Concurrently safe modifiers#

All member functions in this section can be performed concurrently with each other, lookup methods and while traversing the container.

Emplacing elements#

template <typename... Args>
std::pair<iterator, bool> emplace( Args&&... args );

Inserts an element constructed in-place from args into the container.

Returns: std::pair<iterator, bool>, where iterator points to the inserted element. Boolean value is always true.

Requirements: the type value_type must meet the EmplaceConstructible requirements from [container.requirements] ISO C++ section.


template <typename... Args>
iterator emplace_hint( const_iterator hint, Args&&... args );

Inserts an element constructed in-place from args into the container.

Optionally uses the parameter hint as a suggestion to where the node should be placed.

Returns: an iterator to the inserted element.

Requirements: the type value_type must meet the EmplaceConstructible requirements from the [container.requirements] ISO C++ section.

Inserting values#

std::pair<iterator, bool> insert( const value_type& value );

Inserts the value value into the container.

Returns: std::pair<iterator, bool>, where iterator points to the inserted element. Boolean value is always true.

Requirements: the type value_type must meet the CopyInsertable requirements from the [container.requirements] ISO C++ Standard section.


iterator insert( const_iterator hint, const value_type& other );

Inserts the value value into the container.

Optionally uses the parameter hint as a suggestion to where the element should be placed.

Returns: an iterator to the inserted element.

Requirements: the type value_type must meet the CopyInsertable requirements from the [container.requirements] ISO C++ Standard section.


template <typename P>
std::pair<iterator, bool> insert( P&& value );

Equivalent to emplace(std::forward<P>(value)).

This overload only participates in overload resolution if std::is_constructible<value_type, P&&>::value is true.


template <typename P>
iterator insert( const_iterator hint, P&& value );

Equivalent to emplace_hint(hint, std::forward<P>(value)).

This overload only participates in overload resolution if std::is_constructible<value_type, P&&>::value is true.


std::pair<iterator, bool> insert( value_type&& value );

Inserts the value value into the container using move semantics.

value is left in a valid, but unspecified state.

Returns: std::pair<iterator, bool>, where iterator points to the inserted element. Boolean value is always true.

Requirements: the type value_type must meet the MoveInsertable requirements from the [container.requirements] ISO C++ Standard section.


iterator insert( const_iterator hint, value_type&& other );

Inserts the value value into the container using move semantics.

Optionally uses the parameter hint as a suggestion to where the element should be placed.

value is left in a valid, but unspecified state.

Returns: an iterator to the inserted element.

Requirements: the type value_type must meet the MoveInsertable requirements from the [container.requirements] ISO C++ Standard section.

Inserting sequences of elements#

template <typename InputIterator>
void insert( InputIterator first, InputIterator last );

Inserts all items from the half-open interval [first, last) into the container.

Requirements: the type InputIterator must meet the requirements of InputIterator from [input.iterators] the ISO C++ Standard section.


void insert( std::initializer_list<value_type> init );

Equivalent to insert(init.begin(), init.end()).

Inserting nodes#

std::pair<iterator, bool> insert( node_type&& nh );

If the node handle nh is empty, does nothing.

Otherwise, inserts the node owned by nh into the container.

nh is left in an empty state.

No copy or move constructors of value_type are performed.

The behavior is undefined if nh is not empty and get_allocator() != nh.get_allocator().

Returns: std::pair<iterator, bool>, where iterator points to the inserted element. Boolean value is always true.


iterator insert( const_iterator hint, node_type&& nh );

If the node handle nh is empty, does nothing.

Otherwise, inserts the node owned by nh into the container.

Optionally uses the parameter hint as a suggestion to where the node should be placed.

nh is left in an empty state.

No copy or move constructors of value_type are performed.

The behavior is undefined if nh is not empty and get_allocator() != nh.get_allocator().

Returns: an iterator pointing to the inserted element.

Merging containers#

template <typename SrcCompare>
void merge( concurrent_map<Key, T, SrcCompare, Allocator>& source );

template <typename SrcCompare>
void merge( concurrent_map<Key, T, SrcCompare, Allocator>&& source );

template <typename SrcCompare>
void merge( concurrent_multimap<Key, T, SrcCompare, Allocator>& source );

template <typename SrcCompare>
void merge( concurrent_multimap<Key, T, SrcCompare, Allocator>&& source );

Transfers all elements from source to *this.

No copy or move constructors of value_type are performed.

The behavior is undefined if get_allocator() != source.get_allocator().