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std::deque<T,Allocator>::insert

From cppreference.com
< cpp‎ | container‎ | deque
 
 
 
 
(1)
iterator insert( const_iterator pos, const T& value );
iterator insert( const_iterator pos, T&& value );
(2) (since C++11)
(3)
iterator insert( const_iterator pos, size_type count, const T& value );
(4)
template< class InputIt >
iterator insert( const_iterator pos, InputIt first, InputIt last );
iterator insert( const_iterator pos, std::initializer_list<T> ilist );
(5) (since C++11)

Inserts elements at the specified location in the container.

1,2) Inserts value before pos.
3) Inserts count copies of the value before pos.
4) Inserts elements from range [firstlast) before pos.

This overload has the same effect as overload (3) if InputIt is an integral type.

(until C++11)

This overload participates in overload resolution only if InputIt qualifies as LegacyInputIterator, to avoid ambiguity with the overload (3).

(since C++11)
The behavior is undefined if first and last are iterators into *this.
5) Inserts elements from initializer list ilist before pos.

All iterators (including the end() iterator) are invalidated. References are invalidated too, unless pos == begin() or pos == end(), in which case they are not invalidated.

Contents

[edit] Parameters

pos - iterator before which the content will be inserted (pos may be the end() iterator)
value - element value to insert
count - number of elements to insert
first, last - the range of elements to insert, cannot be iterators into container for which insert is called
ilist - initializer list to insert the values from
Type requirements
-
T must meet the requirements of CopyAssignable and CopyInsertable in order to use overload (1).
-
T must meet the requirements of MoveAssignable and MoveInsertable in order to use overload (2).
-
T must meet the requirements of CopyAssignable and CopyInsertable in order to use overload (3).
-
T must meet the requirements of EmplaceConstructible in order to use overload (4,5).
-
T must meet the requirements of Swappable, MoveAssignable, MoveConstructible and MoveInsertable in order to use overload (4,5). (since C++17)

[edit] Return value

1,2) Iterator pointing to the inserted value.
3) Iterator pointing to the first element inserted, or pos if count == 0.
4) Iterator pointing to the first element inserted, or pos if first == last.
5) Iterator pointing to the first element inserted, or pos if ilist is empty.

[edit] Complexity

1,2) Constant plus linear in the lesser of the distances between pos and either of the ends of the container.
3) Linear in count plus linear in the lesser of the distances between pos and either of the ends of the container.
4) Linear in std::distance(first, last) plus linear in the lesser of the distances between pos and either of the ends of the container.
5) Linear in ilist.size() plus linear in the lesser of the distances between pos and either of the ends of the container.

[edit] Exceptions

If an exception is thrown other than by

  • the copy constructor of T,
  • the move constructor of T,
(since C++11)
  • the copy assignment operator of T,
  • the move assignment operator of T,
(since C++11)

this function has no effect (strong exception guarantee).

If an exception is thrown when inserting a single element at either end, this function has no effect (strong exception guarantee). Otherwise, if an exception is thrown by the move constructor of a non-CopyInsertable T, the effects are unspecified.

(since C++11)

Example

#include <iostream>
#include <iterator>
#include <deque>
 
void print(int id, const std::deque<int>& container)
{
    std::cout << id << ". ";
    for (const int x : container)
        std::cout << x << ' ';
    std::cout << '\n';
}
 
int main ()
{
    std::deque<int> c1(3, 100);
    print(1, c1);
 
    auto it = c1.begin();
    it = c1.insert(it, 200);
    print(2, c1);
 
    c1.insert(it, 2, 300);
    print(3, c1);
 
    // reset `it` to the begin:
    it = c1.begin();
 
    std::deque<int> c2(2, 400);
    c1.insert(std::next(it, 2), c2.begin(), c2.end());
    print(4, c1);
 
    int arr[] = {501, 502, 503};
    c1.insert(c1.begin(), arr, arr + std::size(arr));
    print(5, c1);
 
    c1.insert(c1.end(), {601, 602, 603});
    print(6, c1);
}

Output:

1. 100 100 100
2. 200 100 100 100
3. 300 300 200 100 100 100
4. 300 300 400 400 200 100 100 100
5. 501 502 503 300 300 400 400 200 100 100 100
6. 501 502 503 300 300 400 400 200 100 100 100 601 602 603

[edit] Defect reports

The following behavior-changing defect reports were applied retroactively to previously published C++ standards.

DR Applied to Behavior as published Correct behavior
LWG 149 C++98 overloads (3) and (4) returned nothing returns an iterator
LWG 247 C++98 the complexity was only specified
for inserting a single element
also specified for inserting
multiple elements

[edit] See also

(C++11)
constructs element in-place
(public member function) [edit]
inserts an element to the beginning
(public member function) [edit]
adds an element to the end
(public member function) [edit]
creates a std::insert_iterator of type inferred from the argument
(function template) [edit]