godot/thirdparty/basis_universal/transcoder/basisu_containers_impl.h

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// basisu_containers_impl.h
// Do not include directly
#ifdef _MSC_VER
#pragma warning (disable:4127) // warning C4127: conditional expression is constant
#endif
namespace basisu
{
bool elemental_vector::increase_capacity(uint32_t min_new_capacity, bool grow_hint, uint32_t element_size, object_mover pMover, bool nofail)
{
assert(m_size <= m_capacity);
if (sizeof(void *) == sizeof(uint64_t))
assert(min_new_capacity < (0x400000000ULL / element_size));
else
assert(min_new_capacity < (0x7FFF0000U / element_size));
if (m_capacity >= min_new_capacity)
return true;
size_t new_capacity = min_new_capacity;
if ((grow_hint) && (!helpers::is_power_of_2((uint64_t)new_capacity)))
{
new_capacity = (size_t)helpers::next_pow2((uint64_t)new_capacity);
assert(new_capacity && (new_capacity > m_capacity));
if (new_capacity < min_new_capacity)
{
if (nofail)
return false;
fprintf(stderr, "vector too large\n");
abort();
}
}
const size_t desired_size = element_size * new_capacity;
size_t actual_size = 0;
if (!pMover)
{
void* new_p = realloc(m_p, desired_size);
if (!new_p)
{
if (nofail)
return false;
char buf[256];
#ifdef _MSC_VER
sprintf_s(buf, sizeof(buf), "vector: realloc() failed allocating %u bytes", (uint32_t)desired_size);
#else
sprintf(buf, "vector: realloc() failed allocating %u bytes", (uint32_t)desired_size);
#endif
fprintf(stderr, "%s", buf);
abort();
}
#if BASISU_VECTOR_DETERMINISTIC
actual_size = desired_size;
#elif defined(_MSC_VER)
actual_size = _msize(new_p);
#elif HAS_MALLOC_USABLE_SIZE
actual_size = malloc_usable_size(new_p);
#else
actual_size = desired_size;
#endif
m_p = new_p;
}
else
{
void* new_p = malloc(desired_size);
if (!new_p)
{
if (nofail)
return false;
char buf[256];
#ifdef _MSC_VER
sprintf_s(buf, sizeof(buf), "vector: malloc() failed allocating %u bytes", (uint32_t)desired_size);
#else
sprintf(buf, "vector: malloc() failed allocating %u bytes", (uint32_t)desired_size);
#endif
fprintf(stderr, "%s", buf);
abort();
}
#if BASISU_VECTOR_DETERMINISTIC
actual_size = desired_size;
#elif defined(_MSC_VER)
actual_size = _msize(new_p);
#elif HAS_MALLOC_USABLE_SIZE
actual_size = malloc_usable_size(new_p);
#else
actual_size = desired_size;
#endif
(*pMover)(new_p, m_p, m_size);
if (m_p)
free(m_p);
m_p = new_p;
}
if (actual_size > desired_size)
m_capacity = static_cast<uint32_t>(actual_size / element_size);
else
m_capacity = static_cast<uint32_t>(new_capacity);
return true;
}
#if BASISU_HASHMAP_TEST
#define HASHMAP_TEST_VERIFY(c) do { if (!(c)) handle_hashmap_test_verify_failure(__LINE__); } while(0)
static void handle_hashmap_test_verify_failure(int line)
{
fprintf(stderr, "HASHMAP_TEST_VERIFY() faild on line %i\n", line);
abort();
}
class counted_obj
{
public:
counted_obj(uint32_t v = 0) :
m_val(v)
{
m_count++;
}
counted_obj(const counted_obj& obj) :
m_val(obj.m_val)
{
m_count++;
}
~counted_obj()
{
assert(m_count > 0);
m_count--;
}
static uint32_t m_count;
uint32_t m_val;
operator size_t() const { return m_val; }
bool operator== (const counted_obj& rhs) const { return m_val == rhs.m_val; }
bool operator== (const uint32_t rhs) const { return m_val == rhs; }
};
uint32_t counted_obj::m_count;
static uint32_t urand32()
{
uint32_t a = rand();
uint32_t b = rand() << 15;
uint32_t c = rand() << (32 - 15);
return a ^ b ^ c;
}
static int irand32(int l, int h)
{
assert(l < h);
if (l >= h)
return l;
uint32_t range = static_cast<uint32_t>(h - l);
uint32_t rnd = urand32();
uint32_t rnd_range = static_cast<uint32_t>((((uint64_t)range) * ((uint64_t)rnd)) >> 32U);
int result = l + rnd_range;
assert((result >= l) && (result < h));
return result;
}
void hash_map_test()
{
{
basisu::hash_map<uint64_t, uint64_t> k;
basisu::hash_map<uint64_t, uint64_t> l;
std::swap(k, l);
k.begin();
k.end();
k.clear();
k.empty();
k.erase(0);
k.insert(0, 1);
k.find(0);
k.get_equals();
k.get_hasher();
k.get_table_size();
k.reset();
k.reserve(1);
k = l;
k.set_equals(l.get_equals());
k.set_hasher(l.get_hasher());
k.get_table_size();
}
uint32_t seed = 0;
for (; ; )
{
seed++;
typedef basisu::hash_map<counted_obj, counted_obj> my_hash_map;
my_hash_map m;
const uint32_t n = irand32(0, 100000);
printf("%u\n", n);
srand(seed); // r1.seed(seed);
basisu::vector<int> q;
uint32_t count = 0;
for (uint32_t i = 0; i < n; i++)
{
uint32_t v = urand32() & 0x7FFFFFFF;
my_hash_map::insert_result res = m.insert(counted_obj(v), counted_obj(v ^ 0xdeadbeef));
if (res.second)
{
count++;
q.push_back(v);
}
}
HASHMAP_TEST_VERIFY(m.size() == count);
srand(seed);
my_hash_map cm(m);
m.clear();
m = cm;
cm.reset();
for (uint32_t i = 0; i < n; i++)
{
uint32_t v = urand32() & 0x7FFFFFFF;
my_hash_map::const_iterator it = m.find(counted_obj(v));
HASHMAP_TEST_VERIFY(it != m.end());
HASHMAP_TEST_VERIFY(it->first == v);
HASHMAP_TEST_VERIFY(it->second == (v ^ 0xdeadbeef));
}
for (uint32_t t = 0; t < 2; t++)
{
const uint32_t nd = irand32(1, q.size() + 1);
for (uint32_t i = 0; i < nd; i++)
{
uint32_t p = irand32(0, q.size());
int k = q[p];
if (k >= 0)
{
q[p] = -k - 1;
bool s = m.erase(counted_obj(k));
HASHMAP_TEST_VERIFY(s);
}
}
typedef basisu::hash_map<uint32_t, empty_type> uint_hash_set;
uint_hash_set s;
for (uint32_t i = 0; i < q.size(); i++)
{
int v = q[i];
if (v >= 0)
{
my_hash_map::const_iterator it = m.find(counted_obj(v));
HASHMAP_TEST_VERIFY(it != m.end());
HASHMAP_TEST_VERIFY(it->first == (uint32_t)v);
HASHMAP_TEST_VERIFY(it->second == ((uint32_t)v ^ 0xdeadbeef));
s.insert(v);
}
else
{
my_hash_map::const_iterator it = m.find(counted_obj(-v - 1));
HASHMAP_TEST_VERIFY(it == m.end());
}
}
uint32_t found_count = 0;
for (my_hash_map::const_iterator it = m.begin(); it != m.end(); ++it)
{
HASHMAP_TEST_VERIFY(it->second == ((uint32_t)it->first ^ 0xdeadbeef));
uint_hash_set::const_iterator fit(s.find((uint32_t)it->first));
HASHMAP_TEST_VERIFY(fit != s.end());
HASHMAP_TEST_VERIFY(fit->first == it->first);
found_count++;
}
HASHMAP_TEST_VERIFY(found_count == s.size());
}
HASHMAP_TEST_VERIFY(counted_obj::m_count == m.size() * 2);
}
}
#endif // BASISU_HASHMAP_TEST
} // namespace basisu