// 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. #ifndef V8_OBJECTS_ELEMENTS_KIND_H_ #define V8_OBJECTS_ELEMENTS_KIND_H_ #include "src/base/bits.h" #include "src/base/bounds.h" #include "src/base/macros.h" #include "src/common/checks.h" #include "src/flags/flags.h" namespace v8 { namespace internal { // V has parameters (Type, type, TYPE, C type) #define TYPED_ARRAYS(V) \ V(Uint8, uint8, UINT8, uint8_t) \ V(Int8, int8, INT8, int8_t) \ V(Uint16, uint16, UINT16, uint16_t) \ V(Int16, int16, INT16, int16_t) \ V(Uint32, uint32, UINT32, uint32_t) \ V(Int32, int32, INT32, int32_t) \ V(Float32, float32, FLOAT32, float) \ V(Float64, float64, FLOAT64, double) \ V(Uint8Clamped, uint8_clamped, UINT8_CLAMPED, uint8_t) \ V(BigUint64, biguint64, BIGUINT64, uint64_t) \ V(BigInt64, bigint64, BIGINT64, int64_t) #define RAB_GSAB_TYPED_ARRAYS(V) \ V(RabGsabUint8, rab_gsab_uint8, RAB_GSAB_UINT8, uint8_t) \ V(RabGsabInt8, rab_gsab_int8, RAB_GSAB_INT8, int8_t) \ V(RabGsabUint16, rab_gsab_uint16, RAB_GSAB_UINT16, uint16_t) \ V(RabGsabInt16, rab_gsab_int16, RAB_GSAB_INT16, int16_t) \ V(RabGsabUint32, rab_gsab_uint32, RAB_GSAB_UINT32, uint32_t) \ V(RabGsabInt32, rab_gsab_int32, RAB_GSAB_INT32, int32_t) \ V(RabGsabFloat32, rab_gsab_float32, RAB_GSAB_FLOAT32, float) \ V(RabGsabFloat64, rab_gsab_float64, RAB_GSAB_FLOAT64, double) \ V(RabGsabUint8Clamped, rab_gsab_uint8_clamped, RAB_GSAB_UINT8_CLAMPED, \ uint8_t) \ V(RabGsabBigUint64, rab_gsab_biguint64, RAB_GSAB_BIGUINT64, uint64_t) \ V(RabGsabBigInt64, rab_gsab_bigint64, RAB_GSAB_BIGINT64, int64_t) // The TypedArrays backed by RAB / GSAB are called Uint8Array, Uint16Array etc, // and not RabGsabUint8Array, RabGsabUint16Array etc. This macro is used for // generating code which refers to the TypedArray type. #define RAB_GSAB_TYPED_ARRAYS_WITH_TYPED_ARRAY_TYPE(V) \ V(Uint8, rab_gsab_uint8, RAB_GSAB_UINT8, uint8_t) \ V(Int8, rab_gsab_int8, RAB_GSAB_INT8, int8_t) \ V(Uint16, rab_gsab_uint16, RAB_GSAB_UINT16, uint16_t) \ V(Int16, rab_gsab_int16, RAB_GSAB_INT16, int16_t) \ V(Uint32, rab_gsab_uint32, RAB_GSAB_UINT32, uint32_t) \ V(Int32, rab_gsab_int32, RAB_GSAB_INT32, int32_t) \ V(Float32, rab_gsab_float32, RAB_GSAB_FLOAT32, float) \ V(Float64, rab_gsab_float64, RAB_GSAB_FLOAT64, double) \ V(Uint8Clamped, rab_gsab_uint8_clamped, RAB_GSAB_UINT8_CLAMPED, uint8_t) \ V(BigUint64, rab_gsab_biguint64, RAB_GSAB_BIGUINT64, uint64_t) \ V(BigInt64, rab_gsab_bigint64, RAB_GSAB_BIGINT64, int64_t) // Like RAB_GSAB_TYPED_ARRAYS but has an additional parameter for // for the corresponding non-RAB/GSAB ElementsKind. #define RAB_GSAB_TYPED_ARRAYS_WITH_NON_RAB_GSAB_ELEMENTS_KIND(V) \ V(RabGsabUint8, rab_gsab_uint8, RAB_GSAB_UINT8, uint8_t, UINT8) \ V(RabGsabInt8, rab_gsab_int8, RAB_GSAB_INT8, int8_t, INT8) \ V(RabGsabUint16, rab_gsab_uint16, RAB_GSAB_UINT16, uint16_t, UINT16) \ V(RabGsabInt16, rab_gsab_int16, RAB_GSAB_INT16, int16_t, INT16) \ V(RabGsabUint32, rab_gsab_uint32, RAB_GSAB_UINT32, uint32_t, UINT32) \ V(RabGsabInt32, rab_gsab_int32, RAB_GSAB_INT32, int32_t, INT32) \ V(RabGsabFloat32, rab_gsab_float32, RAB_GSAB_FLOAT32, float, FLOAT32) \ V(RabGsabFloat64, rab_gsab_float64, RAB_GSAB_FLOAT64, double, FLOAT64) \ V(RabGsabUint8Clamped, rab_gsab_uint8_clamped, RAB_GSAB_UINT8_CLAMPED, \ uint8_t, UINT8_CLAMPED) \ V(RabGsabBigUint64, rab_gsab_biguint64, RAB_GSAB_BIGUINT64, uint64_t, \ BIGUINT64) \ V(RabGsabBigInt64, rab_gsab_bigint64, RAB_GSAB_BIGINT64, int64_t, BIGINT64) enum ElementsKind : uint8_t { // The "fast" kind for elements that only contain SMI values. Must be first // to make it possible to efficiently check maps for this kind. PACKED_SMI_ELEMENTS, HOLEY_SMI_ELEMENTS, // The "fast" kind for tagged values. Must be second to make it possible to // efficiently check maps for this and the PACKED_SMI_ELEMENTS kind // together at once. PACKED_ELEMENTS, HOLEY_ELEMENTS, // The "fast" kind for unwrapped, non-tagged double values. PACKED_DOUBLE_ELEMENTS, HOLEY_DOUBLE_ELEMENTS, // The nonextensible kind for elements. PACKED_NONEXTENSIBLE_ELEMENTS, HOLEY_NONEXTENSIBLE_ELEMENTS, // The sealed kind for elements. PACKED_SEALED_ELEMENTS, HOLEY_SEALED_ELEMENTS, // The frozen kind for elements. PACKED_FROZEN_ELEMENTS, HOLEY_FROZEN_ELEMENTS, // The "slow" kind. DICTIONARY_ELEMENTS, // Elements kind of the "arguments" object (only in sloppy mode). FAST_SLOPPY_ARGUMENTS_ELEMENTS, SLOW_SLOPPY_ARGUMENTS_ELEMENTS, // For string wrapper objects ("new String('...')"), the string's characters // are overlaid onto a regular elements backing store. FAST_STRING_WRAPPER_ELEMENTS, SLOW_STRING_WRAPPER_ELEMENTS, // Fixed typed arrays. #define TYPED_ARRAY_ELEMENTS_KIND(Type, type, TYPE, ctype) TYPE##_ELEMENTS, TYPED_ARRAYS(TYPED_ARRAY_ELEMENTS_KIND) RAB_GSAB_TYPED_ARRAYS(TYPED_ARRAY_ELEMENTS_KIND) #undef TYPED_ARRAY_ELEMENTS_KIND // WasmObject elements kind. The actual elements type is read from the // respective WasmTypeInfo. WASM_ARRAY_ELEMENTS, // Sentinel ElementsKind for objects with no elements. NO_ELEMENTS, // Derived constants from ElementsKind. FIRST_ELEMENTS_KIND = PACKED_SMI_ELEMENTS, LAST_ELEMENTS_KIND = RAB_GSAB_BIGINT64_ELEMENTS, FIRST_FAST_ELEMENTS_KIND = PACKED_SMI_ELEMENTS, LAST_FAST_ELEMENTS_KIND = HOLEY_DOUBLE_ELEMENTS, FIRST_FIXED_TYPED_ARRAY_ELEMENTS_KIND = UINT8_ELEMENTS, LAST_FIXED_TYPED_ARRAY_ELEMENTS_KIND = BIGINT64_ELEMENTS, FIRST_RAB_GSAB_FIXED_TYPED_ARRAY_ELEMENTS_KIND = RAB_GSAB_UINT8_ELEMENTS, LAST_RAB_GSAB_FIXED_TYPED_ARRAY_ELEMENTS_KIND = RAB_GSAB_BIGINT64_ELEMENTS, TERMINAL_FAST_ELEMENTS_KIND = HOLEY_ELEMENTS, FIRST_ANY_NONEXTENSIBLE_ELEMENTS_KIND = PACKED_NONEXTENSIBLE_ELEMENTS, LAST_ANY_NONEXTENSIBLE_ELEMENTS_KIND = HOLEY_FROZEN_ELEMENTS, // Alias for kSystemPointerSize-sized elements #ifdef V8_COMPRESS_POINTERS SYSTEM_POINTER_ELEMENTS = PACKED_DOUBLE_ELEMENTS, #else SYSTEM_POINTER_ELEMENTS = PACKED_ELEMENTS, #endif }; constexpr int kElementsKindCount = LAST_ELEMENTS_KIND - FIRST_ELEMENTS_KIND + 1; constexpr int kFastElementsKindCount = LAST_FAST_ELEMENTS_KIND - FIRST_FAST_ELEMENTS_KIND + 1; // The number to add to a packed elements kind to reach a holey elements kind constexpr int kFastElementsKindPackedToHoley = HOLEY_SMI_ELEMENTS - PACKED_SMI_ELEMENTS; constexpr int kElementsKindBits = 6; STATIC_ASSERT((1 << kElementsKindBits) > LAST_ELEMENTS_KIND); STATIC_ASSERT((1 << (kElementsKindBits - 1)) <= LAST_ELEMENTS_KIND); constexpr int kFastElementsKindBits = 3; STATIC_ASSERT((1 << kFastElementsKindBits) > LAST_FAST_ELEMENTS_KIND); STATIC_ASSERT((1 << (kFastElementsKindBits - 1)) <= LAST_FAST_ELEMENTS_KIND); V8_EXPORT_PRIVATE int ElementsKindToShiftSize(ElementsKind elements_kind); V8_EXPORT_PRIVATE int ElementsKindToByteSize(ElementsKind elements_kind); int GetDefaultHeaderSizeForElementsKind(ElementsKind elements_kind); const char* ElementsKindToString(ElementsKind kind); inline ElementsKind GetInitialFastElementsKind() { return PACKED_SMI_ELEMENTS; } ElementsKind GetFastElementsKindFromSequenceIndex(int sequence_number); int GetSequenceIndexFromFastElementsKind(ElementsKind elements_kind); ElementsKind GetNextTransitionElementsKind(ElementsKind elements_kind); inline bool IsDictionaryElementsKind(ElementsKind kind) { return kind == DICTIONARY_ELEMENTS; } inline bool IsFastArgumentsElementsKind(ElementsKind kind) { return kind == FAST_SLOPPY_ARGUMENTS_ELEMENTS; } inline bool IsSlowArgumentsElementsKind(ElementsKind kind) { return kind == SLOW_SLOPPY_ARGUMENTS_ELEMENTS; } inline bool IsSloppyArgumentsElementsKind(ElementsKind kind) { return base::IsInRange(kind, FAST_SLOPPY_ARGUMENTS_ELEMENTS, SLOW_SLOPPY_ARGUMENTS_ELEMENTS); } inline bool IsStringWrapperElementsKind(ElementsKind kind) { return base::IsInRange(kind, FAST_STRING_WRAPPER_ELEMENTS, SLOW_STRING_WRAPPER_ELEMENTS); } inline bool IsTypedArrayElementsKind(ElementsKind kind) { return base::IsInRange(kind, FIRST_FIXED_TYPED_ARRAY_ELEMENTS_KIND, LAST_FIXED_TYPED_ARRAY_ELEMENTS_KIND); } inline bool IsRabGsabTypedArrayElementsKind(ElementsKind kind) { return base::IsInRange(kind, FIRST_RAB_GSAB_FIXED_TYPED_ARRAY_ELEMENTS_KIND, LAST_RAB_GSAB_FIXED_TYPED_ARRAY_ELEMENTS_KIND); } inline bool IsTypedArrayOrRabGsabTypedArrayElementsKind(ElementsKind kind) { return base::IsInRange(kind, FIRST_FIXED_TYPED_ARRAY_ELEMENTS_KIND, LAST_RAB_GSAB_FIXED_TYPED_ARRAY_ELEMENTS_KIND); } inline bool IsBigIntTypedArrayElementsKind(ElementsKind kind) { return kind == BIGINT64_ELEMENTS || kind == BIGUINT64_ELEMENTS || kind == RAB_GSAB_BIGINT64_ELEMENTS || kind == RAB_GSAB_BIGUINT64_ELEMENTS; } inline bool IsWasmArrayElementsKind(ElementsKind kind) { return kind == WASM_ARRAY_ELEMENTS; } inline bool IsTerminalElementsKind(ElementsKind kind) { return kind == TERMINAL_FAST_ELEMENTS_KIND || IsTypedArrayElementsKind(kind) || IsRabGsabTypedArrayElementsKind(kind); } inline bool IsFastElementsKind(ElementsKind kind) { STATIC_ASSERT(FIRST_FAST_ELEMENTS_KIND == 0); return kind <= LAST_FAST_ELEMENTS_KIND; } inline bool IsTransitionElementsKind(ElementsKind kind) { return IsFastElementsKind(kind) || IsTypedArrayElementsKind(kind) || kind == FAST_SLOPPY_ARGUMENTS_ELEMENTS || kind == FAST_STRING_WRAPPER_ELEMENTS; } inline bool IsDoubleElementsKind(ElementsKind kind) { return base::IsInRange(kind, PACKED_DOUBLE_ELEMENTS, HOLEY_DOUBLE_ELEMENTS); } inline bool IsFixedFloatElementsKind(ElementsKind kind) { return kind == FLOAT32_ELEMENTS || kind == FLOAT64_ELEMENTS; } inline bool IsDoubleOrFloatElementsKind(ElementsKind kind) { return IsDoubleElementsKind(kind) || IsFixedFloatElementsKind(kind); } // This predicate is used for disabling respective functionality in builtins. inline bool IsAnyNonextensibleElementsKindUnchecked(ElementsKind kind) { return base::IsInRange(kind, FIRST_ANY_NONEXTENSIBLE_ELEMENTS_KIND, LAST_ANY_NONEXTENSIBLE_ELEMENTS_KIND); } inline bool IsAnyNonextensibleElementsKind(ElementsKind kind) { DCHECK_IMPLIES(IsAnyNonextensibleElementsKindUnchecked(kind), FLAG_enable_sealed_frozen_elements_kind); return IsAnyNonextensibleElementsKindUnchecked(kind); } inline bool IsNonextensibleElementsKind(ElementsKind kind) { DCHECK_IMPLIES(base::IsInRange(kind, PACKED_NONEXTENSIBLE_ELEMENTS, HOLEY_NONEXTENSIBLE_ELEMENTS), FLAG_enable_sealed_frozen_elements_kind); return base::IsInRange(kind, PACKED_NONEXTENSIBLE_ELEMENTS, HOLEY_NONEXTENSIBLE_ELEMENTS); } inline bool IsSealedElementsKind(ElementsKind kind) { DCHECK_IMPLIES( base::IsInRange(kind, PACKED_SEALED_ELEMENTS, HOLEY_SEALED_ELEMENTS), FLAG_enable_sealed_frozen_elements_kind); return base::IsInRange(kind, PACKED_SEALED_ELEMENTS, HOLEY_SEALED_ELEMENTS); } inline bool IsFrozenElementsKind(ElementsKind kind) { DCHECK_IMPLIES( base::IsInRange(kind, PACKED_FROZEN_ELEMENTS, HOLEY_FROZEN_ELEMENTS), FLAG_enable_sealed_frozen_elements_kind); return base::IsInRange(kind, PACKED_FROZEN_ELEMENTS, HOLEY_FROZEN_ELEMENTS); } inline bool IsSmiOrObjectElementsKind(ElementsKind kind) { return base::IsInRange(kind, PACKED_SMI_ELEMENTS, HOLEY_ELEMENTS); } inline bool IsSmiElementsKind(ElementsKind kind) { return base::IsInRange(kind, PACKED_SMI_ELEMENTS, HOLEY_SMI_ELEMENTS); } inline bool IsFastNumberElementsKind(ElementsKind kind) { return IsSmiElementsKind(kind) || IsDoubleElementsKind(kind); } inline bool IsObjectElementsKind(ElementsKind kind) { return base::IsInRange(kind, PACKED_ELEMENTS, HOLEY_ELEMENTS); } inline bool IsAnyHoleyNonextensibleElementsKind(ElementsKind kind) { DCHECK_IMPLIES(kind == HOLEY_NONEXTENSIBLE_ELEMENTS || kind == HOLEY_SEALED_ELEMENTS || kind == HOLEY_FROZEN_ELEMENTS, FLAG_enable_sealed_frozen_elements_kind); return kind == HOLEY_NONEXTENSIBLE_ELEMENTS || kind == HOLEY_SEALED_ELEMENTS || kind == HOLEY_FROZEN_ELEMENTS; } inline bool IsHoleyElementsKind(ElementsKind kind) { return kind % 2 == 1 && kind <= HOLEY_DOUBLE_ELEMENTS; } inline bool IsHoleyElementsKindForRead(ElementsKind kind) { return kind % 2 == 1 && kind <= HOLEY_FROZEN_ELEMENTS; } inline bool IsHoleyOrDictionaryElementsKind(ElementsKind kind) { return IsHoleyElementsKindForRead(kind) || kind == DICTIONARY_ELEMENTS; } inline bool IsFastPackedElementsKind(ElementsKind kind) { return kind % 2 == 0 && kind <= PACKED_DOUBLE_ELEMENTS; } inline ElementsKind GetPackedElementsKind(ElementsKind holey_kind) { if (holey_kind == HOLEY_SMI_ELEMENTS) { return PACKED_SMI_ELEMENTS; } if (holey_kind == HOLEY_DOUBLE_ELEMENTS) { return PACKED_DOUBLE_ELEMENTS; } if (holey_kind == HOLEY_ELEMENTS) { return PACKED_ELEMENTS; } return holey_kind; } inline ElementsKind GetHoleyElementsKind(ElementsKind packed_kind) { if (packed_kind == PACKED_SMI_ELEMENTS) { return HOLEY_SMI_ELEMENTS; } if (packed_kind == PACKED_DOUBLE_ELEMENTS) { return HOLEY_DOUBLE_ELEMENTS; } if (packed_kind == PACKED_ELEMENTS) { return HOLEY_ELEMENTS; } if (packed_kind == PACKED_NONEXTENSIBLE_ELEMENTS) { return HOLEY_NONEXTENSIBLE_ELEMENTS; } return packed_kind; } inline ElementsKind GetCorrespondingRabGsabElementsKind( ElementsKind typed_array_kind) { DCHECK(IsTypedArrayElementsKind(typed_array_kind)); return ElementsKind(typed_array_kind - FIRST_FIXED_TYPED_ARRAY_ELEMENTS_KIND + FIRST_RAB_GSAB_FIXED_TYPED_ARRAY_ELEMENTS_KIND); } inline ElementsKind GetCorrespondingNonRabGsabElementsKind( ElementsKind typed_array_kind) { DCHECK(IsRabGsabTypedArrayElementsKind(typed_array_kind)); return ElementsKind(typed_array_kind - FIRST_RAB_GSAB_FIXED_TYPED_ARRAY_ELEMENTS_KIND + FIRST_FIXED_TYPED_ARRAY_ELEMENTS_KIND); } inline bool UnionElementsKindUptoPackedness(ElementsKind* a_out, ElementsKind b) { // Assert that the union of two ElementKinds can be computed via std::max. static_assert(PACKED_SMI_ELEMENTS < HOLEY_SMI_ELEMENTS, "ElementsKind union not computable via std::max."); static_assert(PACKED_ELEMENTS < HOLEY_ELEMENTS, "ElementsKind union not computable via std::max."); static_assert(PACKED_DOUBLE_ELEMENTS < HOLEY_DOUBLE_ELEMENTS, "ElementsKind union not computable via std::max."); ElementsKind a = *a_out; switch (a) { case HOLEY_SMI_ELEMENTS: case PACKED_SMI_ELEMENTS: if (b == PACKED_SMI_ELEMENTS || b == HOLEY_SMI_ELEMENTS) { *a_out = std::max(a, b); return true; } break; case PACKED_ELEMENTS: case HOLEY_ELEMENTS: if (b == PACKED_ELEMENTS || b == HOLEY_ELEMENTS) { *a_out = std::max(a, b); return true; } break; case PACKED_DOUBLE_ELEMENTS: case HOLEY_DOUBLE_ELEMENTS: if (b == PACKED_DOUBLE_ELEMENTS || b == HOLEY_DOUBLE_ELEMENTS) { *a_out = std::max(a, b); return true; } break; default: break; } return false; } bool UnionElementsKindUptoSize(ElementsKind* a_out, ElementsKind b); inline ElementsKind FastSmiToObjectElementsKind(ElementsKind from_kind) { DCHECK(IsSmiElementsKind(from_kind)); return (from_kind == PACKED_SMI_ELEMENTS) ? PACKED_ELEMENTS : HOLEY_ELEMENTS; } inline bool IsSimpleMapChangeTransition(ElementsKind from_kind, ElementsKind to_kind) { return (GetHoleyElementsKind(from_kind) == to_kind) || (IsSmiElementsKind(from_kind) && IsObjectElementsKind(to_kind)); } bool IsMoreGeneralElementsKindTransition(ElementsKind from_kind, ElementsKind to_kind); inline ElementsKind GetMoreGeneralElementsKind(ElementsKind from_kind, ElementsKind to_kind) { if (IsMoreGeneralElementsKindTransition(from_kind, to_kind)) { return to_kind; } return from_kind; } inline bool IsTransitionableFastElementsKind(ElementsKind from_kind) { return IsFastElementsKind(from_kind) && from_kind != TERMINAL_FAST_ELEMENTS_KIND; } inline bool ElementsKindEqual(ElementsKind a, ElementsKind b) { return a == b; } } // namespace internal } // namespace v8 #endif // V8_OBJECTS_ELEMENTS_KIND_H_