This header is part of thecontainers library.
Includes | ||
(C++20) | Three-way comparison operator support[edit] | |
(C++11) | std::initializer_list class template[edit] | |
Classes | ||
(C++23) | adapts two containers to provide a collection of key-value pairs, sorted by unique keys (class template)[edit] | |
(C++23) | adapts two containers to provide a collection of key-value pairs, sorted by keys (class template)[edit] | |
| specializes thestd::uses_allocator type trait (class template specialization)[edit] | ||
| specializes thestd::uses_allocator type trait (class template specialization)[edit] | ||
Functions | ||
(C++23) | erases all elements satisfying specific criteria (function template)[edit] | |
(C++23) | erases all elements satisfying specific criteria (function template)[edit] | |
Tags | ||
(C++23) | indicates that elements of a range are sorted and unique (tag)[edit] | |
| indicates that elements of a range are sorted (uniqueness is not required) (tag)[edit] | ||
#include <compare>#include <initializer_list> namespace std{// class template flat_maptemplate<class Key,class T,class Compare= less<Key>,class KeyContainer= vector<Key>,class MappedContainer= vector<T>>class flat_map; struct sorted_unique_t{explicit sorted_unique_t()=default;};inlineconstexpr sorted_unique_t sorted_unique{}; template<class Key,class T,class Compare,class KeyContainer,class MappedContainer,class Allocator>struct uses_allocator<flat_map<Key, T, Compare, KeyContainer, MappedContainer>, Allocator>; // erasure for flat_maptemplate<class Key,class T,class Compare,class KeyContainer,class MappedContainer,class Predicate>typename flat_map<Key, T, Compare, KeyContainer, MappedContainer>::size_type erase_if( flat_map<Key, T, Compare, KeyContainer, MappedContainer>& c, Predicate pred); // class template flat_multimaptemplate<class Key,class T,class Compare= less<Key>,class KeyContainer= vector<Key>,class MappedContainer= vector<T>>class flat_multimap; struct sorted_equivalent_t{explicit sorted_equivalent_t()=default;};inlineconstexpr sorted_equivalent_t sorted_equivalent{}; template<class Key,class T,class Compare,class KeyContainer,class MappedContainer,class Allocator>struct uses_allocator<flat_multimap<Key, T, Compare, KeyContainer, MappedContainer>, Allocator>; // erasure for flat_multimaptemplate<class Key,class T,class Compare,class KeyContainer,class MappedContainer,class Predicate>typename flat_multimap<Key, T, Compare, KeyContainer, MappedContainer>::size_type erase_if(flat_multimap<Key, T, Compare, KeyContainer, MappedContainer>& c, Predicate pred);}
namespace std{template<class Key,class T,class Compare= less<Key>,class KeyContainer= vector<Key>,class MappedContainer= vector<T>>class flat_map{public:// typesusing key_type= Key;using mapped_type= T;using value_type= pair<key_type, mapped_type>;using key_compare= Compare;using reference= pair<const key_type&, mapped_type&>;using const_reference= pair<const key_type&,const mapped_type&>;using size_type= size_t;using difference_type= ptrdiff_t;using iterator=/* implementation-defined */;using const_iterator=/* implementation-defined */;using reverse_iterator=std::reverse_iterator<iterator>;using const_reverse_iterator=std::reverse_iterator<const_iterator>;using key_container_type= KeyContainer;using mapped_container_type= MappedContainer; class value_compare{private: key_compare comp;// exposition only value_compare(key_compare c): comp(c){}// exposition only public:bool operator()(const_reference x, const_reference y)const{return comp(x.first, y.first);}}; struct containers{ key_container_type keys; mapped_container_type values;}; // constructors flat_map(): flat_map(key_compare()){} explicit flat_map(const key_compare& comp): c() , compare(comp){} flat_map(key_container_type key_cont, mapped_container_type mapped_cont,const key_compare& comp= key_compare()); flat_map(sorted_unique_t, key_container_type key_cont, mapped_container_type mapped_cont,const key_compare& comp= key_compare()); template<class InputIter> flat_map(InputIter first, InputIter last,const key_compare& comp= key_compare()): c() , compare(comp){ insert(first, last);} template<class InputIter> flat_map(sorted_unique_t s, InputIter first, InputIter last,const key_compare& comp= key_compare()): c() , compare(comp){ insert(s, first, last);} template<container-compatible-range<value_type> R> flat_map(from_range_t fr, R&& rg): flat_map(fr,std::forward<R>(rg), key_compare()){}template<container-compatible-range<value_type> R> flat_map(from_range_t, R&& rg,const key_compare& comp): flat_map(comp){ insert_range(std::forward<R>(rg));} flat_map(initializer_list<value_type> il,const key_compare& comp= key_compare()): flat_map(il.begin(), il.end(), comp){} flat_map(sorted_unique_t s, initializer_list<value_type> il,const key_compare& comp= key_compare()): flat_map(s, il.begin(), il.end(), comp){} // constructors with allocators template<class Alloc>explicit flat_map(const Alloc& a);template<class Alloc> flat_map(const key_compare& comp,const Alloc& a);template<class Alloc> flat_map(const key_container_type& key_cont,const mapped_container_type& mapped_cont,const Alloc& a);template<class Alloc> flat_map(const key_container_type& key_cont,const mapped_container_type& mapped_cont,const key_compare& comp,const Alloc& a);template<class Alloc> flat_map(sorted_unique_t,const key_container_type& key_cont,const mapped_container_type& mapped_cont,const Alloc& a);template<class Alloc> flat_map(sorted_unique_t,const key_container_type& key_cont,const mapped_container_type& mapped_cont,const key_compare& comp,const Alloc& a);template<class Alloc> flat_map(const flat_map&,const Alloc& a);template<class Alloc> flat_map(flat_map&&,const Alloc& a);template<class InputIter,class Alloc> flat_map(InputIter first, InputIter last,const Alloc& a);template<class InputIter,class Alloc> flat_map(InputIter first, InputIter last,const key_compare& comp,const Alloc& a);template<class InputIter,class Alloc> flat_map(sorted_unique_t, InputIter first, InputIter last,const Alloc& a);template<class InputIter,class Alloc> flat_map(sorted_unique_t, InputIter first, InputIter last,const key_compare& comp,const Alloc& a);template<container-compatible-range<value_type> R,class Alloc> flat_map(from_range_t, R&& rg,const Alloc& a);template<container-compatible-range<value_type> R,class Alloc> flat_map(from_range_t, R&& rg,const key_compare& comp,const Alloc& a);template<class Alloc> flat_map(initializer_list<value_type> il,const Alloc& a);template<class Alloc> flat_map(initializer_list<value_type> il,const key_compare& comp,const Alloc& a);template<class Alloc> flat_map(sorted_unique_t, initializer_list<value_type> il,const Alloc& a);template<class Alloc> flat_map(sorted_unique_t, initializer_list<value_type> il,const key_compare& comp,const Alloc& a); flat_map& operator=(initializer_list<value_type>); // iterators iterator begin()noexcept; const_iterator begin()constnoexcept; iterator end()noexcept; const_iterator end()constnoexcept; reverse_iterator rbegin()noexcept; const_reverse_iterator rbegin()constnoexcept; reverse_iterator rend()noexcept; const_reverse_iterator rend()constnoexcept; const_iterator cbegin()constnoexcept; const_iterator cend()constnoexcept; const_reverse_iterator crbegin()constnoexcept; const_reverse_iterator crend()constnoexcept; // capacitybool empty()constnoexcept; size_type size()constnoexcept; size_type max_size()constnoexcept; // element access mapped_type& operator[](const key_type& x); mapped_type& operator[](key_type&& x);template<class K> mapped_type& operator[](K&& x); mapped_type& at(const key_type& x);const mapped_type& at(const key_type& x)const;template<class K> mapped_type& at(const K& x);template<class K>const mapped_type& at(const K& x)const; // modifierstemplate<class...Args> pair<iterator,bool> emplace(Args&&...args);template<class...Args> iterator emplace_hint(const_iterator position, Args&&...args); pair<iterator,bool> insert(const value_type& x){return emplace(x);} pair<iterator,bool> insert(value_type&& x){return emplace(std::move(x));} iterator insert(const_iterator position,const value_type& x){return emplace_hint(position, x);} iterator insert(const_iterator position, value_type&& x){return emplace_hint(position, std::move(x));} template<class P> pair<iterator,bool> insert(P&& x);template<class P> iterator insert(const_iterator position, P&&);template<class InputIter>void insert(InputIter first, InputIter last);template<class InputIter>void insert(sorted_unique_t, InputIter first, InputIter last);template<container-compatible-range<value_type> R>void insert_range(R&& rg); void insert(initializer_list<value_type> il){ insert(il.begin(), il.end());}void insert(sorted_unique_t s, initializer_list<value_type> il){ insert(s, il.begin(), il.end());} containers extract()&&;void replace(key_container_type&& key_cont, mapped_container_type&& mapped_cont); template<class...Args> pair<iterator,bool> try_emplace(const key_type& k, Args&&...args);template<class...Args> pair<iterator,bool> try_emplace(key_type&& k, Args&&...args);template<class K,class...Args> pair<iterator,bool> try_emplace(K&& k, Args&&...args);template<class...Args> iterator try_emplace(const_iterator hint,const key_type& k, Args&&...args);template<class...Args> iterator try_emplace(const_iterator hint, key_type&& k, Args&&...args);template<class K,class...Args> iterator try_emplace(const_iterator hint, K&& k, Args&&...args);template<class M> pair<iterator,bool> insert_or_assign(const key_type& k, M&& obj);template<class M> pair<iterator,bool> insert_or_assign(key_type&& k, M&& obj);template<class K,class M> pair<iterator,bool> insert_or_assign(K&& k, M&& obj);template<class M> iterator insert_or_assign(const_iterator hint,const key_type& k, M&& obj);template<class M> iterator insert_or_assign(const_iterator hint, key_type&& k, M&& obj);template<class K,class M> iterator insert_or_assign(const_iterator hint, K&& k, M&& obj); iterator erase(iterator position); iterator erase(const_iterator position); size_type erase(const key_type& x);template<class K> size_type erase(K&& x); iterator erase(const_iterator first, const_iterator last); void swap(flat_map& y)noexcept;void clear()noexcept; // observers key_compare key_comp()const; value_compare value_comp()const; const key_container_type& keys()constnoexcept{return c.keys;}const mapped_container_type& values()constnoexcept{return c.values;} // map operations iterator find(const key_type& x); const_iterator find(const key_type& x)const;template<class K> iterator find(const K& x);template<class K> const_iterator find(const K& x)const; size_type count(const key_type& x)const;template<class K> size_type count(const K& x)const; bool contains(const key_type& x)const;template<class K>bool contains(const K& x)const; iterator lower_bound(const key_type& x); const_iterator lower_bound(const key_type& x)const;template<class K> iterator lower_bound(const K& x);template<class K> const_iterator lower_bound(const K& x)const; iterator upper_bound(const key_type& x); const_iterator upper_bound(const key_type& x)const;template<class K> iterator upper_bound(const K& x);template<class K> const_iterator upper_bound(const K& x)const; pair<iterator, iterator> equal_range(const key_type& x); pair<const_iterator, const_iterator> equal_range(const key_type& x)const;template<class K> pair<iterator, iterator> equal_range(const K& x);template<class K> pair<const_iterator, const_iterator> equal_range(const K& x)const; friendbool operator==(const flat_map& x,const flat_map& y); friend/*synth-three-way-result*/<value_type> operator<=>(const flat_map& x,const flat_map& y); friendvoid swap(flat_map& x, flat_map& y)noexcept{ x.swap(y);} private: containers c;// exposition only key_compare compare;// exposition only struct key_equiv{// exposition only key_equiv(key_compare c): comp(c){}bool operator()(const_reference x, const_reference y)const{return!comp(x.first, y.first)&&!comp(y.first, x.first);} key_compare comp;};}; template<class KeyContainer,class MappedContainer,class Compare= less<typename KeyContainer::value_type>> flat_map(KeyContainer, MappedContainer, Compare= Compare())-> flat_map<typename KeyContainer::value_type,typename MappedContainer::value_type, Compare, KeyContainer, MappedContainer>; template<class KeyContainer,class MappedContainer,class Allocator> flat_map(KeyContainer, MappedContainer, Allocator)-> flat_map<typename KeyContainer::value_type,typename MappedContainer::value_type, less<typename KeyContainer::value_type>, KeyContainer, MappedContainer>;template<class KeyContainer,class MappedContainer,class Compare,class Allocator> flat_map(KeyContainer, MappedContainer, Compare, Allocator)-> flat_map<typename KeyContainer::value_type,typename MappedContainer::value_type, Compare, KeyContainer, MappedContainer>; template<class KeyContainer,class MappedContainer,class Compare= less<typename KeyContainer::value_type>> flat_map(sorted_unique_t, KeyContainer, MappedContainer, Compare= Compare())-> flat_map<typename KeyContainer::value_type,typename MappedContainer::value_type, Compare, KeyContainer, MappedContainer>; template<class KeyContainer,class MappedContainer,class Allocator> flat_map(sorted_unique_t, KeyContainer, MappedContainer, Allocator)-> flat_map<typename KeyContainer::value_type,typename MappedContainer::value_type, less<typename KeyContainer::value_type>, KeyContainer, MappedContainer>;template<class KeyContainer,class MappedContainer,class Compare,class Allocator> flat_map(sorted_unique_t, KeyContainer, MappedContainer, Compare, Allocator)-> flat_map<typename KeyContainer::value_type,typename MappedContainer::value_type, Compare, KeyContainer, MappedContainer>; template<class InputIter,class Compare= less</*iter-key-type*/<InputIter>>> flat_map(InputIter, InputIter, Compare= Compare())-> flat_map</*iter-key-type*/<InputIter>,/*iter-mapped-type*/<InputIter>, Compare>; template<class InputIter,class Compare= less</*iter-key-type*/<InputIter>>> flat_map(sorted_unique_t, InputIter, InputIter, Compare= Compare())-> flat_map</*iter-key-type*/<InputIter>,/*iter-mapped-type*/<InputIter>, Compare>; template<ranges::input_range R,class Compare= less</*range-key-type*/<R>>,class Allocator= allocator<byte>> flat_map(from_range_t, R&&, Compare= Compare(), Allocator= Allocator())-> flat_map</*range-key-type*/<R>,/*range-mapped-type*/<R>, Compare, vector</*range-key-type*/<R>,/*alloc-rebind*/<Allocator,/*range-key-type*/<R>>>, vector</*range-mapped-type*/<R>,/*alloc-rebind*/<Allocator,/*range-mapped-type*/<R>>>>; template<ranges::input_range R,class Allocator> flat_map(from_range_t, R&&, Allocator)-> flat_map</*range-key-type*/<R>,/*range-mapped-type*/<R>, less</*range-key-type*/<R>>, vector</*range-key-type*/<R>,/*alloc-rebind*/<Allocator,/*range-key-type*/<R>>>, vector</*range-mapped-type*/<R>,/*alloc-rebind*/<Allocator,/*range-mapped-type*/<R>>>>; template<class Key,class T,class Compare= less<Key>> flat_map(initializer_list<pair<Key, T>>, Compare= Compare())-> flat_map<Key, T, Compare>; template<class Key,class T,class Compare= less<Key>> flat_map(sorted_unique_t, initializer_list<pair<Key, T>>, Compare= Compare())-> flat_map<Key, T, Compare>; template<class Key,class T,class Compare,class KeyContainer,class MappedContainer,class Allocator>struct uses_allocator<flat_map<Key, T, Compare, KeyContainer, MappedContainer>, Allocator>: bool_constant<uses_allocator_v<KeyContainer, Allocator>&& uses_allocator_v<MappedContainer, Allocator>>{};}
namespace std{template<class Key,class T,class Compare= less<Key>,class KeyContainer= vector<Key>,class MappedContainer= vector<T>>class flat_multimap{public:// typesusing key_type= Key;using mapped_type= T;using value_type= pair<key_type, mapped_type>;using key_compare= Compare;using reference= pair<const key_type&, mapped_type&>;using const_reference= pair<const key_type&,const mapped_type&>;using size_type= size_t;using difference_type= ptrdiff_t;using iterator=/* implementation-defined */;using const_iterator=/* implementation-defined */;using reverse_iterator=std::reverse_iterator<iterator>;using const_reverse_iterator=std::reverse_iterator<const_iterator>;using key_container_type= KeyContainer;using mapped_container_type= MappedContainer; class value_compare{private: key_compare comp;// exposition only value_compare(key_compare c): comp(c){}// exposition only public:bool operator()(const_reference x, const_reference y)const{return comp(x.first, y.first);}}; struct containers{ key_container_type keys; mapped_container_type values;}; // constructors flat_multimap(): flat_multimap(key_compare()){} explicit flat_multimap(const key_compare& comp): c() , compare(comp){} flat_multimap(key_container_type key_cont, mapped_container_type mapped_cont,const key_compare& comp= key_compare()); flat_multimap(sorted_equivalent_t, key_container_type key_cont, mapped_container_type mapped_cont,const key_compare& comp= key_compare()); template<class InputIter> flat_multimap(InputIter first, InputIter last,const key_compare& comp= key_compare()): c() , compare(comp){ insert(first, last);} template<class InputIter> flat_multimap(sorted_equivalent_t s, InputIter first, InputIter last,const key_compare& comp= key_compare()): c() , compare(comp){ insert(s, first, last);} template<container-compatible-range<value_type> R> flat_multimap(from_range_t fr, R&& rg): flat_multimap(fr,std::forward<R>(rg), key_compare()){}template<container-compatible-range<value_type> R> flat_multimap(from_range_t, R&& rg,const key_compare& comp): flat_multimap(comp){ insert_range(std::forward<R>(rg));} flat_multimap(initializer_list<value_type> il,const key_compare& comp= key_compare()): flat_multimap(il.begin(), il.end(), comp){} flat_multimap(sorted_equivalent_t s, initializer_list<value_type> il,const key_compare& comp= key_compare()): flat_multimap(s, il.begin(), il.end(), comp){} // constructors with allocators template<class Alloc>explicit flat_multimap(const Alloc& a);template<class Alloc> flat_multimap(const key_compare& comp,const Alloc& a);template<class Alloc> flat_multimap(const key_container_type& key_cont,const mapped_container_type& mapped_cont,const Alloc& a);template<class Alloc> flat_multimap(const key_container_type& key_cont,const mapped_container_type& mapped_cont,const key_compare& comp,const Alloc& a);template<class Alloc> flat_multimap(sorted_equivalent_t,const key_container_type& key_cont,const mapped_container_type& mapped_cont,const Alloc& a);template<class Alloc> flat_multimap(sorted_equivalent_t,const key_container_type& key_cont,const mapped_container_type& mapped_cont,const key_compare& comp,const Alloc& a);template<class Alloc> flat_multimap(const flat_multimap&,const Alloc& a);template<class Alloc> flat_multimap(flat_multimap&&,const Alloc& a);template<class InputIter,class Alloc> flat_multimap(InputIter first, InputIter last,const Alloc& a);template<class InputIter,class Alloc> flat_multimap(InputIter first, InputIter last,const key_compare& comp,const Alloc& a);template<class InputIter,class Alloc> flat_multimap(sorted_equivalent_t, InputIter first, InputIter last,const Alloc& a);template<class InputIter,class Alloc> flat_multimap(sorted_equivalent_t, InputIter first, InputIter last,const key_compare& comp,const Alloc& a);template<container-compatible-range<value_type> R,class Alloc> flat_multimap(from_range_t, R&& rg,const Alloc& a);template<container-compatible-range<value_type> R,class Alloc> flat_multimap(from_range_t, R&& rg,const key_compare& comp,const Alloc& a);template<class Alloc> flat_multimap(initializer_list<value_type> il,const Alloc& a);template<class Alloc> flat_multimap(initializer_list<value_type> il,const key_compare& comp,const Alloc& a);template<class Alloc> flat_multimap(sorted_equivalent_t, initializer_list<value_type> il,const Alloc& a);template<class Alloc> flat_multimap(sorted_equivalent_t, initializer_list<value_type> il,const key_compare& comp,const Alloc& a); flat_multimap& operator=(initializer_list<value_type>); // iterators iterator begin()noexcept; const_iterator begin()constnoexcept; iterator end()noexcept; const_iterator end()constnoexcept; reverse_iterator rbegin()noexcept; const_reverse_iterator rbegin()constnoexcept; reverse_iterator rend()noexcept; const_reverse_iterator rend()constnoexcept; const_iterator cbegin()constnoexcept; const_iterator cend()constnoexcept; const_reverse_iterator crbegin()constnoexcept; const_reverse_iterator crend()constnoexcept; // capacitybool empty()constnoexcept; size_type size()constnoexcept; size_type max_size()constnoexcept; // modifierstemplate<class...Args> iterator emplace(Args&&...args);template<class...Args> iterator emplace_hint(const_iterator position, Args&&...args); iterator insert(const value_type& x){return emplace(x);} iterator insert(value_type&& x){return emplace(std::move(x));} iterator insert(const_iterator position,const value_type& x){return emplace_hint(position, x);} iterator insert(const_iterator position, value_type&& x){return emplace_hint(position, std::move(x));} template<class P> iterator insert(P&& x);template<class P> iterator insert(const_iterator position, P&&);template<class InputIter>void insert(InputIter first, InputIter last);template<class InputIter>void insert(sorted_equivalent_t, InputIter first, InputIter last);template<container-compatible-range<value_type> R>void insert_range(R&& rg); void insert(initializer_list<value_type> il){ insert(il.begin(), il.end());}void insert(sorted_equivalent_t s, initializer_list<value_type> il){ insert(s, il.begin(), il.end());} containers extract()&&;void replace(key_container_type&& key_cont, mapped_container_type&& mapped_cont); iterator erase(iterator position); iterator erase(const_iterator position); size_type erase(const key_type& x);template<class K> size_type erase(K&& x); iterator erase(const_iterator first, const_iterator last); void swap(flat_multimap&)noexcept;void clear()noexcept; // observers key_compare key_comp()const; value_compare value_comp()const; const key_container_type& keys()constnoexcept{return c.keys;}const mapped_container_type& values()constnoexcept{return c.values;} // map operations iterator find(const key_type& x); const_iterator find(const key_type& x)const;template<class K> iterator find(const K& x);template<class K> const_iterator find(const K& x)const; size_type count(const key_type& x)const;template<class K> size_type count(const K& x)const; bool contains(const key_type& x)const;template<class K>bool contains(const K& x)const; iterator lower_bound(const key_type& x); const_iterator lower_bound(const key_type& x)const;template<class K> iterator lower_bound(const K& x);template<class K> const_iterator lower_bound(const K& x)const; iterator upper_bound(const key_type& x); const_iterator upper_bound(const key_type& x)const;template<class K> iterator upper_bound(const K& x);template<class K> const_iterator upper_bound(const K& x)const; pair<iterator, iterator> equal_range(const key_type& x); pair<const_iterator, const_iterator> equal_range(const key_type& x)const;template<class K> pair<iterator, iterator> equal_range(const K& x);template<class K> pair<const_iterator, const_iterator> equal_range(const K& x)const; friendbool operator==(const flat_multimap& x,const flat_multimap& y); friend/*synth-three-way-result*/<value_type> operator<=>(const flat_multimap& x,const flat_multimap& y); friendvoid swap(flat_multimap& x, flat_multimap& y)noexcept{ x.swap(y);} private: containers c;// exposition only key_compare compare;// exposition only}; template<class KeyContainer,class MappedContainer,class Compare= less<typename KeyContainer::value_type>> flat_multimap(KeyContainer, MappedContainer, Compare= Compare())-> flat_multimap<typename KeyContainer::value_type,typename MappedContainer::value_type, Compare, KeyContainer, MappedContainer>; template<class KeyContainer,class MappedContainer,class Allocator> flat_multimap(KeyContainer, MappedContainer, Allocator)-> flat_multimap<typename KeyContainer::value_type,typename MappedContainer::value_type, less<typename KeyContainer::value_type>, KeyContainer, MappedContainer>;template<class KeyContainer,class MappedContainer,class Compare,class Allocator> flat_multimap(KeyContainer, MappedContainer, Compare, Allocator)-> flat_multimap<typename KeyContainer::value_type,typename MappedContainer::value_type, Compare, KeyContainer, MappedContainer>; template<class KeyContainer,class MappedContainer,class Compare= less<typename KeyContainer::value_type>> flat_multimap(sorted_equivalent_t, KeyContainer, MappedContainer, Compare= Compare())-> flat_multimap<typename KeyContainer::value_type,typename MappedContainer::value_type, Compare, KeyContainer, MappedContainer>; template<class KeyContainer,class MappedContainer,class Allocator> flat_multimap(sorted_equivalent_t, KeyContainer, MappedContainer, Allocator)-> flat_multimap<typename KeyContainer::value_type,typename MappedContainer::value_type, less<typename KeyContainer::value_type>, KeyContainer, MappedContainer>;template<class KeyContainer,class MappedContainer,class Compare,class Allocator> flat_multimap(sorted_equivalent_t, KeyContainer, MappedContainer, Compare, Allocator)-> flat_multimap<typename KeyContainer::value_type,typename MappedContainer::value_type, Compare, KeyContainer, MappedContainer>; template<class InputIter,class Compare= less</*iter-key-type*/<InputIter>>> flat_multimap(InputIter, InputIter, Compare= Compare())-> flat_multimap</*iter-key-type*/<InputIter>,/*iter-mapped-type*/<InputIter>, Compare>; template<class InputIter,class Compare= less</*iter-key-type*/<InputIter>>> flat_multimap(sorted_equivalent_t, InputIter, InputIter, Compare= Compare())-> flat_multimap</*iter-key-type*/<InputIter>,/*iter-mapped-type*/<InputIter>, Compare>; template<ranges::input_range R,class Compare= less</*range-key-type*/<R>>,class Allocator= allocator<byte>> flat_multimap(from_range_t, R&&, Compare= Compare(), Allocator= Allocator())-> flat_multimap</*range-key-type*/<R>,/*range-mapped-type*/<R>, Compare, vector</*range-key-type*/<R>,/*alloc-rebind*/<Allocator,/*range-key-type*/<R>>>, vector</*range-mapped-type*/<R>,/*alloc-rebind*/<Allocator,/*range-mapped-type*/<R>>>>; template<ranges::input_range R,class Allocator> flat_multimap(from_range_t, R&&, Allocator)-> flat_multimap</*range-key-type*/<R>,/*range-mapped-type*/<R>, less</*range-key-type*/<R>>, vector</*range-key-type*/<R>,/*alloc-rebind*/<Allocator,/*range-key-type*/<R>>>, vector</*range-mapped-type*/<R>,/*alloc-rebind*/<Allocator,/*range-mapped-type*/<R>>>>; template<class Key,class T,class Compare= less<Key>> flat_multimap(initializer_list<pair<Key, T>>, Compare= Compare())-> flat_multimap<Key, T, Compare>; template<class Key,class T,class Compare= less<Key>> flat_multimap(sorted_equivalent_t, initializer_list<pair<Key, T>>, Compare= Compare())-> flat_multimap<Key, T, Compare>; template<class Key,class T,class Compare,class KeyContainer,class MappedContainer,class Allocator>struct uses_allocator<flat_multimap<Key, T, Compare, KeyContainer, MappedContainer>, Allocator>: bool_constant<uses_allocator_v<KeyContainer, Allocator>&& uses_allocator_v<MappedContainer, Allocator>>{};}
<flat_map> synopsis [flat.map.syn] 
