Deduction guides#
If possible, concurrent_unordered_multimap
constructors support class template argument deduction (since C++17).
Copy and move constructors, including constructors with an explicit allocator_type
argument,
provide implicitly-generated deduction guides.
In addition, the following explicit deduction guides are provided:
template <typename InputIterator,
typename Hash = std::hash<iterator_key_t<InputIterator>>,
typename KeyEqual = std::equal_to<iterator_key_t<InputIterator>>,
typename Allocator = tbb::tbb_allocator<iterator_alloc_value_t<InputIterator>>>
concurrent_unordered_multimap( InputIterator, InputIterator,
map_size_type = {},
Hash = Hash(),
KeyEqual = KeyEqual(),
Allocator = Allocator() )
-> concurrent_unordered_multimap<iterator_key_t<InputIterator>,
iterator_mapped_t<InputIterator>,
Hash,
KeyEqual,
Allocator>;
template <typename InputIterator,
typename Hash,
typename Allocator>
concurrent_unordered_multimap( InputIterator, InputIterator,
map_size_type,
Hash,
Allocator )
-> concurrent_unordered_multimap<iterator_key_t<InputIterator>,
iterator_mapped_t<InputIterator>,
Hash,
std::equal_to<iterator_key_t<InputIterator>>,
Allocator>;
template <typename InputIterator,
typename Allocator>
concurrent_unordered_multimap( InputIterator, InputIterator,
map_size_type,
Allocator )
-> concurrent_unordered_multimap<iterator_key_t<InputIterator>,
iterator_mapped_t<InputIterator>,
std::hash<iterator_key_t<InputIterator>>,
std::equal_to<iterator_key_t<InputIterator>>,
Allocator>;
template <typename Key,
typename T,
typename Hash = std::hash<std::remove_const_t<Key>>,
typename KeyEqual = std::equal_to<std::remove_const_t<Key>>,
typename Allocator = tbb::tbb_allocator<std::pair<const Key, T>>>
concurrent_unordered_multimap( std::initializer_list<std::pair<Key, T>>,
map_size_type = {},
Hash = Hash(),
KeyEqual = KeyEqual(),
Allocator = Allocator() )
-> concurrent_unordered_multimap<std::remove_const_t<Key>,
T,
Hash,
KeyEqual,
Allocator>;
template <typename Key,
typename T,
typename Allocator>
concurrent_unordered_multimap( std::initializer_list<std::pair<Key, T>>,
map_size_type,
Allocator )
-> concurrent_unordered_multimap<std::remove_const_t<Key>,
T,
std::hash<std::remove_const_t<Key>>,
std::equal_to<std::remove_const_t<Key>>,
Allocator>;
template <typename Key,
typename T,
typename Allocator>
concurrent_unordered_multimap( std::initializer_list<std::pair<Key, T>>,
Allocator )
-> concurrent_unordered_multimap<std::remove_const_t<Key>,
T,
std::hash<std::remove_const_t<Key>>,
std::equal_to<std::remove_const_t<Key>>,
Allocator>;
template <typename Key,
typename T,
typename Hash,
typename Allocator>
concurrent_unordered_multimap( std::initializer_list<std::pair<Key, T>>,
map_size_type,
Hash,
Allocator )
-> concurrent_unordered_multimap<std::remove_const_t<Key>,
T,
Hash,
std::equal_to<std::remove_const_t<Key>>,
Allocator>;
Where the map_size_type
type refers to the size_type
member type of the deduced concurrent_unordered_multimap
and the type aliases iterator_key_t
, iterator_mapped_t
, and iterator_alloc_value_t
are defined as follows:
template <typename InputIterator>
using iterator_key_t = std::remove_const_t<typename std::iterator_traits<InputIterator>::value_type::first_type>;
template <typename InputIterator>
using iterator_mapped_t = typename std::iterator_traits<InputIterator>::value_type::second_type;
template <typename InputIterator>
using iterator_alloc_value_t = std::pair<std::add_const_t<iterator_key_t<InputIterator>,
iterator_mapped_t<InputIterator>>>;
These deduction guides only participate in the overload resolution if the following requirements are met:
The
InputIterator
type meets theInputIterator
requirements described in the [input.iterators] section of the ISO C++ Standard.The
Allocator
type meets theAllocator
requirements described in the [allocator.requirements] section of the ISO C++ Standard.The
Hash
type does not meet theAllocator
requirements.The
KeyEqual
type does not meet theAllocator
requirements.
Example
#include <oneapi/tbb/concurrent_unordered_map.h>
#include <vector>
#include <functional>
struct CustomHasher {...};
int main() {
std::vector<std::pair<int, float>> v;
// Deduces m1 as concurrent_unordered_multimap<int, float>
oneapi::tbb::concurrent_unordered_multimap m1(v.begin(), v.end());
// Deduces m2 as concurrent_unordered_multimap<int, float, CustomHasher>;
oneapi::tbb::concurrent_unordered_multimap m2(v.begin(), v.end(), CustomHasher{});
}