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Dict_inl.h
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Dict_inl.h
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#pragma once
#include <ATen/core/ivalue.h>
#include <ATen/core/jit_type.h>
namespace c10 {
template<class T> TypePtr getTypePtr();
std::string toString(TypePtr typePtr);
namespace impl {
inline bool shallowEquals(const IValue& lhs, const IValue& rhs) {
if (lhs.isNone()) {
return rhs.isNone();
} else if (lhs.isInt()) {
return rhs.isInt() && lhs.toInt() == rhs.toInt();
} else if (lhs.isString()) {
return rhs.isString() && lhs.toStringRef() == rhs.toStringRef();
} else if (lhs.isDouble()) {
return rhs.isDouble() && lhs.toDouble() == rhs.toDouble();
} else if (lhs.isBool()) {
return rhs.isBool() && lhs.toBool() == rhs.toBool();
} else if (lhs.isIntList()) {
return rhs.isIntList() && lhs.toIntListRef() == rhs.toIntListRef();
} else if (lhs.isTensor()) {
return lhs.toTensor().is_same(rhs.toTensor());
} else {
AT_ERROR("shallowEquals(IValue, IValue) not implemented for type ", lhs.tagKind());
}
}
template<class Key, class Value>
Dict<Key, Value> toTypedDict(GenericDict dict) {
TORCH_INTERNAL_ASSERT(*getTypePtr<Key>() == *dict.impl_->elementTypes.keyType, "Tried to cast a Dict<", toString(dict.impl_->elementTypes.keyType), ", ", toString(dict.impl_->elementTypes.valueType) ,"> to a Dict<", toString(getTypePtr<Key>()), ", ", toString(getTypePtr<Value>()), ">. Key types mismatch.");
TORCH_INTERNAL_ASSERT(*getTypePtr<Value>() == *dict.impl_->elementTypes.valueType, "Tried to cast a Dict<", toString(dict.impl_->elementTypes.keyType), ", ", toString(dict.impl_->elementTypes.valueType) ,"> to a Dict<", toString(getTypePtr<Key>()), ", ", toString(getTypePtr<Value>()), ">. Value types mismatch.");
return Dict<Key, Value>(std::move(dict.impl_));
}
template<class Key, class Value>
GenericDict toGenericDict(Dict<Key, Value> dict) {
return GenericDict(std::move(dict.impl_));
}
}
namespace detail {
inline size_t DictKeyHash::operator()(const IValue& ivalue) const {
if (ivalue.isInt()) {
return std::hash<int>()(ivalue.toInt());
} else if (ivalue.isString()) {
return std::hash<std::string>()(ivalue.toStringRef());
} else if (ivalue.isDouble()) {
return std::hash<double>()(ivalue.toDouble());
} else if (ivalue.isBool()) {
return std::hash<bool>()(ivalue.toBool());
} else if (ivalue.isTensor()) {
return std::hash<TensorImpl*>()(ivalue.toTensor().unsafeGetTensorImpl());
} else {
throw std::runtime_error("Can't hash IValues with this tag");
}
}
inline intrusive_ptr<DictImpl> DictImpl::copy() const {
return make_intrusive<DictImpl>(dict, elementTypes);
}
}
template<class Key, class Value>
Dict<Key, Value>::Dict()
:Dict(make_intrusive<detail::DictImpl>(
detail::DictImpl::dict_map_type(),
detail::DictImpl::DictElementTypes{getTypePtr<Key>(), getTypePtr<Value>()})) {
static_assert(!std::is_same<Key, IValue>::value, "This constructor is not valid for Dict<IValue, _>. Please use c10::impl::GenericDict(keyType, valueType) instead, or if you absolutely have to, use c10::impl::GenericDict(c10::impl::deprecatedUntypedDict()).");
static_assert(!std::is_same<Value, IValue>::value, "This constructor is not valid for Dict<_, IValue>. Please use c10::impl::GenericDict(keyType, valueType) instead, or if you absolutely have to, use c10::impl::GenericDict(c10::impl::deprecatedUntypedDict()).");
}
template<class Key, class Value>
Dict<Key, Value>::Dict(TypePtr keyType, TypePtr valueType)
: Dict(make_intrusive<detail::DictImpl>(
detail::DictImpl::dict_map_type(),
detail::DictImpl::DictElementTypes {std::move(keyType), std::move(valueType)})) {
static_assert(std::is_same<Key, IValue>::value, "This constructor is only valid for c10::impl::GenericDict.");
static_assert(std::is_same<Value, IValue>::value, "This constructor is only valid for c10::impl::GenericDict.");
}
template<class Key, class Value>
Dict<Key, Value>::Dict(Dict&& rhs) noexcept: impl_(std::move(rhs.impl_)) {
rhs.impl_ = make_intrusive<detail::DictImpl>(detail::DictImpl::dict_map_type(), impl_->elementTypes);
}
template<class Key, class Value>
Dict<Key, Value>::Dict(c10::intrusive_ptr<detail::DictImpl>&& impl): impl_(std::move(impl)) {}
template<class Key, class Value>
Dict<Key, Value>& Dict<Key, Value>::operator=(Dict&& rhs) noexcept {
impl_ = std::move(rhs.impl_);
rhs.impl_ = make_intrusive<detail::DictImpl>(detail::DictImpl::dict_map_type(), impl_->elementTypes);
return *this;
}
template<class Key, class Value>
Dict<Key, Value> Dict<Key, Value>::copy() const {
return Dict<Key, Value>(impl_->copy());
}
template<class Key, class Value>
typename Dict<Key, Value>::iterator Dict<Key, Value>::begin() const {
return iterator{impl_->dict.begin()};
}
template<class Key, class Value>
typename Dict<Key, Value>::iterator Dict<Key, Value>::end() const {
return iterator{impl_->dict.end()};
}
template<class Key, class Value>
bool Dict<Key, Value>::empty() const {
return impl_->dict.empty();
}
template<class Key, class Value>
typename Dict<Key, Value>::size_type Dict<Key, Value>::size() const {
return impl_->dict.size();
}
template<class Key, class Value>
void Dict<Key, Value>::clear() const {
impl_->dict.clear();
}
template<class Key, class Value>
template<class Key_, class Value_>
std::pair<typename Dict<Key, Value>::iterator, bool> Dict<Key, Value>::insert(Key_&& key, Value_&& value) const {
static_assert(std::is_constructible<Key, Key_>::value, "Wrong type for the key argument of Dict::insert");
static_assert(std::is_constructible<Value, Value_>::value, "Wrong type for the value argument of Dict::insert");
auto inserted = impl_->dict.insert(std::pair<IValue, IValue>{
Key(std::forward<Key_>(key)),
Value(std::forward<Value_>(value))});
return {iterator{inserted.first}, inserted.second};
}
template<class Key, class Value>
template<class Key_, class Value_>
std::pair<typename Dict<Key, Value>::iterator, bool> Dict<Key, Value>::insert_or_assign(Key_&& key, Value_&& value) const {
static_assert(std::is_constructible<Key, Key_>::value, "Wrong type for the key argument of Dict::insert_or_assign");
static_assert(std::is_constructible<Value, Value_>::value, "Wrong type for the value argument of Dict::insert_or_assign");
auto inserted = impl_->dict.insert_or_assign(
Key(std::forward<Key_>(key)),
Value(std::forward<Value_>(value)));
return {iterator{inserted.first}, inserted.second};
}
template<class Key, class Value>
void Dict<Key, Value>::erase(iterator iter) const {
impl_->dict.erase(iter.entryRef_.iterator_);
}
template<class Key, class Value>
C10_NODISCARD size_t Dict<Key, Value>::erase(const Key& key) const {
return impl_->dict.erase(key);
}
template<class Key, class Value>
Value Dict<Key, Value>::at(const Key& key) const {
return impl_->dict.at(key).template to<Value>();
}
template<class Key, class Value>
typename Dict<Key, Value>::iterator Dict<Key, Value>::find(const Key& key) const {
return iterator{impl_->dict.find(key)};
}
template<class Key, class Value>
bool Dict<Key, Value>::contains(const Key& key) const {
return end() != find(key);
}
template<class Key, class Value>
void Dict<Key, Value>::reserve(size_type count) const {
impl_->dict.reserve(count);
}
template<class Key, class Value>
TypePtr Dict<Key, Value>::keyType() const {
return impl_->elementTypes.keyType;
}
template<class Key, class Value>
TypePtr Dict<Key, Value>::valueType() const {
return impl_->elementTypes.valueType;
}
template <class Key, class Value>
void Dict<Key, Value>::unsafeSetKeyType(TypePtr t) {
impl_->elementTypes.keyType = std::move(t);
}
template <class Key, class Value>
void Dict<Key, Value>::unsafeSetValueType(TypePtr t) {
impl_->elementTypes.valueType = std::move(t);
}
}