historical/toontown-classic.git/panda/include/stl_compares.I
2024-01-16 11:20:27 -06:00

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/**
* PANDA 3D SOFTWARE
* Copyright (c) Carnegie Mellon University. All rights reserved.
*
* All use of this software is subject to the terms of the revised BSD
* license. You should have received a copy of this license along
* with this source code in a file named "LICENSE."
*
* @file stl_compares.I
* @author drose
* @date 2004-09-28
*/
/**
*
*/
template<class Key>
INLINE floating_point_threshold<Key>::
floating_point_threshold(Key threshold) :
_threshold(threshold)
{
}
/**
* Returns true if a sorts before b, false otherwise.
*/
template<class Key>
INLINE bool floating_point_threshold<Key>::
operator () (const Key &a, const Key &b) const {
return cfloor(a / _threshold + 0.5f) < cfloor(b / _threshold + 0.5f);
}
/**
* Returns true if a sorts before b, false otherwise.
*/
template<class Key>
INLINE bool compare_to<Key>::
operator () (const Key &a, const Key &b) const {
return (a.compare_to(b) < 0);
}
/**
* Returns true if a is equivalent to b, false otherwise.
*/
template<class Key>
INLINE bool compare_to<Key>::
is_equal(const Key &a, const Key &b) const {
return (a.compare_to(b) == 0);
}
/**
* Returns true if a sorts before b, false otherwise.
*/
template<class Key>
INLINE bool indirect_less<Key>::
operator () (const Key &a, const Key &b) const {
return (a != b && (*a) < (*b));
}
/**
* Returns true if a sorts before b, false otherwise.
*/
template<class Key>
INLINE bool indirect_compare_to<Key>::
operator () (const Key &a, const Key &b) const {
return (a != b && (*a).compare_to(*b) < 0);
}
/**
* Returns true if a is equivalent to b, false otherwise.
*/
template<class Key>
INLINE bool indirect_compare_to<Key>::
is_equal(const Key &a, const Key &b) const {
return (a == b || (*a).compare_to(*b) == 0);
}
/**
* Returns true if a sorts before b, false otherwise.
*/
template<class Key>
INLINE bool indirect_compare_names<Key>::
operator () (const Key &a, const Key &b) const {
return (a != b && (*a).get_name() < (*b).get_name());
}
/**
* Returns true if a is equivalent to b, false otherwise.
*/
template<class Key>
INLINE bool indirect_compare_names<Key>::
is_equal(const Key &a, const Key &b) const {
return (a == b || (*a).get_name() == (*b).get_name());
}
/**
* Adds the indicated key into a running hash.
*/
template<class Key, class Compare>
INLINE size_t integer_hash<Key, Compare>::
add_hash(size_t hash, const Key &key) {
uint32_t key32 = (uint32_t)(key);
return AddHash::add_hash(hash, &key32, 1);
}
/**
* Adds the indicated key into a running hash.
*/
INLINE size_t pointer_hash::
add_hash(size_t hash, const void *key) {
// We don't mind if this loses precision.
uint32_t key32 = (uint32_t)reinterpret_cast<uintptr_t>(key);
return AddHash::add_hash(hash, &key32, 1);
}
/**
*
*/
template<class Key>
INLINE floating_point_hash<Key>::
floating_point_hash(Key threshold) :
_threshold(threshold)
{
}
/**
* Computes a size_t hash from the float.
*/
template<class Key>
INLINE size_t floating_point_hash<Key>::
operator () (const Key &key) const {
return add_hash(0, key);
}
/**
* Returns true if a sorts before b, false otherwise.
*/
template<class Key>
INLINE bool floating_point_hash<Key>::
operator () (const Key &a, const Key &b) const {
return cfloor(a / _threshold + 0.5f) < cfloor(b / _threshold + 0.5f);
}
/**
* Adds the indicated key into a running hash.
*/
template<class Key>
INLINE size_t floating_point_hash<Key>::
add_hash(size_t hash, const Key &key) const {
uint32_t key32 = (uint32_t)(key / _threshold + 0.5f);
return AddHash::add_hash(hash, &key32, 1);
}
/**
* Trivially computes a size_t hash from the components of the string.
*/
template<class Key, class Compare>
INLINE size_t sequence_hash<Key, Compare>::
operator () (const Key &key) const {
return add_hash(0, key);
}
/**
* Adds the elements of the indicated key into a running hash.
*/
template<class Key, class Compare>
INLINE size_t sequence_hash<Key, Compare>::
add_hash(size_t hash, const Key &key) {
#ifdef _DEBUG
// We assume that the sequence is laid out sequentially in memory.
if (key.size() > 0) {
assert(&key[key.size() - 1] - &key[0] == (ptrdiff_t)key.size() - 1);
}
#endif
size_t num_bytes = (key.size() * sizeof(key[0]));
return AddHash::add_hash(hash, (const uint8_t *)&key[0], num_bytes);
}
/**
* Calls the Key's get_hash() method.
*/
template<class Key, class Compare>
INLINE size_t method_hash<Key, Compare>::
operator () (const Key &key) const {
return key.get_hash();
}
/**
* Calls the Key's get_hash() method.
*/
template<class Key, class Compare>
INLINE size_t indirect_method_hash<Key, Compare>::
operator () (const Key &key) const {
return (*key).get_hash();
}
/**
* Calls the Key's get_hash() method.
*/
template<class Key>
INLINE size_t indirect_equals_hash<Key>::
operator () (const Key &key) const {
return (*key).get_hash();
}
/**
* Returns true if a is equal to b, false otherwise.
*/
template<class Key>
INLINE bool indirect_equals_hash<Key>::
is_equal(const Key &a, const Key &b) const {
return (a == b || (*a) == (*b));
}