ffmpeg 7:5.1.1-ok3 source package in openKylin
Changelog
ffmpeg (7:5.1.1-ok3) yangtze; urgency=medium * No change rebuild for rv64g. -- CI Bot <email address hidden> Sun, 07 Apr 2024 01:37:23 +0000
ffmpeg (7:5.1.1-ok3) yangtze; urgency=medium * No change rebuild for rv64g. -- CI Bot <email address hidden> Sun, 07 Apr 2024 01:37:23 +0000
Series | Published | Component | Section | |
---|---|---|---|---|
Yangtze V1.0 | proposed | main | video |
File | Size | SHA-256 Checksum |
---|---|---|
ffmpeg_5.1.1.orig.tar.gz | 13.7 MiB | 53e4488dd8a4f214dfcbb1215b5740fda848a414df84250ef27c0427b70dc33a |
ffmpeg_5.1.1-ok3.debian.tar.xz | 38.7 KiB | aa4c32c0b7c182d02cd4dab1cbafe59f70f5bbe9b93a7089f7b2bff251779a57 |
ffmpeg_5.1.1-ok3.dsc | 4.9 KiB | 4a90565cea20b19c5b5ed929405ff357a331b3d828d9c89d9aca10692107019b |
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This package contains:
* ffmpeg: a command line tool to convert multimedia files between formats
* ffplay: a simple media player based on SDL and the FFmpeg libraries
* ffprobe: a simple multimedia stream analyzer
* qt-faststart: a utility to rearrange Quicktime files
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library provides a generic encoding/decoding framework and
contains multiple decoders and encoders for audio, video and subtitle streams,
and several bitstream filters.
.
The shared architecture provides various services ranging from bit stream I/O
to DSP optimizations, and makes it suitable for implementing robust and fast
codecs as well as for experimentation.
.
This package contains the development files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This metapackage depends on the latest version of the libavcodec variant
that offers additional codec support. Application packages can depend
on it if they require or suggest this variant in a robust manner.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library provides a generic encoding/decoding framework and
contains multiple decoders and encoders for audio, video and subtitle streams,
and several bitstream filters.
.
The shared architecture provides various services ranging from bit stream I/O
to DSP optimizations, and makes it suitable for implementing robust and fast
codecs as well as for experimentation.
.
This package replaces the libavcodec58 package and contains the
following additional codecs:
.
* ARIB STD-B24 Captions (Subtitle Decoder)
* OpenCORE Adaptive Multi-Rate (AMR) Narrow-Band (Encoder/Decoder)
* OpenCORE Adaptive Multi-Rate (AMR) Wide-Band (Decoder)
* Android VisualOn Adaptive Multi-Rate (AMR) Wide-Band (Encoder)
.
Because this package links against libraries that are licensed under
Apache License 2.0, the resulting binaries are distributed under the
GPL version 3 or later.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library provides a generic encoding/decoding framework and
contains multiple decoders and encoders for audio, video and subtitle streams,
and several bitstream filters.
.
The shared architecture provides various services ranging from bit stream I/O
to DSP optimizations, and makes it suitable for implementing robust and fast
codecs as well as for experimentation.
.
This package contains the runtime files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library provides a generic framework for grabbing from and rendering to
many common multimedia input/output devices, and supports several input and
output devices, including Video4Linux2, VfW, DShow, and ALSA.
.
This package contains the development files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library provides a generic framework for grabbing from and rendering to
many common multimedia input/output devices, and supports several input and
output devices, including Video4Linux2, VfW, DShow, and ALSA.
.
This package contains the runtime files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library provides a generic audio/video filtering framework containing
several filters, sources and sinks.
.
This package contains the development files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This metapackage depends on the latest version of the libavfilter variant
that offers additional filter support. Application packages can depend
on it if they require or suggest this variant in a robust manner.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library provides a generic audio/video filtering framework containing
several filters, sources and sinks.
.
This package replaces the libavfilter6 package and contains the
following additional filters:
.
* Optical Character Recognition (uses Tesseract)
.
Because this package links against libraries that are licensed under
Apache License 2.0, the resulting binaries are distributed under the
GPL version 3 or later.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library provides a generic audio/video filtering framework containing
several filters, sources and sinks.
.
This package contains the runtime files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library provides a generic framework for multiplexing and demultiplexing
(muxing and demuxing) audio, video and subtitle streams. It encompasses
multiple muxers and demuxers for multimedia container formats. It also
supports several input and output protocols to access a media resource.
.
This package contains the development files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This metapackage depends on the latest version of the libavformat variant
that offers additional (de)muxers support. Application packages can depend
on it if they require or suggest this variant in a robust manner.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library provides a generic framework for multiplexing and demultiplexing
(muxing and demuxing) audio, video and subtitle streams. It encompasses
multiple muxers and demuxers for multimedia container formats. It also
supports several input and output protocols to access a media resource.
.
This package replaces the libavformat58 package and contains the
following additional (de)muxers:
.
* SMB protocol (using libsmbclient)
.
Because this package links against libraries that are licensed under
Apache License 2.0 or GPL version 3, the resulting binaries are distributed
under the GPL version 3 or later.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library provides a generic framework for multiplexing and demultiplexing
(muxing and demuxing) audio, video and subtitle streams. It encompasses
multiple muxers and demuxers for multimedia container formats. It also
supports several input and output protocols to access a media resource.
.
This package contains the runtime files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library is a utility library to aid portable multimedia programming.
It contains safe portable string functions, random number generators, data
structures, additional mathematics functions, cryptography and multimedia
related functionality (like enumerations for pixel and sample formats).
It is not a library for code needed by both libavcodec and libavformat.
The goal for this library is to be modular, small, efficient and useful.
.
This package contains the development files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library is a utility library to aid portable multimedia programming.
It contains safe portable string functions, random number generators, data
structures, additional mathematics functions, cryptography and multimedia
related functionality (like enumerations for pixel and sample formats).
It is not a library for code needed by both libavcodec and libavformat.
The goal for this library is to be modular, small, efficient and useful.
.
This package contains the runtime files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library provides video post processing.
.
This package contains the development files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library provides video post processing.
.
This package contains the runtime files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library performs highly optimized audio resampling, rematrixing
and sample format conversion operations.
Specifically, this library performs the following conversions:
* Resampling is the process of changing the audio rate, for example from a
high sample rate of 44100Hz to 8000Hz. Audio conversion from high to low
sample rate is a lossy process. Several resampling options and algorithms
are available.
* Rematrixing is the process of changing the channel layout, for example from
stereo to mono. When the input channels cannot be mapped to the output
streams, the process is lossy, since it involves different gain factors
and mixing. Various other audio conversions (e.g. stretching and padding)
are enabled through dedicated options.
* Format conversion is the process of converting the type of samples, for
example from 16-bit signed samples to unsigned 8-bit or float samples.
It also handles packing conversion, when passing from packed layout (all
samples belonging to distinct channels interleaved in the same buffer), to
planar layout (all samples belonging to the same channel stored in a
dedicated buffer or "plane").
.
This package contains the development files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library performs highly optimized audio resampling, rematrixing
and sample format conversion operations.
Specifically, this library performs the following conversions:
* Resampling is the process of changing the audio rate, for example from a
high sample rate of 44100Hz to 8000Hz. Audio conversion from high to low
sample rate is a lossy process. Several resampling options and algorithms
are available.
* Rematrixing is the process of changing the channel layout, for example from
stereo to mono. When the input channels cannot be mapped to the output
streams, the process is lossy, since it involves different gain factors
and mixing. Various other audio conversions (e.g. stretching and padding)
are enabled through dedicated options.
* Format conversion is the process of converting the type of samples, for
example from 16-bit signed samples to unsigned 8-bit or float samples.
It also handles packing conversion, when passing from packed layout (all
samples belonging to distinct channels interleaved in the same buffer), to
planar layout (all samples belonging to the same channel stored in a
dedicated buffer or "plane").
.
This package contains the runtime files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library performs highly optimized image scaling and colorspace and pixel
format conversion operations.
Specifically, this library performs the following conversions:
* Rescaling is the process of changing the video size. Several rescaling
options and algorithms are available. This is usually a lossy process.
* Pixel format conversion is the process of converting the image format and
colorspace of the image, for example from planar YUV420P to RGB24 packed.
It also handles packing conversion, that is converts from packed layout
(all pixels belonging to distinct planes interleaved in the same buffer),
to planar layout (all samples belonging to the same plane stored in a
dedicated buffer or "plane"). This is usually a lossy process in case the
source and destination colorspaces differ.
.
This package contains the development files.
FFmpeg is the leading multimedia framework, able to decode, encode, transcode,
mux, demux, stream, filter and play pretty much anything that humans and
machines have created. It supports the most obscure ancient formats up to the
cutting edge.
.
This library performs highly optimized image scaling and colorspace and pixel
format conversion operations.
Specifically, this library performs the following conversions:
* Rescaling is the process of changing the video size. Several rescaling
options and algorithms are available. This is usually a lossy process.
* Pixel format conversion is the process of converting the image format and
colorspace of the image, for example from planar YUV420P to RGB24 packed.
It also handles packing conversion, that is converts from packed layout
(all pixels belonging to distinct planes interleaved in the same buffer),
to planar layout (all samples belonging to the same plane stored in a
dedicated buffer or "plane"). This is usually a lossy process in case the
source and destination colorspaces differ.
.
This package contains the runtime files.