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488 lines
14 KiB
Markdown
488 lines
14 KiB
Markdown
# gst-launch-1.0
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> ![information] This content comes mostly from the Linux man page for
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> the `gst-launch-1.0` tool. As such, it is very Linux-centric
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> regarding path specification and plugin names. Please be patient while
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> it is rewritten to be more generic.
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## Name
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`gst-launch-1.0` - build and run a GStreamer pipeline
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## Synopsis
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```
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gst-launch-1.0 [OPTIONS] PIPELINE-DESCRIPTION
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```
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## Description
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`gst-launch-1.0` is a tool that builds and runs basic *GStreamer* pipelines.
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In its simplest form, a PIPELINE-DESCRIPTION is a list of elements separated
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by exclamation marks (!). Properties may be appended to elements in the
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form `property=value`.
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For a more complete description of possible PIPELINE-DESCRIPTIONS see the
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section [Pipeline Description](#pipeline-description) below or consult the GStreamer documentation.
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Please note that `gst-launch-1.0` is primarily a debugging tool. You should
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not build applications on top of it. For applications, use the
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`gst_parse_launch()` function of the GStreamer API as an easy way to construct
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pipelines from pipeline descriptions.
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## Options
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*gst-launch-1.0* accepts the following options:
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**--help**
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Print help synopsis and available FLAGS
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**-v, --verbose**
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Output status information and property notifications
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**-q, --quiet**
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Do not print any progress information
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**-m, --messages**
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Output messages posted on the pipeline's bus
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**-t, --tags**
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Output tags (also known as metadata)
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**-o FILE, --output=FILE**
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Save XML representation of pipeline to FILE and exit
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**-f, --no\_fault**
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Do not install a fault handler
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**-T, --trace**
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Print memory allocation traces. The feature must be enabled at compile
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time to work.
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## GStreamer Options
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`gst-launch-1.0` also accepts the following options that are common to
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all GStreamer applications:
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## Pipeline Description
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A pipeline consists of *elements* and *links*. *Elements* can be put
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into *bins* of different sorts. *Elements*, *links*, and *bins* can be
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specified in a pipeline description in any order.
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### Elements
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```
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ELEMENTTYPE [PROPERTY1 ...]
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```
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Creates an element of type `ELEMENTTYPE` and sets its `PROPERTIES`.
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### Element Properties
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```
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PROPERTY=VALUE ...
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```
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Sets the property to the specified value. You can use `gst-inspect-1.0` to find
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out about properties and allowed values of different elements. Enumeration
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properties can be set by name, nick or value.
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### Bins
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```
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[BINTYPE.] ([PROPERTY1 ...] PIPELINE-DESCRIPTION)
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```
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Specifies that a bin of type `BINTYPE` is created and the given properties
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are set. Every element between the braces is put into the bin. Please
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note the dot that has to be used after the `BINTYPE`. You will almost
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never need this functionality, it is only really useful for applications
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using the `gst_parse_launch()` API with `bin` as bintype. That way it is
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possible to build partial pipelines instead of a full-fledged top-level
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pipeline.
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### Links
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```
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[[SRCELEMENT\].[PAD1,...]] ! [[SINKELEMENT].[PAD1,...]]
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```
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Links the element with name SRCELEMENT to the element with name SINKELEMENT.
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Names can be set on elements using the `name` property. If the name is omitted,
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the element that was specified directly in front of or after the link is
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used. This works across bins. If a padname is given, the link is done using that
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pad. If no pad names are given all possibilities are tried and a compatible pad
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is used. If multiple padnames are given, both sides must have the same number of
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pads specified and multiple links are done in the given order. The simplest link
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is a simple exclamation mark. This links the element to the left of it with the
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element at its right.
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The following links the element with name SRCELEMENT to the element with name
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SINKELEMENT, using the caps specified in CAPS as a filter:
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```
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[[SRCELEMENT].[PAD1,...]] ! CAPS ! [[SINKELEMENT].[PAD1,...]]
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```
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### Caps
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```
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MIMETYPE [, PROPERTY[, PROPERTY ...]]] [; CAPS[; CAPS ...]]
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```
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Creates a capability with the given mimetype and optionally with given
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properties. The mimetype can be escaped using `"` or `'`. If you want to
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chain caps, you can add more caps in the same format afterwards.
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### Caps Properties
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```
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NAME=[(TYPE)] VALUE in lists and ranges: [(TYPE)] VALUE
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```
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Sets the requested property in capabilities. The name is an alphanumeric
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value and the type can have the following case-insensitive values:
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- `i` or `int` for integer values or ranges;
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- `f` or `float` for float values or ranges;
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- `4` or `fourcc` for FOURCC values;
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- `b`, `bool`, or `boolean` for boolean values;
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- `s`, `str`, or `string` for strings;
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- `fraction` for fractions (framerate, pixel-aspect-ratio);
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- `l` or `list` for lists.
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If no type was given, the following order is
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tried: integer, float, boolean, string. Integer values must be parsable by
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`strtol()`, floats by `strtod()`. FOURCC values may either be integers or
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strings. Boolean values are (case insensitive) `yes`, `no`, `true` or `false`
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and may like strings be escaped with `"` or `'`. Ranges are in this format: `[
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VALUE, VALUE]`; lists use this format: `(VALUE [, VALUE ...])`.
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## Pipeline Control
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A pipeline can be controlled by signals. `SIGUSR2` will stop the pipeline
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(`GST_STATE_NULL`); `SIGUSR1` will put it back to play (`GST_STATE_PLAYING`). By
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default, the pipeline will start in the `PLAYING` state. There are currently no
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signals defined to go into the ready or pause (`GST_STATE_READY` and `GST_STATE_PAUSED`) states explicitly.
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## Pipeline Examples
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The examples below assume that you have the correct plugins available.
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In general, `osssink` can be substituted with another audio output
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plugin such as `directsoundsink`, `esdsink`, `alsasink`, `osxaudiosink`, or
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`artsdsink`. Likewise, `xvimagesink` can be substituted with `d3dvideosink`,
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`ximagesink`, `sdlvideosink`, `osxvideosink`, or `aasink`. Keep in mind though
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that different sinks might accept different formats and even the same sink might
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accept different formats on different machines, so you might need to add
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converter elements like `audioconvert` and `audioresample` for audio or
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`videoconvert` in front of the sink to make things work.
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### Audio playback
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Play the mp3 music file "music.mp3" using a libmad-based plugin and output to
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an OSS device:
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```
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gst-launch-1.0 filesrc location=music.mp3 ! mad ! audioconvert !
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audioresample ! osssink
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```
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Play an Ogg Vorbis format file:
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```
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gst-launch-1.0 filesrc location=music.ogg ! oggdemux ! vorbisdec !
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audioconvert ! audioresample ! osssink
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```
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Play an mp3 file using GNOME-VFS:
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```
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gst-launch-1.0 gnomevfssrc location=music.mp3 ! mad ! osssink
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```
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Play an HTTP stream using GNOME-VFS:
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```
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gst-launch-1.0 gnomevfssrc location=<http://domain.com/music.mp3> ! mad
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! audioconvert ! audioresample ! osssink
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```
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Use GNOME-VFS to play an mp3 file located on an SMB server:
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```
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gst-launch-1.0 gnomevfssrc location=<smb://computer/music.mp3> ! mad !
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audioconvert ! audioresample ! osssink
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```
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### Format conversion
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Convert an mp3 music file to an Ogg Vorbis file:
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```
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gst-launch-1.0 filesrc location=music.mp3 ! mad ! audioconvert ! vorbisenc !
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oggmux ! filesink location=music.ogg
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```
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Convert to the FLAC format:
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```
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gst-launch-1.0 filesrc location=music.mp3 ! mad ! audioconvert ! flacenc !
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filesink location=test.flac`
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```
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### Other
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Play a .WAV file that contains raw audio data (PCM):
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```
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gst-launch-1.0 filesrc location=music.wav ! wavparse ! audioconvert !
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audioresample ! osssink
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```
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Convert a .WAV file containing raw audio data into an Ogg Vorbis or mp3 file:
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```
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gst-launch-1.0 filesrc location=music.wav ! wavparse ! audioconvert !
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vorbisenc ! oggmux ! filesink location=music.ogg
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```
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```
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gst-launch-1.0 filesrc location=music.wav ! wavparse ! audioconvert ! lame !
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filesink location=music.mp3
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```
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Rip all tracks from CD and convert them into a single mp3 file:
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```
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gst-launch-1.0 cdparanoiasrc mode=continuous ! audioconvert ! lame !
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id3v2mux ! filesink location=cd.mp3
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```
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Rip track 5 from the CD and converts it into a single mp3 file:
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```
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gst-launch-1.0 cdparanoiasrc track=5 ! audioconvert ! lame ! id3v2mux
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! filesink location=track5.mp3
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```
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Using `gst-inspect-1.0`, it is possible to discover settings like
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the above for "cdparanoiasrc" that will tell it to rip the entire CD or
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only tracks of it. Alternatively, you can use an URI and `gst-launch-1.0`
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will find an element (such as cdparanoia) that supports that protocol
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for you, e.g.:
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```
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gst-launch-1.0 [cdda://5] ! lame vbr=new vbr-quality=6 !
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filesink location=track5.mp3
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```
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Record sound from your audio input and encode it into an ogg file:
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```
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gst-launch-1.0 osssrc ! audioconvert ! vorbisenc ! oggmux !
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filesink location=input.ogg
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```
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Running a pipeline using a specific user-defined latency
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(see gst_pipeline_set_latency()):
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```
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gst-launch-1.0 pipeline. \( latency=2000000000 videotestsrc ! jpegenc ! jpegdec ! fakevideosink \)
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```
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### Video
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Display only the video portion of an MPEG-1 video file, outputting to an X
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display window:
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```
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gst-launch-1.0 filesrc location=videofile.mpg ! dvddemux ! mpeg2dec !
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xvimagesink
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```
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Display the video portion of a .vob file (used on DVDs), outputting to an SDL
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window:
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```
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gst-launch-1.0 filesrc location=flflfj.vob ! dvddemux ! mpeg2dec ! sdlvideosink
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```
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Play both video and audio portions of an MPEG movie:
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```
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gst-launch-1.0 filesrc location=movie.mpg ! dvddemux name=demuxer
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demuxer. ! queue ! mpeg2dec ! sdlvideosink
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demuxer. ! queue ! mad ! audioconvert ! audioresample ! osssink
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```
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Play an AVI movie with an external text subtitle stream:
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```
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gst-launch-1.0 filesrc location=movie.mpg ! mpegdemux name=demuxer
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demuxer. ! queue ! mpeg2dec ! videoconvert ! sdlvideosink
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demuxer. ! queue ! mad ! audioconvert ! audioresample ! osssink
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```
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This example shows how to refer to specific pads by name if an
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element (here: textoverlay) has multiple sink or source pads:
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```
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gst-launch-1.0 textoverlay name=overlay ! videoconvert ! videoscale !
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autovideosink
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filesrc location=movie.avi ! decodebin2 ! videoconvert ! overlay.video_sink
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filesrc location=movie.srt ! subparse ! overlay.text_sink
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```
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Play an AVI movie with an external text subtitle stream using playbin:
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```
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gst-launch-1.0 playbin uri=<file:///path/to/movie.avi>
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suburi=<file:///path/to/movie.srt>
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```
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### Network streaming
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Stream video using RTP and network elements
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This command would be run on the transmitter:
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```
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gst-launch-1.0 v4l2src !
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video/x-raw-yuv,width=128,height=96,format='(fourcc)'UYVY !
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videoconvert ! ffenc_h263 ! video/x-h263 ! rtph263ppay pt=96 !
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udpsink host=192.168.1.1 port=5000 sync=false
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```
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Use this command on the receiver:
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```
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gst-launch-1.0 udpsrc port=5000 ! application/x-rtp,
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clock-rate=90000,payload=96 ! rtph263pdepay queue-delay=0 ! ffdec_h263
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! xvimagesink
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```
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### Diagnostic
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Generate a null stream and ignore it (and print out details):
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```
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gst-launch-1.0 -v fakesrc num-buffers=16 ! fakesink
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```
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Generate a pure sine tone to test the audio output:
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```
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gst-launch-1.0 audiotestsrc ! audioconvert ! audioresample ! osssink
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```
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Generate a familiar test pattern to test the video output:
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```
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gst-launch-1.0 videotestsrc ! ximagesink
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```
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### Automatic linking
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You can use the "decodebin" element to automatically select the right
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elements to get a working pipeline.
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Play any supported audio format:
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```
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gst-launch-1.0 filesrc location=musicfile ! decodebin ! audioconvert !
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audioresample ! osssink
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```
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Play any supported video format with video and audio output. Threads are used
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automatically:
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```
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gst-launch-1.0 filesrc location=videofile ! decodebin name=decoder
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decoder. ! queue ! audioconvert ! audioresample ! osssink
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decoder. ! videoconvert ! xvimagesink
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```
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To make the above even easier, you can use the playbin element:
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```
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gst-launch-1.0 playbin uri=<file:///home/joe/foo.avi>
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```
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### Filtered connections
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These examples show you how to use filtered caps.
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Show a test image and use the YUY2 or YV12 video format for this:
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```
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gst-launch-1.0 videotestsrc !
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'video/x-raw-yuv,format=(fourcc)YUY2;video/x-raw-yuv,format=(fourcc)YV12'
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! xvimagesink
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```
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Record audio and write it to a .wav file. Force usage of signed 16 to 32 bit
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samples and a sample rate between 32kHz and 64KHz:
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```
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gst-launch-1.0 osssrc !
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'audio/x-raw-int,rate=[32000,64000],width=[16,32],depth={16,24,32},signed=(boolean)true'
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! wavenc ! filesink location=recording.wav
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```
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## Environment Variables
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`GST_DEBUG`: Comma-separated list of debug categories and levels, e.g:
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```
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GST_DEBUG=totem:4,typefind:5
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```
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`GST_DEBUG_NO_COLOR`: When this environment variable is set, coloured debug
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output is disabled. This might come handy when saving the debug output to a
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file.
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`GST_DEBUG_DUMP_DOT_DIR`: When set to a filesystem path, store dot
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files of pipeline graphs there.
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`GST_REGISTRY`: Path of the plugin registry file. The default is
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`~/.gstreamer-1.0/registry-CPU.xml` where CPU is the machine/cpu type
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GStreamer was compiled for, e.g. 'i486', 'i686', 'x86-64', 'ppc', etc.
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Check the output of `uname -i` and `uname -m` for details.
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`GST_REGISTRY_UPDATE`: Set to "no" to force GStreamer to assume that no plugins
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have changed, have been added or have been removed. This will make GStreamer
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skip the initial check to determine whether a rebuild of the registry cache is
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required or not. This may be useful in embedded environments where the installed
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plugins never change. Do not use this option in any other setup.
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`GST_PLUGIN_PATH`: Specifies a list of directories to scan for additional
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plugins. These take precedence over the system plugins.
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`GST_PLUGIN_SYSTEM_PATH`: Specifies a list of plugins that are always loaded by
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default. If not set, this defaults to the system-installed path, and the plugins
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installed in the user's home directory
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`OIL_CPU_FLAGS`: Useful liboil environment variable. Set `OIL_CPU_FLAGS=0` when
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valgrind or other debugging tools trip over liboil's CPU detection. Quite a few
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important GStreamer plugins like `videotestsrc`, `audioconvert` and
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`audioresample` use liboil.
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`G_DEBUG`: This is a useful GLib environment variable. Set
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`G_DEBUG=fatal_warnings` to make GStreamer programs abort when a critical
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warning such as an assertion failure occurs. This is useful if you want to find
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out which part of the code caused that warning to be triggered and under what
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circumstances. Simply set `G_DEBUG` as mentioned above and run the program under
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gdb (or let it core dump). Then get a stack trace in the usual way.
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[information]: images/icons/emoticons/information.svg
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