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Address trac ticket #1153.
482 lines
17 KiB
Plaintext
482 lines
17 KiB
Plaintext
@chapter Muxers
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@c man begin MUXERS
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Muxers are configured elements in FFmpeg which allow writing
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multimedia streams to a particular type of file.
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When you configure your FFmpeg build, all the supported muxers
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are enabled by default. You can list all available muxers using the
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configure option @code{--list-muxers}.
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You can disable all the muxers with the configure option
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@code{--disable-muxers} and selectively enable / disable single muxers
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with the options @code{--enable-muxer=@var{MUXER}} /
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@code{--disable-muxer=@var{MUXER}}.
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The option @code{-formats} of the ff* tools will display the list of
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enabled muxers.
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A description of some of the currently available muxers follows.
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@anchor{crc}
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@section crc
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CRC (Cyclic Redundancy Check) testing format.
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This muxer computes and prints the Adler-32 CRC of all the input audio
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and video frames. By default audio frames are converted to signed
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16-bit raw audio and video frames to raw video before computing the
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CRC.
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The output of the muxer consists of a single line of the form:
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CRC=0x@var{CRC}, where @var{CRC} is a hexadecimal number 0-padded to
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8 digits containing the CRC for all the decoded input frames.
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For example to compute the CRC of the input, and store it in the file
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@file{out.crc}:
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@example
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ffmpeg -i INPUT -f crc out.crc
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@end example
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You can print the CRC to stdout with the command:
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@example
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ffmpeg -i INPUT -f crc -
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@end example
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You can select the output format of each frame with @command{ffmpeg} by
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specifying the audio and video codec and format. For example to
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compute the CRC of the input audio converted to PCM unsigned 8-bit
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and the input video converted to MPEG-2 video, use the command:
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@example
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ffmpeg -i INPUT -c:a pcm_u8 -c:v mpeg2video -f crc -
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@end example
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See also the @ref{framecrc} muxer.
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@anchor{framecrc}
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@section framecrc
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Per-packet CRC (Cyclic Redundancy Check) testing format.
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This muxer computes and prints the Adler-32 CRC for each audio
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and video packet. By default audio frames are converted to signed
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16-bit raw audio and video frames to raw video before computing the
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CRC.
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The output of the muxer consists of a line for each audio and video
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packet of the form:
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@example
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@var{stream_index}, @var{packet_dts}, @var{packet_pts}, @var{packet_duration}, @var{packet_size}, 0x@var{CRC}
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@end example
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@var{CRC} is a hexadecimal number 0-padded to 8 digits containing the
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CRC of the packet.
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For example to compute the CRC of the audio and video frames in
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@file{INPUT}, converted to raw audio and video packets, and store it
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in the file @file{out.crc}:
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@example
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ffmpeg -i INPUT -f framecrc out.crc
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@end example
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To print the information to stdout, use the command:
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@example
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ffmpeg -i INPUT -f framecrc -
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@end example
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With @command{ffmpeg}, you can select the output format to which the
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audio and video frames are encoded before computing the CRC for each
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packet by specifying the audio and video codec. For example, to
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compute the CRC of each decoded input audio frame converted to PCM
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unsigned 8-bit and of each decoded input video frame converted to
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MPEG-2 video, use the command:
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@example
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ffmpeg -i INPUT -c:a pcm_u8 -c:v mpeg2video -f framecrc -
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@end example
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See also the @ref{crc} muxer.
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@anchor{framemd5}
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@section framemd5
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Per-packet MD5 testing format.
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This muxer computes and prints the MD5 hash for each audio
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and video packet. By default audio frames are converted to signed
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16-bit raw audio and video frames to raw video before computing the
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hash.
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The output of the muxer consists of a line for each audio and video
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packet of the form:
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@example
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@var{stream_index}, @var{packet_dts}, @var{packet_pts}, @var{packet_duration}, @var{packet_size}, @var{MD5}
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@end example
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@var{MD5} is a hexadecimal number representing the computed MD5 hash
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for the packet.
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For example to compute the MD5 of the audio and video frames in
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@file{INPUT}, converted to raw audio and video packets, and store it
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in the file @file{out.md5}:
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@example
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ffmpeg -i INPUT -f framemd5 out.md5
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@end example
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To print the information to stdout, use the command:
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@example
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ffmpeg -i INPUT -f framemd5 -
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@end example
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See also the @ref{md5} muxer.
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@anchor{image2}
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@section image2
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Image file muxer.
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The image file muxer writes video frames to image files.
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The output filenames are specified by a pattern, which can be used to
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produce sequentially numbered series of files.
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The pattern may contain the string "%d" or "%0@var{N}d", this string
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specifies the position of the characters representing a numbering in
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the filenames. If the form "%0@var{N}d" is used, the string
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representing the number in each filename is 0-padded to @var{N}
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digits. The literal character '%' can be specified in the pattern with
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the string "%%".
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If the pattern contains "%d" or "%0@var{N}d", the first filename of
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the file list specified will contain the number 1, all the following
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numbers will be sequential.
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The pattern may contain a suffix which is used to automatically
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determine the format of the image files to write.
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For example the pattern "img-%03d.bmp" will specify a sequence of
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filenames of the form @file{img-001.bmp}, @file{img-002.bmp}, ...,
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@file{img-010.bmp}, etc.
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The pattern "img%%-%d.jpg" will specify a sequence of filenames of the
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form @file{img%-1.jpg}, @file{img%-2.jpg}, ..., @file{img%-10.jpg},
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etc.
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The following example shows how to use @command{ffmpeg} for creating a
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sequence of files @file{img-001.jpeg}, @file{img-002.jpeg}, ...,
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taking one image every second from the input video:
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@example
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ffmpeg -i in.avi -vsync 1 -r 1 -f image2 'img-%03d.jpeg'
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@end example
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Note that with @command{ffmpeg}, if the format is not specified with the
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@code{-f} option and the output filename specifies an image file
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format, the image2 muxer is automatically selected, so the previous
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command can be written as:
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@example
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ffmpeg -i in.avi -vsync 1 -r 1 'img-%03d.jpeg'
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@end example
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Note also that the pattern must not necessarily contain "%d" or
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"%0@var{N}d", for example to create a single image file
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@file{img.jpeg} from the input video you can employ the command:
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@example
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ffmpeg -i in.avi -f image2 -frames:v 1 img.jpeg
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@end example
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The image muxer supports the .Y.U.V image file format. This format is
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special in that that each image frame consists of three files, for
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each of the YUV420P components. To read or write this image file format,
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specify the name of the '.Y' file. The muxer will automatically open the
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'.U' and '.V' files as required.
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@anchor{md5}
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@section md5
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MD5 testing format.
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This muxer computes and prints the MD5 hash of all the input audio
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and video frames. By default audio frames are converted to signed
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16-bit raw audio and video frames to raw video before computing the
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hash.
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The output of the muxer consists of a single line of the form:
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MD5=@var{MD5}, where @var{MD5} is a hexadecimal number representing
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the computed MD5 hash.
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For example to compute the MD5 hash of the input converted to raw
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audio and video, and store it in the file @file{out.md5}:
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@example
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ffmpeg -i INPUT -f md5 out.md5
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@end example
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You can print the MD5 to stdout with the command:
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@example
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ffmpeg -i INPUT -f md5 -
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@end example
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See also the @ref{framemd5} muxer.
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@section MOV/MP4/ISMV
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The mov/mp4/ismv muxer supports fragmentation. Normally, a MOV/MP4
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file has all the metadata about all packets stored in one location
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(written at the end of the file, it can be moved to the start for
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better playback using the @command{qt-faststart} tool). A fragmented
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file consists of a number of fragments, where packets and metadata
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about these packets are stored together. Writing a fragmented
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file has the advantage that the file is decodable even if the
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writing is interrupted (while a normal MOV/MP4 is undecodable if
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it is not properly finished), and it requires less memory when writing
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very long files (since writing normal MOV/MP4 files stores info about
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every single packet in memory until the file is closed). The downside
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is that it is less compatible with other applications.
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Fragmentation is enabled by setting one of the AVOptions that define
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how to cut the file into fragments:
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@table @option
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@item -moov_size @var{bytes}
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Reserves space for the moov atom at the beginning of the file instead of placing the
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moov atom at the end. If the space reserved is insufficient, muxing will fail.
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@item -movflags frag_keyframe
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Start a new fragment at each video keyframe.
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@item -frag_duration @var{duration}
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Create fragments that are @var{duration} microseconds long.
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@item -frag_size @var{size}
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Create fragments that contain up to @var{size} bytes of payload data.
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@item -movflags frag_custom
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Allow the caller to manually choose when to cut fragments, by
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calling @code{av_write_frame(ctx, NULL)} to write a fragment with
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the packets written so far. (This is only useful with other
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applications integrating libavformat, not from @command{ffmpeg}.)
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@item -min_frag_duration @var{duration}
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Don't create fragments that are shorter than @var{duration} microseconds long.
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@end table
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If more than one condition is specified, fragments are cut when
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one of the specified conditions is fulfilled. The exception to this is
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@code{-min_frag_duration}, which has to be fulfilled for any of the other
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conditions to apply.
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Additionally, the way the output file is written can be adjusted
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through a few other options:
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@table @option
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@item -movflags empty_moov
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Write an initial moov atom directly at the start of the file, without
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describing any samples in it. Generally, an mdat/moov pair is written
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at the start of the file, as a normal MOV/MP4 file, containing only
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a short portion of the file. With this option set, there is no initial
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mdat atom, and the moov atom only describes the tracks but has
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a zero duration.
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Files written with this option set do not work in QuickTime.
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This option is implicitly set when writing ismv (Smooth Streaming) files.
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@item -movflags separate_moof
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Write a separate moof (movie fragment) atom for each track. Normally,
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packets for all tracks are written in a moof atom (which is slightly
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more efficient), but with this option set, the muxer writes one moof/mdat
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pair for each track, making it easier to separate tracks.
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This option is implicitly set when writing ismv (Smooth Streaming) files.
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@end table
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Smooth Streaming content can be pushed in real time to a publishing
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point on IIS with this muxer. Example:
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@example
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ffmpeg -re @var{<normal input/transcoding options>} -movflags isml+frag_keyframe -f ismv http://server/publishingpoint.isml/Streams(Encoder1)
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@end example
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@section mpegts
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MPEG transport stream muxer.
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This muxer implements ISO 13818-1 and part of ETSI EN 300 468.
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The muxer options are:
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@table @option
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@item -mpegts_original_network_id @var{number}
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Set the original_network_id (default 0x0001). This is unique identifier
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of a network in DVB. Its main use is in the unique identification of a
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service through the path Original_Network_ID, Transport_Stream_ID.
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@item -mpegts_transport_stream_id @var{number}
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Set the transport_stream_id (default 0x0001). This identifies a
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transponder in DVB.
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@item -mpegts_service_id @var{number}
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Set the service_id (default 0x0001) also known as program in DVB.
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@item -mpegts_pmt_start_pid @var{number}
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Set the first PID for PMT (default 0x1000, max 0x1f00).
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@item -mpegts_start_pid @var{number}
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Set the first PID for data packets (default 0x0100, max 0x0f00).
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@end table
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The recognized metadata settings in mpegts muxer are @code{service_provider}
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and @code{service_name}. If they are not set the default for
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@code{service_provider} is "FFmpeg" and the default for
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@code{service_name} is "Service01".
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@example
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ffmpeg -i file.mpg -c copy \
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-mpegts_original_network_id 0x1122 \
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-mpegts_transport_stream_id 0x3344 \
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-mpegts_service_id 0x5566 \
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-mpegts_pmt_start_pid 0x1500 \
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-mpegts_start_pid 0x150 \
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-metadata service_provider="Some provider" \
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-metadata service_name="Some Channel" \
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-y out.ts
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@end example
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@section null
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Null muxer.
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This muxer does not generate any output file, it is mainly useful for
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testing or benchmarking purposes.
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For example to benchmark decoding with @command{ffmpeg} you can use the
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command:
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@example
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ffmpeg -benchmark -i INPUT -f null out.null
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@end example
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Note that the above command does not read or write the @file{out.null}
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file, but specifying the output file is required by the @command{ffmpeg}
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syntax.
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Alternatively you can write the command as:
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@example
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ffmpeg -benchmark -i INPUT -f null -
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@end example
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@section matroska
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Matroska container muxer.
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This muxer implements the matroska and webm container specs.
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The recognized metadata settings in this muxer are:
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@table @option
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@item title=@var{title name}
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Name provided to a single track
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@end table
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@table @option
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@item language=@var{language name}
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Specifies the language of the track in the Matroska languages form
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@end table
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@table @option
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@item stereo_mode=@var{mode}
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Stereo 3D video layout of two views in a single video track
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@table @option
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@item mono
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video is not stereo
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@item left_right
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Both views are arranged side by side, Left-eye view is on the left
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@item bottom_top
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Both views are arranged in top-bottom orientation, Left-eye view is at bottom
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@item top_bottom
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Both views are arranged in top-bottom orientation, Left-eye view is on top
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@item checkerboard_rl
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Each view is arranged in a checkerboard interleaved pattern, Left-eye view being first
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@item checkerboard_lr
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Each view is arranged in a checkerboard interleaved pattern, Right-eye view being first
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@item row_interleaved_rl
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Each view is constituted by a row based interleaving, Right-eye view is first row
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@item row_interleaved_lr
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Each view is constituted by a row based interleaving, Left-eye view is first row
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@item col_interleaved_rl
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Both views are arranged in a column based interleaving manner, Right-eye view is first column
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@item col_interleaved_lr
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Both views are arranged in a column based interleaving manner, Left-eye view is first column
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@item anaglyph_cyan_red
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All frames are in anaglyph format viewable through red-cyan filters
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@item right_left
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Both views are arranged side by side, Right-eye view is on the left
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@item anaglyph_green_magenta
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All frames are in anaglyph format viewable through green-magenta filters
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@item block_lr
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Both eyes laced in one Block, Left-eye view is first
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@item block_rl
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Both eyes laced in one Block, Right-eye view is first
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@end table
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@end table
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For example a 3D WebM clip can be created using the following command line:
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@example
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ffmpeg -i sample_left_right_clip.mpg -an -c:v libvpx -metadata stereo_mode=left_right -y stereo_clip.webm
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@end example
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@section segment
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Basic stream segmenter.
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The segmenter muxer outputs streams to a number of separate files of nearly
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fixed duration. Output filename pattern can be set in a fashion similar to
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@ref{image2}.
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Every segment starts with a video keyframe, if a video stream is present.
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The segment muxer works best with a single constant frame rate video.
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Optionally it can generate a flat list of the created segments, one segment
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per line.
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@table @option
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@item segment_format @var{format}
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Override the inner container format, by default it is guessed by the filename
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extension.
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@item segment_time @var{t}
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Set segment duration to @var{t} seconds.
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@item segment_list @var{name}
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Generate also a listfile named @var{name}.
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@item segment_list_size @var{size}
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Overwrite the listfile once it reaches @var{size} entries.
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@item segment_wrap @var{limit}
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Wrap around segment index once it reaches @var{limit}.
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@end table
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@example
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ffmpeg -i in.mkv -c copy -map 0 -f segment -list out.list out%03d.nut
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@end example
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@section mp3
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The MP3 muxer writes a raw MP3 stream with an ID3v2 header at the beginning and
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optionally an ID3v1 tag at the end. ID3v2.3 and ID3v2.4 are supported, the
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@code{id3v2_version} option controls which one is used. The legacy ID3v1 tag is
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not written by default, but may be enabled with the @code{write_id3v1} option.
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For seekable output the muxer also writes a Xing frame at the beginning, which
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contains the number of frames in the file. It is useful for computing duration
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of VBR files.
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The muxer supports writing ID3v2 attached pictures (APIC frames). The pictures
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are supplied to the muxer in form of a video stream with a single packet. There
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can be any number of those streams, each will correspond to a single APIC frame.
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The stream metadata tags @var{title} and @var{comment} map to APIC
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@var{description} and @var{picture type} respectively. See
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@url{http://id3.org/id3v2.4.0-frames} for allowed picture types.
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Note that the APIC frames must be written at the beginning, so the muxer will
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buffer the audio frames until it gets all the pictures. It is therefore advised
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to provide the pictures as soon as possible to avoid excessive buffering.
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Examples:
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Write an mp3 with an ID3v2.3 header and an ID3v1 footer:
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@example
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ffmpeg -i INPUT -id3v2_version 3 -write_id3v1 1 out.mp3
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@end example
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Attach a picture to an mp3:
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@example
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ffmpeg -i input.mp3 -i cover.png -c copy -metadata:s:v title="Album cover"
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-metadata:s:v comment="Cover (Front)" out.mp3
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@end example
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@c man end MUXERS
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