/usr/include/pion/PluginManager.hpp is in libpion-common-dev 4.0.7+dfsg-3.1ubuntu2.
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// pion-common: a collection of common libraries used by the Pion Platform
// -----------------------------------------------------------------------
// Copyright (C) 2007-2008 Atomic Labs, Inc. (http://www.atomiclabs.com)
//
// Distributed under the Boost Software License, Version 1.0.
// See http://www.boost.org/LICENSE_1_0.txt
//
#ifndef __PION_PLUGINMANAGER_HEADER__
#define __PION_PLUGINMANAGER_HEADER__
#include <map>
#include <string>
#include <boost/cstdint.hpp>
#include <boost/function.hpp>
#include <boost/function/function1.hpp>
#include <boost/thread/mutex.hpp>
#include <pion/PionConfig.hpp>
#include <pion/PionException.hpp>
#include <pion/PionPlugin.hpp>
namespace pion { // begin namespace pion
///
/// PluginManager: used to manage a collection of plug-in objects
///
template <typename PLUGIN_TYPE>
class PluginManager
{
public:
/// exception thrown if a plug-in cannot be found
class PluginNotFoundException : public PionException {
public:
PluginNotFoundException(const std::string& plugin_id)
: PionException("No plug-ins found for identifier: ", plugin_id) {}
};
/// exception thrown if we try to add or load a duplicate plug-in
class DuplicatePluginException : public PionException {
public:
DuplicatePluginException(const std::string& plugin_id)
: PionException("A plug-in already exists for identifier: ", plugin_id) {}
};
/// data type for a function that may be called by the run() method
typedef boost::function1<void, PLUGIN_TYPE*> PluginRunFunction;
/// data type for a function that may be called by the getStat() method
typedef boost::function1<boost::uint64_t, const PLUGIN_TYPE*> PluginStatFunction;
/// default constructor
PluginManager(void) {}
/// default destructor
virtual ~PluginManager() {}
/// clears all the plug-in objects being managed
inline void clear(void) {
boost::mutex::scoped_lock plugins_lock(m_plugin_mutex);
m_plugin_map.clear();
}
/// returns true if there are no plug-in objects being managed
inline bool empty(void) const {
boost::mutex::scoped_lock plugins_lock(m_plugin_mutex);
return m_plugin_map.empty();
}
/**
* adds a new plug-in object
*
* @param plugin_id unique identifier associated with the plug-in
* @param plugin_object_ptr pointer to the plug-in object to add
*/
inline void add(const std::string& plugin_id, PLUGIN_TYPE *plugin_object_ptr);
/**
* removes a plug-in object
*
* @param plugin_id unique identifier associated with the plug-in
*/
inline void remove(const std::string& plugin_id);
/**
* replaces an existing plug-in object with a new one
*
* @param plugin_id unique identifier associated with the plug-in
* @param plugin_ptr pointer to the new plug-in object which will replace the old one
*/
inline void replace(const std::string& plugin_id, PLUGIN_TYPE *plugin_ptr);
/**
* clones an existing plug-in object (creates a new one of the same type)
*
* @param plugin_id unique identifier associated with the plug-in
* @return PLUGIN_TYPE* pointer to the new plug-in object
*/
inline PLUGIN_TYPE *clone(const std::string& plugin_id);
/**
* loads a new plug-in object
*
* @param plugin_id unique identifier associated with the plug-in
* @param plugin_type the name or type of the plug-in to load (searches
* plug-in directories and appends extensions)
* @return PLUGIN_TYPE* pointer to the new plug-in object
*/
inline PLUGIN_TYPE *load(const std::string& plugin_id, const std::string& plugin_type);
/**
* gets the plug-in object associated with a particular plugin_id (exact match)
*
* @param plugin_id unique identifier associated with the plug-in
* @return PLUGIN_TYPE* pointer to the matching plug-in object or NULL if not found
*/
inline PLUGIN_TYPE *get(const std::string& plugin_id);
/**
* gets the plug-in object associated with a particular plugin_id (exact match)
*
* @param plugin_id unique identifier associated with the plug-in
* @return PLUGIN_TYPE* pointer to the matching plug-in object or NULL if not found
*/
inline const PLUGIN_TYPE *get(const std::string& plugin_id) const;
/**
* gets a smart pointer to the plugin shared library for a particular plugin_id (exact match)
*
* @param plugin_id unique identifier associated with the plug-in
* @return PionPluginPtr<PLUGIN_TYPE> pointer to the plugin shared library if found
*/
inline PionPluginPtr<PLUGIN_TYPE> getLibPtr(const std::string& plugin_id) const;
/**
* finds the plug-in object associated with a particular resource (fuzzy match)
*
* @param resource resource identifier (uri-stem) to search for
* @return PLUGIN_TYPE* pointer to the matching plug-in object or NULL if not found
*/
inline PLUGIN_TYPE *find(const std::string& resource);
/**
* runs a method for every plug-in being managed
*
* @param run_func the function to execute for each plug-in object
*/
inline void run(PluginRunFunction run_func);
/**
* runs a method for a particular plug-in
*
* @param plugin_id unique identifier associated with the plug-in
* @param run_func the function to execute
*/
inline void run(const std::string& plugin_id, PluginRunFunction run_func);
/**
* returns a total statistic value summed for every plug-in being managed
*
* @param stat_func the statistic function to execute for each plug-in object
*/
inline boost::uint64_t getStatistic(PluginStatFunction stat_func) const;
/**
* returns a statistic value for a particular plug-in
*
* @param plugin_id unique identifier associated with the plug-in
* @param stat_func the statistic function to execute
*/
inline boost::uint64_t getStatistic(const std::string& plugin_id,
PluginStatFunction stat_func) const;
protected:
/// data type that maps identifiers to plug-in objects
class PluginMap
: public std::map<std::string, std::pair<PLUGIN_TYPE *, PionPluginPtr<PLUGIN_TYPE> > >
{
public:
inline void clear(void);
virtual ~PluginMap() { PluginMap::clear(); }
PluginMap(void) {}
};
/// collection of plug-in objects being managed
PluginMap m_plugin_map;
/// mutex to make class thread-safe
mutable boost::mutex m_plugin_mutex;
};
// PluginManager member functions
template <typename PLUGIN_TYPE>
inline void PluginManager<PLUGIN_TYPE>::add(const std::string& plugin_id,
PLUGIN_TYPE *plugin_object_ptr)
{
PionPluginPtr<PLUGIN_TYPE> plugin_ptr;
boost::mutex::scoped_lock plugins_lock(m_plugin_mutex);
m_plugin_map.insert(std::make_pair(plugin_id,
std::make_pair(plugin_object_ptr, plugin_ptr)));
}
template <typename PLUGIN_TYPE>
inline void PluginManager<PLUGIN_TYPE>::remove(const std::string& plugin_id)
{
boost::mutex::scoped_lock plugins_lock(m_plugin_mutex);
typename pion::PluginManager<PLUGIN_TYPE>::PluginMap::iterator i = m_plugin_map.find(plugin_id);
if (i == m_plugin_map.end())
throw PluginNotFoundException(plugin_id);
if (i->second.second.is_open()) {
i->second.second.destroy(i->second.first);
} else {
delete i->second.first;
}
m_plugin_map.erase(i);
}
template <typename PLUGIN_TYPE>
inline void PluginManager<PLUGIN_TYPE>::replace(const std::string& plugin_id, PLUGIN_TYPE *plugin_ptr)
{
PION_ASSERT(plugin_ptr);
boost::mutex::scoped_lock plugins_lock(m_plugin_mutex);
typename pion::PluginManager<PLUGIN_TYPE>::PluginMap::iterator i = m_plugin_map.find(plugin_id);
if (i == m_plugin_map.end())
throw PluginNotFoundException(plugin_id);
if (i->second.second.is_open()) {
i->second.second.destroy(i->second.first);
} else {
delete i->second.first;
}
i->second.first = plugin_ptr;
}
template <typename PLUGIN_TYPE>
inline PLUGIN_TYPE *PluginManager<PLUGIN_TYPE>::clone(const std::string& plugin_id)
{
boost::mutex::scoped_lock plugins_lock(m_plugin_mutex);
typename pion::PluginManager<PLUGIN_TYPE>::PluginMap::iterator i = m_plugin_map.find(plugin_id);
if (i == m_plugin_map.end())
throw PluginNotFoundException(plugin_id);
return i->second.second.create();
}
template <typename PLUGIN_TYPE>
inline PLUGIN_TYPE *PluginManager<PLUGIN_TYPE>::load(const std::string& plugin_id,
const std::string& plugin_type)
{
// search for the plug-in file using the configured paths
bool is_static;
void *create_func;
void *destroy_func;
if (m_plugin_map.find(plugin_id) != m_plugin_map.end())
throw DuplicatePluginException(plugin_id);
// check if plug-in is statically linked, and if not, try to resolve for dynamic
is_static = PionPlugin::findStaticEntryPoint(plugin_type, &create_func, &destroy_func);
// open up the plug-in's shared object library
PionPluginPtr<PLUGIN_TYPE> plugin_ptr;
if (is_static) {
plugin_ptr.openStaticLinked(plugin_type, create_func, destroy_func); // may throw
} else {
plugin_ptr.open(plugin_type); // may throw
}
// create a new object using the plug-in library
PLUGIN_TYPE *plugin_object_ptr(plugin_ptr.create());
// add the new plug-in object to our map
boost::mutex::scoped_lock plugins_lock(m_plugin_mutex);
m_plugin_map.insert(std::make_pair(plugin_id,
std::make_pair(plugin_object_ptr, plugin_ptr)));
return plugin_object_ptr;
}
template <typename PLUGIN_TYPE>
inline PLUGIN_TYPE *PluginManager<PLUGIN_TYPE>::get(const std::string& plugin_id)
{
PLUGIN_TYPE *plugin_object_ptr = NULL;
boost::mutex::scoped_lock plugins_lock(m_plugin_mutex);
typename pion::PluginManager<PLUGIN_TYPE>::PluginMap::iterator i = m_plugin_map.find(plugin_id);
if (i != m_plugin_map.end())
plugin_object_ptr = i->second.first;
return plugin_object_ptr;
}
template <typename PLUGIN_TYPE>
inline const PLUGIN_TYPE *PluginManager<PLUGIN_TYPE>::get(const std::string& plugin_id) const
{
const PLUGIN_TYPE *plugin_object_ptr = NULL;
boost::mutex::scoped_lock plugins_lock(m_plugin_mutex);
typename pion::PluginManager<PLUGIN_TYPE>::PluginMap::const_iterator i = m_plugin_map.find(plugin_id);
if (i != m_plugin_map.end())
plugin_object_ptr = i->second.first;
return plugin_object_ptr;
}
template <typename PLUGIN_TYPE>
inline PionPluginPtr<PLUGIN_TYPE> PluginManager<PLUGIN_TYPE>::getLibPtr(const std::string& plugin_id) const
{
PionPluginPtr<PLUGIN_TYPE> plugin_ptr;
boost::mutex::scoped_lock plugins_lock(m_plugin_mutex);
typename pion::PluginManager<PLUGIN_TYPE>::PluginMap::const_iterator i = m_plugin_map.find(plugin_id);
if (i != m_plugin_map.end())
plugin_ptr = i->second.second;
return plugin_ptr;
}
template <typename PLUGIN_TYPE>
inline PLUGIN_TYPE *PluginManager<PLUGIN_TYPE>::find(const std::string& resource)
{
// will point to the matching plug-in object, if found
PLUGIN_TYPE *plugin_object_ptr = NULL;
// lock mutex for thread safety (this should probably use ref counters)
boost::mutex::scoped_lock plugins_lock(m_plugin_mutex);
// check if no plug-ins are being managed
if (m_plugin_map.empty()) return plugin_object_ptr;
// iterate through each plug-in whose identifier may match the resource
typename pion::PluginManager<PLUGIN_TYPE>::PluginMap::iterator i = m_plugin_map.upper_bound(resource);
while (i != m_plugin_map.begin()) {
--i;
// keep checking while the first part of the strings match
if (resource.compare(0, i->first.size(), i->first) != 0) {
// the first part no longer matches
if (i != m_plugin_map.begin()) {
// continue to next plug-in in list if its size is < this one
typename pion::PluginManager<PLUGIN_TYPE>::PluginMap::iterator j=i;
--j;
if (j->first.size() < i->first.size())
continue;
}
// otherwise we've reached the end; stop looking for a match
break;
}
// only if the resource matches the plug-in's identifier
// or if resource is followed first with a '/' character
if (resource.size() == i->first.size() || resource[i->first.size()]=='/') {
plugin_object_ptr = i->second.first;
break;
}
}
return plugin_object_ptr;
}
template <typename PLUGIN_TYPE>
inline void PluginManager<PLUGIN_TYPE>::run(PluginRunFunction run_func)
{
boost::mutex::scoped_lock plugins_lock(m_plugin_mutex);
for (typename pion::PluginManager<PLUGIN_TYPE>::PluginMap::iterator i = m_plugin_map.begin();
i != m_plugin_map.end(); ++i)
{
run_func(i->second.first);
}
}
template <typename PLUGIN_TYPE>
inline void PluginManager<PLUGIN_TYPE>::run(const std::string& plugin_id,
PluginRunFunction run_func)
{
// no need to lock (handled by PluginManager::get())
PLUGIN_TYPE *plugin_object_ptr = get(plugin_id);
if (plugin_object_ptr == NULL)
throw PluginNotFoundException(plugin_id);
run_func(plugin_object_ptr);
}
template <typename PLUGIN_TYPE>
inline boost::uint64_t PluginManager<PLUGIN_TYPE>::getStatistic(PluginStatFunction stat_func) const
{
boost::uint64_t stat_value = 0;
boost::mutex::scoped_lock plugins_lock(m_plugin_mutex);
for (typename pion::PluginManager<PLUGIN_TYPE>::PluginMap::const_iterator i = m_plugin_map.begin();
i != m_plugin_map.end(); ++i)
{
stat_value += stat_func(i->second.first);
}
return stat_value;
}
template <typename PLUGIN_TYPE>
inline boost::uint64_t PluginManager<PLUGIN_TYPE>::getStatistic(const std::string& plugin_id,
PluginStatFunction stat_func) const
{
// no need to lock (handled by PluginManager::get())
const PLUGIN_TYPE *plugin_object_ptr = const_cast<PluginManager<PLUGIN_TYPE>*>(this)->get(plugin_id);
if (plugin_object_ptr == NULL)
throw PluginNotFoundException(plugin_id);
return stat_func(plugin_object_ptr);
}
// PluginManager::PluginMap member functions
template <typename PLUGIN_TYPE>
inline void PluginManager<PLUGIN_TYPE>::PluginMap::clear(void)
{
if (! std::map<std::string, std::pair<PLUGIN_TYPE *, PionPluginPtr<PLUGIN_TYPE> > >::empty()) {
for (typename pion::PluginManager<PLUGIN_TYPE>::PluginMap::iterator i =
std::map<std::string, std::pair<PLUGIN_TYPE *, PionPluginPtr<PLUGIN_TYPE> > >::begin();
i != std::map<std::string, std::pair<PLUGIN_TYPE *, PionPluginPtr<PLUGIN_TYPE> > >::end(); ++i)
{
if (i->second.second.is_open()) {
i->second.second.destroy(i->second.first);
} else {
delete i->second.first;
}
}
this->erase(std::map<std::string, std::pair<PLUGIN_TYPE *, PionPluginPtr<PLUGIN_TYPE> > >::begin(),
std::map<std::string, std::pair<PLUGIN_TYPE *, PionPluginPtr<PLUGIN_TYPE> > >::end());
}
}
} // end namespace pion
#endif
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