154 lines
5.3 KiB
C++
154 lines
5.3 KiB
C++
/**
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* PANDA 3D SOFTWARE
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* Copyright (c) Carnegie Mellon University. All rights reserved.
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*
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* All use of this software is subject to the terms of the revised BSD
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* license. You should have received a copy of this license along
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* with this source code in a file named "LICENSE."
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*
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* @file pmap.h
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* @author drose
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* @date 2001-06-05
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*/
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#ifndef PMAP_H
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#define PMAP_H
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#include "dtoolbase.h"
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#include "pallocator.h"
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#include "stl_compares.h"
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#include "register_type.h"
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#include <map>
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#ifdef HAVE_STL_HASH
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#include <hash_map>
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#endif
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#if !defined(USE_STL_ALLOCATOR) || defined(CPPPARSER)
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// If we're not using custom allocators, just use the standard class
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// definition.
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#define pmap std::map
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#define pmultimap std::multimap
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#ifdef HAVE_STL_HASH
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#define phash_map stdext::hash_map
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#define phash_multimap stdext::hash_multimap
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#else // HAVE_STL_HASH
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#define phash_map map
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#define phash_multimap multimap
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#endif // HAVE_STL_HASH
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#else // USE_STL_ALLOCATOR
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/**
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* This is our own Panda specialization on the default STL map. Its main
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* purpose is to call the hooks for MemoryUsage to properly track STL-
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* allocated memory.
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*/
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template<class Key, class Value, class Compare = std::less<Key> >
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class pmap : public std::map<Key, Value, Compare, pallocator_single<std::pair<const Key, Value> > > {
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public:
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typedef pallocator_single<std::pair<const Key, Value> > allocator;
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typedef std::map<Key, Value, Compare, allocator> base_class;
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pmap(TypeHandle type_handle = pmap_type_handle) : base_class(Compare(), allocator(type_handle)) { }
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pmap(const Compare &comp, TypeHandle type_handle = pmap_type_handle) : base_class(comp, allocator(type_handle)) { }
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#ifdef USE_TAU
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typename base_class::mapped_type &
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operator [] (const typename base_class::key_type &k) {
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TAU_PROFILE("pmap::operator [] (const key_type &)", " ", TAU_USER);
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return base_class::operator [] (k);
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}
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std::pair<typename base_class::iterator, bool>
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insert(const typename base_class::value_type &x) {
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TAU_PROFILE("pmap::insert(const value_type &)", " ", TAU_USER);
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return base_class::insert(x);
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}
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typename base_class::iterator
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insert(typename base_class::iterator position,
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const typename base_class::value_type &x) {
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TAU_PROFILE("pmap::insert(iterator, const value_type &)", " ", TAU_USER);
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return base_class::insert(position, x);
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}
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void
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erase(typename base_class::iterator position) {
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TAU_PROFILE("pmap::erase(iterator)", " ", TAU_USER);
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base_class::erase(position);
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}
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typename base_class::size_type
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erase(const typename base_class::key_type &x) {
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TAU_PROFILE("pmap::erase(const key_type &)", " ", TAU_USER);
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return base_class::erase(x);
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}
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void
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clear() {
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TAU_PROFILE("pmap::clear()", " ", TAU_USER);
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base_class::clear();
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}
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typename base_class::iterator
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find(const typename base_class::key_type &x) {
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TAU_PROFILE("pmap::find(const key_type &)", " ", TAU_USER);
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return base_class::find(x);
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}
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typename base_class::const_iterator
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find(const typename base_class::key_type &x) const {
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TAU_PROFILE("pmap::find(const key_type &)", " ", TAU_USER);
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return base_class::find(x);
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}
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#endif // USE_TAU
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};
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/**
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* This is our own Panda specialization on the default STL multimap. Its main
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* purpose is to call the hooks for MemoryUsage to properly track STL-
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* allocated memory.
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*/
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template<class Key, class Value, class Compare = std::less<Key> >
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class pmultimap : public std::multimap<Key, Value, Compare, pallocator_single<std::pair<const Key, Value> > > {
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public:
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typedef pallocator_single<std::pair<const Key, Value> > allocator;
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pmultimap(TypeHandle type_handle = pmap_type_handle) : std::multimap<Key, Value, Compare, allocator>(Compare(), allocator(type_handle)) { }
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pmultimap(const Compare &comp, TypeHandle type_handle = pmap_type_handle) : std::multimap<Key, Value, Compare, allocator>(comp, allocator(type_handle)) { }
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};
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#ifdef HAVE_STL_HASH
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/**
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* This is our own Panda specialization on the default STL hash_map. Its main
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* purpose is to call the hooks for MemoryUsage to properly track STL-
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* allocated memory.
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*/
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template<class Key, class Value, class Compare = method_hash<Key, std::less<Key> > >
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class phash_map : public stdext::hash_map<Key, Value, Compare, pallocator_array<std::pair<const Key, Value> > > {
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public:
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phash_map() : stdext::hash_map<Key, Value, Compare, pallocator_array<std::pair<const Key, Value> > >() { }
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phash_map(const Compare &comp) : stdext::hash_map<Key, Value, Compare, pallocator_array<std::pair<const Key, Value> > >(comp) { }
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};
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/**
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* This is our own Panda specialization on the default STL hash_multimap. Its
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* main purpose is to call the hooks for MemoryUsage to properly track STL-
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* allocated memory.
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*/
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template<class Key, class Value, class Compare = method_hash<Key, std::less<Key> > >
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class phash_multimap : public stdext::hash_multimap<Key, Value, Compare, pallocator_array<std::pair<const Key, Value> > > {
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public:
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phash_multimap() : stdext::hash_multimap<Key, Value, Compare, pallocator_array<std::pair<const Key, Value> > >() { }
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phash_multimap(const Compare &comp) : stdext::hash_multimap<Key, Value, Compare, pallocator_array<std::pair<const Key, Value> > >(comp) { }
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};
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#else // HAVE_STL_HASH
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#define phash_map pmap
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#define phash_multimap pmultimap
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#endif // HAVE_STL_HASH
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#endif // USE_STL_ALLOCATOR
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#endif
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