2013-10-14 01:18:56 +02:00
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/*
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DEPENDENCY.hpp - access point to singletons and dependencies
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Copyright (C) Lumiera.org
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2013, Hermann Vosseler <Ichthyostega@web.de>
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License as
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published by the Free Software Foundation; either version 2 of
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the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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====================================================================
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This code is heavily inspired by
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The Loki Library (loki-lib/trunk/include/loki/Singleton.h)
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Copyright (c) 2001 by Andrei Alexandrescu
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Loki code accompanies the book:
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Alexandrescu, Andrei. "Modern C++ Design: Generic Programming
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and Design Patterns Applied".
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Copyright (c) 2001. Addison-Wesley. ISBN 0201704315
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*/
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#ifndef LIB_DEPEND_H
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#define LIB_DEPEND_H
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#include "lib/sync-classlock.hpp"
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2013-10-18 02:49:37 +02:00
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#include "lib/dependency-factory.hpp"
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namespace lib {
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/**
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* Access point to singletons and other kinds of dependencies.
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* Actually this is a Factory object, which is typically placed into a static field
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* of the Singleton (target) class or some otherwise suitable interface.
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2013-10-16 04:46:20 +02:00
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* @note uses static fields internally, so all factory instances share pInstance_
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* @remark there is an ongoing discussion regarding the viability of the
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* Double Checked Locking pattern, which requires either the context of a clearly defined
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* language memory model (as in Java), or needs to be supplemented by memory barriers.
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* In our case, this debate boils down to the question: does \c pthread_mutex_lock/unlock
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* constitute a memory barrier, such as to force any memory writes happening \em within
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* the singleton ctor to be flushed and visible to other threads when releasing the lock?
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* To my understanding, the answer is yes. See
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* [POSIX](http://www.opengroup.org/onlinepubs/000095399/basedefs/xbd_chap04.html#tag_04_10)
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* @param SI the class of the Singleton instance
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* @param Create policy defining how to create/destroy the instance
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* @param Life policy defining how to manage Singleton Lifecycle
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*/
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template<class SI>
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class Depend
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{
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typedef ClassLock<SI> SyncLock;
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static SI* volatile instance;
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static DependencyFactory factory;
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public:
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/** Interface to be used by SingletonFactory's clients.
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* Manages internally the instance creation, lifecycle
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* and access handling in a multithreaded context.
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* @return "the" single instance of class S
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*/
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SI&
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operator() ()
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{
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if (!instance)
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{
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SyncLock guard;
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if (!instance)
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instance = static_cast<SI*> (factory.buildInstance());
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}
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ENSURE (instance);
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return *instance;
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}
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void
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shutdown()
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{
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SyncLock guard;
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factory.deconfigure (instance);
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instance = NULL;
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}
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void
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injectReplacement (SI* mock)
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{
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REQUIRE (mock);
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factory.takeOwnership (mock); // EX_SANE
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SyncLock guard;
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factory.shaddow (instance); // EX_FREE
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instance = mock;
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}
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void
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dropReplacement()
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{
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SyncLock guard;
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factory.restore (instance); // EX_FREE
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}
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typedef DependencyFactory::InstanceConstructor Constructor;
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Depend (Constructor ctor = buildSingleton<SI>())
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{
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factory.installConstructorFunction (ctor);
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}
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// standard copy operations applicable
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};
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// Storage for SingletonFactory's static fields...
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template<class SI>
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SI* volatile Depend<SI>::instance;
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template<class SI>
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DependencyFactory Depend<SI>::factory;
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} // namespace lib
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#endif
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