Defined in header <algorithm> | ||
|---|---|---|
| Call signature | ||
template< std::input_iterator I1, std::sentinel_for<I1> S1,
std::input_iterator I2, std::sentinel_for<I2> S2,
std::weakly_incrementable O, class Comp = ranges::less,
class Proj1 = std::identity, class Proj2 = std::identity >
requires std::mergeable<I1, I2, O, Comp, Proj1, Proj2>
constexpr set_intersection_result<I1, I2, O>
set_intersection( I1 first1, S1 last1, I2 first2, S2 last2,
O result, Comp comp = {},
Proj1 proj1 = {}, Proj2 proj2 = {} );
| (1) | (since C++20) |
template< ranges::input_range R1, ranges::input_range R2,
std::weakly_incrementable O, class Comp = ranges::less,
class Proj1 = std::identity, class Proj2 = std::identity >
requires std::mergeable<ranges::iterator_t<R1>, ranges::iterator_t<R2>,
O, Comp, Proj1, Proj2>
constexpr set_intersection_result<ranges::borrowed_iterator_t<R1>,
ranges::borrowed_iterator_t<R2>, O>
set_intersection( R1&& r1, R2&& r2, O result, Comp comp = {},
Proj1 proj1 = {}, Proj2 proj2 = {} );
| (2) | (since C++20) |
| Helper types | ||
template< class I1, class I2, class O > using set_intersection_result = ranges::in_in_out_result<I1, I2, O>; | (3) | (since C++20) |
Constructs a sorted range beginning at result consisting of elements that are found in both sorted input ranges [first1, last1) and [first2, last2). If some element is found m times in [first1, last1) and n times in [first2, last2), the first min(m, n) elements will be copied from the first range to result. The order of equivalent elements is preserved.
The behavior is undefined if.
comp and proj1 or proj2, respectively, or comp.r1 as the first range and r2 as the second range, as if using ranges::begin(r1) as first1, ranges::end(r1) as last1, ranges::begin(r2) as first2, and ranges::end(r2) as last2.The function-like entities described on this page are niebloids, that is:
In practice, they may be implemented as function objects, or with special compiler extensions.
| first1, last1 | - | iterator-sentinel pair denoting the first input sorted range |
| first2, last2 | - | iterator-sentinel pair denoting the second input sorted range |
| r1 | - | the first sorted input range |
| r2 | - | the second sorted input range |
| result | - | the beginning of the output range |
| comp | - | comparison to apply to the projected elements |
| proj1 | - | projection to apply to the elements in the first range |
| proj2 | - | projection to apply to the elements in the second range |
{last1, last2, result_last}, where result_last is the end of the constructed range.
At most \(\scriptsize 2\cdot(N_1+N_2)-1\)2·(N
1+N
2)-1 comparisons and applications of each projection, where \(\scriptsize N_1\)N
1 and \(\scriptsize N_2\)N
2 are ranges::distance(first1, last1) and ranges::distance(first2, last2), respectively.
struct set_intersection_fn
{
template<std::input_iterator I1, std::sentinel_for<I1> S1,
std::input_iterator I2, std::sentinel_for<I2> S2,
std::weakly_incrementable O, class Comp = ranges::less,
class Proj1 = std::identity, class Proj2 = std::identity>
requires std::mergeable<I1, I2, O, Comp, Proj1, Proj2>
constexpr ranges::set_union_result<I1, I2, O>
operator()(I1 first1, S1 last1, I2 first2, S2 last2,
O result, Comp comp = {},
Proj1 proj1 = {}, Proj2 proj2 = {}) const
{
while (!(first1 == last1 or first2 == last2))
{
if (std::invoke(comp, std::invoke(proj1, *first1), std::invoke(proj2, *first2)))
++first1;
else if (std::invoke(comp, std::invoke(proj2, *first2), std::invoke(proj1, *first1)))
++first2;
else
*result = *first1, ++first1, ++first2, ++result;
}
return {ranges::next(std::move(first1), std::move(last1)),
ranges::next(std::move(first2), std::move(last2)),
std::move(result)};
}
template<ranges::input_range R1, ranges::input_range R2,
std::weakly_incrementable O, class Comp = ranges::less,
class Proj1 = std::identity, class Proj2 = std::identity>
requires std::mergeable<ranges::iterator_t<R1>, ranges::iterator_t<R2>,
O, Comp, Proj1, Proj2>
constexpr ranges::set_intersection_result<ranges::borrowed_iterator_t<R1>,
ranges::borrowed_iterator_t<R2>, O>
operator()(R1&& r1, R2&& r2, O result, Comp comp = {},
Proj1 proj1 = {}, Proj2 proj2 = {}) const
{
return (*this)(ranges::begin(r1), ranges::end(r1),
ranges::begin(r2), ranges::end(r2),
std::move(result), std::move(comp),
std::move(proj1), std::move(proj2));
}
};
inline constexpr set_intersection_fn set_intersection {}; |
#include <algorithm>
#include <iostream>
#include <iterator>
#include <vector>
void print(const auto& v, const auto& rem)
{
std::cout << "{ ";
for (const auto& e : v)
std::cout << e << ' ';
std::cout << '}' << rem;
}
int main()
{
const auto in1 = {1, 2, 2, 3, 4, 5, 6};
const auto in2 = {2, 2, 3, 3, 5, 7};
std::vector<int> out {};
std::ranges::set_intersection(in1, in2, std::back_inserter(out));
print(in1, " ∩ "), print(in2, " = "), print(out, "\n");
}Output:
{ 1 2 2 3 4 5 6 } ∩ { 2 2 3 3 5 7 } = { 2 2 3 5 }|
(C++20) | computes the union of two sets (niebloid) |
|
(C++20) | computes the difference between two sets (niebloid) |
|
(C++20) | computes the symmetric difference between two sets (niebloid) |
|
(C++20) | returns true if one sequence is a subsequence of another (niebloid) |
| computes the intersection of two sets (function template) |
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