docs/manual/appendix-porting.xml - mtk-gstreamer-debian - Git at Google

 <chapter id="chapter-porting">
   <title>Porting 0.8 applications to 0.10</title>
   <para>
     This section of the appendix will discuss shortly what changes to
     applications will be needed to quickly and conveniently port most
     applications from &GStreamer;-0.8 to &GStreamer;-0.10, with references
     to the relevant sections in this Application Development Manual
     where needed. With this list, it should be possible to port simple
     applications to &GStreamer;-0.10 in less than a day.
   </para>

   <sect1 id="section-porting-objects">
     <title>List of changes</title>
     <itemizedlist>
       <listitem>
         <para>
           Most functions returning an object or an object property have
           been changed to return its own reference rather than a constant
           reference of the one owned by the object itself. The reason for
           this change is primarily thread safety. This means, effectively,
           that return values of functions such as
           <function>gst_element_get_pad ()</function>,
           <function>gst_pad_get_name ()</function> and many more like these
           have to be free'ed or unreferenced after use. Check the API
           references of each function to know for sure whether return
           values should be free'ed or not. It is important that all objects
           derived from GstObject are ref'ed/unref'ed using gst_object_ref()
           and gst_object_unref() respectively (instead of g_object_ref/unref).
         </para>
       </listitem>
       <listitem>
         <para>
           Applications should no longer use signal handlers to be notified
           of errors, end-of-stream and other similar pipeline events.
           Instead, they should use the <classname>GstBus</classname>, which
           has been discussed in <xref linkend="chapter-bus"/>. The bus will
           take care that the messages will be delivered in the context of a
           main loop, which is almost certainly the application's main thread.
           The big advantage of this is that applications no longer need to
           be thread-aware; they don't need to use <function>g_idle_add
           ()</function> in the signal handler and do the actual real work
           in the idle-callback. &GStreamer; now does all that internally.
         </para>
       </listitem>
       <listitem>
         <para>
           Related to this, <function>gst_bin_iterate ()</function> has been
           removed. Pipelines will iterate in their own thread, and applications
           can simply run a <classname>GMainLoop</classname> (or call the
           mainloop of their UI toolkit, such as <function>gtk_main
           ()</function>).
         </para>
       </listitem>
       <listitem>
         <para>
           State changes can be delayed (ASYNC). Due to the new fully threaded
           nature of GStreamer-0.10, state changes are not always immediate,
           in particular changes including the transition from READY to PAUSED
           state. This means two things in the context of porting applications:
           first of all, it is no longer always possible to do
           <function>gst_element_set_state ()</function> and check for a return
           value of GST_STATE_CHANGE_SUCCESS, as the state change might be
           delayed (ASYNC) and the result will not be known until later. You
           should still check for GST_STATE_CHANGE_FAILURE right away, it is
           just no longer possible to assume that everything that is not SUCCESS
           means failure. Secondly, state changes might not be immediate, so
           your code needs to take that into account. You can wait for a state
           change to complete if you use GST_CLOCK_TIME_NONE as timeout interval
           with <function>gst_element_get_state ()</function>.
         </para>
       </listitem>
       <listitem>
         <para>
           In 0.8, events and queries had to manually be sent to sinks in
           pipelines (unless you were using playbin). This is no longer
           the case in 0.10. In 0.10, queries and events can be sent to
           toplevel pipelines, and the pipeline will do the dispatching
           internally for you. This means less bookkeeping in your
           application. For a short code example, see <xref
           linkend="chapter-queryevents"/>. Related, seeking is now
           threadsafe, and your video output will show the new video
           position's frame while seeking, providing a better user
           experience.
         </para>
       </listitem>
       <listitem>
         <para>
           The <classname>GstThread</classname> object has been removed.
           Applications can now simply put elements in a pipeline with
           optionally some <quote>queue</quote> elements in between for
           buffering, and &GStreamer; will take care of creating threads
           internally. It is still possible to have parts of a pipeline
           run in different threads than others, by using the
           <quote>queue</quote> element. See <xref linkend="chapter-threads"/>
           for details.
         </para>
       </listitem>
       <listitem>
         <para>
           Filtered caps -> capsfilter element (the pipeline syntax for
           gst-launch has not changed though).
         </para>
       </listitem>
       <listitem>
         <para>
           libgstgconf-0.10.la does not exist. Use the
           <quote>gconfvideosink</quote> and <quote>gconfaudiosink</quote>
           elements instead, which will do live-updates and require no library
           linking.
         </para>
       </listitem>
       <listitem>
         <para>
           The <quote>new-pad</quote> and <quote>state-change</quote> signals on
           <classname>GstElement</classname> were renamed to
           <quote>pad-added</quote> and <quote>state-changed</quote>.
         </para>
       </listitem>
       <listitem>
         <para>
           <function>gst_init_get_popt_table ()</function> has been removed
           in favour of the new GOption command line option API that was
           added to GLib 2.6. <function>gst_init_get_option_group ()</function>
           is the new GOption-based equivalent to
           <function>gst_init_get_ptop_table ()</function>.
         </para>
       </listitem>
     </itemizedlist>
   </sect1>
 </chapter>
	<chapter id="chapter-porting">
	<title>Porting 0.8 applications to 0.10</title>
	<para>
	This section of the appendix will discuss shortly what changes to
	applications will be needed to quickly and conveniently port most
	applications from &GStreamer;-0.8 to &GStreamer;-0.10, with references
	to the relevant sections in this Application Development Manual
	where needed. With this list, it should be possible to port simple
	applications to &GStreamer;-0.10 in less than a day.
	</para>

	<sect1 id="section-porting-objects">
	<title>List of changes</title>
	<itemizedlist>
	<listitem>
	<para>
	Most functions returning an object or an object property have
	been changed to return its own reference rather than a constant
	reference of the one owned by the object itself. The reason for
	this change is primarily thread safety. This means, effectively,
	that return values of functions such as
	<function>gst_element_get_pad ()</function>,
	<function>gst_pad_get_name ()</function> and many more like these
	have to be free'ed or unreferenced after use. Check the API
	references of each function to know for sure whether return
	values should be free'ed or not. It is important that all objects
	derived from GstObject are ref'ed/unref'ed using gst_object_ref()
	and gst_object_unref() respectively (instead of g_object_ref/unref).
	</para>
	</listitem>
	<listitem>
	<para>
	Applications should no longer use signal handlers to be notified
	of errors, end-of-stream and other similar pipeline events.
	Instead, they should use the <classname>GstBus</classname>, which
	has been discussed in <xref linkend="chapter-bus"/>. The bus will
	take care that the messages will be delivered in the context of a
	main loop, which is almost certainly the application's main thread.
	The big advantage of this is that applications no longer need to
	be thread-aware; they don't need to use <function>g_idle_add
	()</function> in the signal handler and do the actual real work
	in the idle-callback. &GStreamer; now does all that internally.
	</para>
	</listitem>
	<listitem>
	<para>
	Related to this, <function>gst_bin_iterate ()</function> has been
	removed. Pipelines will iterate in their own thread, and applications
	can simply run a <classname>GMainLoop</classname> (or call the
	mainloop of their UI toolkit, such as <function>gtk_main
	()</function>).
	</para>
	</listitem>
	<listitem>
	<para>
	State changes can be delayed (ASYNC). Due to the new fully threaded
	nature of GStreamer-0.10, state changes are not always immediate,
	in particular changes including the transition from READY to PAUSED
	state. This means two things in the context of porting applications:
	first of all, it is no longer always possible to do
	<function>gst_element_set_state ()</function> and check for a return
	value of GST_STATE_CHANGE_SUCCESS, as the state change might be
	delayed (ASYNC) and the result will not be known until later. You
	should still check for GST_STATE_CHANGE_FAILURE right away, it is
	just no longer possible to assume that everything that is not SUCCESS
	means failure. Secondly, state changes might not be immediate, so
	your code needs to take that into account. You can wait for a state
	change to complete if you use GST_CLOCK_TIME_NONE as timeout interval
	with <function>gst_element_get_state ()</function>.
	</para>
	</listitem>
	<listitem>
	<para>
	In 0.8, events and queries had to manually be sent to sinks in
	pipelines (unless you were using playbin). This is no longer
	the case in 0.10. In 0.10, queries and events can be sent to
	toplevel pipelines, and the pipeline will do the dispatching
	internally for you. This means less bookkeeping in your
	application. For a short code example, see <xref
	linkend="chapter-queryevents"/>. Related, seeking is now
	threadsafe, and your video output will show the new video
	position's frame while seeking, providing a better user
	experience.
	</para>
	</listitem>
	<listitem>
	<para>
	The <classname>GstThread</classname> object has been removed.
	Applications can now simply put elements in a pipeline with
	optionally some <quote>queue</quote> elements in between for
	buffering, and &GStreamer; will take care of creating threads
	internally. It is still possible to have parts of a pipeline
	run in different threads than others, by using the
	<quote>queue</quote> element. See <xref linkend="chapter-threads"/>
	for details.
	</para>
	</listitem>
	<listitem>
	<para>
	Filtered caps -> capsfilter element (the pipeline syntax for
	gst-launch has not changed though).
	</para>
	</listitem>
	<listitem>
	<para>
	libgstgconf-0.10.la does not exist. Use the
	<quote>gconfvideosink</quote> and <quote>gconfaudiosink</quote>
	elements instead, which will do live-updates and require no library
	linking.
	</para>
	</listitem>
	<listitem>
	<para>
	The <quote>new-pad</quote> and <quote>state-change</quote> signals on
	<classname>GstElement</classname> were renamed to
	<quote>pad-added</quote> and <quote>state-changed</quote>.
	</para>
	</listitem>
	<listitem>
	<para>
	<function>gst_init_get_popt_table ()</function> has been removed
	in favour of the new GOption command line option API that was
	added to GLib 2.6. <function>gst_init_get_option_group ()</function>
	is the new GOption-based equivalent to
	<function>gst_init_get_ptop_table ()</function>.
	</para>
	</listitem>
	</itemizedlist>
	</sect1>
	</chapter>