std::vector<T,Allocator>::emplace
template< class... Args > iterator emplace( const_iterator pos, Args&&... args ); |
(since C++11) (constexpr since C++20) |
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Inserts a new element into the container directly before pos.
The element is constructed through std::allocator_traits::construct, which typically uses placement new to construct the element in-place at a location provided by the container. However, if the required location has been occupied by an existing element, the inserted element is constructed at another location at first, and then move assigned into the required location.
The arguments args... are forwarded to the constructor as std::forward<Args>(args).... args... may directly or indirectly refer to a value in the container.
If after the operation the new size() is greater than old capacity() a reallocation takes place, in which case all iterators (including the end() iterator) and all references to the elements are invalidated. Otherwise, only the iterators and references before the insertion point remain valid.
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[edit] Parameters
| pos | - | iterator before which the new element will be constructed |
| args | - | arguments to forward to the constructor of the element |
| Type requirements | ||
-If any of the following conditions is satisfied, the behavior is undefined:
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[edit] Return value
Iterator pointing to the emplaced element.
[edit] Complexity
Linear in the distance between pos and end().
[edit] Exceptions
If an exception is thrown other than by the copy constructor, move constructor, assignment operator, or move assignment operator of T, or if an exception is thrown while emplace is used to insert a single element at the end and T is either CopyInsertable or nothrow move constructible, there are no effects (strong exception guarantee).
Otherwise, the effects are unspecified.
Example
#include <iostream> #include <string> #include <vector> struct A { std::string s; A(std::string str) : s(std::move(str)) { std::cout << " constructed\n"; } A(const A& o) : s(o.s) { std::cout << " copy constructed\n"; } A(A&& o) : s(std::move(o.s)) { std::cout << " move constructed\n"; } A& operator=(const A& other) { s = other.s; std::cout << " copy assigned\n"; return *this; } A& operator=(A&& other) { s = std::move(other.s); std::cout << " move assigned\n"; return *this; } }; int main() { std::vector<A> container; // reserve enough place so vector does not have to resize container.reserve(10); std::cout << "construct 2 times A:\n"; A two{"two"}; A three{"three"};