src/code-stubs-hydrogen.cc - fp2-dev/platform/external/chromium_org/v8 - Gitiles

 // Copyright 2012 the V8 project authors. All rights reserved.
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are
 // met:
 //
 //     * Redistributions of source code must retain the above copyright
 //       notice, this list of conditions and the following disclaimer.
 //     * Redistributions in binary form must reproduce the above
 //       copyright notice, this list of conditions and the following
 //       disclaimer in the documentation and/or other materials provided
 //       with the distribution.
 //     * Neither the name of Google Inc. nor the names of its
 //       contributors may be used to endorse or promote products derived
 //       from this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 #include "v8.h"

 #include "code-stubs.h"
 #include "hydrogen.h"
 #include "lithium.h"

 namespace v8 {
 namespace internal {


 static LChunk* OptimizeGraph(HGraph* graph) {
   Isolate* isolate =  graph->isolate();
   AssertNoAllocation no_gc;
   NoHandleAllocation no_handles(isolate);
   NoHandleDereference no_deref(isolate);

   ASSERT(graph != NULL);
   SmartArrayPointer<char> bailout_reason;
   if (!graph->Optimize(&bailout_reason)) {
     FATAL(bailout_reason.is_empty() ? "unknown" : *bailout_reason);
   }
   LChunk* chunk = LChunk::NewChunk(graph);
   if (chunk == NULL) {
     FATAL(graph->info()->bailout_reason());
   }
   return chunk;
 }


 class CodeStubGraphBuilderBase : public HGraphBuilder {
  public:
   CodeStubGraphBuilderBase(Isolate* isolate, HydrogenCodeStub* stub)
       : HGraphBuilder(&info_), info_(stub, isolate), context_(NULL) {
     int major_key = stub->MajorKey();
     descriptor_ = info_.isolate()->code_stub_interface_descriptor(major_key);
     if (descriptor_->register_param_count_ < 0) {
       stub->InitializeInterfaceDescriptor(info_.isolate(), descriptor_);
     }
     parameters_.Reset(new HParameter*[descriptor_->register_param_count_]);
   }
   virtual bool BuildGraph();

  protected:
   virtual void BuildCodeStub() = 0;
   HParameter* GetParameter(int parameter) { return parameters_[parameter]; }
   CompilationInfo* info() { return &info_; }
   HydrogenCodeStub* stub() { return info_.code_stub(); }
   HContext* context() { return context_; }
   Isolate* isolate() { return info_.isolate(); }

  private:
   SmartArrayPointer<HParameter*> parameters_;
   CompilationInfoWithZone info_;
   CodeStubInterfaceDescriptor* descriptor_;
   HContext* context_;
 };


 bool CodeStubGraphBuilderBase::BuildGraph() {
   if (FLAG_trace_hydrogen) {
     const char* name = CodeStub::MajorName(stub()->MajorKey(), false);
     PrintF("-----------------------------------------------------------\n");
     PrintF("Compiling stub %s using hydrogen\n", name);
     HTracer::Instance()->TraceCompilation(&info_);
   }

   Zone* zone = this->zone();
   HEnvironment* start_environment =
       new(zone) HEnvironment(zone, descriptor_->register_param_count_);
   HBasicBlock* next_block = CreateBasicBlock(start_environment);

   current_block()->Goto(next_block);
   next_block->SetJoinId(BailoutId::StubEntry());
   set_current_block(next_block);

   HConstant* undefined_constant = new(zone) HConstant(
       isolate()->factory()->undefined_value(), Representation::Tagged());
   AddInstruction(undefined_constant);
   graph()->set_undefined_constant(undefined_constant);

   int param_count = descriptor_->register_param_count_;
   for (int i = 0; i < param_count; ++i) {
     HParameter* param =
         new(zone) HParameter(i, HParameter::REGISTER_PARAMETER);
     AddInstruction(param);
     start_environment->Bind(i, param);
     parameters_[i] = param;
   }

   context_ = new(zone) HContext();
   AddInstruction(context_);
   start_environment->Bind(param_count, context_);

   AddSimulate(BailoutId::StubEntry());

   BuildCodeStub();

   return true;
 }

 template <class Stub>
 class CodeStubGraphBuilder: public CodeStubGraphBuilderBase {
  public:
   explicit CodeStubGraphBuilder(Stub* stub)
       : CodeStubGraphBuilderBase(Isolate::Current(), stub) {}

  protected:
   virtual void BuildCodeStub();
   Stub* casted_stub() { return static_cast<Stub*>(stub()); }
 };


 template <>
 void CodeStubGraphBuilder<FastCloneShallowObjectStub>::BuildCodeStub() {
   Zone* zone = this->zone();
   Factory* factory = isolate()->factory();

   HInstruction* boilerplate =
       AddInstruction(new(zone) HLoadKeyed(GetParameter(0),
                                           GetParameter(1),
                                           NULL,
                                           FAST_ELEMENTS));

   CheckBuilder builder(this, BailoutId::StubEntry());
   builder.CheckNotUndefined(boilerplate);

   int size = JSObject::kHeaderSize + casted_stub()->length() * kPointerSize;
   HValue* boilerplate_size =
       AddInstruction(new(zone) HInstanceSize(boilerplate));
   HValue* size_in_words =
       AddInstruction(new(zone) HConstant(size >> kPointerSizeLog2,
                                          Representation::Integer32()));
   builder.CheckIntegerEq(boilerplate_size, size_in_words);

   HValue* size_in_bytes =
       AddInstruction(new(zone) HConstant(size, Representation::Integer32()));
   HInstruction* object =
       AddInstruction(new(zone) HAllocate(context(),
                                          size_in_bytes,
                                          HType::JSObject(),
                                          HAllocate::CAN_ALLOCATE_IN_NEW_SPACE));

   for (int i = 0; i < size; i += kPointerSize) {
     HInstruction* value =
         AddInstruction(new(zone) HLoadNamedField(boilerplate, true, i));
     AddInstruction(new(zone) HStoreNamedField(object,
                                               factory->empty_string(),
                                               value,
                                               true, i));
     AddSimulate(BailoutId::StubEntry());
   }

   builder.End();

   HReturn* ret = new(zone) HReturn(object, context());
   current_block()->Finish(ret);
 }


 Handle<Code> FastCloneShallowObjectStub::GenerateCode() {
   CodeStubGraphBuilder<FastCloneShallowObjectStub> builder(this);
   LChunk* chunk = OptimizeGraph(builder.CreateGraph());
   return chunk->Codegen(Code::COMPILED_STUB);
 }


 template <>
 void CodeStubGraphBuilder<KeyedLoadFastElementStub>::BuildCodeStub() {
   Zone* zone = this->zone();

   HInstruction* load = BuildUncheckedMonomorphicElementAccess(
       GetParameter(0), GetParameter(1), NULL, NULL,
       casted_stub()->is_js_array(), casted_stub()->elements_kind(),
       false, Representation::Tagged());
   AddInstruction(load);

   HReturn* ret = new(zone) HReturn(load, context());
   current_block()->Finish(ret);
 }


 Handle<Code> KeyedLoadFastElementStub::GenerateCode() {
   CodeStubGraphBuilder<KeyedLoadFastElementStub> builder(this);
   LChunk* chunk = OptimizeGraph(builder.CreateGraph());
   return chunk->Codegen(Code::COMPILED_STUB);
 }


 template <>
 void CodeStubGraphBuilder<TransitionElementsKindStub>::BuildCodeStub() {
   Zone* zone = this->zone();

   HValue* js_array = GetParameter(0);
   HValue* map = GetParameter(1);

   info()->MarkAsSavesCallerDoubles();

   AddInstruction(new(zone) HTrapAllocationMemento(js_array));

   HInstruction* array_length =
       AddInstruction(new(zone) HJSArrayLength(js_array,
                                               js_array,
                                               HType::Smi()));

   Heap* heap = isolate()->heap();
   const int kMinFreeNewSpaceAfterGC =
       ((heap->InitialSemiSpaceSize() - sizeof(FixedArrayBase)) / 2) /
       kDoubleSize;

   HConstant* max_alloc_size =
       new(zone) HConstant(kMinFreeNewSpaceAfterGC, Representation::Integer32());
   AddInstruction(max_alloc_size);
   // Since we're forcing Integer32 representation for this HBoundsCheck,
   // there's no need to Smi-check the index.
   AddInstruction(
       new(zone) HBoundsCheck(array_length, max_alloc_size,
                              DONT_ALLOW_SMI_KEY, Representation::Integer32()));

   IfBuilder if_builder(this, BailoutId::StubEntry());

   if_builder.BeginTrue(array_length, graph()->GetConstant0(), Token::EQ);

   // Nothing to do, just change the map.

   if_builder.BeginFalse();

   HInstruction* elements =
       AddInstruction(new(zone) HLoadElements(js_array, js_array));

   HInstruction* elements_length =
       AddInstruction(new(zone) HFixedArrayBaseLength(elements));

   ElementsKind to_kind = casted_stub()->to_kind();
   HValue* new_elements =
       BuildAllocateElements(context(), to_kind, elements_length);

   // Fast elements kinds need to be initialized in case statements below cause a
   // garbage collection.
   Factory* factory = isolate()->factory();

   ASSERT(!IsFastSmiElementsKind(to_kind));
   double nan_double = FixedDoubleArray::hole_nan_as_double();
   HValue* hole = IsFastObjectElementsKind(to_kind)
       ? AddInstruction(new(zone) HConstant(factory->the_hole_value(),
                                            Representation::Tagged()))
       : AddInstruction(new(zone) HConstant(nan_double,
                                            Representation::Double()));

   LoopBuilder builder(this, context(), LoopBuilder::kPostIncrement,
                       BailoutId::StubEntry());

   HValue* zero = graph()->GetConstant0();
   HValue* start = IsFastElementsKind(to_kind) ? zero : array_length;
   HValue* key = builder.BeginBody(start, elements_length, Token::LT);

   AddInstruction(new(zone) HStoreKeyed(new_elements, key, hole, to_kind));
   AddSimulate(BailoutId::StubEntry(), REMOVABLE_SIMULATE);

   builder.EndBody();

   BuildCopyElements(context(), elements,
                     casted_stub()->from_kind(), new_elements,
                     to_kind, array_length);

   AddInstruction(new(zone) HStoreNamedField(js_array,
                                             factory->elements_field_string(),
                                             new_elements, true,
                                             JSArray::kElementsOffset));
   AddSimulate(BailoutId::StubEntry());

   if_builder.End();

   AddInstruction(new(zone) HStoreNamedField(js_array, factory->length_string(),
                                             map, true, JSArray::kMapOffset));
   AddSimulate(BailoutId::StubEntry());

   HReturn* ret = new(zone) HReturn(js_array, context());
   current_block()->Finish(ret);
 }


 template <>
 void CodeStubGraphBuilder<ArrayNoArgumentConstructorStub>::BuildCodeStub() {
   HInstruction* deopt = new(zone()) HSoftDeoptimize();
   AddInstruction(deopt);
   current_block()->MarkAsDeoptimizing();
   HReturn* ret = new(zone()) HReturn(GetParameter(0), context());
   current_block()->Finish(ret);
 }


 Handle<Code> ArrayNoArgumentConstructorStub::GenerateCode() {
   CodeStubGraphBuilder<ArrayNoArgumentConstructorStub> builder(this);
   LChunk* chunk = OptimizeGraph(builder.CreateGraph());
   return chunk->Codegen(Code::COMPILED_STUB);
 }


 template <>
 void CodeStubGraphBuilder<ArraySingleArgumentConstructorStub>::BuildCodeStub() {
   HInstruction* deopt = new(zone()) HSoftDeoptimize();
   AddInstruction(deopt);
   current_block()->MarkAsDeoptimizing();
   HReturn* ret = new(zone()) HReturn(GetParameter(0), context());
   current_block()->Finish(ret);
 }


 Handle<Code> TransitionElementsKindStub::GenerateCode() {
   CodeStubGraphBuilder<TransitionElementsKindStub> builder(this);
   LChunk* chunk = OptimizeGraph(builder.CreateGraph());
   return chunk->Codegen(Code::COMPILED_STUB);
 }


 Handle<Code> ArraySingleArgumentConstructorStub::GenerateCode() {
   CodeStubGraphBuilder<ArraySingleArgumentConstructorStub> builder(this);
   LChunk* chunk = OptimizeGraph(builder.CreateGraph());
   return chunk->Codegen(Code::COMPILED_STUB);
 }


 template <>
 void CodeStubGraphBuilder<ArrayNArgumentsConstructorStub>::BuildCodeStub() {
   HInstruction* deopt = new(zone()) HSoftDeoptimize();
   AddInstruction(deopt);
   current_block()->MarkAsDeoptimizing();
   HReturn* ret = new(zone()) HReturn(GetParameter(0), context());
   current_block()->Finish(ret);
 }


 Handle<Code> ArrayNArgumentsConstructorStub::GenerateCode() {
   CodeStubGraphBuilder<ArrayNArgumentsConstructorStub> builder(this);
   LChunk* chunk = OptimizeGraph(builder.CreateGraph());
   return chunk->Codegen(Code::COMPILED_STUB);
 }

 } }  // namespace v8::internal
	// Copyright 2012 the V8 project authors. All rights reserved.
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are
	// met:
	//
	// * Redistributions of source code must retain the above copyright
	// notice, this list of conditions and the following disclaimer.
	// * Redistributions in binary form must reproduce the above
	// copyright notice, this list of conditions and the following
	// disclaimer in the documentation and/or other materials provided
	// with the distribution.
	// * Neither the name of Google Inc. nor the names of its
	// contributors may be used to endorse or promote products derived
	// from this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	#include "v8.h"

	#include "code-stubs.h"
	#include "hydrogen.h"
	#include "lithium.h"

	namespace v8 {
	namespace internal {


	static LChunk* OptimizeGraph(HGraph* graph) {
	Isolate* isolate = graph->isolate();
	AssertNoAllocation no_gc;
	NoHandleAllocation no_handles(isolate);
	NoHandleDereference no_deref(isolate);

	ASSERT(graph != NULL);
	SmartArrayPointer<char> bailout_reason;
	if (!graph->Optimize(&bailout_reason)) {
	FATAL(bailout_reason.is_empty() ? "unknown" : *bailout_reason);
	}
	LChunk* chunk = LChunk::NewChunk(graph);
	if (chunk == NULL) {
	FATAL(graph->info()->bailout_reason());
	}
	return chunk;
	}


	class CodeStubGraphBuilderBase : public HGraphBuilder {
	public:
	CodeStubGraphBuilderBase(Isolate* isolate, HydrogenCodeStub* stub)
	: HGraphBuilder(&info_), info_(stub, isolate), context_(NULL) {
	int major_key = stub->MajorKey();
	descriptor_ = info_.isolate()->code_stub_interface_descriptor(major_key);
	if (descriptor_->register_param_count_ < 0) {
	stub->InitializeInterfaceDescriptor(info_.isolate(), descriptor_);
	}
	parameters_.Reset(new HParameter*[descriptor_->register_param_count_]);
	}
	virtual bool BuildGraph();

	protected:
	virtual void BuildCodeStub() = 0;
	HParameter* GetParameter(int parameter) { return parameters_[parameter]; }
	CompilationInfo* info() { return &info_; }
	HydrogenCodeStub* stub() { return info_.code_stub(); }
	HContext* context() { return context_; }
	Isolate* isolate() { return info_.isolate(); }

	private:
	SmartArrayPointer<HParameter*> parameters_;
	CompilationInfoWithZone info_;
	CodeStubInterfaceDescriptor* descriptor_;
	HContext* context_;
	};


	bool CodeStubGraphBuilderBase::BuildGraph() {
	if (FLAG_trace_hydrogen) {
	const char* name = CodeStub::MajorName(stub()->MajorKey(), false);
	PrintF("-----------------------------------------------------------\n");
	PrintF("Compiling stub %s using hydrogen\n", name);
	HTracer::Instance()->TraceCompilation(&info_);
	}

	Zone* zone = this->zone();
	HEnvironment* start_environment =
	new(zone) HEnvironment(zone, descriptor_->register_param_count_);
	HBasicBlock* next_block = CreateBasicBlock(start_environment);

	current_block()->Goto(next_block);
	next_block->SetJoinId(BailoutId::StubEntry());
	set_current_block(next_block);

	HConstant* undefined_constant = new(zone) HConstant(
	isolate()->factory()->undefined_value(), Representation::Tagged());
	AddInstruction(undefined_constant);
	graph()->set_undefined_constant(undefined_constant);

	int param_count = descriptor_->register_param_count_;
	for (int i = 0; i < param_count; ++i) {
	HParameter* param =
	new(zone) HParameter(i, HParameter::REGISTER_PARAMETER);
	AddInstruction(param);
	start_environment->Bind(i, param);
	parameters_[i] = param;
	}

	context_ = new(zone) HContext();
	AddInstruction(context_);
	start_environment->Bind(param_count, context_);

	AddSimulate(BailoutId::StubEntry());

	BuildCodeStub();

	return true;
	}

	template <class Stub>
	class CodeStubGraphBuilder: public CodeStubGraphBuilderBase {
	public:
	explicit CodeStubGraphBuilder(Stub* stub)
	: CodeStubGraphBuilderBase(Isolate::Current(), stub) {}

	protected:
	virtual void BuildCodeStub();
	Stub* casted_stub() { return static_cast<Stub*>(stub()); }
	};


	template <>
	void CodeStubGraphBuilder<FastCloneShallowObjectStub>::BuildCodeStub() {
	Zone* zone = this->zone();
	Factory* factory = isolate()->factory();

	HInstruction* boilerplate =
	AddInstruction(new(zone) HLoadKeyed(GetParameter(0),
	GetParameter(1),
	NULL,
	FAST_ELEMENTS));

	CheckBuilder builder(this, BailoutId::StubEntry());
	builder.CheckNotUndefined(boilerplate);

	int size = JSObject::kHeaderSize + casted_stub()->length() * kPointerSize;
	HValue* boilerplate_size =
	AddInstruction(new(zone) HInstanceSize(boilerplate));
	HValue* size_in_words =
	AddInstruction(new(zone) HConstant(size >> kPointerSizeLog2,
	Representation::Integer32()));
	builder.CheckIntegerEq(boilerplate_size, size_in_words);

	HValue* size_in_bytes =
	AddInstruction(new(zone) HConstant(size, Representation::Integer32()));
	HInstruction* object =
	AddInstruction(new(zone) HAllocate(context(),
	size_in_bytes,
	HType::JSObject(),
	HAllocate::CAN_ALLOCATE_IN_NEW_SPACE));

	for (int i = 0; i < size; i += kPointerSize) {
	HInstruction* value =
	AddInstruction(new(zone) HLoadNamedField(boilerplate, true, i));
	AddInstruction(new(zone) HStoreNamedField(object,
	factory->empty_string(),
	value,
	true, i));
	AddSimulate(BailoutId::StubEntry());
	}

	builder.End();

	HReturn* ret = new(zone) HReturn(object, context());
	current_block()->Finish(ret);
	}


	Handle<Code> FastCloneShallowObjectStub::GenerateCode() {
	CodeStubGraphBuilder<FastCloneShallowObjectStub> builder(this);
	LChunk* chunk = OptimizeGraph(builder.CreateGraph());
	return chunk->Codegen(Code::COMPILED_STUB);
	}


	template <>
	void CodeStubGraphBuilder<KeyedLoadFastElementStub>::BuildCodeStub() {
	Zone* zone = this->zone();

	HInstruction* load = BuildUncheckedMonomorphicElementAccess(
	GetParameter(0), GetParameter(1), NULL, NULL,
	casted_stub()->is_js_array(), casted_stub()->elements_kind(),
	false, Representation::Tagged());
	AddInstruction(load);

	HReturn* ret = new(zone) HReturn(load, context());
	current_block()->Finish(ret);
	}


	Handle<Code> KeyedLoadFastElementStub::GenerateCode() {
	CodeStubGraphBuilder<KeyedLoadFastElementStub> builder(this);
	LChunk* chunk = OptimizeGraph(builder.CreateGraph());
	return chunk->Codegen(Code::COMPILED_STUB);
	}


	template <>
	void CodeStubGraphBuilder<TransitionElementsKindStub>::BuildCodeStub() {
	Zone* zone = this->zone();

	HValue* js_array = GetParameter(0);
	HValue* map = GetParameter(1);

	info()->MarkAsSavesCallerDoubles();

	AddInstruction(new(zone) HTrapAllocationMemento(js_array));

	HInstruction* array_length =
	AddInstruction(new(zone) HJSArrayLength(js_array,
	js_array,
	HType::Smi()));

	Heap* heap = isolate()->heap();
	const int kMinFreeNewSpaceAfterGC =
	((heap->InitialSemiSpaceSize() - sizeof(FixedArrayBase)) / 2) /
	kDoubleSize;

	HConstant* max_alloc_size =
	new(zone) HConstant(kMinFreeNewSpaceAfterGC, Representation::Integer32());
	AddInstruction(max_alloc_size);
	// Since we're forcing Integer32 representation for this HBoundsCheck,
	// there's no need to Smi-check the index.
	AddInstruction(
	new(zone) HBoundsCheck(array_length, max_alloc_size,
	DONT_ALLOW_SMI_KEY, Representation::Integer32()));

	IfBuilder if_builder(this, BailoutId::StubEntry());

	if_builder.BeginTrue(array_length, graph()->GetConstant0(), Token::EQ);

	// Nothing to do, just change the map.

	if_builder.BeginFalse();

	HInstruction* elements =
	AddInstruction(new(zone) HLoadElements(js_array, js_array));

	HInstruction* elements_length =
	AddInstruction(new(zone) HFixedArrayBaseLength(elements));

	ElementsKind to_kind = casted_stub()->to_kind();
	HValue* new_elements =
	BuildAllocateElements(context(), to_kind, elements_length);

	// Fast elements kinds need to be initialized in case statements below cause a
	// garbage collection.
	Factory* factory = isolate()->factory();

	ASSERT(!IsFastSmiElementsKind(to_kind));
	double nan_double = FixedDoubleArray::hole_nan_as_double();
	HValue* hole = IsFastObjectElementsKind(to_kind)
	? AddInstruction(new(zone) HConstant(factory->the_hole_value(),
	Representation::Tagged()))
	: AddInstruction(new(zone) HConstant(nan_double,
	Representation::Double()));

	LoopBuilder builder(this, context(), LoopBuilder::kPostIncrement,
	BailoutId::StubEntry());

	HValue* zero = graph()->GetConstant0();
	HValue* start = IsFastElementsKind(to_kind) ? zero : array_length;
	HValue* key = builder.BeginBody(start, elements_length, Token::LT);

	AddInstruction(new(zone) HStoreKeyed(new_elements, key, hole, to_kind));
	AddSimulate(BailoutId::StubEntry(), REMOVABLE_SIMULATE);

	builder.EndBody();

	BuildCopyElements(context(), elements,
	casted_stub()->from_kind(), new_elements,
	to_kind, array_length);

	AddInstruction(new(zone) HStoreNamedField(js_array,
	factory->elements_field_string(),
	new_elements, true,
	JSArray::kElementsOffset));
	AddSimulate(BailoutId::StubEntry());

	if_builder.End();

	AddInstruction(new(zone) HStoreNamedField(js_array, factory->length_string(),
	map, true, JSArray::kMapOffset));
	AddSimulate(BailoutId::StubEntry());

	HReturn* ret = new(zone) HReturn(js_array, context());
	current_block()->Finish(ret);
	}


	template <>
	void CodeStubGraphBuilder<ArrayNoArgumentConstructorStub>::BuildCodeStub() {
	HInstruction* deopt = new(zone()) HSoftDeoptimize();
	AddInstruction(deopt);
	current_block()->MarkAsDeoptimizing();
	HReturn* ret = new(zone()) HReturn(GetParameter(0), context());
	current_block()->Finish(ret);
	}


	Handle<Code> ArrayNoArgumentConstructorStub::GenerateCode() {
	CodeStubGraphBuilder<ArrayNoArgumentConstructorStub> builder(this);
	LChunk* chunk = OptimizeGraph(builder.CreateGraph());
	return chunk->Codegen(Code::COMPILED_STUB);
	}


	template <>
	void CodeStubGraphBuilder<ArraySingleArgumentConstructorStub>::BuildCodeStub() {
	HInstruction* deopt = new(zone()) HSoftDeoptimize();
	AddInstruction(deopt);
	current_block()->MarkAsDeoptimizing();
	HReturn* ret = new(zone()) HReturn(GetParameter(0), context());
	current_block()->Finish(ret);
	}


	Handle<Code> TransitionElementsKindStub::GenerateCode() {
	CodeStubGraphBuilder<TransitionElementsKindStub> builder(this);
	LChunk* chunk = OptimizeGraph(builder.CreateGraph());
	return chunk->Codegen(Code::COMPILED_STUB);
	}


	Handle<Code> ArraySingleArgumentConstructorStub::GenerateCode() {
	CodeStubGraphBuilder<ArraySingleArgumentConstructorStub> builder(this);
	LChunk* chunk = OptimizeGraph(builder.CreateGraph());
	return chunk->Codegen(Code::COMPILED_STUB);
	}


	template <>
	void CodeStubGraphBuilder<ArrayNArgumentsConstructorStub>::BuildCodeStub() {
	HInstruction* deopt = new(zone()) HSoftDeoptimize();
	AddInstruction(deopt);
	current_block()->MarkAsDeoptimizing();
	HReturn* ret = new(zone()) HReturn(GetParameter(0), context());
	current_block()->Finish(ret);
	}


	Handle<Code> ArrayNArgumentsConstructorStub::GenerateCode() {
	CodeStubGraphBuilder<ArrayNArgumentsConstructorStub> builder(this);
	LChunk* chunk = OptimizeGraph(builder.CreateGraph());
	return chunk->Codegen(Code::COMPILED_STUB);
	}

	} } // namespace v8::internal