mirror of
https://github.com/ncblakely/GiantsTools
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593 lines
20 KiB
C++
593 lines
20 KiB
C++
/**
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* MIT License
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*
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* Copyright (c) 2017 Thibaut Goetghebuer-Planchon <tessil@gmx.com>
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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* SOFTWARE.
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*/
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#ifndef TSL_HOPSCOTCH_SET_H
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#define TSL_HOPSCOTCH_SET_H
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#include <algorithm>
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#include <cstddef>
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#include <functional>
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#include <initializer_list>
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#include <list>
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#include <memory>
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#include <type_traits>
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#include <utility>
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#include "hopscotch_hash.h"
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namespace tsl {
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/**
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* Implementation of a hash set using the hopscotch hashing algorithm.
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*
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* The Key must be either nothrow move-constructible, copy-constructible or
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* both.
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*
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* The size of the neighborhood (NeighborhoodSize) must be > 0 and <= 62 if
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* StoreHash is false. When StoreHash is true, 32-bits of the hash will be
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* stored alongside the neighborhood limiting the NeighborhoodSize to <= 30.
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* There is no memory usage difference between 'NeighborhoodSize 62; StoreHash
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* false' and 'NeighborhoodSize 30; StoreHash true'.
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*
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* Storing the hash may improve performance on insert during the rehash process
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* if the hash takes time to compute. It may also improve read performance if
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* the KeyEqual function takes time (or incurs a cache-miss). If used with
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* simple Hash and KeyEqual it may slow things down.
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*
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* StoreHash can only be set if the GrowthPolicy is set to
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* tsl::power_of_two_growth_policy.
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*
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* GrowthPolicy defines how the set grows and consequently how a hash value is
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* mapped to a bucket. By default the set uses tsl::power_of_two_growth_policy.
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* This policy keeps the number of buckets to a power of two and uses a mask to
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* set the hash to a bucket instead of the slow modulo. You may define your own
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* growth policy, check tsl::power_of_two_growth_policy for the interface.
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*
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* If the destructor of Key throws an exception, behaviour of the class is
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* undefined.
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*
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* Iterators invalidation:
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* - clear, operator=, reserve, rehash: always invalidate the iterators.
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* - insert, emplace, emplace_hint, operator[]: if there is an effective
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* insert, invalidate the iterators if a displacement is needed to resolve a
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* collision (which mean that most of the time, insert will invalidate the
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* iterators). Or if there is a rehash.
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* - erase: iterator on the erased element is the only one which become
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* invalid.
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*/
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template <class Key, class Hash = std::hash<Key>,
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class KeyEqual = std::equal_to<Key>,
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class Allocator = std::allocator<Key>,
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unsigned int NeighborhoodSize = 62, bool StoreHash = false,
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class GrowthPolicy = tsl::hh::power_of_two_growth_policy<2>>
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class hopscotch_set {
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private:
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template <typename U>
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using has_is_transparent = tsl::detail_hopscotch_hash::has_is_transparent<U>;
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class KeySelect {
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public:
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using key_type = Key;
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const key_type& operator()(const Key& key) const { return key; }
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key_type& operator()(Key& key) { return key; }
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};
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using overflow_container_type = std::list<Key, Allocator>;
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using ht = detail_hopscotch_hash::hopscotch_hash<
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Key, KeySelect, void, Hash, KeyEqual, Allocator, NeighborhoodSize,
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StoreHash, GrowthPolicy, overflow_container_type>;
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public:
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using key_type = typename ht::key_type;
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using value_type = typename ht::value_type;
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using size_type = typename ht::size_type;
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using difference_type = typename ht::difference_type;
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using hasher = typename ht::hasher;
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using key_equal = typename ht::key_equal;
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using allocator_type = typename ht::allocator_type;
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using reference = typename ht::reference;
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using const_reference = typename ht::const_reference;
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using pointer = typename ht::pointer;
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using const_pointer = typename ht::const_pointer;
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using iterator = typename ht::iterator;
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using const_iterator = typename ht::const_iterator;
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/*
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* Constructors
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*/
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hopscotch_set() : hopscotch_set(ht::DEFAULT_INIT_BUCKETS_SIZE) {}
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explicit hopscotch_set(size_type bucket_count, const Hash& hash = Hash(),
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const KeyEqual& equal = KeyEqual(),
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const Allocator& alloc = Allocator())
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: m_ht(bucket_count, hash, equal, alloc, ht::DEFAULT_MAX_LOAD_FACTOR) {}
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hopscotch_set(size_type bucket_count, const Allocator& alloc)
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: hopscotch_set(bucket_count, Hash(), KeyEqual(), alloc) {}
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hopscotch_set(size_type bucket_count, const Hash& hash,
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const Allocator& alloc)
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: hopscotch_set(bucket_count, hash, KeyEqual(), alloc) {}
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explicit hopscotch_set(const Allocator& alloc)
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: hopscotch_set(ht::DEFAULT_INIT_BUCKETS_SIZE, alloc) {}
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template <class InputIt>
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hopscotch_set(InputIt first, InputIt last,
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size_type bucket_count = ht::DEFAULT_INIT_BUCKETS_SIZE,
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const Hash& hash = Hash(), const KeyEqual& equal = KeyEqual(),
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const Allocator& alloc = Allocator())
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: hopscotch_set(bucket_count, hash, equal, alloc) {
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insert(first, last);
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}
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template <class InputIt>
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hopscotch_set(InputIt first, InputIt last, size_type bucket_count,
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const Allocator& alloc)
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: hopscotch_set(first, last, bucket_count, Hash(), KeyEqual(), alloc) {}
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template <class InputIt>
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hopscotch_set(InputIt first, InputIt last, size_type bucket_count,
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const Hash& hash, const Allocator& alloc)
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: hopscotch_set(first, last, bucket_count, hash, KeyEqual(), alloc) {}
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hopscotch_set(std::initializer_list<value_type> init,
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size_type bucket_count = ht::DEFAULT_INIT_BUCKETS_SIZE,
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const Hash& hash = Hash(), const KeyEqual& equal = KeyEqual(),
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const Allocator& alloc = Allocator())
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: hopscotch_set(init.begin(), init.end(), bucket_count, hash, equal,
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alloc) {}
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hopscotch_set(std::initializer_list<value_type> init, size_type bucket_count,
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const Allocator& alloc)
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: hopscotch_set(init.begin(), init.end(), bucket_count, Hash(),
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KeyEqual(), alloc) {}
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hopscotch_set(std::initializer_list<value_type> init, size_type bucket_count,
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const Hash& hash, const Allocator& alloc)
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: hopscotch_set(init.begin(), init.end(), bucket_count, hash, KeyEqual(),
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alloc) {}
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hopscotch_set& operator=(std::initializer_list<value_type> ilist) {
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m_ht.clear();
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m_ht.reserve(ilist.size());
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m_ht.insert(ilist.begin(), ilist.end());
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return *this;
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}
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allocator_type get_allocator() const { return m_ht.get_allocator(); }
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/*
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* Iterators
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*/
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iterator begin() noexcept { return m_ht.begin(); }
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const_iterator begin() const noexcept { return m_ht.begin(); }
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const_iterator cbegin() const noexcept { return m_ht.cbegin(); }
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iterator end() noexcept { return m_ht.end(); }
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const_iterator end() const noexcept { return m_ht.end(); }
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const_iterator cend() const noexcept { return m_ht.cend(); }
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/*
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* Capacity
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*/
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bool empty() const noexcept { return m_ht.empty(); }
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size_type size() const noexcept { return m_ht.size(); }
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size_type max_size() const noexcept { return m_ht.max_size(); }
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/*
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* Modifiers
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*/
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void clear() noexcept { m_ht.clear(); }
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std::pair<iterator, bool> insert(const value_type& value) {
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return m_ht.insert(value);
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}
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std::pair<iterator, bool> insert(value_type&& value) {
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return m_ht.insert(std::move(value));
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}
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iterator insert(const_iterator hint, const value_type& value) {
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return m_ht.insert(hint, value);
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}
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iterator insert(const_iterator hint, value_type&& value) {
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return m_ht.insert(hint, std::move(value));
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}
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template <class InputIt>
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void insert(InputIt first, InputIt last) {
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m_ht.insert(first, last);
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}
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void insert(std::initializer_list<value_type> ilist) {
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m_ht.insert(ilist.begin(), ilist.end());
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}
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/**
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* Due to the way elements are stored, emplace will need to move or copy the
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* key-value once. The method is equivalent to
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* insert(value_type(std::forward<Args>(args)...));
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*
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* Mainly here for compatibility with the std::unordered_map interface.
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*/
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template <class... Args>
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std::pair<iterator, bool> emplace(Args&&... args) {
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return m_ht.emplace(std::forward<Args>(args)...);
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}
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/**
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* Due to the way elements are stored, emplace_hint will need to move or copy
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* the key-value once. The method is equivalent to insert(hint,
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* value_type(std::forward<Args>(args)...));
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*
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* Mainly here for compatibility with the std::unordered_map interface.
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*/
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template <class... Args>
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iterator emplace_hint(const_iterator hint, Args&&... args) {
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return m_ht.emplace_hint(hint, std::forward<Args>(args)...);
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}
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iterator erase(iterator pos) { return m_ht.erase(pos); }
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iterator erase(const_iterator pos) { return m_ht.erase(pos); }
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iterator erase(const_iterator first, const_iterator last) {
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return m_ht.erase(first, last);
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}
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size_type erase(const key_type& key) { return m_ht.erase(key); }
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/**
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* Use the hash value 'precalculated_hash' instead of hashing the key. The
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* hash value should be the same as hash_function()(key). Useful to speed-up
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* the lookup to the value if you already have the hash.
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*/
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size_type erase(const key_type& key, std::size_t precalculated_hash) {
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return m_ht.erase(key, precalculated_hash);
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}
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/**
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* This overload only participates in the overload resolution if the typedef
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* KeyEqual::is_transparent exists. If so, K must be hashable and comparable
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* to Key.
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*/
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template <
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class K, class KE = KeyEqual,
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typename std::enable_if<has_is_transparent<KE>::value>::type* = nullptr>
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size_type erase(const K& key) {
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return m_ht.erase(key);
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}
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/**
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* @copydoc erase(const K& key)
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*
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* Use the hash value 'precalculated_hash' instead of hashing the key. The
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* hash value should be the same as hash_function()(key). Useful to speed-up
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* the lookup to the value if you already have the hash.
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*/
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template <
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class K, class KE = KeyEqual,
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typename std::enable_if<has_is_transparent<KE>::value>::type* = nullptr>
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size_type erase(const K& key, std::size_t precalculated_hash) {
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return m_ht.erase(key, precalculated_hash);
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}
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void swap(hopscotch_set& other) { other.m_ht.swap(m_ht); }
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/*
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* Lookup
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*/
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size_type count(const Key& key) const { return m_ht.count(key); }
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/**
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* Use the hash value 'precalculated_hash' instead of hashing the key. The
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* hash value should be the same as hash_function()(key). Useful to speed-up
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* the lookup if you already have the hash.
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*/
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size_type count(const Key& key, std::size_t precalculated_hash) const {
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return m_ht.count(key, precalculated_hash);
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}
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/**
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* This overload only participates in the overload resolution if the typedef
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* KeyEqual::is_transparent exists. If so, K must be hashable and comparable
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* to Key.
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*/
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template <
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class K, class KE = KeyEqual,
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typename std::enable_if<has_is_transparent<KE>::value>::type* = nullptr>
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size_type count(const K& key) const {
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return m_ht.count(key);
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}
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/**
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* @copydoc count(const K& key) const
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*
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* Use the hash value 'precalculated_hash' instead of hashing the key. The
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* hash value should be the same as hash_function()(key). Useful to speed-up
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* the lookup if you already have the hash.
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*/
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template <
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class K, class KE = KeyEqual,
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typename std::enable_if<has_is_transparent<KE>::value>::type* = nullptr>
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size_type count(const K& key, std::size_t precalculated_hash) const {
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return m_ht.count(key, precalculated_hash);
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}
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iterator find(const Key& key) { return m_ht.find(key); }
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/**
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* Use the hash value 'precalculated_hash' instead of hashing the key. The
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* hash value should be the same as hash_function()(key). Useful to speed-up
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* the lookup if you already have the hash.
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*/
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iterator find(const Key& key, std::size_t precalculated_hash) {
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return m_ht.find(key, precalculated_hash);
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}
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const_iterator find(const Key& key) const { return m_ht.find(key); }
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/**
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* @copydoc find(const Key& key, std::size_t precalculated_hash)
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*/
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const_iterator find(const Key& key, std::size_t precalculated_hash) const {
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return m_ht.find(key, precalculated_hash);
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}
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/**
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* This overload only participates in the overload resolution if the typedef
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* KeyEqual::is_transparent exists. If so, K must be hashable and comparable
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* to Key.
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*/
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template <
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class K, class KE = KeyEqual,
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typename std::enable_if<has_is_transparent<KE>::value>::type* = nullptr>
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iterator find(const K& key) {
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return m_ht.find(key);
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}
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/**
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* @copydoc find(const K& key)
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*
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* Use the hash value 'precalculated_hash' instead of hashing the key. The
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* hash value should be the same as hash_function()(key). Useful to speed-up
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* the lookup if you already have the hash.
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*/
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template <
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class K, class KE = KeyEqual,
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typename std::enable_if<has_is_transparent<KE>::value>::type* = nullptr>
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iterator find(const K& key, std::size_t precalculated_hash) {
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return m_ht.find(key, precalculated_hash);
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}
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/**
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* @copydoc find(const K& key)
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*/
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template <
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class K, class KE = KeyEqual,
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typename std::enable_if<has_is_transparent<KE>::value>::type* = nullptr>
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const_iterator find(const K& key) const {
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return m_ht.find(key);
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}
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/**
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* @copydoc find(const K& key)
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*
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* Use the hash value 'precalculated_hash' instead of hashing the key. The
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* hash value should be the same as hash_function()(key). Useful to speed-up
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* the lookup if you already have the hash.
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*/
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template <
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class K, class KE = KeyEqual,
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typename std::enable_if<has_is_transparent<KE>::value>::type* = nullptr>
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const_iterator find(const K& key, std::size_t precalculated_hash) const {
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return m_ht.find(key, precalculated_hash);
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}
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bool contains(const Key& key) const { return m_ht.contains(key); }
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/**
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* Use the hash value 'precalculated_hash' instead of hashing the key. The
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* hash value should be the same as hash_function()(key). Useful to speed-up
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* the lookup if you already have the hash.
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*/
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bool contains(const Key& key, std::size_t precalculated_hash) const {
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return m_ht.contains(key, precalculated_hash);
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}
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/**
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* This overload only participates in the overload resolution if the typedef
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* KeyEqual::is_transparent exists. If so, K must be hashable and comparable
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* to Key.
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*/
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template <
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class K, class KE = KeyEqual,
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typename std::enable_if<has_is_transparent<KE>::value>::type* = nullptr>
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bool contains(const K& key) const {
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return m_ht.contains(key);
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}
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/**
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* @copydoc contains(const K& key) const
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*
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* Use the hash value 'precalculated_hash' instead of hashing the key. The
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* hash value should be the same as hash_function()(key). Useful to speed-up
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* the lookup if you already have the hash.
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*/
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template <
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class K, class KE = KeyEqual,
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typename std::enable_if<has_is_transparent<KE>::value>::type* = nullptr>
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bool contains(const K& key, std::size_t precalculated_hash) const {
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return m_ht.contains(key, precalculated_hash);
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}
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std::pair<iterator, iterator> equal_range(const Key& key) {
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return m_ht.equal_range(key);
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}
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/**
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* Use the hash value 'precalculated_hash' instead of hashing the key. The
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* hash value should be the same as hash_function()(key). Useful to speed-up
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* the lookup if you already have the hash.
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*/
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std::pair<iterator, iterator> equal_range(const Key& key,
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std::size_t precalculated_hash) {
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return m_ht.equal_range(key, precalculated_hash);
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}
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std::pair<const_iterator, const_iterator> equal_range(const Key& key) const {
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return m_ht.equal_range(key);
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}
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/**
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* @copydoc equal_range(const Key& key, std::size_t precalculated_hash)
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*/
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std::pair<const_iterator, const_iterator> equal_range(
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const Key& key, std::size_t precalculated_hash) const {
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return m_ht.equal_range(key, precalculated_hash);
|
|
}
|
|
|
|
/**
|
|
* This overload only participates in the overload resolution if the typedef
|
|
* KeyEqual::is_transparent exists. If so, K must be hashable and comparable
|
|
* to Key.
|
|
*/
|
|
template <
|
|
class K, class KE = KeyEqual,
|
|
typename std::enable_if<has_is_transparent<KE>::value>::type* = nullptr>
|
|
std::pair<iterator, iterator> equal_range(const K& key) {
|
|
return m_ht.equal_range(key);
|
|
}
|
|
|
|
/**
|
|
* @copydoc equal_range(const K& key)
|
|
*
|
|
* Use the hash value 'precalculated_hash' instead of hashing the key. The
|
|
* hash value should be the same as hash_function()(key). Useful to speed-up
|
|
* the lookup if you already have the hash.
|
|
*/
|
|
template <
|
|
class K, class KE = KeyEqual,
|
|
typename std::enable_if<has_is_transparent<KE>::value>::type* = nullptr>
|
|
std::pair<iterator, iterator> equal_range(const K& key,
|
|
std::size_t precalculated_hash) {
|
|
return m_ht.equal_range(key, precalculated_hash);
|
|
}
|
|
|
|
/**
|
|
* @copydoc equal_range(const K& key)
|
|
*/
|
|
template <
|
|
class K, class KE = KeyEqual,
|
|
typename std::enable_if<has_is_transparent<KE>::value>::type* = nullptr>
|
|
std::pair<const_iterator, const_iterator> equal_range(const K& key) const {
|
|
return m_ht.equal_range(key);
|
|
}
|
|
|
|
/**
|
|
* @copydoc equal_range(const K& key, std::size_t precalculated_hash)
|
|
*/
|
|
template <
|
|
class K, class KE = KeyEqual,
|
|
typename std::enable_if<has_is_transparent<KE>::value>::type* = nullptr>
|
|
std::pair<const_iterator, const_iterator> equal_range(
|
|
const K& key, std::size_t precalculated_hash) const {
|
|
return m_ht.equal_range(key, precalculated_hash);
|
|
}
|
|
|
|
/*
|
|
* Bucket interface
|
|
*/
|
|
size_type bucket_count() const { return m_ht.bucket_count(); }
|
|
size_type max_bucket_count() const { return m_ht.max_bucket_count(); }
|
|
|
|
/*
|
|
* Hash policy
|
|
*/
|
|
float load_factor() const { return m_ht.load_factor(); }
|
|
float max_load_factor() const { return m_ht.max_load_factor(); }
|
|
void max_load_factor(float ml) { m_ht.max_load_factor(ml); }
|
|
|
|
void rehash(size_type count_) { m_ht.rehash(count_); }
|
|
void reserve(size_type count_) { m_ht.reserve(count_); }
|
|
|
|
/*
|
|
* Observers
|
|
*/
|
|
hasher hash_function() const { return m_ht.hash_function(); }
|
|
key_equal key_eq() const { return m_ht.key_eq(); }
|
|
|
|
/*
|
|
* Other
|
|
*/
|
|
|
|
/**
|
|
* Convert a const_iterator to an iterator.
|
|
*/
|
|
iterator mutable_iterator(const_iterator pos) {
|
|
return m_ht.mutable_iterator(pos);
|
|
}
|
|
|
|
size_type overflow_size() const noexcept { return m_ht.overflow_size(); }
|
|
|
|
friend bool operator==(const hopscotch_set& lhs, const hopscotch_set& rhs) {
|
|
if (lhs.size() != rhs.size()) {
|
|
return false;
|
|
}
|
|
|
|
for (const auto& element_lhs : lhs) {
|
|
const auto it_element_rhs = rhs.find(element_lhs);
|
|
if (it_element_rhs == rhs.cend()) {
|
|
return false;
|
|
}
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
friend bool operator!=(const hopscotch_set& lhs, const hopscotch_set& rhs) {
|
|
return !operator==(lhs, rhs);
|
|
}
|
|
|
|
friend void swap(hopscotch_set& lhs, hopscotch_set& rhs) { lhs.swap(rhs); }
|
|
|
|
private:
|
|
ht m_ht;
|
|
};
|
|
|
|
/**
|
|
* Same as `tsl::hopscotch_set<Key, Hash, KeyEqual, Allocator, NeighborhoodSize,
|
|
* StoreHash, tsl::hh::prime_growth_policy>`.
|
|
*/
|
|
template <class Key, class Hash = std::hash<Key>,
|
|
class KeyEqual = std::equal_to<Key>,
|
|
class Allocator = std::allocator<Key>,
|
|
unsigned int NeighborhoodSize = 62, bool StoreHash = false>
|
|
using hopscotch_pg_set =
|
|
hopscotch_set<Key, Hash, KeyEqual, Allocator, NeighborhoodSize, StoreHash,
|
|
tsl::hh::prime_growth_policy>;
|
|
|
|
} // end namespace tsl
|
|
|
|
#endif
|