<p>FFmpeg is a powerful tool for manipulating audiovisual files. Unfortunately, it also has a steep learning curve, especially for users unfamiliar with a command line interface. This app helps users through the command generation process so that more people can reap the benefits of FFmpeg.</p>
<p>Each button displays helpful information about how to perform a wide variety of tasks using FFmpeg. To use this site, click on the task you would like to perform. A new window will open up with a sample command and a description of how that command works. You can copy this command and understand how the command works with a breakdown of each of the flags.</p>
<spanclass="intro-lead">Tutorials</span>
<p>For FFmpeg basics, check out the program’s <ahref="https://www.ffmpeg.org/"target="_blank">official website</a>.</p>
<p>For instructions on how to install FFmpeg on Mac, Linux, and Windows, refer to Reto Kromer’s <ahref="https://avpres.net/FFmpeg/#ch1"target="_blank">installation instructions</a>.</p>
<p>For Bash and command line basics, try the <ahref="https://learnpythonthehardway.org/book/appendixa.html"target="_blank">Command Line Crash Course</a>. For a little more context presented in an ffmprovisr style, try <ahref="http://explainshell.com/"target="_blank">explainshell.com</a>!</p>
This work is licensed under a <ahref="https://creativecommons.org/licenses/by/4.0/"target="_blank">Creative Commons Attribution 4.0 International License</a>.
</p>
<spanclass="intro-lead">Sister projects</span>
<p><ahref="http://dd388.github.io/crals/"target="_blank">Script Ahoy</a>: Community Resource for Archivists and Librarians Scripting</p>
<p><ahref="https://datapraxis.github.io/sourcecaster/"target="_blank">The Sourcecaster</a>: an app that helps you use the command line to work through common challenges that come up when working with digital primary sources.</p>
<p><ahref="https://amiaopensource.github.io/cable-bible/"target="_blank">Cable Bible</a>: A Guide to Cables and Connectors Used for Audiovisual Tech</p>
<spandata-toggle="modal"data-target="#basic-structure"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Basic structure of an FFmpeg command">Basic structure of an FFmpeg command</button></span>
<p>At its basis, an FFmpeg command is relatively simple. After you have installed FFmpeg (see instructions <ahref="https://avpres.net/FFmpeg/#ch1"target="_blank">here</a>), the program is invoked simply by typing <code>ffmpeg</code> at the command prompt.</p>
<p>Subsequently, each instruction that you supply to FFmpeg is actually a pair: a flag, which designates the <i>type</i> of action you want to carry out; and then the specifics of that action. Flags are always prepended with a hyphen.</p>
<p>For example, in the instruction <code>-i <i>input_file.ext</i></code>, the <code>-i</code> flag tells FFmpeg that you are supplying an input file, and <code>input_file.ext</code> states which file it is.</p>
<p>Likewise, in the instruction <code>-c:v prores</code>, the flag <code>-c:v</code> tells FFmpeg that you want to encode the video stream, and <code>prores</code> specifies which codec is to be used. (<code>-c:v</code> is shorthand for <code>-codec:v</code>/<code>-codec:video</code>).</p>
<p>A very basic FFmpeg command looks like this:</p>
<p>Many FFmpeg commands use filters that manipulate the video or audio stream in some way: for example, <ahref="http://ffmpeg.org/ffmpeg-filters.html#hflip"target="_blank">hflip</a> to horizontally flip a video, or <ahref="http://ffmpeg.org/ffmpeg-filters.html#amerge-1"target="_blank">amerge</a> to merge two or more audio tracks into a single stream.</p>
<p>The use of a filter is signalled by the flag <code>-vf</code> (video filter) or <code>-af</code> (audio filter), followed by the name and options of the filter itself. For example, take the <ahref="#convert-colourspace">convert colourspace</a> command:</p>
<p>Here, <ahref="http://ffmpeg.org/ffmpeg-filters.html#colormatrix"target="_blank">colormatrix</a> is the filter used, with <i>src</i> and <i>dst</i> representing the source and destination colourspaces. This part following the <code>-vf</code> is a <b>filtergraph</b>.</p>
<p>It is also possible to apply multiple filters to an input, which are sequenced together in the filtergraph. A chained set of filters is called a filter chain, and a filtergraph may include multiple filter chains. Filters in a filterchain are separated from each other by commas (<code>,</code>), and filterchains are separated from each other by semicolons (<code>;</code>). For example, take the <ahref="#inverse-telecine">inverse telecine</a> command:</p>
<p>Here we have a filtergraph including one filter chain, which is made up of three video filters.</p>
<p>It is often prudent to enclose your filtergraph in quotation marks; this means that you can use spaces within the filtergraph. Using the inverse telecine example again, the following filter commands are all valid and equivalent:
but <code>-vf fieldmatch, yadif, decimate</code> is not valid.</p>
<p>The ordering of the filters is significant. Video filters are applied in the order given, with the output of one filter being passed along as the input to the next filter in the chain. In the example above, <code>fieldmatch</code> reconstructs the original frames from the inverse telecined video, <code>yadif</code> deinterlaces (this is a failsafe in case any combed frames remain, for example if the source mixes telecined and real interlaced content), and <code>decimate</code> deletes duplicated frames. Clearly, it is not possible to delete duplicated frames before those frames are reconstructed.</p>
<h4>Notes</h4>
<ul>
<li>If the command involves more than one input or output, you must use the flag <code>-filter_complex</code> instead of <code>-vf</code>.</li>
<li>Straight quotation marks ("like this") rather than curved quotation marks (“like this”) should be used.</li>
</ul>
<p>For more information, check out the FFmpeg wiki <ahref="https://trac.ffmpeg.org/wiki/FilteringGuide"target="_blank">Filtering Guide</a>.</p>
<p>This script will rewrap a video file. It will create a new video video file where the inner content (the video, audio, and subtitle data) of the original file is unchanged, but these streams are rehoused within a different container format.</p>
By default, FFmpeg will only map one stream of each type (video, audio, subtitles) to the output file. However, files may have multiple streams of a given type - for example, a video may have several audio tracks for different languages. Therefore, if you want to preserve all the streams in the original, it's necessary to use this option.</dd>
<p>It may not be possible to rewrap a file's contents to a new container without re-encoding one or more of the streams within (that is, the video, audio, and subtitle tracks). Some containers can only contain streams of a certain encoding type: for example, the .mp4 container does not support uncompressed audio tracks. (In practice .mp4 goes hand-in-hand with a H.264-encoded video stream and an AAC-encoded video stream, although other types of video and audio streams are possible). Another example is that the Matroska container does not allow data tracks; see the <ahref="#mkv-to-mp4">MKV to MP4 recipe</a>.</p>
<p>In such cases, FFmpeg will throw an error. If you encounter errors of this kind, you may wish to consult the <ahref="#transcode">list of transcoding recipes</a>.</p>
<spandata-toggle="modal"data-target="#mkv_to_mp4"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Convert Matroska (MKV) to MP4">MKV to MP4</button></span>
<spandata-toggle="modal"data-target="#to_prores"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Transcode to deinterlaced Apple ProRes LT">Transcode to ProRes</button></span>
<p>This command transcodes an input file into a deinterlaced Apple ProRes 422 LT file with 16-bit linear PCM encoded audio. The file is deinterlaced using the yadif filter (Yet Another De-Interlacing Filter).</p>
<dl>
<dt>ffmpeg</dt><dd>starts the command</dd>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-vf yadif</dt><dd>Runs a deinterlacing video filter (yet another deinterlacing filter) on the new file. <code>-vf</code> is an alias for <code>-filter:v</code>.</dd>
<p>FFmpeg comes with more than one ProRes encoder:</p>
<ul>
<li><code>prores</code> is much faster, can be used for progressive video only, and seems to be better for video according to Rec. 601 (Recommendation ITU-R BT.601).</li>
<li><code>prores_ks</code> generates a better file, can also be used for interlaced video, allows also encoding of ProRes 4444 (<code>-c:v prores_ks -profile:v 4</code>), and seems to be better for video according to Rec. 709 (Recommendation ITU-R BT.709).</li>
<spandata-toggle="modal"data-target="#transcode_h264"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Transcode to an H.264 access file">Transcode to H.264</button></span>
<p>This command takes an input file and transcodes it to H.264 with an .mp4 wrapper, keeping the audio the same codec as the original. The libx264 codec defaults to a “medium” preset for compression quality and a CRF of 23. CRF stands for constant rate factor and determines the quality and file size of the resulting H.264 video. A low CRF means high quality and large file size; a high CRF means the opposite.</p>
<dl>
<dt>ffmpeg</dt><dd>starts the command</dd>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-pix_fmt yuv420p</dt><dd> libx264 will use a chroma subsampling scheme that is the closest match to that of the input. This can result in Y′C<sub>B</sub>C<sub>R</sub> 4:2:0, 4:2:2, or 4:4:4 chroma subsampling. QuickTime and most other non-FFmpeg based players can’t decode H.264 files that are not 4:2:0. In order to allow the video to play in all players, you can specify 4:2:0 chroma subsampling.</dd>
<dt>-crf <i>18</i></dt><dd>Specifying a lower CRF will make a larger file with better visual quality. For H.264 files being encoded with a 4:2:0 chroma subsampling scheme (i.e., using <code>-pix_fmt yuv420p</code>), the scale ranges between 0-51, with 0 being lossless and 51 the worst possible quality.<br>
<p>For more information, see the <ahref="https://trac.ffmpeg.org/wiki/Encode/H.264"target="_blank">FFmpeg and H.264 Encoding Guide</a> on the FFmpeg wiki.</p>
<spandata-toggle="modal"data-target="#dcp_to_h264"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Transcode from DCP to an H.264 access file">H.264 from DCP</button></span>
<p>This will transcode MXF wrapped video and audio files to an H.264 encoded MP4 file. Please note this only works for unencrypted, single reel DCPs.</p>
<spandata-toggle="modal"data-target="#create_FFV1_mkv"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Transcode your file with the FFV1 Version 3 Codec in a Matroska container">Create FFV1.mkv</button></span>
<p>This will losslessly transcode your video with the FFV1 Version 3 codec in a Matroska container. In order to verify losslessness, a framemd5 of the source video is also generated. For more information on FFV1 encoding, <ahref="https://trac.ffmpeg.org/wiki/Encode/FFV1"target="_blank">try the FFmpeg wiki</a>.</p>
<dt>-map 0</dt><dd>Map all streams that are present in the input file. This is important as FFmpeg will map only one stream of each type (video, audio, subtitles) by default to the output video.</dd>
<dt>-slicecrc 1</dt><dd>Adds CRC information for each slice. This makes it possible for a decoder to detect errors in the bitstream, rather than blindly decoding a broken slice. (Read more <ahref="http://ndsr.nycdigital.org/diving-in-head-first/"target="_blank">here</a>).</dd>
<dt>-slices 16</dt><dd>Each frame is split into 16 slices. 16 is a good trade-off between filesize and encoding time.</dd>
<dt><i>output_file</i>.mkv</dt><dd>path and name of the output file. Use the <code>.mkv</code> extension to save your file in a Matroska container. Optionally, choose a different extension if you want a different container, such as <code>.mov</code> or <code>.avi</code>.</dd>
<dt>-f framemd5</dt><dd> Decodes video with the framemd5 muxer in order to generate MD5 checksums for every frame of your input file. This allows you to verify losslessness when compared against the framemd5s of the output file.</dd>
<spandata-toggle="modal"data-target="#dvd_to_file"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Basic DVD to file conversion">Convert DVD to H.264</button></span>
<p>Before encoding, you’ll need to establish which of the .VOB files on the DVD or .iso contain the content that you wish to encode. Inside the VIDEO_TS directory, you will see a series of files with names like VTS_01_0.VOB, VTS_01_1.VOB, etc. Some of the .VOB files will contain menus, special features, etc, so locate the ones that contain target content by playing them back in VLC.</p>
<dt>-i concat:<i>input files</i></dt><dd>lists the input VOB files and directs FFmpeg to concatenate them. Each input file should be separated by a backslash and a pipe, like so:<br>
<dt>-crf 18</dt><dd>sets the constant rate factor to a visually lossless value. Libx264 defaults to a <ahref="https://trac.ffmpeg.org/wiki/Encode/H.264#crf"target="_blank">crf of 23</a>, considered medium quality; a smaller CRF value produces a larger and higher quality video.</dd>
<dt>-preset veryslow</dt><dd>A slower preset will result in better compression and therefore a higher-quality file. The default is <b>medium</b>; slower presets are <b>slow</b>, <b>slower</b>, and <b>veryslow</b>.</dd>
<p>Bear in mind that by default, libx264 will only encode a single video stream and a single audio stream, picking the ‘best’ of the options available. To preserve all video and audio streams, add <b>-map</b> parameters:</p>
<spandata-toggle="modal"data-target="#transcode_h265"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Transcode to an H.265/HEVC MP4">Transcode to H.265/HEVC</button></span>
<p><b>Note:</b> FFmpeg must be compiled with libx265, the library of the H.265 codec, for this script to work. (Add the flag <code>--with-x265</code> if using the <code>brew install ffmpeg</code> method).</p>
<dt>-pix_fmt yuv420p</dt><dd>libx265 will use a chroma subsampling scheme that is the closest match to that of the input. This can result in Y′C<sub>B</sub>C<sub>R</sub> 4:2:0, 4:2:2, or 4:4:4 chroma subsampling. For widest accessibility, it’s a good idea to specify 4:2:0 chroma subsampling.</dd>
<dt><i>output file</i></dt><dd>path, name and extension of the output file</dd>
</dl>
<p>The libx265 encoding library defaults to a ‘medium’ preset for compression quality and a CRF of 28. CRF stands for ‘constant rate factor’ and determines the quality and file size of the resulting H.265 video. The CRF scale ranges from 0 (best quality [lossless]; largest file size) to 51 (worst quality; smallest file size).</p>
<p>A CRF of 28 for H.265 can be considered a medium setting, <ahref="https://trac.ffmpeg.org/wiki/Encode/H.265#ConstantRateFactorCRF"target="_blank">corresponding</a> to a CRF of 23 in <ahref="./index.html#transcode_h264">encoding H.264</a>, but should result in about half the file size.</p>
<dt>-crf <i>18</i></dt><dd>Specifying a lower CRF will make a larger file with better visual quality. 18 is often considered a ‘visually lossless’ compression.</dd>
<spandata-toggle="modal"data-target="#wav_to_mp3"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Convert WAV to MP3">WAV to MP3</button></span>
<dt>-write_id3v1 1</dt><dd>This will write metadata to an ID3v1 tag at the head of the file, assuming you’ve embedded metadata into the WAV file.</dd>
<dt>-id3v2_version 3</dt><dd>This will write metadata to an ID3v2.3 tag at the tail of the file, assuming you’ve embedded metadata into the WAV file.</dd>
<dt>-dither_method rectangular</dt><dd>Dither makes sure you don’t unnecessarily truncate the dynamic range of your audio.</dd>
<dt>-out_sample_rate 48k</dt><dd>Sets the audio sampling frequency to 48 kHz. This can be omitted to use the same sampling frequency as the input.</dd>
<dt>-qscale:a 1</dt><dd>This sets the encoder to use a constant quality with a variable bitrate of between 190-250kbit/s. If you would prefer to use a constant bitrate, this could be replaced with <code>-b:a 320k</code> to set to the maximum bitrate allowed by the MP3 format. For more detailed discussion on variable vs constant bitrates see <ahref="https://trac.ffmpeg.org/wiki/Encode/MP3"target="_blank">here.</a></dd>
<li>About dither methods: FFmpeg comes with a variety of dither algorithms, outlined in the <ahref="https://ffmpeg.org/ffmpeg-resampler.html"target="_blank">official docs</a>, though some may lead to unintended, drastic digital clipping on some systems.</li>
<spandata-toggle="modal"data-target="#wav_to_mp4"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Convert WAV to AAC/MP4">WAV to AAC/MP4</button></span>
<p>A note about dither methods. FFmpeg comes with a variety of dither algorithms, outlined in the <ahref="https://ffmpeg.org/ffmpeg-resampler.html"target="_blank">official docs</a>, though some may lead to unintended, not-subtle digital clipping on some systems.</p>
<spandata-toggle="modal"data-target="#SD_HD"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Transform 4:3 aspect ratio into 16:9 with pillarbox">4:3 to 16:9</button></span>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-filter:v "pad=ih*16/9:ih:(ow-iw)/2:(oh-ih)/2"</dt><dd>video padding<br>This resolution independent formula is actually padding any aspect ratio into 16:9 by pillarboxing, because the video filter uses relative values for input width (iw), input height (ih), output width (ow) and output height (oh).</dd>
<dt>-c:a copy</dt><dd>re-encodes using the same audio codec<br>
For silent videos you can replace <code>-c:a copy</code> by <code>-an</code>.</dd>
<dt><i>output_file</i></dt><dd>path, name and extension of the output file</dd>
<spandata-toggle="modal"data-target="#HD_SD"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Transform 16:9 aspect ratio video into 4:3 with letterbox">16:9 to 4:3</button></span>
This resolution independent formula is actually padding any aspect ratio into 4:3 by letterboxing, because the video filter uses relative values for input width (iw), input height (ih), output width (ow) and output height (oh).</dd>
<spandata-toggle="modal"data-target="#SD_HD_2"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Transform SD to HD with pillarbox">SD to HD</button></span>
<dt>-filter:v "colormatrix=bt601:bt709, scale=1440:1080:flags=lanczos, pad=1920:1080:240:0"</dt><dd>set colour matrix, video scaling and padding<br>Three filters are applied:
<ol>
<li>The luma coefficients are modified from SD video (according to Rec. 601) to HD video (according to Rec. 709) by a colour matrix. Note that today Rec. 709 is often used also for SD and therefore you may cancel this parameter.</li>
<li>The scaling filter (<code>scale=1440:1080</code>) works for both upscaling and downscaling. We use the Lanczos scaling algorithm (<code>flags=lanczos</code>), which is slower but gives better results than the default bilinear algorithm.</li>
<li>The padding filter (<code>pad=1920:1080:240:0</code>) completes the transformation from SD to HD.</li>
<!-- Change display aspect ratio without re-encoding video-->
<spandata-toggle="modal"data-target="#change_DAR"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Change display aspect ratio without re-encoding">Change Display Aspect Ratio</button></span>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-c:v copy</dt><dd>Copy all mapped video streams.</dd>
<dt>-aspect 4:3</dt><dd>Change Display Aspect Ratio to <code>4:3</code>. Experiment with other aspect ratios such as <code>16:9</code>. If used together with <code>-c:v copy</code>, it will affect the aspect ratio stored at container level, but not the aspect ratio stored in encoded frames, if it exists.</dd>
<dt><i>output_file</i></dt><dd>path, name and extension of the output file</dd>
</dl>
<pclass="link"></p>
</div>
</div>
</div>
</div>
<!-- ends Change display aspect ratio without re-encoding video -->
<dt>-vf colormatrix=<i>src</i>:<i>dst</i></dt><dd>the video filter <b>colormatrix</b> will be applied, with the given source and destination colourspaces.<br>
Accepted values include <code>bt601</code> (Rec.601), <code>smpte170m</code> (Rec.601, 525-line/<ahref="https://en.wikipedia.org/wiki/NTSC#NTSC-M"target="_blank">NTSC</a> version), <code>bt470bg</code> (Rec.601, 625-line/<ahref="https://en.wikipedia.org/wiki/PAL#PAL-B.2FG.2FD.2FK.2FI"target="_blank">PAL</a> version), <code>bt709</code> (Rec.709), and <code>bt2020</code> (Rec.2020).<br>
<p><b>Note:</b> Converting between colourspaces with FFmpeg can be done via either the <b>colormatrix</b> or <b>colorspace</b> filters, with colorspace allowing finer control (individual setting of colourspace, transfer characteristics, primaries, range, pixel format, etc). See <ahref="https://trac.ffmpeg.org/wiki/colorspace"target="_blank">this</a> entry on the FFmpeg wiki, and the FFmpeg documentation for <ahref="http://ffmpeg.org/ffmpeg-filters.html#colormatrix"target="_blank">colormatrix</a> and <ahref="http://ffmpeg.org/ffmpeg-filters.html#colorspace"target="_blank">colorspace</a>.</p>
<dt>-vf colormatrix=<i>src</i>:<i>dst</i></dt><dd>the video filter <b>colormatrix</b> will be applied, with the given source and destination colourspaces.</dd>
<dt>-color_primaries <i>val</i></dt><dd>tags video with the given colour primaries.<br>
<imgsrc="./img/colourspace_metadata_mediainfo.png"alt="MediaInfo screenshots of colourspace metadata"><br>
<p><spanclass="beware">⚠</span> Using this command it is possible to add Rec.709 tags to a file that is actually Rec.601 (etc), so apply with caution!</p>
<p>These commands are relevant for H.264 and H.265 videos, encoded with <code>libx264</code> and <code>libx265</code> respectively.</p>
<p><b>Note:</b> If you wish to embed colourspace metadata <i>without</i> changing to another colourspace, omit <code>-vf colormatrix=src:dst</code>. However, since it is <code>libx264</code>/<code>libx265</code> that writes the metadata, it’s not possible to add these tags without reencoding the video stream.</p>
<p>For all possible values for <code>-color_primaries</code>, <code>-color_trc</code>, and <code>-colorspace</code>, see the FFmpeg documentation on <ahref="https://www.ffmpeg.org/ffmpeg-codecs.html#Codec-Options"target="_blank">codec options</a>.</p>
<pid="fn1"class="footnote">1. Out of step with the regular pattern, <code>-color_trc</code> doesn’t accept <code>bt470bg</code>; it is instead here referred to directly as gamma.<br>
In the Rec.601 standard, 525-line/NTSC and 625-line/PAL video have assumed gammas of 2.2 and 2.8 respectively. <ahref="#ref1"title="Jump back.">↩</a></p>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-filter_complex "[0:v]setpts=<i>input_fps</i>/<i>output_fps</i>*PTS[v]; [0:a]atempo=<i>output_fps</i>/<i>input_fps</i>[a]"</dt><dd>A complex filter is needed here, in order to handle video stream and the audio stream separately. The <code>setpts</code> video filter modifies the PTS (presentation time stamp) of the video stream, and the <code>atempo</code> audio filter modifies the speed of the audio stream while keeping the same sound pitch. Note that the parameter order for the image and for the sound are inverted:
<ul>
<li>In the video filter <code>setpts</code> the numerator <code>input_fps</code> sets the input speed and the denominator <code>output_fps</code> sets the output speed; both values are given in frames per second.</li>
<li>In the sound filter <code>atempo</code> the numerator <code>output_fps</code> sets the output speed and the denominator <code>input_fps</code> sets the input speed; both values are given in frames per second.</li>
</ul>
The different filters in a complex filter can be divided either by comma or semicolon. The quotation marks allow to insert a space between the filters for readability.</dd>
<dt>-map "[v]"</dt><dd>maps the video stream and:</dd>
<dt>-map "[a]"</dt><dd>maps the audio stream together into:</dd>
<dt><i>output_file</i></dt><dd>path, name and extension of the output file</dd>
<h2>Find undetermined or unknown stream properties</h2>
<p>These examples use QuickTime inputs and outputs. The strategy will vary or may not be possible in other file formats. In the case of these examples it is the intention to make a lossless copy while clarifying an unknown characteristic of the stream.</p>
<dt><i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-show_streams</dt><dd>Shows metadata of stream properties</dd>
</dl>
<p>Values that are set to 'unknown' and 'undetermined' may be unspecified within the stream. An unknown aspect ratio would be expressed as '0:1'. Streams with many unknown properties may have interoperability issues or not play as intended. In many cases, an unknown or undetermined value may be accurate because the information about the source is unclear, but often the value is intended to be known. In many cases the stream will played with an assumed value if undetermined (for instance a display_aspect_ratio of '0:1' may be played as 'WIDTH:HEIGHT'), but this may or may not be what is intended. Use carefully.</p>
<h2>Set aspect ratio</h2>
<p>If the display_aspect_ratio is set to '0:1' it may be clarified with the <i>-aspect</i> option and stream copy.</p>
<dt>-aspect DAR_NUM:DAR_DEN</dt><dd>Replace DAR_NUM with the display aspect ratio numerator and DAR_DEN with the display aspect ratio denominator, such as <i>-aspect 4:3</i> or <i>-aspect 16:9</i>.</dd>
<dt><i>output_file</i></dt><dd>path, name and extension of the output file</dd>
</dl>
<h2>Adding other stream properties.</h2>
<p>Other properties may be clarified in a similar way. Replace <i>-aspect</i> and its value with other properties such as shown in the options below. Note that setting color values in QuickTime requires that <i>-movflags write_colr</i> is set.</p>
<p>The possible values for <code>-color_primaries</code>, <code>-color_trc</code>, and <code>-field_order</code> are given in the <ahref="http://ffmpeg.org/ffmpeg-all.html#toc-Codec-Options"target="_blank">Codec Options</a> section of the FFmpeg docs - scroll down to near the bottom of the section.</p>
<h2id="join-trim">Join, trim, or excerpt a video</h2>
<!-- Join files together -->
<spandata-toggle="modal"data-target="#join_files"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Join (concatenate) two or more files into a single file">Join files together</button></span>
<p>This command takes two or more files of the same file type and joins them together to make a single file. All that the program needs is a text file with a list specifying the files that should be joined. However, it only works properly if the files to be combined have the exact same codec and technical specifications. Be careful, FFmpeg may appear to have successfully joined two video files with different codecs, but may only bring over the audio from the second file or have other weird behaviors. Don’t use this command for joining files with different codecs and technical specs and always preview your resulting video file!</p>
<dt>-i <i>mylist.txt</i></dt><dd>path, name and extension of the input file. Per the <ahref="https://www.ffmpeg.org/ffmpeg-formats.html#Options"target="_blank">FFmpeg documentation</a>, it is preferable to specify relative rather than absolute file paths, as allowing absolute file paths may pose a security risk.<br>
This text file contains the list of files to be concatenated and should be formatted as follows:
<pre>file '<i>./first_file.ext</i>'
file '<i>./second_file.ext</i>'
. . .
file '<i>./last_file.ext</i>'</pre>
In the above, <b>file</b> is simply the word "file". Straight apostrophes ('like this') rather than curved quotation marks (‘like this’) must be used to enclose the file paths.<br>
<b>Note:</b> If specifying absolute file paths in the .txt file, add <code>-safe 0</code> before the input file.<br>
<spandata-toggle="modal"data-target="#segment_file"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Split one file into several smaller segments">Split file into segments</button></span>
<dt>-f segment</dt><dd>Use <ahref="http://www.ffmpeg.org/ffmpeg-formats.html#toc-segment_002c-stream_005fsegment_002c-ssegment"target="_blank">segment muxer</a> for generating the output.</dd>
In order to have an incrementing number in each segment filename, FFmpeg supports <ahref="http://www.cplusplus.com/reference/cstdio/printf/"target="_blank">printf-style</a> syntax for a counter.</p>
<dt>-map 0</dt><dd>tells FFmpeg to map all streams of the input to the output.</dd>
<b>Note:</b> watch out when using <code>-ss</code> with <code>-c copy</code> if the source is encoded with an interframe codec (e.g., H.264). Since FFmpeg must split on i-frames, it will seek to the nearest i-frame to begin the stream copy.</dd>
<spandata-toggle="modal"data-target="#excerpt_from_start"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Create an excerpt, starting from the beginning of the file">Excerpt from beginning</button></span>
<p>This command captures a certain portion of a video file, starting from the beginning and continuing for the amount of time (in seconds) specified in the script. This can be used to create a preview file, or to remove unwanted content from the end of the file. To be more specific, use timecode, such as 00:00:05.</p>
<dt>-t <i>5</i></dt><dd>tells FFmpeg to stop copying from the input file after a certain time, and specifies the number of seconds after which to stop copying. In this case, 5 seconds is specified.</dd>
<spandata-toggle="modal"data-target="#excerpt_to_end"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Create a new video file with the first five seconds trimmed off the original">Excerpt to end</button></span>
<p>This command copies a video file starting from a specified time, removing the first few seconds from the output. This can be used to create an excerpt, or remove unwanted content from the beginning of a video file.</p>
<dt>-ss <i>5</i></dt><dd>tells FFmpeg what timecode in the file to look for to start copying, and specifies the number of seconds into the video that FFmpeg should start copying. To be more specific, you can use timecode such as 00:00:05.</dd>
<dt><i>output_file</i></dt><dd>path, name and extension of the output file</dd>
</dl>
<pclass="link"></p>
</div>
</div>
</div>
</div>
<!-- ends Excerpt to end -->
<!-- Excerpt from end -->
<spandata-toggle="modal"data-target="#excerpt_from_end"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Create a new video file with the final five seconds of the original">Excerpt from end</button></span>
<p>This command copies a video file starting from a specified time before the end of the file, removing everything before from the output. This can be used to create an excerpt, or extract content from the end of a video file (e.g. for extracting the closing credits).</p>
<dt>-sseof <i>-5</i></dt><dd>This parameter must stay before the input file. It tells FFmpeg what timecode in the file to look for to start copying, and specifies the number of seconds from the end of the video that FFmpeg should start copying. The end of the file has index 0 and the minus sign is needed to reference earlier portions. To be more specific, you can use timecode such as -00:00:05. Note that in most file formats it is not possible to seek exactly, so FFmpeg will seek to the closest point before.</dd>
<dt><i>output_file</i></dt><dd>path, name and extension of the output file</dd>
</dl>
<pclass="link"></p>
</div>
</div>
</div>
</div>
<!-- ends Excerpt from end -->
</div>
<divclass="well">
<h2id="interlacing">Work with interlaced video</h2>
<!-- NTSC to H.264 -->
<spandata-toggle="modal"data-target="#ntsc_to_h264"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Upscaled, pillar-boxed HD H.264 access files from SD NTSC source">NTSC to H.264</button></span>
<dt>-c:v libx264</dt><dd>encodes video stream with libx264 (h264)</dd>
<dt>"</dt><dd>quotation mark to start filtergraph</dd>
<dt>yadif</dt><dd>deinterlacing filter (‘yet another deinterlacing filter’)<br>
By default, <ahref="https://ffmpeg.org/ffmpeg-filters.html#yadif-1"target="_blank">yadif</a> will output one frame for each frame. Outputting one frame for each <i>field</i> (thereby doubling the frame rate) with <code>yadif=1</code> may produce visually better results.</dd>
<dt>scale=1440:1080:flags=lanczos</dt><dd>resizes the image to 1440x1080, using the Lanczos scaling algorithm, which is slower but better than the default bilinear algorithm.</dd>
<dt>pad=1920:1080:(ow-iw)/2:(oh-ih)/2</dt><dd>pads the area around the 4:3 input video to create a 16:9 output video</dd>
<dt>format=yuv420p</dt><dd>specifies a pixel format of Y′C<sub>B</sub>C<sub>R</sub> 4:2:0</dd>
<dt>-vf</dt><dd>video filtering will be used (<code>-vf</code> is an alias of <code>-filter:v</code>)</dd>
<dt>"</dt><dd>start of filtergraph (see below)</dd>
<dt>yadif</dt><dd>deinterlacing filter (‘yet another deinterlacing filter’)<br>
By default, <ahref="https://ffmpeg.org/ffmpeg-filters.html#yadif-1"target="_blank">yadif</a> will output one frame for each frame. Outputting one frame for each <i>field</i> (thereby doubling the frame rate) with <code>yadif=1</code> may produce visually better results.</dd>
<dt>,</dt><dd>separates filters</dd>
<dt>format=yuv420p</dt><dd>chroma subsampling set to 4:2:0<br>
By default, <code>libx264</code> will use a chroma subsampling scheme that is the closest match to that of the input. This can result in Y′C<sub>B</sub>C<sub>R</sub> 4:2:0, 4:2:2, or 4:4:4 chroma subsampling. QuickTime and most other non-FFmpeg based players can’t decode H.264 files that are not 4:2:0, therefore it’s advisable to specify 4:2:0 chroma subsampling.</dd>
<dt>"</dt><dd>end of filtergraph</dd>
<dt><i>output file</i></dt><dd>path, name and extension of the output file</dd>
<p><code>"yadif,format=yuv420p"</code> is an FFmpeg <ahref="https://trac.ffmpeg.org/wiki/FilteringGuide#FiltergraphChainFilterrelationship"target="_blank">filtergraph</a>. Here the filtergraph is made up of one filter chain, which is itself made up of the two filters (separated by the comma).<br>
The enclosing quote marks are necessary when you use spaces within the filtergraph, e.g. <code>-vf "yadif, format=yuv420p"</code>, and are included above as an example of good practice.</p>
<p><b>Note:</b> FFmpeg includes several deinterlacers apart from <ahref="https://ffmpeg.org/ffmpeg-filters.html#yadif-1"target="_blank">yadif</a>: <ahref="https://ffmpeg.org/ffmpeg-filters.html#bwdif"target="_blank">bwdif</a>, <ahref="https://ffmpeg.org/ffmpeg-filters.html#w3fdif"target="_blank">w3fdif</a>, <ahref="https://ffmpeg.org/ffmpeg-filters.html#kerndeint"target="_blank">kerndeint</a>, and <ahref="https://ffmpeg.org/ffmpeg-filters.html#nnedi"target="_blank">nnedi</a>.</p>
<p>The inverse telecine procedure reverses the <ahref="https://en.wikipedia.org/wiki/Three-two_pull_down"target="_blank">3:2 pull down</a> process, restoring 29.97fps interlaced video to the 24fps frame rate of the original film source.</p>
<dl>
<dt>ffmpeg</dt><dd>starts the command</dd>
<dt>-i <i>input file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-c:v libx264</dt><dd>encode video as H.264</dd>
<dt>-vf "fieldmatch,yadif,decimate"</dt><dd>applies these three video filters to the input video.<br>
<ahref="https://ffmpeg.org/ffmpeg-filters.html#fieldmatch"target="_blank">Fieldmatch</a> is a field matching filter for inverse telecine - it reconstructs the progressive frames from a telecined stream.<br>
<ahref="https://ffmpeg.org/ffmpeg-filters.html#yadif-1"target="_blank">Yadif</a> (‘yet another deinterlacing filter’) deinterlaces the video. (Note that FFmpeg also includes several other deinterlacers).<br>
<p><code>"fieldmatch,yadif,decimate"</code> is an FFmpeg <ahref="https://trac.ffmpeg.org/wiki/FilteringGuide#FiltergraphChainFilterrelationship"target="_blank">filtergraph</a>. Here the filtergraph is made up of one filter chain, which is itself made up of the three filters (separated by commas).<br>
The enclosing quote marks are necessary when you use spaces within the filtergraph, e.g. <code>-vf "fieldmatch, yadif, decimate"</code>, and are included above as an example of good practice.</p>
<p>Note that if applying an inverse telecine procedure to a 29.97i file, the output framerate will actually be 23.976fps.</p>
<p>This command can also be used to restore other framerates.</p>
<divclass="sample-image">
<h2>Example</h2>
<p>Before and after inverse telecine:</p>
<imgsrc="img/ivtc_originalvideo.gif"alt="GIF of original video">
<imgsrc="img/ivtc_result.gif"alt="GIF of video after inverse telecine">
</div>
<pclass="link"></p>
</div>
</div>
</div>
</div>
<!-- ends Inverse telecine -->
<!-- Set field order -->
<spandata-toggle="modal"data-target="#set_field_order"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Set field order for interlaced video">Set field order</button></span>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-filter:v setfield=tff</dt><dd>Sets the field order to top field first. Use <code>setfield=bff</code> for bottom field first.</dd>
<dt>-c:v <i>video_codec</i></dt><dd>As a video filter is used, it is not possible to use <code>-c copy</code>. The video must be re-encoded with whatever video codec is chosen, e.g. <code>ffv1</code>, <code>v210</code> or <code>prores</code>.</dd>
<dt><i>output_file</i></dt><dd>path, name and extension of the output file</dd>
</dl>
<pclass="link"></p>
</div>
</div>
</div>
</div>
<!-- ends Set field order -->
<!-- Check interlacement -->
<spandata-toggle="modal"data-target="#check_interlacement"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Identify interlacement patterns in a video file">Check interlacement </button></span>
<p><code>ffmpeg -i <i>input file</i> -filter:v idet -f null -</code></p>
<dl>
<dt>ffmpeg</dt><dd>starts the command</dd>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-filter:v idet</dt><dd>This calls the <ahref="https://ffmpeg.org/ffmpeg-filters.html#idet"target="_blank">idet (detect video interlacing type) filter</a>.</dd>
<dt>-f null</dt><dd>Video is decoded with the <code>null</code> muxer. This allows video decoding without creating an output file.</dd>
<dt>-</dt><dd>FFmpeg syntax requires a specified output, and <code>-</code> is just a place holder. No file is actually created.</dd>
<p>This filter allows visual analysis of the information held in various bit depths of an audio stream. This can aid with identifying when a file that is nominally of a higher bit depth actually has been 'padded' with null information. The provided GIF shows a 16 bit WAV file (left) and then the results of converting that same WAV to 32 bit (right). Note that in the 32 bit version, there is still only information in the first 16 bits.</p>
<dl>
<dt>ffplay -f lavfi</dt><dd>starts the command and tells ffplay that you will be using the lavfi virtual device to create the input</dd>
<dt>"</dt><dd>quotation mark to start the lavfi filtergraph</dd>
<dt>amovie=<i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>asplit=2[out1][a]</dt><dd>splits the audio stream in two. One of these [a] will be passed to the filter, and the other [out1] will be the audible stream.</dd>
<dt>[a]abitscope=colors=purple|yellow[out0]</dt><dd>sends stream [a] into the abitscope filter, sets the colors for the channels to purple and yellow, and outputs the results to [out0]. This is what will be the visualization.</dd>
<dt>"</dt><dd>quotation mark to end the lavfi filtergraph</dd>
</dl>
<divclass="sample-image">
<h2>Comparison of mono 16 bit and mono 16 bit padded to 32 bit.</h2>
<spandata-toggle="modal"data-target="#astats"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Play a graphical output showing decibel levels of an input file">Graphic for audio</button></span>
<dt>-f lavfi</dt><dd>tells ffplay to use the <ahref="http://ffmpeg.org/ffmpeg-devices.html#lavfi"target="_blank">Libavfilter input virtual device</a></dd>
<dt>"</dt><dd>quotation mark to start the lavfi filtergraph</dd>
<dt>movie='<i>input.mp3</i>'</dt><dd>declares audio source file on which to apply filter</dd>
<dt>,</dt><dd>comma signifies the end of audio source section and the beginning of the filter section</dd>
<dt>astats=metadata=1</dt><dd>tells the astats filter to ouput metadata that can be passed to another filter (in this case adrawgraph)</dd>
<dt>:</dt><dd>divides between options of the same filter</dd>
<dt>reset=1</dt><dd>tells the filter to calculate the stats on every frame (increasing this number would calculate stats for groups of frames)</dd>
<dt>,</dt><dd>comma divides one filter in the chain from another</dd>
<dt>adrawgraph=lavfi.astats.Overall.Peak_level:max=0:min=-30.0</dt><dd>draws a graph using the overall peak volume calculated by the astats filter. It sets the max for the graph to 0 (dB) and the minimum to -30 (dB). For more options on data points that can be graphed see the <ahref="https://ffmpeg.org/ffmpeg-filters.html#astats-1"target="_blank">FFmpeg astats documentation</a></dd>
<spandata-toggle="modal"data-target="#brng"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Identify pixels out of broadcast range">Broadcast Range</button></span>
<dt>-f lavfi</dt><dd>tells ffplay to use the <ahref="http://ffmpeg.org/ffmpeg-devices.html#lavfi"target="_blank">Libavfilter input virtual device</a></dd>
<dt>"</dt><dd>quotation mark to start the lavfi filtergraph</dd>
<dt>movie='<i>input.mp4</i>'</dt><dd>declares video file source to apply filter</dd>
<dt>,</dt><dd>comma signifies closing of video source assertion and ready for filter assertion</dd>
<dt>signalstats=out=brng:</dt><dd>tells ffplay to use the signalstats command, output the data, use the brng filter</dd>
<dt>:</dt><dd>indicates there’s another parameter coming</dd>
<dt>color=cyan[out]</dt><dd>sets the color of out-of-range pixels to cyan</dd>
<dt>"</dt><dd>quotation mark to end the lavfi filtergraph</dd>
<spandata-toggle="modal"data-target="#vectorscope"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Vectorscope from video to screen">Vectorscope</button></span>
<dt>split=2[m][v]</dt><dd>Splits the input into two identical outputs and names them [m] and [v]</dd>
<dt>,</dt><dd>comma signifies there is another parameter coming</dd>
<dt>[v]vectorscope=b=0.7:m=color3:g=green[v]</dt><dd>asserts usage of the vectorscope filter and sets a light background opacity (b, alias for bgopacity), sets a background color style (m, alias for mode), and graticule color (g, alias for graticule)</dd>
<dt>,</dt><dd>comma signifies there is another parameter coming</dd>
<dt>[m][v]overlay=x=W-w:y=H-h</dt><dd>declares where the vectorscope will overlay on top of the video image as it plays</dd>
<!--Side by Side Videos/Temporal Difference Filter-->
<spandata-toggle="modal"data-target="#tempdif"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Play two videos side by side while applying the temporal difference filter to both">Side by Side Videos/Temporal Difference Filter</button></span>
<dt>[0:v:0]tblend=all_mode=difference128[a]</dt><dd>Applies the tblend filter (with the settings all_mode and difference128) to the first video stream from the first input and assigns the result to the output [a]</dd>
<dt>[1:v:0]tblend=all_mode=difference128[b]</dt><dd>Applies the tblend filter (with the settings all_mode and difference128) to the first video stream from the second input and assigns the result to the output [b]</dd>
<dt>[a][b]hstack[out]</dt><dd>Takes the outputs from the previous steps ([a] and [b] and uses the hstack (horizontal stack) filter on them to create the side by side output. This output is then named [out])</dd>
<dt>"</dt><dd>quotation mark to end filtergraph</dd>
<spandata-toggle="modal"data-target="#pull_specs"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Pull specs from video file">Pull specs</button></span>
<p>See also the <ahref="www.ffmpeg.org/ffprobe.html"target="_blank"> FFmpeg documentation on ffprobe</a> for a full list of flags, commands, and options.</p>
<spandata-toggle="modal"data-target="#one_thumbnail"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Export one thumbnail per video file">One thumbnail</button></span>
<spandata-toggle="modal"data-target="#multi_thumbnail"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Export many thumbnails per video file">Many thumbnails</button></span>
<dt>-vf fps=1/60</dt><dd>Creates a filtergraph to use for the streams. The rest of the command identifies filtering by frames per second, and sets the frames per second at 1/60 (which is one per minute). Omitting this will output all frames from the video.</dd>
<dt><i>output file</i></dt><dd>path, name and extension of the output file. In the example out%d.png where %d is a regular expression that adds a number (d is for digit) and increments with each frame (out1.png, out2.png, out3.png…). You may also chose a regular expression like out%04d.png which gives 4 digits with leading 0 (out0001.png, out0002.png, out0003.png, …).</dd>
<spandata-toggle="modal"data-target="#img_to_gif"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Converts images to GIF">Create GIF from still images</button></span>
<dt>-pattern_type glob</dt><dd>tells FFmpeg that the following mapping should "interpret like a <ahref="https://en.wikipedia.org/wiki/Glob_%28programming%29"target="_blank">glob</a>" (a "global command" function that relies on the * as a wildcard and finds everything that matches)</dd>
<dt>-i <i>"input_image_*.jpg"</i></dt><dd>maps all files in the directory that start with input_image_, for example input_image_001.jpg, input_image_002.jpg, input_image_003.jpg... etc.<br>
(The quotation marks are necessary for the above “glob” pattern!)</dd>
<dt>-vf scale=250x250</dt><dd>filter the video to scale it to 250x250; <code>-vf</code> is an alias for <code>-filter:v</code></dd>
<dt><i>output_file.gif</i></dt><dd>path and name of the output file</dd>
</dl>
<pclass="link"></p>
</div>
</div>
</div>
</div>
<!-- ends Images to GIF -->
<!-- Create GIF -->
<spandata-toggle="modal"data-target="#create_gif"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Create a GIF from a video">Create GIF from a video</button></span>
<p>The first command will use the palettegen filter to create a custom palette, then the second command will create the GIF with the paletteuse filter. The result is a high quality GIF.</p>
<dl>
<dt>ffmpeg</dt><dd>starts the command</dd>
<dt>-ss <i>HH:MM:SS</i></dt><dd>starting point of the GIF. If a plain numerical value is used it will be interpreted as seconds</dd>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file</dd>
Then the scale filter resizes the image. You can specify both the width and the height, or specify a value for one and use a scale value of <i>-1</i> for the other to preserve the aspect ratio. (For example, <code>500:-1</code> would create a GIF 500 pixels wide and with a height proportional to the original video). In the first script above, <code>:flags=lanczos</code> specifies that the Lanczos rescaling algorithm will be used to resize the image.<br>
Lastly, the palettegen filter generates the palette.</dd>
<dt>-t <i>3</i></dt><dd>duration in seconds (here 3; can be specified also with a full timestamp, i.e. here 00:00:03)</dd>
<dt>-loop <i>6</i></dt><dd>sets the number of times to loop the GIF. A value of <i>-1</i> will disable looping. Omitting <i>-loop</i> will use the default, which will loop infinitely.</dd>
<dt><i>output_file</i></dt><dd>path, name and extension of the output file</dd>
</dl>
<p>The second command has a slightly different filtergraph, which breaks down as follows:</p>
<dl>
<dt>-filter_complex "[0:v]fps=10, scale=500:-1:flags=lanczos[v], [v][1:v]paletteuse"</dt><dd><code>[0:v]fps=10,scale=500:-1:flags=lanczos[v]</code>: applies the fps and scale filters described above to the first input file (the video).<br>
<code>[v][1:v]paletteuse"</code>: applies the <code>paletteuse</code> filter, setting the second input file (the palette) as the reference file.</dd>
<p>This is a quick and easy method. Dithering is more apparent than the above method using the palette filters, but the file size will be smaller. Perfect for that “legacy” GIF look.</p>
<spandata-toggle="modal"data-target="#images_2_video"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Transcode an image sequence into uncompressed 10-bit video">Image sequence into video</button></span>
<dt>-f image2</dt><dd>forces the image file de-muxer for single image files</dd>
<dt>-framerate 24</dt><dd>Sets the input framerate to 24 fps. The image2 demuxer defaults to 25 fps.</dd>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file<br>
This must match the naming convention actually used! The regex %06d matches six digits long numbers, possibly with leading zeroes. This allows to read in ascending order, one image after the other, the full sequence inside one folder. For image sequences starting with 086400 (i.e. captured with a timecode starting at 01:00:00:00 and at 24 fps), add the flag <code>-start_number 086400</code> before <code>-i input_file_%06d.ext</code>. The extension for TIFF files is .tif or maybe .tiff; the extension for DPX files is .dpx (or eventually .cin for old files).</dd>
<dt>-c:v v210</dt><dd>encodes an uncompressed 10-bit video stream</dd>
<spandata-toggle="modal"data-target="#image-audio"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Create video from image and audio">Create video from image and audio</button></span>
<p>This command will take an image file (e.g. image.jpg) and an audio file (e.g. audio.mp3) and combine them into a video file that contains the audio track with the image used as the video. It can be useful in a situation where you might want to upload an audio file to a platform like YouTube. You may want to adjust the scaling with -vf to suit your needs.</p>
<dt>-vf drawtext=</dt><dd>This calls the drawtext filter with the following options:
<dl>
<dt>fontfile=<i>font_path</i></dt><dd> Set path to font. For example in macOS: <code>fontfile=/Library/Fonts/AppleGothic.ttf</code></dd>
<dt>fontsize=<i>font_size</i></dt><dd> Set font size. <code>35</code> is a good starting point for SD. Ideally this value is proportional to video size, for example use ffprobe to acquire video height and divide by 14.</dd>
<dt>text=<i>watermark_text</i></dt><dd> Set the content of your watermark text. For example: <code>text='FFMPROVISR EXAMPLE TEXT'</code></dd>
<dt>fontcolor=<i>font_colour</i></dt><dd> Set colour of font. Can be a text string such as <code>fontcolor=white</code> or a hexadecimal value such as <code>fontcolor=0xFFFFFF</code></dd>
<dt>alpha=0.4</dt><dd> Set transparency value.</dd>
<dt>x=(w-text_w)/2:y=(h-text_h)/2</dt><dd> Sets <i>x</i> and <i>y</i> coordinates for the watermark. These relative values will centre your watermark regardless of video dimensions.</dd>
</dl>
Note: <code>-vf</code> is a shortcut for <code>-filter:v</code>.</dd>
<dt><i>output_file</i></dt><dd>path, name and extension of the output file.</dd>
<dt>-filter_complex overlay=main_w-overlay_w-5:5</dt><dd>This calls the overlay filter and sets x and y coordinates for the position of the watermark on the video. Instead of hardcoding specific x and y coordinates, <code>main_w-overlay_w-5:5</code> uses relative coordinates to place the watermark in the upper right hand corner, based on the width of your input files. Please see the <ahref="https://www.ffmpeg.org/ffmpeg-all.html#toc-Examples-102"target="_blank">FFmpeg documentation for more examples.</a></dd>
<spandata-toggle="modal"data-target="#burn_in_timecode"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Burn in timecode ">Burn in timecode</button></span>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-vf drawtext=</dt><dd>This calls the drawtext filter with the following options:
<dt>"</dt><dd>quotation mark to start drawtext filter command</dd>
<dt>fontfile=<i>font_path</i></dt><dd> Set path to font. For example in macOS: <code>fontfile=/Library/Fonts/AppleGothic.ttf</code></dd>
<dt>fontsize=<i>font_size</i></dt><dd> Set font size. <code>35</code> is a good starting point for SD. Ideally this value is proportional to video size, for example use ffprobe to acquire video height and divide by 14.</dd>
<dt>timecode=<i>starting_timecode</i></dt><dd> Set the timecode to be displayed for the first frame. Timecode is to be represented as <code>hh:mm:ss[:;.]ff</code>. Colon escaping is determined by O.S, for example in Ubuntu <code>timecode='09\\:50\\:01\\:23'</code>. Ideally, this value would be generated from the file itself using ffprobe.</dd>
<dt>fontcolor=<i>font_colour</i></dt><dd> Set colour of font. Can be a text string such as <code>fontcolor=white</code> or a hexadecimal value such as <code>fontcolor=0xFFFFFF</code></dd>
<dt>box=1</dt><dd> Enable box around timecode</dd>
<dt>boxcolor=<i>box_colour</i></dt><dd> Set colour of box. Can be a text string such as <code>fontcolor=black</code> or a hexadecimal value such as <code>fontcolor=0x000000</code></dd>
<dt>rate=<i>timecode_rate</i></dt><dd> Framerate of video. For example <code>25/1</code></dd>
<dt>x=(w-text_w)/2:y=h/1.2</dt><dd> Sets <i>x</i> and <i>y</i> coordinates for the timecode. These relative values will horizontally centre your timecode in the bottom third regardless of video dimensions.</dd>
<dt>"</dt><dd>quotation mark to end drawtext filter command</dd>
<dt><i>output_file</i></dt><dd>path, name and extension of the output file.</dd>
<spandata-toggle="modal"data-target="#phase_shift"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Inverses the audio phase of the second channel">Flip phase shift</button></span>
<dt>"stereo|c0=c0|c1=-1*c1"</dt><dd>maps the output's first channel (c0) to the input's first channel and the output's second channel (c1) to the inverse of the input's second channel</dd>
<p>This filter calculates and outputs loudness information in json about an input file (labeled input) as well as what the levels would be if loudnorm were applied in its one pass mode (labeled output). The values generated can be used as inputs for a 'second pass' of the loudnorm filter allowing more accurate loudness normalization than if it is used in a single pass.</p>
<p>These instructions use the loudnorm defaults, which align well with PBS recommendations for target loudness. More information can be found at the <ahref="https://ffmpeg.org/ffmpeg-filters.html#loudnorm"target="_blank">loudnorm documentation</a>.</p>
<p>Information about PBS loudness standards can be found in the <ahref="http://www-tc.pbs.org/capt/Producing/TOS-2012-Pt2-Distribution.pdf"target="_blank">PBS Technical Operating Specifications</a> document. Information about EBU loudness standards can be found in the <ahref="https://tech.ebu.ch/docs/r/r128-2014.pdf"target="_blank">EBU R 128</a> recommendation document.</p>
<dt><i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-af loudnorm</dt><dd>activates the loudnorm filter</dd>
<dt>print_format=json</dt><dd>sets the output format for loudness information to json. This format makes it easy to use in a second pass. For a more human readable output, this can be set to <code>print_format=summary</code></dd>
<dt><i>-f null -</i></dt><dd>sets the file output to null (since we are only interested in the metadata generated)</dd>
<p>This will apply RIAA equalization to an input file allowing correct listening of audio transferred 'flat' (without EQ) from records that used this EQ curve. For more information about RIAA equalization see the <ahref="https://en.wikipedia.org/wiki/RIAA_equalization"target="_blank">Wikipedia page</a> on the subject.</p>
<dl>
<dt>ffmpeg</dt><dd>starts the command</dd>
<dt><i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-af aemphasis=type=riaa</dt><dd>activates the aemphasis filter and sets it to use RIAA equalization</dd>
<dt><i>output_file</i></dt><dd>path and name of output file</dd>
<p>This will normalize the loudness of an input using one pass, which is quicker but less accurate than using two passes. This command uses the loudnorm filter defaults for target loudness. These defaults align well with PBS recommendations, but loudnorm does allow targeting of specific loudness levels. More information can be found at the <ahref="https://ffmpeg.org/ffmpeg-filters.html#loudnorm"target="_blank">loudnorm documentation</a>.</p>
<p>Information about PBS loudness standards can be found in the <ahref="http://www-tc.pbs.org/capt/Producing/TOS-2012-Pt2-Distribution.pdf"target="_blank">PBS Technical Operating Specifications</a> document. Information about EBU loudness standards can be found in the <ahref="https://tech.ebu.ch/docs/r/r128-2014.pdf"target="_blank">EBU R 128</a> recommendation document.</p>
<dt><i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-af loudnorm</dt><dd>activates the loudnorm filter with default settings</dd>
<dt>dual_mono=true</dt><dd>(optional) Use this for mono files meant to be played back on stereo systems for correct loudness. Not necessary for multi-track inputs.</dd>
<dt>-ar 48k</dt><dd>Sets the output sample rate to 48 kHz. (The loudnorm filter upsamples to 192 kHz so it is best to manually set a desired output sample rate).</dd>
<p>This command allows using the levels calculated using a <ahref="#loudnorm_metadata">first pass of the loudnorm filter</a> to more accurately normalize loudness. This command uses the loudnorm filter defaults for target loudness. These defaults align well with PBS recommendations, but loudnorm does allow targeting of specific loudness levels. More information can be found at the <ahref="https://ffmpeg.org/ffmpeg-filters.html#loudnorm"target="_blank">loudnorm documentation</a>.</p>
<p>Information about PBS loudness standards can be found in the <ahref="http://www-tc.pbs.org/capt/Producing/TOS-2012-Pt2-Distribution.pdf"target="_blank">PBS Technical Operating Specifications</a> document. Information about EBU loudness standards can be found in the <ahref="https://tech.ebu.ch/docs/r/r128-2014.pdf"target="_blank">EBU R 128</a> recommendation document.</p>
<dt><i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-af loudnorm</dt><dd>activates the loudnorm filter with default settings</dd>
<dt>dual_mono=true</dt><dd>(optional) use this for mono files meant to be played back on stereo systems for correct loudness. Not necessary for multi-track inputs.</dd>
<dt>measured_I=<i>input_i</i></dt><dd>use the 'input_i' value (integrated loudness) from the first pass in place of input_i</dd>
<dt>measured_TP=<i>input_tp</i></dt><dd>use the 'input_tp' value (true peak) from the first pass in place of input_tp</dd>
<dt>measured_LRA=<i>input_lra</i></dt><dd>use the 'input_lra' value (loudness range) from the first pass in place of input_lra</dd>
<dt>measured_LRA=<i>input_thresh</i></dt><dd>use the 'input_thresh' value (threshold) from the first pass in place of input_thresh</dd>
<dt>offset=<i>target_offset</i></dt><dd>use the 'target_offset' value (offset) from the first pass in place of target_offset</dd>
<dt>-ar 48k</dt><dd>Sets the output sample rate to 48 kHz. (The loudnorm filter upsamples to 192 kHz so it is best to manually set a desired output sample rate).</dd>
<p>Bash scripts are plain text files saved with a .sh extension. This entry explains how they work with the example of a bash script named “Rewrap-MXF.sh”, which rewraps .mxf files in a given directory to .mov files.</p>
<dt>for file in *.mxf</dt><dd>starts the loop, and states what the input files will be. Here, the FFmpeg command within the loop will be applied to all files with an extension of .mxf.<br>
Per Bash syntax, within the command the variable is referred to by <b>“$file”</b>. The dollar sign is used to reference the variable ‘file’, and the enclosing quotation marks prevents reinterpretation of any special characters that may occur within the filename, ensuring that the original filename is retained.</dd>
<p><b>Note:</b> the shell script (.sh file) and all .mxf files to be processed must be contained within the same directory, and the script must be run from that directory.<br>
<p>As of Windows 10, it is possible to run Bash via <ahref="https://msdn.microsoft.com/en-us/commandline/wsl/about"target="_blank">Bash on Ubuntu on Windows</a>, allowing you to use <ahref="index.html#batch_processing_bash">bash scripting</a>. To enable Bash on Windows, see <ahref="https://msdn.microsoft.com/en-us/commandline/wsl/install_guide"target="_blank">these instructions</a>.</p>
<p>On Windows, the primary native command line programme is <b>PowerShell</b>. PowerShell scripts are plain text files saved with a .ps1 extension. This entry explains how they work with the example of a PowerShell script named “rewrap-mp4.ps1”, which rewraps .mp4 files in a given directory to .mkv files.</p>
<dt>foreach ($file in $inputfiles)</dt><dd>Creates a loop and states the subsequent code block will be applied to each file listed in <code>$inputfiles</code>.<br>
<dt>$output = [io.path]::ChangeExtension($file, '.mkv')</dt><dd>Sets up the output file: it will be located in the current folder and keep the same filename, but will have an .mkv extension instead of .mp4.</dd>
<dt>ffmpeg -i $file</dt><dd>Carry out the following FFmpeg command for each input file.<br>
<b>Note:</b> To call FFmpeg here as just ‘ffmpeg’ (rather than entering the full path to ffmpeg.exe), you must make sure that it’s correctly configured. See <ahref="http://adaptivesamples.com/how-to-install-ffmpeg-on-windows/"target="_blank">this article</a>, especially the section ‘Add to Path’.</dd>
<dt>-c copy</dt><dd>enable stream copy (no re-encode)</dd>
<dt>$output</dt><dd>The output file is set to the value of the <code>$output</code> variable declared above: i.e., the current file name with an .mkv extension.</dd>
<p><b>Note:</b> the PowerShell script (.ps1 file) and all .mp4 files to be rewrapped must be contained within the same directory, and the script must be run from that directory.<p>
<spandata-toggle="modal"data-target="#create_frame_md5s_v"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Create an MD5 checksum per video frame">Create MD5 checksums (video frames)</button></span>
<p>This will create an MD5 checksum for each group of 48000 audio samples.<br>
The number of samples per group can be set arbitrarily, but it's good practice to match the samplerate of the media file (so you will get one checksum per second).</p>
<p>Note: This filter trandscodes audio to 16 bit PCM by default. The generated framemd5s will represent this value. Validating these framemd5s will require using the same default settings.</p>
<spandata-toggle="modal"data-target="#qctools"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Create a QCTools report for a video file with audio track">QCTools report (with audio)</button></span>
<p>This will create an XML report for use in <ahref="https://github.com/bavc/qctools"target="_blank">QCTools</a> for a video file with one video track and one audio track. See also the <ahref="https://github.com/bavc/qctools/blob/master/docs/data_format.md#creating-a-qctools-document"target="_blank">QCTools documentation</a>.</p>
<dt>-f lavfi</dt><dd>tells ffprobe to use the <ahref="http://ffmpeg.org/ffmpeg-devices.html#lavfi"target="_blank">Libavfilter</a> input virtual device</dd>
<dd>This very large lump of commands declares the input file and passes in a request for all potential data signal information for a file with one video and one audio track</dd>
<dt>-show_frames</dt><dd>asks for information about each frame and subtitle contained in the input multimedia stream</dd>
<dt>-show_versions</dt><dd>asks for information related to program and library versions</dd>
<dt><i>input_file</i>.qctools.xml.gz</dt><dd>names the zipped data output file, which can be named anything but needs the extension qctools.xml.gz for compatibility issues</dd>
<spandata-toggle="modal"data-target="#qctools_no_audio"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Create a QCTools report for a video file with no audio track">QCTools report (no audio)</button></span>
<p>This will create an XML report for use in <ahref="https://github.com/bavc/qctools"target="_blank">QCTools</a> for a video file with one video track and NO audio track. See also the <ahref="https://github.com/bavc/qctools/blob/master/docs/data_format.md#creating-a-qctools-document"target="_blank">QCTools documentation</a>.</p>
<dt>-f lavfi</dt><dd>tells ffprobe to use the <ahref="http://ffmpeg.org/ffmpeg-devices.html#lavfi"target="_blank">Libavfilter</a> input virtual device</dd>
<dd>This very large lump of commands declares the input file and passes in a request for all potential data signal information for a file with one video and one audio track</dd>
<dt>-show_frames</dt><dd>asks for information about each frame and subtitle contained in the input multimedia stream</dd>
<dt>-show_versions</dt><dd>asks for information related to program and library versions</dd>
<dt><i>input_file</i>.qctools.xml.gz</dt><dd>names the zipped data output file, which can be named anything but needs the extension qctools.xml.gz for compatibility issues</dd>
<spandata-toggle="modal"data-target="#check_FFV1_fixity"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Decode your video and verify the internal CRC checksums">Check FFV1 fixity</button></span>
<p>This decodes your video and displays any CRC checksum mismatches. These errors will display in your terminal like this: <code>[ffv1 @ 0x1b04660] CRC mismatch 350FBD8A!at 0.272000 seconds</code></p>
<p>Frame crcs are enabled by default in FFV1 Version 3.</p>
<dl>
<dt>ffmpeg</dt><dd>starts the command</dd>
<dt>-report</dt><dd>Dump full command line and console output to a file named <i>ffmpeg-YYYYMMDD-HHMMSS.log</i> in the current directory. It also implies <code>-loglevel verbose</code>.</dd>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-f null</dt><dd>Video is decoded with the <code>null</code> muxer. This allows video decoding without creating an output file.</dd>
<dt>-</dt><dd>FFmpeg syntax requires a specified output, and <code>-</code> is just a place holder. No file is actually created. </dd>
<p>This command uses FFmpeg's <ahref="https://ffmpeg.org/ffmpeg-filters.html#readeia608"target="_blank">readeia608</a> filter to extract the hexadecimal values hidden within <ahref="https://en.wikipedia.org/wiki/EIA-608"target="_blank">EIA-608 (Line 21)</a> Closed Captioning, outputting a csv file. For more information about EIA-608, check out Adobe's <ahref="https://www.adobe.com/content/dam/Adobe/en/devnet/video/pdfs/introduction_to_closed_captions.pdf"target="_blank">Introduction to Closed Captions</a>.</p>
<p>If hex isn't your thing, closed captioning <ahref="http://www.theneitherworld.com/mcpoodle/SCC_TOOLS/DOCS/CC_CHARS.HTML"target="_blank">character</a> and <ahref="http://www.theneitherworld.com/mcpoodle/SCC_TOOLS/DOCS/CC_CODES.HTML"target="_blank">code</a> sets can be found in the documentation for SCTools.</p>
<dt>-f lavfi</dt><dd>tells ffprobe to use the <ahref="http://ffmpeg.org/ffmpeg-devices.html#lavfi"target="_blank">libavfilter</a> input virtual device</dd>
<dt>readeia608 -show_entries frame=pkt_pts_time:frame_tags=lavfi.readeia608.0.line,lavfi.readeia608.0.cc,lavfi.readeia608.1.line,lavfi.readeia608.1.cc -of csv</dt><dd>specifies the first two lines of video in which EIA-608 data (hexadecimal byte pairs) are identifiable by ffprobe, outputting comma separated values (CSV)</dd>
<dt>></dt><dd>redirects the standard output (the data created by ffprobe about the video)</dd>
<dt><i>output_file</i>.csv</dt><dd>names the CSV output file</dd>
<p>Side-by-side video with true EIA-608 captions on the left, zoomed in view of the captions on the right (with hex values represented). To achieve something similar with your own captioned video, try out the EIA608/VITC viewer in <ahref="https://github.com/bavc/qctools"target="_blank">QCTools</a>.</p>
<spandata-toggle="modal"data-target="#mandelbrot"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Make a mandelbrot test pattern video">Mandelbrot</button></span>
<dt>-f lavfi</dt><dd>tells FFmpeg to use the <ahref="http://ffmpeg.org/ffmpeg-devices.html#lavfi"target="_blank">Libavfilter</a> input virtual device</dd>
<dt>-i mandelbrot=size=1280x720:rate=25</dt><dd>asks for the <ahref="https://ffmpeg.org/ffmpeg-filters.html#mandelbrot"target="_blank">mandelbrot test filter</a> as input. Adjusting the <code>size</code> and <code>rate</code> options allows you to choose a specific frame size and framerate.</dd>
<dt>-c:v libx264</dt><dd>transcodes video from rawvideo to H.264. Set <code>-pix_fmt</code> to <code>yuv420p</code> for greater H.264 compatibility with media players.</dd>
<spandata-toggle="modal"data-target="#smpte_bars"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Make a SMPTE bars test pattern video">SMPTE bars</button></span>
<dt>-f lavfi</dt><dd>tells FFmpeg to use the <ahref="http://ffmpeg.org/ffmpeg-devices.html#lavfi"target="_blank">Libavfilter</a> input virtual device</dd>
<dt>-i smptebars=size=720x576:rate=25</dt><dd>asks for the <ahref="https://ffmpeg.org/ffmpeg-filters.html#allrgb_002c-allyuv_002c-color_002c-haldclutsrc_002c-nullsrc_002c-rgbtestsrc_002c-smptebars_002c-smptehdbars_002c-testsrc_002c-testsrc2_002c-yuvtestsrc"target="_blank">smptebars test filter</a> as input. Adjusting the <code>size</code> and <code>rate</code> options allows you to choose a specific frame size and framerate.</dd>
<dt>-c:v prores</dt><dd>transcodes video from rawvideo to Apple ProRes 4:2:2.</dd>
<spandata-toggle="modal"data-target="#test"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Make a test pattern video">Test pattern</button></span>
<dt>-f lavfi</dt><dd>tells FFmpeg to use the <ahref="http://ffmpeg.org/ffmpeg-devices.html#lavfi"target="_blank">libavfilter</a> input virtual device</dd>
<dt>-i testsrc=size=720x576:rate=25</dt><dd>asks for the testsrc filter pattern as input. Adjusting the <code>size</code> and <code>rate</code> options allows you to choose a specific frame size and framerate. <br>
The different test patterns that can be generated are listed <ahref="https://ffmpeg.org/ffmpeg-filters.html#allrgb_002c-allyuv_002c-color_002c-haldclutsrc_002c-nullsrc_002c-rgbtestsrc_002c-smptebars_002c-smptehdbars_002c-testsrc_002c-testsrc2_002c-yuvtestsrc"target="_blank">here</a>.</dd>
<dt>-c:v v210</dt><dd>transcodes video from rawvideo to 10-bit Uncompressed Y′C<sub>B</sub>C<sub>R</sub> 4:2:2. Alter this setting to set your desired codec.</dd>
<spandata-toggle="modal"data-target="#play_hd_smpte"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Test an HD video projector by playing the SMPTE colour bars pattern">Play HD SMPTE bars</button></span>
<dt>-f lavfi</dt><dd>tells ffplay to use the <ahref="http://ffmpeg.org/ffmpeg-devices.html#lavfi"target="_blank">Libavfilter</a> input virtual device</dd>
<dt>-i smptehdbars=size=1920x1080</dt><dd>asks for the <ahref="https://ffmpeg.org/ffmpeg-filters.html#allrgb_002c-allyuv_002c-color_002c-haldclutsrc_002c-nullsrc_002c-rgbtestsrc_002c-smptebars_002c-smptehdbars_002c-testsrc_002c-testsrc2_002c-yuvtestsrc"target="_blank">smptehdbars filter pattern</a> as input and sets the HD resolution. This generates a colour bars pattern, based on the SMPTE RP 219–2002.</dd>
<spandata-toggle="modal"data-target="#play_vga_smpte"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Test a VGA video projector by playing the SMPTE colour bars pattern">Play VGA SMPTE bars</button></span>
<dt>-f lavfi</dt><dd>tells ffplay to use the <ahref="http://ffmpeg.org/ffmpeg-devices.html#lavfi"target="_blank">Libavfilter</a> input virtual device</dd>
<dt>-i smptebars=size=640x480</dt><dd>asks for the <ahref="https://ffmpeg.org/ffmpeg-filters.html#allrgb_002c-allyuv_002c-color_002c-haldclutsrc_002c-nullsrc_002c-rgbtestsrc_002c-smptebars_002c-smptehdbars_002c-testsrc_002c-testsrc2_002c-yuvtestsrc"target="_blank">smptebars filter pattern</a> as input and sets the VGA (SD) resolution. This generates a colour bars pattern, based on the SMPTE Engineering Guideline EG 1–1990.</dd>
<spandata-toggle="modal"data-target="#sine_wave"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Generate a test audio file playing a sine wave">Sine wave</button></span>
<dt>-f lavfi</dt><dd>tells FFmpeg to use the <ahref="http://ffmpeg.org/ffmpeg-devices.html#lavfi"target="_blank">Libavfilter</a> input virtual device</dd>
<dt>-i "sine=frequency=1000:sample_rate=48000:duration=5"</dt><dd>Sets the signal to 1000 Hz, sampling at 48 kHz, and for 5 seconds</dd>
<dt>-c:a pcm_s16le</dt><dd>encodes the audio codec in <code>pcm_s16le</code> (the default encoding for wav files). pcm represents pulse-code modulation format (raw bytes), <code>16</code> means 16 bits per sample, and <code>le</code> means "little endian"</dd>
<spandata-toggle="modal"data-target="#smpte_bars_and_sine_wave"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Generate a SMPTE bars test video + audio playing a sine wave">SMPTE bars + Sine wave audio</button></span>
<dt>-f lavfi</dt><dd>tells FFmpeg to use the <ahref="http://ffmpeg.org/ffmpeg-devices.html#lavfi"target="_blank">libavfilter</a> input virtual device</dd>
<dt>-i smptebars=size=720x576:rate=25</dt><dd>asks for the <ahref="https://ffmpeg.org/ffmpeg-filters.html#allrgb_002c-allyuv_002c-color_002c-haldclutsrc_002c-nullsrc_002c-rgbtestsrc_002c-smptebars_002c-smptehdbars_002c-testsrc_002c-testsrc2_002c-yuvtestsrc"target="_blank">smptebars test filter</a> as input. Adjusting the <code>size</code> and <code>rate</code> options allows you to choose a specific frame size and framerate.</dd>
<dt>-f lavfi</dt><dd>use libavfilter again, but now for audio</dd>
<dt>-i "sine=frequency=1000:sample_rate=48000"</dt><dd>Sets the signal to 1000 Hz, sampling at 48 kHz.</dd>
<dt>-c:a pcm_s16le</dt><dd>encodes the audio codec in <code>pcm_s16le</code> (the default encoding for wav files). pcm represents pulse-code modulation format (raw bytes), <code>16</code> means 16 bits per sample, and <code>le</code> means "little endian"</dd>
<dt>-t 10</dt><dd>specifies recording time of 10 seconds</dd>
<dt>-c:v ffv1</dt><dd>Encodes to <ahref="https://en.wikipedia.org/wiki/FFV1"target="_blank">FFV1</a>. Alter this setting to set your desired codec.</dd>
<spandata-toggle="modal"data-target="#broken_file"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Make a broken file out of a perfectly good one">Broken file</button></span>
<dt>-i <i>input_file</i></dt><dd>takes in a normal file</dd>
<dt>-bsf noise=1</dt><dd>sets bitstream filters for all to 'noise'. Filters can be set on specific filters using syntax such as <code>-bsf:v</code> for video, <code>-bsf:a</code> for audio, etc. The <ahref="https://www.ffmpeg.org/ffmpeg-bitstream-filters.html#noise"target="_blank">noise filter</a> intentionally damages the contents of packets without damaging the container. This sets the noise level to 1 but it could be left blank or any number above 0.</dd>
<dt>-c copy</dt><dd>use stream copy mode to re-mux instead of re-encode</dd>
<dt><i>output_file</i></dt><dd>path, name and extension of the output file</dd>
<dt>-c:a pcm_s16le</dt><dd>tells FFmpeg to encode the audio stream in 16-bit linear PCM (<ahref="https://en.wikipedia.org/wiki/Endianness#Little-endian"target="_blank">little endian</a>)</dd>
<dt>-af "aresample=async=1000"</dt><dd>Uses the <ahref="https://ffmpeg.org/ffmpeg-filters.html#aresample-1"target="_blank">aresample</a> filter to stretch/squeeze samples to given timestamps, with a maximum of 1000 samples per second compensation.</dd>
<spandata-toggle="modal"data-target="#ocr_on_top"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Play video with OCR on top">Show OCR</button></span>
<p>Note: ffmpeg must be compiled with the tesseract library for this script to work (<code>--with-tesseract</code> if using the <code>brew install ffmpeg</code> method).</p>
<dt><i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-vf</dt><dd>creates a filtergraph to use for the streams</dd>
<dt>"</dt><dd>quotation mark to start filtergraph</dd>
<dt>ocr,</dt><dd>tells ffplay to use ocr as source and the comma signifies that the script is ready for filter assertion</dd>
<dt>drawtext=fontfile=/Library/Fonts/Andale Mono.ttf</dt><dd>tells ffplay to drawtext and use a specific font (Andale Mono) when doing so</dd>
<dt>:</dt><dd>indicates there’s another parameter coming</dd>
<dt>text=%{metadata\\\:lavfi.ocr.text}</dt><dd>tells ffplay what text to use when playing. In this case, calls for metadata that lives in the lavfi.ocr.text library</dd>
<dt>:</dt><dd>indicates there’s another parameter coming</dd>
<dt>fontcolor=white</dt><dd>specifies font color as white</dd>
<dt>"</dt><dd>quotation mark to end filtergraph</dd>
<spandata-toggle="modal"data-target="#ffprobe_ocr"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Export OCR from video to screen">Export OCR</button></span>
<p>Note: FFmpeg must be compiled with the tesseract library for this script to work (<code>--with-tesseract</code> if using the <code>brew install ffmpeg</code> method)</p>
<dt>-show_entries</dt><dd>sets a list of entries to show</dd>
<dt>frame_tags=lavfi.ocr.text</dt><dd>shows the <i>lavfi.ocr.text</i> tag in the frame section of the video</dd>
<dt>-f lavfi</dt><dd>tells ffprobe to use the <ahref="http://ffmpeg.org/ffmpeg-devices.html#lavfi"target="_blank">Libavfilter input virtual device</a></dd>
<dt>-i "movie=<i>input_file</i>,ocr"</dt><dd>declares 'movie' as <i>input_file</i> and passes in the 'ocr' command</dd>
<spandata-toggle="modal"data-target="#play_im_seq"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Play an image sequence directly as moving images">Play an image sequence</button></span>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file<br>
This must match the naming convention used! The regex %06d matches six-digit-long numbers, possibly with leading zeroes. This allows the full sequence to be read in ascending order, one image after the other.<br>
The extension for TIFF files is .tif or maybe .tiff; the extension for DPX files is .dpx (or even .cin for old files). Screenshots are often in .png format.</dd>
<p>If <code>-framerate</code> is omitted, the playback speed depends on the images’ file sizes and on the computer’s processing power. It may be rather slow for large image files.</p>
<p>You can navigate durationally by clicking within the playback window. Clicking towards the left-hand side of the playback window takes you towards the beginning of the playback sequence; clicking towards the right takes you towards the end of the sequence.</p>
<spandata-toggle="modal"data-target="#split_audio_video"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Create separate audio and video tracks from an audiovisual file">Split audio and video tracks</button></span>
<p>This command splits the original input file into a video and audio stream. The -map command identifies which streams are mapped to which file. To ensure that you’re mapping the right streams to the right file, run ffprobe before writing the script to identify which streams are desired.</p>
<dl>
<dt>ffmpeg</dt><dd>starts the command</dd>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<spandata-toggle="modal"data-target="#extract_audio"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Extract audio without loss from an AV file">Extract audio</button></span>
<p>This command combines two audio tracks present in a video file into one stream. It can be useful in situations where a downstream process, like YouTube’s automatic captioning, expect one audio track. To ensure that you’re mapping the right audio tracks run ffprobe before writing the script to identify which tracks are desired. More than two audio streams can be combined by extending the pattern present in the -filter_complex option.</p>
<spandata-toggle="modal"data-target="#append_mp3"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Generate two access MP3s from input. One with added audio (such as a copyright notice) and one unmodified.">Create access MP3 (+ access MP3 with copyright notice)</button></span>
<p>This script allows you to generate two derivative audio files from a master while appending audio from a separate file (for example a copyright or institutional notice) to one of them.</p>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file (the master file)</dd>
<dt>-i <i>input_file_to_append</i></dt><dd>path, name and extension of the input file (the file to be appended to access file)</dd>
<dt>-filter_complex</dt><dd>enables the complex filtering to manage splitting the input to two audio streams</dd>
<dt>[0:a:0]asplit=2[a][b];</dt><dd><code>asplit</code> allows audio streams to be split up for separate manipulation. This command splits the audio from the first input (the master file) into two streams "a" and "b"</dd>
<dt>[b]afifo[bb];</dt><dd>this buffers the stream "b" to help prevent dropped samples and renames stream to "bb"</dd>
<dt>[1:a:0][bb]concat=n=2:v=0:a=1[concatout]</dt><dd><code>concat</code> is used to join files. <code>n=2</code> tells the filter there are two inputs. <code>v=0:a=1</code> Tells the filter there are 0 video outputs and 1 audio output. This command appends the audio from the second input to the beginning of stream "bb" and names the output "concatout"</dd>
<dt>-map "[a]"</dt><dd>this maps the unmodified audio stream to the first output</dd>
<spandata-toggle="modal"data-target="#flip_image"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Flip the image">Flip video image</button></span>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-filter:v "hflip,vflip"</dt><dd>flips the image horizontally and vertically<br>By using only one of the parameters hflip or vflip for filtering the image is flipped on that axis only. The quote marks are not mandatory.</dd>
<dt>-c:a copy</dt><dd>re-encodes using the same audio codec<br>
For silent videos you can replace <code>-c:a copy</code> by <code>-an</code>.</dd>
<dt><i>output_file</i></dt><dd>path, name and extension of the output file</dd>
<spandata-toggle="modal"data-target="#create_iso"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Create ISO files for DVD access">Create ISO</button></span>
<p>Create an ISO file that can be used to burn a DVD. Please note, you will have to install dvdauthor. To install dvd author using Homebrew run: <code>brew install dvdauthor</code></p>
<spandata-toggle="modal"data-target="#compare_video_fingerprints"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Compare Video Fingerprints">Compare Video Fingerprints</button></span>
<spandata-toggle="modal"data-target="#generate_video_fingerprint"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Generate Video Fingerprint">Generate Video Fingerprint</button></span>
<spandata-toggle="modal"data-target="#csv-ydif"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Exports CSV for scene detection using YDIF">CSV with timecodes and YDIF</button></span>
<p>This ffprobe command prints a CSV correlating timestamps and their YDIF values, useful for determining cuts.</p>
<dl>
<dt>ffprobe</dt><dd>starts the command</dd>
<dt>-f lavfi</dt><dd>uses the <ahref="http://ffmpeg.org/ffmpeg-devices.html#lavfi"target="_blank">Libavfilter input virtual device</a> as chosen format</dd>
<dt>-i movie=<i>input file</i></dt><dd>path, name and extension of the input video file</dd>
<dt>,</dt><dd>comma signifies closing of video source assertion and ready for filter assertion</dd>
<dt>signalstats</dt><dd>tells ffprobe to use the signalstats command</dd>
<dt>-show_entries</dt><dd>sets list of entries to show per column, determined on the next line</dd>
<dt>frame=pkt_pts_time:frame_tags=lavfi.signalstats.YDIF</dt><dd>specifies showing the timecode (<code>pkt_pts_time</code>) in the frame stream and the YDIF section of the frame_tags stream</dd>
<dt>-of csv</dt><dd>sets the output printing format to CSV. <code>-of</code> is an alias of <code>-print_format</code>.</dd>
<spandata-toggle="modal"data-target="#cover_head"><buttontype="button"class="btn btn-default"data-toggle="tooltip"data-placement="bottom"title="Cover head switching noise">Cover head switching noise</button></span>
<p>This command will draw a black box over a small area of the bottom of the frame, which can be used to cover up head switching noise.</p>
<dl>
<dt>ffmpeg</dt><dd>starts the command</dd>
<dt>-i <i>input_file</i></dt><dd>path, name and extension of the input file</dd>
<dt>-filter:v drawbox=</dt>
<dd>This calls the drawtext filter with the following options:
<dl>
<dt>w=in_w</dt><dd>Width is set to the input width. Shorthand for this command would be w=iw</dd>
<dt>h=7</dt><dd>Height is set to 7 pixels.</dd>
<dt>y=ih-h</dt><dd>Y represents the offset, and ih-h sets it to the input height minus the height declared in the previous parameter, setting the box at the bottom of the frame.</dd>
<dt>t=max</dt><dd>T represents the thickness of the drawn box. Default is 3.</dd>
</dl>
</dd>
<dt><i>output_file</i></dt><dd>path and name of the output file</dd>
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<dl>
<dt>ffmpeg</dt><dd>starts the command</dd>
<dt>-i <i>input file</i></dt><dd>path, name and extension of the input file</dd>
<p>Made with ♥ at <ahref="http://wiki.curatecamp.org/index.php/Association_of_Moving_Image_Archivists_%26_Digital_Library_Federation_Hack_Day_2015"target="_blank">AMIA #AVhack15</a>! Contribute to the project via <ahref="https://github.com/amiaopensource/ffmprovisr">our GitHub page</a>!</p>