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Original commit message from CVS: * docs/manual/advanced-autoplugging.xml: * docs/manual/advanced-clocks.xml: * docs/manual/advanced-interfaces.xml: * docs/manual/advanced-metadata.xml: * docs/manual/advanced-position.xml: * docs/manual/advanced-schedulers.xml: * docs/manual/advanced-threads.xml: * docs/manual/appendix-gnome.xml: * docs/manual/appendix-programs.xml: * docs/manual/appendix-quotes.xml: * docs/manual/autoplugging.xml: * docs/manual/basics-bins.xml: * docs/manual/basics-data.xml: * docs/manual/basics-elements.xml: * docs/manual/basics-helloworld.xml: * docs/manual/basics-init.xml: * docs/manual/basics-pads.xml: * docs/manual/basics-plugins.xml: * docs/manual/bins-api.xml: * docs/manual/bins.xml: * docs/manual/buffers-api.xml: * docs/manual/buffers.xml: * docs/manual/clocks.xml: * docs/manual/components.xml: * docs/manual/cothreads.xml: * docs/manual/debugging.xml: * docs/manual/dparams-app.xml: * docs/manual/dynamic.xml: * docs/manual/elements-api.xml: * docs/manual/elements.xml: * docs/manual/factories.xml: * docs/manual/gnome.xml: * docs/manual/goals.xml: * docs/manual/helloworld.xml: * docs/manual/helloworld2.xml: * docs/manual/highlevel-components.xml: * docs/manual/highlevel-xml.xml: * docs/manual/init-api.xml: * docs/manual/intro-basics.xml: * docs/manual/intro-motivation.xml: * docs/manual/intro-preface.xml: * docs/manual/intro.xml: * docs/manual/links-api.xml: * docs/manual/links.xml: * docs/manual/manual.xml: * docs/manual/motivation.xml: * docs/manual/pads-api.xml: * docs/manual/pads.xml: * docs/manual/plugins-api.xml: * docs/manual/plugins.xml: * docs/manual/programs.xml: * docs/manual/queues.xml: * docs/manual/quotes.xml: * docs/manual/schedulers.xml: * docs/manual/states-api.xml: * docs/manual/states.xml: * docs/manual/threads.xml: * docs/manual/typedetection.xml: * docs/manual/win32.xml: * docs/manual/xml.xml: Try 2. This time, include a short preface as a "general introduction", also add code blocks around all code samples so they get compiled. We still need a way to tell readers the filename of the code sample. In some cases, don't show all code in the documentation, but do include it in the generated code. This allows for focussing on specific bits in the docs, while still having a full test application available. * examples/manual/Makefile.am: Fix up examples for new ADM. Add several of the new examples that were either added or were missing from the build system. * examples/manual/extract.pl: Allow nameless blocks.
545 lines
20 KiB
XML
545 lines
20 KiB
XML
<chapter id="chapter-pads" xreflabel="Pads and capabilities">
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<title>Pads and capabilities</title>
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<para>
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As we have seen in <xref linkend="chapter-elements"/>, the pads are
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the element's interface to the outside world. Data streams from one
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element's source pad to another element's sink pad. The specific
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type of media that the element can handle will be exposed by the
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pad's capabilities. We will talk more on capabilities later in this
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chapter (see <xref linkend="section-caps"/>).
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</para>
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<sect1 id="section-pads">
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<title>Pads</title>
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<para>
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A pad type is defined by two properties: its direction and its
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availability. As we've mentioned before, &GStreamer; defines two
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pad directions: source pads and sink pads. This terminology is
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defined from the view of within the element: elements receive data
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on their sink pads and generate data on their source pads.
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Schematically, sink pads are drawn on the left side of an element,
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whereas source pads are drawn on the right side of an element. In
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such graphs, data flows from left to right.
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<footnote>
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<para>
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In reality, there is no objection to data flowing from a
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source pad to the sink pad of an element upstream (to the
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left of this element in drawings). Data will, however, always
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flow from a source pad of one element to the sink pad of
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another.
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</para>
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</footnote>
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</para>
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<para>
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Pad directions are very simple compared to pad availability. A pad
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can have any of three availabilities: always, sometimes and on
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request. The meaning of those three types is exactly as it says:
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always pads always exist, sometimes pad exist only in certain
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cases (and can disappear randomly), and on-request pads appear
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only if explicitely requested by applications.
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</para>
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<sect2 id="section-pads-dynamic">
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<title>Dynamic (or sometimes) pads</title>
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<para>
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Some elements might not have all of their pads when the element is
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created. This can happen, for example, with an Ogg demuxer element.
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The element will read the Ogg stream and create dynamic pads for
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each contained elementary stream (vorbis, theora) when it detects
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such a stream in the Ogg stream. Likewise, it will delete the pad
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when the stream ends. This principle is very useful for demuxer
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elements, for example.
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</para>
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<para>
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Running <application>gst-inspect oggdemux</application> will show
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that the element has only one pad: a sink pad called 'sink'. The
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other pads are <quote>dormant</quote>. You can see this in the pad
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template because there is an <quote>Exists: Sometimes</quote>
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property. Depending on the type of Ogg file you play, the pads will
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be created. We will see that this is very important when you are
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going to create dynamic pipelines. You can attach a signal handler
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to an element to inform you when the element has created a new pad
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from one of its <quote>sometimes</quote> pad templates. The
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following piece of code is an example of how to do this:
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</para>
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<programlisting><!-- example-begin pad.c a -->
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#include <gst/gst.h>
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static void
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cb_new_pad (GstElement *element,
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GstPad *pad,
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gpointer data)
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{
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g_print ("A new pad %s was created\n", gst_pad_get_name (pad));
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/* here, you would setup a new pad link for the newly created pad */
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<!-- example-end pad.c a -->[..]
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<!-- example-begin pad.c b -->
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}
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int
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main(int argc, char *argv[])
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{
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GstElement *pipeline, *source, *demux;
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/* init */
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gst_init (&argc, &argv);
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/* create elements */
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pipeline = gst_pipeline_new ("my_pipeline");
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source = gst_element_factory_make ("filesrc", "source");
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g_object_set (source, "location", argv[1], NULL);
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demux = gst_element_factory_make ("oggdemux", "demuxer");
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/* you would normally check that the elements were created properly */
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/* put together a pipeline */
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gst_bin_add_many (GST_BIN (pipeline), source, demux, NULL);
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gst_element_link (source, demux);
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/* listen for newly created pads */
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g_signal_connect (demux, "new-pad", G_CALLBACK (cb_new_pad), NULL);
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/* start the pipeline */
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gst_element_set_state (GST_ELEMENT (pipeline), GST_STATE_PLAYING);
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while (gst_bin_iterate (GST_BIN (pipeline)));
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<!--example-end pad.c b -->
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[..]<!-- example-begin pad.c c --><!--
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return 0;
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--><!-- example-end pad.c c -->
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<!-- example-begin pad.c d -->
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}
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<!-- example-end pad.c d --></programlisting>
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</sect2>
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<sect2 id="section-pads-request">
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<title>Request pads</title>
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<para>
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An element can also have request pads. These pads are not created
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automatically but are only created on demand. This is very useful
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for multiplexers, aggregators and tee elements. Aggregators are
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elements that merge the content of several input streams together
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into one output stream. Tee elements are the reverse: they are
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elements that have one input stream and copy this stream to each
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of their output pads, which are created on request. Whenever an
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application needs another copy of the stream, it can simply request
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a new output pad from the tee element.
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</para>
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<para>
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The following piece of code shows how you can request a new output
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pad from a <quote>tee</quote> element:
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</para>
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<programlisting>
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static void
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some_function (GstElement *tee)
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{
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GstPad * pad;
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pad = gst_element_get_request_pad (tee, "src%d");
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g_print ("A new pad %s was created\n", gst_pad_get_name (pad));
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/* here, you would link the pad */
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[..]
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}
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</programlisting>
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<para>
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The <function>gst_element_get_request_pad ()</function> method
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can be used to get a pad from the element based on the name of
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the pad template. It is also possible to request a pad that is
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compatible with another pad template. This is very useful if
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you want to link an element to a multiplexer element and you
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need to request a pad that is compatible. The method
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<function>gst_element_get_compatible_pad ()</function> can be
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used to request a compatible pad, as shown in the next example.
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It will request a compatible pad from an Ogg multiplexer from
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any input.
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</para>
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<programlisting>
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static void
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link_to_multiplexer (GstPad *tolink_pad,
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GstElement *mux)
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{
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GstPad *pad;
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pad = gst_element_get_compatible_pad (mux, tolink_pad);
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gst_pad_link (tolinkpad, pad);
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g_print ("A new pad %s was created and linked to %s\n",
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gst_pad_get_name (pad), gst_pad_get_name (tolink_pad));
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}
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</programlisting>
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</sect2>
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</sect1>
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<sect1 id="section-caps">
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<title>Capabilities of a pad</title>
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<para>
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Since the pads play a very important role in how the element is
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viewed by the outside world, a mechanism is implemented to describe
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the data that can flow or currently flows through the pad by using
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capabilities. Here,w e will briefly describe what capabilities are
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and how to use them, enough to get an understanding of the concept.
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For an in-depth look into capabilities and a list of all capabilities
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defined in &GStreamer;, see the <ulink type="http"
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url="http://gstreamer.freedesktop.org/data/doc/gstreamer/head/pwg/html/index.html">Plugin
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Writers Guide</ulink>.
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</para>
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<para>
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Capabilities are attached to pad templates and to pads. For pad
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templates, it will describe the types of media that may stream
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over a pad created from this template. For pads, it can either
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be a list of possible caps (usually a copy of the pad template's
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capabilities), in which case the pad is not yet negotiated, or it
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is the type of media that currently streams over this pad, in
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which case the pad has been negotiated already.
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</para>
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<sect2 id="section-caps-structure">
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<title>Dissecting capabilities</title>
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<para>
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A pads capabilities are described in a <classname>GstCaps</classname>
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object. Internally, a <ulink type="http"
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url="../../gstreamer/html/gstreamer-GstCaps.html"><classname>GstCaps</classname></ulink>
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will contain one or more <ulink type="http"
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url="../../gstreamer/html/gstreamer-GstStructure.html"><classname>GstStructure</classname></ulink>
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that will describe one media type. A negotiated pad will have
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capabilities set that contain exactly <emphasis>one</emphasis>
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structure. Also, this structure will contain only
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<emphasis>fixed</emphasis> values. These constraints are not
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true for unnegotiated pads or pad templates.
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</para>
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<para>
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As an example, below is a dump of the capabilities of the
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<quote>vorbisdec</quote> element, which you will get by running
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<command>gst-inspect vorbisdec</command>. You will see two pads:
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a source and a sink pad. Both of these pads are always available,
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and both have capabilities attached to them. The sink pad will
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accept vorbis-encoded audio data, with the mime-type
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<quote>audio/x-vorbis</quote>. The source pad will be used
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to send raw (decoded) audio samples to the next element, with
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a raw audio mime-type (either <quote>audio/x-raw-int</quote> or
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<quote>audio/x-raw-float</quote>). The source pad will also
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contain properties for the audio samplerate and the amount of
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channels, plus some more that you don't need to worry about
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for now.
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</para>
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<programlisting>
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Pad Templates:
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SRC template: 'src'
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Availability: Always
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Capabilities:
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audio/x-raw-float
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rate: [ 8000, 50000 ]
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channels: [ 1, 2 ]
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endianness: 1234
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width: 32
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buffer-frames: 0
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SINK template: 'sink'
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Availability: Always
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Capabilities:
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audio/x-vorbis
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</programlisting>
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</sect2>
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<sect2 id="section-caps-props">
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<title>Properties and values</title>
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<para>
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Properties are used to describe extra information for
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capabilities. A property consists of a key (a string) and
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a value. There are different possible value types that can be used:
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</para>
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<itemizedlist>
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<listitem>
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<para>
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Basic types, this can be pretty much any
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<classname>GType</classname> registered with Glib. Those
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properties indicate a specific, non-dynamic value for this
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property. Examples include:
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</para>
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<itemizedlist>
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<listitem>
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<para>
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An integer value (<classname>G_TYPE_INT</classname>):
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the property has this exact value.
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</para>
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</listitem>
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<listitem>
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<para>
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A boolean value (<classname>G_TYPE_BOOLEAN</classname>):
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the property is either TRUE or FALSE.
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</para>
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</listitem>
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<listitem>
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<para>
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A float value (<classname>G_TYPE_FLOAT</classname>):
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the property has this exact floating point value.
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</para>
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</listitem>
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<listitem>
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<para>
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A string value (<classname>G_TYPE_STRING</classname>):
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the property contains a UTF-8 string.
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</para>
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</listitem>
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</itemizedlist>
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</listitem>
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<listitem>
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<para>
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Range types are <classname>GType</classname>s registered by
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&GStreamer; to indicate a range of possible values. They are
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used for indicating allowed audio samplerate values or
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supported video sizes. The two types defined in &GStreamer;
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are:
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</para>
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<itemizedlist>
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<listitem>
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<para>
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An integer range value
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(<classname>GST_TYPE_INT_RANGE</classname>): the property
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denotes a range of possible integers, with a lower and an
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upper boundary. The <quote>vorbisdec</quote> element, for
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example, has a rate property that can be between 8000 and
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50000.
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</para>
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</listitem>
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<listitem>
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<para>
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A float range value
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(<classname>GST_TYPE_FLOAT_RANGE</classname>): the property
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denotes a range of possible floating point values, with a
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lower and an upper boundary.
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</para>
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</listitem>
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</itemizedlist>
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</listitem>
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<listitem>
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<para>
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A list value (<classname>GST_TYPE_LIST</classname>): the
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property can take any value from a list of basic values
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given in this list.
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</para>
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</listitem>
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</itemizedlist>
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</sect2>
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</sect1>
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<sect1 id="section-caps-api">
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<title>What capabilities are used for</title>
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<para>
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Capabilities describe the type of data that is streamed between
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two pads, or that one pad (template) supports. This makes them
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very useful for various purposes:
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</para>
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<itemizedlist>
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<listitem>
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<para>
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Autoplugging: automatically finding elements to link to a
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pad based on its capabilities. All autopluggers use this
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method.
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</para>
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</listitem>
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<listitem>
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<para>
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Compatibility detection: when two pads are linked, &GStreamer;
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can verify if the two pads are talking about the same media
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type. The process of linking two pads and checking if they
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are compatible is called <quote>caps negotiation</quote>.
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</para>
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</listitem>
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<listitem>
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<para>
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Metadata: by reading the capabilities from a pad, applications
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can provide information about the type of media that is being
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streamed over the pad, which is information about the stream
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thatis currently being played back.
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</para>
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</listitem>
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<listitem>
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<para>
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Filtering: an application can use capabilities to limit the
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possible media types that can stream between two pads to a
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specific subset of their supported stream types. An application
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can, for example, use <quote>filtered caps</quote> to set a
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specific (non-fixed) video size that will stream between two
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pads.
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</para>
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</listitem>
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</itemizedlist>
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<sect2 id="section-caps-metadata">
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<title>Using capabilities for metadata</title>
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<para>
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A pad can have a set (i.e. one or more) of capabilities attached
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to it. You can get values of properties in a set of capabilities
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by querying individual properties of one structure. You can get
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a structure from a caps using
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<function>gst_caps_get_structure ()</function>:
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</para>
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<programlisting>
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static void
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read_video_props (GstCaps *caps)
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{
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gint width, height;
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const GstStructure *str;
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str = gst_caps_get_structure (caps);
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if (!gst_structure_get_int (str, "width", &width) ||
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!gst_structure_get_int (str, "height", &height)) {
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g_print ("No width/height available\n");
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return;
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}
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g_print ("The video size of this set of capabilities is %dx%d\n",
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width, height);
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}
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</programlisting>
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</sect2>
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<sect2 id="section-caps-filter">
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<title>Creating capabilities for filtering</title>
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<para>
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While capabilities are mainly used inside a plugin to describe the
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media type of the pads, the application programmer also has to have
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basic understanding of capabilities in order to interface with the
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plugins, especially when using filtered caps. When you're using
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filtered caps or fixation, you're limiting the allowed types of
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media that can stream between two pads to a subset of their supported
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media types. You do this by filtering using your own set of
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capabilities. In order to do this, you need to create your own
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<classname>GstCaps</classname>. The simplest way to do this is by
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using the convenience function <function>gst_caps_new_simple
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()</function>:
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</para>
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<programlisting>
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static void
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link_pads_with_filter (GstPad *one,
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GstPad *other)
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{
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GstCaps *caps;
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caps = gst_caps_new_simple ("video/x-raw-yuv",
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"width", G_TYPE_INT, 384,
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"height", G_TYPE_INT, 288,
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"framerate", G_TYPE_DOUBLE, 25.,
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NULL);
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gst_pad_link_filtered (one, other, caps);
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}
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</programlisting>
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<para>
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In some cases, you will want to create a more elaborate set of
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capabilities to filter a link between two pads. Then, this function
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is too simplistic and you'll want to use the method
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<function>gst_caps_new_full ()</function>:
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</para>
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<programlisting>
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static void
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link_pads_with_filter (GstPad *one,
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GstPad *other)
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{
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GstCaps *caps;
|
|
|
|
caps = gst_caps_new_full (
|
|
gst_structure_new ("video/x-raw-yuv",
|
|
"width", G_TYPE_INT, 384,
|
|
"height", G_TYPE_INT, 288,
|
|
"framerate", G_TYPE_DOUBLE, 25.,
|
|
NULL),
|
|
gst_structure_new ("video/x-raw-rgb",
|
|
"width", G_TYPE_INT, 384,
|
|
"height", G_TYPE_INT, 288,
|
|
"framerate", G_TYPE_DOUBLE, 25.,
|
|
NULL),
|
|
NULL);
|
|
|
|
gst_pad_link_filtered (one, other, caps);
|
|
}
|
|
</programlisting>
|
|
<para>
|
|
See the API references for the full API of
|
|
<classname>GstStructure</classname> and
|
|
<classname>GstCaps</classname>.
|
|
</para>
|
|
</sect2>
|
|
</sect1>
|
|
|
|
<sect1 id="section-pads-ghost">
|
|
<title>Ghost pads</title>
|
|
<para>
|
|
You can see from <xref linkend="section-bin-noghost-img"/> how a bin
|
|
has no pads of its own. This is where "ghost pads" come into play.
|
|
</para>
|
|
<figure float="1" id="section-bin-noghost-img">
|
|
<title>Visualisation of a <ulink type="http"
|
|
url="../../gstreamer/html/GstBin.html"><classname>GstBin</classname></ulink>
|
|
element without ghost pads</title>
|
|
<mediaobject>
|
|
<imageobject>
|
|
<imagedata fileref="images/bin-element-noghost.ℑ"
|
|
format="&IMAGE;"/>
|
|
</imageobject>
|
|
</mediaobject>
|
|
</figure>
|
|
<para>
|
|
A ghost pad is a pad from some element in the bin that can be
|
|
accessed directly from the bin as well. Compare it to a symbolic
|
|
link in UNIX filesystems. Using ghost pads on bins, the bin also
|
|
has a pad and can transparently be used as an element in other
|
|
parts of your code.
|
|
</para>
|
|
|
|
<figure float="1" id="section-bin-ghost-img">
|
|
<title>Visualisation of a <ulink type="http"
|
|
url="../../gstreamer/html/GstBin.html"><classname>GstBin</classname></ulink>
|
|
element with a ghost pad</title>
|
|
<mediaobject>
|
|
<imageobject>
|
|
<imagedata fileref="images/bin-element-ghost.ℑ"
|
|
format="&IMAGE;"/>
|
|
</imageobject>
|
|
</mediaobject>
|
|
</figure>
|
|
<para>
|
|
<xref linkend="section-bin-ghost-img"/> is a representation of a
|
|
ghost pad. The sink pad of element one is now also a pad of the bin.
|
|
Obviously, ghost pads can be added to any type of elements, not just
|
|
to a <classname>GstBin</classname>.
|
|
</para>
|
|
<para>
|
|
A ghostpad is created using the function
|
|
<function>gst_element_add_ghost_pad ()</function>:
|
|
</para>
|
|
<programlisting><!-- example-begin ghostpad.c a -->
|
|
#include <gst/gst.h>
|
|
|
|
int
|
|
main (int argc,
|
|
char *argv[])
|
|
{
|
|
GstElement *bin, *sink;
|
|
|
|
/* init */
|
|
gst_init (&argc, &argv);
|
|
|
|
/* create element, add to bin, add ghostpad */
|
|
sink = gst_element_factory_make ("fakesink", "sink");
|
|
bin = gst_bin_new ("mybin");
|
|
gst_bin_add (GST_BIN (bin), sink);
|
|
gst_element_add_ghost_pad (bin,
|
|
gst_element_get_pad (sink, "sink"), "sink");
|
|
<!-- example-end ghostpad.c a -->
|
|
[..]<!-- example-begin ghostpad.c b --><!--
|
|
return 0;
|
|
--><!-- example-end ghostpad.c b -->
|
|
<!-- example-begin ghostpad.c c -->
|
|
}
|
|
<!-- example-end ghostpad.c c --></programlisting>
|
|
<para>
|
|
In the above example, the bin now also has a pad: the pad called
|
|
<quote>sink</quote> of the given element. The bin can, from here
|
|
on, be used as a substitute for the sink element. You could, for
|
|
example, link another element to the bin.
|
|
</para>
|
|
</sect1>
|
|
</chapter>
|