//===----------------------------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
// <algorithm>
// UNSUPPORTED: c++03, c++11, c++14, c++17
// template<input_iterator I1, sentinel_for<I1> S1, input_iterator I2, sentinel_for<I2> S2,
// weakly_incrementable O, class Comp = ranges::less,
// class Proj1 = identity, class Proj2 = identity>
// requires mergeable<I1, I2, O, Comp, Proj1, Proj2>
// constexpr set_difference_result<I1, O>
// set_difference(I1 first1, S1 last1, I2 first2, S2 last2, O result,
// Comp comp = {}, Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
// template<input_range R1, input_range R2, weakly_incrementable O,
// class Comp = ranges::less, class Proj1 = identity, class Proj2 = identity>
// requires mergeable<iterator_t<R1>, iterator_t<R2>, O, Comp, Proj1, Proj2>
// constexpr set_difference_result<borrowed_iterator_t<R1>, O>
// set_difference(R1&& r1, R2&& r2, O result,
// Comp comp = {}, Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
#include <algorithm>
#include <array>
#include <concepts>
#include "almost_satisfies_types.h"
#include "MoveOnly.h"
#include "test_iterators.h"
#include "../../sortable_helpers.h"
// Test iterator overload's constraints:
// =====================================
template <
class InIter1,
class InIter2,
class OutIter,
class Sent1 = sentinel_wrapper<InIter1>,
class Sent2 = sentinel_wrapper<InIter2>>
concept HasSetDifferenceIter =
requires(InIter1&& inIter1, InIter2&& inIter2, OutIter&& outIter, Sent1&& sent1, Sent2&& sent2) {
std::ranges::set_difference(
std::forward<InIter1>(inIter1),
std::forward<Sent1>(sent1),
std::forward<InIter2>(inIter2),
std::forward<Sent2>(sent2),
std::forward<OutIter>(outIter));
};
static_assert(HasSetDifferenceIter<int*, int*, int*, int*, int*>);
// !std::input_iterator<I1>
static_assert(!HasSetDifferenceIter<InputIteratorNotDerivedFrom, int*, int*>);
// !std::sentinel_for<S1, I1>
static_assert(!HasSetDifferenceIter<int*, int*, int*, SentinelForNotSemiregular>);
// !std::input_iterator<I2>
static_assert(!HasSetDifferenceIter<int*, InputIteratorNotDerivedFrom, int*>);
// !std::sentinel_for<S2, I2>
static_assert(!HasSetDifferenceIter<int*, int*, int*, int*, SentinelForNotSemiregular>);
// !std::weakly_incrementable<O>
static_assert(!HasSetDifferenceIter<int*, int*, WeaklyIncrementableNotMovable>);
// !std::mergeable<I1, I2, O, Comp, Proj1, Proj2>
static_assert(!HasSetDifferenceIter<MoveOnly*, MoveOnly*, MoveOnly*, MoveOnly*, MoveOnly*>);
// Test range overload's constraints:
// =====================================
template <class Range1, class Range2, class OutIter>
concept HasSetDifferenceRange =
requires(Range1&& range1, Range2&& range2, OutIter&& outIter) {
std::ranges::set_difference(
std::forward<Range1>(range1), std::forward<Range2>(range2), std::forward<OutIter>(outIter));
};
static_assert(HasSetDifferenceRange<UncheckedRange<int*>, UncheckedRange<int*>, int*>);
// !std::input_range<R2>
static_assert(!HasSetDifferenceRange<UncheckedRange<InputIteratorNotDerivedFrom>, UncheckedRange<int*>, int*>);
// !std::input_range<R2>
static_assert(!HasSetDifferenceRange<UncheckedRange<int*>, UncheckedRange<InputIteratorNotDerivedFrom>, int*>);
// !std::weakly_incrementable<O>
static_assert(!HasSetDifferenceRange<UncheckedRange<int*>, UncheckedRange<int*>, WeaklyIncrementableNotMovable >);
// !std::mergeable<iterator_t<R1>, iterator_t<R2>, O, Comp, Proj1, Proj2>
static_assert(!HasSetDifferenceRange< UncheckedRange<MoveOnly*>, UncheckedRange<MoveOnly*>, MoveOnly*>);
using std::ranges::set_difference_result;
template <class In1, class In2, class Out, std::size_t N1, std::size_t N2, std::size_t N3>
constexpr void testSetDifferenceImpl(std::array<int, N1> in1, std::array<int, N2> in2, std::array<int, N3> expected) {
// TODO: std::ranges::set_difference calls std::ranges::copy
// std::ranges::copy(contiguous_iterator<int*>, sentinel_wrapper<contiguous_iterator<int*>>, contiguous_iterator<int*>) doesn't seem to work.
// It seems that std::ranges::copy calls std::copy, which unwraps contiguous_iterator<int*> into int*,
// and then it failed because there is no == between int* and sentinel_wrapper<contiguous_iterator<int*>>
using Sent1 = std::conditional_t<std::contiguous_iterator<In1>, In1, sentinel_wrapper<In1>>;
using Sent2 = std::conditional_t<std::contiguous_iterator<In2>, In2, sentinel_wrapper<In2>>;
// iterator overload
{
std::array<int, N3> out;
std::same_as<set_difference_result<In1, Out>> decltype(auto) result = std::ranges::set_difference(
In1{in1.data()},
Sent1{In1{in1.data() + in1.size()}},
In2{in2.data()},
Sent2{In2{in2.data() + in2.size()}},
Out{out.data()});
assert(std::ranges::equal(out, expected));
assert(base(result.in) == in1.data() + in1.size());
assert(base(result.out) == out.data() + out.size());
}
// range overload
{
std::array<int, N3> out;
std::ranges::subrange r1{In1{in1.data()}, Sent1{In1{in1.data() + in1.size()}}};
std::ranges::subrange r2{In2{in2.data()}, Sent2{In2{in2.data() + in2.size()}}};
std::same_as<set_difference_result<In1, Out>> decltype(auto) result =
std::ranges::set_difference(r1, r2, Out{out.data()});
assert(std::ranges::equal(out, expected));
assert(base(result.in) == in1.data() + in1.size());
assert(base(result.out) == out.data() + out.size());
}
}
template <class In1, class In2, class Out>
constexpr void testImpl() {
// range 1 shorter than range2
{
std::array in1{0, 1, 5, 6, 9, 10};
std::array in2{3, 6, 7, 9, 13, 15, 100};
std::array expected{0, 1, 5, 10};
testSetDifferenceImpl<In1, In2, Out>(in1, in2, expected);
}
// range 2 shorter than range 1
{
std::array in1{2, 6, 8, 12, 15, 16};
std::array in2{0, 2, 8};
std::array expected{6, 12, 15, 16};
testSetDifferenceImpl<In1, In2, Out>(in1, in2, expected);
}
// range 1 and range 2 has the same length but different elements
{
std::array in1{2, 6, 8, 12, 15, 16};
std::array in2{0, 2, 8, 15, 17, 19};
std::array expected{6, 12, 16};
testSetDifferenceImpl<In1, In2, Out>(in1, in2, expected);
}
// range 1 == range 2
{
std::array in1{0, 1, 2};
std::array in2{0, 1, 2};
std::array<int, 0> expected{};
testSetDifferenceImpl<In1, In2, Out>(in1, in2, expected);
}
// range 1 is super set of range 2
{
std::array in1{8, 8, 10, 12, 13};
std::array in2{8, 10};
std::array expected{8, 12, 13};
testSetDifferenceImpl<In1, In2, Out>(in1, in2, expected);
}
// range 2 is super set of range 1
{
std::array in1{0, 1, 1};
std::array in2{0, 1, 1, 2, 5};
std::array<int, 0> expected{};
testSetDifferenceImpl<In1, In2, Out>(in1, in2, expected);
}
// range 1 is empty
{
std::array<int, 0> in1{};
std::array in2{3, 4, 5};
std::array<int, 0> expected{};
testSetDifferenceImpl<In1, In2, Out>(in1, in2, expected);
}
// range 2 is empty
{
std::array in1{3, 4, 5};
std::array<int, 0> in2{};
std::array expected{3, 4, 5};
testSetDifferenceImpl<In1, In2, Out>(in1, in2, expected);
}
// both ranges are empty
{
std::array<int, 0> in1{};
std::array<int, 0> in2{};
std::array<int, 0> expected{};
testSetDifferenceImpl<In1, In2, Out>(in1, in2, expected);
}
// check that ranges::dangling is returned for non-borrowed_range
{
std::array r1{3, 6, 7, 9};
std::array r2{2, 3, 4, 5, 6};
std::array<int, 2> out;
std::same_as<set_difference_result<std::ranges::dangling, int*>> decltype(auto) result =
std::ranges::set_difference(NonBorrowedRange<In1>{r1.data(), r1.size()}, r2, out.data());
assert(base(result.out) == out.data() + out.size());
assert(std::ranges::equal(out, std::array{7, 9}));
}
}
template <class InIter2, class OutIter>
constexpr void withAllPermutationsOfInIter1() {
// C++17 InputIterator may or may not satisfy std::input_iterator
testImpl<cpp20_input_iterator<int*>, InIter2, OutIter>();
testImpl<forward_iterator<int*>, InIter2, OutIter>();
testImpl<bidirectional_iterator<int*>, InIter2, OutIter>();
testImpl<random_access_iterator<int*>, InIter2, OutIter>();
testImpl<contiguous_iterator<int*>, InIter2, OutIter>();
}
template <class OutIter>
constexpr bool withAllPermutationsOfInIter1AndInIter2() {
withAllPermutationsOfInIter1<cpp20_input_iterator<int*>, OutIter>();
withAllPermutationsOfInIter1<forward_iterator<int*>, OutIter>();
withAllPermutationsOfInIter1<bidirectional_iterator<int*>, OutIter>();
withAllPermutationsOfInIter1<random_access_iterator<int*>, OutIter>();
withAllPermutationsOfInIter1<contiguous_iterator<int*>, OutIter>();
return true;
}
constexpr void runAllIteratorPermutationsTests() {
withAllPermutationsOfInIter1AndInIter2<cpp20_output_iterator<int*>>();
withAllPermutationsOfInIter1AndInIter2<cpp20_input_iterator<int*>>();
withAllPermutationsOfInIter1AndInIter2<forward_iterator<int*>>();
withAllPermutationsOfInIter1AndInIter2<bidirectional_iterator<int*>>();
withAllPermutationsOfInIter1AndInIter2<random_access_iterator<int*>>();
withAllPermutationsOfInIter1AndInIter2<contiguous_iterator<int*>>();
static_assert(withAllPermutationsOfInIter1AndInIter2<cpp20_output_iterator<int*>>());
static_assert(withAllPermutationsOfInIter1AndInIter2<cpp20_input_iterator<int*>>());
static_assert(withAllPermutationsOfInIter1AndInIter2<forward_iterator<int*>>());
static_assert(withAllPermutationsOfInIter1AndInIter2<bidirectional_iterator<int*>>());
static_assert(withAllPermutationsOfInIter1AndInIter2<random_access_iterator<int*>>());
static_assert(withAllPermutationsOfInIter1AndInIter2<contiguous_iterator<int*>>());
}
constexpr bool test() {
// check that every element is copied exactly once
{
std::array<TracedCopy, 5> r1{3, 5, 8, 15, 16};
std::array<TracedCopy, 3> r2{1, 3, 8};
// iterator overload
{
std::array<TracedCopy, 3> out;
auto result = std::ranges::set_difference(r1.begin(), r1.end(), r2.begin(), r2.end(), out.data());
assert(result.in == r1.end());
assert(result.out == out.data() + out.size());
assert(std::ranges::equal(out, std::array<TracedCopy, 3>{5, 15, 16}));
assert(std::ranges::all_of(out, &TracedCopy::copiedOnce));
}
// range overload
{
std::array<TracedCopy, 3> out;
auto result = std::ranges::set_difference(r1, r2, out.data());
assert(result.in == r1.end());
assert(result.out == out.data() + out.size());
assert(std::ranges::equal(out, std::array<TracedCopy, 3>{5, 15, 16}));
assert(std::ranges::all_of(out, &TracedCopy::copiedOnce));
}
}
struct IntAndOrder {
int data;
int order;
constexpr auto operator==(const IntAndOrder& o) const { return data == o.data; }
constexpr auto operator<=>(const IntAndOrder& o) const { return data <=> o.data; }
};
// equal elements should be copied in the original order and only m-n elements are copied
{
std::array<IntAndOrder, 5> r1{{{0, 0}, {0, 1}, {0, 2}, {0, 3}, {0, 4}}};
std::array<IntAndOrder, 3> r2{{{0, 1}, {0, 2}, {0, 3}}};
// iterator overload
{
std::array<IntAndOrder, 2> out;
std::ranges::set_difference(r1.begin(), r1.end(), r2.begin(), r2.end(), out.data());
assert(std::ranges::equal(out, std::array{0, 0}, {}, &IntAndOrder::data));
// m-n elements are copied in order
assert(std::ranges::equal(out, std::array{3, 4}, {}, &IntAndOrder::order));
}
// range overload
{
std::array<IntAndOrder, 2> out;
std::ranges::set_difference(r1, r2, out.data());
assert(std::ranges::equal(out, std::array{0, 0}, {}, &IntAndOrder::data));
// ID should be in their original order
assert(std::ranges::equal(out, std::array{3, 4}, {}, &IntAndOrder::order));
}
}
struct Data {
int data;
constexpr bool smallerThan(const Data& o) const { return data < o.data; }
};
// Test custom comparator
{
std::array r1{Data{4}, Data{8}, Data{12}};
std::array r2{Data{8}, Data{9}};
using Iter1 = std::array<Data, 3>::iterator;
// iterator overload
{
std::array<Data, 2> out;
std::same_as<set_difference_result<Iter1, Data*>> decltype(auto) result = std::ranges::set_difference(
r1.begin(), r1.end(), r2.begin(), r2.end(), out.data(), [](const Data& x, const Data& y) {
return x.data < y.data;
});
assert(std::ranges::equal(out, std::array{4, 12}, {}, &Data::data));
assert(result.in == r1.end());
assert(result.out == out.data() + out.size());
}
// range overload
{
std::array<Data, 2> out;
std::same_as<set_difference_result<Iter1, Data*>> decltype(auto) result =
std::ranges::set_difference(r1, r2, out.data(), [](const Data& x, const Data& y) { return x.data < y.data; });
assert(std::ranges::equal(out, std::array{4, 12}, {}, &Data::data));
assert(result.in == r1.end());
assert(result.out == out.data() + out.size());
}
// member pointer Comparator iterator overload
{
std::array<Data, 2> out;
std::same_as<set_difference_result<Iter1, Data*>> decltype(auto) result =
std::ranges::set_difference(r1.begin(), r1.end(), r2.begin(), r2.end(), out.data(), &Data::smallerThan);
assert(std::ranges::equal(out, std::array{4, 12}, {}, &Data::data));
assert(result.in == r1.end());
assert(result.out == out.data() + out.size());
}
// member pointer Comparator range overload
{
std::array<Data, 2> out;
std::same_as<set_difference_result<Iter1, Data*>> decltype(auto) result =
std::ranges::set_difference(r1, r2, out.data(), &Data::smallerThan);
assert(std::ranges::equal(out, std::array{4, 12}, {}, &Data::data));
assert(result.in == r1.end());
assert(result.out == out.data() + out.size());
}
}
// Test Projection
{
std::array r1{Data{1}, Data{3}, Data{5}};
std::array r2{Data{2}, Data{3}, Data{4}};
using Iter1 = std::array<Data, 3>::iterator;
const auto proj = [](const Data& d) { return d.data; };
// iterator overload
{
std::array<Data, 2> out;
std::same_as<set_difference_result<Iter1, Data*>> decltype(auto) result = std::ranges::set_difference(
r1.begin(), r1.end(), r2.begin(), r2.end(), out.data(), std::ranges::less{}, proj, proj);
assert(std::ranges::equal(out, std::array{1, 5}, {}, &Data::data));
assert(result.in == r1.end());
assert(result.out == out.data() + out.size());
}
// range overload
{
std::array<Data, 2> out;
std::same_as<set_difference_result<Iter1, Data*>> decltype(auto) result =
std::ranges::set_difference(r1, r2, out.data(), std::ranges::less{}, proj, proj);
assert(std::ranges::equal(out, std::array{1, 5}, {}, &Data::data));
assert(result.in == r1.end());
assert(result.out == out.data() + out.size());
}
// member pointer Projection iterator overload
{
std::array<Data, 2> out;
std::same_as<set_difference_result<Iter1, Data*>> decltype(auto) result = std::ranges::set_difference(
r1.begin(), r1.end(), r2.begin(), r2.end(), out.data(), {}, &Data::data, &Data::data);
assert(std::ranges::equal(out, std::array{1, 5}, {}, &Data::data));
assert(result.in == r1.end());
assert(result.out == out.data() + out.size());
}
// member pointer Projection range overload
{
std::array<Data, 2> out;
std::same_as<set_difference_result<Iter1, Data*>> decltype(auto) result =
std::ranges::set_difference(r1, r2, out.data(), std::ranges::less{}, &Data::data, &Data::data);
assert(std::ranges::equal(out, std::array{1, 5}, {}, &Data::data));
assert(result.in == r1.end());
assert(result.out == out.data() + out.size());
}
}
// Complexity: At most 2 * ((last1 - first1) + (last2 - first2)) - 1 comparisons and applications of each projection.
{
std::array<Data, 3> r1{{{4}, {8}, {12}}};
std::array<Data, 9> r2{{{1}, {2}, {3}, {5}, {6}, {7}, {9}, {10}, {11}}};
std::array expected{4, 8, 12};
const std::size_t maxOperation = 2 * (r1.size() + r2.size()) - 1;
// iterator overload
{
std::array<Data, 3> out;
std::size_t numberOfComp = 0;
std::size_t numberOfProj1 = 0;
std::size_t numberOfProj2 = 0;
const auto comp = [&numberOfComp](int x, int y) {
++numberOfComp;
return x < y;
};
const auto proj1 = [&numberOfProj1](const Data& d) {
++numberOfProj1;
return d.data;
};
const auto proj2 = [&numberOfProj2](const Data& d) {
++numberOfProj2;
return d.data;
};
std::ranges::set_difference(r1.begin(), r1.end(), r2.begin(), r2.end(), out.data(), comp, proj1, proj2);
assert(std::ranges::equal(out, expected, {}, &Data::data));
assert(numberOfComp < maxOperation);
assert(numberOfProj1 < maxOperation);
assert(numberOfProj2 < maxOperation);
}
// range overload
{
std::array<Data, 3> out;
std::size_t numberOfComp = 0;
std::size_t numberOfProj1 = 0;
std::size_t numberOfProj2 = 0;
const auto comp = [&numberOfComp](int x, int y) {
++numberOfComp;
return x < y;
};
const auto proj1 = [&numberOfProj1](const Data& d) {
++numberOfProj1;
return d.data;
};
const auto proj2 = [&numberOfProj2](const Data& d) {
++numberOfProj2;
return d.data;
};
std::ranges::set_difference(r1, r2, out.data(), comp, proj1, proj2);
assert(std::ranges::equal(out, expected, {}, &Data::data));
assert(numberOfComp < maxOperation);
assert(numberOfProj1 < maxOperation);
assert(numberOfProj2 < maxOperation);
}
}
// Comparator convertible to bool
{
struct ConvertibleToBool {
bool b;
constexpr operator bool() const { return b; }
};
Data r1[] = {{2}, {4}};
Data r2[] = {{3}, {4}, {5}};
const auto comp = [](const Data& x, const Data& y) { return ConvertibleToBool{x.data < y.data}; };
// iterator overload
{
std::array<Data, 1> out;
std::ranges::set_difference(r1, r1 + 2, r2, r2 + 3, out.data(), comp);
assert(std::ranges::equal(out, std::array{2}, {}, &Data::data));
}
// range overload
{
std::array<Data, 1> out;
std::ranges::set_difference(r1, r2, out.data(), comp);
assert(std::ranges::equal(out, std::array{2}, {}, &Data::data));
}
}
return true;
}
int main(int, char**) {
test();
static_assert(test());
runAllIteratorPermutationsTests();
return 0;
}