iterator find( const Key& key ); | (1) | |
iterator find( const Key& key, size_t hash ); | (1) | (since C++20) |
const_iterator find( const Key& key ) const; | (2) | |
const_iterator find( const Key& key, size_t hash ) const; | (2) | (since C++20) |
template< class K > iterator find( const K& x ); | (3) | (since C++20) |
template< class K > iterator find( const K& x, size_t hash ); | (3) | (since C++20) |
template< class K > const_iterator find( const K& x ) const; | (4) | (since C++20) |
template< class K > const_iterator find( const K& x, size_t hash ) const; | (4) | (since C++20) |
key. x. This overload only participates in overload resolution if the qualified-id Hash::transparent_key_equal is valid and denotes a type. This assumes that such Hash is callable with both K and Key type, and that its key_equal is transparent, which, together, allows calling this function without constructing an instance of Key.| If present, the | (since C++20) |
| key | - | key value of the element to search for |
| x | - | a value of any type that can be transparently compared with a key |
| hash | - | the hash value of the key |
Iterator to an element with key equivalent to key. If no such element is found, past-the-end (see end()) iterator is returned.
Constant on average, worst case linear in the size of the container.
#include <iostream>
#include <unordered_set>
int main()
{
// simple comparison demo
std::unordered_multiset<int> example = {1, 2, 3, 4};
auto search = example.find(2);
if (search != example.end()) {
std::cout << "Found " << (*search) << '\n';
} else {
std::cout << "Not found\n";
}
}Output:
Found 2
| returns the number of elements matching specific key (public member function) |
|
| returns range of elements matching a specific key (public member function) |
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