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       <h3><a href="../../../index.htm"><img height="86" width="277" alt="C++ Boost" src="../../../boost.png" border="0"></a></h3>
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     <td valign="top">
       <h1 align="center">Serialization</h1>
       <h2 align="center">Template serialization - <code style="white-space: normal">shared_ptr&lt;class T&gt;</code></h2>
     </td>
   </tr>
 </table>
 <hr>
 All the code snippets included below are defined within the
 <code style="white-space: normal">boost::serialization</code> namespace.
 <p>
 <code style="white-space: normal">shared_ptr&lt;T&gt;</code> is defined in
 <a href="../../../boost/shared_ptr.hpp" target=shared_ptr.hpp>shared_ptr.hpp</a>.
 <p>
 The general class outline for a <code style="white-space: normal">shared_ptr&lt;T&gt;</code> is:
 <dl>
     <dt><code style="white-space: normal">shared_ptr&lt;T&gt;</code> contains:
     <dl>
         <dt><code style="white-space: normal">T *px;</code>
         <dt><code style="white-space: normal">shared_count pn;</code> which contains a pointer to:
         <dl>
             <dt><code style="white-space: normal">sp_counted_base_impl&lt;T, ...&gt;</code> which is
 derived from the polymorphic abstract class
             <dl>
                 <dt><code style="white-space: normal">sp_counted_base</code>
             </dl>
         </dl>
     </dl>
 </dl>
 The serialization process proceeds down the tree above.
 <p>
 The first cut at implementing serialization for <code style="white-space: normal">shared_ptr</code>
 just serializes the relevant members of <code style="white-space: normal">shared_ptr</code>.
 It's almost trivial:
 <pre><code>
 template&lt;class Archive, class T&gt;
 inline void serialize(
     Archive &amp; ar,
     shared_ptr&lt;T&gt; &amp; t,
     const unsigned int file_version,
     int
 ){
     ar &amp; t.px; // save the raw pointer
     ar &amp; t.pn; // save the shared reference count
 }
 </code></pre>
 So far so good.  Now for the serialization of <code style="white-space: normal">shared_count</code>:
 <pre><code>
 template&lt;class Archive&gt;
 inline void save(
     Archive &amp; ar,
     const boost::detail::shared_count &amp; t,
     const unsigned int file_version
 ){
     ar &lt;&lt; t.pi_;
 }

 template&lt;class Archive&gt;
 inline void load(
     Archive &amp; ar,
     boost::detail::shared_count &amp; t,
     const unsigned int file_version
 ){
     ar &gt;&gt; t.pi_;
 }
 </code></pre>
 A key feature of this library is the ability to specify serialization
 of a class or template without changing the class or template declaration
 or definition.  This is referred to as <i>non-intrusive</i> serialization.
 <p>
 The <code style="white-space: normal">pi_</code>member of shared count is a pointer to an
 instance of <code style="white-space: normal">sp_counted_base_impl<T, ...></code>.  Since this class
 doesn't have a default constructor, serialization requires
 specification of the following overload:
 <pre><code>
 template&lt;class Archive, class P, class D>
 inline void save_construct_data(
     Archive &amp; ar,
     const boost::detail::sp_counted_base_impl<P, D> * t,
     const unsigned int file_version
 ){
     // variables used for construction
     ar &lt;&lt; t->ptr;
     ar &lt;&lt; *t;
 }

 template<class Archive, class P, class D>
 inline void load_construct_data(
     Archive &amp; ar,
     boost::detail::sp_counted_base_impl<P, D> * t,
     const unsigned int file_version
 ){
     P ptr_;
     ar &gt;&gt; ptr_;
     // placement new
     ::new(t)boost::detail::sp_counted_base_impl<P, D>(ptr_,  D());
     ar &gt;&gt;; *t;
 }
 </code></pre>
 The statement <code style="white-space: normal">ar &gt;&gt; ptr_</code> is key. This deserializes
 the same pointer deserialzed above.  Default object tracking will ensure
 that no more than one instance of the object is created and that the
 pointer returned by multiple deserializations are all the same. Hence,
 regardless of how many instances of <code style="white-space: normal">shared_ptr/shared_count</code>
 corresponding to a particular object are created, the will all point
 to the same object.
 <p>
 Since <code style="white-space: normal">sp_counted_base_impl&lt;P, D&gt;</code> is derived from
 <code style="white-space: normal">sp_counted_base</code>, the following is needed:

 <pre><code>
 template&lt;class Archive, class P, class D&gt;
 inline void serialize(
     Archive &amp; ar,
     boost::detail::sp_counted_base_impl&lt;P, D&gt; &amp; t,
     const unsigned int file_version,
     int
 ){
     ar & boost::serialization::base_object&lt;
 	boost::detail::sp_counted_base
     &gt;(*this);
 }
 </code></pre>
 which will in turn require serialization of its base class:
 <pre><code>
 inline void serialize(
     Archive &amp; ar,
     boost::detail::sp_counted &amp; t,
     const unsigned int file_version,
     int
 ){
 }
 </code></pre>
 It would seem we're done, running the test program,
 <a href="../example/demo_shared_ptr.cpp" target="demo_shared_ptr_cpp">
 demo_shared_ptr.cpp
 </a>,
 with this code produces the following output.
 <pre><code>
 a = 0x003017A0 use count = 2
 a1 = 0x003017A0 use count = 2
 unique element count = 1
 a = 0x00000000 use count = 0
 a1 = 0x00000000 use count = 0
 unique element count = 0
 a = 0x00303060 use count = 1
 a1 = 0x00303060 use count = 1
 unique element count = 1
 </code></pre>
 This indicates that we're not quite done.  Due to default object
 tracking, <code style="white-space: normal">sp_counted_base_impl&lt;P, D&gt;</code> is only
 created once regardless of how many shared pointers point to the
 same object.  Of course, it has to be this way. The reference
 count starts at 1 and is never incrememented.  Code must be added
 to the serialization functions to maintain the proper reference
 count.
 <p>
 The process of serialization of an empty base class -
 <code style="white-space: normal">sp_counted_base</code> - seems like additional overhead.
 Examination of code in
 <a href="../../../boost/serialization/base_object.hpp" target="base_object_hpp">
 base_object.hpp
 </a>
 reveals that <code style="white-space: normal">base_object.hpp</code> provides two functions:
 <ul>
     <li>invokes serialization of the base class data
     <li>as a side effect, "registers" the fact base/derived relationship
 so that conversions of pointers between base and derived classes can be
 made at runtime.
 </ul>
 In this case we need only the latter function so we can replace the
 base object serialization with:
 <pre><code>
 // register the relationship between each derived class
 // its polymorphic base
 void_cast_register&lt;
     boost::detail::sp_counted_base_impl&lt;P, D&gt;
     boost::detail::sp_counted_base,
 &gt;();
 </code></pre>
 and we don't have to include a trival serializer for <code style="white-space: normal">sp_counted_base</code>
 <p>
 Finally we need to specify name-value pair wrappers if we want to be able
 to use this serialization with XML archives.
 <p>
 Actually, even this is really just a start. Among the issues not addressed in
 this implementation are:
 <ul>
     <li><code style="white-space: normal">weak_ptr</code> is not addressed.  I haven't even looked into this.
     <li>Other smart pointers that might interact with <code style="white-space: normal">shared_ptr</code>
     haven't been addressed at all.  To be confident that the implementation is
     complete and correct, all these should be addressed as well.
     <li>Exception handling hasn't been exhaustively considered.
     <li>Other issues yet to be discovered.
 </ul>
 One thing that has been considered is export of shared_ptr. The header which
 declares shared pointer serialization includes some special macros for exporting
 shared pointers:
 <code><pre>
 BOOST_SHARED_POINTER_EXPORT(T)
 BOOST_SHARED_POINTER_EXPORT_GUID(T, K)
 </pre></code>
 These are specialize versions of the macros used for exporting classes serialized through raw pointers.
 <p>
 Clearly, complete, correct and exception safe serialization of smart pointers is going to
 be a challenge.  I hope that this implementation provides a useful
 starting point for such an effort.
 <hr>
 <p><i>&copy; Copyright <a href="http://www.rrsd.com">Robert Ramey</a> 2002-2004.
 Distributed under the Boost Software License, Version 1.0. (See
 accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
 </i></p>
 </body>
 </html>
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	License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
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	<head>
	<meta http-equiv="Content-Type" content="text/html; charset=UTF-8">
	<link rel="stylesheet" type="text/css" href="../../../boost.css">
	<link rel="stylesheet" type="text/css" href="style.css">
	<title>Template serialization - shared_ptr</title>
	</head>
	<body link="#0000ff" vlink="#800080">
	<table border="0" cellpadding="7" cellspacing="0" width="100%" summary="header">
	<tr>
	<td valign="top" width="300">
	<h3><a href="../../../index.htm"><img height="86" width="277" alt="C++ Boost" src="../../../boost.png" border="0"></a></h3>
	</td>
	<td valign="top">
	<h1 align="center">Serialization</h1>
	<h2 align="center">Template serialization - <code style="white-space: normal">shared_ptr<class T></code></h2>
	</td>
	</tr>
	</table>
	<hr>
	All the code snippets included below are defined within the
	<code style="white-space: normal">boost::serialization</code> namespace.
	<p>
	<code style="white-space: normal">shared_ptr<T></code> is defined in
	<a href="../../../boost/shared_ptr.hpp" target=shared_ptr.hpp>shared_ptr.hpp</a>.
	<p>
	The general class outline for a <code style="white-space: normal">shared_ptr<T></code> is:
	<dl>
	<dt><code style="white-space: normal">shared_ptr<T></code> contains:
	<dl>
	<dt><code style="white-space: normal">T *px;</code>
	<dt><code style="white-space: normal">shared_count pn;</code> which contains a pointer to:
	<dl>
	<dt><code style="white-space: normal">sp_counted_base_impl<T, ...></code> which is
	derived from the polymorphic abstract class
	<dl>
	<dt><code style="white-space: normal">sp_counted_base</code>
	</dl>
	</dl>
	</dl>
	</dl>
	The serialization process proceeds down the tree above.
	<p>
	The first cut at implementing serialization for <code style="white-space: normal">shared_ptr</code>
	just serializes the relevant members of <code style="white-space: normal">shared_ptr</code>.
	It's almost trivial:
	<pre><code>
	template<class Archive, class T>
	inline void serialize(
	Archive & ar,
	shared_ptr<T> & t,
	const unsigned int file_version,
	int
	){
	ar & t.px; // save the raw pointer
	ar & t.pn; // save the shared reference count
	}
	</code></pre>
	So far so good. Now for the serialization of <code style="white-space: normal">shared_count</code>:
	<pre><code>
	template<class Archive>
	inline void save(
	Archive & ar,
	const boost::detail::shared_count & t,
	const unsigned int file_version
	){
	ar << t.pi_;
	}

	template<class Archive>
	inline void load(
	Archive & ar,
	boost::detail::shared_count & t,
	const unsigned int file_version
	){
	ar >> t.pi_;
	}
	</code></pre>
	A key feature of this library is the ability to specify serialization
	of a class or template without changing the class or template declaration
	or definition. This is referred to as <i>non-intrusive</i> serialization.
	<p>
	The <code style="white-space: normal">pi_</code>member of shared count is a pointer to an
	instance of <code style="white-space: normal">sp_counted_base_impl<T, ...></code>. Since this class
	doesn't have a default constructor, serialization requires
	specification of the following overload:
	<pre><code>
	template<class Archive, class P, class D>
	inline void save_construct_data(
	Archive & ar,
	const boost::detail::sp_counted_base_impl<P, D> * t,
	const unsigned int file_version
	){
	// variables used for construction
	ar << t->ptr;
	ar << *t;
	}

	template<class Archive, class P, class D>
	inline void load_construct_data(
	Archive & ar,
	boost::detail::sp_counted_base_impl<P, D> * t,
	const unsigned int file_version
	){
	P ptr_;
	ar >> ptr_;
	// placement new
	::new(t)boost::detail::sp_counted_base_impl<P, D>(ptr_, D());
	ar >>; *t;
	}
	</code></pre>
	The statement <code style="white-space: normal">ar >> ptr_</code> is key. This deserializes
	the same pointer deserialzed above. Default object tracking will ensure
	that no more than one instance of the object is created and that the
	pointer returned by multiple deserializations are all the same. Hence,
	regardless of how many instances of <code style="white-space: normal">shared_ptr/shared_count</code>
	corresponding to a particular object are created, the will all point
	to the same object.
	<p>
	Since <code style="white-space: normal">sp_counted_base_impl<P, D></code> is derived from
	<code style="white-space: normal">sp_counted_base</code>, the following is needed:

	<pre><code>
	template<class Archive, class P, class D>
	inline void serialize(
	Archive & ar,
	boost::detail::sp_counted_base_impl<P, D> & t,
	const unsigned int file_version,
	int
	){
	ar & boost::serialization::base_object<
	boost::detail::sp_counted_base
	>(*this);
	}
	</code></pre>
	which will in turn require serialization of its base class:
	<pre><code>
	inline void serialize(
	Archive & ar,
	boost::detail::sp_counted & t,
	const unsigned int file_version,
	int
	){
	}
	</code></pre>
	It would seem we're done, running the test program,
	<a href="../example/demo_shared_ptr.cpp" target="demo_shared_ptr_cpp">
	demo_shared_ptr.cpp
	</a>,
	with this code produces the following output.
	<pre><code>
	a = 0x003017A0 use count = 2
	a1 = 0x003017A0 use count = 2
	unique element count = 1
	a = 0x00000000 use count = 0
	a1 = 0x00000000 use count = 0
	unique element count = 0
	a = 0x00303060 use count = 1
	a1 = 0x00303060 use count = 1
	unique element count = 1
	</code></pre>
	This indicates that we're not quite done. Due to default object
	tracking, <code style="white-space: normal">sp_counted_base_impl<P, D></code> is only
	created once regardless of how many shared pointers point to the
	same object. Of course, it has to be this way. The reference
	count starts at 1 and is never incrememented. Code must be added
	to the serialization functions to maintain the proper reference
	count.
	<p>
	The process of serialization of an empty base class -
	<code style="white-space: normal">sp_counted_base</code> - seems like additional overhead.
	Examination of code in
	<a href="../../../boost/serialization/base_object.hpp" target="base_object_hpp">
	base_object.hpp
	</a>
	reveals that <code style="white-space: normal">base_object.hpp</code> provides two functions:
	<ul>
	<li>invokes serialization of the base class data
	<li>as a side effect, "registers" the fact base/derived relationship
	so that conversions of pointers between base and derived classes can be
	made at runtime.
	</ul>
	In this case we need only the latter function so we can replace the
	base object serialization with:
	<pre><code>
	// register the relationship between each derived class
	// its polymorphic base
	void_cast_register<
	boost::detail::sp_counted_base_impl<P, D>
	boost::detail::sp_counted_base,
	>();
	</code></pre>
	and we don't have to include a trival serializer for <code style="white-space: normal">sp_counted_base</code>
	<p>
	Finally we need to specify name-value pair wrappers if we want to be able
	to use this serialization with XML archives.
	<p>
	Actually, even this is really just a start. Among the issues not addressed in
	this implementation are:
	<ul>
	<li><code style="white-space: normal">weak_ptr</code> is not addressed. I haven't even looked into this.
	<li>Other smart pointers that might interact with <code style="white-space: normal">shared_ptr</code>
	haven't been addressed at all. To be confident that the implementation is
	complete and correct, all these should be addressed as well.
	<li>Exception handling hasn't been exhaustively considered.
	<li>Other issues yet to be discovered.
	</ul>
	One thing that has been considered is export of shared_ptr. The header which
	declares shared pointer serialization includes some special macros for exporting
	shared pointers:
	<code><pre>
	BOOST_SHARED_POINTER_EXPORT(T)
	BOOST_SHARED_POINTER_EXPORT_GUID(T, K)
	</pre></code>
	These are specialize versions of the macros used for exporting classes serialized through raw pointers.
	<p>
	Clearly, complete, correct and exception safe serialization of smart pointers is going to
	be a challenge. I hope that this implementation provides a useful
	starting point for such an effort.
	<hr>
	<p><i>© Copyright <a href="http://www.rrsd.com">Robert Ramey</a> 2002-2004.
	Distributed under the Boost Software License, Version 1.0. (See
	accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
	</i></p>
	</body>
	</html>