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3281 lines
134 KiB
3281 lines
134 KiB
\input texinfo @c -*- texinfo -*- |
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@documentencoding UTF-8 |
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@settitle ffmpeg Documentation |
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@titlepage |
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@center @titlefont{ffmpeg Documentation} |
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@end titlepage |
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@top |
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@contents |
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@chapter Synopsis |
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ffmpeg [@var{global_options}] @{[@var{input_file_options}] -i @file{input_url}@} ... @{[@var{output_file_options}] @file{output_url}@} ... |
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@chapter Description |
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@c man begin DESCRIPTION |
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@command{ffmpeg} is a universal media converter. It can read a wide variety of |
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inputs - including live grabbing/recording devices - filter, and transcode them |
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into a plethora of output formats. |
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@command{ffmpeg} reads from an arbitrary number of inputs (which can be regular |
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files, pipes, network streams, grabbing devices, etc.), specified by the |
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@code{-i} option, and writes to an arbitrary number of outputs, which are |
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specified by a plain output url. Anything found on the command line which cannot |
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be interpreted as an option is considered to be an output url. |
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Each input or output can, in principle, contain any number of elementary streams |
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of different types (video/audio/subtitle/attachment/data), though the allowed |
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stream counts and/or types may be limited by the container format. Selecting |
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which streams from which inputs will go into which output is either done |
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automatically or with the @code{-map} option (see the @ref{Stream selection} |
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chapter). |
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To refer to inputs/outputs in options, you must use their indices (0-based). |
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E.g. the first input is @code{0}, the second is @code{1}, etc. Similarly, |
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streams within an input/output are referred to by their indices. E.g. @code{2:3} |
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refers to the fourth stream in the third input or output. Also see the |
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@ref{Stream specifiers} chapter. |
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As a general rule, options are applied to the next specified |
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file. Therefore, order is important, and you can have the same |
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option on the command line multiple times. Each occurrence is |
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then applied to the next input or output file. |
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Exceptions from this rule are the global options (e.g. verbosity level), |
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which should be specified first. |
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Do not mix input and output files -- first specify all input files, then all |
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output files. Also do not mix options which belong to different files. All |
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options apply ONLY to the next input or output file and are reset between files. |
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Some simple examples follow. |
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@itemize |
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@item |
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Convert an input media file to a different format, by re-encoding media streams: |
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@example |
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ffmpeg -i input.avi output.mp4 |
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@end example |
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@item |
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Set the video bitrate of the output file to 64 kbit/s: |
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@example |
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ffmpeg -i input.avi -b:v 64k -bufsize 64k output.mp4 |
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@end example |
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@item |
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Force the frame rate of the output file to 24 fps: |
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@example |
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ffmpeg -i input.avi -r 24 output.mp4 |
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@end example |
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@item |
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Force the frame rate of the input file (valid for raw formats only) to 1 fps and |
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the frame rate of the output file to 24 fps: |
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@example |
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ffmpeg -r 1 -i input.m2v -r 24 output.mp4 |
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@end example |
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@end itemize |
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The format option may be needed for raw input files. |
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@c man end DESCRIPTION |
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@chapter Detailed description |
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@c man begin DETAILED DESCRIPTION |
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@command{ffmpeg} builds a transcoding pipeline out of the components listed |
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below. The program's operation then consists of input data chunks flowing from |
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the sources down the pipes towards the sinks, while being transformed by the |
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components they encounter along the way. |
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The following kinds of components are available: |
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@itemize |
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@item |
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@emph{Demuxers} (short for "demultiplexers") read an input source in order to |
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extract |
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@itemize |
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@item |
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global properties such as metadata or chapters; |
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@item |
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list of input elementary streams and their properties |
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@end itemize |
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One demuxer instance is created for each @option{-i} option, and sends encoded |
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@emph{packets} to @emph{decoders} or @emph{muxers}. |
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In other literature, demuxers are sometimes called @emph{splitters}, because |
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their main function is splitting a file into elementary streams (though some |
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files only contain one elementary stream). |
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A schematic representation of a demuxer looks like this: |
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@verbatim |
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┌──────────┬───────────────────────┐ |
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│ demuxer │ │ packets for stream 0 |
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╞══════════╡ elementary stream 0 ├──────────────────────⮞ |
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│ │ │ |
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│ global ├───────────────────────┤ |
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│properties│ │ packets for stream 1 |
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│ and │ elementary stream 1 ├──────────────────────⮞ |
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│ metadata │ │ |
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│ ├───────────────────────┤ |
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│ │ │ |
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│ │ ........... │ |
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│ │ │ |
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│ ├───────────────────────┤ |
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│ │ │ packets for stream N |
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│ │ elementary stream N ├──────────────────────⮞ |
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│ │ │ |
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└──────────┴───────────────────────┘ |
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⯅ |
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│ |
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│ read from file, network stream, |
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│ grabbing device, etc. |
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│ |
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@end verbatim |
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@item |
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@emph{Decoders} receive encoded (compressed) @emph{packets} for an audio, video, |
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or subtitle elementary stream, and decode them into raw @emph{frames} (arrays of |
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pixels for video, PCM for audio). A decoder is typically associated with (and |
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receives its input from) an elementary stream in a @emph{demuxer}, but sometimes |
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may also exist on its own (see @ref{Loopback decoders}). |
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A schematic representation of a decoder looks like this: |
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@verbatim |
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┌─────────┐ |
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packets │ │ raw frames |
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─────────⮞│ decoder ├────────────⮞ |
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│ │ |
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└─────────┘ |
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@end verbatim |
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@item |
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@emph{Filtergraphs} process and transform raw audio or video @emph{frames}. A |
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filtergraph consists of one or more individual @emph{filters} linked into a |
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graph. Filtergraphs come in two flavors - @emph{simple} and @emph{complex}, |
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configured with the @option{-filter} and @option{-filter_complex} options, |
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respectively. |
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A simple filtergraph is associated with an @emph{output elementary stream}; it |
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receives the input to be filtered from a @emph{decoder} and sends filtered |
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output to that output stream's @emph{encoder}. |
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A simple video filtergraph that performs deinterlacing (using the @code{yadif} |
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deinterlacer) followed by resizing (using the @code{scale} filter) can look like |
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this: |
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@verbatim |
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┌────────────────────────┐ |
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│ simple filtergraph │ |
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frames from ╞════════════════════════╡ frames for |
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a decoder │ ┌───────┐ ┌───────┐ │ an encoder |
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────────────⮞├─⮞│ yadif ├─⮞│ scale ├─⮞│────────────⮞ |
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│ └───────┘ └───────┘ │ |
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└────────────────────────┘ |
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@end verbatim |
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A complex filtergraph is standalone and not associated with any specific stream. |
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It may have multiple (or zero) inputs, potentially of different types (audio or |
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video), each of which receiving data either from a decoder or another complex |
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filtergraph's output. It also has one or more outputs that feed either an |
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encoder or another complex filtergraph's input. |
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The following example diagram represents a complex filtergraph with 3 inputs and |
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2 outputs (all video): |
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@verbatim |
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┌─────────────────────────────────────────────────┐ |
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│ complex filtergraph │ |
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╞═════════════════════════════════════════════════╡ |
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frames ├───────┐ ┌─────────┐ ┌─────────┐ ┌────────┤ frames |
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─────────⮞│input 0├─⮞│ overlay ├─────⮞│ overlay ├─⮞│output 0├────────⮞ |
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├───────┘ │ │ │ │ └────────┤ |
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frames ├───────┐╭⮞│ │ ╭⮞│ │ │ |
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─────────⮞│input 1├╯ └─────────┘ │ └─────────┘ │ |
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├───────┘ │ │ |
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frames ├───────┐ ┌─────┐ ┌─────┬─╯ ┌────────┤ frames |
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─────────⮞│input 2├⮞│scale├⮞│split├───────────────⮞│output 1├────────⮞ |
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├───────┘ └─────┘ └─────┘ └────────┤ |
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└─────────────────────────────────────────────────┘ |
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@end verbatim |
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Frames from second input are overlaid over those from the first. Frames from the |
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third input are rescaled, then the duplicated into two identical streams. One of |
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them is overlaid over the combined first two inputs, with the result exposed as |
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the filtergraph's first output. The other duplicate ends up being the |
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filtergraph's second output. |
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@item |
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@emph{Encoders} receive raw audio, video, or subtitle @emph{frames} and encode |
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them into encoded @emph{packets}. The encoding (compression) process is |
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typically @emph{lossy} - it degrades stream quality to make the output smaller; |
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some encoders are @emph{lossless}, but at the cost of much higher output size. A |
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video or audio encoder receives its input from some filtergraph's output, |
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subtitle encoders receive input from a decoder (since subtitle filtering is not |
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supported yet). Every encoder is associated with some muxer's @emph{output |
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elementary stream} and sends its output to that muxer. |
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A schematic representation of an encoder looks like this: |
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@verbatim |
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┌─────────┐ |
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raw frames │ │ packets |
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────────────⮞│ encoder ├─────────⮞ |
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│ │ |
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└─────────┘ |
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@end verbatim |
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@item |
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@emph{Muxers} (short for "multiplexers") receive encoded @emph{packets} for |
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their elementary streams from encoders (the @emph{transcoding} path) or directly |
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from demuxers (the @emph{streamcopy} path), interleave them (when there is more |
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than one elementary stream), and write the resulting bytes into the output file |
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(or pipe, network stream, etc.). |
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A schematic representation of a muxer looks like this: |
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@verbatim |
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┌──────────────────────┬───────────┐ |
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packets for stream 0 │ │ muxer │ |
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──────────────────────⮞│ elementary stream 0 ╞═══════════╡ |
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│ │ │ |
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├──────────────────────┤ global │ |
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packets for stream 1 │ │properties │ |
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──────────────────────⮞│ elementary stream 1 │ and │ |
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│ │ metadata │ |
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├──────────────────────┤ │ |
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│ │ │ |
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│ ........... │ │ |
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│ │ │ |
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├──────────────────────┤ │ |
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packets for stream N │ │ │ |
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──────────────────────⮞│ elementary stream N │ │ |
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│ │ │ |
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└──────────────────────┴─────┬─────┘ |
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│ |
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write to file, network stream, │ |
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grabbing device, etc. │ |
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│ |
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▼ |
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@end verbatim |
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@end itemize |
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@section Streamcopy |
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The simplest pipeline in @command{ffmpeg} is single-stream |
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@emph{streamcopy}, that is copying one @emph{input elementary stream}'s packets |
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without decoding, filtering, or encoding them. As an example, consider an input |
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file called @file{INPUT.mkv} with 3 elementary streams, from which we take the |
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second and write it to file @file{OUTPUT.mp4}. A schematic representation of |
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such a pipeline looks like this: |
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@verbatim |
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┌──────────┬─────────────────────┐ |
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│ demuxer │ │ unused |
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╞══════════╡ elementary stream 0 ├────────╳ |
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│ │ │ |
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│INPUT.mkv ├─────────────────────┤ ┌──────────────────────┬───────────┐ |
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│ │ │ packets │ │ muxer │ |
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│ │ elementary stream 1 ├─────────⮞│ elementary stream 0 ╞═══════════╡ |
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│ │ │ │ │OUTPUT.mp4 │ |
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│ ├─────────────────────┤ └──────────────────────┴───────────┘ |
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│ │ │ unused |
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│ │ elementary stream 2 ├────────╳ |
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│ │ │ |
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└──────────┴─────────────────────┘ |
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@end verbatim |
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The above pipeline can be constructed with the following commandline: |
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@example |
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ffmpeg -i INPUT.mkv -map 0:1 -c copy OUTPUT.mp4 |
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@end example |
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In this commandline |
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@itemize |
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@item |
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there is a single input @file{INPUT.mkv}; |
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@item |
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there are no input options for this input; |
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@item |
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there is a single output @file{OUTPUT.mp4}; |
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@item |
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there are two output options for this output: |
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@itemize |
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@item |
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@code{-map 0:1} selects the input stream to be used - from input with index 0 |
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(i.e. the first one) the stream with index 1 (i.e. the second one); |
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@item |
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@code{-c copy} selects the @code{copy} encoder, i.e. streamcopy with no decoding |
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or encoding. |
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@end itemize |
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@end itemize |
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Streamcopy is useful for changing the elementary stream count, container format, |
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or modifying container-level metadata. Since there is no decoding or encoding, |
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it is very fast and there is no quality loss. However, it might not work in some |
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cases because of a variety of factors (e.g. certain information required by the |
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target container is not available in the source). Applying filters is obviously |
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also impossible, since filters work on decoded frames. |
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More complex streamcopy scenarios can be constructed - e.g. combining streams |
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from two input files into a single output: |
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@verbatim |
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┌──────────┬────────────────────┐ ┌────────────────────┬───────────┐ |
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│ demuxer 0│ │ packets │ │ muxer │ |
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╞══════════╡elementary stream 0 ├────────⮞│elementary stream 0 ╞═══════════╡ |
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│INPUT0.mkv│ │ │ │OUTPUT.mp4 │ |
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└──────────┴────────────────────┘ ├────────────────────┤ │ |
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┌──────────┬────────────────────┐ │ │ │ |
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│ demuxer 1│ │ packets │elementary stream 1 │ │ |
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╞══════════╡elementary stream 0 ├────────⮞│ │ │ |
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│INPUT1.aac│ │ └────────────────────┴───────────┘ |
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└──────────┴────────────────────┘ |
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@end verbatim |
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that can be built by the commandline |
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@example |
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ffmpeg -i INPUT0.mkv -i INPUT1.aac -map 0:0 -map 1:0 -c copy OUTPUT.mp4 |
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@end example |
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The output @option{-map} option is used twice here, creating two streams in the |
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output file - one fed by the first input and one by the second. The single |
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instance of the @option{-c} option selects streamcopy for both of those streams. |
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You could also use multiple instances of this option together with |
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@ref{Stream specifiers} to apply different values to each stream, as will be |
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demonstrated in following sections. |
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A converse scenario is splitting multiple streams from a single input into |
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multiple outputs: |
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@verbatim |
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┌──────────┬─────────────────────┐ ┌───────────────────┬───────────┐ |
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│ demuxer │ │ packets │ │ muxer 0 │ |
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╞══════════╡ elementary stream 0 ├─────────⮞│elementary stream 0╞═══════════╡ |
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│ │ │ │ │OUTPUT0.mp4│ |
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│INPUT.mkv ├─────────────────────┤ └───────────────────┴───────────┘ |
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│ │ │ packets ┌───────────────────┬───────────┐ |
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│ │ elementary stream 1 ├─────────⮞│ │ muxer 1 │ |
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│ │ │ │elementary stream 0╞═══════════╡ |
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└──────────┴─────────────────────┘ │ │OUTPUT1.mp4│ |
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└───────────────────┴───────────┘ |
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@end verbatim |
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built with |
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@example |
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ffmpeg -i INPUT.mkv -map 0:0 -c copy OUTPUT0.mp4 -map 0:1 -c copy OUTPUT1.mp4 |
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@end example |
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Note how a separate instance of the @option{-c} option is needed for every |
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output file even though their values are the same. This is because non-global |
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options (which is most of them) only apply in the context of the file before |
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which they are placed. |
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These examples can of course be further generalized into arbitrary remappings |
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of any number of inputs into any number of outputs. |
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@section Trancoding |
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@emph{Transcoding} is the process of decoding a stream and then encoding it |
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again. Since encoding tends to be computationally expensive and in most cases |
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degrades the stream quality (i.e. it is @emph{lossy}), you should only transcode |
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when you need to and perform streamcopy otherwise. Typical reasons to transcode |
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are: |
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@itemize |
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@item |
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applying filters - e.g. resizing, deinterlacing, or overlaying video; resampling |
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or mixing audio; |
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|
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@item |
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you want to feed the stream to something that cannot decode the original codec. |
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@end itemize |
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Note that @command{ffmpeg} will transcode all audio, video, and subtitle streams |
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unless you specify @option{-c copy} for them. |
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Consider an example pipeline that reads an input file with one audio and one |
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video stream, transcodes the video and copies the audio into a single output |
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file. This can be schematically represented as follows |
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@verbatim |
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┌──────────┬─────────────────────┐ |
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│ demuxer │ │ audio packets |
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╞══════════╡ stream 0 (audio) ├─────────────────────────────────────╮ |
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│ │ │ │ |
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│INPUT.mkv ├─────────────────────┤ video ┌─────────┐ raw │ |
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│ │ │ packets │ video │ video frames │ |
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│ │ stream 1 (video) ├─────────⮞│ decoder ├──────────────╮ │ |
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│ │ │ │ │ │ │ |
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└──────────┴─────────────────────┘ └─────────┘ │ │ |
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▼ ▼ |
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│ │ |
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┌──────────┬─────────────────────┐ video ┌─────────┐ │ │ |
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│ muxer │ │ packets │ video │ │ │ |
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╞══════════╡ stream 0 (video) │⮜─────────┤ encoder ├──────────────╯ │ |
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│ │ │ │(libx264)│ │ |
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│OUTPUT.mp4├─────────────────────┤ └─────────┘ │ |
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│ │ │ │ |
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│ │ stream 1 (audio) │⮜────────────────────────────────────╯ |
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│ │ │ |
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└──────────┴─────────────────────┘ |
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@end verbatim |
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and implemented with the following commandline: |
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@example |
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ffmpeg -i INPUT.mkv -map 0:v -map 0:a -c:v libx264 -c:a copy OUTPUT.mp4 |
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@end example |
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Note how it uses stream specifiers @code{:v} and @code{:a} to select input |
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streams and apply different values of the @option{-c} option to them; see the |
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@ref{Stream specifiers} section for more details. |
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@section Filtering |
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|
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When transcoding, audio and video streams can be filtered before encoding, with |
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either a @emph{simple} or @emph{complex} filtergraph. |
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|
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@subsection Simple filtergraphs |
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|
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Simple filtergraphs are those that have exactly one input and output, both of |
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the same type (audio or video). They are configured with the per-stream |
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@option{-filter} option (with @option{-vf} and @option{-af} aliases for |
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@option{-filter:v} (video) and @option{-filter:a} (audio) respectively). Note |
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that simple filtergraphs are tied to their output stream, so e.g. if you have |
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multiple audio streams, @option{-af} will create a separate filtergraph for each |
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one. |
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|
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Taking the trancoding example from above, adding filtering (and omitting audio, |
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for clarity) makes it look like this: |
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@verbatim |
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┌──────────┬───────────────┐ |
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│ demuxer │ │ ┌─────────┐ |
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╞══════════╡ video stream │ packets │ video │ frames |
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│INPUT.mkv │ ├─────────⮞│ decoder ├─────⮞───╮ |
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│ │ │ └─────────┘ │ |
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└──────────┴───────────────┘ │ |
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╭───────────⮜───────────╯ |
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│ ┌────────────────────────┐ |
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│ │ simple filtergraph │ |
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│ ╞════════════════════════╡ |
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│ │ ┌───────┐ ┌───────┐ │ |
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╰──⮞├─⮞│ yadif ├─⮞│ scale ├─⮞├╮ |
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│ └───────┘ └───────┘ ││ |
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└────────────────────────┘│ |
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│ |
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│ |
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┌──────────┬───────────────┐ video ┌─────────┐ │ |
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│ muxer │ │ packets │ video │ │ |
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╞══════════╡ video stream │⮜─────────┤ encoder ├───────⮜───────╯ |
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│OUTPUT.mp4│ │ │ │ |
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│ │ │ └─────────┘ |
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└──────────┴───────────────┘ |
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@end verbatim |
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|
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@subsection Complex filtergraphs |
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|
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Complex filtergraphs are those which cannot be described as simply a linear |
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processing chain applied to one stream. This is the case, for example, when the |
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graph has more than one input and/or output, or when output stream type is |
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different from input. Complex filtergraphs are configured with the |
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@option{-filter_complex} option. Note that this option is global, since a |
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complex filtergraph, by its nature, cannot be unambiguously associated with a |
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single stream or file. Each instance of @option{-filter_complex} creates a new |
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complex filtergraph, and there can be any number of them. |
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|
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A trivial example of a complex filtergraph is the @code{overlay} filter, which |
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has two video inputs and one video output, containing one video overlaid on top |
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of the other. Its audio counterpart is the @code{amix} filter. |
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|
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@anchor{Loopback decoders} |
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@section Loopback decoders |
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While decoders are normally associated with demuxer streams, it is also possible |
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to create "loopback" decoders that decode the output from some encoder and allow |
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it to be fed back to complex filtergraphs. This is done with the @code{-dec} |
|
directive, which takes as a parameter the index of the output stream that should |
|
be decoded. Every such directive creates a new loopback decoder, indexed with |
|
successive integers starting at zero. These indices should then be used to refer |
|
to loopback decoders in complex filtergraph link labels, as described in the |
|
documentation for @option{-filter_complex}. |
|
|
|
Decoding AVOptions can be passed to loopback decoders by placing them before |
|
@code{-dec}, analogously to input/output options. |
|
|
|
E.g. the following example: |
|
|
|
@example |
|
ffmpeg -i INPUT \ |
|
-map 0:v:0 -c:v libx264 -crf 45 -f null - \ |
|
-threads 3 -dec 0:0 \ |
|
-filter_complex '[0:v][dec:0]hstack[stack]' \ |
|
-map '[stack]' -c:v ffv1 OUTPUT |
|
@end example |
|
|
|
reads an input video and |
|
@itemize |
|
@item |
|
(line 2) encodes it with @code{libx264} at low quality; |
|
|
|
@item |
|
(line 3) decodes this encoded stream using 3 threads; |
|
|
|
@item |
|
(line 4) places decoded video side by side with the original input video; |
|
|
|
@item |
|
(line 5) combined video is then losslessly encoded and written into |
|
@file{OUTPUT}. |
|
|
|
@end itemize |
|
|
|
Such a transcoding pipeline can be represented with the following diagram: |
|
@verbatim |
|
┌──────────┬───────────────┐ |
|
│ demuxer │ │ ┌─────────┐ ┌─────────┐ ┌────────────────────┐ |
|
╞══════════╡ video stream │ │ video │ │ video │ │ null muxer │ |
|
│ INPUT │ ├──⮞│ decoder ├──┬────────⮞│ encoder ├─┬─⮞│(discards its input)│ |
|
│ │ │ └─────────┘ │ │(libx264)│ │ └────────────────────┘ |
|
└──────────┴───────────────┘ │ └─────────┘ │ |
|
╭───────⮜──╯ ┌─────────┐ │ |
|
│ │loopback │ │ |
|
│ ╭─────⮜──────┤ decoder ├────⮜──╯ |
|
│ │ └─────────┘ |
|
│ │ |
|
│ │ |
|
│ │ ┌───────────────────┐ |
|
│ │ │complex filtergraph│ |
|
│ │ ╞═══════════════════╡ |
|
│ │ │ ┌─────────────┐ │ |
|
╰─╫─⮞├─⮞│ hstack ├─⮞├╮ |
|
╰─⮞├─⮞│ │ ││ |
|
│ └─────────────┘ ││ |
|
└───────────────────┘│ |
|
│ |
|
┌──────────┬───────────────┐ ┌─────────┐ │ |
|
│ muxer │ │ │ video │ │ |
|
╞══════════╡ video stream │⮜─┤ encoder ├───────⮜──────────╯ |
|
│ OUTPUT │ │ │ (ffv1) │ |
|
│ │ │ └─────────┘ |
|
└──────────┴───────────────┘ |
|
@end verbatim |
|
|
|
|
|
@c man end DETAILED DESCRIPTION |
|
|
|
@anchor{Stream selection} |
|
@chapter Stream selection |
|
@c man begin STREAM SELECTION |
|
|
|
@command{ffmpeg} provides the @code{-map} option for manual control of stream selection in each |
|
output file. Users can skip @code{-map} and let ffmpeg perform automatic stream selection as |
|
described below. The @code{-vn / -an / -sn / -dn} options can be used to skip inclusion of |
|
video, audio, subtitle and data streams respectively, whether manually mapped or automatically |
|
selected, except for those streams which are outputs of complex filtergraphs. |
|
|
|
@section Description |
|
The sub-sections that follow describe the various rules that are involved in stream selection. |
|
The examples that follow next show how these rules are applied in practice. |
|
|
|
While every effort is made to accurately reflect the behavior of the program, FFmpeg is under |
|
continuous development and the code may have changed since the time of this writing. |
|
|
|
@subsection Automatic stream selection |
|
|
|
In the absence of any map options for a particular output file, ffmpeg inspects the output |
|
format to check which type of streams can be included in it, viz. video, audio and/or |
|
subtitles. For each acceptable stream type, ffmpeg will pick one stream, when available, |
|
from among all the inputs. |
|
|
|
It will select that stream based upon the following criteria: |
|
@itemize |
|
@item |
|
for video, it is the stream with the highest resolution, |
|
@item |
|
for audio, it is the stream with the most channels, |
|
@item |
|
for subtitles, it is the first subtitle stream found but there's a caveat. |
|
The output format's default subtitle encoder can be either text-based or image-based, |
|
and only a subtitle stream of the same type will be chosen. |
|
@end itemize |
|
|
|
In the case where several streams of the same type rate equally, the stream with the lowest |
|
index is chosen. |
|
|
|
Data or attachment streams are not automatically selected and can only be included |
|
using @code{-map}. |
|
@subsection Manual stream selection |
|
|
|
When @code{-map} is used, only user-mapped streams are included in that output file, |
|
with one possible exception for filtergraph outputs described below. |
|
|
|
@subsection Complex filtergraphs |
|
|
|
If there are any complex filtergraph output streams with unlabeled pads, they will be added |
|
to the first output file. This will lead to a fatal error if the stream type is not supported |
|
by the output format. In the absence of the map option, the inclusion of these streams leads |
|
to the automatic stream selection of their types being skipped. If map options are present, |
|
these filtergraph streams are included in addition to the mapped streams. |
|
|
|
Complex filtergraph output streams with labeled pads must be mapped once and exactly once. |
|
|
|
@subsection Stream handling |
|
|
|
Stream handling is independent of stream selection, with an exception for subtitles described |
|
below. Stream handling is set via the @code{-codec} option addressed to streams within a |
|
specific @emph{output} file. In particular, codec options are applied by ffmpeg after the |
|
stream selection process and thus do not influence the latter. If no @code{-codec} option is |
|
specified for a stream type, ffmpeg will select the default encoder registered by the output |
|
file muxer. |
|
|
|
An exception exists for subtitles. If a subtitle encoder is specified for an output file, the |
|
first subtitle stream found of any type, text or image, will be included. ffmpeg does not validate |
|
if the specified encoder can convert the selected stream or if the converted stream is acceptable |
|
within the output format. This applies generally as well: when the user sets an encoder manually, |
|
the stream selection process cannot check if the encoded stream can be muxed into the output file. |
|
If it cannot, ffmpeg will abort and @emph{all} output files will fail to be processed. |
|
|
|
@section Examples |
|
|
|
The following examples illustrate the behavior, quirks and limitations of ffmpeg's stream |
|
selection methods. |
|
|
|
They assume the following three input files. |
|
|
|
@verbatim |
|
|
|
input file 'A.avi' |
|
stream 0: video 640x360 |
|
stream 1: audio 2 channels |
|
|
|
input file 'B.mp4' |
|
stream 0: video 1920x1080 |
|
stream 1: audio 2 channels |
|
stream 2: subtitles (text) |
|
stream 3: audio 5.1 channels |
|
stream 4: subtitles (text) |
|
|
|
input file 'C.mkv' |
|
stream 0: video 1280x720 |
|
stream 1: audio 2 channels |
|
stream 2: subtitles (image) |
|
@end verbatim |
|
|
|
@subsubheading Example: automatic stream selection |
|
@example |
|
ffmpeg -i A.avi -i B.mp4 out1.mkv out2.wav -map 1:a -c:a copy out3.mov |
|
@end example |
|
There are three output files specified, and for the first two, no @code{-map} options |
|
are set, so ffmpeg will select streams for these two files automatically. |
|
|
|
@file{out1.mkv} is a Matroska container file and accepts video, audio and subtitle streams, |
|
so ffmpeg will try to select one of each type.@* |
|
For video, it will select @code{stream 0} from @file{B.mp4}, which has the highest |
|
resolution among all the input video streams.@* |
|
For audio, it will select @code{stream 3} from @file{B.mp4}, since it has the greatest |
|
number of channels.@* |
|
For subtitles, it will select @code{stream 2} from @file{B.mp4}, which is the first subtitle |
|
stream from among @file{A.avi} and @file{B.mp4}. |
|
|
|
@file{out2.wav} accepts only audio streams, so only @code{stream 3} from @file{B.mp4} is |
|
selected. |
|
|
|
For @file{out3.mov}, since a @code{-map} option is set, no automatic stream selection will |
|
occur. The @code{-map 1:a} option will select all audio streams from the second input |
|
@file{B.mp4}. No other streams will be included in this output file. |
|
|
|
For the first two outputs, all included streams will be transcoded. The encoders chosen will |
|
be the default ones registered by each output format, which may not match the codec of the |
|
selected input streams. |
|
|
|
For the third output, codec option for audio streams has been set |
|
to @code{copy}, so no decoding-filtering-encoding operations will occur, or @emph{can} occur. |
|
Packets of selected streams shall be conveyed from the input file and muxed within the output |
|
file. |
|
|
|
@subsubheading Example: automatic subtitles selection |
|
@example |
|
ffmpeg -i C.mkv out1.mkv -c:s dvdsub -an out2.mkv |
|
@end example |
|
Although @file{out1.mkv} is a Matroska container file which accepts subtitle streams, only a |
|
video and audio stream shall be selected. The subtitle stream of @file{C.mkv} is image-based |
|
and the default subtitle encoder of the Matroska muxer is text-based, so a transcode operation |
|
for the subtitles is expected to fail and hence the stream isn't selected. However, in |
|
@file{out2.mkv}, a subtitle encoder is specified in the command and so, the subtitle stream is |
|
selected, in addition to the video stream. The presence of @code{-an} disables audio stream |
|
selection for @file{out2.mkv}. |
|
|
|
@subsubheading Example: unlabeled filtergraph outputs |
|
@example |
|
ffmpeg -i A.avi -i C.mkv -i B.mp4 -filter_complex "overlay" out1.mp4 out2.srt |
|
@end example |
|
A filtergraph is setup here using the @code{-filter_complex} option and consists of a single |
|
video filter. The @code{overlay} filter requires exactly two video inputs, but none are |
|
specified, so the first two available video streams are used, those of @file{A.avi} and |
|
@file{C.mkv}. The output pad of the filter has no label and so is sent to the first output file |
|
@file{out1.mp4}. Due to this, automatic selection of the video stream is skipped, which would |
|
have selected the stream in @file{B.mp4}. The audio stream with most channels viz. @code{stream 3} |
|
in @file{B.mp4}, is chosen automatically. No subtitle stream is chosen however, since the MP4 |
|
format has no default subtitle encoder registered, and the user hasn't specified a subtitle encoder. |
|
|
|
The 2nd output file, @file{out2.srt}, only accepts text-based subtitle streams. So, even though |
|
the first subtitle stream available belongs to @file{C.mkv}, it is image-based and hence skipped. |
|
The selected stream, @code{stream 2} in @file{B.mp4}, is the first text-based subtitle stream. |
|
|
|
@subsubheading Example: labeled filtergraph outputs |
|
@example |
|
ffmpeg -i A.avi -i B.mp4 -i C.mkv -filter_complex "[1:v]hue=s=0[outv];overlay;aresample" \ |
|
-map '[outv]' -an out1.mp4 \ |
|
out2.mkv \ |
|
-map '[outv]' -map 1:a:0 out3.mkv |
|
@end example |
|
|
|
The above command will fail, as the output pad labelled @code{[outv]} has been mapped twice. |
|
None of the output files shall be processed. |
|
|
|
@example |
|
ffmpeg -i A.avi -i B.mp4 -i C.mkv -filter_complex "[1:v]hue=s=0[outv];overlay;aresample" \ |
|
-an out1.mp4 \ |
|
out2.mkv \ |
|
-map 1:a:0 out3.mkv |
|
@end example |
|
|
|
This command above will also fail as the hue filter output has a label, @code{[outv]}, |
|
and hasn't been mapped anywhere. |
|
|
|
The command should be modified as follows, |
|
@example |
|
ffmpeg -i A.avi -i B.mp4 -i C.mkv -filter_complex "[1:v]hue=s=0,split=2[outv1][outv2];overlay;aresample" \ |
|
-map '[outv1]' -an out1.mp4 \ |
|
out2.mkv \ |
|
-map '[outv2]' -map 1:a:0 out3.mkv |
|
@end example |
|
The video stream from @file{B.mp4} is sent to the hue filter, whose output is cloned once using |
|
the split filter, and both outputs labelled. Then a copy each is mapped to the first and third |
|
output files. |
|
|
|
The overlay filter, requiring two video inputs, uses the first two unused video streams. Those |
|
are the streams from @file{A.avi} and @file{C.mkv}. The overlay output isn't labelled, so it is |
|
sent to the first output file @file{out1.mp4}, regardless of the presence of the @code{-map} option. |
|
|
|
The aresample filter is sent the first unused audio stream, that of @file{A.avi}. Since this filter |
|
output is also unlabelled, it too is mapped to the first output file. The presence of @code{-an} |
|
only suppresses automatic or manual stream selection of audio streams, not outputs sent from |
|
filtergraphs. Both these mapped streams shall be ordered before the mapped stream in @file{out1.mp4}. |
|
|
|
The video, audio and subtitle streams mapped to @code{out2.mkv} are entirely determined by |
|
automatic stream selection. |
|
|
|
@file{out3.mkv} consists of the cloned video output from the hue filter and the first audio |
|
stream from @file{B.mp4}. |
|
@* |
|
|
|
@c man end STREAM SELECTION |
|
|
|
@chapter Options |
|
@c man begin OPTIONS |
|
|
|
@include fftools-common-opts.texi |
|
|
|
@section Main options |
|
|
|
@table @option |
|
|
|
@item -f @var{fmt} (@emph{input/output}) |
|
Force input or output file format. The format is normally auto detected for input |
|
files and guessed from the file extension for output files, so this option is not |
|
needed in most cases. |
|
|
|
@item -i @var{url} (@emph{input}) |
|
input file url |
|
|
|
@item -y (@emph{global}) |
|
Overwrite output files without asking. |
|
|
|
@item -n (@emph{global}) |
|
Do not overwrite output files, and exit immediately if a specified |
|
output file already exists. |
|
|
|
@item -stream_loop @var{number} (@emph{input}) |
|
Set number of times input stream shall be looped. Loop 0 means no loop, |
|
loop -1 means infinite loop. |
|
|
|
@item -recast_media (@emph{global}) |
|
Allow forcing a decoder of a different media type than the one |
|
detected or designated by the demuxer. Useful for decoding media |
|
data muxed as data streams. |
|
|
|
@item -c[:@var{stream_specifier}] @var{codec} (@emph{input/output,per-stream}) |
|
@itemx -codec[:@var{stream_specifier}] @var{codec} (@emph{input/output,per-stream}) |
|
Select an encoder (when used before an output file) or a decoder (when used |
|
before an input file) for one or more streams. @var{codec} is the name of a |
|
decoder/encoder or a special value @code{copy} (output only) to indicate that |
|
the stream is not to be re-encoded. |
|
|
|
For example |
|
@example |
|
ffmpeg -i INPUT -map 0 -c:v libx264 -c:a copy OUTPUT |
|
@end example |
|
encodes all video streams with libx264 and copies all audio streams. |
|
|
|
For each stream, the last matching @code{c} option is applied, so |
|
@example |
|
ffmpeg -i INPUT -map 0 -c copy -c:v:1 libx264 -c:a:137 libvorbis OUTPUT |
|
@end example |
|
will copy all the streams except the second video, which will be encoded with |
|
libx264, and the 138th audio, which will be encoded with libvorbis. |
|
|
|
@item -t @var{duration} (@emph{input/output}) |
|
When used as an input option (before @code{-i}), limit the @var{duration} of |
|
data read from the input file. |
|
|
|
When used as an output option (before an output url), stop writing the |
|
output after its duration reaches @var{duration}. |
|
|
|
@var{duration} must be a time duration specification, |
|
see @ref{time duration syntax,,the Time duration section in the ffmpeg-utils(1) manual,ffmpeg-utils}. |
|
|
|
-to and -t are mutually exclusive and -t has priority. |
|
|
|
@item -to @var{position} (@emph{input/output}) |
|
Stop writing the output or reading the input at @var{position}. |
|
@var{position} must be a time duration specification, |
|
see @ref{time duration syntax,,the Time duration section in the ffmpeg-utils(1) manual,ffmpeg-utils}. |
|
|
|
-to and -t are mutually exclusive and -t has priority. |
|
|
|
@item -fs @var{limit_size} (@emph{output}) |
|
Set the file size limit, expressed in bytes. No further chunk of bytes is written |
|
after the limit is exceeded. The size of the output file is slightly more than the |
|
requested file size. |
|
|
|
@item -ss @var{position} (@emph{input/output}) |
|
When used as an input option (before @code{-i}), seeks in this input file to |
|
@var{position}. Note that in most formats it is not possible to seek exactly, |
|
so @command{ffmpeg} will seek to the closest seek point before @var{position}. |
|
When transcoding and @option{-accurate_seek} is enabled (the default), this |
|
extra segment between the seek point and @var{position} will be decoded and |
|
discarded. When doing stream copy or when @option{-noaccurate_seek} is used, it |
|
will be preserved. |
|
|
|
When used as an output option (before an output url), decodes but discards |
|
input until the timestamps reach @var{position}. |
|
|
|
@var{position} must be a time duration specification, |
|
see @ref{time duration syntax,,the Time duration section in the ffmpeg-utils(1) manual,ffmpeg-utils}. |
|
|
|
@item -sseof @var{position} (@emph{input}) |
|
|
|
Like the @code{-ss} option but relative to the "end of file". That is negative |
|
values are earlier in the file, 0 is at EOF. |
|
|
|
@item -isync @var{input_index} (@emph{input}) |
|
Assign an input as a sync source. |
|
|
|
This will take the difference between the start times of the target and reference inputs and |
|
offset the timestamps of the target file by that difference. The source timestamps of the two |
|
inputs should derive from the same clock source for expected results. If @code{copyts} is set |
|
then @code{start_at_zero} must also be set. If either of the inputs has no starting timestamp |
|
then no sync adjustment is made. |
|
|
|
Acceptable values are those that refer to a valid ffmpeg input index. If the sync reference is |
|
the target index itself or @var{-1}, then no adjustment is made to target timestamps. A sync |
|
reference may not itself be synced to any other input. |
|
|
|
Default value is @var{-1}. |
|
|
|
@item -itsoffset @var{offset} (@emph{input}) |
|
Set the input time offset. |
|
|
|
@var{offset} must be a time duration specification, |
|
see @ref{time duration syntax,,the Time duration section in the ffmpeg-utils(1) manual,ffmpeg-utils}. |
|
|
|
The offset is added to the timestamps of the input files. Specifying |
|
a positive offset means that the corresponding streams are delayed by |
|
the time duration specified in @var{offset}. |
|
|
|
@item -itsscale @var{scale} (@emph{input,per-stream}) |
|
Rescale input timestamps. @var{scale} should be a floating point number. |
|
|
|
@item -timestamp @var{date} (@emph{output}) |
|
Set the recording timestamp in the container. |
|
|
|
@var{date} must be a date specification, |
|
see @ref{date syntax,,the Date section in the ffmpeg-utils(1) manual,ffmpeg-utils}. |
|
|
|
@item -metadata[:metadata_specifier] @var{key}=@var{value} (@emph{output,per-metadata}) |
|
Set a metadata key/value pair. |
|
|
|
An optional @var{metadata_specifier} may be given to set metadata |
|
on streams, chapters or programs. See @code{-map_metadata} |
|
documentation for details. |
|
|
|
This option overrides metadata set with @code{-map_metadata}. It is |
|
also possible to delete metadata by using an empty value. |
|
|
|
For example, for setting the title in the output file: |
|
@example |
|
ffmpeg -i in.avi -metadata title="my title" out.flv |
|
@end example |
|
|
|
To set the language of the first audio stream: |
|
@example |
|
ffmpeg -i INPUT -metadata:s:a:0 language=eng OUTPUT |
|
@end example |
|
|
|
@item -disposition[:stream_specifier] @var{value} (@emph{output,per-stream}) |
|
Sets the disposition flags for a stream. |
|
|
|
Default value: by default, all disposition flags are copied from the input stream, |
|
unless the output stream this option applies to is fed by a complex filtergraph |
|
- in that case no disposition flags are set by default. |
|
|
|
@var{value} is a sequence of disposition flags separated by '+' or '-'. A '+' |
|
prefix adds the given disposition, '-' removes it. If the first flag is also |
|
prefixed with '+' or '-', the resulting disposition is the default value |
|
updated by @var{value}. If the first flag is not prefixed, the resulting |
|
disposition is @var{value}. It is also possible to clear the disposition by |
|
setting it to 0. |
|
|
|
If no @code{-disposition} options were specified for an output file, ffmpeg will |
|
automatically set the 'default' disposition flag on the first stream of each type, |
|
when there are multiple streams of this type in the output file and no stream of |
|
that type is already marked as default. |
|
|
|
The @code{-dispositions} option lists the known disposition flags. |
|
|
|
For example, to make the second audio stream the default stream: |
|
@example |
|
ffmpeg -i in.mkv -c copy -disposition:a:1 default out.mkv |
|
@end example |
|
|
|
To make the second subtitle stream the default stream and remove the default |
|
disposition from the first subtitle stream: |
|
@example |
|
ffmpeg -i in.mkv -c copy -disposition:s:0 0 -disposition:s:1 default out.mkv |
|
@end example |
|
|
|
To add an embedded cover/thumbnail: |
|
@example |
|
ffmpeg -i in.mp4 -i IMAGE -map 0 -map 1 -c copy -c:v:1 png -disposition:v:1 attached_pic out.mp4 |
|
@end example |
|
|
|
To add the 'original' and remove the 'comment' disposition flag from the first |
|
audio stream without removing its other disposition flags: |
|
@example |
|
ffmpeg -i in.mkv -c copy -disposition:a:0 +original-comment out.mkv |
|
@end example |
|
|
|
To remove the 'original' and add the 'comment' disposition flag to the first |
|
audio stream without removing its other disposition flags: |
|
@example |
|
ffmpeg -i in.mkv -c copy -disposition:a:0 -original+comment out.mkv |
|
@end example |
|
|
|
To set only the 'original' and 'comment' disposition flags on the first audio |
|
stream (and remove its other disposition flags): |
|
@example |
|
ffmpeg -i in.mkv -c copy -disposition:a:0 original+comment out.mkv |
|
@end example |
|
|
|
To remove all disposition flags from the first audio stream: |
|
@example |
|
ffmpeg -i in.mkv -c copy -disposition:a:0 0 out.mkv |
|
@end example |
|
|
|
Not all muxers support embedded thumbnails, and those who do, only support a few formats, like JPEG or PNG. |
|
|
|
@item -program [title=@var{title}:][program_num=@var{program_num}:]st=@var{stream}[:st=@var{stream}...] (@emph{output}) |
|
|
|
Creates a program with the specified @var{title}, @var{program_num} and adds the specified |
|
@var{stream}(s) to it. |
|
|
|
@item -stream_group [map=@var{input_file_id}=@var{stream_group}][type=@var{type}:]st=@var{stream}[:st=@var{stream}][:stg=@var{stream_group}][:id=@var{stream_group_id}...] (@emph{output}) |
|
|
|
Creates a stream group of the specified @var{type} and @var{stream_group_id}, or by |
|
@var{map}ping an input group, adding the specified @var{stream}(s) and/or previously |
|
defined @var{stream_group}(s) to it. |
|
|
|
@var{type} can be one of the following: |
|
@table @option |
|
|
|
@item iamf_audio_element |
|
Groups @var{stream}s that belong to the same IAMF Audio Element |
|
|
|
For this group @var{type}, the following options are available |
|
@table @option |
|
@item audio_element_type |
|
The Audio Element type. The following values are supported: |
|
|
|
@table @option |
|
@item channel |
|
Scalable channel audio representation |
|
@item scene |
|
Ambisonics representation |
|
@end table |
|
|
|
@item demixing |
|
Demixing information used to reconstruct a scalable channel audio representation. |
|
This option must be separated from the rest with a ',', and takes the following |
|
key=value options |
|
|
|
@table @option |
|
@item parameter_id |
|
An identifier parameters blocks in frames may refer to |
|
@item dmixp_mode |
|
A pre-defined combination of demixing parameters |
|
@end table |
|
|
|
@item recon_gain |
|
Recon gain information used to reconstruct a scalable channel audio representation. |
|
This option must be separated from the rest with a ',', and takes the following |
|
key=value options |
|
|
|
@table @option |
|
@item parameter_id |
|
An identifier parameters blocks in frames may refer to |
|
@end table |
|
|
|
@item layer |
|
A layer defining a Channel Layout in the Audio Element. |
|
This option must be separated from the rest with a ','. Several ',' separated entries |
|
can be defined, and at least one must be set. |
|
|
|
It takes the following ":"-separated key=value options |
|
|
|
@table @option |
|
@item ch_layout |
|
The layer's channel layout |
|
@item flags |
|
The following flags are available: |
|
|
|
@table @option |
|
@item recon_gain |
|
Wether to signal if recon_gain is present as metadata in parameter blocks within frames |
|
@end table |
|
|
|
@item output_gain |
|
@item output_gain_flags |
|
Which channels output_gain applies to. The following flags are available: |
|
|
|
@table @option |
|
@item FL |
|
@item FR |
|
@item BL |
|
@item BR |
|
@item TFL |
|
@item TFR |
|
@end table |
|
|
|
@item ambisonics_mode |
|
The ambisonics mode. This has no effect if audio_element_type is set to channel. |
|
|
|
The following values are supported: |
|
|
|
@table @option |
|
@item mono |
|
Each ambisonics channel is coded as an individual mono stream in the group |
|
@end table |
|
|
|
@end table |
|
|
|
@item default_w |
|
Default weight value |
|
|
|
@end table |
|
|
|
@item iamf_mix_presentation |
|
Groups @var{stream}s that belong to all IAMF Audio Element the same |
|
IAMF Mix Presentation references |
|
|
|
For this group @var{type}, the following options are available |
|
|
|
@table @option |
|
@item submix |
|
A sub-mix within the Mix Presentation. |
|
This option must be separated from the rest with a ','. Several ',' separated entries |
|
can be defined, and at least one must be set. |
|
|
|
It takes the following ":"-separated key=value options |
|
|
|
@table @option |
|
@item parameter_id |
|
An identifier parameters blocks in frames may refer to, for post-processing the mixed |
|
audio signal to generate the audio signal for playback |
|
@item parameter_rate |
|
The sample rate duration fields in parameters blocks in frames that refer to this |
|
@var{parameter_id} are expressed as |
|
@item default_mix_gain |
|
Default mix gain value to apply when there are no parameter blocks sharing the same |
|
@var{parameter_id} for a given frame |
|
|
|
@item element |
|
References an Audio Element used in this Mix Presentation to generate the final output |
|
audio signal for playback. |
|
This option must be separated from the rest with a '|'. Several '|' separated entries |
|
can be defined, and at least one must be set. |
|
|
|
It takes the following ":"-separated key=value options: |
|
|
|
@table @option |
|
@item stg |
|
The @var{stream_group_id} for an Audio Element which this sub-mix refers to |
|
@item parameter_id |
|
An identifier parameters blocks in frames may refer to, for applying any processing to |
|
the referenced and rendered Audio Element before being summed with other processed Audio |
|
Elements |
|
@item parameter_rate |
|
The sample rate duration fields in parameters blocks in frames that refer to this |
|
@var{parameter_id} are expressed as |
|
@item default_mix_gain |
|
Default mix gain value to apply when there are no parameter blocks sharing the same |
|
@var{parameter_id} for a given frame |
|
@item annotations |
|
A key=value string describing the sub-mix element where "key" is a string conforming to |
|
BCP-47 that specifies the language for the "value" string. "key" must be the same as the |
|
one in the mix's @var{annotations} |
|
@item headphones_rendering_mode |
|
Indicates whether the input channel-based Audio Element is rendered to stereo loudspeakers |
|
or spatialized with a binaural renderer when played back on headphones. |
|
This has no effect if the referenced Audio Element's @var{audio_element_type} is set to |
|
channel. |
|
|
|
The following values are supported: |
|
|
|
@table @option |
|
@item stereo |
|
@item binaural |
|
@end table |
|
|
|
@end table |
|
|
|
@item layout |
|
Specifies the layouts for this sub-mix on which the loudness information was measured. |
|
This option must be separated from the rest with a '|'. Several '|' separated entries |
|
can be defined, and at least one must be set. |
|
|
|
It takes the following ":"-separated key=value options: |
|
|
|
@table @option |
|
@item layout_type |
|
|
|
@table @option |
|
@item loudspeakers |
|
The layout follows the loudspeaker sound system convention of ITU-2051-3. |
|
@item binaural |
|
The layout is binaural. |
|
@end table |
|
|
|
@item sound_system |
|
Channel layout matching one of Sound Systems A to J of ITU-2051-3, plus 7.1.2 and 3.1.2 |
|
This has no effect if @var{layout_type} is set to binaural. |
|
@item integrated_loudness |
|
The program integrated loudness information, as defined in ITU-1770-4. |
|
@item digital_peak |
|
The digital (sampled) peak value of the audio signal, as defined in ITU-1770-4. |
|
@item true_peak |
|
The true peak of the audio signal, as defined in ITU-1770-4. |
|
@item dialog_anchored_loudness |
|
The Dialogue loudness information, as defined in ITU-1770-4. |
|
@item album_anchored_loudness |
|
The Album loudness information, as defined in ITU-1770-4. |
|
@end table |
|
|
|
@end table |
|
|
|
@item annotations |
|
A key=value string string describing the mix where "key" is a string conforming to BCP-47 |
|
that specifies the language for the "value" string. "key" must be the same as the ones in |
|
all sub-mix element's @var{annotations}s |
|
@end table |
|
|
|
@end table |
|
|
|
E.g. to create an scalable 5.1 IAMF file from several WAV input files |
|
@example |
|
ffmpeg -i front.wav -i back.wav -i center.wav -i lfe.wav |
|
-map 0:0 -map 1:0 -map 2:0 -map 3:0 -c:a opus |
|
-stream_group type=iamf_audio_element:id=1:st=0:st=1:st=2:st=3, |
|
demixing=parameter_id=998, |
|
recon_gain=parameter_id=101, |
|
layer=ch_layout=stereo, |
|
layer=ch_layout=5.1, |
|
-stream_group type=iamf_mix_presentation:id=2:stg=0:annotations=en-us=Mix_Presentation, |
|
submix=parameter_id=100:parameter_rate=48000|element=stg=0:parameter_id=100:annotations=en-us=Scalable_Submix|layout=sound_system=stereo|layout=sound_system=5.1 |
|
-streamid 0:0 -streamid 1:1 -streamid 2:2 -streamid 3:3 output.iamf |
|
@end example |
|
|
|
To copy the two stream groups (Audio Element and Mix Presentation) from an input IAMF file with four |
|
streams into an mp4 output |
|
@example |
|
ffmpeg -i input.iamf -c:a copy -stream_group map=0=0:st=0:st=1:st=2:st=3 -stream_group map=0=1:stg=0 |
|
-streamid 0:0 -streamid 1:1 -streamid 2:2 -streamid 3:3 output.mp4 |
|
@end example |
|
|
|
@item -target @var{type} (@emph{output}) |
|
Specify target file type (@code{vcd}, @code{svcd}, @code{dvd}, @code{dv}, |
|
@code{dv50}). @var{type} may be prefixed with @code{pal-}, @code{ntsc-} or |
|
@code{film-} to use the corresponding standard. All the format options |
|
(bitrate, codecs, buffer sizes) are then set automatically. You can just type: |
|
|
|
@example |
|
ffmpeg -i myfile.avi -target vcd /tmp/vcd.mpg |
|
@end example |
|
|
|
Nevertheless you can specify additional options as long as you know |
|
they do not conflict with the standard, as in: |
|
|
|
@example |
|
ffmpeg -i myfile.avi -target vcd -bf 2 /tmp/vcd.mpg |
|
@end example |
|
|
|
The parameters set for each target are as follows. |
|
|
|
@strong{VCD} |
|
@example |
|
@var{pal}: |
|
-f vcd -muxrate 1411200 -muxpreload 0.44 -packetsize 2324 |
|
-s 352x288 -r 25 |
|
-codec:v mpeg1video -g 15 -b:v 1150k -maxrate:v 1150k -minrate:v 1150k -bufsize:v 327680 |
|
-ar 44100 -ac 2 |
|
-codec:a mp2 -b:a 224k |
|
|
|
@var{ntsc}: |
|
-f vcd -muxrate 1411200 -muxpreload 0.44 -packetsize 2324 |
|
-s 352x240 -r 30000/1001 |
|
-codec:v mpeg1video -g 18 -b:v 1150k -maxrate:v 1150k -minrate:v 1150k -bufsize:v 327680 |
|
-ar 44100 -ac 2 |
|
-codec:a mp2 -b:a 224k |
|
|
|
@var{film}: |
|
-f vcd -muxrate 1411200 -muxpreload 0.44 -packetsize 2324 |
|
-s 352x240 -r 24000/1001 |
|
-codec:v mpeg1video -g 18 -b:v 1150k -maxrate:v 1150k -minrate:v 1150k -bufsize:v 327680 |
|
-ar 44100 -ac 2 |
|
-codec:a mp2 -b:a 224k |
|
@end example |
|
|
|
@strong{SVCD} |
|
@example |
|
@var{pal}: |
|
-f svcd -packetsize 2324 |
|
-s 480x576 -pix_fmt yuv420p -r 25 |
|
-codec:v mpeg2video -g 15 -b:v 2040k -maxrate:v 2516k -minrate:v 0 -bufsize:v 1835008 -scan_offset 1 |
|
-ar 44100 |
|
-codec:a mp2 -b:a 224k |
|
|
|
@var{ntsc}: |
|
-f svcd -packetsize 2324 |
|
-s 480x480 -pix_fmt yuv420p -r 30000/1001 |
|
-codec:v mpeg2video -g 18 -b:v 2040k -maxrate:v 2516k -minrate:v 0 -bufsize:v 1835008 -scan_offset 1 |
|
-ar 44100 |
|
-codec:a mp2 -b:a 224k |
|
|
|
@var{film}: |
|
-f svcd -packetsize 2324 |
|
-s 480x480 -pix_fmt yuv420p -r 24000/1001 |
|
-codec:v mpeg2video -g 18 -b:v 2040k -maxrate:v 2516k -minrate:v 0 -bufsize:v 1835008 -scan_offset 1 |
|
-ar 44100 |
|
-codec:a mp2 -b:a 224k |
|
@end example |
|
|
|
@strong{DVD} |
|
@example |
|
@var{pal}: |
|
-f dvd -muxrate 10080k -packetsize 2048 |
|
-s 720x576 -pix_fmt yuv420p -r 25 |
|
-codec:v mpeg2video -g 15 -b:v 6000k -maxrate:v 9000k -minrate:v 0 -bufsize:v 1835008 |
|
-ar 48000 |
|
-codec:a ac3 -b:a 448k |
|
|
|
@var{ntsc}: |
|
-f dvd -muxrate 10080k -packetsize 2048 |
|
-s 720x480 -pix_fmt yuv420p -r 30000/1001 |
|
-codec:v mpeg2video -g 18 -b:v 6000k -maxrate:v 9000k -minrate:v 0 -bufsize:v 1835008 |
|
-ar 48000 |
|
-codec:a ac3 -b:a 448k |
|
|
|
@var{film}: |
|
-f dvd -muxrate 10080k -packetsize 2048 |
|
-s 720x480 -pix_fmt yuv420p -r 24000/1001 |
|
-codec:v mpeg2video -g 18 -b:v 6000k -maxrate:v 9000k -minrate:v 0 -bufsize:v 1835008 |
|
-ar 48000 |
|
-codec:a ac3 -b:a 448k |
|
@end example |
|
|
|
@strong{DV} |
|
@example |
|
@var{pal}: |
|
-f dv |
|
-s 720x576 -pix_fmt yuv420p -r 25 |
|
-ar 48000 -ac 2 |
|
|
|
@var{ntsc}: |
|
-f dv |
|
-s 720x480 -pix_fmt yuv411p -r 30000/1001 |
|
-ar 48000 -ac 2 |
|
|
|
@var{film}: |
|
-f dv |
|
-s 720x480 -pix_fmt yuv411p -r 24000/1001 |
|
-ar 48000 -ac 2 |
|
@end example |
|
The @code{dv50} target is identical to the @code{dv} target except that the pixel format set is @code{yuv422p} for all three standards. |
|
|
|
Any user-set value for a parameter above will override the target preset value. In that case, the output may |
|
not comply with the target standard. |
|
|
|
@item -dn (@emph{input/output}) |
|
As an input option, blocks all data streams of a file from being filtered or |
|
being automatically selected or mapped for any output. See @code{-discard} |
|
option to disable streams individually. |
|
|
|
As an output option, disables data recording i.e. automatic selection or |
|
mapping of any data stream. For full manual control see the @code{-map} |
|
option. |
|
|
|
@item -dframes @var{number} (@emph{output}) |
|
Set the number of data frames to output. This is an obsolete alias for |
|
@code{-frames:d}, which you should use instead. |
|
|
|
@item -frames[:@var{stream_specifier}] @var{framecount} (@emph{output,per-stream}) |
|
Stop writing to the stream after @var{framecount} frames. |
|
|
|
@item -q[:@var{stream_specifier}] @var{q} (@emph{output,per-stream}) |
|
@itemx -qscale[:@var{stream_specifier}] @var{q} (@emph{output,per-stream}) |
|
Use fixed quality scale (VBR). The meaning of @var{q}/@var{qscale} is |
|
codec-dependent. |
|
If @var{qscale} is used without a @var{stream_specifier} then it applies only |
|
to the video stream, this is to maintain compatibility with previous behavior |
|
and as specifying the same codec specific value to 2 different codecs that is |
|
audio and video generally is not what is intended when no stream_specifier is |
|
used. |
|
|
|
@anchor{filter_option} |
|
@item -filter[:@var{stream_specifier}] @var{filtergraph} (@emph{output,per-stream}) |
|
Create the filtergraph specified by @var{filtergraph} and use it to |
|
filter the stream. |
|
|
|
@var{filtergraph} is a description of the filtergraph to apply to |
|
the stream, and must have a single input and a single output of the |
|
same type of the stream. In the filtergraph, the input is associated |
|
to the label @code{in}, and the output to the label @code{out}. See |
|
the ffmpeg-filters manual for more information about the filtergraph |
|
syntax. |
|
|
|
See the @ref{filter_complex_option,,-filter_complex option} if you |
|
want to create filtergraphs with multiple inputs and/or outputs. |
|
|
|
@item -reinit_filter[:@var{stream_specifier}] @var{integer} (@emph{input,per-stream}) |
|
This boolean option determines if the filtergraph(s) to which this stream is fed gets |
|
reinitialized when input frame parameters change mid-stream. This option is enabled by |
|
default as most video and all audio filters cannot handle deviation in input frame properties. |
|
Upon reinitialization, existing filter state is lost, like e.g. the frame count @code{n} |
|
reference available in some filters. Any frames buffered at time of reinitialization are lost. |
|
The properties where a change triggers reinitialization are, |
|
for video, frame resolution or pixel format; |
|
for audio, sample format, sample rate, channel count or channel layout. |
|
|
|
@item -filter_threads @var{nb_threads} (@emph{global}) |
|
Defines how many threads are used to process a filter pipeline. Each pipeline |
|
will produce a thread pool with this many threads available for parallel processing. |
|
The default is the number of available CPUs. |
|
|
|
@item -pre[:@var{stream_specifier}] @var{preset_name} (@emph{output,per-stream}) |
|
Specify the preset for matching stream(s). |
|
|
|
@item -stats (@emph{global}) |
|
Log encoding progress/statistics as "info"-level log (see @code{-loglevel}). |
|
It is on by default, to explicitly disable it you need to specify @code{-nostats}. |
|
|
|
@item -stats_period @var{time} (@emph{global}) |
|
Set period at which encoding progress/statistics are updated. Default is 0.5 seconds. |
|
|
|
@item -progress @var{url} (@emph{global}) |
|
Send program-friendly progress information to @var{url}. |
|
|
|
Progress information is written periodically and at the end of |
|
the encoding process. It is made of "@var{key}=@var{value}" lines. @var{key} |
|
consists of only alphanumeric characters. The last key of a sequence of |
|
progress information is always "progress" with the value "continue" or "end". |
|
|
|
The update period is set using @code{-stats_period}. |
|
|
|
For example, log progress information to stdout: |
|
|
|
@example |
|
ffmpeg -progress pipe:1 -i in.mkv out.mkv |
|
@end example |
|
|
|
@anchor{stdin option} |
|
@item -stdin |
|
Enable interaction on standard input. On by default unless standard input is |
|
used as an input. To explicitly disable interaction you need to specify |
|
@code{-nostdin}. |
|
|
|
Disabling interaction on standard input is useful, for example, if |
|
ffmpeg is in the background process group. Roughly the same result can |
|
be achieved with @code{ffmpeg ... < /dev/null} but it requires a |
|
shell. |
|
|
|
@item -debug_ts (@emph{global}) |
|
Print timestamp/latency information. It is off by default. This option is |
|
mostly useful for testing and debugging purposes, and the output |
|
format may change from one version to another, so it should not be |
|
employed by portable scripts. |
|
|
|
See also the option @code{-fdebug ts}. |
|
|
|
@item -attach @var{filename} (@emph{output}) |
|
Add an attachment to the output file. This is supported by a few formats |
|
like Matroska for e.g. fonts used in rendering subtitles. Attachments |
|
are implemented as a specific type of stream, so this option will add |
|
a new stream to the file. It is then possible to use per-stream options |
|
on this stream in the usual way. Attachment streams created with this |
|
option will be created after all the other streams (i.e. those created |
|
with @code{-map} or automatic mappings). |
|
|
|
Note that for Matroska you also have to set the mimetype metadata tag: |
|
@example |
|
ffmpeg -i INPUT -attach DejaVuSans.ttf -metadata:s:2 mimetype=application/x-truetype-font out.mkv |
|
@end example |
|
(assuming that the attachment stream will be third in the output file). |
|
|
|
@item -dump_attachment[:@var{stream_specifier}] @var{filename} (@emph{input,per-stream}) |
|
Extract the matching attachment stream into a file named @var{filename}. If |
|
@var{filename} is empty, then the value of the @code{filename} metadata tag |
|
will be used. |
|
|
|
E.g. to extract the first attachment to a file named 'out.ttf': |
|
@example |
|
ffmpeg -dump_attachment:t:0 out.ttf -i INPUT |
|
@end example |
|
To extract all attachments to files determined by the @code{filename} tag: |
|
@example |
|
ffmpeg -dump_attachment:t "" -i INPUT |
|
@end example |
|
|
|
Technical note -- attachments are implemented as codec extradata, so this |
|
option can actually be used to extract extradata from any stream, not just |
|
attachments. |
|
@end table |
|
|
|
@section Video Options |
|
|
|
@table @option |
|
@item -vframes @var{number} (@emph{output}) |
|
Set the number of video frames to output. This is an obsolete alias for |
|
@code{-frames:v}, which you should use instead. |
|
@item -r[:@var{stream_specifier}] @var{fps} (@emph{input/output,per-stream}) |
|
Set frame rate (Hz value, fraction or abbreviation). |
|
|
|
As an input option, ignore any timestamps stored in the file and instead |
|
generate timestamps assuming constant frame rate @var{fps}. |
|
This is not the same as the @option{-framerate} option used for some input formats |
|
like image2 or v4l2 (it used to be the same in older versions of FFmpeg). |
|
If in doubt use @option{-framerate} instead of the input option @option{-r}. |
|
|
|
As an output option: |
|
@table @option |
|
@item video encoding |
|
Duplicate or drop frames right before encoding them to achieve constant output |
|
frame rate @var{fps}. |
|
|
|
@item video streamcopy |
|
Indicate to the muxer that @var{fps} is the stream frame rate. No data is |
|
dropped or duplicated in this case. This may produce invalid files if @var{fps} |
|
does not match the actual stream frame rate as determined by packet timestamps. |
|
See also the @code{setts} bitstream filter. |
|
|
|
@end table |
|
|
|
@item -fpsmax[:@var{stream_specifier}] @var{fps} (@emph{output,per-stream}) |
|
Set maximum frame rate (Hz value, fraction or abbreviation). |
|
|
|
Clamps output frame rate when output framerate is auto-set and is higher than this value. |
|
Useful in batch processing or when input framerate is wrongly detected as very high. |
|
It cannot be set together with @code{-r}. It is ignored during streamcopy. |
|
|
|
@item -s[:@var{stream_specifier}] @var{size} (@emph{input/output,per-stream}) |
|
Set frame size. |
|
|
|
As an input option, this is a shortcut for the @option{video_size} private |
|
option, recognized by some demuxers for which the frame size is either not |
|
stored in the file or is configurable -- e.g. raw video or video grabbers. |
|
|
|
As an output option, this inserts the @code{scale} video filter to the |
|
@emph{end} of the corresponding filtergraph. Please use the @code{scale} filter |
|
directly to insert it at the beginning or some other place. |
|
|
|
The format is @samp{wxh} (default - same as source). |
|
|
|
@item -aspect[:@var{stream_specifier}] @var{aspect} (@emph{output,per-stream}) |
|
Set the video display aspect ratio specified by @var{aspect}. |
|
|
|
@var{aspect} can be a floating point number string, or a string of the |
|
form @var{num}:@var{den}, where @var{num} and @var{den} are the |
|
numerator and denominator of the aspect ratio. For example "4:3", |
|
"16:9", "1.3333", and "1.7777" are valid argument values. |
|
|
|
If used together with @option{-vcodec copy}, it will affect the aspect ratio |
|
stored at container level, but not the aspect ratio stored in encoded |
|
frames, if it exists. |
|
|
|
@item -display_rotation[:@var{stream_specifier}] @var{rotation} (@emph{input,per-stream}) |
|
Set video rotation metadata. |
|
|
|
@var{rotation} is a decimal number specifying the amount in degree by |
|
which the video should be rotated counter-clockwise before being |
|
displayed. |
|
|
|
This option overrides the rotation/display transform metadata stored in |
|
the file, if any. When the video is being transcoded (rather than |
|
copied) and @code{-autorotate} is enabled, the video will be rotated at |
|
the filtering stage. Otherwise, the metadata will be written into the |
|
output file if the muxer supports it. |
|
|
|
If the @code{-display_hflip} and/or @code{-display_vflip} options are |
|
given, they are applied after the rotation specified by this option. |
|
|
|
@item -display_hflip[:@var{stream_specifier}] (@emph{input,per-stream}) |
|
Set whether on display the image should be horizontally flipped. |
|
|
|
See the @code{-display_rotation} option for more details. |
|
|
|
@item -display_vflip[:@var{stream_specifier}] (@emph{input,per-stream}) |
|
Set whether on display the image should be vertically flipped. |
|
|
|
See the @code{-display_rotation} option for more details. |
|
|
|
@item -vn (@emph{input/output}) |
|
As an input option, blocks all video streams of a file from being filtered or |
|
being automatically selected or mapped for any output. See @code{-discard} |
|
option to disable streams individually. |
|
|
|
As an output option, disables video recording i.e. automatic selection or |
|
mapping of any video stream. For full manual control see the @code{-map} |
|
option. |
|
|
|
@item -vcodec @var{codec} (@emph{output}) |
|
Set the video codec. This is an alias for @code{-codec:v}. |
|
|
|
@item -pass[:@var{stream_specifier}] @var{n} (@emph{output,per-stream}) |
|
Select the pass number (1 or 2). It is used to do two-pass |
|
video encoding. The statistics of the video are recorded in the first |
|
pass into a log file (see also the option -passlogfile), |
|
and in the second pass that log file is used to generate the video |
|
at the exact requested bitrate. |
|
On pass 1, you may just deactivate audio and set output to null, |
|
examples for Windows and Unix: |
|
@example |
|
ffmpeg -i foo.mov -c:v libxvid -pass 1 -an -f rawvideo -y NUL |
|
ffmpeg -i foo.mov -c:v libxvid -pass 1 -an -f rawvideo -y /dev/null |
|
@end example |
|
|
|
@item -passlogfile[:@var{stream_specifier}] @var{prefix} (@emph{output,per-stream}) |
|
Set two-pass log file name prefix to @var{prefix}, the default file name |
|
prefix is ``ffmpeg2pass''. The complete file name will be |
|
@file{PREFIX-N.log}, where N is a number specific to the output |
|
stream |
|
|
|
@item -vf @var{filtergraph} (@emph{output}) |
|
Create the filtergraph specified by @var{filtergraph} and use it to |
|
filter the stream. |
|
|
|
This is an alias for @code{-filter:v}, see the @ref{filter_option,,-filter option}. |
|
|
|
@item -autorotate |
|
Automatically rotate the video according to file metadata. Enabled by |
|
default, use @option{-noautorotate} to disable it. |
|
|
|
@item -autoscale |
|
Automatically scale the video according to the resolution of first frame. |
|
Enabled by default, use @option{-noautoscale} to disable it. When autoscale is |
|
disabled, all output frames of filter graph might not be in the same resolution |
|
and may be inadequate for some encoder/muxer. Therefore, it is not recommended |
|
to disable it unless you really know what you are doing. |
|
Disable autoscale at your own risk. |
|
@end table |
|
|
|
@section Advanced Video options |
|
|
|
@table @option |
|
@item -pix_fmt[:@var{stream_specifier}] @var{format} (@emph{input/output,per-stream}) |
|
Set pixel format. Use @code{-pix_fmts} to show all the supported |
|
pixel formats. |
|
If the selected pixel format can not be selected, ffmpeg will print a |
|
warning and select the best pixel format supported by the encoder. |
|
If @var{pix_fmt} is prefixed by a @code{+}, ffmpeg will exit with an error |
|
if the requested pixel format can not be selected, and automatic conversions |
|
inside filtergraphs are disabled. |
|
If @var{pix_fmt} is a single @code{+}, ffmpeg selects the same pixel format |
|
as the input (or graph output) and automatic conversions are disabled. |
|
|
|
@item -sws_flags @var{flags} (@emph{input/output}) |
|
Set default flags for the libswscale library. These flags are used by |
|
automatically inserted @code{scale} filters and those within simple |
|
filtergraphs, if not overridden within the filtergraph definition. |
|
|
|
See the @ref{scaler_options,,ffmpeg-scaler manual,ffmpeg-scaler} for a list |
|
of scaler options. |
|
|
|
@item -rc_override[:@var{stream_specifier}] @var{override} (@emph{output,per-stream}) |
|
Rate control override for specific intervals, formatted as "int,int,int" |
|
list separated with slashes. Two first values are the beginning and |
|
end frame numbers, last one is quantizer to use if positive, or quality |
|
factor if negative. |
|
|
|
@item -vstats |
|
Dump video coding statistics to @file{vstats_HHMMSS.log}. See the |
|
@ref{vstats_file_format,,vstats file format} section for the format description. |
|
|
|
@item -vstats_file @var{file} |
|
Dump video coding statistics to @var{file}. See the |
|
@ref{vstats_file_format,,vstats file format} section for the format description. |
|
|
|
@item -vstats_version @var{file} |
|
Specify which version of the vstats format to use. Default is @code{2}. See the |
|
@ref{vstats_file_format,,vstats file format} section for the format description. |
|
|
|
@item -vtag @var{fourcc/tag} (@emph{output}) |
|
Force video tag/fourcc. This is an alias for @code{-tag:v}. |
|
|
|
@item -force_key_frames[:@var{stream_specifier}] @var{time}[,@var{time}...] (@emph{output,per-stream}) |
|
@item -force_key_frames[:@var{stream_specifier}] expr:@var{expr} (@emph{output,per-stream}) |
|
@item -force_key_frames[:@var{stream_specifier}] source (@emph{output,per-stream}) |
|
|
|
@var{force_key_frames} can take arguments of the following form: |
|
|
|
@table @option |
|
|
|
@item @var{time}[,@var{time}...] |
|
If the argument consists of timestamps, ffmpeg will round the specified times to the nearest |
|
output timestamp as per the encoder time base and force a keyframe at the first frame having |
|
timestamp equal or greater than the computed timestamp. Note that if the encoder time base is too |
|
coarse, then the keyframes may be forced on frames with timestamps lower than the specified time. |
|
The default encoder time base is the inverse of the output framerate but may be set otherwise |
|
via @code{-enc_time_base}. |
|
|
|
If one of the times is "@code{chapters}[@var{delta}]", it is expanded into |
|
the time of the beginning of all chapters in the file, shifted by |
|
@var{delta}, expressed as a time in seconds. |
|
This option can be useful to ensure that a seek point is present at a |
|
chapter mark or any other designated place in the output file. |
|
|
|
For example, to insert a key frame at 5 minutes, plus key frames 0.1 second |
|
before the beginning of every chapter: |
|
@example |
|
-force_key_frames 0:05:00,chapters-0.1 |
|
@end example |
|
|
|
@item expr:@var{expr} |
|
If the argument is prefixed with @code{expr:}, the string @var{expr} |
|
is interpreted like an expression and is evaluated for each frame. A |
|
key frame is forced in case the evaluation is non-zero. |
|
|
|
The expression in @var{expr} can contain the following constants: |
|
@table @option |
|
@item n |
|
the number of current processed frame, starting from 0 |
|
@item n_forced |
|
the number of forced frames |
|
@item prev_forced_n |
|
the number of the previous forced frame, it is @code{NAN} when no |
|
keyframe was forced yet |
|
@item prev_forced_t |
|
the time of the previous forced frame, it is @code{NAN} when no |
|
keyframe was forced yet |
|
@item t |
|
the time of the current processed frame |
|
@end table |
|
|
|
For example to force a key frame every 5 seconds, you can specify: |
|
@example |
|
-force_key_frames expr:gte(t,n_forced*5) |
|
@end example |
|
|
|
To force a key frame 5 seconds after the time of the last forced one, |
|
starting from second 13: |
|
@example |
|
-force_key_frames expr:if(isnan(prev_forced_t),gte(t,13),gte(t,prev_forced_t+5)) |
|
@end example |
|
|
|
@item source |
|
If the argument is @code{source}, ffmpeg will force a key frame if |
|
the current frame being encoded is marked as a key frame in its source. |
|
In cases where this particular source frame has to be dropped, |
|
enforce the next available frame to become a key frame instead. |
|
|
|
@end table |
|
|
|
Note that forcing too many keyframes is very harmful for the lookahead |
|
algorithms of certain encoders: using fixed-GOP options or similar |
|
would be more efficient. |
|
|
|
@item -apply_cropping[:@var{stream_specifier}] @var{source} (@emph{input,per-stream}) |
|
Automatically crop the video after decoding according to file metadata. |
|
Default is @emph{all}. |
|
|
|
@table @option |
|
@item none (0) |
|
Don't apply any cropping metadata. |
|
@item all (1) |
|
Apply both codec and container level croppping. This is the default mode. |
|
@item codec (2) |
|
Apply codec level croppping. |
|
@item container (3) |
|
Apply container level croppping. |
|
@end table |
|
|
|
@item -copyinkf[:@var{stream_specifier}] (@emph{output,per-stream}) |
|
When doing stream copy, copy also non-key frames found at the |
|
beginning. |
|
|
|
@item -init_hw_device @var{type}[=@var{name}][:@var{device}[,@var{key=value}...]] |
|
Initialise a new hardware device of type @var{type} called @var{name}, using the |
|
given device parameters. |
|
If no name is specified it will receive a default name of the form "@var{type}%d". |
|
|
|
The meaning of @var{device} and the following arguments depends on the |
|
device type: |
|
@table @option |
|
|
|
@item cuda |
|
@var{device} is the number of the CUDA device. |
|
|
|
The following options are recognized: |
|
@table @option |
|
@item primary_ctx |
|
If set to 1, uses the primary device context instead of creating a new one. |
|
@end table |
|
|
|
Examples: |
|
@table @emph |
|
@item -init_hw_device cuda:1 |
|
Choose the second device on the system. |
|
|
|
@item -init_hw_device cuda:0,primary_ctx=1 |
|
Choose the first device and use the primary device context. |
|
@end table |
|
|
|
@item dxva2 |
|
@var{device} is the number of the Direct3D 9 display adapter. |
|
|
|
@item d3d11va |
|
@var{device} is the number of the Direct3D 11 display adapter. |
|
If not specified, it will attempt to use the default Direct3D 11 display adapter |
|
or the first Direct3D 11 display adapter whose hardware VendorId is specified |
|
by @samp{vendor_id}. |
|
|
|
Examples: |
|
@table @emph |
|
@item -init_hw_device d3d11va |
|
Create a d3d11va device on the default Direct3D 11 display adapter. |
|
|
|
@item -init_hw_device d3d11va:1 |
|
Create a d3d11va device on the Direct3D 11 display adapter specified by index 1. |
|
|
|
@item -init_hw_device d3d11va:,vendor_id=0x8086 |
|
Create a d3d11va device on the first Direct3D 11 display adapter whose hardware VendorId is 0x8086. |
|
@end table |
|
|
|
@item vaapi |
|
@var{device} is either an X11 display name, a DRM render node or a DirectX adapter index. |
|
If not specified, it will attempt to open the default X11 display (@emph{$DISPLAY}) |
|
and then the first DRM render node (@emph{/dev/dri/renderD128}), or the default |
|
DirectX adapter on Windows. |
|
|
|
The following options are recognized: |
|
@table @option |
|
@item kernel_driver |
|
When @var{device} is not specified, use this option to specify the name of the kernel |
|
driver associated with the desired device. This option is available only when |
|
the hardware acceleration method @emph{drm} and @emph{vaapi} are enabled. |
|
@item vendor_id |
|
When @var{device} and @var{kernel_driver} are not specified, use this option to specify |
|
the vendor id associated with the desired device. This option is available only when the |
|
hardware acceleration method @emph{drm} and @emph{vaapi} are enabled and @emph{kernel_driver} |
|
is not specified. |
|
@end table |
|
|
|
Examples: |
|
@table @emph |
|
@item -init_hw_device vaapi |
|
Create a vaapi device on the default device. |
|
|
|
@item -init_hw_device vaapi:/dev/dri/renderD129 |
|
Create a vaapi device on DRM render node @file{/dev/dri/renderD129}. |
|
|
|
@item -init_hw_device vaapi:1 |
|
Create a vaapi device on DirectX adapter 1. |
|
|
|
@item -init_hw_device vaapi:,kernel_driver=i915 |
|
Create a vaapi device on a device associated with kernel driver @samp{i915}. |
|
|
|
@item -init_hw_device vaapi:,vendor_id=0x8086 |
|
Create a vaapi device on a device associated with vendor id @samp{0x8086}. |
|
@end table |
|
|
|
@item vdpau |
|
@var{device} is an X11 display name. |
|
If not specified, it will attempt to open the default X11 display (@emph{$DISPLAY}). |
|
|
|
@item qsv |
|
@var{device} selects a value in @samp{MFX_IMPL_*}. Allowed values are: |
|
@table @option |
|
@item auto |
|
@item sw |
|
@item hw |
|
@item auto_any |
|
@item hw_any |
|
@item hw2 |
|
@item hw3 |
|
@item hw4 |
|
@end table |
|
If not specified, @samp{auto_any} is used. |
|
(Note that it may be easier to achieve the desired result for QSV by creating the |
|
platform-appropriate subdevice (@samp{dxva2} or @samp{d3d11va} or @samp{vaapi}) and then deriving a |
|
QSV device from that.) |
|
|
|
The following options are recognized: |
|
@table @option |
|
@item child_device |
|
Specify a DRM render node on Linux or DirectX adapter on Windows. |
|
@item child_device_type |
|
Choose platform-appropriate subdevice type. On Windows @samp{d3d11va} is used |
|
as default subdevice type when @code{--enable-libvpl} is specified at configuration time, |
|
@samp{dxva2} is used as default subdevice type when @code{--enable-libmfx} is specified at |
|
configuration time. On Linux user can use @samp{vaapi} only as subdevice type. |
|
@end table |
|
|
|
Examples: |
|
@table @emph |
|
@item -init_hw_device qsv:hw,child_device=/dev/dri/renderD129 |
|
Create a QSV device with @samp{MFX_IMPL_HARDWARE} on DRM render node @file{/dev/dri/renderD129}. |
|
|
|
@item -init_hw_device qsv:hw,child_device=1 |
|
Create a QSV device with @samp{MFX_IMPL_HARDWARE} on DirectX adapter 1. |
|
|
|
@item -init_hw_device qsv:hw,child_device_type=d3d11va |
|
Choose the GPU subdevice with type @samp{d3d11va} and create QSV device with @samp{MFX_IMPL_HARDWARE}. |
|
|
|
@item -init_hw_device qsv:hw,child_device_type=dxva2 |
|
Choose the GPU subdevice with type @samp{dxva2} and create QSV device with @samp{MFX_IMPL_HARDWARE}. |
|
|
|
@item -init_hw_device qsv:hw,child_device=1,child_device_type=d3d11va |
|
Create a QSV device with @samp{MFX_IMPL_HARDWARE} on DirectX adapter 1 with subdevice type @samp{d3d11va}. |
|
|
|
@item -init_hw_device vaapi=va:/dev/dri/renderD129 -init_hw_device qsv=hw1@@@var{va} |
|
Create a VAAPI device called @samp{va} on @file{/dev/dri/renderD129}, then derive a QSV device called @samp{hw1} |
|
from device @samp{va}. |
|
|
|
@end table |
|
|
|
@item opencl |
|
@var{device} selects the platform and device as @emph{platform_index.device_index}. |
|
|
|
The set of devices can also be filtered using the key-value pairs to find only |
|
devices matching particular platform or device strings. |
|
|
|
The strings usable as filters are: |
|
@table @option |
|
@item platform_profile |
|
@item platform_version |
|
@item platform_name |
|
@item platform_vendor |
|
@item platform_extensions |
|
@item device_name |
|
@item device_vendor |
|
@item driver_version |
|
@item device_version |
|
@item device_profile |
|
@item device_extensions |
|
@item device_type |
|
@end table |
|
|
|
The indices and filters must together uniquely select a device. |
|
|
|
Examples: |
|
@table @emph |
|
@item -init_hw_device opencl:0.1 |
|
Choose the second device on the first platform. |
|
|
|
@item -init_hw_device opencl:,device_name=Foo9000 |
|
Choose the device with a name containing the string @emph{Foo9000}. |
|
|
|
@item -init_hw_device opencl:1,device_type=gpu,device_extensions=cl_khr_fp16 |
|
Choose the GPU device on the second platform supporting the @emph{cl_khr_fp16} |
|
extension. |
|
@end table |
|
|
|
@item vulkan |
|
If @var{device} is an integer, it selects the device by its index in a |
|
system-dependent list of devices. If @var{device} is any other string, it |
|
selects the first device with a name containing that string as a substring. |
|
|
|
The following options are recognized: |
|
@table @option |
|
@item debug |
|
If set to 1, enables the validation layer, if installed. |
|
@item linear_images |
|
If set to 1, images allocated by the hwcontext will be linear and locally mappable. |
|
@item instance_extensions |
|
A plus separated list of additional instance extensions to enable. |
|
@item device_extensions |
|
A plus separated list of additional device extensions to enable. |
|
@end table |
|
|
|
Examples: |
|
@table @emph |
|
@item -init_hw_device vulkan:1 |
|
Choose the second device on the system. |
|
|
|
@item -init_hw_device vulkan:RADV |
|
Choose the first device with a name containing the string @emph{RADV}. |
|
|
|
@item -init_hw_device vulkan:0,instance_extensions=VK_KHR_wayland_surface+VK_KHR_xcb_surface |
|
Choose the first device and enable the Wayland and XCB instance extensions. |
|
@end table |
|
|
|
@end table |
|
|
|
@item -init_hw_device @var{type}[=@var{name}]@@@var{source} |
|
Initialise a new hardware device of type @var{type} called @var{name}, |
|
deriving it from the existing device with the name @var{source}. |
|
|
|
@item -init_hw_device list |
|
List all hardware device types supported in this build of ffmpeg. |
|
|
|
@item -filter_hw_device @var{name} |
|
Pass the hardware device called @var{name} to all filters in any filter graph. |
|
This can be used to set the device to upload to with the @code{hwupload} filter, |
|
or the device to map to with the @code{hwmap} filter. Other filters may also |
|
make use of this parameter when they require a hardware device. Note that this |
|
is typically only required when the input is not already in hardware frames - |
|
when it is, filters will derive the device they require from the context of the |
|
frames they receive as input. |
|
|
|
This is a global setting, so all filters will receive the same device. |
|
|
|
@item -hwaccel[:@var{stream_specifier}] @var{hwaccel} (@emph{input,per-stream}) |
|
Use hardware acceleration to decode the matching stream(s). The allowed values |
|
of @var{hwaccel} are: |
|
@table @option |
|
@item none |
|
Do not use any hardware acceleration (the default). |
|
|
|
@item auto |
|
Automatically select the hardware acceleration method. |
|
|
|
@item vdpau |
|
Use VDPAU (Video Decode and Presentation API for Unix) hardware acceleration. |
|
|
|
@item dxva2 |
|
Use DXVA2 (DirectX Video Acceleration) hardware acceleration. |
|
|
|
@item d3d11va |
|
Use D3D11VA (DirectX Video Acceleration) hardware acceleration. |
|
|
|
@item vaapi |
|
Use VAAPI (Video Acceleration API) hardware acceleration. |
|
|
|
@item qsv |
|
Use the Intel QuickSync Video acceleration for video transcoding. |
|
|
|
Unlike most other values, this option does not enable accelerated decoding (that |
|
is used automatically whenever a qsv decoder is selected), but accelerated |
|
transcoding, without copying the frames into the system memory. |
|
|
|
For it to work, both the decoder and the encoder must support QSV acceleration |
|
and no filters must be used. |
|
@end table |
|
|
|
This option has no effect if the selected hwaccel is not available or not |
|
supported by the chosen decoder. |
|
|
|
Note that most acceleration methods are intended for playback and will not be |
|
faster than software decoding on modern CPUs. Additionally, @command{ffmpeg} |
|
will usually need to copy the decoded frames from the GPU memory into the system |
|
memory, resulting in further performance loss. This option is thus mainly |
|
useful for testing. |
|
|
|
@item -hwaccel_device[:@var{stream_specifier}] @var{hwaccel_device} (@emph{input,per-stream}) |
|
Select a device to use for hardware acceleration. |
|
|
|
This option only makes sense when the @option{-hwaccel} option is also specified. |
|
It can either refer to an existing device created with @option{-init_hw_device} |
|
by name, or it can create a new device as if |
|
@samp{-init_hw_device} @var{type}:@var{hwaccel_device} |
|
were called immediately before. |
|
|
|
@item -hwaccels |
|
List all hardware acceleration components enabled in this build of ffmpeg. |
|
Actual runtime availability depends on the hardware and its suitable driver |
|
being installed. |
|
|
|
@item -fix_sub_duration_heartbeat[:@var{stream_specifier}] |
|
Set a specific output video stream as the heartbeat stream according to which |
|
to split and push through currently in-progress subtitle upon receipt of a |
|
random access packet. |
|
|
|
This lowers the latency of subtitles for which the end packet or the following |
|
subtitle has not yet been received. As a drawback, this will most likely lead |
|
to duplication of subtitle events in order to cover the full duration, so |
|
when dealing with use cases where latency of when the subtitle event is passed |
|
on to output is not relevant this option should not be utilized. |
|
|
|
Requires @option{-fix_sub_duration} to be set for the relevant input subtitle |
|
stream for this to have any effect, as well as for the input subtitle stream |
|
having to be directly mapped to the same output in which the heartbeat stream |
|
resides. |
|
|
|
@end table |
|
|
|
@section Audio Options |
|
|
|
@table @option |
|
@item -aframes @var{number} (@emph{output}) |
|
Set the number of audio frames to output. This is an obsolete alias for |
|
@code{-frames:a}, which you should use instead. |
|
@item -ar[:@var{stream_specifier}] @var{freq} (@emph{input/output,per-stream}) |
|
Set the audio sampling frequency. For output streams it is set by |
|
default to the frequency of the corresponding input stream. For input |
|
streams this option only makes sense for audio grabbing devices and raw |
|
demuxers and is mapped to the corresponding demuxer options. |
|
@item -aq @var{q} (@emph{output}) |
|
Set the audio quality (codec-specific, VBR). This is an alias for -q:a. |
|
@item -ac[:@var{stream_specifier}] @var{channels} (@emph{input/output,per-stream}) |
|
Set the number of audio channels. For output streams it is set by |
|
default to the number of input audio channels. For input streams |
|
this option only makes sense for audio grabbing devices and raw demuxers |
|
and is mapped to the corresponding demuxer options. |
|
@item -an (@emph{input/output}) |
|
As an input option, blocks all audio streams of a file from being filtered or |
|
being automatically selected or mapped for any output. See @code{-discard} |
|
option to disable streams individually. |
|
|
|
As an output option, disables audio recording i.e. automatic selection or |
|
mapping of any audio stream. For full manual control see the @code{-map} |
|
option. |
|
@item -acodec @var{codec} (@emph{input/output}) |
|
Set the audio codec. This is an alias for @code{-codec:a}. |
|
@item -sample_fmt[:@var{stream_specifier}] @var{sample_fmt} (@emph{output,per-stream}) |
|
Set the audio sample format. Use @code{-sample_fmts} to get a list |
|
of supported sample formats. |
|
|
|
@item -af @var{filtergraph} (@emph{output}) |
|
Create the filtergraph specified by @var{filtergraph} and use it to |
|
filter the stream. |
|
|
|
This is an alias for @code{-filter:a}, see the @ref{filter_option,,-filter option}. |
|
@end table |
|
|
|
@section Advanced Audio options |
|
|
|
@table @option |
|
@item -atag @var{fourcc/tag} (@emph{output}) |
|
Force audio tag/fourcc. This is an alias for @code{-tag:a}. |
|
@item -ch_layout[:@var{stream_specifier}] @var{layout} (@emph{input/output,per-stream}) |
|
Alias for @code{-channel_layout}. |
|
@item -channel_layout[:@var{stream_specifier}] @var{layout} (@emph{input/output,per-stream}) |
|
Set the audio channel layout. For output streams it is set by default to the |
|
input channel layout. For input streams it overrides the channel layout of the |
|
input. Not all decoders respect the overridden channel layout. This option |
|
also sets the channel layout for audio grabbing devices and raw demuxers |
|
and is mapped to the corresponding demuxer option. |
|
@item -guess_layout_max @var{channels} (@emph{input,per-stream}) |
|
If some input channel layout is not known, try to guess only if it |
|
corresponds to at most the specified number of channels. For example, 2 |
|
tells to @command{ffmpeg} to recognize 1 channel as mono and 2 channels as |
|
stereo but not 6 channels as 5.1. The default is to always try to guess. Use |
|
0 to disable all guessing. Using the @code{-channel_layout} option to |
|
explicitly specify an input layout also disables guessing. |
|
@end table |
|
|
|
@section Subtitle options |
|
|
|
@table @option |
|
@item -scodec @var{codec} (@emph{input/output}) |
|
Set the subtitle codec. This is an alias for @code{-codec:s}. |
|
@item -sn (@emph{input/output}) |
|
As an input option, blocks all subtitle streams of a file from being filtered or |
|
being automatically selected or mapped for any output. See @code{-discard} |
|
option to disable streams individually. |
|
|
|
As an output option, disables subtitle recording i.e. automatic selection or |
|
mapping of any subtitle stream. For full manual control see the @code{-map} |
|
option. |
|
@end table |
|
|
|
@section Advanced Subtitle options |
|
|
|
@table @option |
|
|
|
@item -fix_sub_duration |
|
Fix subtitles durations. For each subtitle, wait for the next packet in the |
|
same stream and adjust the duration of the first to avoid overlap. This is |
|
necessary with some subtitles codecs, especially DVB subtitles, because the |
|
duration in the original packet is only a rough estimate and the end is |
|
actually marked by an empty subtitle frame. Failing to use this option when |
|
necessary can result in exaggerated durations or muxing failures due to |
|
non-monotonic timestamps. |
|
|
|
Note that this option will delay the output of all data until the next |
|
subtitle packet is decoded: it may increase memory consumption and latency a |
|
lot. |
|
|
|
@item -canvas_size @var{size} |
|
Set the size of the canvas used to render subtitles. |
|
|
|
@end table |
|
|
|
@section Advanced options |
|
|
|
@table @option |
|
@item -map [-]@var{input_file_id}[:@var{stream_specifier}][:@var{view_specifier}][?] | @var{[linklabel]} (@emph{output}) |
|
|
|
Create one or more streams in the output file. This option has two forms for |
|
specifying the data source(s): the first selects one or more streams from some |
|
input file (specified with @code{-i}), the second takes an output from some |
|
complex filtergraph (specified with @code{-filter_complex}). |
|
|
|
In the first form, an output stream is created for every stream from the input |
|
file with the index @var{input_file_id}. If @var{stream_specifier} is given, |
|
only those streams that match the specifier are used (see the |
|
@ref{Stream specifiers} section for the @var{stream_specifier} syntax). |
|
|
|
A @code{-} character before the stream identifier creates a "negative" mapping. |
|
It disables matching streams from already created mappings. |
|
|
|
An optional @var{view_specifier} may be given after the stream specifier, which |
|
for multiview video specifies the view to be used. The view specifier may have |
|
one of the following formats: |
|
@table @option |
|
@item view:@var{view_id} |
|
select a view by its ID; @var{view_id} may be set to 'all' to use all the views |
|
interleaved into one stream; |
|
|
|
@item vidx:@var{view_idx} |
|
select a view by its index; i.e. 0 is the base view, 1 is the first non-base |
|
view, etc. |
|
|
|
@item vpos:@var{position} |
|
select a view by its display position; @var{position} may be @code{left} or |
|
@code{right} |
|
@end table |
|
The default for transcoding is to only use the base view, i.e. the equivalent of |
|
@code{vidx:0}. For streamcopy, view specifiers are not supported and all views |
|
are always copied. |
|
|
|
A trailing @code{?} after the stream index will allow the map to be |
|
optional: if the map matches no streams the map will be ignored instead |
|
of failing. Note the map will still fail if an invalid input file index |
|
is used; such as if the map refers to a non-existent input. |
|
|
|
An alternative @var{[linklabel]} form will map outputs from complex filter |
|
graphs (see the @option{-filter_complex} option) to the output file. |
|
@var{linklabel} must correspond to a defined output link label in the graph. |
|
|
|
This option may be specified multiple times, each adding more streams to the |
|
output file. Any given input stream may also be mapped any number of times as a |
|
source for different output streams, e.g. in order to use different encoding |
|
options and/or filters. The streams are created in the output in the same order |
|
in which the @code{-map} options are given on the commandline. |
|
|
|
Using this option disables the default mappings for this output file. |
|
|
|
Examples: |
|
|
|
@table @emph |
|
|
|
@item map everything |
|
To map ALL streams from the first input file to output |
|
@example |
|
ffmpeg -i INPUT -map 0 output |
|
@end example |
|
|
|
@item select specific stream |
|
If you have two audio streams in the first input file, these streams are |
|
identified by @var{0:0} and @var{0:1}. You can use @code{-map} to select which |
|
streams to place in an output file. For example: |
|
@example |
|
ffmpeg -i INPUT -map 0:1 out.wav |
|
@end example |
|
will map the second input stream in @file{INPUT} to the (single) output stream |
|
in @file{out.wav}. |
|
|
|
@item create multiple streams |
|
To select the stream with index 2 from input file @file{a.mov} (specified by the |
|
identifier @var{0:2}), and stream with index 6 from input @file{b.mov} |
|
(specified by the identifier @var{1:6}), and copy them to the output file |
|
@file{out.mov}: |
|
@example |
|
ffmpeg -i a.mov -i b.mov -c copy -map 0:2 -map 1:6 out.mov |
|
@end example |
|
|
|
@item create multiple streams 2 |
|
To select all video and the third audio stream from an input file: |
|
@example |
|
ffmpeg -i INPUT -map 0:v -map 0:a:2 OUTPUT |
|
@end example |
|
|
|
@item negative map |
|
To map all the streams except the second audio, use negative mappings |
|
@example |
|
ffmpeg -i INPUT -map 0 -map -0:a:1 OUTPUT |
|
@end example |
|
|
|
@item optional map |
|
To map the video and audio streams from the first input, and using the |
|
trailing @code{?}, ignore the audio mapping if no audio streams exist in |
|
the first input: |
|
@example |
|
ffmpeg -i INPUT -map 0:v -map 0:a? OUTPUT |
|
@end example |
|
|
|
@item map by language |
|
To pick the English audio stream: |
|
@example |
|
ffmpeg -i INPUT -map 0:m:language:eng OUTPUT |
|
@end example |
|
|
|
@end table |
|
|
|
@item -ignore_unknown |
|
Ignore input streams with unknown type instead of failing if copying |
|
such streams is attempted. |
|
|
|
@item -copy_unknown |
|
Allow input streams with unknown type to be copied instead of failing if copying |
|
such streams is attempted. |
|
|
|
@item -map_metadata[:@var{metadata_spec_out}] @var{infile}[:@var{metadata_spec_in}] (@emph{output,per-metadata}) |
|
Set metadata information of the next output file from @var{infile}. Note that |
|
those are file indices (zero-based), not filenames. |
|
Optional @var{metadata_spec_in/out} parameters specify, which metadata to copy. |
|
A metadata specifier can have the following forms: |
|
@table @option |
|
@item @var{g} |
|
global metadata, i.e. metadata that applies to the whole file |
|
|
|
@item @var{s}[:@var{stream_spec}] |
|
per-stream metadata. @var{stream_spec} is a stream specifier as described |
|
in the @ref{Stream specifiers} chapter. In an input metadata specifier, the first |
|
matching stream is copied from. In an output metadata specifier, all matching |
|
streams are copied to. |
|
|
|
@item @var{c}:@var{chapter_index} |
|
per-chapter metadata. @var{chapter_index} is the zero-based chapter index. |
|
|
|
@item @var{p}:@var{program_index} |
|
per-program metadata. @var{program_index} is the zero-based program index. |
|
@end table |
|
If metadata specifier is omitted, it defaults to global. |
|
|
|
By default, global metadata is copied from the first input file, |
|
per-stream and per-chapter metadata is copied along with streams/chapters. These |
|
default mappings are disabled by creating any mapping of the relevant type. A negative |
|
file index can be used to create a dummy mapping that just disables automatic copying. |
|
|
|
For example to copy metadata from the first stream of the input file to global metadata |
|
of the output file: |
|
@example |
|
ffmpeg -i in.ogg -map_metadata 0:s:0 out.mp3 |
|
@end example |
|
|
|
To do the reverse, i.e. copy global metadata to all audio streams: |
|
@example |
|
ffmpeg -i in.mkv -map_metadata:s:a 0:g out.mkv |
|
@end example |
|
Note that simple @code{0} would work as well in this example, since global |
|
metadata is assumed by default. |
|
|
|
@item -map_chapters @var{input_file_index} (@emph{output}) |
|
Copy chapters from input file with index @var{input_file_index} to the next |
|
output file. If no chapter mapping is specified, then chapters are copied from |
|
the first input file with at least one chapter. Use a negative file index to |
|
disable any chapter copying. |
|
|
|
@item -benchmark (@emph{global}) |
|
Show benchmarking information at the end of an encode. |
|
Shows real, system and user time used and maximum memory consumption. |
|
Maximum memory consumption is not supported on all systems, |
|
it will usually display as 0 if not supported. |
|
@item -benchmark_all (@emph{global}) |
|
Show benchmarking information during the encode. |
|
Shows real, system and user time used in various steps (audio/video encode/decode). |
|
@item -timelimit @var{duration} (@emph{global}) |
|
Exit after ffmpeg has been running for @var{duration} seconds in CPU user time. |
|
@item -dump (@emph{global}) |
|
Dump each input packet to stderr. |
|
@item -hex (@emph{global}) |
|
When dumping packets, also dump the payload. |
|
@item -readrate @var{speed} (@emph{input}) |
|
Limit input read speed. |
|
|
|
Its value is a floating-point positive number which represents the maximum duration of |
|
media, in seconds, that should be ingested in one second of wallclock time. |
|
Default value is zero and represents no imposed limitation on speed of ingestion. |
|
Value @code{1} represents real-time speed and is equivalent to @code{-re}. |
|
|
|
Mainly used to simulate a capture device or live input stream (e.g. when reading from a file). |
|
Should not be used with a low value when input is an actual capture device or live stream as |
|
it may cause packet loss. |
|
|
|
It is useful for when flow speed of output packets is important, such as live streaming. |
|
@item -re (@emph{input}) |
|
Read input at native frame rate. This is equivalent to setting @code{-readrate 1}. |
|
@item -readrate_initial_burst @var{seconds} |
|
Set an initial read burst time, in seconds, after which @option{-re/-readrate} |
|
will be enforced. |
|
@item -vsync @var{parameter} (@emph{global}) |
|
@itemx -fps_mode[:@var{stream_specifier}] @var{parameter} (@emph{output,per-stream}) |
|
Set video sync method / framerate mode. vsync is applied to all output video streams |
|
but can be overridden for a stream by setting fps_mode. vsync is deprecated and will be |
|
removed in the future. |
|
|
|
For compatibility reasons some of the values for vsync can be specified as numbers (shown |
|
in parentheses in the following table). |
|
|
|
@table @option |
|
@item passthrough (0) |
|
Each frame is passed with its timestamp from the demuxer to the muxer. |
|
@item cfr (1) |
|
Frames will be duplicated and dropped to achieve exactly the requested |
|
constant frame rate. |
|
@item vfr (2) |
|
Frames are passed through with their timestamp or dropped so as to |
|
prevent 2 frames from having the same timestamp. |
|
@item auto (-1) |
|
Chooses between cfr and vfr depending on muxer capabilities. This is the |
|
default method. |
|
@end table |
|
|
|
Note that the timestamps may be further modified by the muxer, after this. |
|
For example, in the case that the format option @option{avoid_negative_ts} |
|
is enabled. |
|
|
|
With -map you can select from which stream the timestamps should be |
|
taken. You can leave either video or audio unchanged and sync the |
|
remaining stream(s) to the unchanged one. |
|
|
|
@item -frame_drop_threshold @var{parameter} |
|
Frame drop threshold, which specifies how much behind video frames can |
|
be before they are dropped. In frame rate units, so 1.0 is one frame. |
|
The default is -1.1. One possible usecase is to avoid framedrops in case |
|
of noisy timestamps or to increase frame drop precision in case of exact |
|
timestamps. |
|
|
|
@item -apad @var{parameters} (@emph{output,per-stream}) |
|
Pad the output audio stream(s). This is the same as applying @code{-af apad}. |
|
Argument is a string of filter parameters composed the same as with the @code{apad} filter. |
|
@code{-shortest} must be set for this output for the option to take effect. |
|
|
|
@item -copyts |
|
Do not process input timestamps, but keep their values without trying |
|
to sanitize them. In particular, do not remove the initial start time |
|
offset value. |
|
|
|
Note that, depending on the @option{vsync} option or on specific muxer |
|
processing (e.g. in case the format option @option{avoid_negative_ts} |
|
is enabled) the output timestamps may mismatch with the input |
|
timestamps even when this option is selected. |
|
|
|
@item -start_at_zero |
|
When used with @option{copyts}, shift input timestamps so they start at zero. |
|
|
|
This means that using e.g. @code{-ss 50} will make output timestamps start at |
|
50 seconds, regardless of what timestamp the input file started at. |
|
|
|
@item -copytb @var{mode} |
|
Specify how to set the encoder timebase when stream copying. @var{mode} is an |
|
integer numeric value, and can assume one of the following values: |
|
|
|
@table @option |
|
@item 1 |
|
Use the demuxer timebase. |
|
|
|
The time base is copied to the output encoder from the corresponding input |
|
demuxer. This is sometimes required to avoid non monotonically increasing |
|
timestamps when copying video streams with variable frame rate. |
|
|
|
@item 0 |
|
Use the decoder timebase. |
|
|
|
The time base is copied to the output encoder from the corresponding input |
|
decoder. |
|
|
|
@item -1 |
|
Try to make the choice automatically, in order to generate a sane output. |
|
@end table |
|
|
|
Default value is -1. |
|
|
|
@item -enc_time_base[:@var{stream_specifier}] @var{timebase} (@emph{output,per-stream}) |
|
Set the encoder timebase. @var{timebase} can assume one of the following values: |
|
|
|
@table @option |
|
@item 0 |
|
Assign a default value according to the media type. |
|
|
|
For video - use 1/framerate, for audio - use 1/samplerate. |
|
|
|
@item demux |
|
Use the timebase from the demuxer. |
|
|
|
@item filter |
|
Use the timebase from the filtergraph. |
|
|
|
@item a positive number |
|
Use the provided number as the timebase. |
|
|
|
This field can be provided as a ratio of two integers (e.g. 1:24, 1:48000) |
|
or as a decimal number (e.g. 0.04166, 2.0833e-5) |
|
@end table |
|
|
|
Default value is 0. |
|
|
|
@item -bitexact (@emph{input/output}) |
|
Enable bitexact mode for (de)muxer and (de/en)coder |
|
@item -shortest (@emph{output}) |
|
Finish encoding when the shortest output stream ends. |
|
|
|
Note that this option may require buffering frames, which introduces extra |
|
latency. The maximum amount of this latency may be controlled with the |
|
@code{-shortest_buf_duration} option. |
|
|
|
@item -shortest_buf_duration @var{duration} (@emph{output}) |
|
The @code{-shortest} option may require buffering potentially large amounts |
|
of data when at least one of the streams is "sparse" (i.e. has large gaps |
|
between frames – this is typically the case for subtitles). |
|
|
|
This option controls the maximum duration of buffered frames in seconds. |
|
Larger values may allow the @code{-shortest} option to produce more accurate |
|
results, but increase memory use and latency. |
|
|
|
The default value is 10 seconds. |
|
|
|
@item -dts_delta_threshold @var{threshold} |
|
Timestamp discontinuity delta threshold, expressed as a decimal number |
|
of seconds. |
|
|
|
The timestamp discontinuity correction enabled by this option is only |
|
applied to input formats accepting timestamp discontinuity (for which |
|
the @code{AVFMT_TS_DISCONT} flag is enabled), e.g. MPEG-TS and HLS, and |
|
is automatically disabled when employing the @code{-copyts} option |
|
(unless wrapping is detected). |
|
|
|
If a timestamp discontinuity is detected whose absolute value is |
|
greater than @var{threshold}, ffmpeg will remove the discontinuity by |
|
decreasing/increasing the current DTS and PTS by the corresponding |
|
delta value. |
|
|
|
The default value is 10. |
|
|
|
@item -dts_error_threshold @var{threshold} |
|
Timestamp error delta threshold, expressed as a decimal number of |
|
seconds. |
|
|
|
The timestamp correction enabled by this option is only applied to |
|
input formats not accepting timestamp discontinuity (for which the |
|
@code{AVFMT_TS_DISCONT} flag is not enabled). |
|
|
|
If a timestamp discontinuity is detected whose absolute value is |
|
greater than @var{threshold}, ffmpeg will drop the PTS/DTS timestamp |
|
value. |
|
|
|
The default value is @code{3600*30} (30 hours), which is arbitrarily |
|
picked and quite conservative. |
|
|
|
@item -muxdelay @var{seconds} (@emph{output}) |
|
Set the maximum demux-decode delay. |
|
@item -muxpreload @var{seconds} (@emph{output}) |
|
Set the initial demux-decode delay. |
|
@item -streamid @var{output-stream-index}:@var{new-value} (@emph{output}) |
|
Assign a new stream-id value to an output stream. This option should be |
|
specified prior to the output filename to which it applies. |
|
For the situation where multiple output files exist, a streamid |
|
may be reassigned to a different value. |
|
|
|
For example, to set the stream 0 PID to 33 and the stream 1 PID to 36 for |
|
an output mpegts file: |
|
@example |
|
ffmpeg -i inurl -streamid 0:33 -streamid 1:36 out.ts |
|
@end example |
|
|
|
@item -bsf[:@var{stream_specifier}] @var{bitstream_filters} (@emph{input/output,per-stream}) |
|
Apply bitstream filters to matching streams. The filters are applied to each |
|
packet as it is received from the demuxer (when used as an input option) or |
|
before it is sent to the muxer (when used as an output option). |
|
|
|
@var{bitstream_filters} is a comma-separated list of bitstream filter |
|
specifications, each of the form |
|
@example |
|
@var{filter}[=@var{optname0}=@var{optval0}:@var{optname1}=@var{optval1}:...] |
|
@end example |
|
Any of the ',=:' characters that are to be a part of an option value need to be |
|
escaped with a backslash. |
|
|
|
Use the @code{-bsfs} option to get the list of bitstream filters. |
|
|
|
E.g. |
|
@example |
|
ffmpeg -bsf:v h264_mp4toannexb -i h264.mp4 -c:v copy -an out.h264 |
|
@end example |
|
applies the @code{h264_mp4toannexb} bitstream filter (which converts |
|
MP4-encapsulated H.264 stream to Annex B) to the @emph{input} video stream. |
|
|
|
On the other hand, |
|
@example |
|
ffmpeg -i file.mov -an -vn -bsf:s mov2textsub -c:s copy -f rawvideo sub.txt |
|
@end example |
|
applies the @code{mov2textsub} bitstream filter (which extracts text from MOV |
|
subtitles) to the @emph{output} subtitle stream. Note, however, that since both |
|
examples use @code{-c copy}, it matters little whether the filters are applied |
|
on input or output - that would change if transcoding was happening. |
|
|
|
@item -tag[:@var{stream_specifier}] @var{codec_tag} (@emph{input/output,per-stream}) |
|
Force a tag/fourcc for matching streams. |
|
|
|
@item -timecode @var{hh}:@var{mm}:@var{ss}SEP@var{ff} |
|
Specify Timecode for writing. @var{SEP} is ':' for non drop timecode and ';' |
|
(or '.') for drop. |
|
@example |
|
ffmpeg -i input.mpg -timecode 01:02:03.04 -r 30000/1001 -s ntsc output.mpg |
|
@end example |
|
|
|
@anchor{filter_complex_option} |
|
@item -filter_complex @var{filtergraph} (@emph{global}) |
|
Define a complex filtergraph, i.e. one with arbitrary number of inputs and/or |
|
outputs. For simple graphs -- those with one input and one output of the same |
|
type -- see the @option{-filter} options. @var{filtergraph} is a description of |
|
the filtergraph, as described in the ``Filtergraph syntax'' section of the |
|
ffmpeg-filters manual. This option may be specified multiple times - each use |
|
creates a new complex filtergraph. |
|
|
|
Inputs to a complex filtergraph may come from different source types, |
|
distinguished by the format of the corresponding link label: |
|
@itemize |
|
@item |
|
To connect an input stream, use @code{[file_index:stream_specifier]} (i.e. the |
|
same syntax as @option{-map}). If @var{stream_specifier} matches multiple |
|
streams, the first one will be used. For multiview video, the stream specifier |
|
may be followed by the view specifier, see documentation for the @option{-map} |
|
option for its syntax. |
|
|
|
@item |
|
To connect a loopback decoder use [dec:@var{dec_idx}], where @var{dec_idx} is |
|
the index of the loopback decoder to be connected to given input. For multiview |
|
video, the decoder index may be followed by the view specifier, see |
|
documentation for the @option{-map} option for its syntax. |
|
|
|
@item |
|
To connect an output from another complex filtergraph, use its link label. E.g |
|
the following example: |
|
|
|
@example |
|
ffmpeg -i input.mkv \ |
|
-filter_complex '[0:v]scale=size=hd1080,split=outputs=2[for_enc][orig_scaled]' \ |
|
-c:v libx264 -map '[for_enc]' output.mkv \ |
|
-dec 0:0 \ |
|
-filter_complex '[dec:0][orig_scaled]hstack[stacked]' \ |
|
-map '[stacked]' -c:v ffv1 comparison.mkv |
|
@end example |
|
|
|
reads an input video and |
|
@itemize |
|
@item |
|
(line 2) uses a complex filtergraph with one input and two outputs |
|
to scale the video to 1920x1080 and duplicate the result to both |
|
outputs; |
|
|
|
@item |
|
(line 3) encodes one scaled output with @code{libx264} and writes the result to |
|
@file{output.mkv}; |
|
|
|
@item |
|
(line 4) decodes this encoded stream with a loopback decoder; |
|
|
|
@item |
|
(line 5) places the output of the loopback decoder (i.e. the |
|
@code{libx264}-encoded video) side by side with the scaled original input; |
|
|
|
@item |
|
(line 6) combined video is then losslessly encoded and written into |
|
@file{comparison.mkv}. |
|
|
|
@end itemize |
|
|
|
Note that the two filtergraphs cannot be combined into one, because then there |
|
would be a cycle in the transcoding pipeline (filtergraph output goes to |
|
encoding, from there to decoding, then back to the same graph), and such cycles |
|
are not allowed. |
|
|
|
@end itemize |
|
|
|
An unlabeled input will be connected to the first unused input stream of the |
|
matching type. |
|
|
|
Output link labels are referred to with @option{-map}. Unlabeled outputs are |
|
added to the first output file. |
|
|
|
Note that with this option it is possible to use only lavfi sources without |
|
normal input files. |
|
|
|
For example, to overlay an image over video |
|
@example |
|
ffmpeg -i video.mkv -i image.png -filter_complex '[0:v][1:v]overlay[out]' -map |
|
'[out]' out.mkv |
|
@end example |
|
Here @code{[0:v]} refers to the first video stream in the first input file, |
|
which is linked to the first (main) input of the overlay filter. Similarly the |
|
first video stream in the second input is linked to the second (overlay) input |
|
of overlay. |
|
|
|
Assuming there is only one video stream in each input file, we can omit input |
|
labels, so the above is equivalent to |
|
@example |
|
ffmpeg -i video.mkv -i image.png -filter_complex 'overlay[out]' -map |
|
'[out]' out.mkv |
|
@end example |
|
|
|
Furthermore we can omit the output label and the single output from the filter |
|
graph will be added to the output file automatically, so we can simply write |
|
@example |
|
ffmpeg -i video.mkv -i image.png -filter_complex 'overlay' out.mkv |
|
@end example |
|
|
|
As a special exception, you can use a bitmap subtitle stream as input: it |
|
will be converted into a video with the same size as the largest video in |
|
the file, or 720x576 if no video is present. Note that this is an |
|
experimental and temporary solution. It will be removed once libavfilter has |
|
proper support for subtitles. |
|
|
|
For example, to hardcode subtitles on top of a DVB-T recording stored in |
|
MPEG-TS format, delaying the subtitles by 1 second: |
|
@example |
|
ffmpeg -i input.ts -filter_complex \ |
|
'[#0x2ef] setpts=PTS+1/TB [sub] ; [#0x2d0] [sub] overlay' \ |
|
-sn -map '#0x2dc' output.mkv |
|
@end example |
|
(0x2d0, 0x2dc and 0x2ef are the MPEG-TS PIDs of respectively the video, |
|
audio and subtitles streams; 0:0, 0:3 and 0:7 would have worked too) |
|
|
|
To generate 5 seconds of pure red video using lavfi @code{color} source: |
|
@example |
|
ffmpeg -filter_complex 'color=c=red' -t 5 out.mkv |
|
@end example |
|
|
|
@item -filter_complex_threads @var{nb_threads} (@emph{global}) |
|
Defines how many threads are used to process a filter_complex graph. |
|
Similar to filter_threads but used for @code{-filter_complex} graphs only. |
|
The default is the number of available CPUs. |
|
|
|
@item -lavfi @var{filtergraph} (@emph{global}) |
|
Define a complex filtergraph, i.e. one with arbitrary number of inputs and/or |
|
outputs. Equivalent to @option{-filter_complex}. |
|
|
|
@item -accurate_seek (@emph{input}) |
|
This option enables or disables accurate seeking in input files with the |
|
@option{-ss} option. It is enabled by default, so seeking is accurate when |
|
transcoding. Use @option{-noaccurate_seek} to disable it, which may be useful |
|
e.g. when copying some streams and transcoding the others. |
|
|
|
@item -seek_timestamp (@emph{input}) |
|
This option enables or disables seeking by timestamp in input files with the |
|
@option{-ss} option. It is disabled by default. If enabled, the argument |
|
to the @option{-ss} option is considered an actual timestamp, and is not |
|
offset by the start time of the file. This matters only for files which do |
|
not start from timestamp 0, such as transport streams. |
|
|
|
@item -thread_queue_size @var{size} (@emph{input/output}) |
|
For input, this option sets the maximum number of queued packets when reading |
|
from the file or device. With low latency / high rate live streams, packets may |
|
be discarded if they are not read in a timely manner; setting this value can |
|
force ffmpeg to use a separate input thread and read packets as soon as they |
|
arrive. By default ffmpeg only does this if multiple inputs are specified. |
|
|
|
For output, this option specified the maximum number of packets that may be |
|
queued to each muxing thread. |
|
|
|
@item -sdp_file @var{file} (@emph{global}) |
|
Print sdp information for an output stream to @var{file}. |
|
This allows dumping sdp information when at least one output isn't an |
|
rtp stream. (Requires at least one of the output formats to be rtp). |
|
|
|
@item -discard (@emph{input}) |
|
Allows discarding specific streams or frames from streams. |
|
Any input stream can be fully discarded, using value @code{all} whereas |
|
selective discarding of frames from a stream occurs at the demuxer |
|
and is not supported by all demuxers. |
|
|
|
@table @option |
|
@item none |
|
Discard no frame. |
|
|
|
@item default |
|
Default, which discards no frames. |
|
|
|
@item noref |
|
Discard all non-reference frames. |
|
|
|
@item bidir |
|
Discard all bidirectional frames. |
|
|
|
@item nokey |
|
Discard all frames excepts keyframes. |
|
|
|
@item all |
|
Discard all frames. |
|
@end table |
|
|
|
@item -abort_on @var{flags} (@emph{global}) |
|
Stop and abort on various conditions. The following flags are available: |
|
|
|
@table @option |
|
@item empty_output |
|
No packets were passed to the muxer, the output is empty. |
|
@item empty_output_stream |
|
No packets were passed to the muxer in some of the output streams. |
|
@end table |
|
|
|
@item -max_error_rate (@emph{global}) |
|
Set fraction of decoding frame failures across all inputs which when crossed |
|
ffmpeg will return exit code 69. Crossing this threshold does not terminate |
|
processing. Range is a floating-point number between 0 to 1. Default is 2/3. |
|
|
|
@item -xerror (@emph{global}) |
|
Stop and exit on error |
|
|
|
@item -max_muxing_queue_size @var{packets} (@emph{output,per-stream}) |
|
When transcoding audio and/or video streams, ffmpeg will not begin writing into |
|
the output until it has one packet for each such stream. While waiting for that |
|
to happen, packets for other streams are buffered. This option sets the size of |
|
this buffer, in packets, for the matching output stream. |
|
|
|
The default value of this option should be high enough for most uses, so only |
|
touch this option if you are sure that you need it. |
|
|
|
@item -muxing_queue_data_threshold @var{bytes} (@emph{output,per-stream}) |
|
This is a minimum threshold until which the muxing queue size is not taken into |
|
account. Defaults to 50 megabytes per stream, and is based on the overall size |
|
of packets passed to the muxer. |
|
|
|
@item -auto_conversion_filters (@emph{global}) |
|
Enable automatically inserting format conversion filters in all filter |
|
graphs, including those defined by @option{-vf}, @option{-af}, |
|
@option{-filter_complex} and @option{-lavfi}. If filter format negotiation |
|
requires a conversion, the initialization of the filters will fail. |
|
Conversions can still be performed by inserting the relevant conversion |
|
filter (scale, aresample) in the graph. |
|
On by default, to explicitly disable it you need to specify |
|
@code{-noauto_conversion_filters}. |
|
|
|
@item -bits_per_raw_sample[:@var{stream_specifier}] @var{value} (@emph{output,per-stream}) |
|
Declare the number of bits per raw sample in the given output stream to be |
|
@var{value}. Note that this option sets the information provided to the |
|
encoder/muxer, it does not change the stream to conform to this value. Setting |
|
values that do not match the stream properties may result in encoding failures |
|
or invalid output files. |
|
|
|
@anchor{stats_enc_options} |
|
@item -stats_enc_pre[:@var{stream_specifier}] @var{path} (@emph{output,per-stream}) |
|
@item -stats_enc_post[:@var{stream_specifier}] @var{path} (@emph{output,per-stream}) |
|
@item -stats_mux_pre[:@var{stream_specifier}] @var{path} (@emph{output,per-stream}) |
|
Write per-frame encoding information about the matching streams into the file |
|
given by @var{path}. |
|
|
|
@option{-stats_enc_pre} writes information about raw video or audio frames right |
|
before they are sent for encoding, while @option{-stats_enc_post} writes |
|
information about encoded packets as they are received from the encoder. |
|
@option{-stats_mux_pre} writes information about packets just as they are about to |
|
be sent to the muxer. Every frame or packet produces one line in the specified |
|
file. The format of this line is controlled by @option{-stats_enc_pre_fmt} / |
|
@option{-stats_enc_post_fmt} / @option{-stats_mux_pre_fmt}. |
|
|
|
When stats for multiple streams are written into a single file, the lines |
|
corresponding to different streams will be interleaved. The precise order of |
|
this interleaving is not specified and not guaranteed to remain stable between |
|
different invocations of the program, even with the same options. |
|
|
|
@item -stats_enc_pre_fmt[:@var{stream_specifier}] @var{format_spec} (@emph{output,per-stream}) |
|
@item -stats_enc_post_fmt[:@var{stream_specifier}] @var{format_spec} (@emph{output,per-stream}) |
|
@item -stats_mux_pre_fmt[:@var{stream_specifier}] @var{format_spec} (@emph{output,per-stream}) |
|
Specify the format for the lines written with @option{-stats_enc_pre} / |
|
@option{-stats_enc_post} / @option{-stats_mux_pre}. |
|
|
|
@var{format_spec} is a string that may contain directives of the form |
|
@var{@{fmt@}}. @var{format_spec} is backslash-escaped --- use \@{, \@}, and \\ |
|
to write a literal @{, @}, or \, respectively, into the output. |
|
|
|
The directives given with @var{fmt} may be one of the following: |
|
@table @option |
|
@item fidx |
|
Index of the output file. |
|
|
|
@item sidx |
|
Index of the output stream in the file. |
|
|
|
@item n |
|
Frame number. Pre-encoding: number of frames sent to the encoder so far. |
|
Post-encoding: number of packets received from the encoder so far. |
|
Muxing: number of packets submitted to the muxer for this stream so far. |
|
|
|
@item ni |
|
Input frame number. Index of the input frame (i.e. output by a decoder) that |
|
corresponds to this output frame or packet. -1 if unavailable. |
|
|
|
@item tb |
|
Timebase in which this frame/packet's timestamps are expressed, as a rational |
|
number @var{num/den}. Note that encoder and muxer may use different timebases. |
|
|
|
@item tbi |
|
Timebase for @var{ptsi}, as a rational number @var{num/den}. Available when |
|
@var{ptsi} is available, @var{0/1} otherwise. |
|
|
|
@item pts |
|
Presentation timestamp of the frame or packet, as an integer. Should be |
|
multiplied by the timebase to compute presentation time. |
|
|
|
@item ptsi |
|
Presentation timestamp of the input frame (see @var{ni}), as an integer. Should |
|
be multiplied by @var{tbi} to compute presentation time. Printed as |
|
(2^63 - 1 = 9223372036854775807) when not available. |
|
|
|
@item t |
|
Presentation time of the frame or packet, as a decimal number. Equal to |
|
@var{pts} multiplied by @var{tb}. |
|
|
|
@item ti |
|
Presentation time of the input frame (see @var{ni}), as a decimal number. Equal |
|
to @var{ptsi} multiplied by @var{tbi}. Printed as inf when not available. |
|
|
|
@item dts (@emph{packet}) |
|
Decoding timestamp of the packet, as an integer. Should be multiplied by the |
|
timebase to compute presentation time. |
|
|
|
@item dt (@emph{packet}) |
|
Decoding time of the frame or packet, as a decimal number. Equal to |
|
@var{dts} multiplied by @var{tb}. |
|
|
|
@item sn (@emph{frame,audio}) |
|
Number of audio samples sent to the encoder so far. |
|
|
|
@item samp (@emph{frame,audio}) |
|
Number of audio samples in the frame. |
|
|
|
@item size (@emph{packet}) |
|
Size of the encoded packet in bytes. |
|
|
|
@item br (@emph{packet}) |
|
Current bitrate in bits per second. |
|
|
|
@item abr (@emph{packet}) |
|
Average bitrate for the whole stream so far, in bits per second, -1 if it cannot |
|
be determined at this point. |
|
|
|
@item key (@emph{packet}) |
|
Character 'K' if the packet contains a keyframe, character 'N' otherwise. |
|
@end table |
|
|
|
Directives tagged with @emph{packet} may only be used with |
|
@option{-stats_enc_post_fmt} and @option{-stats_mux_pre_fmt}. |
|
|
|
Directives tagged with @emph{frame} may only be used with |
|
@option{-stats_enc_pre_fmt}. |
|
|
|
Directives tagged with @emph{audio} may only be used with audio streams. |
|
|
|
The default format strings are: |
|
@table @option |
|
@item pre-encoding |
|
@{fidx@} @{sidx@} @{n@} @{t@} |
|
@item post-encoding |
|
@{fidx@} @{sidx@} @{n@} @{t@} |
|
@end table |
|
In the future, new items may be added to the end of the default formatting |
|
strings. Users who depend on the format staying exactly the same, should |
|
prescribe it manually. |
|
|
|
Note that stats for different streams written into the same file may have |
|
different formats. |
|
|
|
@end table |
|
|
|
@section Preset files |
|
A preset file contains a sequence of @var{option}=@var{value} pairs, |
|
one for each line, specifying a sequence of options which would be |
|
awkward to specify on the command line. Lines starting with the hash |
|
('#') character are ignored and are used to provide comments. Check |
|
the @file{presets} directory in the FFmpeg source tree for examples. |
|
|
|
There are two types of preset files: ffpreset and avpreset files. |
|
|
|
@subsection ffpreset files |
|
ffpreset files are specified with the @code{vpre}, @code{apre}, |
|
@code{spre}, and @code{fpre} options. The @code{fpre} option takes the |
|
filename of the preset instead of a preset name as input and can be |
|
used for any kind of codec. For the @code{vpre}, @code{apre}, and |
|
@code{spre} options, the options specified in a preset file are |
|
applied to the currently selected codec of the same type as the preset |
|
option. |
|
|
|
The argument passed to the @code{vpre}, @code{apre}, and @code{spre} |
|
preset options identifies the preset file to use according to the |
|
following rules: |
|
|
|
First ffmpeg searches for a file named @var{arg}.ffpreset in the |
|
directories @file{$FFMPEG_DATADIR} (if set), and @file{$HOME/.ffmpeg}, and in |
|
the datadir defined at configuration time (usually @file{PREFIX/share/ffmpeg}) |
|
or in a @file{ffpresets} folder along the executable on win32, |
|
in that order. For example, if the argument is @code{libvpx-1080p}, it will |
|
search for the file @file{libvpx-1080p.ffpreset}. |
|
|
|
If no such file is found, then ffmpeg will search for a file named |
|
@var{codec_name}-@var{arg}.ffpreset in the above-mentioned |
|
directories, where @var{codec_name} is the name of the codec to which |
|
the preset file options will be applied. For example, if you select |
|
the video codec with @code{-vcodec libvpx} and use @code{-vpre 1080p}, |
|
then it will search for the file @file{libvpx-1080p.ffpreset}. |
|
|
|
@subsection avpreset files |
|
avpreset files are specified with the @code{pre} option. They work similar to |
|
ffpreset files, but they only allow encoder- specific options. Therefore, an |
|
@var{option}=@var{value} pair specifying an encoder cannot be used. |
|
|
|
When the @code{pre} option is specified, ffmpeg will look for files with the |
|
suffix .avpreset in the directories @file{$AVCONV_DATADIR} (if set), and |
|
@file{$HOME/.avconv}, and in the datadir defined at configuration time (usually |
|
@file{PREFIX/share/ffmpeg}), in that order. |
|
|
|
First ffmpeg searches for a file named @var{codec_name}-@var{arg}.avpreset in |
|
the above-mentioned directories, where @var{codec_name} is the name of the codec |
|
to which the preset file options will be applied. For example, if you select the |
|
video codec with @code{-vcodec libvpx} and use @code{-pre 1080p}, then it will |
|
search for the file @file{libvpx-1080p.avpreset}. |
|
|
|
If no such file is found, then ffmpeg will search for a file named |
|
@var{arg}.avpreset in the same directories. |
|
|
|
@anchor{vstats_file_format} |
|
@section vstats file format |
|
The @code{-vstats} and @code{-vstats_file} options enable generation of a file |
|
containing statistics about the generated video outputs. |
|
|
|
The @code{-vstats_version} option controls the format version of the generated |
|
file. |
|
|
|
With version @code{1} the format is: |
|
@example |
|
frame= @var{FRAME} q= @var{FRAME_QUALITY} PSNR= @var{PSNR} f_size= @var{FRAME_SIZE} s_size= @var{STREAM_SIZE}kB time= @var{TIMESTAMP} br= @var{BITRATE}kbits/s avg_br= @var{AVERAGE_BITRATE}kbits/s |
|
@end example |
|
|
|
With version @code{2} the format is: |
|
@example |
|
out= @var{OUT_FILE_INDEX} st= @var{OUT_FILE_STREAM_INDEX} frame= @var{FRAME_NUMBER} q= @var{FRAME_QUALITY}f PSNR= @var{PSNR} f_size= @var{FRAME_SIZE} s_size= @var{STREAM_SIZE}kB time= @var{TIMESTAMP} br= @var{BITRATE}kbits/s avg_br= @var{AVERAGE_BITRATE}kbits/s |
|
@end example |
|
|
|
The value corresponding to each key is described below: |
|
@table @option |
|
@item avg_br |
|
average bitrate expressed in Kbits/s |
|
|
|
@item br |
|
bitrate expressed in Kbits/s |
|
|
|
@item frame |
|
number of encoded frame |
|
|
|
@item out |
|
out file index |
|
|
|
@item PSNR |
|
Peak Signal to Noise Ratio |
|
|
|
@item q |
|
quality of the frame |
|
|
|
@item f_size |
|
encoded packet size expressed as number of bytes |
|
|
|
@item s_size |
|
stream size expressed in KiB |
|
|
|
@item st |
|
out file stream index |
|
|
|
@item time |
|
time of the packet |
|
|
|
@item type |
|
picture type |
|
@end table |
|
|
|
See also the @ref{stats_enc_options,,-stats_enc options} for an alternative way |
|
to show encoding statistics. |
|
|
|
@c man end OPTIONS |
|
|
|
@chapter Examples |
|
@c man begin EXAMPLES |
|
|
|
@section Video and Audio grabbing |
|
|
|
If you specify the input format and device then ffmpeg can grab video |
|
and audio directly. |
|
|
|
@example |
|
ffmpeg -f oss -i /dev/dsp -f video4linux2 -i /dev/video0 /tmp/out.mpg |
|
@end example |
|
|
|
Or with an ALSA audio source (mono input, card id 1) instead of OSS: |
|
@example |
|
ffmpeg -f alsa -ac 1 -i hw:1 -f video4linux2 -i /dev/video0 /tmp/out.mpg |
|
@end example |
|
|
|
Note that you must activate the right video source and channel before |
|
launching ffmpeg with any TV viewer such as |
|
@uref{http://linux.bytesex.org/xawtv/, xawtv} by Gerd Knorr. You also |
|
have to set the audio recording levels correctly with a |
|
standard mixer. |
|
|
|
@section X11 grabbing |
|
|
|
Grab the X11 display with ffmpeg via |
|
|
|
@example |
|
ffmpeg -f x11grab -video_size cif -framerate 25 -i :0.0 /tmp/out.mpg |
|
@end example |
|
|
|
0.0 is display.screen number of your X11 server, same as |
|
the DISPLAY environment variable. |
|
|
|
@example |
|
ffmpeg -f x11grab -video_size cif -framerate 25 -i :0.0+10,20 /tmp/out.mpg |
|
@end example |
|
|
|
0.0 is display.screen number of your X11 server, same as the DISPLAY environment |
|
variable. 10 is the x-offset and 20 the y-offset for the grabbing. |
|
|
|
@section Video and Audio file format conversion |
|
|
|
Any supported file format and protocol can serve as input to ffmpeg: |
|
|
|
Examples: |
|
@itemize |
|
@item |
|
You can use YUV files as input: |
|
|
|
@example |
|
ffmpeg -i /tmp/test%d.Y /tmp/out.mpg |
|
@end example |
|
|
|
It will use the files: |
|
@example |
|
/tmp/test0.Y, /tmp/test0.U, /tmp/test0.V, |
|
/tmp/test1.Y, /tmp/test1.U, /tmp/test1.V, etc... |
|
@end example |
|
|
|
The Y files use twice the resolution of the U and V files. They are |
|
raw files, without header. They can be generated by all decent video |
|
decoders. You must specify the size of the image with the @option{-s} option |
|
if ffmpeg cannot guess it. |
|
|
|
@item |
|
You can input from a raw YUV420P file: |
|
|
|
@example |
|
ffmpeg -i /tmp/test.yuv /tmp/out.avi |
|
@end example |
|
|
|
test.yuv is a file containing raw YUV planar data. Each frame is composed |
|
of the Y plane followed by the U and V planes at half vertical and |
|
horizontal resolution. |
|
|
|
@item |
|
You can output to a raw YUV420P file: |
|
|
|
@example |
|
ffmpeg -i mydivx.avi hugefile.yuv |
|
@end example |
|
|
|
@item |
|
You can set several input files and output files: |
|
|
|
@example |
|
ffmpeg -i /tmp/a.wav -s 640x480 -i /tmp/a.yuv /tmp/a.mpg |
|
@end example |
|
|
|
Converts the audio file a.wav and the raw YUV video file a.yuv |
|
to MPEG file a.mpg. |
|
|
|
@item |
|
You can also do audio and video conversions at the same time: |
|
|
|
@example |
|
ffmpeg -i /tmp/a.wav -ar 22050 /tmp/a.mp2 |
|
@end example |
|
|
|
Converts a.wav to MPEG audio at 22050 Hz sample rate. |
|
|
|
@item |
|
You can encode to several formats at the same time and define a |
|
mapping from input stream to output streams: |
|
|
|
@example |
|
ffmpeg -i /tmp/a.wav -map 0:a -b:a 64k /tmp/a.mp2 -map 0:a -b:a 128k /tmp/b.mp2 |
|
@end example |
|
|
|
Converts a.wav to a.mp2 at 64 kbits and to b.mp2 at 128 kbits. '-map |
|
file:index' specifies which input stream is used for each output |
|
stream, in the order of the definition of output streams. |
|
|
|
@item |
|
You can transcode decrypted VOBs: |
|
|
|
@example |
|
ffmpeg -i snatch_1.vob -f avi -c:v mpeg4 -b:v 800k -g 300 -bf 2 -c:a libmp3lame -b:a 128k snatch.avi |
|
@end example |
|
|
|
This is a typical DVD ripping example; the input is a VOB file, the |
|
output an AVI file with MPEG-4 video and MP3 audio. Note that in this |
|
command we use B-frames so the MPEG-4 stream is DivX5 compatible, and |
|
GOP size is 300 which means one intra frame every 10 seconds for 29.97fps |
|
input video. Furthermore, the audio stream is MP3-encoded so you need |
|
to enable LAME support by passing @code{--enable-libmp3lame} to configure. |
|
The mapping is particularly useful for DVD transcoding |
|
to get the desired audio language. |
|
|
|
NOTE: To see the supported input formats, use @code{ffmpeg -demuxers}. |
|
|
|
@item |
|
You can extract images from a video, or create a video from many images: |
|
|
|
For extracting images from a video: |
|
@example |
|
ffmpeg -i foo.avi -r 1 -s WxH -f image2 foo-%03d.jpeg |
|
@end example |
|
|
|
This will extract one video frame per second from the video and will |
|
output them in files named @file{foo-001.jpeg}, @file{foo-002.jpeg}, |
|
etc. Images will be rescaled to fit the new WxH values. |
|
|
|
If you want to extract just a limited number of frames, you can use the |
|
above command in combination with the @code{-frames:v} or @code{-t} option, |
|
or in combination with -ss to start extracting from a certain point in time. |
|
|
|
For creating a video from many images: |
|
@example |
|
ffmpeg -f image2 -framerate 12 -i foo-%03d.jpeg -s WxH foo.avi |
|
@end example |
|
|
|
The syntax @code{foo-%03d.jpeg} specifies to use a decimal number |
|
composed of three digits padded with zeroes to express the sequence |
|
number. It is the same syntax supported by the C printf function, but |
|
only formats accepting a normal integer are suitable. |
|
|
|
When importing an image sequence, -i also supports expanding |
|
shell-like wildcard patterns (globbing) internally, by selecting the |
|
image2-specific @code{-pattern_type glob} option. |
|
|
|
For example, for creating a video from filenames matching the glob pattern |
|
@code{foo-*.jpeg}: |
|
@example |
|
ffmpeg -f image2 -pattern_type glob -framerate 12 -i 'foo-*.jpeg' -s WxH foo.avi |
|
@end example |
|
|
|
@item |
|
You can put many streams of the same type in the output: |
|
|
|
@example |
|
ffmpeg -i test1.avi -i test2.avi -map 1:1 -map 1:0 -map 0:1 -map 0:0 -c copy -y test12.nut |
|
@end example |
|
|
|
The resulting output file @file{test12.nut} will contain the first four streams |
|
from the input files in reverse order. |
|
|
|
@item |
|
To force CBR video output: |
|
@example |
|
ffmpeg -i myfile.avi -b 4000k -minrate 4000k -maxrate 4000k -bufsize 1835k out.m2v |
|
@end example |
|
|
|
@item |
|
The four options lmin, lmax, mblmin and mblmax use 'lambda' units, |
|
but you may use the QP2LAMBDA constant to easily convert from 'q' units: |
|
@example |
|
ffmpeg -i src.ext -lmax 21*QP2LAMBDA dst.ext |
|
@end example |
|
|
|
@end itemize |
|
@c man end EXAMPLES |
|
|
|
@include config.texi |
|
@ifset config-all |
|
@ifset config-avutil |
|
@include utils.texi |
|
@end ifset |
|
@ifset config-avcodec |
|
@include codecs.texi |
|
@include bitstream_filters.texi |
|
@end ifset |
|
@ifset config-avformat |
|
@include formats.texi |
|
@include protocols.texi |
|
@end ifset |
|
@ifset config-avdevice |
|
@include devices.texi |
|
@end ifset |
|
@ifset config-swresample |
|
@include resampler.texi |
|
@end ifset |
|
@ifset config-swscale |
|
@include scaler.texi |
|
@end ifset |
|
@ifset config-avfilter |
|
@include filters.texi |
|
@end ifset |
|
@include general_contents.texi |
|
@end ifset |
|
|
|
@chapter See Also |
|
|
|
@ifhtml |
|
@ifset config-all |
|
@url{ffmpeg.html,ffmpeg} |
|
@end ifset |
|
@ifset config-not-all |
|
@url{ffmpeg-all.html,ffmpeg-all}, |
|
@end ifset |
|
@url{ffplay.html,ffplay}, @url{ffprobe.html,ffprobe}, |
|
@url{ffmpeg-utils.html,ffmpeg-utils}, |
|
@url{ffmpeg-scaler.html,ffmpeg-scaler}, |
|
@url{ffmpeg-resampler.html,ffmpeg-resampler}, |
|
@url{ffmpeg-codecs.html,ffmpeg-codecs}, |
|
@url{ffmpeg-bitstream-filters.html,ffmpeg-bitstream-filters}, |
|
@url{ffmpeg-formats.html,ffmpeg-formats}, |
|
@url{ffmpeg-devices.html,ffmpeg-devices}, |
|
@url{ffmpeg-protocols.html,ffmpeg-protocols}, |
|
@url{ffmpeg-filters.html,ffmpeg-filters} |
|
@end ifhtml |
|
|
|
@ifnothtml |
|
@ifset config-all |
|
ffmpeg(1), |
|
@end ifset |
|
@ifset config-not-all |
|
ffmpeg-all(1), |
|
@end ifset |
|
ffplay(1), ffprobe(1), |
|
ffmpeg-utils(1), ffmpeg-scaler(1), ffmpeg-resampler(1), |
|
ffmpeg-codecs(1), ffmpeg-bitstream-filters(1), ffmpeg-formats(1), |
|
ffmpeg-devices(1), ffmpeg-protocols(1), ffmpeg-filters(1) |
|
@end ifnothtml |
|
|
|
@include authors.texi |
|
|
|
@ignore |
|
|
|
@setfilename ffmpeg |
|
@settitle ffmpeg media converter |
|
|
|
@end ignore |
|
|
|
@bye
|
|
|