// Copyright Malte Skarupke 2017. // Distributed under the Boost Software License, Version 1.0. // (See http://www.boost.org/LICENSE_1_0.txt) #pragma once #include #include #include #include #include #include #include #include #ifdef _MSC_VER #define SKA_NOINLINE(...) __declspec(noinline) __VA_ARGS__ #else #define SKA_NOINLINE(...) __VA_ARGS__ __attribute__((noinline)) #endif namespace ska { struct prime_number_hash_policy; struct power_of_two_hash_policy; struct fibonacci_hash_policy; namespace detailv3 { template struct functor_storage : Functor { functor_storage() = default; functor_storage(const Functor & functor) : Functor(functor) { } template Result operator()(Args &&... args) { return static_cast(*this)(std::forward(args)...); } template Result operator()(Args &&... args) const { return static_cast(*this)(std::forward(args)...); } }; template struct functor_storage { typedef Result (*function_ptr)(Args...); function_ptr function; functor_storage(function_ptr function) : function(function) { } Result operator()(Args... args) const { return function(std::forward(args)...); } operator function_ptr &() { return function; } operator const function_ptr &() { return function; } }; template struct KeyOrValueHasher : functor_storage { typedef functor_storage hasher_storage; KeyOrValueHasher() = default; KeyOrValueHasher(const hasher & hash) : hasher_storage(hash) { } size_t operator()(const key_type & key) { return static_cast(*this)(key); } size_t operator()(const key_type & key) const { return static_cast(*this)(key); } size_t operator()(const value_type & value) { return static_cast(*this)(value.first); } size_t operator()(const value_type & value) const { return static_cast(*this)(value.first); } template size_t operator()(const std::pair & value) { return static_cast(*this)(value.first); } template size_t operator()(const std::pair & value) const { return static_cast(*this)(value.first); } }; template struct KeyOrValueEquality : functor_storage { typedef functor_storage equality_storage; KeyOrValueEquality() = default; KeyOrValueEquality(const key_equal & equality) : equality_storage(equality) { } bool operator()(const key_type & lhs, const key_type & rhs) { return static_cast(*this)(lhs, rhs); } bool operator()(const key_type & lhs, const value_type & rhs) { return static_cast(*this)(lhs, rhs.first); } bool operator()(const value_type & lhs, const key_type & rhs) { return static_cast(*this)(lhs.first, rhs); } bool operator()(const value_type & lhs, const value_type & rhs) { return static_cast(*this)(lhs.first, rhs.first); } template bool operator()(const key_type & lhs, const std::pair & rhs) { return static_cast(*this)(lhs, rhs.first); } template bool operator()(const std::pair & lhs, const key_type & rhs) { return static_cast(*this)(lhs.first, rhs); } template bool operator()(const value_type & lhs, const std::pair & rhs) { return static_cast(*this)(lhs.first, rhs.first); } template bool operator()(const std::pair & lhs, const value_type & rhs) { return static_cast(*this)(lhs.first, rhs.first); } template bool operator()(const std::pair & lhs, const std::pair & rhs) { return static_cast(*this)(lhs.first, rhs.first); } }; static constexpr int8_t min_lookups = 4; template struct sherwood_v3_entry { sherwood_v3_entry() { } sherwood_v3_entry(int8_t distance_from_desired) : distance_from_desired(distance_from_desired) { } ~sherwood_v3_entry() { } static sherwood_v3_entry * empty_default_table() { static sherwood_v3_entry result[min_lookups] = { {}, {}, {}, {special_end_value} }; return result; } bool has_value() const { return distance_from_desired >= 0; } bool is_empty() const { return distance_from_desired < 0; } bool is_at_desired_position() const { return distance_from_desired <= 0; } template void emplace(int8_t distance, Args &&... args) { new (std::addressof(value)) T(std::forward(args)...); distance_from_desired = distance; } void destroy_value() { value.~T(); distance_from_desired = -1; } int8_t distance_from_desired = -1; static constexpr int8_t special_end_value = 0; union { T value; }; }; inline int8_t log2(size_t value) { static constexpr int8_t table[64] = { 63, 0, 58, 1, 59, 47, 53, 2, 60, 39, 48, 27, 54, 33, 42, 3, 61, 51, 37, 40, 49, 18, 28, 20, 55, 30, 34, 11, 43, 14, 22, 4, 62, 57, 46, 52, 38, 26, 32, 41, 50, 36, 17, 19, 29, 10, 13, 21, 56, 45, 25, 31, 35, 16, 9, 12, 44, 24, 15, 8, 23, 7, 6, 5 }; value |= value >> 1; value |= value >> 2; value |= value >> 4; value |= value >> 8; value |= value >> 16; value |= value >> 32; return table[((value - (value >> 1)) * 0x07EDD5E59A4E28C2) >> 58]; } template struct AssignIfTrue { void operator()(T & lhs, const T & rhs) { lhs = rhs; } void operator()(T & lhs, T && rhs) { lhs = std::move(rhs); } }; template struct AssignIfTrue { void operator()(T &, const T &) { } void operator()(T &, T &&) { } }; inline size_t next_power_of_two(size_t i) { --i; i |= i >> 1; i |= i >> 2; i |= i >> 4; i |= i >> 8; i |= i >> 16; i |= i >> 32; ++i; return i; } template using void_t = void; template struct HashPolicySelector { typedef fibonacci_hash_policy type; }; template struct HashPolicySelector> { typedef typename T::hash_policy type; }; template class sherwood_v3_table : private EntryAlloc, private Hasher, private Equal { using Entry = detailv3::sherwood_v3_entry; using AllocatorTraits = std::allocator_traits; using EntryPointer = typename AllocatorTraits::pointer; struct convertible_to_iterator; public: using value_type = T; using size_type = size_t; using difference_type = std::ptrdiff_t; using hasher = ArgumentHash; using key_equal = ArgumentEqual; using allocator_type = EntryAlloc; using reference = value_type &; using const_reference = const value_type &; using pointer = value_type *; using const_pointer = const value_type *; sherwood_v3_table() { } explicit sherwood_v3_table(size_type bucket_count, const ArgumentHash & hash = ArgumentHash(), const ArgumentEqual & equal = ArgumentEqual(), const ArgumentAlloc & alloc = ArgumentAlloc()) : EntryAlloc(alloc), Hasher(hash), Equal(equal) { rehash(bucket_count); } sherwood_v3_table(size_type bucket_count, const ArgumentAlloc & alloc) : sherwood_v3_table(bucket_count, ArgumentHash(), ArgumentEqual(), alloc) { } sherwood_v3_table(size_type bucket_count, const ArgumentHash & hash, const ArgumentAlloc & alloc) : sherwood_v3_table(bucket_count, hash, ArgumentEqual(), alloc) { } explicit sherwood_v3_table(const ArgumentAlloc & alloc) : EntryAlloc(alloc) { } template sherwood_v3_table(It first, It last, size_type bucket_count = 0, const ArgumentHash & hash = ArgumentHash(), const ArgumentEqual & equal = ArgumentEqual(), const ArgumentAlloc & alloc = ArgumentAlloc()) : sherwood_v3_table(bucket_count, hash, equal, alloc) { insert(first, last); } template sherwood_v3_table(It first, It last, size_type bucket_count, const ArgumentAlloc & alloc) : sherwood_v3_table(first, last, bucket_count, ArgumentHash(), ArgumentEqual(), alloc) { } template sherwood_v3_table(It first, It last, size_type bucket_count, const ArgumentHash & hash, const ArgumentAlloc & alloc) : sherwood_v3_table(first, last, bucket_count, hash, ArgumentEqual(), alloc) { } sherwood_v3_table(std::initializer_list il, size_type bucket_count = 0, const ArgumentHash & hash = ArgumentHash(), const ArgumentEqual & equal = ArgumentEqual(), const ArgumentAlloc & alloc = ArgumentAlloc()) : sherwood_v3_table(bucket_count, hash, equal, alloc) { if (bucket_count == 0) rehash(il.size()); insert(il.begin(), il.end()); } sherwood_v3_table(std::initializer_list il, size_type bucket_count, const ArgumentAlloc & alloc) : sherwood_v3_table(il, bucket_count, ArgumentHash(), ArgumentEqual(), alloc) { } sherwood_v3_table(std::initializer_list il, size_type bucket_count, const ArgumentHash & hash, const ArgumentAlloc & alloc) : sherwood_v3_table(il, bucket_count, hash, ArgumentEqual(), alloc) { } sherwood_v3_table(const sherwood_v3_table & other) : sherwood_v3_table(other, AllocatorTraits::select_on_container_copy_construction(other.get_allocator())) { } sherwood_v3_table(const sherwood_v3_table & other, const ArgumentAlloc & alloc) : EntryAlloc(alloc), Hasher(other), Equal(other), _max_load_factor(other._max_load_factor) { rehash_for_other_container(other); try { insert(other.begin(), other.end()); } catch(...) { clear(); deallocate_data(entries, num_slots_minus_one, max_lookups); throw; } } sherwood_v3_table(sherwood_v3_table && other) noexcept : EntryAlloc(std::move(other)), Hasher(std::move(other)), Equal(std::move(other)) { swap_pointers(other); } sherwood_v3_table(sherwood_v3_table && other, const ArgumentAlloc & alloc) noexcept : EntryAlloc(alloc), Hasher(std::move(other)), Equal(std::move(other)) { swap_pointers(other); } sherwood_v3_table & operator=(const sherwood_v3_table & other) { if (this == std::addressof(other)) return *this; clear(); if (AllocatorTraits::propagate_on_container_copy_assignment::value) { if (static_cast(*this) != static_cast(other)) { reset_to_empty_state(); } AssignIfTrue()(*this, other); } _max_load_factor = other._max_load_factor; static_cast(*this) = other; static_cast(*this) = other; rehash_for_other_container(other); insert(other.begin(), other.end()); return *this; } sherwood_v3_table & operator=(sherwood_v3_table && other) noexcept { if (this == std::addressof(other)) return *this; else if (AllocatorTraits::propagate_on_container_move_assignment::value) { clear(); reset_to_empty_state(); AssignIfTrue()(*this, std::move(other)); swap_pointers(other); } else if (static_cast(*this) == static_cast(other)) { swap_pointers(other); } else { clear(); _max_load_factor = other._max_load_factor; rehash_for_other_container(other); for (T & elem : other) emplace(std::move(elem)); other.clear(); } static_cast(*this) = std::move(other); static_cast(*this) = std::move(other); return *this; } ~sherwood_v3_table() { clear(); deallocate_data(entries, num_slots_minus_one, max_lookups); } const allocator_type & get_allocator() const { return static_cast(*this); } const ArgumentEqual & key_eq() const { return static_cast(*this); } const ArgumentHash & hash_function() const { return static_cast(*this); } template struct templated_iterator { templated_iterator() = default; templated_iterator(EntryPointer current) : current(current) { } EntryPointer current = EntryPointer(); using iterator_category = std::forward_iterator_tag; using value_type = ValueType; using difference_type = ptrdiff_t; using pointer = ValueType *; using reference = ValueType &; friend bool operator==(const templated_iterator & lhs, const templated_iterator & rhs) { return lhs.current == rhs.current; } friend bool operator!=(const templated_iterator & lhs, const templated_iterator & rhs) { return !(lhs == rhs); } templated_iterator & operator++() { do { ++current; } while(current->is_empty()); return *this; } templated_iterator operator++(int) { templated_iterator copy(*this); ++*this; return copy; } ValueType & operator*() const { return current->value; } ValueType * operator->() const { return std::addressof(current->value); } operator templated_iterator() const { return { current }; } }; using iterator = templated_iterator; using const_iterator = templated_iterator; iterator begin() { for (EntryPointer it = entries;; ++it) { if (it->has_value()) return { it }; } } const_iterator begin() const { for (EntryPointer it = entries;; ++it) { if (it->has_value()) return { it }; } } const_iterator cbegin() const { return begin(); } iterator end() { return { entries + static_cast(num_slots_minus_one + max_lookups) }; } const_iterator end() const { return { entries + static_cast(num_slots_minus_one + max_lookups) }; } const_iterator cend() const { return end(); } iterator find(const FindKey & key) { size_t index = hash_policy.index_for_hash(hash_object(key), num_slots_minus_one); EntryPointer it = entries + ptrdiff_t(index); for (int8_t distance = 0; it->distance_from_desired >= distance; ++distance, ++it) { if (compares_equal(key, it->value)) return { it }; } return end(); } const_iterator find(const FindKey & key) const { return const_cast(this)->find(key); } size_t count(const FindKey & key) const { return find(key) == end() ? 0 : 1; } std::pair equal_range(const FindKey & key) { iterator found = find(key); if (found == end()) return { found, found }; else return { found, std::next(found) }; } std::pair equal_range(const FindKey & key) const { const_iterator found = find(key); if (found == end()) return { found, found }; else return { found, std::next(found) }; } template std::pair emplace(Key && key, Args &&... args) { size_t index = hash_policy.index_for_hash(hash_object(key), num_slots_minus_one); EntryPointer current_entry = entries + ptrdiff_t(index); int8_t distance_from_desired = 0; for (; current_entry->distance_from_desired >= distance_from_desired; ++current_entry, ++distance_from_desired) { if (compares_equal(key, current_entry->value)) return { { current_entry }, false }; } return emplace_new_key(distance_from_desired, current_entry, std::forward(key), std::forward(args)...); } std::pair insert(const value_type & value) { return emplace(value); } std::pair insert(value_type && value) { return emplace(std::move(value)); } template iterator emplace_hint(const_iterator, Args &&... args) { return emplace(std::forward(args)...).first; } iterator insert(const_iterator, const value_type & value) { return emplace(value).first; } iterator insert(const_iterator, value_type && value) { return emplace(std::move(value)).first; } template void insert(It begin, It end) { for (; begin != end; ++begin) { emplace(*begin); } } void insert(std::initializer_list il) { insert(il.begin(), il.end()); } void rehash(size_t num_buckets) { num_buckets = std::max(num_buckets, static_cast(std::ceil(num_elements / static_cast(_max_load_factor)))); if (num_buckets == 0) { reset_to_empty_state(); return; } auto new_prime_index = hash_policy.next_size_over(num_buckets); if (num_buckets == bucket_count()) return; int8_t new_max_lookups = compute_max_lookups(num_buckets); EntryPointer new_buckets(AllocatorTraits::allocate(*this, num_buckets + new_max_lookups)); EntryPointer special_end_item = new_buckets + static_cast(num_buckets + new_max_lookups - 1); for (EntryPointer it = new_buckets; it != special_end_item; ++it) it->distance_from_desired = -1; special_end_item->distance_from_desired = Entry::special_end_value; std::swap(entries, new_buckets); std::swap(num_slots_minus_one, num_buckets); --num_slots_minus_one; hash_policy.commit(new_prime_index); int8_t old_max_lookups = max_lookups; max_lookups = new_max_lookups; num_elements = 0; for (EntryPointer it = new_buckets, end = it + static_cast(num_buckets + old_max_lookups); it != end; ++it) { if (it->has_value()) { emplace(std::move(it->value)); it->destroy_value(); } } deallocate_data(new_buckets, num_buckets, old_max_lookups); } void reserve(size_t num_elements) { size_t required_buckets = num_buckets_for_reserve(num_elements); if (required_buckets > bucket_count()) rehash(required_buckets); } // the return value is a type that can be converted to an iterator // the reason for doing this is that it's not free to find the // iterator pointing at the next element. if you care about the // next iterator, turn the return value into an iterator convertible_to_iterator erase(const_iterator to_erase) { EntryPointer current = to_erase.current; current->destroy_value(); --num_elements; for (EntryPointer next = current + ptrdiff_t(1); !next->is_at_desired_position(); ++current, ++next) { current->emplace(next->distance_from_desired - 1, std::move(next->value)); next->destroy_value(); } return { to_erase.current }; } iterator erase(const_iterator begin_it, const_iterator end_it) { if (begin_it == end_it) return { begin_it.current }; for (EntryPointer it = begin_it.current, end = end_it.current; it != end; ++it) { if (it->has_value()) { it->destroy_value(); --num_elements; } } if (end_it == this->end()) return this->end(); ptrdiff_t num_to_move = std::min(static_cast(end_it.current->distance_from_desired), end_it.current - begin_it.current); EntryPointer to_return = end_it.current - num_to_move; for (EntryPointer it = end_it.current; !it->is_at_desired_position();) { EntryPointer target = it - num_to_move; target->emplace(it->distance_from_desired - num_to_move, std::move(it->value)); it->destroy_value(); ++it; num_to_move = std::min(static_cast(it->distance_from_desired), num_to_move); } return { to_return }; } size_t erase(const FindKey & key) { auto found = find(key); if (found == end()) return 0; else { erase(found); return 1; } } void clear() { for (EntryPointer it = entries, end = it + static_cast(num_slots_minus_one + max_lookups); it != end; ++it) { if (it->has_value()) it->destroy_value(); } num_elements = 0; } void shrink_to_fit() { rehash_for_other_container(*this); } void swap(sherwood_v3_table & other) { using std::swap; swap_pointers(other); swap(static_cast(*this), static_cast(other)); swap(static_cast(*this), static_cast(other)); if (AllocatorTraits::propagate_on_container_swap::value) swap(static_cast(*this), static_cast(other)); } size_t size() const { return num_elements; } size_t max_size() const { return (AllocatorTraits::max_size(*this)) / sizeof(Entry); } size_t bucket_count() const { return num_slots_minus_one ? num_slots_minus_one + 1 : 0; } size_type max_bucket_count() const { return (AllocatorTraits::max_size(*this) - min_lookups) / sizeof(Entry); } size_t bucket(const FindKey & key) const { return hash_policy.index_for_hash(hash_object(key), num_slots_minus_one); } float load_factor() const { size_t buckets = bucket_count(); if (buckets) return static_cast(num_elements) / bucket_count(); else return 0; } void max_load_factor(float value) { _max_load_factor = value; } float max_load_factor() const { return _max_load_factor; } bool empty() const { return num_elements == 0; } private: EntryPointer entries = Entry::empty_default_table(); size_t num_slots_minus_one = 0; typename HashPolicySelector::type hash_policy; int8_t max_lookups = detailv3::min_lookups - 1; float _max_load_factor = 0.5f; size_t num_elements = 0; static int8_t compute_max_lookups(size_t num_buckets) { int8_t desired = detailv3::log2(num_buckets); return std::max(detailv3::min_lookups, desired); } size_t num_buckets_for_reserve(size_t num_elements) const { return static_cast(std::ceil(num_elements / std::min(0.5, static_cast(_max_load_factor)))); } void rehash_for_other_container(const sherwood_v3_table & other) { rehash(std::min(num_buckets_for_reserve(other.size()), other.bucket_count())); } void swap_pointers(sherwood_v3_table & other) { using std::swap; swap(hash_policy, other.hash_policy); swap(entries, other.entries); swap(num_slots_minus_one, other.num_slots_minus_one); swap(num_elements, other.num_elements); swap(max_lookups, other.max_lookups); swap(_max_load_factor, other._max_load_factor); } template SKA_NOINLINE(std::pair) emplace_new_key(int8_t distance_from_desired, EntryPointer current_entry, Key && key, Args &&... args) { using std::swap; if (num_slots_minus_one == 0 || distance_from_desired == max_lookups || num_elements + 1 > (num_slots_minus_one + 1) * static_cast(_max_load_factor)) { grow(); return emplace(std::forward(key), std::forward(args)...); } else if (current_entry->is_empty()) { current_entry->emplace(distance_from_desired, std::forward(key), std::forward(args)...); ++num_elements; return { { current_entry }, true }; } value_type to_insert(std::forward(key), std::forward(args)...); swap(distance_from_desired, current_entry->distance_from_desired); swap(to_insert, current_entry->value); iterator result = { current_entry }; for (++distance_from_desired, ++current_entry;; ++current_entry) { if (current_entry->is_empty()) { current_entry->emplace(distance_from_desired, std::move(to_insert)); ++num_elements; return { result, true }; } else if (current_entry->distance_from_desired < distance_from_desired) { swap(distance_from_desired, current_entry->distance_from_desired); swap(to_insert, current_entry->value); ++distance_from_desired; } else { ++distance_from_desired; if (distance_from_desired == max_lookups) { swap(to_insert, result.current->value); grow(); return emplace(std::move(to_insert)); } } } } void grow() { rehash(std::max(size_t(4), 2 * bucket_count())); } void deallocate_data(EntryPointer begin, size_t num_slots_minus_one, int8_t max_lookups) { if (begin != Entry::empty_default_table()) { AllocatorTraits::deallocate(*this, begin, num_slots_minus_one + max_lookups + 1); } } void reset_to_empty_state() { deallocate_data(entries, num_slots_minus_one, max_lookups); entries = Entry::empty_default_table(); num_slots_minus_one = 0; hash_policy.reset(); max_lookups = detailv3::min_lookups - 1; } template size_t hash_object(const U & key) { return static_cast(*this)(key); } template size_t hash_object(const U & key) const { return static_cast(*this)(key); } template bool compares_equal(const L & lhs, const R & rhs) { return static_cast(*this)(lhs, rhs); } struct convertible_to_iterator { EntryPointer it; operator iterator() { if (it->has_value()) return { it }; else return ++iterator{it}; } operator const_iterator() { if (it->has_value()) return { it }; else return ++const_iterator{it}; } }; }; } struct prime_number_hash_policy { static size_t mod0(size_t) { return 0llu; } static size_t mod2(size_t hash) { return hash % 2llu; } static size_t mod3(size_t hash) { return hash % 3llu; } static size_t mod5(size_t hash) { return hash % 5llu; } static size_t mod7(size_t hash) { return hash % 7llu; } static size_t mod11(size_t hash) { return hash % 11llu; } static size_t mod13(size_t hash) { return hash % 13llu; } static size_t mod17(size_t hash) { return hash % 17llu; } static size_t mod23(size_t hash) { return hash % 23llu; } static size_t mod29(size_t hash) { return hash % 29llu; } static size_t mod37(size_t hash) { return hash % 37llu; } static size_t mod47(size_t hash) { return hash % 47llu; } static size_t mod59(size_t hash) { return hash % 59llu; } static size_t mod73(size_t hash) { return hash % 73llu; } static size_t mod97(size_t hash) { return hash % 97llu; } static size_t mod127(size_t hash) { return hash % 127llu; } static size_t mod151(size_t hash) { return hash % 151llu; } static size_t mod197(size_t hash) { return hash % 197llu; } static size_t mod251(size_t hash) { return hash % 251llu; } static size_t mod313(size_t hash) { return hash % 313llu; } static size_t mod397(size_t hash) { return hash % 397llu; } static size_t mod499(size_t hash) { return hash % 499llu; } static size_t mod631(size_t hash) { return hash % 631llu; } static size_t mod797(size_t hash) { return hash % 797llu; } static size_t mod1009(size_t hash) { return hash % 1009llu; } static size_t mod1259(size_t hash) { return hash % 1259llu; } static size_t mod1597(size_t hash) { return hash % 1597llu; } static size_t mod2011(size_t hash) { return hash % 2011llu; } static size_t mod2539(size_t hash) { return hash % 2539llu; } static size_t mod3203(size_t hash) { return hash % 3203llu; } static size_t mod4027(size_t hash) { return hash % 4027llu; } static size_t mod5087(size_t hash) { return hash % 5087llu; } static size_t mod6421(size_t hash) { return hash % 6421llu; } static size_t mod8089(size_t hash) { return hash % 8089llu; } static size_t mod10193(size_t hash) { return hash % 10193llu; } static size_t mod12853(size_t hash) { return hash % 12853llu; } static size_t mod16193(size_t hash) { return hash % 16193llu; } static size_t mod20399(size_t hash) { return hash % 20399llu; } static size_t mod25717(size_t hash) { return hash % 25717llu; } static size_t mod32401(size_t hash) { return hash % 32401llu; } static size_t mod40823(size_t hash) { return hash % 40823llu; } static size_t mod51437(size_t hash) { return hash % 51437llu; } static size_t mod64811(size_t hash) { return hash % 64811llu; } static size_t mod81649(size_t hash) { return hash % 81649llu; } static size_t mod102877(size_t hash) { return hash % 102877llu; } static size_t mod129607(size_t hash) { return hash % 129607llu; } static size_t mod163307(size_t hash) { return hash % 163307llu; } static size_t mod205759(size_t hash) { return hash % 205759llu; } static size_t mod259229(size_t hash) { return hash % 259229llu; } static size_t mod326617(size_t hash) { return hash % 326617llu; } static size_t mod411527(size_t hash) { return hash % 411527llu; } static size_t mod518509(size_t hash) { return hash % 518509llu; } static size_t mod653267(size_t hash) { return hash % 653267llu; } static size_t mod823117(size_t hash) { return hash % 823117llu; } static size_t mod1037059(size_t hash) { return hash % 1037059llu; } static size_t mod1306601(size_t hash) { return hash % 1306601llu; } static size_t mod1646237(size_t hash) { return hash % 1646237llu; } static size_t mod2074129(size_t hash) { return hash % 2074129llu; } static size_t mod2613229(size_t hash) { return hash % 2613229llu; } static size_t mod3292489(size_t hash) { return hash % 3292489llu; } static size_t mod4148279(size_t hash) { return hash % 4148279llu; } static size_t mod5226491(size_t hash) { return hash % 5226491llu; } static size_t mod6584983(size_t hash) { return hash % 6584983llu; } static size_t mod8296553(size_t hash) { return hash % 8296553llu; } static size_t mod10453007(size_t hash) { return hash % 10453007llu; } static size_t mod13169977(size_t hash) { return hash % 13169977llu; } static size_t mod16593127(size_t hash) { return hash % 16593127llu; } static size_t mod20906033(size_t hash) { return hash % 20906033llu; } static size_t mod26339969(size_t hash) { return hash % 26339969llu; } static size_t mod33186281(size_t hash) { return hash % 33186281llu; } static size_t mod41812097(size_t hash) { return hash % 41812097llu; } static size_t mod52679969(size_t hash) { return hash % 52679969llu; } static size_t mod66372617(size_t hash) { return hash % 66372617llu; } static size_t mod83624237(size_t hash) { return hash % 83624237llu; } static size_t mod105359939(size_t hash) { return hash % 105359939llu; } static size_t mod132745199(size_t hash) { return hash % 132745199llu; } static size_t mod167248483(size_t hash) { return hash % 167248483llu; } static size_t mod210719881(size_t hash) { return hash % 210719881llu; } static size_t mod265490441(size_t hash) { return hash % 265490441llu; } static size_t mod334496971(size_t hash) { return hash % 334496971llu; } static size_t mod421439783(size_t hash) { return hash % 421439783llu; } static size_t mod530980861(size_t hash) { return hash % 530980861llu; } static size_t mod668993977(size_t hash) { return hash % 668993977llu; } static size_t mod842879579(size_t hash) { return hash % 842879579llu; } static size_t mod1061961721(size_t hash) { return hash % 1061961721llu; } static size_t mod1337987929(size_t hash) { return hash % 1337987929llu; } static size_t mod1685759167(size_t hash) { return hash % 1685759167llu; } static size_t mod2123923447(size_t hash) { return hash % 2123923447llu; } static size_t mod2675975881(size_t hash) { return hash % 2675975881llu; } static size_t mod3371518343(size_t hash) { return hash % 3371518343llu; } static size_t mod4247846927(size_t hash) { return hash % 4247846927llu; } static size_t mod5351951779(size_t hash) { return hash % 5351951779llu; } static size_t mod6743036717(size_t hash) { return hash % 6743036717llu; } static size_t mod8495693897(size_t hash) { return hash % 8495693897llu; } static size_t mod10703903591(size_t hash) { return hash % 10703903591llu; } static size_t mod13486073473(size_t hash) { return hash % 13486073473llu; } static size_t mod16991387857(size_t hash) { return hash % 16991387857llu; } static size_t mod21407807219(size_t hash) { return hash % 21407807219llu; } static size_t mod26972146961(size_t hash) { return hash % 26972146961llu; } static size_t mod33982775741(size_t hash) { return hash % 33982775741llu; } static size_t mod42815614441(size_t hash) { return hash % 42815614441llu; } static size_t mod53944293929(size_t hash) { return hash % 53944293929llu; } static size_t mod67965551447(size_t hash) { return hash % 67965551447llu; } static size_t mod85631228929(size_t hash) { return hash % 85631228929llu; } static size_t mod107888587883(size_t hash) { return hash % 107888587883llu; } static size_t mod135931102921(size_t hash) { return hash % 135931102921llu; } static size_t mod171262457903(size_t hash) { return hash % 171262457903llu; } static size_t mod215777175787(size_t hash) { return hash % 215777175787llu; } static size_t mod271862205833(size_t hash) { return hash % 271862205833llu; } static size_t mod342524915839(size_t hash) { return hash % 342524915839llu; } static size_t mod431554351609(size_t hash) { return hash % 431554351609llu; } static size_t mod543724411781(size_t hash) { return hash % 543724411781llu; } static size_t mod685049831731(size_t hash) { return hash % 685049831731llu; } static size_t mod863108703229(size_t hash) { return hash % 863108703229llu; } static size_t mod1087448823553(size_t hash) { return hash % 1087448823553llu; } static size_t mod1370099663459(size_t hash) { return hash % 1370099663459llu; } static size_t mod1726217406467(size_t hash) { return hash % 1726217406467llu; } static size_t mod2174897647073(size_t hash) { return hash % 2174897647073llu; } static size_t mod2740199326961(size_t hash) { return hash % 2740199326961llu; } static size_t mod3452434812973(size_t hash) { return hash % 3452434812973llu; } static size_t mod4349795294267(size_t hash) { return hash % 4349795294267llu; } static size_t mod5480398654009(size_t hash) { return hash % 5480398654009llu; } static size_t mod6904869625999(size_t hash) { return hash % 6904869625999llu; } static size_t mod8699590588571(size_t hash) { return hash % 8699590588571llu; } static size_t mod10960797308051(size_t hash) { return hash % 10960797308051llu; } static size_t mod13809739252051(size_t hash) { return hash % 13809739252051llu; } static size_t mod17399181177241(size_t hash) { return hash % 17399181177241llu; } static size_t mod21921594616111(size_t hash) { return hash % 21921594616111llu; } static size_t mod27619478504183(size_t hash) { return hash % 27619478504183llu; } static size_t mod34798362354533(size_t hash) { return hash % 34798362354533llu; } static size_t mod43843189232363(size_t hash) { return hash % 43843189232363llu; } static size_t mod55238957008387(size_t hash) { return hash % 55238957008387llu; } static size_t mod69596724709081(size_t hash) { return hash % 69596724709081llu; } static size_t mod87686378464759(size_t hash) { return hash % 87686378464759llu; } static size_t mod110477914016779(size_t hash) { return hash % 110477914016779llu; } static size_t mod139193449418173(size_t hash) { return hash % 139193449418173llu; } static size_t mod175372756929481(size_t hash) { return hash % 175372756929481llu; } static size_t mod220955828033581(size_t hash) { return hash % 220955828033581llu; } static size_t mod278386898836457(size_t hash) { return hash % 278386898836457llu; } static size_t mod350745513859007(size_t hash) { return hash % 350745513859007llu; } static size_t mod441911656067171(size_t hash) { return hash % 441911656067171llu; } static size_t mod556773797672909(size_t hash) { return hash % 556773797672909llu; } static size_t mod701491027718027(size_t hash) { return hash % 701491027718027llu; } static size_t mod883823312134381(size_t hash) { return hash % 883823312134381llu; } static size_t mod1113547595345903(size_t hash) { return hash % 1113547595345903llu; } static size_t mod1402982055436147(size_t hash) { return hash % 1402982055436147llu; } static size_t mod1767646624268779(size_t hash) { return hash % 1767646624268779llu; } static size_t mod2227095190691797(size_t hash) { return hash % 2227095190691797llu; } static size_t mod2805964110872297(size_t hash) { return hash % 2805964110872297llu; } static size_t mod3535293248537579(size_t hash) { return hash % 3535293248537579llu; } static size_t mod4454190381383713(size_t hash) { return hash % 4454190381383713llu; } static size_t mod5611928221744609(size_t hash) { return hash % 5611928221744609llu; } static size_t mod7070586497075177(size_t hash) { return hash % 7070586497075177llu; } static size_t mod8908380762767489(size_t hash) { return hash % 8908380762767489llu; } static size_t mod11223856443489329(size_t hash) { return hash % 11223856443489329llu; } static size_t mod14141172994150357(size_t hash) { return hash % 14141172994150357llu; } static size_t mod17816761525534927(size_t hash) { return hash % 17816761525534927llu; } static size_t mod22447712886978529(size_t hash) { return hash % 22447712886978529llu; } static size_t mod28282345988300791(size_t hash) { return hash % 28282345988300791llu; } static size_t mod35633523051069991(size_t hash) { return hash % 35633523051069991llu; } static size_t mod44895425773957261(size_t hash) { return hash % 44895425773957261llu; } static size_t mod56564691976601587(size_t hash) { return hash % 56564691976601587llu; } static size_t mod71267046102139967(size_t hash) { return hash % 71267046102139967llu; } static size_t mod89790851547914507(size_t hash) { return hash % 89790851547914507llu; } static size_t mod113129383953203213(size_t hash) { return hash % 113129383953203213llu; } static size_t mod142534092204280003(size_t hash) { return hash % 142534092204280003llu; } static size_t mod179581703095829107(size_t hash) { return hash % 179581703095829107llu; } static size_t mod226258767906406483(size_t hash) { return hash % 226258767906406483llu; } static size_t mod285068184408560057(size_t hash) { return hash % 285068184408560057llu; } static size_t mod359163406191658253(size_t hash) { return hash % 359163406191658253llu; } static size_t mod452517535812813007(size_t hash) { return hash % 452517535812813007llu; } static size_t mod570136368817120201(size_t hash) { return hash % 570136368817120201llu; } static size_t mod718326812383316683(size_t hash) { return hash % 718326812383316683llu; } static size_t mod905035071625626043(size_t hash) { return hash % 905035071625626043llu; } static size_t mod1140272737634240411(size_t hash) { return hash % 1140272737634240411llu; } static size_t mod1436653624766633509(size_t hash) { return hash % 1436653624766633509llu; } static size_t mod1810070143251252131(size_t hash) { return hash % 1810070143251252131llu; } static size_t mod2280545475268481167(size_t hash) { return hash % 2280545475268481167llu; } static size_t mod2873307249533267101(size_t hash) { return hash % 2873307249533267101llu; } static size_t mod3620140286502504283(size_t hash) { return hash % 3620140286502504283llu; } static size_t mod4561090950536962147(size_t hash) { return hash % 4561090950536962147llu; } static size_t mod5746614499066534157(size_t hash) { return hash % 5746614499066534157llu; } static size_t mod7240280573005008577(size_t hash) { return hash % 7240280573005008577llu; } static size_t mod9122181901073924329(size_t hash) { return hash % 9122181901073924329llu; } static size_t mod11493228998133068689(size_t hash) { return hash % 11493228998133068689llu; } static size_t mod14480561146010017169(size_t hash) { return hash % 14480561146010017169llu; } static size_t mod18446744073709551557(size_t hash) { return hash % 18446744073709551557llu; } using mod_function = size_t (*)(size_t); mod_function next_size_over(size_t & size) const { // prime numbers generated by the following method: // 1. start with a prime p = 2 // 2. go to wolfram alpha and get p = NextPrime(2 * p) // 3. repeat 2. until you overflow 64 bits // you now have large gaps which you would hit if somebody called reserve() with an unlucky number. // 4. to fill the gaps for every prime p go to wolfram alpha and get ClosestPrime(p * 2^(1/3)) and ClosestPrime(p * 2^(2/3)) and put those in the gaps // 5. get PrevPrime(2^64) and put it at the end static constexpr const size_t prime_list[] = { 2llu, 3llu, 5llu, 7llu, 11llu, 13llu, 17llu, 23llu, 29llu, 37llu, 47llu, 59llu, 73llu, 97llu, 127llu, 151llu, 197llu, 251llu, 313llu, 397llu, 499llu, 631llu, 797llu, 1009llu, 1259llu, 1597llu, 2011llu, 2539llu, 3203llu, 4027llu, 5087llu, 6421llu, 8089llu, 10193llu, 12853llu, 16193llu, 20399llu, 25717llu, 32401llu, 40823llu, 51437llu, 64811llu, 81649llu, 102877llu, 129607llu, 163307llu, 205759llu, 259229llu, 326617llu, 411527llu, 518509llu, 653267llu, 823117llu, 1037059llu, 1306601llu, 1646237llu, 2074129llu, 2613229llu, 3292489llu, 4148279llu, 5226491llu, 6584983llu, 8296553llu, 10453007llu, 13169977llu, 16593127llu, 20906033llu, 26339969llu, 33186281llu, 41812097llu, 52679969llu, 66372617llu, 83624237llu, 105359939llu, 132745199llu, 167248483llu, 210719881llu, 265490441llu, 334496971llu, 421439783llu, 530980861llu, 668993977llu, 842879579llu, 1061961721llu, 1337987929llu, 1685759167llu, 2123923447llu, 2675975881llu, 3371518343llu, 4247846927llu, 5351951779llu, 6743036717llu, 8495693897llu, 10703903591llu, 13486073473llu, 16991387857llu, 21407807219llu, 26972146961llu, 33982775741llu, 42815614441llu, 53944293929llu, 67965551447llu, 85631228929llu, 107888587883llu, 135931102921llu, 171262457903llu, 215777175787llu, 271862205833llu, 342524915839llu, 431554351609llu, 543724411781llu, 685049831731llu, 863108703229llu, 1087448823553llu, 1370099663459llu, 1726217406467llu, 2174897647073llu, 2740199326961llu, 3452434812973llu, 4349795294267llu, 5480398654009llu, 6904869625999llu, 8699590588571llu, 10960797308051llu, 13809739252051llu, 17399181177241llu, 21921594616111llu, 27619478504183llu, 34798362354533llu, 43843189232363llu, 55238957008387llu, 69596724709081llu, 87686378464759llu, 110477914016779llu, 139193449418173llu, 175372756929481llu, 220955828033581llu, 278386898836457llu, 350745513859007llu, 441911656067171llu, 556773797672909llu, 701491027718027llu, 883823312134381llu, 1113547595345903llu, 1402982055436147llu, 1767646624268779llu, 2227095190691797llu, 2805964110872297llu, 3535293248537579llu, 4454190381383713llu, 5611928221744609llu, 7070586497075177llu, 8908380762767489llu, 11223856443489329llu, 14141172994150357llu, 17816761525534927llu, 22447712886978529llu, 28282345988300791llu, 35633523051069991llu, 44895425773957261llu, 56564691976601587llu, 71267046102139967llu, 89790851547914507llu, 113129383953203213llu, 142534092204280003llu, 179581703095829107llu, 226258767906406483llu, 285068184408560057llu, 359163406191658253llu, 452517535812813007llu, 570136368817120201llu, 718326812383316683llu, 905035071625626043llu, 1140272737634240411llu, 1436653624766633509llu, 1810070143251252131llu, 2280545475268481167llu, 2873307249533267101llu, 3620140286502504283llu, 4561090950536962147llu, 5746614499066534157llu, 7240280573005008577llu, 9122181901073924329llu, 11493228998133068689llu, 14480561146010017169llu, 18446744073709551557llu }; static constexpr size_t (* const mod_functions[])(size_t) = { &mod0, &mod2, &mod3, &mod5, &mod7, &mod11, &mod13, &mod17, &mod23, &mod29, &mod37, &mod47, &mod59, &mod73, &mod97, &mod127, &mod151, &mod197, &mod251, &mod313, &mod397, &mod499, &mod631, &mod797, &mod1009, &mod1259, &mod1597, &mod2011, &mod2539, &mod3203, &mod4027, &mod5087, &mod6421, &mod8089, &mod10193, &mod12853, &mod16193, &mod20399, &mod25717, &mod32401, &mod40823, &mod51437, &mod64811, &mod81649, &mod102877, &mod129607, &mod163307, &mod205759, &mod259229, &mod326617, &mod411527, &mod518509, &mod653267, &mod823117, &mod1037059, &mod1306601, &mod1646237, &mod2074129, &mod2613229, &mod3292489, &mod4148279, &mod5226491, &mod6584983, &mod8296553, &mod10453007, &mod13169977, &mod16593127, &mod20906033, &mod26339969, &mod33186281, &mod41812097, &mod52679969, &mod66372617, &mod83624237, &mod105359939, &mod132745199, &mod167248483, &mod210719881, &mod265490441, &mod334496971, &mod421439783, &mod530980861, &mod668993977, &mod842879579, &mod1061961721, &mod1337987929, &mod1685759167, &mod2123923447, &mod2675975881, &mod3371518343, &mod4247846927, &mod5351951779, &mod6743036717, &mod8495693897, &mod10703903591, &mod13486073473, &mod16991387857, &mod21407807219, &mod26972146961, &mod33982775741, &mod42815614441, &mod53944293929, &mod67965551447, &mod85631228929, &mod107888587883, &mod135931102921, &mod171262457903, &mod215777175787, &mod271862205833, &mod342524915839, &mod431554351609, &mod543724411781, &mod685049831731, &mod863108703229, &mod1087448823553, &mod1370099663459, &mod1726217406467, &mod2174897647073, &mod2740199326961, &mod3452434812973, &mod4349795294267, &mod5480398654009, &mod6904869625999, &mod8699590588571, &mod10960797308051, &mod13809739252051, &mod17399181177241, &mod21921594616111, &mod27619478504183, &mod34798362354533, &mod43843189232363, &mod55238957008387, &mod69596724709081, &mod87686378464759, &mod110477914016779, &mod139193449418173, &mod175372756929481, &mod220955828033581, &mod278386898836457, &mod350745513859007, &mod441911656067171, &mod556773797672909, &mod701491027718027, &mod883823312134381, &mod1113547595345903, &mod1402982055436147, &mod1767646624268779, &mod2227095190691797, &mod2805964110872297, &mod3535293248537579, &mod4454190381383713, &mod5611928221744609, &mod7070586497075177, &mod8908380762767489, &mod11223856443489329, &mod14141172994150357, &mod17816761525534927, &mod22447712886978529, &mod28282345988300791, &mod35633523051069991, &mod44895425773957261, &mod56564691976601587, &mod71267046102139967, &mod89790851547914507, &mod113129383953203213, &mod142534092204280003, &mod179581703095829107, &mod226258767906406483, &mod285068184408560057, &mod359163406191658253, &mod452517535812813007, &mod570136368817120201, &mod718326812383316683, &mod905035071625626043, &mod1140272737634240411, &mod1436653624766633509, &mod1810070143251252131, &mod2280545475268481167, &mod2873307249533267101, &mod3620140286502504283, &mod4561090950536962147, &mod5746614499066534157, &mod7240280573005008577, &mod9122181901073924329, &mod11493228998133068689, &mod14480561146010017169, &mod18446744073709551557 }; const size_t * found = std::lower_bound(std::begin(prime_list), std::end(prime_list) - 1, size); size = *found; return mod_functions[1 + found - prime_list]; } void commit(mod_function new_mod_function) { current_mod_function = new_mod_function; } void reset() { current_mod_function = &mod0; } size_t index_for_hash(size_t hash, size_t /*num_slots_minus_one*/) const { return current_mod_function(hash); } size_t keep_in_range(size_t index, size_t num_slots_minus_one) const { return index > num_slots_minus_one ? current_mod_function(index) : index; } private: mod_function current_mod_function = &mod0; }; struct power_of_two_hash_policy { size_t index_for_hash(size_t hash, size_t num_slots_minus_one) const { return hash & num_slots_minus_one; } size_t keep_in_range(size_t index, size_t num_slots_minus_one) const { return index_for_hash(index, num_slots_minus_one); } int8_t next_size_over(size_t & size) const { size = detailv3::next_power_of_two(size); return 0; } void commit(int8_t) { } void reset() { } }; struct fibonacci_hash_policy { size_t index_for_hash(size_t hash, size_t /*num_slots_minus_one*/) const { return (11400714819323198485ull * hash) >> shift; } size_t keep_in_range(size_t index, size_t num_slots_minus_one) const { return index & num_slots_minus_one; } int8_t next_size_over(size_t & size) const { size = std::max(size_t(2), detailv3::next_power_of_two(size)); return 64 - detailv3::log2(size); } void commit(int8_t shift) { this->shift = shift; } void reset() { shift = 63; } private: int8_t shift = 63; }; template, typename E = std::equal_to, typename A = std::allocator > > class flat_hash_map : public detailv3::sherwood_v3_table < std::pair, K, H, detailv3::KeyOrValueHasher, H>, E, detailv3::KeyOrValueEquality, E>, A, typename std::allocator_traits::template rebind_alloc>> > { using Table = detailv3::sherwood_v3_table < std::pair, K, H, detailv3::KeyOrValueHasher, H>, E, detailv3::KeyOrValueEquality, E>, A, typename std::allocator_traits::template rebind_alloc>> >; public: using key_type = K; using mapped_type = V; using Table::Table; flat_hash_map() { } inline V & operator[](const K & key) { return emplace(key, convertible_to_value()).first->second; } inline V & operator[](K && key) { return emplace(std::move(key), convertible_to_value()).first->second; } V & at(const K & key) { auto found = this->find(key); if (found == this->end()) throw std::out_of_range("Argument passed to at() was not in the map."); return found->second; } const V & at(const K & key) const { auto found = this->find(key); if (found == this->end()) throw std::out_of_range("Argument passed to at() was not in the map."); return found->second; } using Table::emplace; std::pair emplace() { return emplace(key_type(), convertible_to_value()); } template std::pair insert_or_assign(const key_type & key, M && m) { auto emplace_result = emplace(key, std::forward(m)); if (!emplace_result.second) emplace_result.first->second = std::forward(m); return emplace_result; } template std::pair insert_or_assign(key_type && key, M && m) { auto emplace_result = emplace(std::move(key), std::forward(m)); if (!emplace_result.second) emplace_result.first->second = std::forward(m); return emplace_result; } template typename Table::iterator insert_or_assign(typename Table::const_iterator, const key_type & key, M && m) { return insert_or_assign(key, std::forward(m)).first; } template typename Table::iterator insert_or_assign(typename Table::const_iterator, key_type && key, M && m) { return insert_or_assign(std::move(key), std::forward(m)).first; } friend bool operator==(const flat_hash_map & lhs, const flat_hash_map & rhs) { if (lhs.size() != rhs.size()) return false; for (const typename Table::value_type & value : lhs) { auto found = rhs.find(value.first); if (found == rhs.end()) return false; else if (value.second != found->second) return false; } return true; } friend bool operator!=(const flat_hash_map & lhs, const flat_hash_map & rhs) { return !(lhs == rhs); } private: struct convertible_to_value { operator V() const { return V(); } }; }; template, typename E = std::equal_to, typename A = std::allocator > class flat_hash_set : public detailv3::sherwood_v3_table < T, T, H, detailv3::functor_storage, E, detailv3::functor_storage, A, typename std::allocator_traits::template rebind_alloc> > { using Table = detailv3::sherwood_v3_table < T, T, H, detailv3::functor_storage, E, detailv3::functor_storage, A, typename std::allocator_traits::template rebind_alloc> >; public: using key_type = T; using Table::Table; flat_hash_set() { } template std::pair emplace(Args &&... args) { return Table::emplace(T(std::forward(args)...)); } std::pair emplace(const key_type & arg) { return Table::emplace(arg); } std::pair emplace(key_type & arg) { return Table::emplace(arg); } std::pair emplace(const key_type && arg) { return Table::emplace(std::move(arg)); } std::pair emplace(key_type && arg) { return Table::emplace(std::move(arg)); } friend bool operator==(const flat_hash_set & lhs, const flat_hash_set & rhs) { if (lhs.size() != rhs.size()) return false; for (const T & value : lhs) { if (rhs.find(value) == rhs.end()) return false; } return true; } friend bool operator!=(const flat_hash_set & lhs, const flat_hash_set & rhs) { return !(lhs == rhs); } }; template struct power_of_two_std_hash : std::hash { typedef ska::power_of_two_hash_policy hash_policy; }; } // end namespace ska