std::experimental::ranges::greater_equal
| Defined in header <experimental/ranges/functional>
|
||
| template< class T = void > requires StrictTotallyOrdered<T> || |
(ranges TS) | |
| template <> struct greater_equal<void>; |
(ranges TS) | |
Function object for performing comparisons. The primary template invokes operator< on const lvalues of type T and negates the result. The specialization greater_equal<void> deduces the parameter types of the function call operator from the arguments (but not the return type).
All specializations of greater_equal are Semiregular.
Member types
| Member type | Definition |
is_transparent (member only of greater_equal<void> specialization)
|
/* unspecified */ |
Member functions
| operator() |
checks if the first argument is greater than or equal to the second (public member function) |
std::experimental::ranges::greater_equal::operator()
| constexpr bool operator()(const T& x, const T& y) const; |
(1) | (member only of primary greater_equal<T> template) |
| template< class T, class U > requires StrictTotallyOrderedWith<T, U> || |
(2) | (member only of greater_equal<void> specialization) |
t and u. Equivalent to return !ranges::less<>{}(std::forward<T>(t), std::forward<U>(u));.
Notes
Unlike std::greater_equal, ranges::greater_equal requires all six comparison operators <, <=, >, >=, == and != to be valid (via the StrictTotallyOrdered and StrictTotallyOrderedWith constraints) and is entirely defined in terms of
ranges::less. However, the implementation is free to use operator>= directly, because those concepts require the results of the comparison operators to be consistent.
Example
| This section is incomplete Reason: no example |
See also
| function object implementing x >= y (class template) |