deduction guides for std::flat_set - cppreference.com (original) (raw)
| Defined in header <flat_set> | ||
|---|---|---|
| template< class KeyContainer, class Compare = std::less<typename KeyContainer::value_type> >flat_set( KeyContainer, Compare = Compare() ) -> flat_set<typename KeyContainer::value_type, Compare, KeyContainer>; | (1) | (since C++23) |
| template< class KeyContainer, class Allocator > flat_set( KeyContainer, Allocator ) -> flat_set<typename KeyContainer::value_type, std::less<typename KeyContainer::value_type>, KeyContainer>; | (2) | (since C++23) |
| template< class KeyContainer, class Compare, class Allocator > flat_set( KeyContainer, Compare, Allocator ) -> flat_set<typename KeyContainer::value_type, Compare, KeyContainer>; | (3) | (since C++23) |
| template< class KeyContainer, class Compare = std::less<typename KeyContainer::value_type> >flat_set( std::sorted_unique_t, KeyContainer, Compare = Compare() ) -> flat_set<typename KeyContainer::value_type, Compare, KeyContainer>; | (4) | (since C++23) |
| template< class KeyContainer, class Allocator > flat_set( std::sorted_unique_t, KeyContainer, Allocator ) -> flat_set<typename KeyContainer::value_type, std::less<typename KeyContainer::value_type>, KeyContainer>; | (5) | (since C++23) |
| template< class KeyContainer, class Compare, class Allocator > flat_set( std::sorted_unique_t, KeyContainer, Compare, Allocator ) -> flat_set<typename KeyContainer::value_type, Compare, KeyContainer>; | (6) | (since C++23) |
| template< class InputIt, class Compare = std::less</*iter-val-t*/<InputIt>> >flat_set( InputIt, InputIt, Compare = Compare() ) -> flat_set</*iter-val-t*/<InputIt>, Compare>; | (7) | (since C++23) |
| template< class InputIt, class Compare = std::less</*iter-val-t*/<InputIt>> >flat_set( std::sorted_unique_t, InputIt, InputIt, Compare = Compare() ) -> flat_set</*iter-val-t*/<InputIt>, Compare>; | (8) | (since C++23) |
| template< ranges::input_range R, class Compare = std::less<ranges::range_value_t<R>>, class Allocator = std::allocator<ranges::range_value_t<R>> >flat_set( std::from_range_t, R&&, Compare = Compare(), Allocator = Allocator() ) -> flat_set<ranges::range_value_t<R>, Compare, std::vector<ranges::range_value_t<R>, /*alloc-rebind*/<Allocator, ranges::range_value_t<R>>>>; | (9) | (since C++23) |
| template< ranges::input_range R, class Allocator > flat_set( std::from_range_t, R&&, Allocator ) -> flat_set<ranges::range_value_t<R>, std::less<ranges::range_value_t<R>>, std::vector<ranges::range_value_t<R>, /*alloc-rebind*/<Allocator, ranges::range_value_t<R>>>>; | (10) | (since C++23) |
| template< class Key, class Compare = std::less<Key> > flat_set( std::initializer_list<Key>, Compare = Compare() ) -> flat_set<Key, Compare>; | (11) | (since C++23) |
| template< class Key, class Compare = std::less<Key> > flat_set( std::sorted_unique_t, std::initializer_list<Key>, Compare = Compare() ) -> flat_set<Key, Compare>; | (12) | (since C++23) |
| Exposition-only helper type aliases | ||
| template< class InputIt > using /*iter-val-t*/ = typename std::iterator_traits<InputIt>::value_type; | (exposition only*) | |
| template< class Allocator, class T > using /*alloc-rebind*/ = typename std::allocator_traits<Allocator>::template rebind_alloc<T>; | (exposition only*) |
These deduction guides are provided for `` to allow deduction from:
A container and a comparator.
A container and an allocator.
A container, a comparator and an allocator.
The std::sorted_unique_t tag, a container and a comparator.
The std::sorted_unique_t tag, a container and an allocator.
The std::sorted_unique_t tag, a container, a comparator and an allocator.
An iterator range and a comparator.
The std::sorted_unique_t tag, an iterator range and a comparator.
These overloads participate in overload resolution only if InputIt satisfies LegacyInputIterator, Alloc satisfies Allocator, and Comp does not satisfy Allocator.
Note: the extent to which the library determines that a type does not satisfy LegacyInputIterator is unspecified, except that as a minimum integral types do not qualify as input iterators. Likewise, the extent to which it determines that a type does not satisfy Allocator is unspecified, except that as a minimum the member type Alloc::value_type must exist and the expression std::declval<Alloc&>().allocate(std::size_t{}) must be well-formed when treated as an unevaluated operand.