std::ranges::views::cartesian_product, std::ranges::cartesian_product_view

The First range passed to cartesian_product_view is treated specially, since it is only passed through a single time. As a result, several constrains are relaxed on it:

• First is an input_range instead of forward_range;
• First does not have to be a sized_range in order for the cartesian_product_view to be random_access_range or common_range;
• First does not have to be common_range in order for the cartesian_product_view to be bidirectional_range.

Customization point objects

The name views::cartesian_product 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 __cartesian_product_fn.

All instances of __cartesian_product_fn are equal. The effects of invoking different instances of type __cartesian_product_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, views::cartesian_product 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 views::cartesian_product above, __cartesian_product_fn models

• std::invocable<__cartesian_product_fn, Args...>,
• std::invocable<const __cartesian_product_fn, Args...>,
• std::invocable<__cartesian_product_fn&, Args...>, and
• std::invocable<const __cartesian_product_fn&, Args...>.
  

Otherwise, no function call operator of __cartesian_product_fn participates in overload resolution.

[edit] Data members

[edit] Member functions

[edit] Deduction guides

[edit] Nested classes

[edit] Notes

[edit] Example

#include <array>
#include <iostream>
#include <list>
#include <ranges>
#include <string>
#include <vector>
 
void print(std::tuple<char const&, int const&, std::string const&> t, int pos)
{
    const auto& [a, b, c] = t;
    std::cout << '(' << a << ' ' << b << ' ' << c << ')' << (pos % 4 ? " " : "\n");
}
 
int main()
{
    const auto x = std::array{'A', 'B'};
    const auto y = std::vector{1, 2, 3};
    const auto z = std::list<std::string>{"α", "β", "γ", "δ"};
 
    for (int i{1}; auto const& tuple : std::views::cartesian_product(x, y, z))
        print(tuple, i++);
}

(A 1 α) (A 1 β) (A 1 γ) (A 1 δ)
(A 2 α) (A 2 β) (A 2 γ) (A 2 δ)
(A 3 α) (A 3 β) (A 3 γ) (A 3 δ)
(B 1 α) (B 1 β) (B 1 γ) (B 1 δ)
(B 2 α) (B 2 β) (B 2 γ) (B 2 δ)
(B 3 α) (B 3 β) (B 3 γ) (B 3 δ)

[edit] References

[edit] See also