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1 // Copyright 2012 the V8 project authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
4 
5 #ifndef V8_IC_H_
6 #define V8_IC_H_
7 
8 #include "src/ic/ic-state.h"
9 #include "src/macro-assembler.h"
10 #include "src/messages.h"
11 
12 namespace v8 {
13 namespace internal {
14 
15 //
16 // IC is the base class for LoadIC, StoreIC, KeyedLoadIC, and KeyedStoreIC.
17 //
18 class IC {
19  public:
20   // Alias the inline cache state type to make the IC code more readable.
21   typedef InlineCacheState State;
22 
23   // The IC code is either invoked with no extra frames on the stack
24   // or with a single extra frame for supporting calls.
25   enum FrameDepth { NO_EXTRA_FRAME = 0, EXTRA_CALL_FRAME = 1 };
26 
27   // Construct the IC structure with the given number of extra
28   // JavaScript frames on the stack.
29   IC(FrameDepth depth, Isolate* isolate, FeedbackNexus* nexus = NULL);
~IC()30   virtual ~IC() {}
31 
state()32   State state() const { return state_; }
33   inline Address address() const;
34 
35   // Compute the current IC state based on the target stub, receiver and name.
36   void UpdateState(Handle<Object> receiver, Handle<Object> name);
37 
38   bool IsNameCompatibleWithPrototypeFailure(Handle<Object> name);
MarkPrototypeFailure(Handle<Object> name)39   void MarkPrototypeFailure(Handle<Object> name) {
40     DCHECK(IsNameCompatibleWithPrototypeFailure(name));
41     old_state_ = state_;
42     state_ = PROTOTYPE_FAILURE;
43   }
44 
45   // Clear the inline cache to initial state.
46   static void Clear(Isolate* isolate, Address address, Address constant_pool);
47 
48 #ifdef DEBUG
IsLoadStub()49   bool IsLoadStub() const {
50     return target()->is_load_stub() || target()->is_keyed_load_stub();
51   }
52 
IsStoreStub()53   bool IsStoreStub() const {
54     return target()->is_store_stub() || target()->is_keyed_store_stub();
55   }
56 
IsCallStub()57   bool IsCallStub() const { return target()->is_call_stub(); }
58 #endif
59 
60   static inline Handle<Map> GetHandlerCacheHolder(Handle<Map> receiver_map,
61                                                   bool receiver_is_holder,
62                                                   Isolate* isolate,
63                                                   CacheHolderFlag* flag);
64   static inline Handle<Map> GetICCacheHolder(Handle<Map> receiver_map,
65                                              Isolate* isolate,
66                                              CacheHolderFlag* flag);
67 
IsCleared(Code * code)68   static bool IsCleared(Code* code) {
69     InlineCacheState state = code->ic_state();
70     return !FLAG_use_ic || state == UNINITIALIZED || state == PREMONOMORPHIC;
71   }
72 
IsCleared(FeedbackNexus * nexus)73   static bool IsCleared(FeedbackNexus* nexus) {
74     InlineCacheState state = nexus->StateFromFeedback();
75     return !FLAG_use_ic || state == UNINITIALIZED || state == PREMONOMORPHIC;
76   }
77 
ICUseVector(Code::Kind kind)78   static bool ICUseVector(Code::Kind kind) {
79     return kind == Code::LOAD_IC || kind == Code::KEYED_LOAD_IC ||
80            kind == Code::CALL_IC || kind == Code::STORE_IC ||
81            kind == Code::KEYED_STORE_IC;
82   }
83 
84  protected:
85   // Get the call-site target; used for determining the state.
target()86   Handle<Code> target() const { return target_; }
87 
fp()88   Address fp() const { return fp_; }
pc()89   Address pc() const { return *pc_address_; }
isolate()90   Isolate* isolate() const { return isolate_; }
91 
92   // Get the shared function info of the caller.
93   SharedFunctionInfo* GetSharedFunctionInfo() const;
94   // Get the code object of the caller.
95   Code* GetCode() const;
96 
97   bool AddressIsOptimizedCode() const;
98   inline bool AddressIsDeoptimizedCode() const;
99   inline static bool AddressIsDeoptimizedCode(Isolate* isolate,
100                                               Address address);
101 
102   // Set the call-site target.
103   inline void set_target(Code* code);
is_target_set()104   bool is_target_set() { return target_set_; }
is_vector_set()105   bool is_vector_set() { return vector_set_; }
106 
UseVector()107   bool UseVector() const {
108     bool use = ICUseVector(kind());
109     // If we are supposed to use the nexus, verify the nexus is non-null.
110     DCHECK(!use || nexus_ != NULL);
111     return use;
112   }
113 
114   // Configure for most states.
115   void ConfigureVectorState(IC::State new_state);
116   // Configure the vector for MONOMORPHIC.
117   void ConfigureVectorState(Handle<Name> name, Handle<Map> map,
118                             Handle<Code> handler);
119   // Configure the vector for POLYMORPHIC.
120   void ConfigureVectorState(Handle<Name> name, MapHandleList* maps,
121                             CodeHandleList* handlers);
122   // Configure the vector for POLYMORPHIC with transitions (only for element
123   // keyed stores).
124   void ConfigureVectorState(MapHandleList* maps,
125                             MapHandleList* transitioned_maps,
126                             CodeHandleList* handlers);
127 
128   char TransitionMarkFromState(IC::State state);
129   void TraceIC(const char* type, Handle<Object> name);
130   void TraceIC(const char* type, Handle<Object> name, State old_state,
131                State new_state);
132 
133   MaybeHandle<Object> TypeError(MessageTemplate::Template,
134                                 Handle<Object> object, Handle<Object> key);
135   MaybeHandle<Object> ReferenceError(Handle<Name> name);
136 
137   // Access the target code for the given IC address.
138   static inline Code* GetTargetAtAddress(Address address,
139                                          Address constant_pool);
140   static inline void SetTargetAtAddress(Address address, Code* target,
141                                         Address constant_pool);
142   static void OnTypeFeedbackChanged(Isolate* isolate, Address address,
143                                     State old_state, State new_state,
144                                     bool target_remains_ic_stub);
145   // As a vector-based IC, type feedback must be updated differently.
146   static void OnTypeFeedbackChanged(Isolate* isolate, Code* host);
147   static void PostPatching(Address address, Code* target, Code* old_target);
148 
149   // Compute the handler either by compiling or by retrieving a cached version.
150   Handle<Code> ComputeHandler(LookupIterator* lookup,
151                               Handle<Object> value = Handle<Code>::null());
CompileHandler(LookupIterator * lookup,Handle<Object> value,CacheHolderFlag cache_holder)152   virtual Handle<Code> CompileHandler(LookupIterator* lookup,
153                                       Handle<Object> value,
154                                       CacheHolderFlag cache_holder) {
155     UNREACHABLE();
156     return Handle<Code>::null();
157   }
158 
159   void UpdateMonomorphicIC(Handle<Code> handler, Handle<Name> name);
160   bool UpdatePolymorphicIC(Handle<Name> name, Handle<Code> code);
161   void UpdateMegamorphicCache(Map* map, Name* name, Code* code);
162 
163   void CopyICToMegamorphicCache(Handle<Name> name);
164   bool IsTransitionOfMonomorphicTarget(Map* source_map, Map* target_map);
165   void PatchCache(Handle<Name> name, Handle<Code> code);
kind()166   Code::Kind kind() const { return kind_; }
handler_kind()167   Code::Kind handler_kind() const {
168     if (kind_ == Code::KEYED_LOAD_IC) return Code::LOAD_IC;
169     DCHECK(kind_ == Code::LOAD_IC || kind_ == Code::STORE_IC ||
170            kind_ == Code::KEYED_STORE_IC);
171     return kind_;
172   }
megamorphic_stub()173   virtual Handle<Code> megamorphic_stub() {
174     UNREACHABLE();
175     return Handle<Code>::null();
176   }
177 
178   bool TryRemoveInvalidPrototypeDependentStub(Handle<Object> receiver,
179                                               Handle<String> name);
180 
extra_ic_state()181   ExtraICState extra_ic_state() const { return extra_ic_state_; }
set_extra_ic_state(ExtraICState state)182   void set_extra_ic_state(ExtraICState state) { extra_ic_state_ = state; }
183 
receiver_map()184   Handle<Map> receiver_map() { return receiver_map_; }
update_receiver_map(Handle<Object> receiver)185   void update_receiver_map(Handle<Object> receiver) {
186     if (receiver->IsSmi()) {
187       receiver_map_ = isolate_->factory()->heap_number_map();
188     } else {
189       receiver_map_ = handle(HeapObject::cast(*receiver)->map());
190     }
191   }
192 
TargetMaps(MapHandleList * list)193   void TargetMaps(MapHandleList* list) {
194     FindTargetMaps();
195     for (int i = 0; i < target_maps_.length(); i++) {
196       list->Add(target_maps_.at(i));
197     }
198   }
199 
FirstTargetMap()200   Map* FirstTargetMap() {
201     FindTargetMaps();
202     return target_maps_.length() > 0 ? *target_maps_.at(0) : NULL;
203   }
204 
205   inline void UpdateTarget();
206 
vector()207   Handle<TypeFeedbackVector> vector() const { return nexus()->vector_handle(); }
slot()208   FeedbackVectorSlot slot() const { return nexus()->slot(); }
saved_state()209   State saved_state() const {
210     return state() == PROTOTYPE_FAILURE ? old_state_ : state();
211   }
212 
213   template <class NexusClass>
casted_nexus()214   NexusClass* casted_nexus() {
215     return static_cast<NexusClass*>(nexus_);
216   }
nexus()217   FeedbackNexus* nexus() const { return nexus_; }
218 
219   inline Code* get_host();
220 
221  private:
222   inline Code* raw_target() const;
223   inline Address constant_pool() const;
224   inline Address raw_constant_pool() const;
225 
FindTargetMaps()226   void FindTargetMaps() {
227     if (target_maps_set_) return;
228     target_maps_set_ = true;
229     if (UseVector()) {
230       nexus()->ExtractMaps(&target_maps_);
231     } else {
232       if (state_ == MONOMORPHIC) {
233         Map* map = target_->FindFirstMap();
234         if (map != NULL) target_maps_.Add(handle(map));
235       } else if (state_ != UNINITIALIZED && state_ != PREMONOMORPHIC) {
236         target_->FindAllMaps(&target_maps_);
237       }
238     }
239   }
240 
241   // Frame pointer for the frame that uses (calls) the IC.
242   Address fp_;
243 
244   // All access to the program counter and constant pool of an IC structure is
245   // indirect to make the code GC safe. This feature is crucial since
246   // GetProperty and SetProperty are called and they in turn might
247   // invoke the garbage collector.
248   Address* pc_address_;
249 
250   // The constant pool of the code which originally called the IC (which might
251   // be for the breakpointed copy of the original code).
252   Address* constant_pool_address_;
253 
254   Isolate* isolate_;
255 
256   // The original code target that missed.
257   Handle<Code> target_;
258   bool target_set_;
259   bool vector_set_;
260   State old_state_;  // For saving if we marked as prototype failure.
261   State state_;
262   Code::Kind kind_;
263   Handle<Map> receiver_map_;
264   MaybeHandle<Code> maybe_handler_;
265 
266   ExtraICState extra_ic_state_;
267   MapHandleList target_maps_;
268   bool target_maps_set_;
269 
270   FeedbackNexus* nexus_;
271 
272   DISALLOW_IMPLICIT_CONSTRUCTORS(IC);
273 };
274 
275 
276 class CallIC : public IC {
277  public:
CallIC(Isolate * isolate,CallICNexus * nexus)278   CallIC(Isolate* isolate, CallICNexus* nexus)
279       : IC(EXTRA_CALL_FRAME, isolate, nexus) {
280     DCHECK(nexus != NULL);
281   }
282 
283   void HandleMiss(Handle<Object> function);
284 
285   // Code generator routines.
286   static Handle<Code> initialize_stub(Isolate* isolate, int argc,
287                                       ConvertReceiverMode mode);
288   static Handle<Code> initialize_stub_in_optimized_code(
289       Isolate* isolate, int argc, ConvertReceiverMode mode);
290 
291   static void Clear(Isolate* isolate, Code* host, CallICNexus* nexus);
292 };
293 
294 
295 class LoadIC : public IC {
296  public:
ComputeExtraICState(TypeofMode typeof_mode,LanguageMode language_mode)297   static ExtraICState ComputeExtraICState(TypeofMode typeof_mode,
298                                           LanguageMode language_mode) {
299     return LoadICState(typeof_mode, language_mode).GetExtraICState();
300   }
301 
typeof_mode()302   TypeofMode typeof_mode() const {
303     return LoadICState::GetTypeofMode(extra_ic_state());
304   }
305 
language_mode()306   LanguageMode language_mode() const {
307     return LoadICState::GetLanguageMode(extra_ic_state());
308   }
309 
310   LoadIC(FrameDepth depth, Isolate* isolate, FeedbackNexus* nexus = NULL)
IC(depth,isolate,nexus)311       : IC(depth, isolate, nexus) {
312     DCHECK(nexus != NULL);
313     DCHECK(IsLoadStub());
314   }
315 
ShouldThrowReferenceError(Handle<Object> receiver)316   bool ShouldThrowReferenceError(Handle<Object> receiver) {
317     return receiver->IsJSGlobalObject() && typeof_mode() == NOT_INSIDE_TYPEOF;
318   }
319 
320   // Code generator routines.
321 
GenerateInitialize(MacroAssembler * masm)322   static void GenerateInitialize(MacroAssembler* masm) { GenerateMiss(masm); }
323   static void GenerateMiss(MacroAssembler* masm);
324   static void GenerateRuntimeGetProperty(MacroAssembler* masm,
325                                          LanguageMode language_mode);
326   static void GenerateNormal(MacroAssembler* masm, LanguageMode language_mode);
327 
328   static Handle<Code> initialize_stub(Isolate* isolate,
329                                       ExtraICState extra_state);
330   static Handle<Code> initialize_stub_in_optimized_code(
331       Isolate* isolate, ExtraICState extra_state, State initialization_state);
332 
333   MUST_USE_RESULT MaybeHandle<Object> Load(Handle<Object> object,
334                                            Handle<Name> name);
335 
336   static void Clear(Isolate* isolate, Code* host, LoadICNexus* nexus);
337 
338  protected:
339   inline void set_target(Code* code);
340 
slow_stub()341   Handle<Code> slow_stub() const {
342     if (kind() == Code::LOAD_IC) {
343       return is_strong(language_mode())
344                  ? isolate()->builtins()->LoadIC_Slow_Strong()
345                  : isolate()->builtins()->LoadIC_Slow();
346     } else {
347       DCHECK_EQ(Code::KEYED_LOAD_IC, kind());
348       return is_strong(language_mode())
349                  ? isolate()->builtins()->KeyedLoadIC_Slow_Strong()
350                  : isolate()->builtins()->KeyedLoadIC_Slow();
351     }
352   }
353 
354   Handle<Code> megamorphic_stub() override;
355 
356   // Update the inline cache and the global stub cache based on the
357   // lookup result.
358   void UpdateCaches(LookupIterator* lookup);
359 
360   Handle<Code> CompileHandler(LookupIterator* lookup, Handle<Object> unused,
361                               CacheHolderFlag cache_holder) override;
362 
363  private:
364   Handle<Code> SimpleFieldLoad(FieldIndex index);
365 
366   static void Clear(Isolate* isolate, Address address, Code* target,
367                     Address constant_pool);
368 
369   friend class IC;
370 };
371 
372 
373 class KeyedLoadIC : public LoadIC {
374  public:
375   // ExtraICState bits (building on IC)
376   class IcCheckTypeField
377       : public BitField<IcCheckType, LoadICState::kNextBitFieldOffset, 1> {};
378 
ComputeExtraICState(TypeofMode typeof_mode,LanguageMode language_mode,IcCheckType key_type)379   static ExtraICState ComputeExtraICState(TypeofMode typeof_mode,
380                                           LanguageMode language_mode,
381                                           IcCheckType key_type) {
382     return LoadICState(typeof_mode, language_mode).GetExtraICState() |
383            IcCheckTypeField::encode(key_type);
384   }
385 
GetKeyType(ExtraICState extra_state)386   static IcCheckType GetKeyType(ExtraICState extra_state) {
387     return IcCheckTypeField::decode(extra_state);
388   }
389 
390   KeyedLoadIC(FrameDepth depth, Isolate* isolate,
391               KeyedLoadICNexus* nexus = NULL)
LoadIC(depth,isolate,nexus)392       : LoadIC(depth, isolate, nexus) {
393     DCHECK(nexus != NULL);
394     DCHECK(target()->is_keyed_load_stub());
395   }
396 
397   MUST_USE_RESULT MaybeHandle<Object> Load(Handle<Object> object,
398                                            Handle<Object> key);
399 
400   // Code generator routines.
401   static void GenerateMiss(MacroAssembler* masm);
402   static void GenerateRuntimeGetProperty(MacroAssembler* masm,
403                                          LanguageMode language_mode);
GenerateInitialize(MacroAssembler * masm)404   static void GenerateInitialize(MacroAssembler* masm) { GenerateMiss(masm); }
405   static void GenerateMegamorphic(MacroAssembler* masm,
406                                   LanguageMode language_mode);
407 
408   // Bit mask to be tested against bit field for the cases when
409   // generic stub should go into slow case.
410   // Access check is necessary explicitly since generic stub does not perform
411   // map checks.
412   static const int kSlowCaseBitFieldMask =
413       (1 << Map::kIsAccessCheckNeeded) | (1 << Map::kHasIndexedInterceptor);
414 
415   static Handle<Code> initialize_stub(Isolate* isolate,
416                                       ExtraICState extra_state);
417   static Handle<Code> initialize_stub_in_optimized_code(
418       Isolate* isolate, State initialization_state, ExtraICState extra_state);
419   static Handle<Code> ChooseMegamorphicStub(Isolate* isolate,
420                                             ExtraICState extra_state);
421 
422   static void Clear(Isolate* isolate, Code* host, KeyedLoadICNexus* nexus);
423 
424  protected:
425   // receiver is HeapObject because it could be a String or a JSObject
426   Handle<Code> LoadElementStub(Handle<HeapObject> receiver);
427 
428  private:
429   static void Clear(Isolate* isolate, Address address, Code* target,
430                     Address constant_pool);
431 
432   friend class IC;
433 };
434 
435 
436 class StoreIC : public IC {
437  public:
ComputeExtraICState(LanguageMode flag)438   static ExtraICState ComputeExtraICState(LanguageMode flag) {
439     return StoreICState(flag).GetExtraICState();
440   }
441 
442   StoreIC(FrameDepth depth, Isolate* isolate, FeedbackNexus* nexus = NULL)
IC(depth,isolate,nexus)443       : IC(depth, isolate, nexus) {
444     DCHECK(IsStoreStub());
445   }
446 
language_mode()447   LanguageMode language_mode() const {
448     return StoreICState::GetLanguageMode(extra_ic_state());
449   }
450 
451   // Code generators for stub routines. Only called once at startup.
452   static void GenerateSlow(MacroAssembler* masm);
GenerateInitialize(MacroAssembler * masm)453   static void GenerateInitialize(MacroAssembler* masm) { GenerateMiss(masm); }
GeneratePreMonomorphic(MacroAssembler * masm)454   static void GeneratePreMonomorphic(MacroAssembler* masm) {
455     GenerateMiss(masm);
456   }
457   static void GenerateMiss(MacroAssembler* masm);
458   static void GenerateMegamorphic(MacroAssembler* masm);
459   static void GenerateNormal(MacroAssembler* masm);
460   static void GenerateRuntimeSetProperty(MacroAssembler* masm,
461                                          LanguageMode language_mode);
462 
463   static Handle<Code> initialize_stub(Isolate* isolate,
464                                       LanguageMode language_mode,
465                                       State initialization_state);
466   static Handle<Code> initialize_stub_in_optimized_code(
467       Isolate* isolate, LanguageMode language_mode, State initialization_state);
468 
469   MUST_USE_RESULT MaybeHandle<Object> Store(
470       Handle<Object> object, Handle<Name> name, Handle<Object> value,
471       JSReceiver::StoreFromKeyed store_mode =
472           JSReceiver::CERTAINLY_NOT_STORE_FROM_KEYED);
473 
474   bool LookupForWrite(LookupIterator* it, Handle<Object> value,
475                       JSReceiver::StoreFromKeyed store_mode);
476 
477   static void Clear(Isolate* isolate, Code* host, StoreICNexus* nexus);
478 
479  protected:
480   // Stub accessors.
481   Handle<Code> megamorphic_stub() override;
482   Handle<Code> slow_stub() const;
483 
pre_monomorphic_stub()484   virtual Handle<Code> pre_monomorphic_stub() const {
485     return pre_monomorphic_stub(isolate(), language_mode());
486   }
487 
488   static Handle<Code> pre_monomorphic_stub(Isolate* isolate,
489                                            LanguageMode language_mode);
490 
491   // Update the inline cache and the global stub cache based on the
492   // lookup result.
493   void UpdateCaches(LookupIterator* lookup, Handle<Object> value,
494                     JSReceiver::StoreFromKeyed store_mode);
495   Handle<Code> CompileHandler(LookupIterator* lookup, Handle<Object> value,
496                               CacheHolderFlag cache_holder) override;
497 
498  private:
499   inline void set_target(Code* code);
500 
501   static void Clear(Isolate* isolate, Address address, Code* target,
502                     Address constant_pool);
503 
504   friend class IC;
505 };
506 
507 
508 enum KeyedStoreCheckMap { kDontCheckMap, kCheckMap };
509 
510 
511 enum KeyedStoreIncrementLength { kDontIncrementLength, kIncrementLength };
512 
513 
514 class KeyedStoreIC : public StoreIC {
515  public:
516   // ExtraICState bits (building on IC)
517   // ExtraICState bits
518   // When more language modes are added, these BitFields need to move too.
519   STATIC_ASSERT(i::LANGUAGE_END == 3);
520   class ExtraICStateKeyedAccessStoreMode
521       : public BitField<KeyedAccessStoreMode, 3, 3> {};  // NOLINT
522 
523   class IcCheckTypeField : public BitField<IcCheckType, 6, 1> {};
524 
ComputeExtraICState(LanguageMode flag,KeyedAccessStoreMode mode)525   static ExtraICState ComputeExtraICState(LanguageMode flag,
526                                           KeyedAccessStoreMode mode) {
527     return StoreICState(flag).GetExtraICState() |
528            ExtraICStateKeyedAccessStoreMode::encode(mode) |
529            IcCheckTypeField::encode(ELEMENT);
530   }
531 
GetKeyedAccessStoreMode()532   KeyedAccessStoreMode GetKeyedAccessStoreMode() {
533     return casted_nexus<KeyedStoreICNexus>()->GetKeyedAccessStoreMode();
534   }
535 
536   KeyedStoreIC(FrameDepth depth, Isolate* isolate,
537                KeyedStoreICNexus* nexus = NULL)
StoreIC(depth,isolate,nexus)538       : StoreIC(depth, isolate, nexus) {
539     DCHECK(target()->is_keyed_store_stub());
540   }
541 
542   MUST_USE_RESULT MaybeHandle<Object> Store(Handle<Object> object,
543                                             Handle<Object> name,
544                                             Handle<Object> value);
545 
546   // Code generators for stub routines.  Only called once at startup.
GenerateInitialize(MacroAssembler * masm)547   static void GenerateInitialize(MacroAssembler* masm) { GenerateMiss(masm); }
GeneratePreMonomorphic(MacroAssembler * masm)548   static void GeneratePreMonomorphic(MacroAssembler* masm) {
549     GenerateMiss(masm);
550   }
551   static void GenerateMiss(MacroAssembler* masm);
552   static void GenerateSlow(MacroAssembler* masm);
553   static void GenerateMegamorphic(MacroAssembler* masm,
554                                   LanguageMode language_mode);
555 
556   static Handle<Code> initialize_stub(Isolate* isolate,
557                                       LanguageMode language_mode,
558                                       State initialization_state);
559 
560   static Handle<Code> initialize_stub_in_optimized_code(
561       Isolate* isolate, LanguageMode language_mode, State initialization_state);
562   static Handle<Code> ChooseMegamorphicStub(Isolate* isolate,
563                                             ExtraICState extra_state);
564 
565   static void Clear(Isolate* isolate, Code* host, KeyedStoreICNexus* nexus);
566 
567  protected:
pre_monomorphic_stub()568   virtual Handle<Code> pre_monomorphic_stub() const {
569     return pre_monomorphic_stub(isolate(), language_mode());
570   }
pre_monomorphic_stub(Isolate * isolate,LanguageMode language_mode)571   static Handle<Code> pre_monomorphic_stub(Isolate* isolate,
572                                            LanguageMode language_mode) {
573     if (is_strict(language_mode)) {
574       return isolate->builtins()->KeyedStoreIC_PreMonomorphic_Strict();
575     } else {
576       return isolate->builtins()->KeyedStoreIC_PreMonomorphic();
577     }
578   }
579 
580   Handle<Code> StoreElementStub(Handle<Map> receiver_map,
581                                 KeyedAccessStoreMode store_mode);
582 
583  private:
584   inline void set_target(Code* code);
585 
586   static void Clear(Isolate* isolate, Address address, Code* target,
587                     Address constant_pool);
588 
589   Handle<Map> ComputeTransitionedMap(Handle<Map> map,
590                                      KeyedAccessStoreMode store_mode);
591 
592   friend class IC;
593 };
594 
595 
596 // Type Recording BinaryOpIC, that records the types of the inputs and outputs.
597 class BinaryOpIC : public IC {
598  public:
BinaryOpIC(Isolate * isolate)599   explicit BinaryOpIC(Isolate* isolate) : IC(EXTRA_CALL_FRAME, isolate) {}
600 
601   MaybeHandle<Object> Transition(Handle<AllocationSite> allocation_site,
602                                  Handle<Object> left,
603                                  Handle<Object> right) WARN_UNUSED_RESULT;
604 };
605 
606 
607 class CompareIC : public IC {
608  public:
CompareIC(Isolate * isolate,Token::Value op)609   CompareIC(Isolate* isolate, Token::Value op)
610       : IC(EXTRA_CALL_FRAME, isolate), op_(op) {}
611 
612   // Update the inline cache for the given operands.
613   Code* UpdateCaches(Handle<Object> x, Handle<Object> y);
614 
615   // Helper function for computing the condition for a compare operation.
616   static Condition ComputeCondition(Token::Value op);
617 
618   // Factory method for getting an uninitialized compare stub.
619   static Handle<Code> GetUninitialized(Isolate* isolate, Token::Value op,
620                                        Strength strength);
621 
622  private:
623   static bool HasInlinedSmiCode(Address address);
624 
strict()625   bool strict() const { return op_ == Token::EQ_STRICT; }
GetCondition()626   Condition GetCondition() const { return ComputeCondition(op_); }
627 
628   static Code* GetRawUninitialized(Isolate* isolate, Token::Value op,
629                                    Strength strength);
630 
631   static void Clear(Isolate* isolate, Address address, Code* target,
632                     Address constant_pool);
633 
634   Token::Value op_;
635 
636   friend class IC;
637 };
638 
639 
640 class CompareNilIC : public IC {
641  public:
CompareNilIC(Isolate * isolate)642   explicit CompareNilIC(Isolate* isolate) : IC(EXTRA_CALL_FRAME, isolate) {}
643 
644   Handle<Object> CompareNil(Handle<Object> object);
645 
646   static Handle<Code> GetUninitialized();
647 
648   static void Clear(Address address, Code* target, Address constant_pool);
649 
650   static Handle<Object> DoCompareNilSlow(Isolate* isolate, NilValue nil,
651                                          Handle<Object> object);
652 };
653 
654 
655 class ToBooleanIC : public IC {
656  public:
ToBooleanIC(Isolate * isolate)657   explicit ToBooleanIC(Isolate* isolate) : IC(EXTRA_CALL_FRAME, isolate) {}
658 
659   Handle<Object> ToBoolean(Handle<Object> object);
660 };
661 
662 
663 // Helper for BinaryOpIC and CompareIC.
664 enum InlinedSmiCheck { ENABLE_INLINED_SMI_CHECK, DISABLE_INLINED_SMI_CHECK };
665 void PatchInlinedSmiCode(Isolate* isolate, Address address,
666                          InlinedSmiCheck check);
667 
668 }  // namespace internal
669 }  // namespace v8
670 
671 #endif  // V8_IC_H_
672