std::ranges::ssize
| Defined in header <ranges>
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| Defined in header <iterator>
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| inline namespace /* unspecified */ { inline constexpr /* unspecified */ ssize = /* unspecified */; |
(since C++20) (customization point object) |
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| Call signature |
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| template< class T > requires /* see below */ |
(since C++20) | |
Calculates the number of elements in t in constant time, and converts the result to a signed type.
Given the subexpression of which t denotes the (possibly materialized) result object as E:
- If ranges::size(t) is ill-formed, ranges::ssize(E) is also ill-formed.
- Otherwise, let
Signedbemake-signed-like-t<decltype(ranges::size(t))>:- If std::ptrdiff_t is wider than
Signed, ranges::ssize(E) is expression-equivalent to static_cast<std::ptrdiff_t>(ranges::size(t)). - Otherwise, ranges::ssize(E) is expression-equivalent to static_cast<Signed>(ranges::size(t)).
- If std::ptrdiff_t is wider than
Contents |
Customization point objects
The name ranges::ssize denotes a customization point object, which is a const function object of a literal semiregular class type. For exposition purposes, the cv-unqualified version of its type is denoted as __ssize_fn.
All instances of __ssize_fn are equal. The effects of invoking different instances of type __ssize_fn on the same arguments are equivalent, regardless of whether the expression denoting the instance is an lvalue or rvalue, and is const-qualified or not (however, a volatile-qualified instance is not required to be invocable). Thus, ranges::ssize can be copied freely and its copies can be used interchangeably.
Given a set of types Args..., if std::declval<Args>()... meet the requirements for arguments to ranges::ssize above, __ssize_fn models
- std::invocable<__ssize_fn, Args...>,
- std::invocable<const __ssize_fn, Args...>,
- std::invocable<__ssize_fn&, Args...>, and
- std::invocable<const __ssize_fn&, Args...>.
Otherwise, no function call operator of __ssize_fn participates in overload resolution.
[edit] Notes
If ranges::ssize(e) is valid for an expression e, the return type is a signed-integer-like type.
[edit] Example
#include <array> #include <iostream> #include <ranges> #include <type_traits> int main() { std::array arr{1, 2, 3, 4, 5}; auto s = std::ranges::ssize(arr); std::cout << "ranges::ssize(arr) = " << s << '\n' << "ranges::ssize is " << (std::is_signed_v<decltype(s)> ? "signed" : "unsigned") << '\n'; std::cout << "reversed arr: "; for (--s; s >= 0; --s) std::cout << arr[s] << ' '; std::cout << "\n" "s = " << s << '\n'; }
Output:
ranges::ssize(arr) = 5 ranges::ssize is signed reversed arr: 5 4 3 2 1 s = -1
[edit] Defect reports
The following behavior-changing defect reports were applied retroactively to previously published C++ standards.
| DR | Applied to | Behavior as published | Correct behavior |
|---|---|---|---|
| LWG 3403 | C++20 | ranges::size worked for some non-range types but ranges::ssize did not
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made work |
[edit] See also
| (C++20) |
returns an integer equal to the size of a range (customization point object) |
| (C++20) |
specifies that a range knows its size in constant time (concept) |
| (C++20) |
returns the distance between an iterator and a sentinel, or between the beginning and end of a range (niebloid) |
| (C++17)(C++20) |
returns the size of a container or array (function template) |
