// Copyright 2012 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/compiler/simplified-operator.h" #include "src/base/lazy-instance.h" #include "src/compiler/opcodes.h" #include "src/compiler/operator.h" #include "src/types-inl.h" namespace v8 { namespace internal { namespace compiler { OStream& operator<<(OStream& os, BaseTaggedness base_taggedness) { switch (base_taggedness) { case kUntaggedBase: return os << "untagged base"; case kTaggedBase: return os << "tagged base"; } UNREACHABLE(); return os; } bool operator==(ElementAccess const& lhs, ElementAccess const& rhs) { return lhs.base_is_tagged == rhs.base_is_tagged && lhs.header_size == rhs.header_size && lhs.type == rhs.type && lhs.machine_type == rhs.machine_type; } bool operator!=(ElementAccess const& lhs, ElementAccess const& rhs) { return !(lhs == rhs); } OStream& operator<<(OStream& os, ElementAccess const& access) { os << "[" << access.base_is_tagged << ", " << access.header_size << ", "; access.type->PrintTo(os); os << ", " << access.machine_type << "]"; return os; } const FieldAccess& FieldAccessOf(const Operator* op) { DCHECK_NOT_NULL(op); DCHECK(op->opcode() == IrOpcode::kLoadField || op->opcode() == IrOpcode::kStoreField); return OpParameter(op); } const ElementAccess& ElementAccessOf(const Operator* op) { DCHECK_NOT_NULL(op); DCHECK(op->opcode() == IrOpcode::kLoadElement || op->opcode() == IrOpcode::kStoreElement); return OpParameter(op); } // Specialization for static parameters of type {FieldAccess}. template <> struct StaticParameterTraits { static OStream& PrintTo(OStream& os, const FieldAccess& val) { return os << val.offset; } static int HashCode(const FieldAccess& val) { return (val.offset < 16) | (val.machine_type & 0xffff); } static bool Equals(const FieldAccess& lhs, const FieldAccess& rhs) { return lhs.base_is_tagged == rhs.base_is_tagged && lhs.offset == rhs.offset && lhs.machine_type == rhs.machine_type && lhs.type->Is(rhs.type); } }; // Specialization for static parameters of type {ElementAccess}. template <> struct StaticParameterTraits { static OStream& PrintTo(OStream& os, const ElementAccess& access) { return os << access; } static int HashCode(const ElementAccess& access) { return (access.header_size < 16) | (access.machine_type & 0xffff); } static bool Equals(const ElementAccess& lhs, const ElementAccess& rhs) { return lhs.base_is_tagged == rhs.base_is_tagged && lhs.header_size == rhs.header_size && lhs.machine_type == rhs.machine_type && lhs.type->Is(rhs.type); } }; #define PURE_OP_LIST(V) \ V(BooleanNot, Operator::kNoProperties, 1) \ V(BooleanToNumber, Operator::kNoProperties, 1) \ V(NumberEqual, Operator::kCommutative, 2) \ V(NumberLessThan, Operator::kNoProperties, 2) \ V(NumberLessThanOrEqual, Operator::kNoProperties, 2) \ V(NumberAdd, Operator::kCommutative, 2) \ V(NumberSubtract, Operator::kNoProperties, 2) \ V(NumberMultiply, Operator::kCommutative, 2) \ V(NumberDivide, Operator::kNoProperties, 2) \ V(NumberModulus, Operator::kNoProperties, 2) \ V(NumberToInt32, Operator::kNoProperties, 1) \ V(NumberToUint32, Operator::kNoProperties, 1) \ V(StringEqual, Operator::kCommutative, 2) \ V(StringLessThan, Operator::kNoProperties, 2) \ V(StringLessThanOrEqual, Operator::kNoProperties, 2) \ V(StringAdd, Operator::kNoProperties, 2) \ V(ChangeTaggedToInt32, Operator::kNoProperties, 1) \ V(ChangeTaggedToUint32, Operator::kNoProperties, 1) \ V(ChangeTaggedToFloat64, Operator::kNoProperties, 1) \ V(ChangeInt32ToTagged, Operator::kNoProperties, 1) \ V(ChangeUint32ToTagged, Operator::kNoProperties, 1) \ V(ChangeFloat64ToTagged, Operator::kNoProperties, 1) \ V(ChangeBoolToBit, Operator::kNoProperties, 1) \ V(ChangeBitToBool, Operator::kNoProperties, 1) #define ACCESS_OP_LIST(V) \ V(LoadField, FieldAccess, Operator::kNoWrite, 1, 1) \ V(StoreField, FieldAccess, Operator::kNoRead, 2, 0) \ V(LoadElement, ElementAccess, Operator::kNoWrite, 3, 1) \ V(StoreElement, ElementAccess, Operator::kNoRead, 4, 0) struct SimplifiedOperatorBuilderImpl FINAL { #define PURE(Name, properties, input_count) \ struct Name##Operator FINAL : public SimpleOperator { \ Name##Operator() \ : SimpleOperator(IrOpcode::k##Name, Operator::kPure | properties, \ input_count, 1, #Name) {} \ }; \ Name##Operator k##Name; PURE_OP_LIST(PURE) #undef PURE }; static base::LazyInstance::type kImpl = LAZY_INSTANCE_INITIALIZER; SimplifiedOperatorBuilder::SimplifiedOperatorBuilder(Zone* zone) : impl_(kImpl.Get()), zone_(zone) {} #define PURE(Name, properties, input_count) \ const Operator* SimplifiedOperatorBuilder::Name() { return &impl_.k##Name; } PURE_OP_LIST(PURE) #undef PURE const Operator* SimplifiedOperatorBuilder::ReferenceEqual(Type* type) { // TODO(titzer): What about the type parameter? return new (zone()) SimpleOperator(IrOpcode::kReferenceEqual, Operator::kCommutative | Operator::kPure, 2, 1, "ReferenceEqual"); } #define ACCESS(Name, Type, properties, input_count, output_count) \ const Operator* SimplifiedOperatorBuilder::Name(const Type& access) { \ return new (zone()) \ Operator1(IrOpcode::k##Name, Operator::kNoThrow | properties, \ input_count, output_count, #Name, access); \ } ACCESS_OP_LIST(ACCESS) #undef ACCESS } // namespace compiler } // namespace internal } // namespace v8