/usr/include/osgEarth/Containers is in libosgearth-dev 2.7.0+dfsg-2+b3.
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/* osgEarth - Dynamic map generation toolkit for OpenSceneGraph
* Copyright 2015 Pelican Mapping
* http://osgearth.org
*
* osgEarth is free software; you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>
*/
#ifndef OSGEARTH_CONTAINERS_H
#define OSGEARTH_CONTAINERS_H 1
#include <osgEarth/Common>
#include <osgEarth/ThreadingUtils>
#include <osg/ref_ptr>
#include <osg/observer_ptr>
#include <osg/State>
#include <list>
#include <vector>
#include <set>
#include <map>
namespace osgEarth
{
/**
* A std::map-like map that uses a vector and a getUID method for keying.
* DATA must have a getUID() method.
*/
template<typename KEY,typename DATA>
struct vector_map
{
struct ENTRY {
inline const KEY& key() const { return _key; }
inline const DATA& data() const { return _data; }
inline DATA& data() { return _data; }
KEY _key;
DATA _data;
};
typedef std::vector<ENTRY> container_t;
//typedef std::vector<KEY> keys_t;
//typedef std::vector<DATA> container_t;
typedef typename container_t::iterator iterator;
typedef typename container_t::const_iterator const_iterator;
container_t _container;
inline DATA& operator[](const KEY& key) {
for(unsigned i=0; i<_container.size(); ++i) {
if (_container[i]._key == key) {
return _container[i]._data;
}
}
_container.resize(_container.size()+1);
//_container.push_back(ENTRY());
_container.back()._key = key;
return _container.back()._data;
}
inline DATA* find(const KEY& key) {
for(unsigned i=0; i<_container.size(); ++i) {
if (_container[i]._key == key) {
return &_container[i]._data;
}
}
return 0L;
}
inline const DATA* find(const KEY& key) const {
for(unsigned i=0; i<_container.size(); ++i) {
if (_container[i]._key == key) {
return &_container[i]._data;
}
}
return 0L;
}
inline const_iterator begin() const { return _container.begin(); }
inline const_iterator end() const { return _container.end(); }
inline iterator begin() { return _container.begin(); }
inline iterator end() { return _container.end(); }
inline bool empty() const { return _container.empty(); }
inline void clear() { _container.clear(); }
//iterator erase(iterator& i) {
// iterator j = i; ++j;
// *i = _data.at(_data.size()-1);
// _data.resize(_data.size()-1);
// return j;
//}
inline void erase(const KEY& key) {
for(unsigned i=0; i<_container.size(); ++i) {
if (_container[i]._key == key) {
if (i+1 < _container.size()) {
_container[i] = _container[_container.size()-1];
}
_container.resize(_container.size()-1);
break;
}
}
}
inline int size() const { return _container.size(); }
template<typename InputIterator>
void insert(InputIterator a, InputIterator b) {
for(InputIterator i = a; i != b; ++i) (*this)[i->first] = i->second;
}
};
/**
* A std::map-like container that is faster than std::map for small amounts
* of data accessed by a single user
*/
template<typename KEY, typename DATA>
struct fast_map
{
typedef std::pair<KEY,DATA> entry_t;
typedef std::list<entry_t> list_t;
typedef typename list_t::iterator iterator;
typedef typename list_t::const_iterator const_iterator;
list_t _data;
KEY _lastKey;
DATA& operator[] (const KEY& key) {
for( iterator i = _data.begin(); i != _data.end(); ++i ) {
if ( i->first == key ) {
if ( _lastKey == key && i != _data.begin() ) {
_data.insert(begin(), *i);
_data.erase(i);
return _data.front().second;
}
else {
_lastKey = key;
return i->second;
}
}
}
_data.push_back(entry_t(key,DATA()));
return _data.back().second;
}
iterator find( const KEY& key ) {
for( iterator i = _data.begin(); i != _data.end(); ++i ) {
if ( i->first == key ) {
return i;
}
}
return end();
}
const_iterator find( const KEY& key ) const {
for( const_iterator i = _data.begin(); i != _data.end(); ++i ) {
if ( i->first == key ) {
return i;
}
}
return end();
}
const_iterator begin() const { return _data.begin(); }
const_iterator end() const { return _data.end(); }
iterator begin() { return _data.begin(); }
iterator end() { return _data.end(); }
bool empty() const { return _data.empty(); }
void clear() { _data.clear(); }
iterator erase(iterator& i) { return _data.erase( i ); }
void erase(const KEY& key) {
iterator i = find(key);
if ( i != end() ) {
erase( i );
}
}
int size() const { return _data.size(); }
template<typename InputIterator>
void insert(InputIterator a, InputIterator b) {
for(InputIterator i = a; i != b; ++i) (*this)[i->first] = i->second;
}
};
//------------------------------------------------------------------------
struct CacheStats
{
public:
CacheStats( unsigned entries, unsigned maxEntries, unsigned queries, float hitRatio )
: _entries(entries), _maxEntries(maxEntries), _queries(queries), _hitRatio(hitRatio) { }
/** dtor */
virtual ~CacheStats() { }
unsigned _entries;
unsigned _maxEntries;
unsigned _queries;
float _hitRatio;
};
//------------------------------------------------------------------------
/**
* Least-recently-used cache class.
* K = key type, T = value type
*
* usage:
* LRUCache<K,T> cache;
* cache.put( key, value );
* LRUCache.Record rec = cache.get( key );
* if ( rec.valid() )
* const T& value = rec.value();
*/
template<typename K, typename T, typename COMPARE=std::less<K> >
class LRUCache
{
public:
struct Record {
Record() : _valid(false) { }
Record(const T& value) : _value(value), _valid(true) { }
bool valid() const { return _valid; }
const T& value() const { return _value; }
private:
bool _valid;
T _value;
friend class LRUCache;
};
protected:
typedef typename std::list<K>::iterator lru_iter;
typedef typename std::list<K> lru_type;
typedef typename std::pair<T, lru_iter> map_value_type;
typedef typename std::map<K, map_value_type> map_type;
typedef typename map_type::iterator map_iter;
map_type _map;
lru_type _lru;
unsigned _max;
unsigned _buf;
unsigned _queries;
unsigned _hits;
bool _threadsafe;
mutable Threading::Mutex _mutex;
public:
LRUCache( unsigned max =100 ) : _max(max), _threadsafe(false) {
_buf = _max/10;
_queries = 0;
_hits = 0;
}
LRUCache( bool threadsafe, unsigned max =100 ) : _max(max), _threadsafe(threadsafe) {
_buf = _max/10;
_queries = 0;
_hits = 0;
}
/** dtor */
virtual ~LRUCache() { }
void insert( const K& key, const T& value ) {
if ( _threadsafe ) {
Threading::ScopedMutexLock lock(_mutex);
insert_impl( key, value );
}
else {
insert_impl( key, value );
}
}
bool get( const K& key, Record& out ) {
if ( _threadsafe ) {
Threading::ScopedMutexLock lock(_mutex);
get_impl( key, out );
}
else {
get_impl( key, out );
}
return out.valid();
}
bool has( const K& key ) {
if ( _threadsafe ) {
Threading::ScopedMutexLock lock(_mutex);
return has_impl( key );
}
else {
return has_impl( key );
}
}
void erase( const K& key ) {
if ( _threadsafe ) {
Threading::ScopedMutexLock lock(_mutex);
erase_impl( key );
}
else {
erase_impl( key );
}
}
void clear() {
if ( _threadsafe ) {
Threading::ScopedMutexLock lock(_mutex);
clear_impl();
}
else {
clear_impl();
}
}
void setMaxSize( unsigned max ) {
if ( _threadsafe ) {
Threading::ScopedMutexLock lock(_mutex);
setMaxSize_impl( max );
}
else {
setMaxSize_impl( max );
}
}
unsigned getMaxSize() const {
return _max;
}
CacheStats getStats() const {
return CacheStats(
_lru.size(), _max, _queries, _queries > 0 ? (float)_hits/(float)_queries : 0.0f );
}
private:
void insert_impl( const K& key, const T& value ) {
map_iter mi = _map.find( key );
if ( mi != _map.end() ) {
_lru.erase( mi->second.second );
mi->second.first = value;
_lru.push_back( key );
mi->second.second = _lru.end();
mi->second.second--;
}
else {
_lru.push_back( key );
lru_iter last = _lru.end(); last--;
_map[key] = std::make_pair(value, last);
}
if ( _lru.size() > _max ) {
for( unsigned i=0; i < _buf; ++i ) {
const K& key = _lru.front();
_map.erase( key );
_lru.pop_front();
}
}
}
void get_impl( const K& key, Record& result ) {
_queries++;
map_iter mi = _map.find( key );
if ( mi != _map.end() ) {
_lru.erase( mi->second.second );
_lru.push_back( key );
lru_iter new_iter = _lru.end(); new_iter--;
mi->second.second = new_iter;
_hits++;
result._value = mi->second.first;
result._valid = true;
//return Record( &(mi->second.first) );
}
//else {
// return Record( 0L );
//}
}
bool has_impl( const K& key ) {
return _map.find( key ) != _map.end();
}
void erase_impl( const K& key ) {
map_iter mi = _map.find( key );
if ( mi != _map.end() ) {
_lru.erase( mi->second.second );
_map.erase( mi );
}
}
void clear_impl() {
_lru.clear();
_map.clear();
_queries = 0;
_hits = 0;
}
void setMaxSize_impl( unsigned max ) {
_max = max;
_buf = max/10;
while( _lru.size() > _max ) {
const K& key = _lru.front();
_map.erase( key );
_lru.pop_front();
}
}
};
//--------------------------------------------------------------------
/**
* Same of osg::MixinVector, but with a superclass template parameter.
*/
template<class ValueT, class SuperClass>
class MixinVector : public SuperClass
{
typedef typename std::vector<ValueT> vector_type;
public:
typedef typename vector_type::allocator_type allocator_type;
typedef typename vector_type::value_type value_type;
typedef typename vector_type::const_pointer const_pointer;
typedef typename vector_type::pointer pointer;
typedef typename vector_type::const_reference const_reference;
typedef typename vector_type::reference reference;
typedef typename vector_type::const_iterator const_iterator;
typedef typename vector_type::iterator iterator;
typedef typename vector_type::const_reverse_iterator const_reverse_iterator;
typedef typename vector_type::reverse_iterator reverse_iterator;
typedef typename vector_type::size_type size_type;
typedef typename vector_type::difference_type difference_type;
explicit MixinVector() : _impl()
{
}
explicit MixinVector(size_type initial_size, const value_type& fill_value = value_type())
: _impl(initial_size, fill_value)
{
}
template<class InputIterator>
MixinVector(InputIterator first, InputIterator last)
: _impl(first, last)
{
}
MixinVector(const vector_type& other)
: _impl(other)
{
}
MixinVector(const MixinVector& other)
: _impl(other._impl)
{
}
MixinVector& operator=(const vector_type& other)
{
_impl = other;
return *this;
}
MixinVector& operator=(const MixinVector& other)
{
_impl = other._impl;
return *this;
}
virtual ~MixinVector() {}
void clear() { _impl.clear(); }
void resize(size_type new_size, const value_type& fill_value = value_type()) { _impl.resize(new_size, fill_value); }
void reserve(size_type new_capacity) { _impl.reserve(new_capacity); }
void swap(vector_type& other) { _impl.swap(other); }
void swap(MixinVector& other) { _impl.swap(other._impl); }
bool empty() const { return _impl.empty(); }
size_type size() const { return _impl.size(); }
size_type capacity() const { return _impl.capacity(); }
size_type max_size() const { return _impl.max_size(); }
allocator_type get_allocator() const { return _impl.get_allocator(); }
const_iterator begin() const { return _impl.begin(); }
iterator begin() { return _impl.begin(); }
const_iterator end() const { return _impl.end(); }
iterator end() { return _impl.end(); }
const_reverse_iterator rbegin() const { return _impl.rbegin(); }
reverse_iterator rbegin() { return _impl.rbegin(); }
const_reverse_iterator rend() const { return _impl.rend(); }
reverse_iterator rend() { return _impl.rend(); }
const_reference operator[](size_type index) const { return _impl[index]; }
reference operator[](size_type index) { return _impl[index]; }
const_reference at(size_type index) const { return _impl.at(index); }
reference at(size_type index) { return _impl.at(index); }
void assign(size_type count, const value_type& value) { _impl.assign(count, value); }
template<class Iter>
void assign(Iter first, Iter last) { _impl.assign(first, last); }
void push_back(const value_type& value) { _impl.push_back(value); }
void pop_back() { _impl.pop_back(); }
iterator erase(iterator where) { return _impl.erase(where); }
iterator erase(iterator first, iterator last) { return _impl.erase(first, last); }
iterator insert(iterator where, const value_type& value) { return _impl.insert(where, value); }
template<class InputIterator>
void insert(iterator where, InputIterator first, InputIterator last)
{
_impl.insert(where, first, last);
}
void insert(iterator where, size_type count, const value_type& value)
{
_impl.insert(where, count, value);
}
const_reference back() const { return _impl.back(); }
reference back() { return _impl.back(); }
const_reference front() const { return _impl.front(); }
reference front() { return _impl.front(); }
vector_type& asVector() { return _impl; }
const vector_type& asVector() const { return _impl; }
friend inline bool operator==(const MixinVector<ValueT,SuperClass>& left, const MixinVector<ValueT,SuperClass>& right) { return left._impl == right._impl; }
friend inline bool operator==(const MixinVector<ValueT,SuperClass>& left, const std::vector<ValueT>& right) { return left._impl == right; }
friend inline bool operator==(const std::vector<ValueT>& left, const MixinVector<ValueT,SuperClass>& right) { return left == right._impl; }
friend inline bool operator!=(const MixinVector<ValueT,SuperClass>& left, const MixinVector<ValueT,SuperClass>& right) { return left._impl != right._impl; }
friend inline bool operator!=(const MixinVector<ValueT,SuperClass>& left, const std::vector<ValueT>& right) { return left._impl != right; }
friend inline bool operator!=(const std::vector<ValueT>& left, const MixinVector<ValueT,SuperClass>& right) { return left != right._impl; }
friend inline bool operator<(const MixinVector<ValueT,SuperClass>& left, const MixinVector<ValueT,SuperClass>& right) { return left._impl < right._impl; }
friend inline bool operator<(const MixinVector<ValueT,SuperClass>& left, const std::vector<ValueT>& right) { return left._impl < right; }
friend inline bool operator<(const std::vector<ValueT>& left, const MixinVector<ValueT,SuperClass>& right) { return left < right._impl; }
friend inline bool operator>(const MixinVector<ValueT,SuperClass>& left, const MixinVector<ValueT,SuperClass>& right) { return left._impl > right._impl; }
friend inline bool operator>(const MixinVector<ValueT,SuperClass>& left, const std::vector<ValueT>& right) { return left._impl > right; }
friend inline bool operator>(const std::vector<ValueT>& left, const MixinVector<ValueT,SuperClass>& right) { return left > right._impl; }
friend inline bool operator<=(const MixinVector<ValueT,SuperClass>& left, const MixinVector<ValueT,SuperClass>& right) { return left._impl <= right._impl; }
friend inline bool operator<=(const MixinVector<ValueT,SuperClass>& left, const std::vector<ValueT>& right) { return left._impl <= right; }
friend inline bool operator<=(const std::vector<ValueT>& left, const MixinVector<ValueT,SuperClass>& right) { return left <= right._impl; }
friend inline bool operator>=(const MixinVector<ValueT,SuperClass>& left, const MixinVector<ValueT,SuperClass>& right) { return left._impl >= right._impl; }
friend inline bool operator>=(const MixinVector<ValueT,SuperClass>& left, const std::vector<ValueT>& right) { return left._impl >= right; }
friend inline bool operator>=(const std::vector<ValueT>& left, const MixinVector<ValueT,SuperClass>& right) { return left >= right._impl; }
private:
vector_type _impl;
};
/** Template for per-thread data storage */
template<typename T>
struct PerThread
{
T& get() {
Threading::ScopedMutexLock lock(_mutex);
return _data[Threading::getCurrentThreadId()];
}
private:
std::map<unsigned,T> _data;
Threading::Mutex _mutex;
};
/** Template for thread safe per-object data storage */
template<typename KEY, typename DATA>
struct PerObjectMap
{
DATA& get(KEY k)
{
{
osgEarth::Threading::ScopedReadLock readLock(_mutex);
typename std::map<KEY,DATA>::iterator i = _data.find(k);
if ( i != _data.end() )
return i->second;
}
{
osgEarth::Threading::ScopedWriteLock lock(_mutex);
typename std::map<KEY,DATA>::iterator i = _data.find(k);
if ( i != _data.end() )
return i->second;
else
return _data[k];
}
}
void remove(KEY k)
{
osgEarth::Threading::ScopedWriteLock exclusive(_mutex);
_data.erase( k );
}
private:
std::map<KEY,DATA> _data;
osgEarth::Threading::ReadWriteMutex _mutex;
};
/** Template for thread safe per-object data storage */
template<typename KEY, typename DATA>
struct PerObjectFastMap
{
DATA& get(KEY k)
{
{
osgEarth::Threading::ScopedReadLock readLock(_mutex);
typename osgEarth::fast_map<KEY,DATA>::iterator i = _data.find(k);
if ( i != _data.end() )
return i->second;
}
{
osgEarth::Threading::ScopedWriteLock lock(_mutex);
typename osgEarth::fast_map<KEY,DATA>::iterator i = _data.find(k);
if ( i != _data.end() )
return i->second;
else
return _data[k];
}
}
void remove(KEY k)
{
osgEarth::Threading::ScopedWriteLock exclusive(_mutex);
_data.erase( k );
}
private:
osgEarth::fast_map<KEY,DATA> _data;
osgEarth::Threading::ReadWriteMutex _mutex;
};
/** Template for thread safe per-object data storage */
template<typename KEY, typename DATA>
struct PerObjectRefMap
{
DATA* get(KEY k)
{
osgEarth::Threading::ScopedReadLock lock(_mutex);
typename std::map<KEY,osg::ref_ptr<DATA > >::const_iterator i = _data.find(k);
if ( i != _data.end() )
return i->second.get();
return 0L;
}
DATA* getOrCreate(KEY k, DATA* newDataIfNeeded)
{
osg::ref_ptr<DATA> _refReleaser = newDataIfNeeded;
{
osgEarth::Threading::ScopedReadLock lock(_mutex);
typename std::map<KEY,osg::ref_ptr<DATA> >::const_iterator i = _data.find(k);
if ( i != _data.end() )
return i->second.get();
}
{
osgEarth::Threading::ScopedWriteLock lock(_mutex);
typename std::map<KEY,osg::ref_ptr<DATA> >::iterator i = _data.find(k);
if ( i != _data.end() )
return i->second.get();
_data[k] = newDataIfNeeded;
return newDataIfNeeded;
}
}
void remove(KEY k)
{
osgEarth::Threading::ScopedWriteLock exclusive(_mutex);
_data.erase( k );
}
void remove(DATA* data)
{
osgEarth::Threading::ScopedWriteLock exclusive(_mutex);
for( typename std::map<KEY,osg::ref_ptr<DATA> >::iterator i = _data.begin(); i != _data.end(); ++i )
{
if ( i->second.get() == data )
{
_data.erase( i );
break;
}
}
}
private:
std::map<KEY,osg::ref_ptr<DATA> > _data;
osgEarth::Threading::ReadWriteMutex _mutex;
};
/** Template for thread safe per-object data storage */
template<typename KEY, typename DATA>
struct PerObjectObsMap
{
DATA* get(KEY k)
{
osgEarth::Threading::ScopedReadLock lock(_mutex);
typename std::map<KEY, osg::observer_ptr<DATA> >::const_iterator i = _data.find(k);
if ( i != _data.end() )
return i->second.get();
return 0L;
}
DATA* getOrCreate(KEY k, DATA* newDataIfNeeded)
{
osg::ref_ptr<DATA> _refReleaser = newDataIfNeeded;
{
osgEarth::Threading::ScopedReadLock lock(_mutex);
typename std::map<KEY,osg::observer_ptr<DATA> >::const_iterator i = _data.find(k);
if ( i != _data.end() )
return i->second.get();
}
{
osgEarth::Threading::ScopedWriteLock lock(_mutex);
typename std::map<KEY,osg::observer_ptr<DATA> >::iterator i = _data.find(k);
if ( i != _data.end() )
return i->second.get();
_data[k] = newDataIfNeeded;
return newDataIfNeeded;
}
}
void remove(KEY k)
{
osgEarth::Threading::ScopedWriteLock exclusive(_mutex);
_data.erase( k );
}
void remove(DATA* data)
{
osgEarth::Threading::ScopedWriteLock exclusive(_mutex);
for( typename std::map<KEY,osg::observer_ptr<DATA> >::iterator i = _data.begin(); i != _data.end(); ++i )
{
if ( i->second.get() == data )
{
_data.erase( i );
break;
}
}
}
private:
std::map<KEY,osg::observer_ptr<DATA> > _data;
osgEarth::Threading::ReadWriteMutex _mutex;
};
/** Template for thread safe observer set */
template<typename T>
struct ThreadSafeObserverSet
{
typedef void (*Functor)(T*);
typedef void (*ConstFunctor)(const T*);
void iterate( const Functor& f )
{
osgEarth::Threading::ScopedWriteLock lock(_mutex);
for( typename std::set<T>::iterator i = _data.begin(); i != _data.end(); )
{
if ( i->valid() )
{
f( i->get() );
++i;
}
else
{
i = _data.erase( i );
}
}
}
void iterate( const ConstFunctor& f )
{
osgEarth::Threading::ScopedReadLock lock(_mutex);
for( typename std::set<T>::iterator i = _data.begin(); i != _data.end(); )
{
if ( i->valid() )
{
f( i->get() );
++i;
}
else
{
i = _data.erase( i );
}
}
}
void insert(T* obj)
{
osgEarth::Threading::ScopedWriteLock lock(_mutex);
_data.insert( obj );
}
void remove(T* obj)
{
osgEarth::Threading::ScopedWriteLock lock(_mutex);
_data.erase( obj );
}
private:
std::set<osg::observer_ptr<T> > _data;
osgEarth::Threading::ReadWriteMutex _mutex;
};
}
#endif // OSGEARTH_CONTAINERS_H
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