1*8d741a5dSApple OSS Distributions //
2*8d741a5dSApple OSS Distributions // Tests for
3*8d741a5dSApple OSS Distributions // T* data();
4*8d741a5dSApple OSS Distributions // T const* data() const;
5*8d741a5dSApple OSS Distributions //
6*8d741a5dSApple OSS Distributions
7*8d741a5dSApple OSS Distributions #include <libkern/c++/bounded_array.h>
8*8d741a5dSApple OSS Distributions #include "test_policy.h"
9*8d741a5dSApple OSS Distributions #include <darwintest.h>
10*8d741a5dSApple OSS Distributions #include <type_traits>
11*8d741a5dSApple OSS Distributions
12*8d741a5dSApple OSS Distributions struct T { int i; };
13*8d741a5dSApple OSS Distributions inline bool
operator ==(T const & a,T const & b)14*8d741a5dSApple OSS Distributions operator==(T const& a, T const& b)
15*8d741a5dSApple OSS Distributions {
16*8d741a5dSApple OSS Distributions return a.i == b.i;
17*8d741a5dSApple OSS Distributions }
18*8d741a5dSApple OSS Distributions
19*8d741a5dSApple OSS Distributions template <typename T>
20*8d741a5dSApple OSS Distributions static void
tests()21*8d741a5dSApple OSS Distributions tests()
22*8d741a5dSApple OSS Distributions {
23*8d741a5dSApple OSS Distributions {
24*8d741a5dSApple OSS Distributions test_bounded_array<T, 5> array = {T{0}, T{1}, T{2}, T{3}, T{4}};
25*8d741a5dSApple OSS Distributions T* data = array.data();
26*8d741a5dSApple OSS Distributions CHECK(data != nullptr);
27*8d741a5dSApple OSS Distributions CHECK(data[0] == T{0});
28*8d741a5dSApple OSS Distributions CHECK(data[1] == T{1});
29*8d741a5dSApple OSS Distributions CHECK(data[2] == T{2});
30*8d741a5dSApple OSS Distributions CHECK(data[3] == T{3});
31*8d741a5dSApple OSS Distributions CHECK(data[4] == T{4});
32*8d741a5dSApple OSS Distributions }
33*8d741a5dSApple OSS Distributions {
34*8d741a5dSApple OSS Distributions test_bounded_array<T, 5> const array = {T{0}, T{1}, T{2}, T{3}, T{4}};
35*8d741a5dSApple OSS Distributions T const* data = array.data();
36*8d741a5dSApple OSS Distributions CHECK(data != nullptr);
37*8d741a5dSApple OSS Distributions CHECK(data[0] == T{0});
38*8d741a5dSApple OSS Distributions CHECK(data[1] == T{1});
39*8d741a5dSApple OSS Distributions CHECK(data[2] == T{2});
40*8d741a5dSApple OSS Distributions CHECK(data[3] == T{3});
41*8d741a5dSApple OSS Distributions CHECK(data[4] == T{4});
42*8d741a5dSApple OSS Distributions }
43*8d741a5dSApple OSS Distributions
44*8d741a5dSApple OSS Distributions {
45*8d741a5dSApple OSS Distributions test_bounded_array<T, 0> array = {};
46*8d741a5dSApple OSS Distributions T* data = array.data();
47*8d741a5dSApple OSS Distributions CHECK(data != nullptr);
48*8d741a5dSApple OSS Distributions }
49*8d741a5dSApple OSS Distributions {
50*8d741a5dSApple OSS Distributions test_bounded_array<T, 0> const array = {};
51*8d741a5dSApple OSS Distributions T const* data = array.data();
52*8d741a5dSApple OSS Distributions CHECK(data != nullptr);
53*8d741a5dSApple OSS Distributions }
54*8d741a5dSApple OSS Distributions }
55*8d741a5dSApple OSS Distributions
56*8d741a5dSApple OSS Distributions T_DECL(data, "bounded_array.data", T_META_TAG_VM_PREFERRED) {
57*8d741a5dSApple OSS Distributions tests<T>();
58*8d741a5dSApple OSS Distributions }
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