src/ic.h - Issue 143633007: A64: Synchronize with r18764.

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Issue 143633007: A64: Synchronize with r18764. (Closed) Base URL: https://v8.googlecode.com/svn/branches/experimental/a64

Patch Set: Created 6 years, 10 months ago

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1 // Copyright 2012 the V8 project authors. All rights reserved.	1 // Copyright 2012 the V8 project authors. All rights reserved.

2 // Redistribution and use in source and binary forms, with or without	2 // Redistribution and use in source and binary forms, with or without

3 // modification, are permitted provided that the following conditions are	3 // modification, are permitted provided that the following conditions are

4 // met:	4 // met:

5 //	5 //

6 // * Redistributions of source code must retain the above copyright	6 // * Redistributions of source code must retain the above copyright

7 // notice, this list of conditions and the following disclaimer.	7 // notice, this list of conditions and the following disclaimer.

8 // * Redistributions in binary form must reproduce the above	8 // * Redistributions in binary form must reproduce the above

9 // copyright notice, this list of conditions and the following	9 // copyright notice, this list of conditions and the following

10 // disclaimer in the documentation and/or other materials provided	10 // disclaimer in the documentation and/or other materials provided

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82 // Alias the inline cache state type to make the IC code more readable.	82 // Alias the inline cache state type to make the IC code more readable.

83 typedef InlineCacheState State;	83 typedef InlineCacheState State;

84	84

85 // The IC code is either invoked with no extra frames on the stack	85 // The IC code is either invoked with no extra frames on the stack

86 // or with a single extra frame for supporting calls.	86 // or with a single extra frame for supporting calls.

87 enum FrameDepth {	87 enum FrameDepth {

88 NO_EXTRA_FRAME = 0,	88 NO_EXTRA_FRAME = 0,

89 EXTRA_CALL_FRAME = 1	89 EXTRA_CALL_FRAME = 1

90 };	90 };

91	91

92 // ExtraICState shared by all ICs.

93 class Contextual: public BitField<ContextualMode, 0, 1> {};

94 STATIC_ASSERT(static_cast<int>(NOT_CONTEXTUAL) == 0);

95 static ExtraICState ComputeExtraICState(ContextualMode mode) {

96 return Contextual::encode(mode);

97 }

98

99 static ContextualMode GetContextualMode(ExtraICState state) {

100 return Contextual::decode(state);

101 }

102

103 static const ExtraICState kContextualState =

104 static_cast<int>(CONTEXTUAL) << Contextual::kShift;

105

106 // Construct the IC structure with the given number of extra	92 // Construct the IC structure with the given number of extra

107 // JavaScript frames on the stack.	93 // JavaScript frames on the stack.

108 IC(FrameDepth depth, Isolate* isolate);	94 IC(FrameDepth depth, Isolate* isolate);

109 virtual ~IC() {}	95 virtual ~IC() {}

110	96

111 State state() const { return state_; }	97 State state() const { return state_; }

112 inline Address address() const;	98 inline Address address() const;

113	99

114 // Compute the current IC state based on the target stub, receiver and name.	100 // Compute the current IC state based on the target stub, receiver and name.

115 void UpdateState(Handle<Object> receiver, Handle<Object> name);	101 void UpdateState(Handle<Object> receiver, Handle<Object> name);

116 void MarkMonomorphicPrototypeFailure() {	102 void MarkMonomorphicPrototypeFailure() {

117 state_ = MONOMORPHIC_PROTOTYPE_FAILURE;	103 state_ = MONOMORPHIC_PROTOTYPE_FAILURE;

118 }	104 }

119	105

120 // Clear the inline cache to initial state.	106 // Clear the inline cache to initial state.

121 static void Clear(Isolate* isolate, Address address);	107 static void Clear(Isolate* isolate, Address address);

122	108

123 // Returns if this IC is for contextual (no explicit receiver)

124 // access to properties.

125 bool IsUndeclaredGlobal(Handle<Object> receiver) {

126 if (receiver->IsGlobalObject()) {

127 return IsCallStub() \|\| IsContextual();

128 } else {

129 ASSERT(!IsContextual());

130 return false;

131 }

132 }

133

134 #ifdef DEBUG	109 #ifdef DEBUG

135 bool IsLoadStub() {	110 bool IsLoadStub() const {

136 return target()->is_load_stub() \|\| target()->is_keyed_load_stub();	111 return target()->is_load_stub() \|\| target()->is_keyed_load_stub();

137 }	112 }

138	113

139 bool IsStoreStub() {	114 bool IsStoreStub() const {

140 return target()->is_store_stub() \|\| target()->is_keyed_store_stub();	115 return target()->is_store_stub() \|\| target()->is_keyed_store_stub();

141 }	116 }

142	117

143 #endif	118 bool IsCallStub() const {

144 bool IsCallStub() {

145 return target()->is_call_stub() \|\| target()->is_keyed_call_stub();	119 return target()->is_call_stub() \|\| target()->is_keyed_call_stub();

146 }	120 }

	121 #endif

147	122

148 // Determines which map must be used for keeping the code stub.	123 // Determines which map must be used for keeping the code stub.

149 // These methods should not be called with undefined or null.	124 // These methods should not be called with undefined or null.

150 static inline InlineCacheHolderFlag GetCodeCacheForObject(Object* object);	125 static inline InlineCacheHolderFlag GetCodeCacheForObject(Object* object);

151 // TODO(verwaest): This currently returns a HeapObject rather than JSObject*	126 // TODO(verwaest): This currently returns a HeapObject rather than JSObject*

152 // since loading the IC for loading the length from strings are stored on	127 // since loading the IC for loading the length from strings are stored on

153 // the string map directly, rather than on the JSObject-typed prototype.	128 // the string map directly, rather than on the JSObject-typed prototype.

154 static inline HeapObject* GetCodeCacheHolder(Isolate* isolate,	129 static inline HeapObject* GetCodeCacheHolder(Isolate* isolate,

155 Object* object,	130 Object* object,

156 InlineCacheHolderFlag holder);	131 InlineCacheHolderFlag holder);

157	132

158 static inline InlineCacheHolderFlag GetCodeCacheFlag(Type* type);	133 static inline InlineCacheHolderFlag GetCodeCacheFlag(HeapType* type);

159 static inline Handle<Map> GetCodeCacheHolder(InlineCacheHolderFlag flag,	134 static inline Handle<Map> GetCodeCacheHolder(InlineCacheHolderFlag flag,

160 Type* type,	135 HeapType* type,

161 Isolate* isolate);	136 Isolate* isolate);

162	137

163 static bool IsCleared(Code* code) {	138 static bool IsCleared(Code* code) {

164 InlineCacheState state = code->ic_state();	139 InlineCacheState state = code->ic_state();

165 return state == UNINITIALIZED \|\| state == PREMONOMORPHIC;	140 return state == UNINITIALIZED \|\| state == PREMONOMORPHIC;

166 }	141 }

167	142

168 // Utility functions to convert maps to types and back. There are two special	143 // Utility functions to convert maps to types and back. There are two special

169 // cases:	144 // cases:

170 // - The heap_number_map is used as a marker which includes heap numbers as	145 // - The heap_number_map is used as a marker which includes heap numbers as

171 // well as smis.	146 // well as smis.

172 // - The oddball map is only used for booleans.	147 // - The oddball map is only used for booleans.

173 static Handle<Map> TypeToMap(Type* type, Isolate* isolate);	148 static Handle<Map> TypeToMap(HeapType* type, Isolate* isolate);

174 static Handle<Type> MapToType(Handle<Map> type);	149 static Handle<HeapType> MapToType(Handle<Map> map);

175 static Handle<Type> CurrentTypeOf(Handle<Object> object, Isolate* isolate);	150 static Handle<HeapType> CurrentTypeOf(

176	151 Handle<Object> object, Isolate* isolate);

177 ContextualMode contextual_mode() const {

178 return Contextual::decode(extra_ic_state());

179 }

180

181 bool IsContextual() const { return contextual_mode() == CONTEXTUAL; }

182	152

183 protected:	153 protected:

184 // Get the call-site target; used for determining the state.	154 // Get the call-site target; used for determining the state.

185 Handle<Code> target() const { return target_; }	155 Handle<Code> target() const { return target_; }

186	156

187 Address fp() const { return fp_; }	157 Address fp() const { return fp_; }

188 Address pc() const { return *pc_address_; }	158 Address pc() const { return *pc_address_; }

189 Isolate* isolate() const { return isolate_; }	159 Isolate* isolate() const { return isolate_; }

190	160

191 #ifdef ENABLE_DEBUGGER_SUPPORT	161 #ifdef ENABLE_DEBUGGER_SUPPORT

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225 Handle<Object> value = Handle<Code>::null());	195 Handle<Object> value = Handle<Code>::null());

226 virtual Handle<Code> CompileHandler(LookupResult* lookup,	196 virtual Handle<Code> CompileHandler(LookupResult* lookup,

227 Handle<Object> object,	197 Handle<Object> object,

228 Handle<String> name,	198 Handle<String> name,

229 Handle<Object> value,	199 Handle<Object> value,

230 InlineCacheHolderFlag cache_holder) {	200 InlineCacheHolderFlag cache_holder) {

231 UNREACHABLE();	201 UNREACHABLE();

232 return Handle<Code>::null();	202 return Handle<Code>::null();

233 }	203 }

234	204

235 void UpdateMonomorphicIC(Handle<Type> type,	205 void UpdateMonomorphicIC(Handle<HeapType> type,

236 Handle<Code> handler,	206 Handle<Code> handler,

237 Handle<String> name);	207 Handle<String> name);

238	208

239 bool UpdatePolymorphicIC(Handle<Type> type,	209 bool UpdatePolymorphicIC(Handle<HeapType> type,

240 Handle<String> name,	210 Handle<String> name,

241 Handle<Code> code);	211 Handle<Code> code);

242	212

243 virtual void UpdateMegamorphicCache(Type* type, Name* name, Code* code);	213 virtual void UpdateMegamorphicCache(HeapType* type, Name* name, Code* code);

244	214

245 void CopyICToMegamorphicCache(Handle<String> name);	215 void CopyICToMegamorphicCache(Handle<String> name);

246 bool IsTransitionOfMonomorphicTarget(Handle<Type> type);	216 bool IsTransitionOfMonomorphicTarget(Handle<HeapType> type);

247 void PatchCache(Handle<Type> type,	217 void PatchCache(Handle<HeapType> type,

248 Handle<String> name,	218 Handle<String> name,

249 Handle<Code> code);	219 Handle<Code> code);

250 virtual Code::Kind kind() const {	220 virtual Code::Kind kind() const {

251 UNREACHABLE();	221 UNREACHABLE();

252 return Code::STUB;	222 return Code::STUB;

253 }	223 }

254 virtual Handle<Code> slow_stub() const {	224 virtual Handle<Code> slow_stub() const {

255 UNREACHABLE();	225 UNREACHABLE();

256 return Handle<Code>::null();	226 return Handle<Code>::null();

257 }	227 }

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307	277

308 Address address() const { return address_; }	278 Address address() const { return address_; }

309	279

310 IC::UtilityId id() const { return id_; }	280 IC::UtilityId id() const { return id_; }

311 private:	281 private:

312 Address address_;	282 Address address_;

313 IC::UtilityId id_;	283 IC::UtilityId id_;

314 };	284 };

315	285

316	286

317 enum StringStubFeedback {

318 DEFAULT_STRING_STUB = 0,

319 STRING_INDEX_OUT_OF_BOUNDS = 1

320 };

321

322

323 class CallICBase: public IC {	287 class CallICBase: public IC {

324 public:	288 public:

325 // ExtraICState bits

326 class StringStubState: public BitField<StringStubFeedback, 0, 1> {};

327 static ExtraICState ComputeExtraICState(StringStubFeedback feedback) {

328 return StringStubState::encode(feedback);

329 }

330

331 // Returns a JSFunction or a Failure.	289 // Returns a JSFunction or a Failure.

332 MUST_USE_RESULT MaybeObject* LoadFunction(Handle<Object> object,	290 MUST_USE_RESULT MaybeObject* LoadFunction(Handle<Object> object,

333 Handle<String> name);	291 Handle<String> name);

334	292

335 protected:	293 protected:

336 CallICBase(Code::Kind kind, Isolate* isolate)	294 CallICBase(Code::Kind kind, Isolate* isolate)

337 : IC(EXTRA_CALL_FRAME, isolate), kind_(kind) {}	295 : IC(EXTRA_CALL_FRAME, isolate), kind_(kind) {}

338	296

339 // Compute a monomorphic stub if possible, otherwise return a null handle.	297 // Compute a monomorphic stub if possible, otherwise return a null handle.

340 Handle<Code> ComputeMonomorphicStub(LookupResult* lookup,	298 Handle<Code> ComputeMonomorphicStub(LookupResult* lookup,

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432 }	390 }

433	391

434 static void GenerateMegamorphic(MacroAssembler* masm, int argc);	392 static void GenerateMegamorphic(MacroAssembler* masm, int argc);

435 static void GenerateNormal(MacroAssembler* masm, int argc);	393 static void GenerateNormal(MacroAssembler* masm, int argc);

436 static void GenerateNonStrictArguments(MacroAssembler* masm, int argc);	394 static void GenerateNonStrictArguments(MacroAssembler* masm, int argc);

437 };	395 };

438	396

439	397

440 class LoadIC: public IC {	398 class LoadIC: public IC {

441 public:	399 public:

	400 // ExtraICState bits

	401 class Contextual: public BitField<ContextualMode, 0, 1> {};

	402 STATIC_ASSERT(static_cast<int>(NOT_CONTEXTUAL) == 0);

	403

	404 static ExtraICState ComputeExtraICState(ContextualMode mode) {

	405 return Contextual::encode(mode);

	406 }

	407

	408 static ContextualMode GetContextualMode(ExtraICState state) {

	409 return Contextual::decode(state);

	410 }

	411

	412 ContextualMode contextual_mode() const {

	413 return Contextual::decode(extra_ic_state());

	414 }

	415

442 explicit LoadIC(FrameDepth depth, Isolate* isolate)	416 explicit LoadIC(FrameDepth depth, Isolate* isolate)

443 : IC(depth, isolate) {	417 : IC(depth, isolate) {

444 ASSERT(IsLoadStub());	418 ASSERT(IsLoadStub());

445 }	419 }

446	420

	421 // Returns if this IC is for contextual (no explicit receiver)

	422 // access to properties.

	423 bool IsUndeclaredGlobal(Handle<Object> receiver) {

	424 if (receiver->IsGlobalObject()) {

	425 return contextual_mode() == CONTEXTUAL;

	426 } else {

	427 ASSERT(contextual_mode() != CONTEXTUAL);

	428 return false;

	429 }

	430 }

	431

447 // Code generator routines.	432 // Code generator routines.

448 static void GenerateInitialize(MacroAssembler* masm) { GenerateMiss(masm); }	433 static void GenerateInitialize(MacroAssembler* masm) { GenerateMiss(masm); }

449 static void GeneratePreMonomorphic(MacroAssembler* masm) {	434 static void GeneratePreMonomorphic(MacroAssembler* masm) {

450 GenerateMiss(masm);	435 GenerateMiss(masm);

451 }	436 }

452 static void GenerateMiss(MacroAssembler* masm);	437 static void GenerateMiss(MacroAssembler* masm);

453 static void GenerateMegamorphic(MacroAssembler* masm, ContextualMode mode);	438 static void GenerateMegamorphic(MacroAssembler* masm, ContextualMode mode);

454 static void GenerateNormal(MacroAssembler* masm);	439 static void GenerateNormal(MacroAssembler* masm);

455 static void GenerateRuntimeGetProperty(MacroAssembler* masm);	440 static void GenerateRuntimeGetProperty(MacroAssembler* masm);

456	441

457 static Handle<Code> initialize_stub(Isolate* isolate, ContextualMode mode);	442 static Handle<Code> initialize_stub(Isolate* isolate, ContextualMode mode);

458	443

459 MUST_USE_RESULT MaybeObject* Load(Handle<Object> object,	444 MUST_USE_RESULT MaybeObject* Load(Handle<Object> object,

460 Handle<String> name);	445 Handle<String> name);

461	446

462 protected:	447 protected:

463 virtual Code::Kind kind() const { return Code::LOAD_IC; }	448 virtual Code::Kind kind() const { return Code::LOAD_IC; }

464	449

	450 void set_target(Code* code) {

	451 // The contextual mode must be preserved across IC patching.

	452 ASSERT(GetContextualMode(code->extra_ic_state()) ==

	453 GetContextualMode(target()->extra_ic_state()));

	454

	455 IC::set_target(code);

	456 }

	457

465 virtual Handle<Code> slow_stub() const {	458 virtual Handle<Code> slow_stub() const {

466 return isolate()->builtins()->LoadIC_Slow();	459 return isolate()->builtins()->LoadIC_Slow();

467 }	460 }

468	461

469 virtual Handle<Code> megamorphic_stub();	462 virtual Handle<Code> megamorphic_stub();

470	463

471 // Update the inline cache and the global stub cache based on the	464 // Update the inline cache and the global stub cache based on the

472 // lookup result.	465 // lookup result.

473 void UpdateCaches(LookupResult* lookup,	466 void UpdateCaches(LookupResult* lookup,

474 Handle<Object> object,	467 Handle<Object> object,

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537 virtual Handle<Code> megamorphic_stub() {	530 virtual Handle<Code> megamorphic_stub() {

538 return isolate()->builtins()->KeyedLoadIC_Generic();	531 return isolate()->builtins()->KeyedLoadIC_Generic();

539 }	532 }

540 virtual Handle<Code> generic_stub() const {	533 virtual Handle<Code> generic_stub() const {

541 return isolate()->builtins()->KeyedLoadIC_Generic();	534 return isolate()->builtins()->KeyedLoadIC_Generic();

542 }	535 }

543 virtual Handle<Code> slow_stub() const {	536 virtual Handle<Code> slow_stub() const {

544 return isolate()->builtins()->KeyedLoadIC_Slow();	537 return isolate()->builtins()->KeyedLoadIC_Slow();

545 }	538 }

546	539

547 virtual void UpdateMegamorphicCache(Type* type, Name* name, Code* code) { }	540 virtual void UpdateMegamorphicCache(HeapType* type, Name* name, Code* code) {}

548	541

549 private:	542 private:

550 // Stub accessors.	543 // Stub accessors.

551 static Handle<Code> pre_monomorphic_stub(Isolate* isolate) {	544 static Handle<Code> pre_monomorphic_stub(Isolate* isolate) {

552 return isolate->builtins()->KeyedLoadIC_PreMonomorphic();	545 return isolate->builtins()->KeyedLoadIC_PreMonomorphic();

553 }	546 }

554 virtual Handle<Code> pre_monomorphic_stub() {	547 virtual Handle<Code> pre_monomorphic_stub() {

555 return pre_monomorphic_stub(isolate());	548 return pre_monomorphic_stub(isolate());

556 }	549 }

557 Handle<Code> indexed_interceptor_stub() {	550 Handle<Code> indexed_interceptor_stub() {

558 return isolate()->builtins()->KeyedLoadIC_IndexedInterceptor();	551 return isolate()->builtins()->KeyedLoadIC_IndexedInterceptor();

559 }	552 }

560 Handle<Code> non_strict_arguments_stub() {	553 Handle<Code> non_strict_arguments_stub() {

561 return isolate()->builtins()->KeyedLoadIC_NonStrictArguments();	554 return isolate()->builtins()->KeyedLoadIC_NonStrictArguments();

562 }	555 }

563 Handle<Code> string_stub() {	556 Handle<Code> string_stub() {

564 return isolate()->builtins()->KeyedLoadIC_String();	557 return isolate()->builtins()->KeyedLoadIC_String();

565 }	558 }

566	559

567 static void Clear(Isolate* isolate, Address address, Code* target);	560 static void Clear(Isolate* isolate, Address address, Code* target);

568	561

569 friend class IC;	562 friend class IC;

570 };	563 };

571	564

572	565

573 class StoreIC: public IC {	566 class StoreIC: public IC {

574 public:	567 public:

575 // ExtraICState bits

576 class StrictModeState: public BitField<StrictModeFlag, 1, 1> {};	568 class StrictModeState: public BitField<StrictModeFlag, 1, 1> {};

577 static ExtraICState ComputeExtraICState(StrictModeFlag flag) {	569 static ExtraICState ComputeExtraICState(StrictModeFlag flag) {

578 return StrictModeState::encode(flag);	570 return StrictModeState::encode(flag);

579 }	571 }

580	572

581 static ExtraICState ComputeExtraICState(StrictModeFlag flag,

582 ContextualMode mode) {

583 return StrictModeState::encode(flag) \| Contextual::encode(mode);

584 }

585

586 static StrictModeFlag GetStrictMode(ExtraICState state) {	573 static StrictModeFlag GetStrictMode(ExtraICState state) {

587 return StrictModeState::decode(state);	574 return StrictModeState::decode(state);

588 }	575 }

589	576

590 // For convenience, a statically declared encoding of strict mode extra	577 // For convenience, a statically declared encoding of strict mode extra

591 // IC state.	578 // IC state.

592 static const ExtraICState kStrictModeState =	579 static const ExtraICState kStrictModeState =

593 1 << StrictModeState::kShift;	580 1 << StrictModeState::kShift;

594	581

595 StoreIC(FrameDepth depth, Isolate* isolate)	582 StoreIC(FrameDepth depth, Isolate* isolate)

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608 GenerateMiss(masm);	595 GenerateMiss(masm);

609 }	596 }

610 static void GenerateMiss(MacroAssembler* masm);	597 static void GenerateMiss(MacroAssembler* masm);

611 static void GenerateMegamorphic(MacroAssembler* masm,	598 static void GenerateMegamorphic(MacroAssembler* masm,

612 ExtraICState extra_ic_state);	599 ExtraICState extra_ic_state);

613 static void GenerateNormal(MacroAssembler* masm);	600 static void GenerateNormal(MacroAssembler* masm);

614 static void GenerateRuntimeSetProperty(MacroAssembler* masm,	601 static void GenerateRuntimeSetProperty(MacroAssembler* masm,

615 StrictModeFlag strict_mode);	602 StrictModeFlag strict_mode);

616	603

617 static Handle<Code> initialize_stub(Isolate* isolate,	604 static Handle<Code> initialize_stub(Isolate* isolate,

618 StrictModeFlag strict_mode,	605 StrictModeFlag strict_mode);

619 ContextualMode mode);

620	606

621 MUST_USE_RESULT MaybeObject* Store(	607 MUST_USE_RESULT MaybeObject* Store(

622 Handle<Object> object,	608 Handle<Object> object,

623 Handle<String> name,	609 Handle<String> name,

624 Handle<Object> value,	610 Handle<Object> value,

625 JSReceiver::StoreFromKeyed store_mode =	611 JSReceiver::StoreFromKeyed store_mode =

626 JSReceiver::CERTAINLY_NOT_STORE_FROM_KEYED);	612 JSReceiver::CERTAINLY_NOT_STORE_FROM_KEYED);

627	613

628 protected:	614 protected:

629 virtual Code::Kind kind() const { return Code::STORE_IC; }	615 virtual Code::Kind kind() const { return Code::STORE_IC; }

630 virtual Handle<Code> megamorphic_stub();	616 virtual Handle<Code> megamorphic_stub();

631	617

632 // Stub accessors.	618 // Stub accessors.

633 virtual Handle<Code> generic_stub() const;	619 virtual Handle<Code> generic_stub() const;

634	620

635 virtual Handle<Code> slow_stub() const {	621 virtual Handle<Code> slow_stub() const {

636 return isolate()->builtins()->StoreIC_Slow();	622 return isolate()->builtins()->StoreIC_Slow();

637 }	623 }

638	624

639 virtual Handle<Code> pre_monomorphic_stub() {	625 virtual Handle<Code> pre_monomorphic_stub() {

640 return pre_monomorphic_stub(isolate(), strict_mode(), contextual_mode());	626 return pre_monomorphic_stub(isolate(), strict_mode());

641 }	627 }

642	628

643 static Handle<Code> pre_monomorphic_stub(Isolate* isolate,	629 static Handle<Code> pre_monomorphic_stub(Isolate* isolate,

644 StrictModeFlag strict_mode,	630 StrictModeFlag strict_mode);

645 ContextualMode contextual_mode);

646	631

647 // Update the inline cache and the global stub cache based on the	632 // Update the inline cache and the global stub cache based on the

648 // lookup result.	633 // lookup result.

649 void UpdateCaches(LookupResult* lookup,	634 void UpdateCaches(LookupResult* lookup,

650 Handle<JSObject> receiver,	635 Handle<JSObject> receiver,

651 Handle<String> name,	636 Handle<String> name,

652 Handle<Object> value);	637 Handle<Object> value);

653 virtual Handle<Code> CompileHandler(LookupResult* lookup,	638 virtual Handle<Code> CompileHandler(LookupResult* lookup,

654 Handle<Object> object,	639 Handle<Object> object,

655 Handle<String> name,	640 Handle<String> name,

656 Handle<Object> value,	641 Handle<Object> value,

657 InlineCacheHolderFlag cache_holder);	642 InlineCacheHolderFlag cache_holder);

658	643

659 private:	644 private:

660 void set_target(Code* code) {	645 void set_target(Code* code) {

661 // Strict mode must be preserved across IC patching.	646 // Strict mode must be preserved across IC patching.

662 ASSERT(GetStrictMode(code->extra_ic_state()) ==	647 ASSERT(GetStrictMode(code->extra_ic_state()) ==

663 GetStrictMode(target()->extra_ic_state()));	648 GetStrictMode(target()->extra_ic_state()));

664 // As must the contextual mode

665 ASSERT(GetContextualMode(code->extra_ic_state()) ==

666 GetContextualMode(target()->extra_ic_state()));

667 IC::set_target(code);	649 IC::set_target(code);

668 }	650 }

669	651

670 static void Clear(Isolate* isolate, Address address, Code* target);	652 static void Clear(Isolate* isolate, Address address, Code* target);

671	653

672 friend class IC;	654 friend class IC;

673 };	655 };

674	656

675	657

676 enum KeyedStoreCheckMap {	658 enum KeyedStoreCheckMap {

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720 static void GenerateMiss(MacroAssembler* masm);	702 static void GenerateMiss(MacroAssembler* masm);

721 static void GenerateSlow(MacroAssembler* masm);	703 static void GenerateSlow(MacroAssembler* masm);

722 static void GenerateRuntimeSetProperty(MacroAssembler* masm,	704 static void GenerateRuntimeSetProperty(MacroAssembler* masm,

723 StrictModeFlag strict_mode);	705 StrictModeFlag strict_mode);

724 static void GenerateGeneric(MacroAssembler* masm, StrictModeFlag strict_mode);	706 static void GenerateGeneric(MacroAssembler* masm, StrictModeFlag strict_mode);

725 static void GenerateNonStrictArguments(MacroAssembler* masm);	707 static void GenerateNonStrictArguments(MacroAssembler* masm);

726	708

727 protected:	709 protected:

728 virtual Code::Kind kind() const { return Code::KEYED_STORE_IC; }	710 virtual Code::Kind kind() const { return Code::KEYED_STORE_IC; }

729	711

730 virtual void UpdateMegamorphicCache(Type* type, Name* name, Code* code) { }	712 virtual void UpdateMegamorphicCache(HeapType* type, Name* name, Code* code) {}

731	713

732 virtual Handle<Code> pre_monomorphic_stub() {	714 virtual Handle<Code> pre_monomorphic_stub() {

733 return pre_monomorphic_stub(isolate(), strict_mode());	715 return pre_monomorphic_stub(isolate(), strict_mode());

734 }	716 }

735 static Handle<Code> pre_monomorphic_stub(Isolate* isolate,	717 static Handle<Code> pre_monomorphic_stub(Isolate* isolate,

736 StrictModeFlag strict_mode) {	718 StrictModeFlag strict_mode) {

737 if (strict_mode == kStrictMode) {	719 if (strict_mode == kStrictMode) {

738 return isolate->builtins()->KeyedStoreIC_PreMonomorphic_Strict();	720 return isolate->builtins()->KeyedStoreIC_PreMonomorphic_Strict();

739 } else {	721 } else {

740 return isolate->builtins()->KeyedStoreIC_PreMonomorphic();	722 return isolate->builtins()->KeyedStoreIC_PreMonomorphic();

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855 return KindMaybeSmi(left_kind_) \|\| KindMaybeSmi(right_kind_);	837 return KindMaybeSmi(left_kind_) \|\| KindMaybeSmi(right_kind_);

856 }	838 }

857	839

858 static const int FIRST_TOKEN = Token::BIT_OR;	840 static const int FIRST_TOKEN = Token::BIT_OR;

859 static const int LAST_TOKEN = Token::MOD;	841 static const int LAST_TOKEN = Token::MOD;

860	842

861 Token::Value op() const { return op_; }	843 Token::Value op() const { return op_; }

862 OverwriteMode mode() const { return mode_; }	844 OverwriteMode mode() const { return mode_; }

863 Maybe<int> fixed_right_arg() const { return fixed_right_arg_; }	845 Maybe<int> fixed_right_arg() const { return fixed_right_arg_; }

864	846

865 Handle<Type> GetLeftType(Isolate* isolate) const {	847 Type* GetLeftType(Zone* zone) const {

866 return KindToType(left_kind_, isolate);	848 return KindToType(left_kind_, zone);

867 }	849 }

868 Handle<Type> GetRightType(Isolate* isolate) const {	850 Type* GetRightType(Zone* zone) const {

869 return KindToType(right_kind_, isolate);	851 return KindToType(right_kind_, zone);

870 }	852 }

871 Handle<Type> GetResultType(Isolate* isolate) const;	853 Type* GetResultType(Zone* zone) const;

872	854

873 void Print(StringStream* stream) const;	855 void Print(StringStream* stream) const;

874	856

875 void Update(Handle<Object> left,	857 void Update(Handle<Object> left,

876 Handle<Object> right,	858 Handle<Object> right,

877 Handle<Object> result);	859 Handle<Object> result);

878	860

879 private:	861 private:

880 enum Kind { NONE, SMI, INT32, NUMBER, STRING, GENERIC };	862 enum Kind { NONE, SMI, INT32, NUMBER, STRING, GENERIC };

881	863

882 Kind UpdateKind(Handle<Object> object, Kind kind) const;	864 Kind UpdateKind(Handle<Object> object, Kind kind) const;

883	865

884 static const char* KindToString(Kind kind);	866 static const char* KindToString(Kind kind);

885 static Handle<Type> KindToType(Kind kind, Isolate* isolate);	867 static Type* KindToType(Kind kind, Zone* zone);

886 static bool KindMaybeSmi(Kind kind) {	868 static bool KindMaybeSmi(Kind kind) {

887 return (kind >= SMI && kind <= NUMBER) \|\| kind == GENERIC;	869 return (kind >= SMI && kind <= NUMBER) \|\| kind == GENERIC;

888 }	870 }

889	871

890 // We truncate the last bit of the token.	872 // We truncate the last bit of the token.

891 STATIC_ASSERT(LAST_TOKEN - FIRST_TOKEN < (1 << 4));	873 STATIC_ASSERT(LAST_TOKEN - FIRST_TOKEN < (1 << 4));

892 class OpField: public BitField<int, 0, 4> {};	874 class OpField: public BitField<int, 0, 4> {};

893 class OverwriteModeField: public BitField<OverwriteMode, 4, 2> {};	875 class OverwriteModeField: public BitField<OverwriteMode, 4, 2> {};

894 class SSE2Field: public BitField<bool, 6, 1> {};	876 class SSE2Field: public BitField<bool, 6, 1> {};

895 class ResultKindField: public BitField<Kind, 7, 3> {};	877 class ResultKindField: public BitField<Kind, 7, 3> {};

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933 STRING,	915 STRING,

934 INTERNALIZED_STRING,	916 INTERNALIZED_STRING,

935 UNIQUE_NAME, // Symbol or InternalizedString	917 UNIQUE_NAME, // Symbol or InternalizedString

936 OBJECT, // JSObject	918 OBJECT, // JSObject

937 KNOWN_OBJECT, // JSObject with specific map (faster check)	919 KNOWN_OBJECT, // JSObject with specific map (faster check)

938 GENERIC	920 GENERIC

939 };	921 };

940	922

941 static State NewInputState(State old_state, Handle<Object> value);	923 static State NewInputState(State old_state, Handle<Object> value);

942	924

943 static Handle<Type> StateToType(Isolate* isolate,	925 static Type* StateToType(Zone* zone,

944 State state,	926 State state,

945 Handle<Map> map = Handle<Map>());	927 Handle<Map> map = Handle<Map>());

946	928

947 static void StubInfoToType(int stub_minor_key,	929 static void StubInfoToType(int stub_minor_key,

948 Handle<Type>* left_type,	930 Type** left_type,

949 Handle<Type>* right_type,	931 Type** right_type,

950 Handle<Type>* overall_type,	932 Type** overall_type,

951 Handle<Map> map,	933 Handle<Map> map,

952 Isolate* isolate);	934 Zone* zone);

953	935

954 CompareIC(Isolate* isolate, Token::Value op)	936 CompareIC(Isolate* isolate, Token::Value op)

955 : IC(EXTRA_CALL_FRAME, isolate), op_(op) { }	937 : IC(EXTRA_CALL_FRAME, isolate), op_(op) { }

956	938

957 // Update the inline cache for the given operands.	939 // Update the inline cache for the given operands.

958 Code* UpdateCaches(Handle<Object> x, Handle<Object> y);	940 Code* UpdateCaches(Handle<Object> x, Handle<Object> y);

959	941

960	942

961 // Factory method for getting an uninitialized compare stub.	943 // Factory method for getting an uninitialized compare stub.

962 static Handle<Code> GetUninitialized(Isolate* isolate, Token::Value op);	944 static Handle<Code> GetUninitialized(Isolate* isolate, Token::Value op);

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1024 DECLARE_RUNTIME_FUNCTION(MaybeObject*, ElementsTransitionAndStoreIC_Miss);	1006 DECLARE_RUNTIME_FUNCTION(MaybeObject*, ElementsTransitionAndStoreIC_Miss);

1025 DECLARE_RUNTIME_FUNCTION(MaybeObject*, BinaryOpIC_Miss);	1007 DECLARE_RUNTIME_FUNCTION(MaybeObject*, BinaryOpIC_Miss);

1026 DECLARE_RUNTIME_FUNCTION(MaybeObject*, BinaryOpIC_MissWithAllocationSite);	1008 DECLARE_RUNTIME_FUNCTION(MaybeObject*, BinaryOpIC_MissWithAllocationSite);

1027 DECLARE_RUNTIME_FUNCTION(MaybeObject*, CompareNilIC_Miss);	1009 DECLARE_RUNTIME_FUNCTION(MaybeObject*, CompareNilIC_Miss);

1028 DECLARE_RUNTIME_FUNCTION(MaybeObject*, ToBooleanIC_Miss);	1010 DECLARE_RUNTIME_FUNCTION(MaybeObject*, ToBooleanIC_Miss);

1029	1011

1030	1012

1031 } } // namespace v8::internal	1013 } } // namespace v8::internal

1032	1014

1033 #endif // V8_IC_H_	1015 #endif // V8_IC_H_

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