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/*
* Copyright (C) 2012 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef ART_RUNTIME_SAFE_MAP_H_
#define ART_RUNTIME_SAFE_MAP_H_
#include <map>
#include <memory>
#include <type_traits>
#include "base/allocator.h"
#include "base/logging.h"
namespace art {
// Equivalent to std::map, but without operator[] and its bug-prone semantics (in particular,
// the implicit insertion of a default-constructed value on failed lookups).
template <typename K, typename V, typename Comparator = std::less<K>,
typename Allocator = TrackingAllocator<std::pair<const K, V>, kAllocatorTagSafeMap>>
class SafeMap {
private:
typedef SafeMap<K, V, Comparator, Allocator> Self;
public:
typedef typename ::std::map<K, V, Comparator, Allocator>::key_compare key_compare;
typedef typename ::std::map<K, V, Comparator, Allocator>::value_compare value_compare;
typedef typename ::std::map<K, V, Comparator, Allocator>::allocator_type allocator_type;
typedef typename ::std::map<K, V, Comparator, Allocator>::iterator iterator;
typedef typename ::std::map<K, V, Comparator, Allocator>::const_iterator const_iterator;
typedef typename ::std::map<K, V, Comparator, Allocator>::size_type size_type;
typedef typename ::std::map<K, V, Comparator, Allocator>::key_type key_type;
typedef typename ::std::map<K, V, Comparator, Allocator>::value_type value_type;
SafeMap() = default;
SafeMap(const SafeMap&) = default;
SafeMap(SafeMap&&) = default;
explicit SafeMap(const key_compare& cmp, const allocator_type& allocator = allocator_type())
: map_(cmp, allocator) {
}
Self& operator=(const Self& rhs) {
map_ = rhs.map_;
return *this;
}
allocator_type get_allocator() const { return map_.get_allocator(); }
key_compare key_comp() const { return map_.key_comp(); }
value_compare value_comp() const { return map_.value_comp(); }
iterator begin() { return map_.begin(); }
const_iterator begin() const { return map_.begin(); }
iterator end() { return map_.end(); }
const_iterator end() const { return map_.end(); }
bool empty() const { return map_.empty(); }
size_type size() const { return map_.size(); }
void swap(Self& other) { map_.swap(other.map_); }
void clear() { map_.clear(); }
iterator erase(iterator it) { return map_.erase(it); }
size_type erase(const K& k) { return map_.erase(k); }
iterator find(const K& k) { return map_.find(k); }
const_iterator find(const K& k) const { return map_.find(k); }
iterator lower_bound(const K& k) { return map_.lower_bound(k); }
const_iterator lower_bound(const K& k) const { return map_.lower_bound(k); }
iterator upper_bound(const K& k) { return map_.upper_bound(k); }
const_iterator upper_bound(const K& k) const { return map_.upper_bound(k); }
size_type count(const K& k) const { return map_.count(k); }
// Note that unlike std::map's operator[], this doesn't return a reference to the value.
V Get(const K& k) const {
const_iterator it = map_.find(k);
DCHECK(it != map_.end());
return it->second;
}
// Used to insert a new mapping.
iterator Put(const K& k, const V& v) {
std::pair<iterator, bool> result = map_.emplace(k, v);
DCHECK(result.second); // Check we didn't accidentally overwrite an existing value.
return result.first;
}
iterator Put(const K& k, V&& v) {
std::pair<iterator, bool> result = map_.emplace(k, std::move(v));
DCHECK(result.second); // Check we didn't accidentally overwrite an existing value.
return result.first;
}
// Used to insert a new mapping at a known position for better performance.
iterator PutBefore(const_iterator pos, const K& k, const V& v) {
// Check that we're using the correct position and the key is not in the map.
DCHECK(pos == map_.end() || map_.key_comp()(k, pos->first));
DCHECK(pos == map_.begin() || map_.key_comp()((--const_iterator(pos))->first, k));
return map_.emplace_hint(pos, k, v);
}
iterator PutBefore(const_iterator pos, const K& k, V&& v) {
// Check that we're using the correct position and the key is not in the map.
DCHECK(pos == map_.end() || map_.key_comp()(k, pos->first));
DCHECK(pos == map_.begin() || map_.key_comp()((--const_iterator(pos))->first, k));
return map_.emplace_hint(pos, k, std::move(v));
}
// Used to insert a new mapping or overwrite an existing mapping. Note that if the value type
// of this container is a pointer, any overwritten pointer will be lost and if this container
// was the owner, you have a leak. Returns iterator pointing to the new or overwritten entry.
iterator Overwrite(const K& k, const V& v) {
std::pair<iterator, bool> result = map_.insert(std::make_pair(k, v));
if (!result.second) {
// Already there - update the value for the existing key
result.first->second = v;
}
return result.first;
}
template <typename CreateFn>
V GetOrCreate(const K& k, CreateFn create) {
static_assert(std::is_same<V, typename std::result_of<CreateFn()>::type>::value,
"Argument `create` should return a value of type V.");
auto lb = lower_bound(k);
if (lb != end() && !key_comp()(k, lb->first)) {
return lb->second;
}
auto it = PutBefore(lb, k, create());
return it->second;
}
iterator FindOrAdd(const K& k, const V& v) {
iterator it = find(k);
return it == end() ? Put(k, v) : it;
}
iterator FindOrAdd(const K& k) {
iterator it = find(k);
return it == end() ? Put(k, V()) : it;
}
bool Equals(const Self& rhs) const {
return map_ == rhs.map_;
}
template <class... Args>
std::pair<iterator, bool> emplace(Args&&... args) {
return map_.emplace(std::forward<Args>(args)...);
}
private:
::std::map<K, V, Comparator, Allocator> map_;
};
template <typename K, typename V, typename Comparator, typename Allocator>
bool operator==(const SafeMap<K, V, Comparator, Allocator>& lhs,
const SafeMap<K, V, Comparator, Allocator>& rhs) {
return lhs.Equals(rhs);
}
template <typename K, typename V, typename Comparator, typename Allocator>
bool operator!=(const SafeMap<K, V, Comparator, Allocator>& lhs,
const SafeMap<K, V, Comparator, Allocator>& rhs) {
return !(lhs == rhs);
}
template<class Key, class T, AllocatorTag kTag, class Compare = std::less<Key>>
class AllocationTrackingSafeMap : public SafeMap<
Key, T, Compare, TrackingAllocator<std::pair<const Key, T>, kTag>> {
};
} // namespace art
#endif // ART_RUNTIME_SAFE_MAP_H_