poco/Foundation/include/Poco/ObjectPool.h
Stefan Weil 8ccee8928c Fix typos in comments, documentation and strings (#1615)
All of them were found using codespell.

Signed-off-by: Stefan Weil <sw@weilnetz.de>
2017-07-06 00:17:38 +02:00

335 lines
6.9 KiB
C++

//
// ObjectPool.h
//
// $Id: //poco/1.4/Foundation/include/Poco/ObjectPool.h#1 $
//
// Library: Foundation
// Package: Core
// Module: ObjectPool
//
// Definition of the ObjectPool template class and friends.
//
// Copyright (c) 2010-2012, Applied Informatics Software Engineering GmbH.
// and Contributors.
//
// SPDX-License-Identifier: BSL-1.0
//
#ifndef Foundation_ObjectPool_INCLUDED
#define Foundation_ObjectPool_INCLUDED
#include "Poco/Poco.h"
#include "Poco/Mutex.h"
#include "Poco/Condition.h"
#include "Poco/AutoPtr.h"
#include "Poco/SharedPtr.h"
#include <vector>
#include <cctype>
namespace Poco {
template <class C, class P = C*>
class PoolableObjectFactory
/// A PoolableObjectFactory is responsible for creating and resetting
/// objects managed by an ObjectPool.
///
/// Together with an ObjectPool, a PoolableObjectFactory is used as
/// a policy class to change the behavior of the ObjectPool when
/// creating new objects, returning used objects back to the pool
/// and destroying objects, when the pool itself is destroyed or
/// shrunk.
{
public:
P createObject()
/// Create and return a new object.
{
return new C;
}
bool validateObject(P pObject)
/// Checks whether the object is still valid
/// and can be reused.
///
/// Returns true if the object is valid,
/// false otherwise.
///
/// To maintain the integrity of the pool, this method
/// must not throw an exception.
{
return true;
}
void activateObject(P pObject)
/// Called before an object is handed out by the pool.
/// Also called for newly created objects, before
/// they are given out for the first time.
{
}
void deactivateObject(P pObject)
/// Called after an object has been given back to the
/// pool and the object is still valid (a prior call
/// to validateObject() returned true).
///
/// To maintain the integrity of the pool, this method
/// must not throw an exception.
{
}
void destroyObject(P pObject)
/// Destroy an object.
///
/// To maintain the integrity of the pool, this method
/// must not throw an exception.
{
delete pObject;
}
};
template <class C>
class PoolableObjectFactory <C, Poco::AutoPtr<C> >
{
public:
Poco::AutoPtr<C> createObject()
{
return new C;
}
bool validateObject(Poco::AutoPtr<C> pObject)
{
return true;
}
void activateObject(Poco::AutoPtr<C> pObject)
{
}
void deactivateObject(Poco::AutoPtr<C> pObject)
{
}
void destroyObject(Poco::AutoPtr<C> pObject)
{
}
};
template <class C>
class PoolableObjectFactory <C, Poco::SharedPtr<C> >
{
public:
Poco::SharedPtr<C> createObject()
{
return new C;
}
bool validateObject(Poco::SharedPtr<C> pObject)
{
return true;
}
void activateObject(Poco::SharedPtr<C> pObject)
{
}
void deactivateObject(Poco::SharedPtr<C> pObject)
{
}
void destroyObject(Poco::SharedPtr<C> pObject)
{
}
};
template <class C, class P = C*, class F = PoolableObjectFactory<C, P> >
class ObjectPool
/// An ObjectPool manages a pool of objects of a certain class.
///
/// The number of objects managed by the pool can be restricted.
///
/// When an object is requested from the pool:
/// - If an object is available from the pool, an object from the pool is
/// removed from the pool, activated (using the factory) and returned.
/// - Otherwise, if the peak capacity of the pool has not yet been reached,
/// a new object is created and activated, using the object factory, and returned.
/// - If the peak capacity has already been reached, null is returned after timeout.
///
/// When an object is returned to the pool:
/// - If the object is valid (checked by calling validateObject()
/// from the object factory), the object is deactivated. If the
/// number of objects in the pool is below the capacity,
/// the object is added to the pool. Otherwise it is destroyed.
/// - If the object is not valid, it is destroyed immediately.
{
public:
ObjectPool(std::size_t capacity, std::size_t peakCapacity):
/// Creates a new ObjectPool with the given capacity
/// and peak capacity.
///
/// The PoolableObjectFactory must have a public default constructor.
_capacity(capacity),
_peakCapacity(peakCapacity),
_size(0)
{
poco_assert (capacity <= peakCapacity);
}
ObjectPool(const F& factory, std::size_t capacity, std::size_t peakCapacity):
/// Creates a new ObjectPool with the given PoolableObjectFactory,
/// capacity and peak capacity. The PoolableObjectFactory must have
/// a public copy constructor.
_factory(factory),
_capacity(capacity),
_peakCapacity(peakCapacity),
_size(0)
{
poco_assert (capacity <= peakCapacity);
}
~ObjectPool()
/// Destroys the ObjectPool.
{
try
{
for (typename std::vector<P>::iterator it = _pool.begin(); it != _pool.end(); ++it)
{
_factory.destroyObject(*it);
}
}
catch (...)
{
poco_unexpected();
}
}
P borrowObject(long timeoutMilliseconds = 0)
/// Obtains an object from the pool, or creates a new object if
/// possible.
///
/// Returns null if no object is available after timeout.
///
/// If activating the object fails, the object is destroyed and
/// the exception is passed on to the caller.
{
Poco::FastMutex::ScopedLock lock(_mutex);
if (!_pool.empty())
{
P pObject = _pool.back();
_pool.pop_back();
return activateObject(pObject);
}
if (_size >= _peakCapacity)
{
if (timeoutMilliseconds == 0)
{
return 0;
}
while (_size >= _peakCapacity)
{
if ( !_availableCondition.tryWait(_mutex, timeoutMilliseconds))
{
// timeout
return 0;
}
}
}
// _size < _peakCapacity
P pObject = _factory.createObject();
activateObject(pObject);
_size++;
return pObject;
}
void returnObject(P pObject)
/// Returns an object to the pool.
{
Poco::FastMutex::ScopedLock lock(_mutex);
if (_factory.validateObject(pObject))
{
_factory.deactivateObject(pObject);
if (_pool.size() < _capacity)
{
try
{
_pool.push_back(pObject);
return;
}
catch (...)
{
}
}
}
_factory.destroyObject(pObject);
_size--;
_availableCondition.signal();
}
std::size_t capacity() const
{
return _capacity;
}
std::size_t peakCapacity() const
{
return _peakCapacity;
}
std::size_t size() const
{
Poco::FastMutex::ScopedLock lock(_mutex);
return _size;
}
std::size_t available() const
{
Poco::FastMutex::ScopedLock lock(_mutex);
return _pool.size() + _peakCapacity - _size;
}
protected:
P activateObject(P pObject)
{
try
{
_factory.activateObject(pObject);
}
catch (...)
{
_factory.destroyObject(pObject);
throw;
}
return pObject;
}
private:
ObjectPool();
ObjectPool(const ObjectPool&);
ObjectPool& operator = (const ObjectPool&);
F _factory;
std::size_t _capacity;
std::size_t _peakCapacity;
std::size_t _size;
std::vector<P> _pool;
mutable Poco::FastMutex _mutex;
Poco::Condition _availableCondition;
};
} // namespace Poco
#endif // Foundation_ObjectPool_INCLUDED