1*ee0f8c40SNikolas Klauser //===----------------------------------------------------------------------===//
2*ee0f8c40SNikolas Klauser //
3*ee0f8c40SNikolas Klauser // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4*ee0f8c40SNikolas Klauser // See https://llvm.org/LICENSE.txt for license information.
5*ee0f8c40SNikolas Klauser // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6*ee0f8c40SNikolas Klauser //
7*ee0f8c40SNikolas Klauser //===----------------------------------------------------------------------===//
8*ee0f8c40SNikolas Klauser
9*ee0f8c40SNikolas Klauser // <algorithm>
10*ee0f8c40SNikolas Klauser
11*ee0f8c40SNikolas Klauser // UNSUPPORTED: c++03, c++11, c++14, c++17
12*ee0f8c40SNikolas Klauser
13*ee0f8c40SNikolas Klauser // template<input_iterator I, sentinel_for<I> S, class Proj = identity,
14*ee0f8c40SNikolas Klauser // indirect_unary_predicate<projected<I, Proj>> Pred>
15*ee0f8c40SNikolas Klauser // constexpr I ranges::find_if(I first, S last, Pred pred, Proj proj = {});
16*ee0f8c40SNikolas Klauser // template<input_range R, class Proj = identity,
17*ee0f8c40SNikolas Klauser // indirect_unary_predicate<projected<iterator_t<R>, Proj>> Pred>
18*ee0f8c40SNikolas Klauser // constexpr borrowed_iterator_t<R>
19*ee0f8c40SNikolas Klauser // ranges::find_if(R&& r, Pred pred, Proj proj = {});
20*ee0f8c40SNikolas Klauser
21*ee0f8c40SNikolas Klauser #include <algorithm>
22*ee0f8c40SNikolas Klauser #include <array>
23*ee0f8c40SNikolas Klauser #include <cassert>
24*ee0f8c40SNikolas Klauser #include <ranges>
25*ee0f8c40SNikolas Klauser
26*ee0f8c40SNikolas Klauser #include "almost_satisfies_types.h"
27*ee0f8c40SNikolas Klauser #include "test_iterators.h"
28*ee0f8c40SNikolas Klauser
29*ee0f8c40SNikolas Klauser struct Predicate {
30*ee0f8c40SNikolas Klauser bool operator()(int);
31*ee0f8c40SNikolas Klauser };
32*ee0f8c40SNikolas Klauser
33*ee0f8c40SNikolas Klauser template <class It, class Sent = It>
34*ee0f8c40SNikolas Klauser concept HasFindIfIt = requires(It it, Sent sent) { std::ranges::find_if(it, sent, Predicate{}); };
35*ee0f8c40SNikolas Klauser static_assert(HasFindIfIt<int*>);
36*ee0f8c40SNikolas Klauser static_assert(!HasFindIfIt<InputIteratorNotDerivedFrom>);
37*ee0f8c40SNikolas Klauser static_assert(!HasFindIfIt<InputIteratorNotIndirectlyReadable>);
38*ee0f8c40SNikolas Klauser static_assert(!HasFindIfIt<InputIteratorNotInputOrOutputIterator>);
39*ee0f8c40SNikolas Klauser static_assert(!HasFindIfIt<cpp20_input_iterator<int*>, SentinelForNotSemiregular>);
40*ee0f8c40SNikolas Klauser static_assert(!HasFindIfIt<cpp20_input_iterator<int*>, InputRangeNotSentinelEqualityComparableWith>);
41*ee0f8c40SNikolas Klauser
42*ee0f8c40SNikolas Klauser static_assert(!HasFindIfIt<int*, int>);
43*ee0f8c40SNikolas Klauser static_assert(!HasFindIfIt<int, int*>);
44*ee0f8c40SNikolas Klauser
45*ee0f8c40SNikolas Klauser template <class Pred>
46*ee0f8c40SNikolas Klauser concept HasFindIfPred = requires(int* it, Pred pred) {std::ranges::find_if(it, it, pred); };
47*ee0f8c40SNikolas Klauser
48*ee0f8c40SNikolas Klauser static_assert(!HasFindIfPred<IndirectUnaryPredicateNotCopyConstructible>);
49*ee0f8c40SNikolas Klauser static_assert(!HasFindIfPred<IndirectUnaryPredicateNotPredicate>);
50*ee0f8c40SNikolas Klauser
51*ee0f8c40SNikolas Klauser template <class R>
52*ee0f8c40SNikolas Klauser concept HasFindIfR = requires(R r) { std::ranges::find_if(r, Predicate{}); };
53*ee0f8c40SNikolas Klauser static_assert(HasFindIfR<std::array<int, 0>>);
54*ee0f8c40SNikolas Klauser static_assert(!HasFindIfR<int>);
55*ee0f8c40SNikolas Klauser static_assert(!HasFindIfR<InputRangeNotDerivedFrom>);
56*ee0f8c40SNikolas Klauser static_assert(!HasFindIfR<InputRangeNotIndirectlyReadable>);
57*ee0f8c40SNikolas Klauser static_assert(!HasFindIfR<InputRangeNotInputOrOutputIterator>);
58*ee0f8c40SNikolas Klauser static_assert(!HasFindIfR<InputRangeNotSentinelSemiregular>);
59*ee0f8c40SNikolas Klauser static_assert(!HasFindIfR<InputRangeNotSentinelEqualityComparableWith>);
60*ee0f8c40SNikolas Klauser
61*ee0f8c40SNikolas Klauser template <class It, class Sent = It>
test_iterators()62*ee0f8c40SNikolas Klauser constexpr void test_iterators() {
63*ee0f8c40SNikolas Klauser {
64*ee0f8c40SNikolas Klauser int a[] = {1, 2, 3, 4};
65*ee0f8c40SNikolas Klauser std::same_as<It> auto ret = std::ranges::find_if(It(a), Sent(It(a + 4)), [](int x) mutable { return x == 4; });
66*ee0f8c40SNikolas Klauser assert(base(ret) == a + 3);
67*ee0f8c40SNikolas Klauser assert(*ret == 4);
68*ee0f8c40SNikolas Klauser }
69*ee0f8c40SNikolas Klauser {
70*ee0f8c40SNikolas Klauser int a[] = {1, 2, 3, 4};
71*ee0f8c40SNikolas Klauser auto range = std::ranges::subrange(It(a), Sent(It(a + 4)));
72*ee0f8c40SNikolas Klauser std::same_as<It> auto ret = std::ranges::find_if(range, [](int x) mutable { return x == 4; });
73*ee0f8c40SNikolas Klauser assert(base(ret) == a + 3);
74*ee0f8c40SNikolas Klauser assert(*ret == 4);
75*ee0f8c40SNikolas Klauser }
76*ee0f8c40SNikolas Klauser }
77*ee0f8c40SNikolas Klauser
78*ee0f8c40SNikolas Klauser struct NonConstComparable {
operator ==(const NonConstComparable &,const NonConstComparable &)79*ee0f8c40SNikolas Klauser friend constexpr bool operator==(const NonConstComparable&, const NonConstComparable&) { return false; }
operator ==(NonConstComparable &,NonConstComparable &)80*ee0f8c40SNikolas Klauser friend constexpr bool operator==(NonConstComparable&, NonConstComparable&) { return false; }
operator ==(const NonConstComparable &,NonConstComparable &)81*ee0f8c40SNikolas Klauser friend constexpr bool operator==(const NonConstComparable&, NonConstComparable&) { return false; }
operator ==(NonConstComparable &,const NonConstComparable &)82*ee0f8c40SNikolas Klauser friend constexpr bool operator==(NonConstComparable&, const NonConstComparable&) { return true; }
83*ee0f8c40SNikolas Klauser };
84*ee0f8c40SNikolas Klauser
test()85*ee0f8c40SNikolas Klauser constexpr bool test() {
86*ee0f8c40SNikolas Klauser test_iterators<int*>();
87*ee0f8c40SNikolas Klauser test_iterators<const int*>();
88*ee0f8c40SNikolas Klauser test_iterators<cpp20_input_iterator<int*>, sentinel_wrapper<cpp20_input_iterator<int*>>>();
89*ee0f8c40SNikolas Klauser test_iterators<bidirectional_iterator<int*>>();
90*ee0f8c40SNikolas Klauser test_iterators<forward_iterator<int*>>();
91*ee0f8c40SNikolas Klauser test_iterators<random_access_iterator<int*>>();
92*ee0f8c40SNikolas Klauser test_iterators<contiguous_iterator<int*>>();
93*ee0f8c40SNikolas Klauser
94*ee0f8c40SNikolas Klauser {
95*ee0f8c40SNikolas Klauser // check that projections are used properly and that they are called with the iterator directly
96*ee0f8c40SNikolas Klauser {
97*ee0f8c40SNikolas Klauser int a[] = {1, 2, 3, 4};
98*ee0f8c40SNikolas Klauser auto ret = std::ranges::find_if(a, a + 4, [&](int* i) { return i == a + 3; }, [](int& i) { return &i; });
99*ee0f8c40SNikolas Klauser assert(ret == a + 3);
100*ee0f8c40SNikolas Klauser }
101*ee0f8c40SNikolas Klauser {
102*ee0f8c40SNikolas Klauser int a[] = {1, 2, 3, 4};
103*ee0f8c40SNikolas Klauser auto ret = std::ranges::find_if(a, [&](int* i) { return i == a + 3; }, [](int& i) { return &i; });
104*ee0f8c40SNikolas Klauser assert(ret == a + 3);
105*ee0f8c40SNikolas Klauser }
106*ee0f8c40SNikolas Klauser }
107*ee0f8c40SNikolas Klauser
108*ee0f8c40SNikolas Klauser {
109*ee0f8c40SNikolas Klauser // check that the first element is returned
110*ee0f8c40SNikolas Klauser {
111*ee0f8c40SNikolas Klauser struct S {
112*ee0f8c40SNikolas Klauser int comp;
113*ee0f8c40SNikolas Klauser int other;
114*ee0f8c40SNikolas Klauser };
115*ee0f8c40SNikolas Klauser S a[] = { {0, 0}, {0, 2}, {0, 1} };
116*ee0f8c40SNikolas Klauser auto ret = std::ranges::find_if(a, [](int i){ return i == 0; }, &S::comp);
117*ee0f8c40SNikolas Klauser assert(ret == a);
118*ee0f8c40SNikolas Klauser assert(ret->comp == 0);
119*ee0f8c40SNikolas Klauser assert(ret->other == 0);
120*ee0f8c40SNikolas Klauser }
121*ee0f8c40SNikolas Klauser {
122*ee0f8c40SNikolas Klauser struct S {
123*ee0f8c40SNikolas Klauser int comp;
124*ee0f8c40SNikolas Klauser int other;
125*ee0f8c40SNikolas Klauser };
126*ee0f8c40SNikolas Klauser S a[] = { {0, 0}, {0, 2}, {0, 1} };
127*ee0f8c40SNikolas Klauser auto ret = std::ranges::find_if(a, a + 3, [](int i) { return i == 0; }, &S::comp);
128*ee0f8c40SNikolas Klauser assert(ret == a);
129*ee0f8c40SNikolas Klauser assert(ret->comp == 0);
130*ee0f8c40SNikolas Klauser assert(ret->other == 0);
131*ee0f8c40SNikolas Klauser }
132*ee0f8c40SNikolas Klauser }
133*ee0f8c40SNikolas Klauser
134*ee0f8c40SNikolas Klauser {
135*ee0f8c40SNikolas Klauser // check that end + 1 iterator is returned with no match
136*ee0f8c40SNikolas Klauser {
137*ee0f8c40SNikolas Klauser int a[] = {1, 1, 1};
138*ee0f8c40SNikolas Klauser auto ret = std::ranges::find_if(a, a + 3, [](int) { return false; });
139*ee0f8c40SNikolas Klauser assert(ret == a + 3);
140*ee0f8c40SNikolas Klauser }
141*ee0f8c40SNikolas Klauser {
142*ee0f8c40SNikolas Klauser int a[] = {1, 1, 1};
143*ee0f8c40SNikolas Klauser auto ret = std::ranges::find_if(a, [](int){ return false; });
144*ee0f8c40SNikolas Klauser assert(ret == a + 3);
145*ee0f8c40SNikolas Klauser }
146*ee0f8c40SNikolas Klauser }
147*ee0f8c40SNikolas Klauser
148*ee0f8c40SNikolas Klauser {
149*ee0f8c40SNikolas Klauser // check that ranges::dangling is returned
150*ee0f8c40SNikolas Klauser [[maybe_unused]] std::same_as<std::ranges::dangling> auto ret =
151*ee0f8c40SNikolas Klauser std::ranges::find_if(std::array{1, 2}, [](int){ return false; });
152*ee0f8c40SNikolas Klauser }
153*ee0f8c40SNikolas Klauser
154*ee0f8c40SNikolas Klauser {
155*ee0f8c40SNikolas Klauser // check that an iterator is returned with a borrowing range
156*ee0f8c40SNikolas Klauser int a[] = {1, 2, 3, 4};
157*ee0f8c40SNikolas Klauser std::same_as<int*> auto ret = std::ranges::find_if(std::views::all(a), [](int){ return true; });
158*ee0f8c40SNikolas Klauser assert(ret == a);
159*ee0f8c40SNikolas Klauser assert(*ret == 1);
160*ee0f8c40SNikolas Klauser }
161*ee0f8c40SNikolas Klauser
162*ee0f8c40SNikolas Klauser {
163*ee0f8c40SNikolas Klauser // check that std::invoke is used
164*ee0f8c40SNikolas Klauser struct S { int i; };
165*ee0f8c40SNikolas Klauser S a[] = { S{1}, S{3}, S{2} };
166*ee0f8c40SNikolas Klauser std::same_as<S*> auto ret = std::ranges::find_if(a, [](int) { return false; }, &S::i);
167*ee0f8c40SNikolas Klauser assert(ret == a + 3);
168*ee0f8c40SNikolas Klauser }
169*ee0f8c40SNikolas Klauser
170*ee0f8c40SNikolas Klauser {
171*ee0f8c40SNikolas Klauser // count projection and predicate invocation count
172*ee0f8c40SNikolas Klauser {
173*ee0f8c40SNikolas Klauser int a[] = {1, 2, 3, 4};
174*ee0f8c40SNikolas Klauser int predicate_count = 0;
175*ee0f8c40SNikolas Klauser int projection_count = 0;
176*ee0f8c40SNikolas Klauser auto ret = std::ranges::find_if(a, a + 4,
177*ee0f8c40SNikolas Klauser [&](int i) { ++predicate_count; return i == 2; },
178*ee0f8c40SNikolas Klauser [&](int i) { ++projection_count; return i; });
179*ee0f8c40SNikolas Klauser assert(ret == a + 1);
180*ee0f8c40SNikolas Klauser assert(*ret == 2);
181*ee0f8c40SNikolas Klauser assert(predicate_count == 2);
182*ee0f8c40SNikolas Klauser assert(projection_count == 2);
183*ee0f8c40SNikolas Klauser }
184*ee0f8c40SNikolas Klauser {
185*ee0f8c40SNikolas Klauser int a[] = {1, 2, 3, 4};
186*ee0f8c40SNikolas Klauser int predicate_count = 0;
187*ee0f8c40SNikolas Klauser int projection_count = 0;
188*ee0f8c40SNikolas Klauser auto ret = std::ranges::find_if(a,
189*ee0f8c40SNikolas Klauser [&](int i) { ++predicate_count; return i == 2; },
190*ee0f8c40SNikolas Klauser [&](int i) { ++projection_count; return i; });
191*ee0f8c40SNikolas Klauser assert(ret == a + 1);
192*ee0f8c40SNikolas Klauser assert(*ret == 2);
193*ee0f8c40SNikolas Klauser assert(predicate_count == 2);
194*ee0f8c40SNikolas Klauser assert(projection_count == 2);
195*ee0f8c40SNikolas Klauser }
196*ee0f8c40SNikolas Klauser }
197*ee0f8c40SNikolas Klauser
198*ee0f8c40SNikolas Klauser {
199*ee0f8c40SNikolas Klauser // check that the return type of `iter::operator*` doesn't change
200*ee0f8c40SNikolas Klauser {
201*ee0f8c40SNikolas Klauser NonConstComparable a[] = { NonConstComparable{} };
202*ee0f8c40SNikolas Klauser auto ret = std::ranges::find_if(a, a + 1, [](auto&& e) { return e == NonConstComparable{}; });
203*ee0f8c40SNikolas Klauser assert(ret == a);
204*ee0f8c40SNikolas Klauser }
205*ee0f8c40SNikolas Klauser {
206*ee0f8c40SNikolas Klauser NonConstComparable a[] = { NonConstComparable{} };
207*ee0f8c40SNikolas Klauser auto ret = std::ranges::find_if(a, [](auto&& e) { return e == NonConstComparable{}; });
208*ee0f8c40SNikolas Klauser assert(ret == a);
209*ee0f8c40SNikolas Klauser }
210*ee0f8c40SNikolas Klauser }
211*ee0f8c40SNikolas Klauser
212*ee0f8c40SNikolas Klauser {
213*ee0f8c40SNikolas Klauser // check that an empty range works
214*ee0f8c40SNikolas Klauser {
215*ee0f8c40SNikolas Klauser std::array<int ,0> a = {};
216*ee0f8c40SNikolas Klauser auto ret = std::ranges::find_if(a.begin(), a.end(), [](int) { return true; });
217*ee0f8c40SNikolas Klauser assert(ret == a.begin());
218*ee0f8c40SNikolas Klauser }
219*ee0f8c40SNikolas Klauser {
220*ee0f8c40SNikolas Klauser std::array<int, 0> a = {};
221*ee0f8c40SNikolas Klauser auto ret = std::ranges::find_if(a, [](int) { return true; });
222*ee0f8c40SNikolas Klauser assert(ret == a.begin());
223*ee0f8c40SNikolas Klauser }
224*ee0f8c40SNikolas Klauser }
225*ee0f8c40SNikolas Klauser
226*ee0f8c40SNikolas Klauser return true;
227*ee0f8c40SNikolas Klauser }
228*ee0f8c40SNikolas Klauser
main(int,char **)229*ee0f8c40SNikolas Klauser int main(int, char**) {
230*ee0f8c40SNikolas Klauser test();
231*ee0f8c40SNikolas Klauser static_assert(test());
232*ee0f8c40SNikolas Klauser
233*ee0f8c40SNikolas Klauser return 0;
234*ee0f8c40SNikolas Klauser }
235