// 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_TYPES_INL_H_
#define V8_TYPES_INL_H_
#include "src/types.h"
#include "src/factory.h"
#include "src/handles-inl.h"
namespace v8 {
namespace internal {
// -----------------------------------------------------------------------------
// TypeImpl
template<class Config>
typename TypeImpl<Config>::bitset TypeImpl<Config>::BitsetType::SignedSmall() {
return i::SmiValuesAre31Bits() ? kSigned31 : kSigned32;
}
template<class Config>
typename TypeImpl<Config>::bitset
TypeImpl<Config>::BitsetType::UnsignedSmall() {
return i::SmiValuesAre31Bits() ? kUnsigned30 : kUnsigned31;
}
#define CONSTRUCT_SIMD_TYPE(NAME, Name, name, lane_count, lane_type) \
template<class Config> \
typename TypeImpl<Config>::TypeHandle TypeImpl<Config>::Name( \
Isolate* isolate, Region* region) { \
return Class(i::handle(isolate->heap()->name##_map()), region); \
}
SIMD128_TYPES(CONSTRUCT_SIMD_TYPE)
#undef CONSTRUCT_SIMD_TYPE
template<class Config>
TypeImpl<Config>* TypeImpl<Config>::cast(typename Config::Base* object) {
TypeImpl* t = static_cast<TypeImpl*>(object);
DCHECK(t->IsBitset() || t->IsClass() || t->IsConstant() || t->IsRange() ||
t->IsUnion() || t->IsArray() || t->IsFunction() || t->IsContext());
return t;
}
// Most precise _current_ type of a value (usually its class).
template<class Config>
typename TypeImpl<Config>::TypeHandle TypeImpl<Config>::NowOf(
i::Object* value, Region* region) {
if (value->IsSmi() ||
i::HeapObject::cast(value)->map()->instance_type() == HEAP_NUMBER_TYPE) {
return Of(value, region);
}
return Class(i::handle(i::HeapObject::cast(value)->map()), region);
}
template<class Config>
bool TypeImpl<Config>::NowContains(i::Object* value) {
DisallowHeapAllocation no_allocation;
if (this->IsAny()) return true;
if (value->IsHeapObject()) {
i::Map* map = i::HeapObject::cast(value)->map();
for (Iterator<i::Map> it = this->Classes(); !it.Done(); it.Advance()) {
if (*it.Current() == map) return true;
}
}
return this->Contains(value);
}
// -----------------------------------------------------------------------------
// ZoneTypeConfig
// static
template<class T>
T* ZoneTypeConfig::handle(T* type) {
return type;
}
// static
template<class T>
T* ZoneTypeConfig::cast(Type* type) {
return static_cast<T*>(type);
}
// static
bool ZoneTypeConfig::is_bitset(Type* type) {
return reinterpret_cast<uintptr_t>(type) & 1;
}
// static
bool ZoneTypeConfig::is_struct(Type* type, int tag) {
DCHECK(tag != kRangeStructTag);
if (is_bitset(type)) return false;
int type_tag = struct_tag(as_struct(type));
return type_tag == tag;
}
// static
bool ZoneTypeConfig::is_range(Type* type) {
if (is_bitset(type)) return false;
int type_tag = struct_tag(as_struct(type));
return type_tag == kRangeStructTag;
}
// static
bool ZoneTypeConfig::is_class(Type* type) {
return false;
}
// static
ZoneTypeConfig::Type::bitset ZoneTypeConfig::as_bitset(Type* type) {
DCHECK(is_bitset(type));
return static_cast<Type::bitset>(reinterpret_cast<uintptr_t>(type) ^ 1u);
}
// static
ZoneTypeConfig::Struct* ZoneTypeConfig::as_struct(Type* type) {
DCHECK(!is_bitset(type));
return reinterpret_cast<Struct*>(type);
}
// static
ZoneTypeConfig::Range* ZoneTypeConfig::as_range(Type* type) {
DCHECK(!is_bitset(type));
return reinterpret_cast<Range*>(type);
}
// static
i::Handle<i::Map> ZoneTypeConfig::as_class(Type* type) {
UNREACHABLE();
return i::Handle<i::Map>();
}
// static
ZoneTypeConfig::Type* ZoneTypeConfig::from_bitset(Type::bitset bitset) {
return reinterpret_cast<Type*>(static_cast<uintptr_t>(bitset | 1u));
}
// static
ZoneTypeConfig::Type* ZoneTypeConfig::from_bitset(
Type::bitset bitset, Zone* Zone) {
return from_bitset(bitset);
}
// static
ZoneTypeConfig::Type* ZoneTypeConfig::from_struct(Struct* structure) {
return reinterpret_cast<Type*>(structure);
}
// static
ZoneTypeConfig::Type* ZoneTypeConfig::from_range(Range* range) {
return reinterpret_cast<Type*>(range);
}
// static
ZoneTypeConfig::Type* ZoneTypeConfig::from_class(
i::Handle<i::Map> map, Zone* zone) {
return from_bitset(0);
}
// static
ZoneTypeConfig::Struct* ZoneTypeConfig::struct_create(
int tag, int length, Zone* zone) {
DCHECK(tag != kRangeStructTag);
Struct* structure = reinterpret_cast<Struct*>(
zone->New(sizeof(void*) * (length + 2))); // NOLINT
structure[0] = reinterpret_cast<void*>(tag);
structure[1] = reinterpret_cast<void*>(length);
return structure;
}
// static
void ZoneTypeConfig::struct_shrink(Struct* structure, int length) {
DCHECK(0 <= length && length <= struct_length(structure));
structure[1] = reinterpret_cast<void*>(length);
}
// static
int ZoneTypeConfig::struct_tag(Struct* structure) {
return static_cast<int>(reinterpret_cast<intptr_t>(structure[0]));
}
// static
int ZoneTypeConfig::struct_length(Struct* structure) {
return static_cast<int>(reinterpret_cast<intptr_t>(structure[1]));
}
// static
Type* ZoneTypeConfig::struct_get(Struct* structure, int i) {
DCHECK(0 <= i && i <= struct_length(structure));
return static_cast<Type*>(structure[2 + i]);
}
// static
void ZoneTypeConfig::struct_set(Struct* structure, int i, Type* x) {
DCHECK(0 <= i && i <= struct_length(structure));
structure[2 + i] = x;
}
// static
template<class V>
i::Handle<V> ZoneTypeConfig::struct_get_value(Struct* structure, int i) {
DCHECK(0 <= i && i <= struct_length(structure));
return i::Handle<V>(static_cast<V**>(structure[2 + i]));
}
// static
template<class V>
void ZoneTypeConfig::struct_set_value(
Struct* structure, int i, i::Handle<V> x) {
DCHECK(0 <= i && i <= struct_length(structure));
structure[2 + i] = x.location();
}
// static
ZoneTypeConfig::Range* ZoneTypeConfig::range_create(Zone* zone) {
Range* range = reinterpret_cast<Range*>(zone->New(sizeof(Range))); // NOLINT
range->tag = reinterpret_cast<void*>(kRangeStructTag);
range->bitset = 0;
range->limits[0] = 1;
range->limits[1] = 0;
return range;
}
// static
int ZoneTypeConfig::range_get_bitset(ZoneTypeConfig::Range* range) {
return range->bitset;
}
// static
void ZoneTypeConfig::range_set_bitset(ZoneTypeConfig::Range* range, int value) {
range->bitset = value;
}
// static
double ZoneTypeConfig::range_get_double(ZoneTypeConfig::Range* range,
int index) {
DCHECK(index >= 0 && index < 2);
return range->limits[index];
}
// static
void ZoneTypeConfig::range_set_double(ZoneTypeConfig::Range* range, int index,
double value, Zone*) {
DCHECK(index >= 0 && index < 2);
range->limits[index] = value;
}
// -----------------------------------------------------------------------------
// HeapTypeConfig
// static
template<class T>
i::Handle<T> HeapTypeConfig::handle(T* type) {
return i::handle(type, i::HeapObject::cast(type)->GetIsolate());
}
// static
template<class T>
i::Handle<T> HeapTypeConfig::cast(i::Handle<Type> type) {
return i::Handle<T>::cast(type);
}
// static
bool HeapTypeConfig::is_bitset(Type* type) {
return type->IsSmi();
}
// static
bool HeapTypeConfig::is_class(Type* type) {
return type->IsMap();
}
// static
bool HeapTypeConfig::is_struct(Type* type, int tag) {
DCHECK(tag != kRangeStructTag);
return type->IsFixedArray() && struct_tag(as_struct(type)) == tag;
}
// static
bool HeapTypeConfig::is_range(Type* type) {
return type->IsFixedArray() && struct_tag(as_struct(type)) == kRangeStructTag;
}
// static
HeapTypeConfig::Type::bitset HeapTypeConfig::as_bitset(Type* type) {
// TODO(rossberg): Breaks the Smi abstraction. Fix once there is a better way.
return static_cast<Type::bitset>(reinterpret_cast<uintptr_t>(type));
}
// static
i::Handle<i::Map> HeapTypeConfig::as_class(Type* type) {
return i::handle(i::Map::cast(type));
}
// static
i::Handle<HeapTypeConfig::Struct> HeapTypeConfig::as_struct(Type* type) {
return i::handle(Struct::cast(type));
}
// static
i::Handle<HeapTypeConfig::Range> HeapTypeConfig::as_range(Type* type) {
return i::handle(Range::cast(type));
}
// static
HeapTypeConfig::Type* HeapTypeConfig::from_bitset(Type::bitset bitset) {
// TODO(rossberg): Breaks the Smi abstraction. Fix once there is a better way.
return reinterpret_cast<Type*>(static_cast<uintptr_t>(bitset));
}
// static
i::Handle<HeapTypeConfig::Type> HeapTypeConfig::from_bitset(
Type::bitset bitset, Isolate* isolate) {
return i::handle(from_bitset(bitset), isolate);
}
// static
i::Handle<HeapTypeConfig::Type> HeapTypeConfig::from_class(
i::Handle<i::Map> map, Isolate* isolate) {
return i::Handle<Type>::cast(i::Handle<Object>::cast(map));
}
// static
i::Handle<HeapTypeConfig::Type> HeapTypeConfig::from_struct(
i::Handle<Struct> structure) {
return i::Handle<Type>::cast(i::Handle<Object>::cast(structure));
}
// static
i::Handle<HeapTypeConfig::Type> HeapTypeConfig::from_range(
i::Handle<Range> range) {
return i::Handle<Type>::cast(i::Handle<Object>::cast(range));
}
// static
i::Handle<HeapTypeConfig::Struct> HeapTypeConfig::struct_create(
int tag, int length, Isolate* isolate) {
i::Handle<Struct> structure = isolate->factory()->NewFixedArray(length + 1);
structure->set(0, i::Smi::FromInt(tag));
return structure;
}
// static
void HeapTypeConfig::struct_shrink(i::Handle<Struct> structure, int length) {
structure->Shrink(length + 1);
}
// static
int HeapTypeConfig::struct_tag(i::Handle<Struct> structure) {
return static_cast<i::Smi*>(structure->get(0))->value();
}
// static
int HeapTypeConfig::struct_length(i::Handle<Struct> structure) {
return structure->length() - 1;
}
// static
i::Handle<HeapTypeConfig::Type> HeapTypeConfig::struct_get(
i::Handle<Struct> structure, int i) {
Type* type = static_cast<Type*>(structure->get(i + 1));
return i::handle(type, structure->GetIsolate());
}
// static
void HeapTypeConfig::struct_set(
i::Handle<Struct> structure, int i, i::Handle<Type> type) {
structure->set(i + 1, *type);
}
// static
template<class V>
i::Handle<V> HeapTypeConfig::struct_get_value(
i::Handle<Struct> structure, int i) {
V* x = static_cast<V*>(structure->get(i + 1));
return i::handle(x, structure->GetIsolate());
}
// static
template<class V>
void HeapTypeConfig::struct_set_value(
i::Handle<Struct> structure, int i, i::Handle<V> x) {
structure->set(i + 1, *x);
}
// static
i::Handle<HeapTypeConfig::Range> HeapTypeConfig::range_create(
Isolate* isolate) {
i::Handle<Range> range = isolate->factory()->NewFixedArray(4);
range->set(0, i::Smi::FromInt(kRangeStructTag));
return range;
}
// static
int HeapTypeConfig::range_get_bitset(i::Handle<HeapTypeConfig::Range> range) {
Type* v = static_cast<Type*>(range->get(1));
return as_bitset(v);
}
// static
void HeapTypeConfig::range_set_bitset(i::Handle<HeapTypeConfig::Range> range,
int value) {
range->set(1, from_bitset(value));
}
// static
double HeapTypeConfig::range_get_double(i::Handle<HeapTypeConfig::Range> range,
int index) {
DCHECK(index >= 0 && index < 2);
return range->get(index + 2)->Number();
}
// static
void HeapTypeConfig::range_set_double(i::Handle<HeapTypeConfig::Range> range,
int index, double value,
Isolate* isolate) {
DCHECK(index >= 0 && index < 2);
i::Handle<Object> number = isolate->factory()->NewNumber(value);
range->set(index + 2, *number);
}
} // namespace internal
} // namespace v8
#endif // V8_TYPES_INL_H_