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std::ranges::find_end - cppreference.com

Call signature

1) Searches for the last occurrence of the sequence [first2, last2) in the range [first1, last1), after projection with proj1 and proj2 respectively. The projected elements are compared using the binary predicate pred.

The function-like entities described on this page are algorithm function objects (informally known as niebloids), that is:

• Explicit template argument lists cannot be specified when calling any of them.
• None of them are visible to argument-dependent lookup.
• When any of them are found by normal unqualified lookup as the name to the left of the function-call operator, argument-dependent lookup is inhibited.

value initialized with expression

that denotes the last occurrence of the sequence

in range

(after projections with

and

). If

is empty or if no such sequence is found, the return value is effectively initialized with

.

At most \(\scriptsize S\cdot(N-S+1)\)S·(N-S+1) applications of the corresponding predicate and each projection, where \(\scriptsize S\)S is ranges::distance(first2, last2) and \(\scriptsize N\)N is ranges::distance(first1, last1) for (1), or \(\scriptsize S\)S is ranges::distance(r2) and \(\scriptsize N\)N is ranges::distance(r1) for (2).

An implementation can improve efficiency of the search if the input iterators model std::bidirectional_iterator by searching from the end towards the begin. Modelling the std::random_access_iterator may improve the comparison speed. All this however does not change the theoretical complexity of the worst case.

struct find_end_fn
{
    template<std::forward_iterator I1, std::sentinel_for<I1> S1,
             std::forward_iterator I2, std::sentinel_for<I2> S2,
             class Pred = ranges::equal_to,
             class Proj1 = std::identity, class Proj2 = std::identity>
    requires std::indirectly_comparable<I1, I2, Pred, Proj1, Proj2>
    constexpr ranges::subrange<I1>
        operator()(I1 first1, S1 last1,
                   I2 first2, S2 last2, Pred pred = {},
                   Proj1 proj1 = {}, Proj2 proj2 = {}) const
    {
        if (first2 == last2)
        {
            auto last_it = ranges::next(first1, last1);
            return {last_it, last_it};
        }
        auto result = ranges::search(
            std::move(first1), last1, first2, last2, pred, proj1, proj2);
 
        if (result.empty())
            return result;
 
        for (;;)
        {
            auto new_result = ranges::search(
                std::next(result.begin()), last1, first2, last2, pred, proj1, proj2);
            if (new_result.empty())
                return result;
            else
                result = std::move(new_result);
        }
    }
 
    template<ranges::forward_range R1, ranges::forward_range R2,
             class Pred = ranges::equal_to,
             class Proj1 = std::identity,
             class Proj2 = std::identity>
    requires std::indirectly_comparable<ranges::iterator_t<R1>,
                                        ranges::iterator_t<R2>,
                                        Pred, Proj1, Proj2>
    constexpr ranges::borrowed_subrange_t<R1>
        operator()(R1&& r1, R2&& r2, Pred pred = {},
                   Proj1 proj1 = {}, Proj2 proj2 = {}) const
    {
        return (*this)(ranges::begin(r1), ranges::end(r1),
                       ranges::begin(r2), ranges::end(r2),
                       std::move(pred),
                       std::move(proj1), std::move(proj2));
    }
};
 
inline constexpr find_end_fn find_end {};

#include <algorithm>
#include <array>
#include <cctype>
#include <iostream>
#include <ranges>
#include <string_view>
 
void print(const auto haystack, const auto needle)
{
    const auto pos = std::distance(haystack.begin(), needle.begin());
    std::cout << "In \"";
    for (const auto c : haystack)
        std::cout << c;
    std::cout << "\" found \"";
    for (const auto c : needle)
        std::cout << c;
    std::cout << "\" at position [" << pos << ".." << pos + needle.size() << ")\n"
        << std::string(4 + pos, ' ') << std::string(needle.size(), '^') << '\n';
}
 
int main()
{
    using namespace std::literals;
    constexpr auto secret{"password password word..."sv};
    constexpr auto wanted{"password"sv};
 
    constexpr auto found1 = std::ranges::find_end(
        secret.cbegin(), secret.cend(), wanted.cbegin(), wanted.cend());
    print(secret, found1);
 
    constexpr auto found2 = std::ranges::find_end(secret, "word"sv);
    print(secret, found2);
 
    const auto found3 = std::ranges::find_end(secret, "ORD"sv,
        [](const char x, const char y) { // uses a binary predicate
            return std::tolower(x) == std::tolower(y);
        });
    print(secret, found3);
 
    const auto found4 = std::ranges::find_end(secret, "SWORD"sv, {}, {},
        [](char c) { return std::tolower(c); }); // projects the 2nd range
    print(secret, found4);
 
    static_assert(std::ranges::find_end(secret, "PASS"sv).empty()); // => not found
}

Output:

In "password password word..." found "password" at position [9..17)
             ^^^^^^^^
In "password password word..." found "word" at position [18..22)
                      ^^^^
In "password password word..." found "ord" at position [19..22)
                       ^^^
In "password password word..." found "sword" at position [12..17)
                ^^^^^

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