// 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. #ifndef V8_TYPE_CACHE_H_ #define V8_TYPE_CACHE_H_ #include "src/types.h" namespace v8 { namespace internal { class TypeCache final { private: // This has to be first for the initialization magic to work. Zone zone_; public: static TypeCache const& Get(); TypeCache() = default; Type* const kInt8 = CreateNative(CreateRange(), Type::UntaggedIntegral8()); Type* const kUint8 = CreateNative(CreateRange(), Type::UntaggedIntegral8()); Type* const kUint8Clamped = kUint8; Type* const kInt16 = CreateNative(CreateRange(), Type::UntaggedIntegral16()); Type* const kUint16 = CreateNative(CreateRange(), Type::UntaggedIntegral16()); Type* const kInt32 = CreateNative(Type::Signed32(), Type::UntaggedIntegral32()); Type* const kUint32 = CreateNative(Type::Unsigned32(), Type::UntaggedIntegral32()); Type* const kFloat32 = CreateNative(Type::Number(), Type::UntaggedFloat32()); Type* const kFloat64 = CreateNative(Type::Number(), Type::UntaggedFloat64()); Type* const kSmi = CreateNative(Type::SignedSmall(), Type::TaggedSigned()); Type* const kHeapNumber = CreateNative(Type::Number(), Type::TaggedPointer()); Type* const kSingletonZero = CreateRange(0.0, 0.0); Type* const kSingletonOne = CreateRange(1.0, 1.0); Type* const kZeroOrOne = CreateRange(0.0, 1.0); Type* const kZeroToThirtyOne = CreateRange(0.0, 31.0); Type* const kZeroToThirtyTwo = CreateRange(0.0, 32.0); Type* const kZeroish = Type::Union(kSingletonZero, Type::MinusZeroOrNaN(), zone()); Type* const kInteger = CreateRange(-V8_INFINITY, V8_INFINITY); Type* const kPositiveInteger = CreateRange(0.0, V8_INFINITY); Type* const kIntegerOrMinusZero = Type::Union(kInteger, Type::MinusZero(), zone()); Type* const kIntegerOrMinusZeroOrNaN = Type::Union(kIntegerOrMinusZero, Type::NaN(), zone()); Type* const kAdditiveSafeInteger = CreateRange(-4503599627370496.0, 4503599627370496.0); Type* const kSafeInteger = CreateRange(-kMaxSafeInteger, kMaxSafeInteger); Type* const kPositiveSafeInteger = CreateRange(0.0, kMaxSafeInteger); Type* const kUntaggedUndefined = Type::Intersect(Type::Undefined(), Type::Untagged(), zone()); // Asm.js related types. Type* const kAsmSigned = kInt32; Type* const kAsmUnsigned = kUint32; Type* const kAsmInt = Type::Union(kAsmSigned, kAsmUnsigned, zone()); Type* const kAsmFixnum = Type::Intersect(kAsmSigned, kAsmUnsigned, zone()); Type* const kAsmFloat = kFloat32; Type* const kAsmDouble = kFloat64; Type* const kAsmFloatQ = Type::Union(kAsmFloat, kUntaggedUndefined, zone()); Type* const kAsmDoubleQ = Type::Union(kAsmDouble, kUntaggedUndefined, zone()); // Not part of the Asm.js type hierarchy, but represents a part of what // intish encompasses. Type* const kAsmIntQ = Type::Union(kAsmInt, kUntaggedUndefined, zone()); Type* const kAsmFloatDoubleQ = Type::Union(kAsmFloatQ, kAsmDoubleQ, zone()); // Asm.js size unions. Type* const kAsmSize8 = Type::Union(kInt8, kUint8, zone()); Type* const kAsmSize16 = Type::Union(kInt16, kUint16, zone()); Type* const kAsmSize32 = Type::Union(Type::Union(kInt32, kUint32, zone()), kAsmFloat, zone()); Type* const kAsmSize64 = kFloat64; // Asm.js other types. Type* const kAsmComparable = Type::Union( kAsmSigned, Type::Union(kAsmUnsigned, Type::Union(kAsmDouble, kAsmFloat, zone()), zone()), zone()); Type* const kAsmIntArrayElement = Type::Union(Type::Union(kInt8, kUint8, zone()), Type::Union(Type::Union(kInt16, kUint16, zone()), Type::Union(kInt32, kUint32, zone()), zone()), zone()); // The FixedArray::length property always containts a smi in the range // [0, FixedArray::kMaxLength]. Type* const kFixedArrayLengthType = CreateNative( CreateRange(0.0, FixedArray::kMaxLength), Type::TaggedSigned()); // The FixedDoubleArray::length property always containts a smi in the range // [0, FixedDoubleArray::kMaxLength]. Type* const kFixedDoubleArrayLengthType = CreateNative( CreateRange(0.0, FixedDoubleArray::kMaxLength), Type::TaggedSigned()); // The JSArray::length property always contains a tagged number in the range // [0, kMaxUInt32]. Type* const kJSArrayLengthType = CreateNative(Type::Unsigned32(), Type::Tagged()); // The String::length property always contains a smi in the range // [0, String::kMaxLength]. Type* const kStringLengthType = CreateNative(CreateRange(0.0, String::kMaxLength), Type::TaggedSigned()); // When initializing arrays, we'll unfold the loop if the number of // elements is known to be of this type. Type* const kElementLoopUnrollType = CreateRange(0.0, 16.0); #define TYPED_ARRAY(TypeName, type_name, TYPE_NAME, ctype, size) \ Type* const k##TypeName##Array = CreateArray(k##TypeName); TYPED_ARRAYS(TYPED_ARRAY) #undef TYPED_ARRAY private: Type* CreateArray(Type* element) { return Type::Array(element, zone()); } Type* CreateArrayFunction(Type* array) { Type* arg1 = Type::Union(Type::Unsigned32(), Type::Object(), zone()); Type* arg2 = Type::Union(Type::Unsigned32(), Type::Undefined(), zone()); Type* arg3 = arg2; return Type::Function(array, arg1, arg2, arg3, zone()); } Type* CreateNative(Type* semantic, Type* representation) { return Type::Intersect(semantic, representation, zone()); } template Type* CreateRange() { return CreateRange(std::numeric_limits::min(), std::numeric_limits::max()); } Type* CreateRange(double min, double max) { return Type::Range(min, max, zone()); } Zone* zone() { return &zone_; } }; } // namespace internal } // namespace v8 #endif // V8_TYPE_CACHE_H_