// Copyright 2017 The Chromium 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 BASE_CONTAINERS_FLAT_MAP_H_ #define BASE_CONTAINERS_FLAT_MAP_H_ #include #include #include #include "base/containers/flat_tree.h" #include "base/logging.h" #include "base/template_util.h" namespace base { namespace internal { // An implementation of the flat_tree GetKeyFromValue template parameter that // extracts the key as the first element of a pair. template struct GetKeyFromValuePairFirst { const Key& operator()(const std::pair& p) const { return p.first; } }; } // namespace internal // flat_map is a container with a std::map-like interface that stores its // contents in a sorted vector. // // Please see //base/containers/README.md for an overview of which container // to select. // // PROS // // - Good memory locality. // - Low overhead, especially for smaller maps. // - Performance is good for more workloads than you might expect (see // overview link above). // - Supports C++14 map interface. // // CONS // // - Inserts and removals are O(n). // // IMPORTANT NOTES // // - Iterators are invalidated across mutations. // - If possible, construct a flat_map in one operation by inserting into // a std::vector and moving that vector into the flat_map constructor. // // QUICK REFERENCE // // Most of the core functionality is inherited from flat_tree. Please see // flat_tree.h for more details for most of these functions. As a quick // reference, the functions available are: // // Constructors (inputs need not be sorted): // flat_map(InputIterator first, InputIterator last, // FlatContainerDupes = KEEP_FIRST_OF_DUPES, // const Compare& compare = Compare()); // flat_map(const flat_map&); // flat_map(flat_map&&); // flat_map(std::vector, // FlatContainerDupes = KEEP_FIRST_OF_DUPES, // const Compare& compare = Compare()); // Re-use storage. // flat_map(std::initializer_list ilist, // FlatContainerDupes = KEEP_FIRST_OF_DUPES, // const Compare& comp = Compare()); // // Assignment functions: // flat_map& operator=(const flat_map&); // flat_map& operator=(flat_map&&); // flat_map& operator=(initializer_list); // // Memory management functions: // void reserve(size_t); // size_t capacity() const; // void shrink_to_fit(); // // Size management functions: // void clear(); // size_t size() const; // size_t max_size() const; // bool empty() const; // // Iterator functions: // iterator begin(); // const_iterator begin() const; // const_iterator cbegin() const; // iterator end(); // const_iterator end() const; // const_iterator cend() const; // reverse_iterator rbegin(); // const reverse_iterator rbegin() const; // const_reverse_iterator crbegin() const; // reverse_iterator rend(); // const_reverse_iterator rend() const; // const_reverse_iterator crend() const; // // Insert and accessor functions: // mapped_type& operator[](const key_type&); // mapped_type& operator[](key_type&&); // pair insert(const value_type&); // pair insert(value_type&&); // iterator insert(const_iterator hint, const value_type&); // iterator insert(const_iterator hint, value_type&&); // void insert(InputIterator first, InputIterator last, // FlatContainerDupes = KEEP_FIRST_OF_DUPES); // pair insert_or_assign(K&&, M&&); // iterator insert_or_assign(const_iterator hint, K&&, M&&); // pair emplace(Args&&...); // iterator emplace_hint(const_iterator, Args&&...); // pair try_emplace(K&&, Args&&...); // iterator try_emplace(const_iterator hint, K&&, Args&&...); // // Erase functions: // iterator erase(iterator); // iterator erase(const_iterator); // iterator erase(const_iterator first, const_iterator& last); // template size_t erase(const K& key); // // Comparators (see std::map documentation). // key_compare key_comp() const; // value_compare value_comp() const; // // Search functions: // template size_t count(const K&) const; // template iterator find(const K&); // template const_iterator find(const K&) const; // template pair equal_range(const K&); // template iterator lower_bound(const K&); // template const_iterator lower_bound(const K&) const; // template iterator upper_bound(const K&); // template const_iterator upper_bound(const K&) const; // // General functions: // void swap(flat_map&&); // // Non-member operators: // bool operator==(const flat_map&, const flat_map); // bool operator!=(const flat_map&, const flat_map); // bool operator<(const flat_map&, const flat_map); // bool operator>(const flat_map&, const flat_map); // bool operator>=(const flat_map&, const flat_map); // bool operator<=(const flat_map&, const flat_map); // template > class flat_map : public ::base::internal::flat_tree< Key, std::pair, ::base::internal::GetKeyFromValuePairFirst, Compare> { private: using tree = typename ::base::internal::flat_tree< Key, std::pair, ::base::internal::GetKeyFromValuePairFirst, Compare>; public: using key_type = typename tree::key_type; using mapped_type = Mapped; using value_type = typename tree::value_type; using iterator = typename tree::iterator; using const_iterator = typename tree::const_iterator; // -------------------------------------------------------------------------- // Lifetime and assignments. // // Note: we explicitly bring operator= in because otherwise // flat_map<...> x; // x = {...}; // Would first create a flat_map and then move assign it. This most likely // would be optimized away but still affects our debug builds. using tree::tree; using tree::operator=; // -------------------------------------------------------------------------- // Map-specific insert operations. // // Normal insert() functions are inherited from flat_tree. // // Assume that every operation invalidates iterators and references. // Insertion of one element can take O(size). mapped_type& operator[](const key_type& key); mapped_type& operator[](key_type&& key); template std::pair insert_or_assign(K&& key, M&& obj); template iterator insert_or_assign(const_iterator hint, K&& key, M&& obj); template std::enable_if_t::value, std::pair> try_emplace(K&& key, Args&&... args); template std::enable_if_t::value, iterator> try_emplace(const_iterator hint, K&& key, Args&&... args); // -------------------------------------------------------------------------- // General operations. // // Assume that swap invalidates iterators and references. void swap(flat_map& other); friend void swap(flat_map& lhs, flat_map& rhs) { lhs.swap(rhs); } }; // ---------------------------------------------------------------------------- // Insert operations. template auto flat_map::operator[](const key_type& key) -> mapped_type& { iterator found = tree::lower_bound(key); if (found == tree::end() || tree::key_comp()(key, found->first)) found = tree::unsafe_emplace(found, key, mapped_type()); return found->second; } template auto flat_map::operator[](key_type&& key) -> mapped_type& { iterator found = tree::lower_bound(key); if (found == tree::end() || tree::key_comp()(key, found->first)) found = tree::unsafe_emplace(found, std::move(key), mapped_type()); return found->second; } template template auto flat_map::insert_or_assign(K&& key, M&& obj) -> std::pair { auto result = tree::emplace_key_args(key, std::forward(key), std::forward(obj)); if (!result.second) result.first->second = std::forward(obj); return result; } template template auto flat_map::insert_or_assign(const_iterator hint, K&& key, M&& obj) -> iterator { auto result = tree::emplace_hint_key_args(hint, key, std::forward(key), std::forward(obj)); if (!result.second) result.first->second = std::forward(obj); return result.first; } template template auto flat_map::try_emplace(K&& key, Args&&... args) -> std::enable_if_t::value, std::pair> { return tree::emplace_key_args( key, std::piecewise_construct, std::forward_as_tuple(std::forward(key)), std::forward_as_tuple(std::forward(args)...)); } template template auto flat_map::try_emplace(const_iterator hint, K&& key, Args&&... args) -> std::enable_if_t::value, iterator> { return tree::emplace_hint_key_args( hint, key, std::piecewise_construct, std::forward_as_tuple(std::forward(key)), std::forward_as_tuple(std::forward(args)...)) .first; } // ---------------------------------------------------------------------------- // General operations. template void flat_map::swap(flat_map& other) { tree::swap(other); } } // namespace base #endif // BASE_CONTAINERS_FLAT_MAP_H_