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463 lines
18 KiB
Markdown
463 lines
18 KiB
Markdown
# Basic tutorial 10: GStreamer tools
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# Goal
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GStreamer (and the GStreamer SDK) come with a set of tools which range
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from handy to absolutely essential. There is no code in this tutorial,
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just sit back and relax, and we will teach you:
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- How to build and run GStreamer pipelines from the command line,
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without using C at all\!
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- How to find out what GStreamer elements you have available and their
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capabilities.
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- How to discover the internal structure of media files.
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# Introduction
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These tools are available in the bin directory of the SDK. You need to
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move to this directory to execute them, because it is not added to the
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system’s `PATH` environment variable (to avoid polluting it too much).
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Just open a terminal (or console window) and go to the `bin` directory
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of your GStreamer SDK installation (Read again the [Installing the
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SDK](Installing%2Bthe%2BSDK.html) section to find our where this is),
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and you are ready to start typing the commands given in this tutorial.
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<table>
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<tbody>
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<tr class="odd">
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<td><img src="images/icons/emoticons/information.png" width="16" height="16" /></td>
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<td><p>On Linux, though, you can use the provided <code>/opt/gstreamer-sdk/bin/gst-sdk-shell</code> script to enter the GStreamer SDK shell environment, in which the <code>bin</code> directory is in the path. In this environment, you can use the GStreamer tools from any folder.</p></td>
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</tr>
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</tbody>
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</table>
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In order to allow for multiple versions of GStreamer to coexists in the
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same system, these tools are versioned, this is, a GStreamer version
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number is appended to their name. This version of the SDK is based on
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GStreamer 1.0, so the tools are called `gst-launch-1.0`,
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`gst-inspect-1.0` and `gst-discoverer-1.0`
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# `gst-launch-1.0`
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This tool accepts a textual description of a pipeline, instantiates it,
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and sets it to the PLAYING state. It allows you to quickly check if a
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given pipeline works, before going through the actual implementation
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using GStreamer API calls.
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Bear in mind that it can only create simple pipelines. In particular, it
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can only simulate the interaction of the pipeline with the application
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up to a certain level. In any case, it is extremely handy to test
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pipelines quickly, and is used by GStreamer developers around the world
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on a daily basis.
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Please note that `gst-launch-1.0` is primarily a debugging tool for
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developers. You should not build applications on top of it. Instead, use
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the `gst_parse_launch()` function of the GStreamer API as an easy way to
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construct pipelines from pipeline descriptions.
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Although the rules to construct pipeline descriptions are very simple,
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the concatenation of multiple elements can quickly make such
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descriptions resemble black magic. Fear not, for everyone learns the
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`gst-launch-1.0` syntax, eventually.
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The command line for gst-launch-1.0 consists of a list of options followed
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by a PIPELINE-DESCRIPTION. Some simplified instructions are given next,
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se the complete documentation at [the reference page](gst-launch-1.0.html)
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for `gst-launch-1.0`.
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#### Elements
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In simple form, a PIPELINE-DESCRIPTION is a list of element types
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separated by exclamation marks (\!). Go ahead and type in the following
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command:
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```
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gst-launch-1.0 videotestsrc ! ffmpegcolorspace ! autovideosink
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```
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You should see a windows with an animated video pattern. Use CTRL+C on
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the terminal to stop the program.
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This instantiates a new element of type `videotestsrc` (an element which
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generates a sample video pattern), an `ffmpegcolorspace` (an element
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which does color space conversion, making sure other elements can
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understand each other), and an `autovideosink` (a window to which video
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is rendered). Then, GStreamer tries to link the output of each element
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to the input of the element appearing on its right in the description.
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If more than one input or output Pad is available, the Pad Caps are used
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to find two compatible Pads.
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#### Properties
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Properties may be appended to elements, in the form
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*property=value *(multiple properties can be specified, separated by
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spaces). Use the `gst-inspect-1.0` tool (explained next) to find out the
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available properties for an
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element.
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```
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gst-launch-1.0 videotestsrc pattern=11 ! ffmpegcolorspace ! autovideosink
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```
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You should see a static video pattern, made of circles.
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#### Named elements
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Elements can be named using the `name` property, in this way complex
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pipelines involving branches can be created. Names allow linking to
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elements created previously in the description, and are indispensable to
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use elements with multiple output pads, like demuxers or tees, for
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example.
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Named elements are referred to using their name followed by a
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dot.
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```
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gst-launch-1.0 videotestsrc ! ffmpegcolorspace ! tee name=t ! queue ! autovideosink t. ! queue ! autovideosink
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```
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You should see two video windows, showing the same sample video pattern.
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If you see only one, try to move it, since it is probably on top of the
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second window.
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This example instantiates a `videotestsrc`, linked to a
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`ffmpegcolorspace`, linked to a `tee` (Remember from [Basic tutorial 7:
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Multithreading and Pad
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Availability](Basic%2Btutorial%2B7%253A%2BMultithreading%2Band%2BPad%2BAvailability.html) that
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a `tee` copies to each of its output pads everything coming through its
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input pad). The `tee` is named simply ‘t’ (using the `name` property)
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and then linked to a `queue` and an `autovideosink`. The same `tee` is
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referred to using ‘t.’ (mind the dot) and then linked to a second
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`queue` and a second `autovideosink`.
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To learn why the queues are necessary read [Basic tutorial 7:
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Multithreading and Pad
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Availability](Basic%2Btutorial%2B7%253A%2BMultithreading%2Band%2BPad%2BAvailability.html).
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#### Pads
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Instead of letting GStreamer choose which Pad to use when linking two
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elements, you may want to specify the Pads directly. You can do this by
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adding a dot plus the Pad name after the name of the element (it must be
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a named element). Learn the names of the Pads of an element by using
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the `gst-inspect-1.0` tool.
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This is useful, for example, when you want to retrieve one particular
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stream out of a
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demuxer:
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```
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gst-launch-1.0.exe souphttpsrc location=http://docs.gstreamer.com/media/sintel_trailer-480p.webm ! matroskademux name=d d.video_00 ! matroskamux ! filesink location=sintel_video.mkv
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```
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This fetches a media file from the internet using `souphttpsrc`, which
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is in webm format (a special kind of Matroska container, see [Basic
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tutorial 2: GStreamer
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concepts](Basic%2Btutorial%2B2%253A%2BGStreamer%2Bconcepts.html)). We
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then open the container using `matroskademux`. This media contains both
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audio and video, so `matroskademux` will create two output Pads, named
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`video_00` and `audio_00`. We link `video_00` to a `matroskamux` element
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to re-pack the video stream into a new container, and finally link it to
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a `filesink`, which will write the stream into a file named
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"sintel\_video.mkv" (the `location` property specifies the name of the
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file).
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All in all, we took a webm file, stripped it of audio, and generated a
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new matroska file with the video. If we wanted to keep only the
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audio:
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```
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gst-launch-1.0.exe souphttpsrc location=http://docs.gstreamer.com/media/sintel_trailer-480p.webm ! matroskademux name=d d.audio_00 ! vorbisparse ! matroskamux ! filesink location=sintel_audio.mka
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```
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The `vorbisparse` element is required to extract some information from
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the stream and put it in the Pad Caps, so the next element,
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`matroskamux`, knows how to deal with the stream. In the case of video
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this was not necessary, because `matroskademux` already extracted this
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information and added it to the Caps.
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Note that in the above two examples no media has been decoded or played.
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We have just moved from one container to another (demultiplexing and
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re-multiplexing again).
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#### Caps filters
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When an element has more than one output pad, it might happen that the
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link to the next element is ambiguous: the next element may have more
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than one compatible input pad, or its input pad may be compatible with
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the Pad Caps of all the output pads. In these cases GStreamer will link
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using the first pad that is available, which pretty much amounts to
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saying that GStreamer will choose one output pad at random.
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Consider the following
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pipeline:
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```
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gst-launch-1.0 souphttpsrc location=http://docs.gstreamer.com/media/sintel_trailer-480p.webm ! matroskademux ! filesink location=test
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```
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This is the same media file and demuxer as in the previous example. The
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input Pad Caps of `filesink` are `ANY`, meaning that it can accept any
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kind of media. Which one of the two output pads of `matroskademux` will
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be linked against the filesink? `video_00` or `audio_00`? You cannot
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know.
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You can remove this ambiguity, though, by using named pads, as in the
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previous sub-section, or by using **Caps
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Filters**:
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```
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gst-launch-1.0 souphttpsrc location=http://docs.gstreamer.com/media/sintel_trailer-480p.webm ! matroskademux ! video/x-vp8 ! matroskamux ! filesink location=sintel_video.mkv
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```
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A Caps Filter behaves like a pass-through element which does nothing and
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only accepts media with the given Caps, effectively resolving the
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ambiguity. In this example, between `matroskademux` and `matroskamux` we
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added a `video/x-vp8` Caps Filter to specify that we are interested in
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the output pad of `matroskademux` which can produce this kind of video.
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To find out the Caps an element accepts and produces, use the
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`gst-inspect-1.0` tool. To find out the Caps contained in a particular file,
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use the `gst-discoverer-1.0` tool. To find out the Caps an element is
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producing for a particular pipeline, run `gst-launch-1.0` as usual, with the
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`–v` option to print Caps information.
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#### Examples
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Play a media file using `playbin2` (as in [Basic tutorial 1: Hello
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world\!](Basic%2Btutorial%2B1%253A%2BHello%2Bworld%2521.html)):
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```
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gst-launch-1.0 playbin2 uri=http://docs.gstreamer.com/media/sintel_trailer-480p.webm
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```
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A fully operation playback pipeline, with audio and video (more or less
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the same pipeline that `playbin2` will create
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internally):
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```
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gst-launch-1.0 souphttpsrc location=http://docs.gstreamer.com/media/sintel_trailer-480p.webm ! matroskademux name=d ! queue ! vp8dec ! ffmpegcolorspace ! autovideosink d. ! queue ! vorbisdec ! audioconvert ! audioresample ! autoaudiosink
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```
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A transcoding pipeline, which opens the webm container and decodes both
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streams (via uridecodebin), then re-encodes the audio and video branches
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with a different codec, and puts them back together in an Ogg container
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(just for the sake of
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it).
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```
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gst-launch-1.0 uridecodebin uri=http://docs.gstreamer.com/media/sintel_trailer-480p.webm name=d ! queue ! theoraenc ! oggmux name=m ! filesink location=sintel.ogg d. ! queue ! audioconvert ! audioresample ! flacenc ! m.
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```
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A rescaling pipeline. The `videoscale` element performs a rescaling
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operation whenever the frame size is different in the input and the
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output caps. The output caps are set by the Caps Filter to
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320x200.
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```
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gst-launch-1.0 uridecodebin uri=http://docs.gstreamer.com/media/sintel_trailer-480p.webm ! queue ! videoscale ! video/x-raw-yuv,width=320,height=200 ! ffmpegcolorspace ! autovideosink
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```
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This short description of `gst-launch-1.0` should be enough to get you
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started. Remember that you have the [complete documentation available
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here](gst-launch-1.0.html).
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# `gst-inspect-1.0`
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This tool has three modes of operation:
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- Without arguments, it lists all available elements types, this is,
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the types you can use to instantiate new elements.
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- With a file name as an argument, it treats the file as a GStreamer
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plugin, tries to open it, and lists all the elements described
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inside.
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- With a GStreamer element name as an argument, it lists all
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information regarding that element.
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Let's see an example of the third mode:
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```
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gst-inspect-1.0 vp8dec
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Factory Details:
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Long name: On2 VP8 Decoder
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Class: Codec/Decoder/Video
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Description: Decode VP8 video streams
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Author(s): David Schleef <ds@entropywave.com>
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Rank: primary (256)
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Plugin Details:
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Name: vp8
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Description: VP8 plugin
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Filename: I:\gstreamer-sdk\2012.5\x86\lib\gstreamer-0.10\libgstvp8.dll
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Version: 0.10.23
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License: LGPL
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Source module: gst-plugins-bad
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Source release date: 2012-02-20
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Binary package: GStreamer Bad Plug-ins (GStreamer SDK)
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Origin URL: http://www.gstreamer.com
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GObject
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+----GstObject
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+----GstElement
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+----GstBaseVideoCodec
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+----GstBaseVideoDecoder
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+----GstVP8Dec
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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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video/x-raw-yuv
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format: I420
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width: [ 1, 2147483647 ]
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height: [ 1, 2147483647 ]
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framerate: [ 0/1, 2147483647/1 ]
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SINK template: 'sink'
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Availability: Always
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Capabilities:
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video/x-vp8
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Element Flags:
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no flags set
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Element Implementation:
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Has change_state() function: gst_base_video_decoder_change_state
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Has custom save_thyself() function: gst_element_save_thyself
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Has custom restore_thyself() function: gst_element_restore_thyself
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Element has no clocking capabilities.
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Element has no indexing capabilities.
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Element has no URI handling capabilities.
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Pads:
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SRC: 'src'
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Implementation:
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Has custom eventfunc(): gst_base_video_decoder_src_event
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Has custom queryfunc(): gst_base_video_decoder_src_query
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Provides query types:
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(1): position (Current position)
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(2): duration (Total duration)
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(8): convert (Converting between formats)
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Has custom iterintlinkfunc(): gst_pad_iterate_internal_links_default
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Has getcapsfunc(): gst_pad_get_fixed_caps_func
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Has acceptcapsfunc(): gst_pad_acceptcaps_default
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Pad Template: 'src'
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SINK: 'sink'
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Implementation:
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Has chainfunc(): gst_base_video_decoder_chain
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Has custom eventfunc(): gst_base_video_decoder_sink_event
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Has custom queryfunc(): gst_base_video_decoder_sink_query
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Has custom iterintlinkfunc(): gst_pad_iterate_internal_links_default
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Has setcapsfunc(): gst_base_video_decoder_sink_setcaps
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Has acceptcapsfunc(): gst_pad_acceptcaps_default
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Pad Template: 'sink'
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Element Properties:
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name : The name of the object
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flags: readable, writable
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String. Default: "vp8dec0"
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post-processing : Enable post processing
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flags: readable, writable
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Boolean. Default: false
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post-processing-flags: Flags to control post processing
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flags: readable, writable
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Flags "GstVP8DecPostProcessingFlags" Default: 0x00000003, "demacroblock+deblock"
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(0x00000001): deblock - Deblock
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(0x00000002): demacroblock - Demacroblock
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(0x00000004): addnoise - Add noise
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deblocking-level : Deblocking level
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flags: readable, writable
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Unsigned Integer. Range: 0 - 16 Default: 4
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noise-level : Noise level
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flags: readable, writable
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Unsigned Integer. Range: 0 - 16 Default: 0
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```
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The most relevant sections are:
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- Pad Templates (line 25): This lists all the kinds of Pads this
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element can have, along with their capabilities. This is where you
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look to find out if an element can link with another one. In this
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case, it has only one sink pad template, accepting only
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`video/x-vp8` (encoded video data in VP8 format) and only one source
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pad template, producing `video/x-raw-yuv` (decoded video data).
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- Element Properties (line 70): This lists the properties of the
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element, along with their type and accepted values.
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For more information, you can check the [documentation
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page](http://gst-inspect-1.0) of `gst-inspect-1.0`.
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# `gst-discoverer-1.0`
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This tool is a wrapper around the `GstDiscoverer` object shown in [Basic
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tutorial 9: Media information
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gathering](Basic%2Btutorial%2B9%253A%2BMedia%2Binformation%2Bgathering.html).
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It accepts a URI from the command line and prints all information
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regarding the media that GStreamer can extract. It is useful to find out
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what container and codecs have been used to produce the media, and
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therefore what elements you need to put in a pipeline to play it.
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Use `gst-discoverer-1.0 --help` to obtain the list of available options,
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which basically control the amount of verbosity of the output.
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Let's see an
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example:
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```
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gst-discoverer-1.0 http://docs.gstreamer.com/media/sintel_trailer-480p.webm -v
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Analyzing http://docs.gstreamer.com/media/sintel_trailer-480p.webm
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Done discovering http://docs.gstreamer.com/media/sintel_trailer-480p.webm
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Topology:
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container: video/webm
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audio: audio/x-vorbis, channels=(int)2, rate=(int)48000
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Codec:
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audio/x-vorbis, channels=(int)2, rate=(int)48000
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Additional info:
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None
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Language: en
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Channels: 2
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Sample rate: 48000
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Depth: 0
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Bitrate: 80000
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Max bitrate: 0
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Tags:
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taglist, language-code=(string)en, container-format=(string)Matroska, audio-codec=(string)Vorbis, application-name=(string)ffmpeg2theora-0.24, encoder=(string)"Xiph.Org\ libVorbis\ I\ 20090709", encoder-version=(uint)0, nominal-bitrate=(uint)80000, bitrate=(uint)80000;
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video: video/x-vp8, width=(int)854, height=(int)480, framerate=(fraction)25/1
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Codec:
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video/x-vp8, width=(int)854, height=(int)480, framerate=(fraction)25/1
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Additional info:
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None
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Width: 854
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Height: 480
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Depth: 0
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Frame rate: 25/1
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Pixel aspect ratio: 1/1
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Interlaced: false
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Bitrate: 0
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Max bitrate: 0
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Tags:
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taglist, video-codec=(string)"VP8\ video", container-format=(string)Matroska;
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Properties:
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Duration: 0:00:52.250000000
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Seekable: yes
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Tags:
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video codec: On2 VP8
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language code: en
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container format: Matroska
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application name: ffmpeg2theora-0.24
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||
encoder: Xiph.Org libVorbis I 20090709
|
||
encoder version: 0
|
||
audio codec: Vorbis
|
||
nominal bitrate: 80000
|
||
bitrate: 80000
|
||
```
|
||
|
||
# Conclusion
|
||
|
||
This tutorial has shown:
|
||
|
||
- How to build and run GStreamer pipelines from the command line using
|
||
the `gst-launch-1.0` tool.
|
||
- How to find out what GStreamer elements you have available and their
|
||
capabilities, using the `gst-inspect-1.0` tool.
|
||
- How to discover the internal structure of media files, using
|
||
`gst-discoverer-1.0`.
|
||
|
||
It has been a pleasure having you here, and see you soon\!
|