std::inplace_vector<T,N>::emplace
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template< class... Args > constexpr iterator emplace( const_iterator position, Args&&... args ); |
(since C++26) | |
Inserts a new element into the container directly before pos. Typically, the element is constructed uses placement-new to construct the element in-place at the location provided by the container. The arguments args... are forwarded to the constructor as std::forward<Args>(args)....
Contents |
[edit] Parameters
pos | - | iterator before which the new element will be constructed |
args | - | arguments to forward to the constructor of the element |
Type requirements | ||
-T must meet the requirements of EmplaceConstructible.
|
[edit] Return value
An iterator to the inserted element.
[edit] Complexity
Linear: the distance between pos and end of the container + 1.
[edit] Exceptions
- Throws std::bad_alloc if before the invocation size() == capacity(). The function has no effects (strong exception safety guarantee).
- Any exception thrown by initialization of inserted element or by any LegacyInputIterator operation. Elements in
[
0,
pos)
are not modified.
[edit] Example
Run this code
#include <cassert> #include <inplace_vector> #include <new> #include <utility> int main() { using P = std::pair<int, int>; using I = std::inplace_vector<P, 3>; auto nums = I{{0, 1}, {2, 3}}; auto it = nums.emplace(nums.begin() + 1, -1, -2); assert((*it == P{-1, -2})); assert((nums == I{P{0, 1}, {-1, -2}, {2, 3}})); try { nums.emplace(nums.begin(), 1, 3); // throws: no space } catch(const std::bad_alloc& ex) { std::cout << ex.what() << '\n'; } }
Possible output:
std::bad_alloc
[edit] See also
inserts elements (public member function) | |
constructs an element in-place at the end (public member function) |