1*5e3eaea3SApple OSS Distributions //
2*5e3eaea3SApple OSS Distributions // Tests for
3*5e3eaea3SApple OSS Distributions // iterator begin();
4*5e3eaea3SApple OSS Distributions // const_iterator begin() const;
5*5e3eaea3SApple OSS Distributions //
6*5e3eaea3SApple OSS Distributions // iterator end();
7*5e3eaea3SApple OSS Distributions // const_iterator end() const;
8*5e3eaea3SApple OSS Distributions //
9*5e3eaea3SApple OSS Distributions
10*5e3eaea3SApple OSS Distributions #include <libkern/c++/bounded_array.h>
11*5e3eaea3SApple OSS Distributions #include "test_policy.h"
12*5e3eaea3SApple OSS Distributions #include <darwintest.h>
13*5e3eaea3SApple OSS Distributions #include <type_traits>
14*5e3eaea3SApple OSS Distributions
15*5e3eaea3SApple OSS Distributions struct T { int i; };
16*5e3eaea3SApple OSS Distributions
17*5e3eaea3SApple OSS Distributions template <typename T>
18*5e3eaea3SApple OSS Distributions static void
tests()19*5e3eaea3SApple OSS Distributions tests()
20*5e3eaea3SApple OSS Distributions {
21*5e3eaea3SApple OSS Distributions // Check begin()/end() for a non-empty array
22*5e3eaea3SApple OSS Distributions {
23*5e3eaea3SApple OSS Distributions test_bounded_array<T, 5> array = {T{0}, T{1}, T{2}, T{3}, T{4}};
24*5e3eaea3SApple OSS Distributions test_bounded_ptr<T> begin = array.begin();
25*5e3eaea3SApple OSS Distributions test_bounded_ptr<T> end = array.end();
26*5e3eaea3SApple OSS Distributions CHECK(begin.discard_bounds() == array.data());
27*5e3eaea3SApple OSS Distributions CHECK(end.unsafe_discard_bounds() == array.data() + 5);
28*5e3eaea3SApple OSS Distributions }
29*5e3eaea3SApple OSS Distributions {
30*5e3eaea3SApple OSS Distributions test_bounded_array<T, 5> const array = {T{0}, T{1}, T{2}, T{3}, T{4}};
31*5e3eaea3SApple OSS Distributions test_bounded_ptr<T const> begin = array.begin();
32*5e3eaea3SApple OSS Distributions test_bounded_ptr<T const> end = array.end();
33*5e3eaea3SApple OSS Distributions CHECK(begin.discard_bounds() == array.data());
34*5e3eaea3SApple OSS Distributions CHECK(end.unsafe_discard_bounds() == array.data() + 5);
35*5e3eaea3SApple OSS Distributions }
36*5e3eaea3SApple OSS Distributions
37*5e3eaea3SApple OSS Distributions // Check begin()/end() for an empty array
38*5e3eaea3SApple OSS Distributions {
39*5e3eaea3SApple OSS Distributions test_bounded_array<T, 0> array = {};
40*5e3eaea3SApple OSS Distributions test_bounded_ptr<T> begin = array.begin();
41*5e3eaea3SApple OSS Distributions test_bounded_ptr<T> end = array.end();
42*5e3eaea3SApple OSS Distributions CHECK(begin.unsafe_discard_bounds() == array.data());
43*5e3eaea3SApple OSS Distributions CHECK(end.unsafe_discard_bounds() == array.data());
44*5e3eaea3SApple OSS Distributions }
45*5e3eaea3SApple OSS Distributions {
46*5e3eaea3SApple OSS Distributions test_bounded_array<T, 0> const array = {};
47*5e3eaea3SApple OSS Distributions test_bounded_ptr<T const> begin = array.begin();
48*5e3eaea3SApple OSS Distributions test_bounded_ptr<T const> end = array.end();
49*5e3eaea3SApple OSS Distributions CHECK(begin.unsafe_discard_bounds() == array.data());
50*5e3eaea3SApple OSS Distributions CHECK(end.unsafe_discard_bounds() == array.data());
51*5e3eaea3SApple OSS Distributions }
52*5e3eaea3SApple OSS Distributions
53*5e3eaea3SApple OSS Distributions // Check associated types
54*5e3eaea3SApple OSS Distributions {
55*5e3eaea3SApple OSS Distributions using A = test_bounded_array<T, 10>;
56*5e3eaea3SApple OSS Distributions static_assert(std::is_same_v<typename A::iterator, test_bounded_ptr<T> >);
57*5e3eaea3SApple OSS Distributions static_assert(std::is_same_v<typename A::const_iterator, test_bounded_ptr<T const> >);
58*5e3eaea3SApple OSS Distributions }
59*5e3eaea3SApple OSS Distributions }
60*5e3eaea3SApple OSS Distributions
61*5e3eaea3SApple OSS Distributions T_DECL(begin_end, "bounded_array.begin_end") {
62*5e3eaea3SApple OSS Distributions tests<T>();
63*5e3eaea3SApple OSS Distributions }
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