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std::format_kind

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< cpp‎ | utility‎ | format
 
C++
 
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format_kind
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Defined in header <format>
template< class R >
constexpr /* unspecified */ format_kind = /* unspecified */;
 (1) (since C++23)
template< ranges::input_range R >

    requires std::same_as<R, std::remove_cvref_t<R>>

constexpr range_format format_kind<R> = /* see description */;
 (2) (since C++23)

The variable template format_kind selects an appropriate std::range_format for a range R.

std::format_kind<R> is defined as follows:

If either U is a specialization of std::pair or U is a specialization of std::tuple and std::tuple_size_v<U> == 2, std::format_kind<R> is std::range_format::map.
  • Otherwise, std::format_kind<R> is std::range_format::set.
  • Otherwise, std::format_kind<R> is std::range_format::sequence.

A program that instantiates a primary template of the format_kind variable template is ill-formed.

Given a cv-unqualified program-defined type T that models input_range, a program can specialize format_kind for T. Such specializations are usable in constant expressions, and have type const std::range_format.

Possible implementation

namespace detail
{
    template< typename >
    constexpr bool is_pair_or_tuple_2 = false;
 
    template< typename T, typename U >
    constexpr bool is_pair_or_tuple_2<std::pair<T, U>> = true;
 
    template< typename T, typename U >
    constexpr bool is_pair_or_tuple_2<std::tuple<T, U>> = true;
 
    template < typename T >
        requires std::is_reference_v<T> || std::is_const_v<T>
    constexpr bool is_pair_or_tuple_2<T> =
        is_pair_or_tuple_2<std::remove_cvref_t<T>>;
}
 
template< class R >
constexpr range_format format_kind = []
{
    static_assert(false, "instantiating a primary template is not allowed");
    return range_format::disabled;
}();
 
template< ranges::input_range R >
    requires std::same_as<R, std::remove_cvref_t<R>>
constexpr range_format format_kind<R> = []
{
    if constexpr (std::same_as<std::remove_cvref_t<std::ranges::range_reference_t<R>>, R>)
        return range_format::disabled;
    else if constexpr (requires { typename R::key_type; })
    {
        if constexpr (requires { typename R::mapped_type; } &&
                      detail::is_pair_or_tuple_2<std::ranges::range_reference_t<R>>)
            return range_format::map;
        else
            return range_format::set;
    }
    else
        return range_format::sequence;
}();

Example

Run this code
#include <filesystem>
#include <format>
#include <map>
#include <set>
#include <vector>
 
struct A {};
 
static_assert(std::format_kind<std::vector<int>> == std::range_format::sequence);
static_assert(std::format_kind<std::map<int>> == std::range_format::map);
static_assert(std::format_kind<std::set<int>> == std::range_format::set);
static_assert(std::format_kind<std::filesystem::path> == std::range_format::disabled);
// ill-formed:
// static_assert(std::format_kind<A> == std::range_format::disabled);
 
int main() {}

See also

(C++23)
 specifies how a range should be formatted
(enum) [edit]
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