTrackLiveTemps) |
         (1 << kSafeOptimizations) |
         (1 << kBBOpt) |
         (1 << kMatch) |
         (1 << kPromoteCompilerTemps));
   }

   cu.StartTimingSplit("BuildMIRGraph");
   cu.mir_graph.reset(new MIRGraph(&cu, &cu.arena));

   /* Gathering opcode stats? */
   if (kCompilerDebugFlags & (1 << kDebugCountOpcodes)) {
     cu.mir_graph->EnableOpcodeCounting();
   }

   /* Build the raw MIR graph */
   cu.mir_graph->InlineMethod(code_item, access_flags, invoke_type, class_def_idx, method_idx,
                               class_loader, dex_file);

 #if !defined(ART_USE_PORTABLE_COMPILER)
   if (cu.mir_graph->SkipCompilation(Runtime::Current()->GetCompilerFilter())) {
     return NULL;
   }
 #endif

   cu.NewTimingSplit("MIROpt:CodeLayout");

   /* Do a code layout pass */
   cu.mir_graph->CodeLayout();

   /* Perform SSA transformation for the whole method */
   cu.NewTimingSplit("MIROpt:SSATransform");
   cu.mir_graph->SSATransformation();

   /* Do constant propagation */
   cu.NewTimingSplit("MIROpt:ConstantProp");
   cu.mir_graph->PropagateConstants();

   /* Count uses */
   cu.mir_graph->MethodUseCount();

   /* Perform null check elimination */
   cu.NewTimingSplit("MIROpt:NullCheckElimination");
   cu.mir_graph->NullCheckElimination();

   /* Combine basic blocks where possible */
   cu.NewTimingSplit("MIROpt:BBOpt");
   cu.mir_graph->BasicBlockCombine();

   /* Do some basic block optimizations */
   cu.mir_graph->BasicBlockOptimization();

   if (cu.enable_debug & (1 << kDebugDumpCheckStats)) {
     cu.mir_graph->DumpCheckStats();
   }

   if (kCompilerDebugFlags & (1 << kDebugCountOpcodes)) {
     cu.mir_graph->ShowOpcodeStats();
   }

   /* Set up regLocation[] array to describe values - one for each ssa_name. */
   cu.mir_graph->BuildRegLocations();

   CompiledMethod* result = NULL;

 #if defined(ART_USE_PORTABLE_COMPILER)
   if (compiler_backend == kPortable) {
     cu.cg.reset(PortableCodeGenerator(&cu, cu.mir_graph.get(), &cu.arena, llvm_compilation_unit));
   } else {
 #endif
     switch (compiler.GetInstructionSet()) {
       case kThumb2:
         cu.cg.reset(ArmCodeGenerator(&cu, cu.mir_graph.get(), &cu.arena));
         break;
       case kMips:
         cu.cg.reset(MipsCodeGenerator(&cu, cu.mir_graph.get(), &cu.arena));
         break;
       case kX86:
         cu.cg.reset(X86CodeGenerator(&cu, cu.mir_graph.get(), &cu.arena));
         break;
       default:
         LOG(FATAL) << "Unexpected instruction set: " << compiler.GetInstructionSet();
     }
 #if defined(ART_USE_PORTABLE_COMPILER)
   }
 #endif

   cu.cg->Materialize();

   cu.NewTimingSplit("Cleanup");
   result = cu.cg->GetCompiledMethod();

   if (result) {
     VLOG(compiler) << "Compiled " << PrettyMethod(method_idx, dex_file);
   } else {
     VLOG(compiler) << "Deferred " << PrettyMethod(method_idx, dex_file);
   }

   if (cu.enable_debug & (1 << kDebugShowMemoryUsage)) {
     if (cu.arena.BytesAllocated() > (5 * 1024 *1024)) {
       MemStats mem_stats(cu.arena);
       LOG(INFO) << PrettyMethod(method_idx, dex_file) << " " << Dumpable<MemStats>(mem_stats);
     }
   }

   if (cu.enable_debug & (1 << kDebugShowSummaryMemoryUsage)) {
     LOG(INFO) << "MEMINFO " << cu.arena.BytesAllocated() << " " << cu.mir_graph->GetNumBlocks()
               << " " << PrettyMethod(method_idx, dex_file);
   }

   cu.EndTiming();
   return result;
 }

 CompiledMethod* CompileOneMethod(CompilerDriver& compiler,
                                  const CompilerBackend backend,
                                  const DexFile::CodeItem* code_item,
                                  uint32_t access_flags,
                                  InvokeType invoke_type,
                                  uint16_t class_def_idx,
                                  uint32_t method_idx,
                                  jobject class_loader,
                                  const DexFile& dex_file,
                                  llvm::LlvmCompilationUnit* llvm_compilation_unit) {
   return CompileMethod(compiler, backend, code_item, access_flags, invoke_type, class_def_idx,
                        method_idx, class_loader, dex_file
 #if defined(ART_USE_PORTABLE_COMPILER)
                        , llvm_compilation_unit
 #endif
                        );  // NOLINT(whitespace/parens)
 }

 }  // namespace art

 extern "C" art::CompiledMethod*
     ArtQuickCompileMethod(art::CompilerDriver& compiler,
                           const art::DexFile::CodeItem* code_item,
                           uint32_t access_flags, art::InvokeType invoke_type,
                           uint16_t class_def_idx, uint32_t method_idx, jobject class_loader,
                           const art::DexFile& dex_file) {
   // TODO: check method fingerprint here to determine appropriate backend type.  Until then, use build default
   art::CompilerBackend backend = compiler.GetCompilerBackend();
   return art::CompileOneMethod(compiler, backend, code_item, access_flags, invoke_type,
                                class_def_idx, method_idx, class_loader, dex_file,
                                NULL /* use thread llvm_info */);
 }
	/*
	* Copyright (C) 2011 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 <llvm/Support/Threading.h>

	#include "compiler_internals.h"
	#include "driver/compiler_driver.h"
	#include "dataflow_iterator-inl.h"
	#include "leb128.h"
	#include "mirror/object.h"
	#include "runtime.h"
	#include "backend.h"
	#include "base/logging.h"
	#include "base/timing_logger.h"

	#if defined(ART_USE_PORTABLE_COMPILER)
	#include "dex/portable/mir_to_gbc.h"
	#include "llvm/llvm_compilation_unit.h"
	#endif

	namespace {
	#if !defined(ART_USE_PORTABLE_COMPILER)
	pthread_once_t llvm_multi_init = PTHREAD_ONCE_INIT;
	#endif
	void InitializeLLVMForQuick() {
	::llvm::llvm_start_multithreaded();
	}
	}

	namespace art {
	namespace llvm {
	::llvm::Module* makeLLVMModuleContents(::llvm::Module* module);
	}

	LLVMInfo::LLVMInfo() {
	#if !defined(ART_USE_PORTABLE_COMPILER)
	pthread_once(&llvm_multi_init, InitializeLLVMForQuick);
	#endif
	// Create context, module, intrinsic helper & ir builder
	llvm_context_.reset(new ::llvm::LLVMContext());
	llvm_module_ = new ::llvm::Module("art", *llvm_context_);
	::llvm::StructType::create(*llvm_context_, "JavaObject");
	art::llvm::makeLLVMModuleContents(llvm_module_);
	intrinsic_helper_.reset(new art::llvm::IntrinsicHelper(llvm_context_, llvm_module_));
	ir_builder_.reset(new art::llvm::IRBuilder(llvm_context_, llvm_module_, *intrinsic_helper_));
	}

	LLVMInfo::~LLVMInfo() {
	}

	extern "C" void ArtInitQuickCompilerContext(art::CompilerDriver& compiler) {
	CHECK(compiler.GetCompilerContext() == NULL);
	LLVMInfo* llvm_info = new LLVMInfo();
	compiler.SetCompilerContext(llvm_info);
	}

	extern "C" void ArtUnInitQuickCompilerContext(art::CompilerDriver& compiler) {
	delete reinterpret_cast<LLVMInfo*>(compiler.GetCompilerContext());
	compiler.SetCompilerContext(NULL);
	}

	/* Default optimizer/debug setting for the compiler. */
	static uint32_t kCompilerOptimizerDisableFlags = 0 \| // Disable specific optimizations
	(1 << kLoadStoreElimination) \|
	// (1 << kLoadHoisting) \|
	// (1 << kSuppressLoads) \|
	// (1 << kNullCheckElimination) \|
	// (1 << kPromoteRegs) \|
	// (1 << kTrackLiveTemps) \|
	// (1 << kSafeOptimizations) \|
	// (1 << kBBOpt) \|
	// (1 << kMatch) \|
	// (1 << kPromoteCompilerTemps) \|
	0;

	static uint32_t kCompilerDebugFlags = 0 \| // Enable debug/testing modes
	// (1 << kDebugDisplayMissingTargets) \|
	// (1 << kDebugVerbose) \|
	// (1 << kDebugDumpCFG) \|
	// (1 << kDebugSlowFieldPath) \|
	// (1 << kDebugSlowInvokePath) \|
	// (1 << kDebugSlowStringPath) \|
	// (1 << kDebugSlowestFieldPath) \|
	// (1 << kDebugSlowestStringPath) \|
	// (1 << kDebugExerciseResolveMethod) \|
	// (1 << kDebugVerifyDataflow) \|
	// (1 << kDebugShowMemoryUsage) \|
	// (1 << kDebugShowNops) \|
	// (1 << kDebugCountOpcodes) \|
	// (1 << kDebugDumpCheckStats) \|
	// (1 << kDebugDumpBitcodeFile) \|
	// (1 << kDebugVerifyBitcode) \|
	// (1 << kDebugShowSummaryMemoryUsage) \|
	// (1 << kDebugShowFilterStats) \|
	// (1 << kDebugTimings) \|
	0;

	// TODO: Add a cumulative version of logging, and combine with dex2oat --dump-timing
	void CompilationUnit::StartTimingSplit(const char* label) {
	if (enable_debug & (1 << kDebugTimings)) {
	timings.StartSplit(label);
	}
	}

	void CompilationUnit::NewTimingSplit(const char* label) {
	if (enable_debug & (1 << kDebugTimings)) {
	timings.NewSplit(label);
	}
	}

	void CompilationUnit::EndTiming() {
	if (enable_debug & (1 << kDebugTimings)) {
	timings.EndSplit();
	LOG(INFO) << "TIMINGS " << PrettyMethod(method_idx, *dex_file);
	LOG(INFO) << Dumpable<base::TimingLogger>(timings);
	}
	}

	static CompiledMethod* CompileMethod(CompilerDriver& compiler,
	const CompilerBackend compiler_backend,
	const DexFile::CodeItem* code_item,
	uint32_t access_flags, InvokeType invoke_type,
	uint16_t class_def_idx, uint32_t method_idx,
	jobject class_loader, const DexFile& dex_file
	#if defined(ART_USE_PORTABLE_COMPILER)
	, llvm::LlvmCompilationUnit* llvm_compilation_unit
	#endif
	) {
	VLOG(compiler) << "Compiling " << PrettyMethod(method_idx, dex_file) << "...";
	if (code_item->insns_size_in_code_units_ >= 0x10000) {
	LOG(INFO) << "Method size exceeds compiler limits: " << code_item->insns_size_in_code_units_
	<< " in " << PrettyMethod(method_idx, dex_file);
	return NULL;
	}

	ClassLinker* class_linker = Runtime::Current()->GetClassLinker();
	CompilationUnit cu(&compiler.GetArenaPool());

	cu.compiler_driver = &compiler;
	cu.class_linker = class_linker;
	cu.instruction_set = compiler.GetInstructionSet();
	cu.compiler_backend = compiler_backend;
	DCHECK((cu.instruction_set == kThumb2) \|\|
	(cu.instruction_set == kX86) \|\|
	(cu.instruction_set == kMips));


	/* Adjust this value accordingly once inlining is performed */
	cu.num_dalvik_registers = code_item->registers_size_;
	// TODO: set this from command line
	cu.compiler_flip_match = false;
	bool use_match = !cu.compiler_method_match.empty();
	bool match = use_match && (cu.compiler_flip_match ^
	(PrettyMethod(method_idx, dex_file).find(cu.compiler_method_match) !=
	std::string::npos));
	if (!use_match \|\| match) {
	cu.disable_opt = kCompilerOptimizerDisableFlags;
	cu.enable_debug = kCompilerDebugFlags;
	cu.verbose = VLOG_IS_ON(compiler) \|\|
	(cu.enable_debug & (1 << kDebugVerbose));
	}

	/*
	* TODO: rework handling of optimization and debug flags. Should we split out
	* MIR and backend flags? Need command-line setting as well.
	*/

	if (compiler_backend == kPortable) {
	// Fused long branches not currently useful in bitcode.
	cu.disable_opt \|= (1 << kBranchFusing);
	}

	if (cu.instruction_set == kMips) {
	// Disable some optimizations for mips for now
	cu.disable_opt \|= (
	(1 << kLoadStoreElimination) \|
	(1 << kLoadHoisting) \|
	(1 << kSuppressLoads) \|
	(1 << kNullCheckElimination) \|
	(1 << kPromoteRegs) \|
	(1 << kTrackLiveTemps) \|
	(1 << kSafeOptimizations) \|
	(1 << kBBOpt) \|
	(1 << kMatch) \|
	(1 << kPromoteCompilerTemps));
	}

	cu.StartTimingSplit("BuildMIRGraph");
	cu.mir_graph.reset(new MIRGraph(&cu, &cu.arena));

	/* Gathering opcode stats? */
	if (kCompilerDebugFlags & (1 << kDebugCountOpcodes)) {
	cu.mir_graph->EnableOpcodeCounting();
	}

	/* Build the raw MIR graph */
	cu.mir_graph->InlineMethod(code_item, access_flags, invoke_type, class_def_idx, method_idx,
	class_loader, dex_file);

	#if !defined(ART_USE_PORTABLE_COMPILER)
	if (cu.mir_graph->SkipCompilation(Runtime::Current()->GetCompilerFilter())) {
	return NULL;
	}
	#endif

	cu.NewTimingSplit("MIROpt:CodeLayout");

	/* Do a code layout pass */
	cu.mir_graph->CodeLayout();

	/* Perform SSA transformation for the whole method */
	cu.NewTimingSplit("MIROpt:SSATransform");
	cu.mir_graph->SSATransformation();

	/* Do constant propagation */
	cu.NewTimingSplit("MIROpt:ConstantProp");
	cu.mir_graph->PropagateConstants();

	/* Count uses */
	cu.mir_graph->MethodUseCount();

	/* Perform null check elimination */
	cu.NewTimingSplit("MIROpt:NullCheckElimination");
	cu.mir_graph->NullCheckElimination();

	/* Combine basic blocks where possible */
	cu.NewTimingSplit("MIROpt:BBOpt");
	cu.mir_graph->BasicBlockCombine();

	/* Do some basic block optimizations */
	cu.mir_graph->BasicBlockOptimization();

	if (cu.enable_debug & (1 << kDebugDumpCheckStats)) {
	cu.mir_graph->DumpCheckStats();
	}

	if (kCompilerDebugFlags & (1 << kDebugCountOpcodes)) {
	cu.mir_graph->ShowOpcodeStats();
	}

	/* Set up regLocation[] array to describe values - one for each ssa_name. */
	cu.mir_graph->BuildRegLocations();

	CompiledMethod* result = NULL;

	#if defined(ART_USE_PORTABLE_COMPILER)
	if (compiler_backend == kPortable) {
	cu.cg.reset(PortableCodeGenerator(&cu, cu.mir_graph.get(), &cu.arena, llvm_compilation_unit));
	} else {
	#endif
	switch (compiler.GetInstructionSet()) {
	case kThumb2:
	cu.cg.reset(ArmCodeGenerator(&cu, cu.mir_graph.get(), &cu.arena));
	break;
	case kMips:
	cu.cg.reset(MipsCodeGenerator(&cu, cu.mir_graph.get(), &cu.arena));
	break;
	case kX86:
	cu.cg.reset(X86CodeGenerator(&cu, cu.mir_graph.get(), &cu.arena));
	break;
	default:
	LOG(FATAL) << "Unexpected instruction set: " << compiler.GetInstructionSet();
	}
	#if defined(ART_USE_PORTABLE_COMPILER)
	}
	#endif

	cu.cg->Materialize();

	cu.NewTimingSplit("Cleanup");
	result = cu.cg->GetCompiledMethod();

	if (result) {
	VLOG(compiler) << "Compiled " << PrettyMethod(method_idx, dex_file);
	} else {
	VLOG(compiler) << "Deferred " << PrettyMethod(method_idx, dex_file);
	}

	if (cu.enable_debug & (1 << kDebugShowMemoryUsage)) {
	if (cu.arena.BytesAllocated() > (5 * 1024 *1024)) {
	MemStats mem_stats(cu.arena);
	LOG(INFO) << PrettyMethod(method_idx, dex_file) << " " << Dumpable<MemStats>(mem_stats);
	}
	}

	if (cu.enable_debug & (1 << kDebugShowSummaryMemoryUsage)) {
	LOG(INFO) << "MEMINFO " << cu.arena.BytesAllocated() << " " << cu.mir_graph->GetNumBlocks()
	<< " " << PrettyMethod(method_idx, dex_file);
	}

	cu.EndTiming();
	return result;
	}

	CompiledMethod* CompileOneMethod(CompilerDriver& compiler,
	const CompilerBackend backend,
	const DexFile::CodeItem* code_item,
	uint32_t access_flags,
	InvokeType invoke_type,
	uint16_t class_def_idx,
	uint32_t method_idx,
	jobject class_loader,
	const DexFile& dex_file,
	llvm::LlvmCompilationUnit* llvm_compilation_unit) {
	return CompileMethod(compiler, backend, code_item, access_flags, invoke_type, class_def_idx,
	method_idx, class_loader, dex_file
	#if defined(ART_USE_PORTABLE_COMPILER)
	, llvm_compilation_unit
	#endif
	); // NOLINT(whitespace/parens)
	}

	} // namespace art

	extern "C" art::CompiledMethod*
	ArtQuickCompileMethod(art::CompilerDriver& compiler,
	const art::DexFile::CodeItem* code_item,
	uint32_t access_flags, art::InvokeType invoke_type,
	uint16_t class_def_idx, uint32_t method_idx, jobject class_loader,
	const art::DexFile& dex_file) {
	// TODO: check method fingerprint here to determine appropriate backend type. Until then, use build default
	art::CompilerBackend backend = compiler.GetCompilerBackend();
	return art::CompileOneMethod(compiler, backend, code_item, access_flags, invoke_type,
	class_def_idx, method_idx, class_loader, dex_file,
	NULL /* use thread llvm_info */);
	}