#include <libkern/c++/bounded_ptr.h>
#include <array>
#include <cstddef>
#include <darwintest.h>
#include <darwintest_utils.h>
#include "test_utils.h"
#define _assert(...) T_ASSERT_TRUE((__VA_ARGS__), # __VA_ARGS__)
struct T {
int i;
friend constexpr bool
operator==(T const& a, T const& b)
{
return a.i == b.i;
}
};
namespace {
struct tracking_policy {
static bool did_trap;
static void
trap(char const*)
{
did_trap = true;
}
};
bool tracking_policy::did_trap = false;
}
template <typename T, typename QualT>
static void
tests()
{
std::array<T, 5> array = {T{0}, T{1}, T{2}, T{3}, T{4}};
{
test_bounded_ptr<QualT> ptr(array.begin() + 0, array.begin(), array.end());
QualT& ref0 = ptr[0];
_assert(&ref0 == &array[0]);
QualT& ref1 = ptr[1];
_assert(&ref1 == &array[1]);
QualT& ref2 = ptr[2];
_assert(&ref2 == &array[2]);
QualT& ref3 = ptr[3];
_assert(&ref3 == &array[3]);
QualT& ref4 = ptr[4];
_assert(&ref4 == &array[4]);
}
{
test_bounded_ptr<QualT> ptr(array.begin() + 1, array.begin(), array.end());
QualT& ref0 = ptr[-1];
_assert(&ref0 == &array[0]);
QualT& ref1 = ptr[0];
_assert(&ref1 == &array[1]);
QualT& ref2 = ptr[1];
_assert(&ref2 == &array[2]);
QualT& ref3 = ptr[2];
_assert(&ref3 == &array[3]);
QualT& ref4 = ptr[3];
_assert(&ref4 == &array[4]);
}
{
test_bounded_ptr<QualT> ptr(array.begin() + 2, array.begin(), array.end());
QualT& ref0 = ptr[-2];
_assert(&ref0 == &array[0]);
QualT& ref1 = ptr[-1];
_assert(&ref1 == &array[1]);
QualT& ref2 = ptr[0];
_assert(&ref2 == &array[2]);
QualT& ref3 = ptr[1];
_assert(&ref3 == &array[3]);
QualT& ref4 = ptr[2];
_assert(&ref4 == &array[4]);
}
{
test_bounded_ptr<QualT> ptr(array.begin() + 4, array.begin(), array.end());
QualT& ref0 = ptr[-4];
_assert(&ref0 == &array[0]);
QualT& ref1 = ptr[-3];
_assert(&ref1 == &array[1]);
QualT& ref2 = ptr[-2];
_assert(&ref2 == &array[2]);
QualT& ref3 = ptr[-1];
_assert(&ref3 == &array[3]);
QualT& ref4 = ptr[0];
_assert(&ref4 == &array[4]);
}
{
test_bounded_ptr<QualT> ptr(array.end(), array.begin(), array.end());
QualT& ref0 = ptr[-5];
_assert(&ref0 == &array[0]);
QualT& ref1 = ptr[-4];
_assert(&ref1 == &array[1]);
QualT& ref2 = ptr[-3];
_assert(&ref2 == &array[2]);
QualT& ref3 = ptr[-2];
_assert(&ref3 == &array[3]);
QualT& ref4 = ptr[-1];
_assert(&ref4 == &array[4]);
}
{
libkern::bounded_ptr<QualT, tracking_policy> ptr(array.end() - 1, array.begin(), array.end() - 2);
tracking_policy::did_trap = false;
(void)ptr[-4];
_assert(!tracking_policy::did_trap);
tracking_policy::did_trap = false;
(void)ptr[-3];
_assert(!tracking_policy::did_trap);
tracking_policy::did_trap = false;
(void)ptr[-2];
_assert(!tracking_policy::did_trap);
tracking_policy::did_trap = false;
(void)ptr[-1]; _assert(tracking_policy::did_trap);
tracking_policy::did_trap = false;
(void)ptr[0]; _assert(tracking_policy::did_trap);
}
{
libkern::bounded_ptr<QualT, tracking_policy> ptr(array.begin() + 1, array.begin(), array.end());
tracking_policy::did_trap = false;
(void)ptr[-1];
_assert(!tracking_policy::did_trap);
tracking_policy::did_trap = false;
(void)ptr[0];
_assert(!tracking_policy::did_trap);
tracking_policy::did_trap = false;
(void)ptr[1];
_assert(!tracking_policy::did_trap);
tracking_policy::did_trap = false;
(void)ptr[2];
_assert(!tracking_policy::did_trap);
tracking_policy::did_trap = false;
(void)ptr[3];
_assert(!tracking_policy::did_trap);
tracking_policy::did_trap = false;
(void)ptr[4]; _assert(tracking_policy::did_trap);
}
{
libkern::bounded_ptr<QualT, tracking_policy> ptr(array.begin(), array.begin() + 1, array.end() - 1);
tracking_policy::did_trap = false;
(void)ptr[0]; _assert(tracking_policy::did_trap);
tracking_policy::did_trap = false;
(void)ptr[1];
_assert(!tracking_policy::did_trap);
tracking_policy::did_trap = false;
(void)ptr[2];
_assert(!tracking_policy::did_trap);
tracking_policy::did_trap = false;
(void)ptr[3];
_assert(!tracking_policy::did_trap);
tracking_policy::did_trap = false;
(void)ptr[4]; _assert(tracking_policy::did_trap);
tracking_policy::did_trap = false;
(void)ptr[5]; _assert(tracking_policy::did_trap);
}
}
T_DECL(subscript, "bounded_ptr.subscript") {
tests<T, T>();
tests<T, T const>();
tests<T, T volatile>();
tests<T, T const volatile>();
test_bounded_ptr<void> p1;
test_bounded_ptr<void const> p2;
test_bounded_ptr<void volatile> p3;
test_bounded_ptr<void const volatile> p4;
}