// Copyright 2014 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. #include "src/code-factory.h" #include "src/bootstrapper.h" #include "src/builtins/builtins-descriptors.h" #include "src/ic/ic.h" #include "src/objects-inl.h" namespace v8 { namespace internal { namespace { // TODO(ishell): make it (const Stub& stub) once CodeStub::GetCode() is const. template Callable make_callable(Stub& stub) { typedef typename Stub::Descriptor Descriptor; return Callable(stub.GetCode(), Descriptor(stub.isolate())); } } // namespace // static Handle CodeFactory::RuntimeCEntry(Isolate* isolate, int result_size) { CEntryStub stub(isolate, result_size); return stub.GetCode(); } // static Callable CodeFactory::ApiGetter(Isolate* isolate) { CallApiGetterStub stub(isolate); return make_callable(stub); } // static Callable CodeFactory::CallApiCallback(Isolate* isolate, int argc) { CallApiCallbackStub stub(isolate, argc); return make_callable(stub); } // static Callable CodeFactory::LoadGlobalIC(Isolate* isolate, TypeofMode typeof_mode) { return Callable( typeof_mode == NOT_INSIDE_TYPEOF ? BUILTIN_CODE(isolate, LoadGlobalICTrampoline) : BUILTIN_CODE(isolate, LoadGlobalICInsideTypeofTrampoline), LoadGlobalDescriptor(isolate)); } // static Callable CodeFactory::LoadGlobalICInOptimizedCode(Isolate* isolate, TypeofMode typeof_mode) { return Callable(typeof_mode == NOT_INSIDE_TYPEOF ? BUILTIN_CODE(isolate, LoadGlobalIC) : BUILTIN_CODE(isolate, LoadGlobalICInsideTypeof), LoadGlobalWithVectorDescriptor(isolate)); } Callable CodeFactory::StoreOwnIC(Isolate* isolate) { // TODO(ishell): Currently we use StoreOwnIC only for storing properties that // already exist in the boilerplate therefore we can use StoreIC. return Callable(BUILTIN_CODE(isolate, StoreICTrampoline), StoreDescriptor(isolate)); } Callable CodeFactory::StoreOwnICInOptimizedCode(Isolate* isolate) { // TODO(ishell): Currently we use StoreOwnIC only for storing properties that // already exist in the boilerplate therefore we can use StoreIC. return Callable(BUILTIN_CODE(isolate, StoreIC), StoreWithVectorDescriptor(isolate)); } // static Callable CodeFactory::BinaryOperation(Isolate* isolate, Operation op) { switch (op) { case Operation::kShiftRight: return Builtins::CallableFor(isolate, Builtins::kShiftRight); case Operation::kShiftLeft: return Builtins::CallableFor(isolate, Builtins::kShiftLeft); case Operation::kShiftRightLogical: return Builtins::CallableFor(isolate, Builtins::kShiftRightLogical); case Operation::kAdd: return Builtins::CallableFor(isolate, Builtins::kAdd); case Operation::kSubtract: return Builtins::CallableFor(isolate, Builtins::kSubtract); case Operation::kMultiply: return Builtins::CallableFor(isolate, Builtins::kMultiply); case Operation::kDivide: return Builtins::CallableFor(isolate, Builtins::kDivide); case Operation::kModulus: return Builtins::CallableFor(isolate, Builtins::kModulus); case Operation::kBitwiseOr: return Builtins::CallableFor(isolate, Builtins::kBitwiseOr); case Operation::kBitwiseAnd: return Builtins::CallableFor(isolate, Builtins::kBitwiseAnd); case Operation::kBitwiseXor: return Builtins::CallableFor(isolate, Builtins::kBitwiseXor); default: break; } UNREACHABLE(); } // static Callable CodeFactory::GetProperty(Isolate* isolate) { GetPropertyStub stub(isolate); return make_callable(stub); } // static Callable CodeFactory::NonPrimitiveToPrimitive(Isolate* isolate, ToPrimitiveHint hint) { return Callable(isolate->builtins()->NonPrimitiveToPrimitive(hint), TypeConversionDescriptor(isolate)); } // static Callable CodeFactory::OrdinaryToPrimitive(Isolate* isolate, OrdinaryToPrimitiveHint hint) { return Callable(isolate->builtins()->OrdinaryToPrimitive(hint), TypeConversionDescriptor(isolate)); } // static Callable CodeFactory::StringAdd(Isolate* isolate, StringAddFlags flags, PretenureFlag pretenure_flag) { StringAddStub stub(isolate, flags, pretenure_flag); return make_callable(stub); } // static Callable CodeFactory::ResumeGenerator(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, ResumeGeneratorTrampoline), ResumeGeneratorDescriptor(isolate)); } // static Callable CodeFactory::FrameDropperTrampoline(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, FrameDropperTrampoline), FrameDropperTrampolineDescriptor(isolate)); } // static Callable CodeFactory::HandleDebuggerStatement(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, HandleDebuggerStatement), ContextOnlyDescriptor(isolate)); } // static Callable CodeFactory::FastNewFunctionContext(Isolate* isolate, ScopeType scope_type) { return Callable(isolate->builtins()->NewFunctionContext(scope_type), FastNewFunctionContextDescriptor(isolate)); } // static Callable CodeFactory::ArgumentAdaptor(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, ArgumentsAdaptorTrampoline), ArgumentAdaptorDescriptor(isolate)); } // static Callable CodeFactory::Call(Isolate* isolate, ConvertReceiverMode mode) { return Callable(isolate->builtins()->Call(mode), CallTrampolineDescriptor(isolate)); } // static Callable CodeFactory::CallWithArrayLike(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, CallWithArrayLike), CallWithArrayLikeDescriptor(isolate)); } // static Callable CodeFactory::CallWithSpread(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, CallWithSpread), CallWithSpreadDescriptor(isolate)); } // static Callable CodeFactory::CallFunction(Isolate* isolate, ConvertReceiverMode mode) { return Callable(isolate->builtins()->CallFunction(mode), CallTrampolineDescriptor(isolate)); } // static Callable CodeFactory::CallVarargs(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, CallVarargs), CallVarargsDescriptor(isolate)); } // static Callable CodeFactory::CallForwardVarargs(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, CallForwardVarargs), CallForwardVarargsDescriptor(isolate)); } // static Callable CodeFactory::CallFunctionForwardVarargs(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, CallFunctionForwardVarargs), CallForwardVarargsDescriptor(isolate)); } // static Callable CodeFactory::Construct(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, Construct), ConstructTrampolineDescriptor(isolate)); } // static Callable CodeFactory::ConstructWithSpread(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, ConstructWithSpread), ConstructWithSpreadDescriptor(isolate)); } // static Callable CodeFactory::ConstructFunction(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, ConstructFunction), ConstructTrampolineDescriptor(isolate)); } // static Callable CodeFactory::ConstructVarargs(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, ConstructVarargs), ConstructVarargsDescriptor(isolate)); } // static Callable CodeFactory::ConstructForwardVarargs(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, ConstructForwardVarargs), ConstructForwardVarargsDescriptor(isolate)); } // static Callable CodeFactory::ConstructFunctionForwardVarargs(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, ConstructFunctionForwardVarargs), ConstructForwardVarargsDescriptor(isolate)); } // static Callable CodeFactory::InterpreterPushArgsThenCall( Isolate* isolate, ConvertReceiverMode receiver_mode, InterpreterPushArgsMode mode) { return Callable( isolate->builtins()->InterpreterPushArgsThenCall(receiver_mode, mode), InterpreterPushArgsThenCallDescriptor(isolate)); } // static Callable CodeFactory::InterpreterPushArgsThenConstruct( Isolate* isolate, InterpreterPushArgsMode mode) { return Callable(isolate->builtins()->InterpreterPushArgsThenConstruct(mode), InterpreterPushArgsThenConstructDescriptor(isolate)); } // static Callable CodeFactory::InterpreterCEntry(Isolate* isolate, int result_size) { // Note: If we ever use fpregs in the interpreter then we will need to // save fpregs too. CEntryStub stub(isolate, result_size, kDontSaveFPRegs, kArgvInRegister); return Callable(stub.GetCode(), InterpreterCEntryDescriptor(isolate)); } // static Callable CodeFactory::InterpreterOnStackReplacement(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, InterpreterOnStackReplacement), ContextOnlyDescriptor(isolate)); } // static Callable CodeFactory::ArrayConstructor(Isolate* isolate) { ArrayConstructorStub stub(isolate); return make_callable(stub); } // static Callable CodeFactory::ArrayPop(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, ArrayPop), BuiltinDescriptor(isolate)); } // static Callable CodeFactory::ArrayShift(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, ArrayShift), BuiltinDescriptor(isolate)); } // static Callable CodeFactory::ExtractFastJSArray(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, ExtractFastJSArray), ExtractFastJSArrayDescriptor(isolate)); } // static Callable CodeFactory::CloneFastJSArray(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, CloneFastJSArray), CloneFastJSArrayDescriptor(isolate)); } // static Callable CodeFactory::ArrayPush(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, ArrayPush), BuiltinDescriptor(isolate)); } // static Callable CodeFactory::FunctionPrototypeBind(Isolate* isolate) { return Callable(BUILTIN_CODE(isolate, FunctionPrototypeBind), BuiltinDescriptor(isolate)); } // static Callable CodeFactory::TransitionElementsKind(Isolate* isolate, ElementsKind from, ElementsKind to, bool is_jsarray) { TransitionElementsKindStub stub(isolate, from, to, is_jsarray); return make_callable(stub); } } // namespace internal } // namespace v8