// Copyright 2011 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef V8_BUILTINS_H_ #define V8_BUILTINS_H_ #include "src/base/flags.h" #include "src/handles.h" namespace v8 { namespace internal { // Forward declarations. class CodeStubAssembler; #define CODE_AGE_LIST_WITH_ARG(V, A) \ V(Quadragenarian, A) \ V(Quinquagenarian, A) \ V(Sexagenarian, A) \ V(Septuagenarian, A) \ V(Octogenarian, A) #define CODE_AGE_LIST_IGNORE_ARG(X, V) V(X) #define CODE_AGE_LIST(V) \ CODE_AGE_LIST_WITH_ARG(CODE_AGE_LIST_IGNORE_ARG, V) #define CODE_AGE_LIST_COMPLETE(V) \ V(ToBeExecutedOnce) \ V(NotExecuted) \ V(ExecutedOnce) \ V(NoAge) \ CODE_AGE_LIST_WITH_ARG(CODE_AGE_LIST_IGNORE_ARG, V) #define DECLARE_CODE_AGE_BUILTIN(C, V) \ V(Make##C##CodeYoungAgainOddMarking, BUILTIN, kNoExtraICState) \ V(Make##C##CodeYoungAgainEvenMarking, BUILTIN, kNoExtraICState) // Define list of builtins implemented in C++. #define BUILTIN_LIST_C(V) \ V(Illegal) \ \ V(EmptyFunction) \ \ V(ArrayConcat) \ V(ArrayPop) \ V(ArrayPush) \ V(ArrayShift) \ V(ArraySlice) \ V(ArraySplice) \ V(ArrayUnshift) \ \ V(ArrayBufferConstructor) \ V(ArrayBufferConstructor_ConstructStub) \ V(ArrayBufferIsView) \ \ V(BooleanConstructor) \ V(BooleanConstructor_ConstructStub) \ V(BooleanPrototypeToString) \ V(BooleanPrototypeValueOf) \ \ V(DataViewConstructor) \ V(DataViewConstructor_ConstructStub) \ V(DataViewPrototypeGetBuffer) \ V(DataViewPrototypeGetByteLength) \ V(DataViewPrototypeGetByteOffset) \ \ V(DateConstructor) \ V(DateConstructor_ConstructStub) \ V(DateNow) \ V(DateParse) \ V(DateUTC) \ V(DatePrototypeSetDate) \ V(DatePrototypeSetFullYear) \ V(DatePrototypeSetHours) \ V(DatePrototypeSetMilliseconds) \ V(DatePrototypeSetMinutes) \ V(DatePrototypeSetMonth) \ V(DatePrototypeSetSeconds) \ V(DatePrototypeSetTime) \ V(DatePrototypeSetUTCDate) \ V(DatePrototypeSetUTCFullYear) \ V(DatePrototypeSetUTCHours) \ V(DatePrototypeSetUTCMilliseconds) \ V(DatePrototypeSetUTCMinutes) \ V(DatePrototypeSetUTCMonth) \ V(DatePrototypeSetUTCSeconds) \ V(DatePrototypeToDateString) \ V(DatePrototypeToISOString) \ V(DatePrototypeToPrimitive) \ V(DatePrototypeToUTCString) \ V(DatePrototypeToString) \ V(DatePrototypeToTimeString) \ V(DatePrototypeValueOf) \ V(DatePrototypeGetYear) \ V(DatePrototypeSetYear) \ V(DatePrototypeToJson) \ \ V(FunctionConstructor) \ V(FunctionPrototypeBind) \ V(FunctionPrototypeToString) \ \ V(GeneratorFunctionConstructor) \ V(AsyncFunctionConstructor) \ \ V(GlobalDecodeURI) \ V(GlobalDecodeURIComponent) \ V(GlobalEncodeURI) \ V(GlobalEncodeURIComponent) \ V(GlobalEscape) \ V(GlobalUnescape) \ \ V(GlobalEval) \ \ V(JsonParse) \ V(JsonStringify) \ \ V(MathAcos) \ V(MathAsin) \ V(MathFround) \ V(MathImul) \ \ V(ObjectAssign) \ V(ObjectCreate) \ V(ObjectDefineGetter) \ V(ObjectDefineProperties) \ V(ObjectDefineProperty) \ V(ObjectDefineSetter) \ V(ObjectEntries) \ V(ObjectFreeze) \ V(ObjectGetOwnPropertyDescriptor) \ V(ObjectGetOwnPropertyDescriptors) \ V(ObjectGetOwnPropertyNames) \ V(ObjectGetOwnPropertySymbols) \ V(ObjectGetPrototypeOf) \ V(ObjectIs) \ V(ObjectIsExtensible) \ V(ObjectIsFrozen) \ V(ObjectIsSealed) \ V(ObjectKeys) \ V(ObjectLookupGetter) \ V(ObjectLookupSetter) \ V(ObjectPreventExtensions) \ V(ObjectProtoToString) \ V(ObjectSeal) \ V(ObjectValues) \ \ V(ProxyConstructor) \ V(ProxyConstructor_ConstructStub) \ \ V(ReflectDefineProperty) \ V(ReflectDeleteProperty) \ V(ReflectGet) \ V(ReflectGetOwnPropertyDescriptor) \ V(ReflectGetPrototypeOf) \ V(ReflectHas) \ V(ReflectIsExtensible) \ V(ReflectOwnKeys) \ V(ReflectPreventExtensions) \ V(ReflectSet) \ V(ReflectSetPrototypeOf) \ \ V(StringFromCodePoint) \ \ V(StringPrototypeTrim) \ V(StringPrototypeTrimLeft) \ V(StringPrototypeTrimRight) \ \ V(SymbolConstructor) \ V(SymbolConstructor_ConstructStub) \ \ V(TypedArrayPrototypeBuffer) \ \ V(HandleApiCall) \ V(HandleApiCallAsFunction) \ V(HandleApiCallAsConstructor) \ \ V(RestrictedFunctionPropertiesThrower) \ V(RestrictedStrictArgumentsPropertiesThrower) // Define list of builtins implemented in assembly. #define BUILTIN_LIST_A(V) \ V(AllocateInNewSpace, BUILTIN, kNoExtraICState) \ V(AllocateInOldSpace, BUILTIN, kNoExtraICState) \ \ V(ArgumentsAdaptorTrampoline, BUILTIN, kNoExtraICState) \ \ V(ConstructedNonConstructable, BUILTIN, kNoExtraICState) \ \ V(CallFunction_ReceiverIsNullOrUndefined, BUILTIN, kNoExtraICState) \ V(CallFunction_ReceiverIsNotNullOrUndefined, BUILTIN, kNoExtraICState) \ V(CallFunction_ReceiverIsAny, BUILTIN, kNoExtraICState) \ V(TailCallFunction_ReceiverIsNullOrUndefined, BUILTIN, kNoExtraICState) \ V(TailCallFunction_ReceiverIsNotNullOrUndefined, BUILTIN, kNoExtraICState) \ V(TailCallFunction_ReceiverIsAny, BUILTIN, kNoExtraICState) \ V(CallBoundFunction, BUILTIN, kNoExtraICState) \ V(TailCallBoundFunction, BUILTIN, kNoExtraICState) \ V(Call_ReceiverIsNullOrUndefined, BUILTIN, kNoExtraICState) \ V(Call_ReceiverIsNotNullOrUndefined, BUILTIN, kNoExtraICState) \ V(Call_ReceiverIsAny, BUILTIN, kNoExtraICState) \ V(TailCall_ReceiverIsNullOrUndefined, BUILTIN, kNoExtraICState) \ V(TailCall_ReceiverIsNotNullOrUndefined, BUILTIN, kNoExtraICState) \ V(TailCall_ReceiverIsAny, BUILTIN, kNoExtraICState) \ \ V(ConstructFunction, BUILTIN, kNoExtraICState) \ V(ConstructBoundFunction, BUILTIN, kNoExtraICState) \ V(ConstructProxy, BUILTIN, kNoExtraICState) \ V(Construct, BUILTIN, kNoExtraICState) \ \ V(StringToNumber, BUILTIN, kNoExtraICState) \ V(NonNumberToNumber, BUILTIN, kNoExtraICState) \ V(ToNumber, BUILTIN, kNoExtraICState) \ \ V(Apply, BUILTIN, kNoExtraICState) \ \ V(HandleFastApiCall, BUILTIN, kNoExtraICState) \ \ V(InOptimizationQueue, BUILTIN, kNoExtraICState) \ V(JSConstructStubGeneric, BUILTIN, kNoExtraICState) \ V(JSBuiltinsConstructStub, BUILTIN, kNoExtraICState) \ V(JSBuiltinsConstructStubForDerived, BUILTIN, kNoExtraICState) \ V(JSConstructStubApi, BUILTIN, kNoExtraICState) \ V(JSEntryTrampoline, BUILTIN, kNoExtraICState) \ V(JSConstructEntryTrampoline, BUILTIN, kNoExtraICState) \ V(ResumeGeneratorTrampoline, BUILTIN, kNoExtraICState) \ V(CompileLazy, BUILTIN, kNoExtraICState) \ V(CompileBaseline, BUILTIN, kNoExtraICState) \ V(CompileOptimized, BUILTIN, kNoExtraICState) \ V(CompileOptimizedConcurrent, BUILTIN, kNoExtraICState) \ V(NotifyDeoptimized, BUILTIN, kNoExtraICState) \ V(NotifySoftDeoptimized, BUILTIN, kNoExtraICState) \ V(NotifyLazyDeoptimized, BUILTIN, kNoExtraICState) \ V(NotifyStubFailure, BUILTIN, kNoExtraICState) \ V(NotifyStubFailureSaveDoubles, BUILTIN, kNoExtraICState) \ \ V(InterpreterEntryTrampoline, BUILTIN, kNoExtraICState) \ V(InterpreterMarkBaselineOnReturn, BUILTIN, kNoExtraICState) \ V(InterpreterPushArgsAndCall, BUILTIN, kNoExtraICState) \ V(InterpreterPushArgsAndTailCall, BUILTIN, kNoExtraICState) \ V(InterpreterPushArgsAndConstruct, BUILTIN, kNoExtraICState) \ V(InterpreterEnterBytecodeDispatch, BUILTIN, kNoExtraICState) \ \ V(KeyedLoadIC_Miss, BUILTIN, kNoExtraICState) \ V(StoreIC_Miss, BUILTIN, kNoExtraICState) \ V(KeyedStoreIC_Miss, BUILTIN, kNoExtraICState) \ V(LoadIC_Getter_ForDeopt, LOAD_IC, kNoExtraICState) \ V(KeyedLoadIC_Megamorphic, KEYED_LOAD_IC, kNoExtraICState) \ \ V(StoreIC_Setter_ForDeopt, STORE_IC, StoreICState::kStrictModeState) \ \ V(KeyedStoreIC_Megamorphic, KEYED_STORE_IC, kNoExtraICState) \ V(KeyedStoreIC_Megamorphic_Strict, KEYED_STORE_IC, \ StoreICState::kStrictModeState) \ \ V(DatePrototypeGetDate, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetDay, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetFullYear, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetHours, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetMilliseconds, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetMinutes, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetMonth, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetSeconds, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetTime, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetTimezoneOffset, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetUTCDate, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetUTCDay, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetUTCFullYear, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetUTCHours, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetUTCMilliseconds, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetUTCMinutes, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetUTCMonth, BUILTIN, kNoExtraICState) \ V(DatePrototypeGetUTCSeconds, BUILTIN, kNoExtraICState) \ \ V(FunctionPrototypeApply, BUILTIN, kNoExtraICState) \ V(FunctionPrototypeCall, BUILTIN, kNoExtraICState) \ \ V(ReflectApply, BUILTIN, kNoExtraICState) \ V(ReflectConstruct, BUILTIN, kNoExtraICState) \ \ V(InternalArrayCode, BUILTIN, kNoExtraICState) \ V(ArrayCode, BUILTIN, kNoExtraICState) \ \ V(MathMax, BUILTIN, kNoExtraICState) \ V(MathMin, BUILTIN, kNoExtraICState) \ \ V(NumberConstructor, BUILTIN, kNoExtraICState) \ V(NumberConstructor_ConstructStub, BUILTIN, kNoExtraICState) \ \ V(StringConstructor, BUILTIN, kNoExtraICState) \ V(StringConstructor_ConstructStub, BUILTIN, kNoExtraICState) \ \ V(OnStackReplacement, BUILTIN, kNoExtraICState) \ V(InterruptCheck, BUILTIN, kNoExtraICState) \ V(StackCheck, BUILTIN, kNoExtraICState) \ \ V(MarkCodeAsToBeExecutedOnce, BUILTIN, kNoExtraICState) \ V(MarkCodeAsExecutedOnce, BUILTIN, kNoExtraICState) \ V(MarkCodeAsExecutedTwice, BUILTIN, kNoExtraICState) \ CODE_AGE_LIST_WITH_ARG(DECLARE_CODE_AGE_BUILTIN, V) // Define list of builtins implemented in TurboFan (with JS linkage). #define BUILTIN_LIST_T(V) \ V(FunctionPrototypeHasInstance, 2) \ V(GeneratorPrototypeNext, 2) \ V(GeneratorPrototypeReturn, 2) \ V(GeneratorPrototypeThrow, 2) \ V(MathAtan, 2) \ V(MathAtan2, 3) \ V(MathAtanh, 2) \ V(MathCeil, 2) \ V(MathCbrt, 2) \ V(MathExpm1, 2) \ V(MathClz32, 2) \ V(MathCos, 2) \ V(MathExp, 2) \ V(MathFloor, 2) \ V(MathLog, 2) \ V(MathLog1p, 2) \ V(MathLog2, 2) \ V(MathLog10, 2) \ V(MathRound, 2) \ V(MathSin, 2) \ V(MathTan, 2) \ V(MathSqrt, 2) \ V(MathTrunc, 2) \ V(ObjectHasOwnProperty, 2) \ V(ArrayIsArray, 2) \ V(StringFromCharCode, 2) \ V(StringPrototypeCharAt, 2) \ V(StringPrototypeCharCodeAt, 2) \ V(TypedArrayPrototypeByteLength, 1) \ V(TypedArrayPrototypeByteOffset, 1) \ V(TypedArrayPrototypeLength, 1) \ V(AtomicsLoad, 3) \ V(AtomicsStore, 4) // Define list of builtins implemented in TurboFan (with CallStub linkage). #define BUILTIN_LIST_S(V) \ V(LoadGlobalIC_Miss, BUILTIN, kNoExtraICState, LoadGlobalWithVector) \ V(LoadGlobalIC_Slow, HANDLER, Code::LOAD_GLOBAL_IC, LoadGlobalWithVector) \ V(LoadIC_Miss, BUILTIN, kNoExtraICState, LoadWithVector) \ V(LoadIC_Slow, HANDLER, Code::LOAD_IC, LoadWithVector) // Define list of builtin handlers implemented in assembly. #define BUILTIN_LIST_H(V) \ V(KeyedLoadIC_Slow, KEYED_LOAD_IC) \ V(StoreIC_Slow, STORE_IC) \ V(KeyedStoreIC_Slow, KEYED_STORE_IC) \ V(LoadIC_Normal, LOAD_IC) \ V(StoreIC_Normal, STORE_IC) // Define list of builtins used by the debugger implemented in assembly. #define BUILTIN_LIST_DEBUG_A(V) \ V(Return_DebugBreak, BUILTIN, kNoExtraICState) \ V(Slot_DebugBreak, BUILTIN, kNoExtraICState) \ V(FrameDropper_LiveEdit, BUILTIN, kNoExtraICState) class BuiltinFunctionTable; class ObjectVisitor; class Builtins { public: ~Builtins(); // Generate all builtin code objects. Should be called once during // isolate initialization. void SetUp(Isolate* isolate, bool create_heap_objects); void TearDown(); // Garbage collection support. void IterateBuiltins(ObjectVisitor* v); // Disassembler support. const char* Lookup(byte* pc); enum Name { #define DEF_ENUM_C(name) k##name, #define DEF_ENUM_A(name, kind, extra) k##name, #define DEF_ENUM_T(name, argc) k##name, #define DEF_ENUM_S(name, kind, extra, interface_descriptor) k##name, #define DEF_ENUM_H(name, kind) k##name, BUILTIN_LIST_C(DEF_ENUM_C) BUILTIN_LIST_A(DEF_ENUM_A) BUILTIN_LIST_T(DEF_ENUM_T) BUILTIN_LIST_S(DEF_ENUM_S) BUILTIN_LIST_H(DEF_ENUM_H) BUILTIN_LIST_DEBUG_A(DEF_ENUM_A) #undef DEF_ENUM_C #undef DEF_ENUM_A #undef DEF_ENUM_T #undef DEF_ENUM_S #undef DEF_ENUM_H builtin_count }; enum CFunctionId { #define DEF_ENUM_C(name) c_##name, BUILTIN_LIST_C(DEF_ENUM_C) #undef DEF_ENUM_C cfunction_count }; #define DECLARE_BUILTIN_ACCESSOR_C(name) Handle name(); #define DECLARE_BUILTIN_ACCESSOR_A(name, kind, extra) Handle name(); #define DECLARE_BUILTIN_ACCESSOR_T(name, argc) Handle name(); #define DECLARE_BUILTIN_ACCESSOR_S(name, kind, extra, interface_descriptor) \ Handle name(); #define DECLARE_BUILTIN_ACCESSOR_H(name, kind) Handle name(); BUILTIN_LIST_C(DECLARE_BUILTIN_ACCESSOR_C) BUILTIN_LIST_A(DECLARE_BUILTIN_ACCESSOR_A) BUILTIN_LIST_T(DECLARE_BUILTIN_ACCESSOR_T) BUILTIN_LIST_S(DECLARE_BUILTIN_ACCESSOR_S) BUILTIN_LIST_H(DECLARE_BUILTIN_ACCESSOR_H) BUILTIN_LIST_DEBUG_A(DECLARE_BUILTIN_ACCESSOR_A) #undef DECLARE_BUILTIN_ACCESSOR_C #undef DECLARE_BUILTIN_ACCESSOR_A #undef DECLARE_BUILTIN_ACCESSOR_T #undef DECLARE_BUILTIN_ACCESSOR_S #undef DECLARE_BUILTIN_ACCESSOR_H // Convenience wrappers. Handle CallFunction( ConvertReceiverMode = ConvertReceiverMode::kAny, TailCallMode tail_call_mode = TailCallMode::kDisallow); Handle Call(ConvertReceiverMode = ConvertReceiverMode::kAny, TailCallMode tail_call_mode = TailCallMode::kDisallow); Handle CallBoundFunction(TailCallMode tail_call_mode); Handle InterpreterPushArgsAndCall(TailCallMode tail_call_mode); Code* builtin(Name name) { // Code::cast cannot be used here since we access builtins // during the marking phase of mark sweep. See IC::Clear. return reinterpret_cast(builtins_[name]); } Address builtin_address(Name name) { return reinterpret_cast
(&builtins_[name]); } static Address c_function_address(CFunctionId id) { return c_functions_[id]; } const char* name(int index) { DCHECK(index >= 0); DCHECK(index < builtin_count); return names_[index]; } bool is_initialized() const { return initialized_; } MUST_USE_RESULT static MaybeHandle InvokeApiFunction( Isolate* isolate, Handle function, Handle receiver, int argc, Handle args[]); private: Builtins(); // The external C++ functions called from the code. static Address const c_functions_[cfunction_count]; // Note: These are always Code objects, but to conform with // IterateBuiltins() above which assumes Object**'s for the callback // function f, we use an Object* array here. Object* builtins_[builtin_count]; const char* names_[builtin_count]; static void Generate_Adaptor(MacroAssembler* masm, CFunctionId id); static void Generate_AllocateInNewSpace(MacroAssembler* masm); static void Generate_AllocateInOldSpace(MacroAssembler* masm); static void Generate_ConstructedNonConstructable(MacroAssembler* masm); static void Generate_CompileLazy(MacroAssembler* masm); static void Generate_CompileBaseline(MacroAssembler* masm); static void Generate_InOptimizationQueue(MacroAssembler* masm); static void Generate_CompileOptimized(MacroAssembler* masm); static void Generate_CompileOptimizedConcurrent(MacroAssembler* masm); static void Generate_JSConstructStubGeneric(MacroAssembler* masm); static void Generate_JSBuiltinsConstructStub(MacroAssembler* masm); static void Generate_JSBuiltinsConstructStubForDerived(MacroAssembler* masm); static void Generate_JSConstructStubApi(MacroAssembler* masm); static void Generate_JSEntryTrampoline(MacroAssembler* masm); static void Generate_JSConstructEntryTrampoline(MacroAssembler* masm); static void Generate_ResumeGeneratorTrampoline(MacroAssembler* masm); static void Generate_NotifyDeoptimized(MacroAssembler* masm); static void Generate_NotifySoftDeoptimized(MacroAssembler* masm); static void Generate_NotifyLazyDeoptimized(MacroAssembler* masm); static void Generate_NotifyStubFailure(MacroAssembler* masm); static void Generate_NotifyStubFailureSaveDoubles(MacroAssembler* masm); static void Generate_ArgumentsAdaptorTrampoline(MacroAssembler* masm); static void Generate_StringToNumber(MacroAssembler* masm); static void Generate_NonNumberToNumber(MacroAssembler* masm); static void Generate_ToNumber(MacroAssembler* masm); static void Generate_Apply(MacroAssembler* masm); // ES6 section 9.2.1 [[Call]] ( thisArgument, argumentsList) static void Generate_CallFunction(MacroAssembler* masm, ConvertReceiverMode mode, TailCallMode tail_call_mode); static void Generate_CallFunction_ReceiverIsNullOrUndefined( MacroAssembler* masm) { Generate_CallFunction(masm, ConvertReceiverMode::kNullOrUndefined, TailCallMode::kDisallow); } static void Generate_CallFunction_ReceiverIsNotNullOrUndefined( MacroAssembler* masm) { Generate_CallFunction(masm, ConvertReceiverMode::kNotNullOrUndefined, TailCallMode::kDisallow); } static void Generate_CallFunction_ReceiverIsAny(MacroAssembler* masm) { Generate_CallFunction(masm, ConvertReceiverMode::kAny, TailCallMode::kDisallow); } static void Generate_TailCallFunction_ReceiverIsNullOrUndefined( MacroAssembler* masm) { Generate_CallFunction(masm, ConvertReceiverMode::kNullOrUndefined, TailCallMode::kAllow); } static void Generate_TailCallFunction_ReceiverIsNotNullOrUndefined( MacroAssembler* masm) { Generate_CallFunction(masm, ConvertReceiverMode::kNotNullOrUndefined, TailCallMode::kAllow); } static void Generate_TailCallFunction_ReceiverIsAny(MacroAssembler* masm) { Generate_CallFunction(masm, ConvertReceiverMode::kAny, TailCallMode::kAllow); } // ES6 section 9.4.1.1 [[Call]] ( thisArgument, argumentsList) static void Generate_CallBoundFunctionImpl(MacroAssembler* masm, TailCallMode tail_call_mode); static void Generate_CallBoundFunction(MacroAssembler* masm) { Generate_CallBoundFunctionImpl(masm, TailCallMode::kDisallow); } static void Generate_TailCallBoundFunction(MacroAssembler* masm) { Generate_CallBoundFunctionImpl(masm, TailCallMode::kAllow); } // ES6 section 7.3.12 Call(F, V, [argumentsList]) static void Generate_Call(MacroAssembler* masm, ConvertReceiverMode mode, TailCallMode tail_call_mode); static void Generate_Call_ReceiverIsNullOrUndefined(MacroAssembler* masm) { Generate_Call(masm, ConvertReceiverMode::kNullOrUndefined, TailCallMode::kDisallow); } static void Generate_Call_ReceiverIsNotNullOrUndefined(MacroAssembler* masm) { Generate_Call(masm, ConvertReceiverMode::kNotNullOrUndefined, TailCallMode::kDisallow); } static void Generate_Call_ReceiverIsAny(MacroAssembler* masm) { Generate_Call(masm, ConvertReceiverMode::kAny, TailCallMode::kDisallow); } static void Generate_TailCall_ReceiverIsNullOrUndefined( MacroAssembler* masm) { Generate_Call(masm, ConvertReceiverMode::kNullOrUndefined, TailCallMode::kAllow); } static void Generate_TailCall_ReceiverIsNotNullOrUndefined( MacroAssembler* masm) { Generate_Call(masm, ConvertReceiverMode::kNotNullOrUndefined, TailCallMode::kAllow); } static void Generate_TailCall_ReceiverIsAny(MacroAssembler* masm) { Generate_Call(masm, ConvertReceiverMode::kAny, TailCallMode::kAllow); } // ES6 section 9.2.2 [[Construct]] ( argumentsList, newTarget) static void Generate_ConstructFunction(MacroAssembler* masm); // ES6 section 9.4.1.2 [[Construct]] (argumentsList, newTarget) static void Generate_ConstructBoundFunction(MacroAssembler* masm); // ES6 section 9.5.14 [[Construct]] ( argumentsList, newTarget) static void Generate_ConstructProxy(MacroAssembler* masm); // ES6 section 7.3.13 Construct (F, [argumentsList], [newTarget]) static void Generate_Construct(MacroAssembler* masm); static void Generate_HandleFastApiCall(MacroAssembler* masm); static void Generate_DatePrototype_GetField(MacroAssembler* masm, int field_index); // ES6 section 20.3.4.2 Date.prototype.getDate ( ) static void Generate_DatePrototypeGetDate(MacroAssembler* masm); // ES6 section 20.3.4.3 Date.prototype.getDay ( ) static void Generate_DatePrototypeGetDay(MacroAssembler* masm); // ES6 section 20.3.4.4 Date.prototype.getFullYear ( ) static void Generate_DatePrototypeGetFullYear(MacroAssembler* masm); // ES6 section 20.3.4.5 Date.prototype.getHours ( ) static void Generate_DatePrototypeGetHours(MacroAssembler* masm); // ES6 section 20.3.4.6 Date.prototype.getMilliseconds ( ) static void Generate_DatePrototypeGetMilliseconds(MacroAssembler* masm); // ES6 section 20.3.4.7 Date.prototype.getMinutes ( ) static void Generate_DatePrototypeGetMinutes(MacroAssembler* masm); // ES6 section 20.3.4.8 Date.prototype.getMonth ( ) static void Generate_DatePrototypeGetMonth(MacroAssembler* masm); // ES6 section 20.3.4.9 Date.prototype.getSeconds ( ) static void Generate_DatePrototypeGetSeconds(MacroAssembler* masm); // ES6 section 20.3.4.10 Date.prototype.getTime ( ) static void Generate_DatePrototypeGetTime(MacroAssembler* masm); // ES6 section 20.3.4.11 Date.prototype.getTimezoneOffset ( ) static void Generate_DatePrototypeGetTimezoneOffset(MacroAssembler* masm); // ES6 section 20.3.4.12 Date.prototype.getUTCDate ( ) static void Generate_DatePrototypeGetUTCDate(MacroAssembler* masm); // ES6 section 20.3.4.13 Date.prototype.getUTCDay ( ) static void Generate_DatePrototypeGetUTCDay(MacroAssembler* masm); // ES6 section 20.3.4.14 Date.prototype.getUTCFullYear ( ) static void Generate_DatePrototypeGetUTCFullYear(MacroAssembler* masm); // ES6 section 20.3.4.15 Date.prototype.getUTCHours ( ) static void Generate_DatePrototypeGetUTCHours(MacroAssembler* masm); // ES6 section 20.3.4.16 Date.prototype.getUTCMilliseconds ( ) static void Generate_DatePrototypeGetUTCMilliseconds(MacroAssembler* masm); // ES6 section 20.3.4.17 Date.prototype.getUTCMinutes ( ) static void Generate_DatePrototypeGetUTCMinutes(MacroAssembler* masm); // ES6 section 20.3.4.18 Date.prototype.getUTCMonth ( ) static void Generate_DatePrototypeGetUTCMonth(MacroAssembler* masm); // ES6 section 20.3.4.19 Date.prototype.getUTCSeconds ( ) static void Generate_DatePrototypeGetUTCSeconds(MacroAssembler* masm); static void Generate_FunctionPrototypeApply(MacroAssembler* masm); static void Generate_FunctionPrototypeCall(MacroAssembler* masm); static void Generate_ReflectApply(MacroAssembler* masm); static void Generate_ReflectConstruct(MacroAssembler* masm); static void Generate_InternalArrayCode(MacroAssembler* masm); static void Generate_ArrayCode(MacroAssembler* masm); // ES6 section 20.2.2.6 Math.atan ( x ) static void Generate_MathAtan(CodeStubAssembler* assembler); // ES6 section 20.2.2.8 Math.atan2 ( y, x ) static void Generate_MathAtan2(CodeStubAssembler* assembler); // ES6 section 20.2.2.7 Math.atanh ( x ) static void Generate_MathAtanh(CodeStubAssembler* assembler); // ES6 section 20.2.2.10 Math.ceil ( x ) static void Generate_MathCeil(CodeStubAssembler* assembler); // ES6 section 20.2.2.9 Math.ceil ( x ) static void Generate_MathCbrt(CodeStubAssembler* assembler); // ES6 section 20.2.2.15 Math.expm1 ( x ) static void Generate_MathExpm1(CodeStubAssembler* assembler); // ES6 section 20.2.2.11 Math.clz32 ( x ) static void Generate_MathClz32(CodeStubAssembler* assembler); // ES6 section 20.2.2.12 Math.cos ( x ) static void Generate_MathCos(CodeStubAssembler* assembler); // ES6 section 20.2.2.14 Math.exp ( x ) static void Generate_MathExp(CodeStubAssembler* assembler); // ES6 section 20.2.2.16 Math.floor ( x ) static void Generate_MathFloor(CodeStubAssembler* assembler); // ES6 section 20.2.2.20 Math.log ( x ) static void Generate_MathLog(CodeStubAssembler* assembler); // ES6 section 20.2.2.21 Math.log ( x ) static void Generate_MathLog1p(CodeStubAssembler* assembler); static void Generate_MathLog2(CodeStubAssembler* assembler); static void Generate_MathLog10(CodeStubAssembler* assembler); enum class MathMaxMinKind { kMax, kMin }; static void Generate_MathMaxMin(MacroAssembler* masm, MathMaxMinKind kind); // ES6 section 20.2.2.24 Math.max ( value1, value2 , ...values ) static void Generate_MathMax(MacroAssembler* masm) { Generate_MathMaxMin(masm, MathMaxMinKind::kMax); } // ES6 section 20.2.2.25 Math.min ( value1, value2 , ...values ) static void Generate_MathMin(MacroAssembler* masm) { Generate_MathMaxMin(masm, MathMaxMinKind::kMin); } // ES6 section 20.2.2.28 Math.round ( x ) static void Generate_MathRound(CodeStubAssembler* assembler); // ES6 section 20.2.2.20 Math.sin ( x ) static void Generate_MathSin(CodeStubAssembler* assembler); // ES6 section 20.2.2.32 Math.sqrt ( x ) static void Generate_MathSqrt(CodeStubAssembler* assembler); // ES6 section 20.2.2.33 Math.sin ( x ) static void Generate_MathTan(CodeStubAssembler* assembler); // ES6 section 20.2.2.35 Math.trunc ( x ) static void Generate_MathTrunc(CodeStubAssembler* assembler); // ES6 section 20.1.1.1 Number ( [ value ] ) for the [[Call]] case. static void Generate_NumberConstructor(MacroAssembler* masm); // ES6 section 20.1.1.1 Number ( [ value ] ) for the [[Construct]] case. static void Generate_NumberConstructor_ConstructStub(MacroAssembler* masm); // ES6 section 19.2.3.6 Function.prototype [ @@hasInstance ] ( V ) static void Generate_FunctionPrototypeHasInstance( CodeStubAssembler* assembler); // ES6 section 25.3.1.2 Generator.prototype.next ( value ) static void Generate_GeneratorPrototypeNext(CodeStubAssembler* assembler); // ES6 section 25.3.1.3 Generator.prototype.return ( value ) static void Generate_GeneratorPrototypeReturn(CodeStubAssembler* assembler); // ES6 section 25.3.1.4 Generator.prototype.throw ( exception ) static void Generate_GeneratorPrototypeThrow(CodeStubAssembler* assembler); // ES6 section 19.1.3.2 Object.prototype.hasOwnProperty static void Generate_ObjectHasOwnProperty(CodeStubAssembler* assembler); // ES6 section 22.1.2.2 Array.isArray static void Generate_ArrayIsArray(CodeStubAssembler* assembler); // ES6 section 21.1.2.1 String.fromCharCode ( ...codeUnits ) static void Generate_StringFromCharCode(CodeStubAssembler* assembler); // ES6 section 21.1.3.1 String.prototype.charAt ( pos ) static void Generate_StringPrototypeCharAt(CodeStubAssembler* assembler); // ES6 section 21.1.3.2 String.prototype.charCodeAt ( pos ) static void Generate_StringPrototypeCharCodeAt(CodeStubAssembler* assembler); static void Generate_StringConstructor(MacroAssembler* masm); static void Generate_StringConstructor_ConstructStub(MacroAssembler* masm); // ES6 section 22.2.3.2 get %TypedArray%.prototype.byteLength static void Generate_TypedArrayPrototypeByteLength( CodeStubAssembler* assembler); // ES6 section 22.2.3.3 get %TypedArray%.prototype.byteOffset static void Generate_TypedArrayPrototypeByteOffset( CodeStubAssembler* assembler); // ES6 section 22.2.3.18 get %TypedArray%.prototype.length static void Generate_TypedArrayPrototypeLength(CodeStubAssembler* assembler); static void Generate_OnStackReplacement(MacroAssembler* masm); static void Generate_InterruptCheck(MacroAssembler* masm); static void Generate_StackCheck(MacroAssembler* masm); static void Generate_InterpreterEntryTrampoline(MacroAssembler* masm); static void Generate_InterpreterEnterBytecodeDispatch(MacroAssembler* masm); static void Generate_InterpreterMarkBaselineOnReturn(MacroAssembler* masm); static void Generate_InterpreterPushArgsAndCall(MacroAssembler* masm) { return Generate_InterpreterPushArgsAndCallImpl(masm, TailCallMode::kDisallow); } static void Generate_InterpreterPushArgsAndTailCall(MacroAssembler* masm) { return Generate_InterpreterPushArgsAndCallImpl(masm, TailCallMode::kAllow); } static void Generate_InterpreterPushArgsAndCallImpl( MacroAssembler* masm, TailCallMode tail_call_mode); static void Generate_InterpreterPushArgsAndConstruct(MacroAssembler* masm); #define DECLARE_CODE_AGE_BUILTIN_GENERATOR(C) \ static void Generate_Make##C##CodeYoungAgainEvenMarking( \ MacroAssembler* masm); \ static void Generate_Make##C##CodeYoungAgainOddMarking( \ MacroAssembler* masm); CODE_AGE_LIST(DECLARE_CODE_AGE_BUILTIN_GENERATOR) #undef DECLARE_CODE_AGE_BUILTIN_GENERATOR static void Generate_MarkCodeAsToBeExecutedOnce(MacroAssembler* masm); static void Generate_MarkCodeAsExecutedOnce(MacroAssembler* masm); static void Generate_MarkCodeAsExecutedTwice(MacroAssembler* masm); static void Generate_AtomicsLoad(CodeStubAssembler* assembler); static void Generate_AtomicsStore(CodeStubAssembler* assembler); static void InitBuiltinFunctionTable(); bool initialized_; friend class BuiltinFunctionTable; friend class Isolate; DISALLOW_COPY_AND_ASSIGN(Builtins); }; } // namespace internal } // namespace v8 #endif // V8_BUILTINS_H_