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268 lines
8.2 KiB
C
268 lines
8.2 KiB
C
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// Copyright (c) 2013 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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//
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// This is a simplistic insertion-ordered map. It behaves similarly to an STL
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// map, but only implements a small subset of the map's methods. Internally, we
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// just keep a map and a list going in parallel.
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//
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// This class provides no thread safety guarantees, beyond what you would
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// normally see with std::list.
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//
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// Iterators should be stable in the face of mutations, except for an
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// iterator pointing to an element that was just deleted.
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#ifndef NET_BASE_LINKED_HASH_MAP_H_
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#define NET_BASE_LINKED_HASH_MAP_H_
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#include <stddef.h>
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#include <list>
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#include <unordered_map>
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#include <utility>
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#include "base/logging.h"
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#include "base/macros.h"
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namespace net {
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// This holds a list of pair<Key, Value> items. This list is what gets
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// traversed, and it's iterators from this list that we return from
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// begin/end/find.
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//
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// We also keep a map<Key, list::iterator> for find. Since std::list is a
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// doubly-linked list, the iterators should remain stable.
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template <class Key, class Value, class Hash = std::hash<Key>>
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class linked_hash_map {
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private:
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typedef std::list<std::pair<Key, Value> > ListType;
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typedef std::unordered_map<Key, typename ListType::iterator, Hash> MapType;
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public:
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typedef typename ListType::iterator iterator;
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typedef typename ListType::reverse_iterator reverse_iterator;
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typedef typename ListType::const_iterator const_iterator;
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typedef typename ListType::const_reverse_iterator const_reverse_iterator;
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typedef typename MapType::key_type key_type;
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typedef typename ListType::value_type value_type;
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typedef typename ListType::size_type size_type;
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linked_hash_map() = default;
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explicit linked_hash_map(size_type bucket_count) : map_(bucket_count) {}
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linked_hash_map(linked_hash_map&& other) = default;
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linked_hash_map& operator=(linked_hash_map&& other) = default;
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// Returns an iterator to the first (insertion-ordered) element. Like a map,
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// this can be dereferenced to a pair<Key, Value>.
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iterator begin() {
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return list_.begin();
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}
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const_iterator begin() const {
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return list_.begin();
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}
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// Returns an iterator beyond the last element.
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iterator end() {
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return list_.end();
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}
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const_iterator end() const {
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return list_.end();
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}
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// Returns an iterator to the last (insertion-ordered) element. Like a map,
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// this can be dereferenced to a pair<Key, Value>.
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reverse_iterator rbegin() {
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return list_.rbegin();
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}
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const_reverse_iterator rbegin() const {
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return list_.rbegin();
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}
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// Returns an iterator beyond the first element.
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reverse_iterator rend() {
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return list_.rend();
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}
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const_reverse_iterator rend() const {
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return list_.rend();
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}
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// Front and back accessors common to many stl containers.
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// Returns the earliest-inserted element
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const value_type& front() const {
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return list_.front();
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}
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// Returns the earliest-inserted element.
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value_type& front() {
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return list_.front();
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}
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// Returns the most-recently-inserted element.
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const value_type& back() const {
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return list_.back();
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}
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// Returns the most-recently-inserted element.
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value_type& back() {
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return list_.back();
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}
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// Clears the map of all values.
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void clear() {
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map_.clear();
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list_.clear();
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}
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// Returns true iff the map is empty.
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bool empty() const {
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return list_.empty();
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}
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// Removes the first element from the list.
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void pop_front() { erase(begin()); }
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// Erases values with the provided key. Returns the number of elements
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// erased. In this implementation, this will be 0 or 1.
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size_type erase(const Key& key) {
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typename MapType::iterator found = map_.find(key);
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if (found == map_.end()) return 0;
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list_.erase(found->second);
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map_.erase(found);
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return 1;
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}
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// Erases the item that 'position' points to. Returns an iterator that points
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// to the item that comes immediately after the deleted item in the list, or
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// end().
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// If the provided iterator is invalid or there is inconsistency between the
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// map and list, a CHECK() error will occur.
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iterator erase(iterator position) {
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typename MapType::iterator found = map_.find(position->first);
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CHECK(found->second == position)
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<< "Inconsisent iterator for map and list, or the iterator is invalid.";
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map_.erase(found);
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return list_.erase(position);
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}
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// Erases all the items in the range [first, last). Returns an iterator that
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// points to the item that comes immediately after the last deleted item in
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// the list, or end().
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iterator erase(iterator first, iterator last) {
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while (first != last && first != end()) {
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first = erase(first);
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}
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return first;
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}
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// Finds the element with the given key. Returns an iterator to the
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// value found, or to end() if the value was not found. Like a map, this
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// iterator points to a pair<Key, Value>.
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iterator find(const Key& key) {
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typename MapType::iterator found = map_.find(key);
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if (found == map_.end()) {
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return end();
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}
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return found->second;
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}
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const_iterator find(const Key& key) const {
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typename MapType::const_iterator found = map_.find(key);
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if (found == map_.end()) {
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return end();
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}
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return found->second;
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}
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// Returns the bounds of a range that includes all the elements in the
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// container with a key that compares equal to x.
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std::pair<iterator, iterator> equal_range(const key_type& key) {
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std::pair<typename MapType::iterator, typename MapType::iterator> eq_range =
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map_.equal_range(key);
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return std::make_pair(eq_range.first->second, eq_range.second->second);
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}
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std::pair<const_iterator, const_iterator> equal_range(
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const key_type& key) const {
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std::pair<typename MapType::const_iterator,
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typename MapType::const_iterator> eq_range =
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map_.equal_range(key);
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const const_iterator& start_iter = eq_range.first != map_.end() ?
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eq_range.first->second : end();
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const const_iterator& end_iter = eq_range.second != map_.end() ?
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eq_range.second->second : end();
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return std::make_pair(start_iter, end_iter);
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}
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// Returns the value mapped to key, or an inserted iterator to that position
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// in the map.
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Value& operator[](const key_type& key) {
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return (*((this->insert(std::make_pair(key, Value()))).first)).second;
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}
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// Inserts an element into the map
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std::pair<iterator, bool> insert(const std::pair<Key, Value>& pair) {
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// First make sure the map doesn't have a key with this value. If it does,
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// return a pair with an iterator to it, and false indicating that we
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// didn't insert anything.
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typename MapType::iterator found = map_.find(pair.first);
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if (found != map_.end()) return std::make_pair(found->second, false);
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// Otherwise, insert into the list first.
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list_.push_back(pair);
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// Obtain an iterator to the newly added element. We do -- instead of -
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// since list::iterator doesn't implement operator-().
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typename ListType::iterator last = list_.end();
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--last;
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CHECK(map_.insert(std::make_pair(pair.first, last)).second)
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<< "Map and list are inconsistent";
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return std::make_pair(last, true);
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}
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size_type size() const {
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return list_.size();
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}
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template <typename... Args>
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std::pair<iterator, bool> emplace(Args&&... args) {
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ListType node_donor;
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auto node_pos =
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node_donor.emplace(node_donor.end(), std::forward<Args>(args)...);
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const auto& k = node_pos->first;
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auto ins = map_.insert({k, node_pos});
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if (!ins.second)
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return {ins.first->second, false};
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list_.splice(list_.end(), node_donor, node_pos);
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return {ins.first->second, true};
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}
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void swap(linked_hash_map& other) {
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map_.swap(other.map_);
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list_.swap(other.list_);
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}
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private:
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// The map component, used for speedy lookups
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MapType map_;
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// The list component, used for maintaining insertion order
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ListType list_;
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// |map_| contains iterators to |list_|, therefore a default copy constructor
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// or copy assignment operator would result in an inconsistent state.
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DISALLOW_COPY_AND_ASSIGN(linked_hash_map);
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};
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} // namespace net
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#endif // NET_BASE_LINKED_HASH_MAP_H_
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