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a521252845
Use a structure to hold info about the mapping. The application then keeps track of this state and we can use it to unmap the memory again later.
410 lines
16 KiB
XML
410 lines
16 KiB
XML
<chapter id="chapter-dataaccess">
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<title>Pipeline manipulation</title>
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<para>
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This chapter will discuss how you can manipulate your pipeline in several
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ways from your application on. Parts of this chapter are downright
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hackish, so be assured that you'll need some programming knowledge
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before you start reading this.
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</para>
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<para>
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Topics that will be discussed here include how you can insert data into
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a pipeline from your application, how to read data from a pipeline,
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how to manipulate the pipeline's speed, length, starting point and how
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to listen to a pipeline's data processing.
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</para>
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<sect1 id="section-data-probe">
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<title>Data probing</title>
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<para>
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Probing is best envisioned as a pad listener. Technically, a probe is
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nothing more than a signal callback that can be attached to a pad.
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Those signals are by default not fired at all (since that may have a
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negative impact on performance), but can be enabled by attaching a
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probe using <function>gst_pad_add_buffer_probe ()</function>,
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<function>gst_pad_add_event_probe ()</function>, or
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<function>gst_pad_add_data_probe ()</function>.
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Those functions attach the signal handler and
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enable the actual signal emission. Similarly, one can use the
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<function>gst_pad_remove_buffer_probe ()</function>,
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<function>gst_pad_remove_event_probe ()</function>, or
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<function>gst_pad_remove_data_probe ()</function>
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to remove the signal handlers again.
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</para>
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<para>
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Probes run in pipeline threading context, so callbacks should try to
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not block and generally not do any weird stuff, since this could
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have a negative impact on pipeline performance or, in case of bugs,
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cause deadlocks or crashes. More precisely, one should usually not
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call any GUI-related functions from within a probe callback, nor try
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to change the state of the pipeline. An application may post custom
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messages on the pipeline's bus though to communicate with the main
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application thread and have it do things like stop the pipeline.
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</para>
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<para>
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In any case, most common buffer operations
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that elements can do in <function>_chain ()</function> functions, can
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be done in probe callbacks as well. The example below gives a short
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impression on how to use them (even if this usage is not entirely
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correct, but more on that below):
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</para>
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<programlisting><!-- example-begin probe.c -->
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#include <gst/gst.h>
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static gboolean
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cb_have_data (GstPad *pad,
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GstBuffer *buffer,
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gpointer u_data)
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{
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gint x, y;
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GstMapInfo info;
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guint16 *ptr, t;
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gst_buffer_map (buffer, &info, GST_MAP_WRITE);
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ptr = info.data;
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/* invert data */
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for (y = 0; y < 288; y++) {
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for (x = 0; x < 384 / 2; x++) {
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t = ptr[384 - 1 - x];
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ptr[384 - 1 - x] = ptr[x];
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ptr[x] = t;
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}
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ptr += 384;
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}
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gst_buffer_unmap (buffer, &info);
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return TRUE;
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}
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gint
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main (gint argc,
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gchar *argv[])
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{
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GMainLoop *loop;
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GstElement *pipeline, *src, *sink, *filter, *csp;
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GstCaps *filtercaps;
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GstPad *pad;
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/* init GStreamer */
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gst_init (&argc, &argv);
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loop = g_main_loop_new (NULL, FALSE);
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/* build */
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pipeline = gst_pipeline_new ("my-pipeline");
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src = gst_element_factory_make ("videotestsrc", "src");
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if (src == NULL)
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g_error ("Could not create 'videotestsrc' element");
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filter = gst_element_factory_make ("capsfilter", "filter");
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g_assert (filter != NULL); /* should always exist */
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csp = gst_element_factory_make ("ffmpegcolorspace", "csp");
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if (csp == NULL)
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g_error ("Could not create 'ffmpegcolorspace' element");
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sink = gst_element_factory_make ("xvimagesink", "sink");
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if (sink == NULL) {
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sink = gst_element_factory_make ("ximagesink", "sink");
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if (sink == NULL)
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g_error ("Could not create neither 'xvimagesink' nor 'ximagesink' element");
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}
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gst_bin_add_many (GST_BIN (pipeline), src, filter, csp, sink, NULL);
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gst_element_link_many (src, filter, csp, sink, NULL);
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filtercaps = gst_caps_new_simple ("video/x-raw-rgb",
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"width", G_TYPE_INT, 384,
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"height", G_TYPE_INT, 288,
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"framerate", GST_TYPE_FRACTION, 25, 1,
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"bpp", G_TYPE_INT, 16,
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"depth", G_TYPE_INT, 16,
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"endianness", G_TYPE_INT, G_BYTE_ORDER,
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NULL);
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g_object_set (G_OBJECT (filter), "caps", filtercaps, NULL);
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gst_caps_unref (filtercaps);
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pad = gst_element_get_pad (src, "src");
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gst_pad_add_buffer_probe (pad, G_CALLBACK (cb_have_data), NULL);
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gst_object_unref (pad);
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/* run */
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gst_element_set_state (pipeline, GST_STATE_PLAYING);
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/* wait until it's up and running or failed */
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if (gst_element_get_state (pipeline, NULL, NULL, -1) == GST_STATE_CHANGE_FAILURE) {
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g_error ("Failed to go into PLAYING state");
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}
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g_print ("Running ...\n");
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g_main_loop_run (loop);
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/* exit */
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gst_element_set_state (pipeline, GST_STATE_NULL);
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gst_object_unref (pipeline);
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return 0;
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}
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<!-- example-end probe.c --></programlisting>
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<para>
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Compare that output with the output of <quote>gst-launch-0.10
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videotestsrc ! xvimagesink</quote>, just so you know what you're
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looking for.
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</para>
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<para>
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The above example is not really correct though. Strictly speaking, a
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pad probe callback is only allowed to modify the buffer content if the
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buffer is writable, and it is only allowed to modify buffer metadata like
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timestamps, caps, etc. if the buffer metadata is writable. Whether this
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is the case or not depends a lot on the pipeline and the elements
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involved. Often enough, this is the case, but sometimes it is not,
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and if it is not then unexpected modification of the data or metadata
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can introduce bugs that are very hard to debug and track down. You can
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check if a buffer and its metadata are writable with
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<function>gst_buffer_is_writable ()</function> and
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<function>gst_buffer_is_metadata_writable ()</function>. Since you
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can't pass back a different buffer than the one passed in, there is no
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point of making a buffer writable in the callback function.
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</para>
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<para>
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Pad probes are suited best for looking at data as it passes through
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the pipeline. If you need to modify data, you should write your own
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GStreamer element. Base classes like GstAudioFilter, GstVideoFilter or
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GstBaseTransform make this fairly easy.
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</para>
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<para>
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If you just want to inspect buffers as they pass through the pipeline,
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you don't even need to set up pad probes. You could also just insert
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an identity element into the pipeline and connect to its "handoff"
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signal. The identity element also provides a few useful debugging tools
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like the "dump" property or the "last-message" property (the latter is
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enabled by passing the '-v' switch to gst-launch).
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</para>
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</sect1>
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<sect1 id="section-data-spoof">
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<title>Manually adding or removing data from/to a pipeline</title>
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<para>
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Many people have expressed the wish to use their own sources to inject
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data into a pipeline. Some people have also expressed the wish to grab
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the output in a pipeline and take care of the actual output inside
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their application. While either of these methods are stongly
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discouraged, &GStreamer; offers hacks to do this. <emphasis>However,
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there is no support for those methods.</emphasis> If it doesn't work,
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you're on your own. Also, synchronization, thread-safety and other
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things that you've been able to take for granted so far are no longer
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guaranteed if you use any of those methods. It's always better to
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simply write a plugin and have the pipeline schedule and manage it.
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See the Plugin Writer's Guide for more information on this topic. Also
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see the next section, which will explain how to embed plugins statically
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in your application.
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</para>
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<note><para>
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<ulink type="http"
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url="http://gstreamer.freedesktop.org/data/doc/gstreamer/head/gst-plugins-base-libs/html/gstreamer-app.html">New
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API</ulink> was developed to make data insertion and extraction easy
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for applications. It can be found as GstAppSrc and GstAppSink in the
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<ulink type="http"
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url="http://gstreamer.freedesktop.org/modules/gst-plugins-base.html">
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gst-plugins-base</ulink> module.
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</para></note>
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<para>
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After all those disclaimers, let's start. There's three possible
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elements that you can use for the above-mentioned purposes. Those are
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called <quote>fakesrc</quote> (an imaginary source),
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<quote>fakesink</quote> (an imaginary sink) and <quote>identity</quote>
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(an imaginary filter). The same method applies to each of those
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elements. Here, we will discuss how to use those elements to insert
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(using fakesrc) or grab (using fakesink or identity) data from a
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pipeline, and how to set negotiation.
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</para>
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<para>
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Those who're paying close attention will notice that the purpose
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of identity is almost identical to that of probes. Indeed, this is
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true. Probes allow for the same purpose, and a bunch more, and
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with less overhead plus dynamic removing/adding of handlers, but
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apart from those, probes and identity have the same purpose, just
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in a completely different implementation type.
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</para>
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<sect2 id="section-spoof-handoff">
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<title>Inserting or grabbing data</title>
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<para>
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The three before-mentioned elements (fakesrc, fakesink and identity)
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each have a <quote>handoff</quote> signal that will be called in
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the <function>_get ()</function>- (fakesrc) or <function>_chain
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()</function>-function (identity, fakesink). In the signal handler,
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you can set (fakesrc) or get (identity, fakesink) data to/from the
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provided buffer. Note that in the case of fakesrc, you have to set
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the size of the provided buffer using the <quote>sizemax</quote>
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property. For both fakesrc and fakesink, you also have to set the
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<quote>signal-handoffs</quote> property for this method to work.
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</para>
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<para>
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Note that your handoff function should <emphasis>not</emphasis>
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block, since this will block pipeline iteration. Also, do not try
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to use all sort of weird hacks in such functions to accomplish
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something that looks like synchronization or so; it's not the right
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way and will lead to issues elsewhere. If you're doing any of this,
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you're basically misunderstanding the &GStreamer; design.
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</para>
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</sect2>
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<sect2 id="section-spoof-format">
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<title>Forcing a format</title>
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<para>
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Sometimes, when using fakesrc as a source in your pipeline, you'll
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want to set a specific format, for example a video size and format
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or an audio bitsize and number of channels. You can do this by
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forcing a specific <classname>GstCaps</classname> on the pipeline,
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which is possible by using <emphasis>filtered caps</emphasis>. You
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can set a filtered caps on a link by using the
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<quote>capsfilter</quote> element in between the two elements, and
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specifying a <classname>GstCaps</classname> as
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<quote>caps</quote> property on this element. It will then
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only allow types matching that specified capability set for
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negotiation. See also <xref linkend="section-caps-filter"/>.
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</para>
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</sect2>
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<sect2 id="section-spoof-example">
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<title>Example application</title>
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<para>
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This example application will generate black/white (it switches
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every second) video to an X-window output by using fakesrc as a
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source and using filtered caps to force a format. Since the depth
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of the image depends on your X-server settings, we use a colorspace
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conversion element to make sure that the output to your X server
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will have the correct bitdepth. You can also set timestamps on the
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provided buffers to override the fixed framerate.
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</para>
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<programlisting><!-- example-begin fakesrc.c -->
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#include <string.h> /* for memset () */
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#include <gst/gst.h>
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static void
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cb_handoff (GstElement *fakesrc,
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GstBuffer *buffer,
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GstPad *pad,
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gpointer user_data)
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{
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static gboolean white = FALSE;
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GstMapInfo info;
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gst_buffer_map (buffer, &info, GST_MAP_WRITE);
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/* this makes the image black/white */
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memset (info.data, white ? 0xff : 0x0, info.size);
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white = !white;
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gst_buffer_unmap (buffer, &info);
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}
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gint
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main (gint argc,
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gchar *argv[])
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{
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GstElement *pipeline, *fakesrc, *flt, *conv, *videosink;
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GMainLoop *loop;
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/* init GStreamer */
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gst_init (&argc, &argv);
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loop = g_main_loop_new (NULL, FALSE);
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/* setup pipeline */
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pipeline = gst_pipeline_new ("pipeline");
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fakesrc = gst_element_factory_make ("fakesrc", "source");
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flt = gst_element_factory_make ("capsfilter", "flt");
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conv = gst_element_factory_make ("ffmpegcolorspace", "conv");
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videosink = gst_element_factory_make ("xvimagesink", "videosink");
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/* setup */
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g_object_set (G_OBJECT (flt), "caps",
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gst_caps_new_simple ("video/x-raw-rgb",
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"width", G_TYPE_INT, 384,
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"height", G_TYPE_INT, 288,
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"framerate", GST_TYPE_FRACTION, 1, 1,
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"bpp", G_TYPE_INT, 16,
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"depth", G_TYPE_INT, 16,
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"endianness", G_TYPE_INT, G_BYTE_ORDER,
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NULL), NULL);
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gst_bin_add_many (GST_BIN (pipeline), fakesrc, flt, conv, videosink, NULL);
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gst_element_link_many (fakesrc, flt, conv, videosink, NULL);
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/* setup fake source */
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g_object_set (G_OBJECT (fakesrc),
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"signal-handoffs", TRUE,
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"sizemax", 384 * 288 * 2,
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"sizetype", 2, NULL);
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g_signal_connect (fakesrc, "handoff", G_CALLBACK (cb_handoff), NULL);
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/* play */
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gst_element_set_state (pipeline, GST_STATE_PLAYING);
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g_main_loop_run (loop);
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/* clean up */
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gst_element_set_state (pipeline, GST_STATE_NULL);
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gst_object_unref (GST_OBJECT (pipeline));
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return 0;
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}
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<!-- example-end fakesrc.c --></programlisting>
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</sect2>
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</sect1>
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<sect1 id="section-data-manager">
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<title>Embedding static elements in your application</title>
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<para>
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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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Writer's Guide</ulink> describes in great detail how to write elements
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for the &GStreamer; framework. In this section, we will solely discuss
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how to embed such elements statically in your application. This can be
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useful for application-specific elements that have no use elsewhere in
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&GStreamer;.
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</para>
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<para>
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Dynamically loaded plugins contain a structure that's defined using
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<function>GST_PLUGIN_DEFINE ()</function>. This structure is loaded
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when the plugin is loaded by the &GStreamer; core. The structure
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contains an initialization function (usually called
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<function>plugin_init</function>) that will be called right after that.
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It's purpose is to register the elements provided by the plugin with
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the &GStreamer; framework. If you want to embed elements directly in
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your application, the only thing you need to do is to replace
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<function>GST_PLUGIN_DEFINE ()</function> with
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<function>GST_PLUGIN_DEFINE_STATIC ()</function>. This will cause the
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elements to be registered when your application loads, and the elements
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will from then on be available like any other element, without them
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having to be dynamically loadable libraries. In the example below, you
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would be able to call <function>gst_element_factory_make
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("my-element-name", "some-name")</function> to create an instance of the
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element.
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</para>
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<programlisting>
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/*
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* Here, you would write the actual plugin code.
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*/
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[..]
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static gboolean
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register_elements (GstPlugin *plugin)
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{
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return gst_element_register (plugin, "my-element-name",
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GST_RANK_NONE, MY_PLUGIN_TYPE);
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}
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GST_PLUGIN_DEFINE_STATIC (
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GST_VERSION_MAJOR,
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GST_VERSION_MINOR,
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"my-private-plugins",
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"Private elements of my application",
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register_elements,
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VERSION,
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"LGPL",
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"my-application",
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"http://www.my-application.net/"
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)
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</programlisting>
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</sect1>
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</chapter>
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