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Original commit message from CVS: Don't mention GstThread (#340611) Update link to GObject tutorial (#340607)
538 lines
22 KiB
XML
538 lines
22 KiB
XML
<chapter id="chapter-elements" xreflabel="Elements">
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<title>Elements</title>
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<para>
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The most important object in &GStreamer; for the application programmer
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is the <ulink type="http"
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url="../../gstreamer/html/GstElement.html"><classname>GstElement</classname></ulink>
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object. An element is the basic building block for a media pipeline. All
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the different high-level components you will use are derived from
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<classname>GstElement</classname>. Every decoder, encoder, demuxer, video
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or audio output is in fact a <classname>GstElement</classname>
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</para>
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<sect1 id="section-elements-design" xreflabel="What are elements?">
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<title>What are elements?</title>
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<para>
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For the application programmer, elements are best visualized as black
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boxes. On the one end, you might put something in, the element does
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something with it and something else comes out at the other side. For
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a decoder element, ifor example, you'd put in encoded data, and the
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element would output decoded data. In the next chapter (see <xref
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linkend="chapter-pads"/>), you will learn more about data input and
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output in elements, and how you can set that up in your application.
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</para>
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<sect2 id="section-elements-src">
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<title>Source elements</title>
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<para>
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Source elements generate data for use by a pipeline, for example
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reading from disk or from a sound card. <xref
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linkend="section-element-srcimg"/> shows how we will visualise
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a source element. We always draw a source pad to the right of
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the element.
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</para>
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<figure float="1" id="section-element-srcimg">
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<title>Visualisation of a source element</title>
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<mediaobject>
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<imageobject>
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<imagedata fileref="images/src-element.ℑ"
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format="&IMAGE;"/>
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</imageobject>
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</mediaobject>
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</figure>
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<para>
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Source elements do not accept data, they only generate data. You can
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see this in the figure because it only has a source pad (on the
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right). A source pad can only generate data.
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</para>
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</sect2>
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<sect2 id="section-elements-filter">
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<title>Filters, convertors, demuxers, muxers and codecs</title>
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<para>
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Filters and filter-like elements have both input and outputs pads.
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They operate on data that they receive on their input (sink) pads,
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and will provide data on their output (source) pads. Examples of
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such elements are a volume element (filter), a video scaler
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(convertor), an Ogg demuxer or a Vorbis decoder.
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</para>
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<para>
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Filter-like elements can have any number of source or sink pads. A
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video demuxer, for example, would have one sink pad and several
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(1-N) source pads, one for each elementary stream contained in the
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container format. Decoders, on the other hand, will only have one
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source and sink pads.
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</para>
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<figure float="1" id="section-element-filterimg">
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<title>Visualisation of a filter element</title>
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<mediaobject>
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<imageobject>
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<imagedata fileref="images/filter-element.ℑ"
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format="&IMAGE;"/>
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</imageobject>
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</mediaobject>
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</figure>
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<para>
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<xref linkend="section-element-filterimg"/> shows how we will
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visualise a filter-like element. This specific element has one source
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and one sink element. Sink pads, receiving input data, are depicted
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at the left of the element; source pads are still on the right.
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</para>
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<figure float="1" id="section-element-multifilterimg">
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<title>Visualisation of a filter element with
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more than one output pad</title>
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<mediaobject>
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<imageobject>
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<imagedata fileref="images/filter-element-multi.ℑ"
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format="&IMAGE;" />
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</imageobject>
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</mediaobject>
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</figure>
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<para>
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<xref linkend="section-element-multifilterimg"/> shows another
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filter-like element, this one having more than one output (source)
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pad. An example of one such element could, for example, be an Ogg
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demuxer for an Ogg stream containing both audio and video. One
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source pad will contain the elementary video stream, another will
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contain the elementary audio stream. Demuxers will generally fire
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signals when a new pad is created. The application programmer can
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then handle the new elementary stream in the signal handler.
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</para>
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</sect2>
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<sect2 id="section-elements-sink">
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<title>Sink elements</title>
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<para>
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Sink elements are end points in a media pipeline. They accept
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data but do not produce anything. Disk writing, soundcard playback,
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and video output would all be implemented by sink elements.
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<xref linkend="section-element-sinkimg"/> shows a sink element.
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</para>
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<figure float="1" id="section-element-sinkimg">
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<title>Visualisation of a sink element</title>
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<mediaobject>
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<imageobject>
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<imagedata fileref="images/sink-element.ℑ"
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format="&IMAGE;" />
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</imageobject>
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</mediaobject>
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</figure>
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</sect2>
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</sect1>
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<sect1 id="section-elements-create">
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<title>Creating a <classname>GstElement</classname></title>
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<para>
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The simplest way to create an element is to use <ulink type="http"
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url="&URLAPI;GstElementFactory.html#gst-element-factory-make"><function>gst_element_factory_make
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()</function></ulink>. This function takes a factory name and an
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element name for the newly created element. The name of the element
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is something you can use later on to look up the element in a bin,
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for example. The name will also be used in debug output. You can
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pass <symbol>NULL</symbol> as the name argument to get a unique,
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default name.
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</para>
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<para>
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When you don't need the element anymore, you need to unref it using
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<ulink type="http"
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url="&URLAPI;GstObject.html#gst-object-unref"><function>gst_object_unref
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()</function></ulink>. This decreases the reference count for the
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element by 1. An element has a refcount of 1 when it gets created.
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An element gets destroyed completely when the refcount is decreased
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to 0.
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</para>
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<para>
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The following example &EXAFOOT; shows how to create an element named
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<emphasis>source</emphasis> from the element factory named
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<emphasis>fakesrc</emphasis>. It checks if the creation succeeded.
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After checking, it unrefs the element.
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</para>
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<programlisting><!-- example-begin elementmake.c --><![CDATA[
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#include <gst/gst.h>
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int
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main (int argc,
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char *argv[])
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{
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GstElement *element;
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/* init GStreamer */
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gst_init (&argc, &argv);
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/* create element */
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element = gst_element_factory_make ("fakesrc", "source");
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if (!element) {
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g_print ("Failed to create element of type 'fakesrc'\n");
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return -1;
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}
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gst_object_unref (GST_OBJECT (element));
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return 0;
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}
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]]><!-- example-end elementmake.c --></programlisting>
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<para>
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<function>gst_element_factory_make</function> is actually a shorthand
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for a combination of two functions. A <ulink type="http"
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url="&URLAPI;GstElement.html"><classname>GstElement</classname></ulink>
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object is created from a factory. To create the element, you have to
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get access to a <ulink type="http"
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url="&URLAPI;GstElementFactory.html"><classname>GstElementFactory</classname></ulink>
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object using a unique factory name. This is done with <ulink type="http"
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url="&URLAPI;GstElementFactory.html#gst-element-factory-find"><function>gst_element_factory_find
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()</function></ulink>.
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</para>
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<para>
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The following code fragment is used to get a factory that can be used
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to create the <emphasis>fakesrc</emphasis> element, a fake data source.
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The function <ulink type="http"
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url="&URLAPI;GstElementFactory.html#gst-element-factory-create"><function>gst_element_factory_create
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()</function></ulink> will use the element factory to create an
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element with the given name.
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</para>
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<programlisting><!-- example-begin elementcreate.c --><![CDATA[
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#include <gst/gst.h>
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int
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main (int argc,
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char *argv[])
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{
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GstElementFactory *factory;
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GstElement * element;
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/* init GStreamer */
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gst_init (&argc, &argv);
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/* create element, method #2 */
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factory = gst_element_factory_find ("fakesrc");
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if (!factory) {
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g_print ("Failed to find factory of type 'fakesrc'\n");
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return -1;
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}
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element = gst_element_factory_create (factory, "source");
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if (!element) {
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g_print ("Failed to create element, even though its factory exists!\n");
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return -1;
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}
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gst_object_unref (GST_OBJECT (element));
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return 0;
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}
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]]><!-- example-end elementcreate.c --></programlisting>
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</sect1>
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<sect1 id="section-elements-properties">
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<title>Using an element as a <classname>GObject</classname></title>
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<para>
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A <ulink type="http"
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url="&URLAPI;GstElement.html"><classname>GstElement</classname></ulink>
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can have several properties which are implemented using standard
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<classname>GObject</classname> properties. The usual
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<classname>GObject</classname> methods to query, set and get
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property values and <classname>GParamSpecs</classname> are
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therefore supported.
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</para>
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<para>
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Every <classname>GstElement</classname> inherits at least one
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property from its parent <classname>GstObject</classname>: the
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"name" property. This is the name you provide to the functions
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<function>gst_element_factory_make ()</function> or
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<function>gst_element_factory_create ()</function>. You can get
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and set this property using the functions
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<function>gst_object_set_name</function> and
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<function>gst_object_get_name</function> or use the
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<classname>GObject</classname> property mechanism as shown below.
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</para>
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<programlisting><!-- example-begin elementget.c --><![CDATA[
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#include <gst/gst.h>
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int
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main (int argc,
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char *argv[])
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{
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GstElement *element;
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gchar *name;
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/* init GStreamer */
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gst_init (&argc, &argv);
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/* create element */
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element = gst_element_factory_make ("fakesrc", "source");
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/* get name */
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g_object_get (G_OBJECT (element), "name", &name, NULL);
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g_print ("The name of the element is '%s'.\n", name);
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g_free (name);
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gst_object_unref (GST_OBJECT (element));
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return 0;
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}
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]]><!-- example-end elementget.c --></programlisting>
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<para>
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Most plugins provide additional properties to provide more information
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about their configuration or to configure the element.
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<command>gst-inspect</command> is a useful tool to query the properties
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of a particular element, it will also use property introspection to give
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a short explanation about the function of the property and about the
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parameter types and ranges it supports. See the appendix for details
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about <command>gst-inspect</command>.
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</para>
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<para>
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For more information about <classname>GObject</classname>
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properties we recommend you read the <ulink
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url="http://developer.gnome.org/doc/API/2.0/gobject/index.html"
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type="http">GObject manual</ulink> and an introduction to <ulink
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url="http://developer.gnome.org/doc/API/2.0/gobject/pr01.html" type="http">
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The Glib Object system</ulink>.
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</para>
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<para>
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A <ulink type="http" url="&URLAPI;gstreamer/html/GstElementFactory.html">
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<classname>GstElement</classname></ulink> also provides various
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<classname>GObject</classname> signals that can be used as a flexible
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callback mechanism. Here, too, you can use <command>gst-inspect</command>
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to see which signals a specific elements supports. Together, signals
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and properties are the most basic way in which elements and
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applications interact.
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</para>
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</sect1>
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<sect1 id="section-elements-factories">
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<title>More about element factories</title>
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<para>
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In the previous section, we briefly introduced the <ulink type="http"
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url="&URLAPI;GstElement.html"><classname>GstElementFactory</classname></ulink>
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object already as a way to create instances of an element. Element
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factories, however, are much more than just that. Element factories
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are the basic types retrieved from the &GStreamer; registry, they
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describe all plugins and elements that &GStreamer; can create. This
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means that element factories are useful for automated element
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instancing, such as what autopluggers do, and for creating lists
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of available elements, such as what pipeline editing applications
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(e.g. <ulink type="http"
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url="http://gstreamer.freedesktop.org/modules/gst-editor.html">&GStreamer;
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Editor</ulink>) do.
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</para>
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<sect2 id="section-elements-factories-details">
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<title>Getting information about an element using a factory</title>
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<para>
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Tools like <command>gst-inspect</command> will provide some generic
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information about an element, such as the person that wrote the
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plugin, a descriptive name (and a shortname), a rank and a category.
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The category can be used to get the type of the element that can
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be created using this element factory. Examples of categories include
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<classname>Codec/Decoder/Video</classname> (video decoder),
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<classname>Codec/Encoder/Video</classname> (video encoder),
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<classname>Source/Video</classname> (a video generator),
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<classname>Sink/Video</classname> (a video output), and all these
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exist for audio as well, of course. Then, there's also
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<classname>Codec/Demuxer</classname> and
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<classname>Codec/Muxer</classname> and a whole lot more.
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<command>gst-inspect</command> will give a list of all factories, and
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<command>gst-inspect <factory-name></command> will list all
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of the above information, and a lot more.
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</para>
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<programlisting><!-- example-begin elementfactory.c --><![CDATA[
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#include <gst/gst.h>
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int
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main (int argc,
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char *argv[])
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{
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GstElementFactory *factory;
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/* init GStreamer */
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gst_init (&argc, &argv);
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/* get factory */
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factory = gst_element_factory_find ("audiotestsrc");
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if (!factory) {
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g_print ("You don't have the 'audiotestsrc' element installed!\n");
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return -1;
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}
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/* display information */
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g_print ("The '%s' element is a member of the category %s.\n"
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"Description: %s\n",
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gst_plugin_feature_get_name (GST_PLUGIN_FEATURE (factory)),
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gst_element_factory_get_klass (factory),
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gst_element_factory_get_description (factory));
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return 0;
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}
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]]><!-- example-end elementfactory.c --></programlisting>
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<para>
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You can use <function>gst_registry_pool_feature_list (GST_TYPE_ELEMENT_FACTORY)</function>
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to get a list of all the element factories that &GStreamer; knows
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about.
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</para>
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</sect2>
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<sect2 id="section-elements-factories-padtemplates">
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<title>Finding out what pads an element can contain</title>
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<para>
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Perhaps the most powerful feature of element factories is that
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they contain a full description of the pads that the element
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can generate, and the capabilities of those pads (in layman words:
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what types of media can stream over those pads), without actually
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having to load those plugins into memory. This can be used
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to provide a codec selection list for encoders, or it can be used
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for autoplugging purposes for media players. All current
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&GStreamer;-based media players and autopluggers work this way.
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We'll look closer at these features as we learn about
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<classname>GstPad</classname> and <classname>GstCaps</classname>
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in the next chapter: <xref linkend="chapter-pads"/>
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</para>
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</sect2>
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</sect1>
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<sect1 id="section-elements-link" xreflabel="Linking elements">
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<title>Linking elements</title>
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<para>
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By linking a source element with zero or more filter-like
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elements and finally a sink element, you set up a media
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pipeline. Data will flow through the elements. This is the
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basic concept of media handling in &GStreamer;.
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</para>
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<figure float="1" id="section-link">
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<title>Visualisation of three linked elements</title>
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<mediaobject>
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<imageobject>
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<imagedata fileref="images/linked-elements.ℑ"
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format="&IMAGE;"/>
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</imageobject>
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</mediaobject>
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</figure>
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<para>
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By linking these three elements, we have created a very simple
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chain of elements. The effect of this will be that the output of
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the source element (<quote>element1</quote>) will be used as input
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for the filter-like element (<quote>element2</quote>). The
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filter-like element will do something with the data and send the
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result to the final sink element (<quote>element3</quote>).
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</para>
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<para>
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Imagine the above graph as a simple Ogg/Vorbis audio decoder. The
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source is a disk source which reads the file from disc. The second
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element is a Ogg/Vorbis audio decoder. The sink element is your
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soundcard, playing back the decoded audio data. We will use this
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simple graph to construct an Ogg/Vorbis player later in this manual.
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</para>
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<para>
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In code, the above graph is written like this:
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</para>
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<programlisting><!-- example-begin elementlink.c a -->
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#include <gst/gst.h>
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int
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main (int argc,
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char *argv[])
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{
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GstElement *source, *filter, *sink;
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/* init */
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gst_init (&argc, &argv);
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/* create elements */
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source = gst_element_factory_make ("fakesrc", "source");
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filter = gst_element_factory_make ("identity", "filter");
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sink = gst_element_factory_make ("fakesink", "sink");
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/* link */
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gst_element_link_many (source, filter, sink, NULL);
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<!-- example-end elementlink.c a -->
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[..]<!-- example-begin elementlink.c b --><!--
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return 0;
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--><!-- example-end elementlink.c b -->
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<!-- example-begin elementlink.c c -->
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}
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<!-- example-end elementlink.c c --></programlisting>
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<para>
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For more specific behaviour, there are also the functions
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<function>gst_element_link ()</function> and
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<function>gst_element_link_pads ()</function>. You can also obtain
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references to individual pads and link those using various
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<function>gst_pad_link_* ()</function> functions. See the API
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references for more details.
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</para>
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</sect1>
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<sect1 id="section-elements-states">
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<title>Element States</title>
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<para>
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After being created, an element will not actually perform any actions
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yet. You need to change elements state to make it do something.
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&GStreamer; knows four element states, each with a very specific
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meaning. Those four states 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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<classname>GST_STATE_NULL</classname>: this is the default state.
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This state will deallocate all resources held by the element.
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</para>
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</listitem>
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<listitem>
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<para>
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<classname>GST_STATE_READY</classname>: in the ready state, an
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element has allocated all of its global resources, that is,
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resources that can be kept within streams. You can think about
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opening devices, allocating buffers and so on. However, the
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stream is not opened in this state, so the stream positions is
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automatically zero. If a stream was previously opened, it should
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be closed in this state, and position, properties and such should
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be reset.
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</para>
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</listitem>
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<listitem>
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<para>
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<classname>GST_STATE_PAUSED</classname>: in this state, an
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element has opened the stream, but is not actively processing
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it. An element is allowed to modify a stream's position, read
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and process data and such to prepare for playback as soon as
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state is changed to PLAYING, but it is <emphasis>not</emphasis>
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allowed to play the data which would make the clock run.
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In summary, PAUSED is the same as PLAYING but without a running
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clock.
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</para>
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<para>
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Elements going into the PAUSED state should prepare themselves
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for moving over to the PLAYING state as soon as possible. Video
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or audio outputs would, for example, wait for data to arrive and
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queue it so they can play it right after the state change. Also,
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video sinks can already play the first frame (since this does
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not affect the clock yet). Autopluggers could use this same
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state transition to already plug together a pipeline. Most other
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elements, such as codecs or filters, do not need to explicitely
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do anything in this state, however.
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</para>
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</listitem>
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<listitem>
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<para>
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<classname>GST_STATE_PLAYING</classname>: in the PLAYING state,
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an element does exactly the same as in the PAUSED state, except
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that the clock now runs.
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</para>
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</listitem>
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</itemizedlist>
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<para>
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You can change the state of an element using the function
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<function>gst_element_set_state ()</function>. If you set an element
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to another state, &GStreamer; will internally traverse all intermediate
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states. So if you set an element from NULL to PLAYING, &GStreamer;
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will internally set the element to READY and PAUSED in between.
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</para>
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<para>
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When moved to <classname>GST_STATE_PLAYING</classname>, pipelines
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will process data automatically. They do not need to be iterated in
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any form. Internally, &GStreamer; will start threads that take this
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task on to them. &GStreamer; will also take care of switching
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messages from the pipeline's thread into the application's own
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thread, by using a <ulink type="http"
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url="&URLAPI;GstBus.html"><classname>GstBus</classname></ulink>. See
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<xref linkend="chapter-bus"/> for details.
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</para>
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</sect1>
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</chapter>
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