std::pair<iterator, bool> insert( const value_type& value ); | (1) | |
template< class P > std::pair<iterator, bool> insert( P&& value ); | (2) | (since C++11) |
std::pair<iterator, bool> insert( value_type&& value ); | (3) | (since C++17) |
| (4) | ||
iterator insert( iterator pos, const value_type& value ); | (until C++11) | |
iterator insert( const_iterator pos, const value_type& value ); | (since C++11) | |
template< class P > iterator insert( const_iterator pos, P&& value ); | (5) | (since C++11) |
iterator insert( const_iterator pos, value_type&& value ); | (6) | (since C++17) |
template< class InputIt > void insert( InputIt first, InputIt last ); | (7) | |
void insert( std::initializer_list<value_type> ilist ); | (8) | (since C++11) |
insert_return_type insert( node_type&& nh ); | (9) | (since C++17) |
iterator insert( const_iterator pos, node_type&& nh ); | (10) | (since C++17) |
Inserts element(s) into the container, if the container doesn't already contain an element with an equivalent key.
value. The overload (2) is equivalent to emplace(std::forward<P>(value)) and only participates in overload resolution if std::is_constructible<value_type, P&&>::value == true.value in the position as close as possible to the position just prior to pos. The overload (5) is equivalent to emplace_hint(hint, std::forward<P>(value)) and only participates in overload resolution if std::is_constructible<value_type, P&&>::value == true.[first, last). If multiple elements in the range have keys that compare equivalent, it is unspecified which element is inserted (pending LWG2844).ilist. If multiple elements in the range have keys that compare equivalent, it is unspecified which element is inserted (pending LWG2844).nh is an empty node handle, does nothing. Otherwise, inserts the element owned by nh into the container , if the container doesn't already contain an element with a key equivalent to nh.key(). The behavior is undefined if nh is not empty and get_allocator() != nh.get_allocator().nh is an empty node handle, does nothing and returns the end iterator. Otherwise, inserts the element owned by nh into the container, if the container doesn't already contain an element with a key equivalent to nh.key(), and returns the iterator pointing to the element with key equivalent to nh.key()(regardless of whether the insert succeeded or failed). If the insertion succeeds, nh is moved from, otherwise it retains ownership of the element. The element is inserted as close as possible to the position just prior to pos. The behavior is undefined if nh is not empty and get_allocator() != nh.get_allocator().No iterators or references are invalidated. If the insertion is successful, pointers and references to the element obtained while it is held in the node handle are invalidated, and pointers and references obtained to that element before it was extracted become valid. (since C++17).
| pos | - | iterator to the position before which the new element will be inserted |
| value | - | element value to insert |
| first, last | - | range of elements to insert |
| ilist | - | initializer list to insert the values from |
| nh | - | a compatible node handle |
| Type requirements | ||
-InputIt must meet the requirements of LegacyInputIterator. |
||
bool
insert_return_type with the members initialized as follows: nh is empty, inserted is false, position is end(), and node is empty. inserted is true, position points to the inserted element, and node is empty. inserted is false, node has the previous value of nh, and position points to an element with a key equivalent to nh.key().nh was empty, iterator pointing to the inserted element if insertion took place, and iterator pointing to an element with a key equivalent to nh.key() if it failed.O(log(size())).pos, logarithmic in the size of the container otherwise.O(N·log(size() + N)), where N is the number of elements to insert.O(log(size())).pos, logarithmic in the size of the container otherwise.The hinted insert (4-6) does not return a boolean in order to be signature-compatible with positional insert on sequential containers, such as std::vector::insert. This makes it possible to create generic inserters such as std::inserter. One way to check success of a hinted insert is to compare size() before and after.
#include <iomanip>
#include <iostream>
#include <map>
#include <string>
using namespace std::literals;
template<typename It>
void print_insertion_status(It it, bool success)
{
std::cout << "Insertion of " << it->first
<< (success ? " succeeded\n" : " failed\n");
}
int main()
{
std::map<std::string, float> heights;
// Overload 3: insert from rvalue reference
const auto [it_hinata, success] = heights.insert({"Hinata"s, 162.8});
print_insertion_status(it_hinata, success);
{
// Overload 1: insert from lvalue reference
const auto [it, success2] = heights.insert(*it_hinata);
print_insertion_status(it, success2);
}
{
// Overload 2: insert via forwarding to emplace
const auto [it, success] = heights.insert(std::pair{"Kageyama", 180.6});
print_insertion_status(it, success);
}
{
// Overload 6: insert from rvalue reference with positional hint
const std::size_t n = std::size(heights);
const auto it = heights.insert(it_hinata, {"Azumane"s, 184.7});
print_insertion_status(it, std::size(heights) != n);
}
{
// Overload 4: insert from lvalue reference with positional hint
const std::size_t n = std::size(heights);
const auto it = heights.insert(it_hinata, *it_hinata);
print_insertion_status(it, std::size(heights) != n);
}
{
// Overload 5: insert via forwarding to emplace with positional hint
const std::size_t n = std::size(heights);
const auto it = heights.insert(it_hinata, std::pair{"Tsukishima", 188.3});
print_insertion_status(it, std::size(heights) != n);
}
auto node_hinata = heights.extract(it_hinata);
std::map<std::string, float> heights2;
// Overload 7: insert from iterator range
heights2.insert(std::begin(heights), std::end(heights));
// Overload 8: insert from initializer_list
heights2.insert({{"Kozume"s, 169.2}, {"Kuroo", 187.7}});
// Overload 9: insert node
const auto status = heights2.insert(std::move(node_hinata));
print_insertion_status(status.position, status.inserted);
node_hinata = heights2.extract(status.position);
{
// Overload 10: insert node with positional hint
const std::size_t n = std::size(heights2);
const auto it = heights2.insert(std::begin(heights2), std::move(node_hinata));
print_insertion_status(it, std::size(heights2) != n);
}
// Print resulting map
std::cout << std::left << '\n';
for (const auto& [name, height] : heights2)
std::cout << std::setw(10) << name << " | " << height << "cm\n";
}Output:
Insertion of Hinata succeeded Insertion of Hinata failed Insertion of Kageyama succeeded Insertion of Azumane succeeded Insertion of Hinata failed Insertion of Tsukishima succeeded Insertion of Hinata succeeded Insertion of Hinata succeeded Azumane | 184.7cm Hinata | 162.8cm Kageyama | 180.6cm Kozume | 169.2cm Kuroo | 187.7cm Tsukishima | 188.3cm
The following behavior-changing defect reports were applied retroactively to previously published C++ standards.
| DR | Applied to | Behavior as published | Correct behavior |
|---|---|---|---|
| LWG 233 | C++98 | pos was just a hint, it could be totally ignored | the insertion is required to be as close as possible to the position just prior to pos |
| LWG 264 | C++98 | the complexity of overload (7) was required to be linear if the range [first, last) is sorted according to Compare | removed the linear requirement in this special case |
| LWG 316 | C++98 | in the return value of overload (1), it was not specified which bool value indicates a successful insertion | success is indicated by true |
|
(C++11) | constructs element in-place (public member function) |
|
(C++11) | constructs elements in-place using a hint (public member function) |
|
(C++17) | inserts an element or assigns to the current element if the key already exists (public member function) |
creates a std::insert_iterator of type inferred from the argument (function template) |
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