libcruft-util/test/alloc/aligned/foreign.cpp

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#include <cruft/util/alloc/aligned/foreign.hpp>
#include <cruft/util/alloc/linear.hpp>
#include <cruft/util/pointer.hpp>
#include <cruft/util/tap.hpp>
int
main ()
{
static u08 buffer[1024*1024];
static constexpr std::size_t alignment = 3;
static constexpr std::size_t increment = 1;
// ensure we have an base pointer that's off-by-one to a likely natural
// system alignment
u08* base = cruft::align::up (
std::data (buffer),
alignof (std::max_align_t)
) + increment;
cruft::alloc::aligned::foreign<cruft::alloc::linear> alloc (
cruft::view(base,std::end(buffer)),
alignment
);
cruft::TAP::logger tap;
// ensure the first element allocated falls at the base address
tap.expect_eq (base, alloc.data (), "allocator base address is the supplied base address");
tap.expect_eq (base, alloc.allocate (8).data (), "first allocation is the supplied base address");
// allocate a range of values and make sure they all satisfy our alignment.
// don't choose values which are likely to combine with the testing
// alignment to produce a likely system alignment. eg, 3 + 5 == 8 which is
// a power-of-2.
static const struct {
size_t size;
const char *message;
} TESTS[] = {
{ 9, "just over a power of two" },
{ 1, "a single byte" },
{ 64, "a cache line" },
{ 250, "multiple cache lines, but not a power of two" },
};
for (const auto &t: TESTS) {
auto ptr = reinterpret_cast<uintptr_t> (alloc.allocate (t.size).data ());
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auto offset = ptr - reinterpret_cast<uintptr_t> (base);
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tap.expect_mod (offset, alignment, "{:s}", t.message);
}
return tap.status ();
};