628 lines
18 KiB
C
628 lines
18 KiB
C
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// Copyright (c) 2012 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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#ifndef BASE_CONTAINERS_SMALL_MAP_H_
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#define BASE_CONTAINERS_SMALL_MAP_H_
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#include <stddef.h>
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#include <limits>
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#include <map>
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#include <new>
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#include <string>
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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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namespace {
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constexpr size_t kUsingFullMapSentinel = std::numeric_limits<size_t>::max();
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} // namespace
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namespace base {
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// small_map is a container with a std::map-like interface. It starts out backed
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// by an unsorted array but switches to some other container type if it grows
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// beyond this fixed size.
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//
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// Please see //base/containers/README.md for an overview of which container
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// to select.
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//
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// PROS
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//
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// - Good memory locality and low overhead for smaller maps.
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// - Handles large maps without the degenerate performance of flat_map.
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//
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// CONS
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//
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// - Larger code size than the alternatives.
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//
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// IMPORTANT NOTES
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//
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// - Iterators are invalidated across mutations.
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//
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// DETAILS
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//
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// base::small_map will pick up the comparator from the underlying map type. In
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// std::map only a "less" operator is defined, which requires us to do two
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// comparisons per element when doing the brute-force search in the simple
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// array. std::unordered_map has a key_equal function which will be used.
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//
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// We define default overrides for the common map types to avoid this
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// double-compare, but you should be aware of this if you use your own operator<
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// for your map and supply yor own version of == to the small_map. You can use
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// regular operator== by just doing:
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//
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// base::small_map<std::map<MyKey, MyValue>, 4, std::equal_to<KyKey>>
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//
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//
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// USAGE
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// -----
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//
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// NormalMap: The map type to fall back to. This also defines the key and value
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// types for the small_map.
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// kArraySize: The size of the initial array of results. This will be allocated
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// with the small_map object rather than separately on the heap.
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// Once the map grows beyond this size, the map type will be used
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// instead.
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// EqualKey: A functor which tests two keys for equality. If the wrapped map
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// type has a "key_equal" member (unordered_map does), then that will
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// be used by default. If the wrapped map type has a strict weak
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// ordering "key_compare" (std::map does), that will be used to
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// implement equality by default.
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// MapInit: A functor that takes a NormalMap* and uses it to initialize the map.
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// This functor will be called at most once per small_map, when the map
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// exceeds the threshold of kArraySize and we are about to copy values
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// from the array to the map. The functor *must* initialize the
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// NormalMap* argument with placement new, since after it runs we
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// assume that the NormalMap has been initialized.
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//
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// Example:
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// base::small_map<std::map<string, int>> days;
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// days["sunday" ] = 0;
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// days["monday" ] = 1;
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// days["tuesday" ] = 2;
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// days["wednesday"] = 3;
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// days["thursday" ] = 4;
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// days["friday" ] = 5;
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// days["saturday" ] = 6;
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namespace internal {
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template <typename NormalMap>
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class small_map_default_init {
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public:
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void operator()(NormalMap* map) const { new (map) NormalMap(); }
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};
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// has_key_equal<M>::value is true iff there exists a type M::key_equal. This is
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// used to dispatch to one of the select_equal_key<> metafunctions below.
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template <typename M>
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struct has_key_equal {
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typedef char sml; // "small" is sometimes #defined so we use an abbreviation.
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typedef struct { char dummy[2]; } big;
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// Two functions, one accepts types that have a key_equal member, and one that
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// accepts anything. They each return a value of a different size, so we can
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// determine at compile-time which function would have been called.
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template <typename U> static big test(typename U::key_equal*);
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template <typename> static sml test(...);
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// Determines if M::key_equal exists by looking at the size of the return
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// type of the compiler-chosen test() function.
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static const bool value = (sizeof(test<M>(0)) == sizeof(big));
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};
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template <typename M> const bool has_key_equal<M>::value;
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// Base template used for map types that do NOT have an M::key_equal member,
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// e.g., std::map<>. These maps have a strict weak ordering comparator rather
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// than an equality functor, so equality will be implemented in terms of that
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// comparator.
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//
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// There's a partial specialization of this template below for map types that do
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// have an M::key_equal member.
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template <typename M, bool has_key_equal_value>
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struct select_equal_key {
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struct equal_key {
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bool operator()(const typename M::key_type& left,
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const typename M::key_type& right) {
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// Implements equality in terms of a strict weak ordering comparator.
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typename M::key_compare comp;
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return !comp(left, right) && !comp(right, left);
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}
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};
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};
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// Partial template specialization handles case where M::key_equal exists, e.g.,
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// unordered_map<>.
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template <typename M>
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struct select_equal_key<M, true> {
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typedef typename M::key_equal equal_key;
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};
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} // namespace internal
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template <typename NormalMap,
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size_t kArraySize = 4,
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typename EqualKey = typename internal::select_equal_key<
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NormalMap,
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internal::has_key_equal<NormalMap>::value>::equal_key,
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typename MapInit = internal::small_map_default_init<NormalMap>>
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class small_map {
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static_assert(kArraySize > 0, "Initial size must be greater than 0");
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static_assert(kArraySize != kUsingFullMapSentinel,
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"Initial size out of range");
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public:
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typedef typename NormalMap::key_type key_type;
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typedef typename NormalMap::mapped_type data_type;
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typedef typename NormalMap::mapped_type mapped_type;
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typedef typename NormalMap::value_type value_type;
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typedef EqualKey key_equal;
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small_map() : size_(0), functor_(MapInit()) {}
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explicit small_map(const MapInit& functor) : size_(0), functor_(functor) {}
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// Allow copy-constructor and assignment, since STL allows them too.
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small_map(const small_map& src) {
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// size_ and functor_ are initted in InitFrom()
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InitFrom(src);
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}
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void operator=(const small_map& src) {
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if (&src == this) return;
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// This is not optimal. If src and dest are both using the small array, we
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// could skip the teardown and reconstruct. One problem to be resolved is
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// that the value_type itself is pair<const K, V>, and const K is not
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// assignable.
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Destroy();
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InitFrom(src);
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}
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~small_map() { Destroy(); }
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class const_iterator;
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class iterator {
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public:
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typedef typename NormalMap::iterator::iterator_category iterator_category;
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typedef typename NormalMap::iterator::value_type value_type;
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typedef typename NormalMap::iterator::difference_type difference_type;
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typedef typename NormalMap::iterator::pointer pointer;
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typedef typename NormalMap::iterator::reference reference;
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inline iterator() : array_iter_(nullptr) {}
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inline iterator& operator++() {
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if (array_iter_ != nullptr) {
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++array_iter_;
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} else {
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++map_iter_;
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}
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return *this;
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}
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inline iterator operator++(int /*unused*/) {
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iterator result(*this);
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++(*this);
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return result;
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}
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inline iterator& operator--() {
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if (array_iter_ != nullptr) {
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--array_iter_;
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} else {
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--map_iter_;
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}
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return *this;
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}
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inline iterator operator--(int /*unused*/) {
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iterator result(*this);
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--(*this);
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return result;
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}
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inline value_type* operator->() const {
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return array_iter_ ? array_iter_ : map_iter_.operator->();
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}
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inline value_type& operator*() const {
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return array_iter_ ? *array_iter_ : *map_iter_;
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}
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inline bool operator==(const iterator& other) const {
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if (array_iter_ != nullptr) {
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return array_iter_ == other.array_iter_;
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} else {
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return other.array_iter_ == nullptr && map_iter_ == other.map_iter_;
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}
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}
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inline bool operator!=(const iterator& other) const {
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return !(*this == other);
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}
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bool operator==(const const_iterator& other) const;
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bool operator!=(const const_iterator& other) const;
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private:
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friend class small_map;
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friend class const_iterator;
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inline explicit iterator(value_type* init) : array_iter_(init) {}
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inline explicit iterator(const typename NormalMap::iterator& init)
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: array_iter_(nullptr), map_iter_(init) {}
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value_type* array_iter_;
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typename NormalMap::iterator map_iter_;
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};
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class const_iterator {
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public:
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typedef typename NormalMap::const_iterator::iterator_category
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iterator_category;
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typedef typename NormalMap::const_iterator::value_type value_type;
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typedef typename NormalMap::const_iterator::difference_type difference_type;
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typedef typename NormalMap::const_iterator::pointer pointer;
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typedef typename NormalMap::const_iterator::reference reference;
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inline const_iterator() : array_iter_(nullptr) {}
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// Non-explicit constructor lets us convert regular iterators to const
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// iterators.
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inline const_iterator(const iterator& other)
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: array_iter_(other.array_iter_), map_iter_(other.map_iter_) {}
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inline const_iterator& operator++() {
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if (array_iter_ != nullptr) {
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++array_iter_;
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} else {
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++map_iter_;
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}
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return *this;
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}
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inline const_iterator operator++(int /*unused*/) {
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const_iterator result(*this);
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++(*this);
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return result;
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}
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inline const_iterator& operator--() {
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if (array_iter_ != nullptr) {
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--array_iter_;
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} else {
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--map_iter_;
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}
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return *this;
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}
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inline const_iterator operator--(int /*unused*/) {
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const_iterator result(*this);
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--(*this);
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return result;
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}
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inline const value_type* operator->() const {
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return array_iter_ ? array_iter_ : map_iter_.operator->();
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}
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inline const value_type& operator*() const {
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return array_iter_ ? *array_iter_ : *map_iter_;
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}
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inline bool operator==(const const_iterator& other) const {
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if (array_iter_ != nullptr) {
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return array_iter_ == other.array_iter_;
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}
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return other.array_iter_ == nullptr && map_iter_ == other.map_iter_;
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}
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inline bool operator!=(const const_iterator& other) const {
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return !(*this == other);
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}
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private:
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friend class small_map;
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inline explicit const_iterator(const value_type* init)
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: array_iter_(init) {}
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inline explicit const_iterator(
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const typename NormalMap::const_iterator& init)
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: array_iter_(nullptr), map_iter_(init) {}
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const value_type* array_iter_;
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typename NormalMap::const_iterator map_iter_;
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};
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iterator find(const key_type& key) {
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key_equal compare;
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if (UsingFullMap()) {
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return iterator(map()->find(key));
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}
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for (size_t i = 0; i < size_; ++i) {
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if (compare(array_[i].first, key)) {
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return iterator(array_ + i);
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}
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}
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return iterator(array_ + size_);
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}
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const_iterator find(const key_type& key) const {
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key_equal compare;
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if (UsingFullMap()) {
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return const_iterator(map()->find(key));
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}
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for (size_t i = 0; i < size_; ++i) {
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if (compare(array_[i].first, key)) {
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return const_iterator(array_ + i);
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}
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}
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return const_iterator(array_ + size_);
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}
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// Invalidates iterators.
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data_type& operator[](const key_type& key) {
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key_equal compare;
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if (UsingFullMap()) {
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return map_[key];
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}
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// Search backwards to favor recently-added elements.
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for (size_t i = size_; i > 0; --i) {
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const size_t index = i - 1;
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if (compare(array_[index].first, key)) {
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return array_[index].second;
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}
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}
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if (size_ == kArraySize) {
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ConvertToRealMap();
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return map_[key];
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}
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DCHECK(size_ < kArraySize);
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new (&array_[size_]) value_type(key, data_type());
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return array_[size_++].second;
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}
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// Invalidates iterators.
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std::pair<iterator, bool> insert(const value_type& x) {
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key_equal compare;
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if (UsingFullMap()) {
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std::pair<typename NormalMap::iterator, bool> ret = map_.insert(x);
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return std::make_pair(iterator(ret.first), ret.second);
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}
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for (size_t i = 0; i < size_; ++i) {
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if (compare(array_[i].first, x.first)) {
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return std::make_pair(iterator(array_ + i), false);
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}
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}
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if (size_ == kArraySize) {
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ConvertToRealMap(); // Invalidates all iterators!
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std::pair<typename NormalMap::iterator, bool> ret = map_.insert(x);
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return std::make_pair(iterator(ret.first), ret.second);
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}
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DCHECK(size_ < kArraySize);
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new (&array_[size_]) value_type(x);
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return std::make_pair(iterator(array_ + size_++), true);
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}
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// Invalidates iterators.
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template <class InputIterator>
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void insert(InputIterator f, InputIterator l) {
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while (f != l) {
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insert(*f);
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++f;
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}
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}
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// Invalidates iterators.
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template <typename... Args>
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std::pair<iterator, bool> emplace(Args&&... args) {
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key_equal compare;
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if (UsingFullMap()) {
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std::pair<typename NormalMap::iterator, bool> ret =
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map_.emplace(std::forward<Args>(args)...);
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return std::make_pair(iterator(ret.first), ret.second);
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}
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value_type x(std::forward<Args>(args)...);
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for (size_t i = 0; i < size_; ++i) {
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if (compare(array_[i].first, x.first)) {
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return std::make_pair(iterator(array_ + i), false);
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}
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}
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if (size_ == kArraySize) {
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ConvertToRealMap(); // Invalidates all iterators!
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|
std::pair<typename NormalMap::iterator, bool> ret =
|
||
|
map_.emplace(std::move(x));
|
||
|
return std::make_pair(iterator(ret.first), ret.second);
|
||
|
}
|
||
|
|
||
|
DCHECK(size_ < kArraySize);
|
||
|
new (&array_[size_]) value_type(std::move(x));
|
||
|
return std::make_pair(iterator(array_ + size_++), true);
|
||
|
}
|
||
|
|
||
|
iterator begin() {
|
||
|
return UsingFullMap() ? iterator(map_.begin()) : iterator(array_);
|
||
|
}
|
||
|
|
||
|
const_iterator begin() const {
|
||
|
return UsingFullMap() ? const_iterator(map_.begin())
|
||
|
: const_iterator(array_);
|
||
|
}
|
||
|
|
||
|
iterator end() {
|
||
|
return UsingFullMap() ? iterator(map_.end()) : iterator(array_ + size_);
|
||
|
}
|
||
|
|
||
|
const_iterator end() const {
|
||
|
return UsingFullMap() ? const_iterator(map_.end())
|
||
|
: const_iterator(array_ + size_);
|
||
|
}
|
||
|
|
||
|
void clear() {
|
||
|
if (UsingFullMap()) {
|
||
|
map_.~NormalMap();
|
||
|
} else {
|
||
|
for (size_t i = 0; i < size_; ++i) {
|
||
|
array_[i].~value_type();
|
||
|
}
|
||
|
}
|
||
|
size_ = 0;
|
||
|
}
|
||
|
|
||
|
// Invalidates iterators. Returns iterator following the last removed element.
|
||
|
iterator erase(const iterator& position) {
|
||
|
if (UsingFullMap()) {
|
||
|
return iterator(map_.erase(position.map_iter_));
|
||
|
}
|
||
|
|
||
|
size_t i = position.array_iter_ - array_;
|
||
|
// TODO(crbug.com/817982): When we have a checked iterator, this CHECK might
|
||
|
// not be necessary.
|
||
|
CHECK_LE(i, size_);
|
||
|
array_[i].~value_type();
|
||
|
--size_;
|
||
|
if (i != size_) {
|
||
|
new (&array_[i]) value_type(std::move(array_[size_]));
|
||
|
array_[size_].~value_type();
|
||
|
return iterator(array_ + i);
|
||
|
}
|
||
|
return end();
|
||
|
}
|
||
|
|
||
|
size_t erase(const key_type& key) {
|
||
|
iterator iter = find(key);
|
||
|
if (iter == end()) {
|
||
|
return 0;
|
||
|
}
|
||
|
erase(iter);
|
||
|
return 1;
|
||
|
}
|
||
|
|
||
|
size_t count(const key_type& key) const {
|
||
|
return (find(key) == end()) ? 0 : 1;
|
||
|
}
|
||
|
|
||
|
size_t size() const { return UsingFullMap() ? map_.size() : size_; }
|
||
|
|
||
|
bool empty() const { return UsingFullMap() ? map_.empty() : size_ == 0; }
|
||
|
|
||
|
// Returns true if we have fallen back to using the underlying map
|
||
|
// representation.
|
||
|
bool UsingFullMap() const { return size_ == kUsingFullMapSentinel; }
|
||
|
|
||
|
inline NormalMap* map() {
|
||
|
CHECK(UsingFullMap());
|
||
|
return &map_;
|
||
|
}
|
||
|
|
||
|
inline const NormalMap* map() const {
|
||
|
CHECK(UsingFullMap());
|
||
|
return &map_;
|
||
|
}
|
||
|
|
||
|
private:
|
||
|
// When `size_ == kUsingFullMapSentinel`, we have switched storage strategies
|
||
|
// from `array_[kArraySize] to `NormalMap map_`. See ConvertToRealMap and
|
||
|
// UsingFullMap.
|
||
|
size_t size_;
|
||
|
|
||
|
MapInit functor_;
|
||
|
|
||
|
// We want to call constructors and destructors manually, but we don't want
|
||
|
// to allocate and deallocate the memory used for them separately. Since
|
||
|
// array_ and map_ are mutually exclusive, we'll put them in a union.
|
||
|
union {
|
||
|
value_type array_[kArraySize];
|
||
|
NormalMap map_;
|
||
|
};
|
||
|
|
||
|
void ConvertToRealMap() {
|
||
|
// Storage for the elements in the temporary array. This is intentionally
|
||
|
// declared as a union to avoid having to default-construct |kArraySize|
|
||
|
// elements, only to move construct over them in the initial loop.
|
||
|
union Storage {
|
||
|
Storage() {}
|
||
|
~Storage() {}
|
||
|
value_type array[kArraySize];
|
||
|
} temp;
|
||
|
|
||
|
// Move the current elements into a temporary array.
|
||
|
for (size_t i = 0; i < kArraySize; ++i) {
|
||
|
new (&temp.array[i]) value_type(std::move(array_[i]));
|
||
|
array_[i].~value_type();
|
||
|
}
|
||
|
|
||
|
// Initialize the map.
|
||
|
size_ = kUsingFullMapSentinel;
|
||
|
functor_(&map_);
|
||
|
|
||
|
// Insert elements into it.
|
||
|
for (size_t i = 0; i < kArraySize; ++i) {
|
||
|
map_.insert(std::move(temp.array[i]));
|
||
|
temp.array[i].~value_type();
|
||
|
}
|
||
|
}
|
||
|
|
||
|
// Helpers for constructors and destructors.
|
||
|
void InitFrom(const small_map& src) {
|
||
|
functor_ = src.functor_;
|
||
|
size_ = src.size_;
|
||
|
if (src.UsingFullMap()) {
|
||
|
functor_(&map_);
|
||
|
map_ = src.map_;
|
||
|
} else {
|
||
|
for (size_t i = 0; i < size_; ++i) {
|
||
|
new (&array_[i]) value_type(src.array_[i]);
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
|
||
|
void Destroy() {
|
||
|
if (UsingFullMap()) {
|
||
|
map_.~NormalMap();
|
||
|
} else {
|
||
|
for (size_t i = 0; i < size_; ++i) {
|
||
|
array_[i].~value_type();
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
};
|
||
|
|
||
|
template <typename NormalMap,
|
||
|
size_t kArraySize,
|
||
|
typename EqualKey,
|
||
|
typename Functor>
|
||
|
inline bool small_map<NormalMap, kArraySize, EqualKey, Functor>::iterator::
|
||
|
operator==(const const_iterator& other) const {
|
||
|
return other == *this;
|
||
|
}
|
||
|
|
||
|
template <typename NormalMap,
|
||
|
size_t kArraySize,
|
||
|
typename EqualKey,
|
||
|
typename Functor>
|
||
|
inline bool small_map<NormalMap, kArraySize, EqualKey, Functor>::iterator::
|
||
|
operator!=(const const_iterator& other) const {
|
||
|
return other != *this;
|
||
|
}
|
||
|
|
||
|
} // namespace base
|
||
|
|
||
|
#endif // BASE_CONTAINERS_SMALL_MAP_H_
|