Merge pull request #393 from amiaopensource/kn/remove-unnecessary-command

Remove MKV → MP4 command

index.html

@@ -62,6 +62,7 @@
       <span class="intro-lead">Sister projects</span>
       <p><a href="https://dd388.github.io/crals/" target="_blank">Script Ahoy</a>: Community Resource for Archivists and Librarians Scripting</p>
       <p><a href="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><a href="https://pugetsoundandvision.github.io/micropops/" target="_blank">Micropops</a>: One liners and automation tools from Moving Image Preservation of Puget Sound</p>
       <p><a href="https://amiaopensource.github.io/cable-bible/" target="_blank">Cable Bible</a>: A Guide to Cables and Connectors Used for Audiovisual Tech</p>
     </div>
 
@@ -212,28 +213,6 @@
     </div>
     <!-- End Basic rewrap command -->
 
-    <!-- MKV to MP4 -->
-    <label class="recipe" for="mkv_to_mp4">Convert Matroska (MKV) to MP4</label>
-    <input type="checkbox" id="mkv_to_mp4">
-    <div class="hiding">
-      <h3>MKV to MP4</h3>
-      <p><code>ffmpeg -i <em>input_file</em>.mkv -c:v copy -c:a aac <em>output_file</em>.mp4</code></p>
-      <p>This will convert your Matroska (MKV) files to MP4 files.</p>
-      <dl>
-        <dt>ffmpeg</dt><dd>starts the command</dd>
-        <dt>-i <em>input_file</em></dt><dd>path and name of the input file<br>
-        The extension for the Matroska container is <code>.mkv</code>.</dd>
-        <dt>-c:v copy</dt><dd>copies the video stream without re-encoding it</dd>
-        <dt>-c:a aac</dt><dd>re-encodes the audio stream using the AAC audio codec<br>
-        Note that sadly MP4 cannot contain sound encoded by a PCM (Pulse-Code Modulation) audio codec.<br>
-        For silent videos you can replace <code>-c:a aac</code> by <code>-an</code>, which means that there will be no audio track in the output file.</dd>
-        <dt><em>output_file</em></dt><dd>path and name of the output file<br>
-        The extension for the MP4 container is <code>.mp4</code>.</dd>
-      </dl>
-      <p class="link"></p>
-    </div>
-    <!-- ends MKV to MP4 -->
-
     <!-- Rewrap DV -->
     <label class="recipe" for="rewrap-dv">Rewrap DV video to .dv file</label>
     <input type="checkbox" id="rewrap-dv">
@@ -314,7 +293,7 @@
       <dl>
         <dt>-preset <em>veryslow</em></dt><dd>This option tells FFmpeg to use the slowest preset possible for the best compression quality.<br>
         Available presets, from slowest to fastest, are: <code>veryslow</code>, <code>slower</code>, <code>slow</code>, <code>medium</code>, <code>fast</code>, <code>faster</code>, <code>veryfast</code>, <code>superfast</code>, <code>ultrafast</code>.</dd>
-        <dt>-crf <em>18</em></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>
+        <dt>-crf <em>18</em></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 for 8-bit content, with 0 being lossless and 51 the worst possible quality.<br>
           If no crf is specified, <code>libx264</code> will use a default value of 23. 18 is often considered a “visually lossless” compression.</dd>
       </dl>
       <p>For more information, see the <a href="https://trac.ffmpeg.org/wiki/Encode/H.264" target="_blank">FFmpeg and H.264 Encoding Guide</a> on the FFmpeg wiki.</p>
@@ -427,7 +406,7 @@
         <dt><em>output file</em></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, <a href="https://trac.ffmpeg.org/wiki/Encode/H.265#ConstantRateFactorCRF" target="_blank">corresponding</a> to a CRF of 23 in <a href="./index.html#transcode_h264">encoding H.264</a>, but should result in about half the file size.</p>
+      <p>A CRF of 28 for H.265 can be considered a medium setting, <a href="https://trac.ffmpeg.org/wiki/Encode/H.265#ConstantRateFactorCRF" target="_blank">corresponding</a> to a CRF of 23 in <a href="#transcode_h264">encoding H.264</a>, but should result in about half the file size.</p>
       <p>To create a higher quality file, you can add these presets:</p>
       <p><code>ffmpeg -i <em>input_file</em> -c:v libx265 -pix_fmt yuv420p -preset veryslow -crf 18 -c:a copy <em>output_file</em></code></p>
       <dl>
@@ -488,7 +467,7 @@
     <!-- ends WAV to MP3 -->
 
     <!-- append notice to access mp3 -->
-    <label class="recipe" for="append_mp3">Generate two access MP3s (with and without copyright).</label>
+    <label class="recipe" for="append_mp3">Generate two access MP3s (with and without copyright)</label>
     <input type="checkbox" id="append_mp3">
     <div class="hiding">
       <h3>Generate two access MP3s from input. One with appended audio (such as a copyright notice) and one unmodified.</h3>
@@ -623,7 +602,7 @@
     <label class="recipe" for="change_DAR">Change display aspect ratio without re-encoding</label>
     <input type="checkbox" id="change_DAR">
     <div class="hiding">
-      <h3>Change Display Aspect Ratio without reencoding video</h3>
+      <h3>Change Display Aspect Ratio without re-encoding video</h3>
       <p><code>ffmpeg -i <em>input_file</em> -c:v copy -aspect 4:3 <em>output_file</em></code></p>
       <dl>
         <dt>ffmpeg</dt><dd>starts the command</dd>
@@ -680,7 +659,7 @@
       <img src="./img/colourspace_metadata_mediainfo.png" alt="MediaInfo screenshots of colorspace metadata"><br>
       <p><span class="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><strong>Note:</strong> If you wish to embed colorspace metadata <em>without</em> changing to another colorspace, 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><strong>Note:</strong> If you wish to embed colorspace metadata <em>without</em> changing to another colorspace, 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 re-encoding 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 <a href="https://ffmpeg.org/ffmpeg-codecs.html#Codec-Options" target="_blank">codec options</a>.</p>
       <hr>
       <p id="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>
@@ -2243,7 +2222,7 @@
     <div class="hiding">
       <h3>Conway's Game of Life</h3>
       <p>Simulates <a href="https://en.wikipedia.org/wiki/Conway%27s_Game_of_Life" target="_blank">Conway's Game of Life</a></p>
-      <p><code>ffplay -f lavfi life=s=300x200:mold=10:r=60:ratio=0.1:death_color=#C83232:life_color=#00ff00,scale=1200:800</code></p>
+      <p><code>ffplay -f lavfi life=s=300x200:mold=10:r=60:ratio=0.1:death_color=#c83232:life_color=#00ff00,scale=1200:800</code></p>
       <dl>
         <dt>ffplay</dt><dd>starts the command</dd>
         <dt>-f lavfi</dt><dd>tells ffplay to use the <a href="https://ffmpeg.org/ffmpeg-devices.html#lavfi" target="_blank">Libavfilter</a> input virtual device</dd>
@@ -2251,13 +2230,13 @@
         <dt>:</dt><dd>indicates there’s another parameter coming</dd>
         <dt>mold=10:r=60:ratio=0.1</dt><dd>sets up the rules of the game: cell mold speed, video rate, and random fill ratio</dd>
         <dt>:</dt><dd>indicates there’s another parameter coming</dd>
-        <dt>death_color=#C83232:life_color=#00ff00</dt><dd>specifies color for cell death and cell life; mold_color can also be set</dd>
+        <dt>death_color=#c83232:life_color=#00ff00</dt><dd>specifies color for cell death and cell life; mold_color can also be set</dd>
         <dt>,</dt><dd>comma signifies closing of video source assertion and ready for filter assertion</dd>
         <dt>scale=1200:800</dt><dd>scale to 1280 width and 800 height</dd>
       </dl>
       <img src="img/life.gif" alt="GIF of above command">
       <p>To save a portion of the stream instead of playing it back infinitely, use the following command:</p>
-      <p><code>ffmpeg -f lavfi -i life=s=300x200:mold=10:r=60:ratio=0.1:death_color=#C83232:life_color=#00ff00,scale=1200:800 -t 5 <em>output_file</em></code></p>
+      <p><code>ffmpeg -f lavfi -i life=s=300x200:mold=10:r=60:ratio=0.1:death_color=#c83232:life_color=#00ff00,scale=1200:800 -t 5 <em>output_file</em></code></p>
       <p class="link"></p>
     </div>
     <!-- ends Game of Life -->

js/js.js

@@ -1,23 +1,38 @@
 $(document).ready(function() {
 
+  function appendLink(id) {
+    $(id).next('div').find('.link').empty();
+    $(id).next('div').find('.link').append("<small>Link to this command: <a href='https://amiaopensource.github.io/ffmprovisr/index.html" + id + "'>https://amiaopensource.github.io/ffmprovisr/index.html" + id + "</a></small>");
+  }
+
+  function moveToRecipe(id) {
+    document.getElementById(id.substring(1)).checked = true;
+    $('html, body').animate({ scrollTop: $(id).offset().top }, 1000);
+    appendLink(id)
+  }
+
   // open recipe window if a hash is found in URL
   if (window.location.hash) {
     id = window.location.hash
-    console.log(id.substring(1))
-    document.getElementById(id.substring(1)).checked = true;
-    $('html, body').animate({ scrollTop: $(id).offset().top}, 1000);
-    $(id).closest('div').find('.link').empty();
-    $(id).closest('div').find('.link').append("<small>Link to this command: <a href='https://amiaopensource.github.io/ffmprovisr/index.html"+window.location.hash+"'>https://amiaopensource.github.io/ffmprovisr/index.html"+window.location.hash+"</a></small>");
+    moveToRecipe(id)
   }
 
   // add hash URL when recipe is opened
   $('label[class="recipe"]').on("click", function(){
     id = $(this).attr("for");
     window.location.hash = ('#' + id)
-    $('#' + id).closest('div').find('.link').empty();
-    $('#' + id).closest('div').find('.link').append("<small>Link to this command: <a href='https://amiaopensource.github.io/ffmprovisr/index.html"+window.location.hash+"'>https://amiaopensource.github.io/ffmprovisr/index.html"+window.location.hash+"</a></small>");
-  });
+    appendLink('#' + id)
+  })
 
+  // open recipe when clicked
+  $('a').on("click", function(){
+    intralink = $(this).attr("href")
+    if (intralink[0] == "#") {
+      moveToRecipe(intralink)
+    }
+  })
+
+  // open all windows if button is clicked
   $('#open-all').on("click", function(){
     $('input[type=checkbox]').each(function(){
       this.checked = !this.checked;

readme.md

@@ -23,6 +23,26 @@ ffmprovisr
 ```
 This works currently under macOS, Linux and the Linux apps on Windows (Ubuntu and Debian tested). On classic Windows you can install the last [release](https://github.com/amiaopensource/ffmprovisr/releases) manually and the open `index.html` in a browser.
 
+#### Parseable list of the commands
+
+A list of all recipes in an easily parseable [ASCII text](recipes.txt) format is provided as well. It contains for each recipe its title and command in the following format:
+
+```
+# title of recipe 1
+ffmpeg command 1
+# title of recipe 2
+ffmpeg command 2
+
+...
+
+# title of recipe n-1
+ffmpeg command n-1
+# title of recipe n
+ffmpeg command n
+```
+
+The used [one-liner](scripts/get_recipe_list) is in the `scripts` folder.
+
 ## How do I contribute?
 
 You are welcome to edit the codebase yourself, or just supply the information and ask it to be added to the site.
@@ -53,6 +73,7 @@ You can read our contributor code of conduct [here](https://github.com/amiaopens
 *Code Contributors*:
 ablwr (Ashley)  
 bastibeckr (Basti Becker)  
+b00giehead (Joanna White)  
 bturkus  
 dericed (Dave Rice)  
 edsu (Ed Summers)  
@@ -62,6 +83,7 @@ kfrn (Katherine Frances Nagels)
 kgrons (Kathryn Gronsbell)  
 kieranjol (Kieran O'Leary)  
 llogan (Lou)  
+mgiraldo (Mauricio Giraldo)  
 pjotrek-b (Peter B.)  
 privatezero (Andrew Weaver)  
 retokromer (Reto Kromer)  
@@ -71,6 +93,7 @@ rfraimow
 ablwr (Ashley)  
 audiovisualopen  
 bastibeckr (Basti Becker)  
+b00giehead (Joanna White)  
 brainwane (Sumana Harihareswara)  
 bturkus  
 dericed (Dave Rice)  
@@ -89,6 +112,7 @@ kfrn (Katherine Frances Nagels)
 kgrons (Kathryn Gronsbell)  
 kieranjol (Kieran O'Leary)  
 llogan (Lou)  
+mgiraldo (Mauricio Giraldo)  
 mulvya  
 nkrabben (Nick Krabbenhoeft)  
 pjotrek-b (Peter B.)  
@@ -100,9 +124,9 @@ ross-spencer (Ross Spencer)
 todrobbins (Tod Robbins)  
 
 Repo: amiaopensource/ffmprovisr  
-Code Contributors: 15  
-All Contributors: 30   
-Last updated: 2018-04-22 (4:2:2 Day)  
+Code Contributors: 17  
+All Contributors: 32   
+Last updated: 2019-02-11  
 
 ## AVHack Team
 

recipes.txt

@@ -0,0 +1,210 @@
+# Basic rewrap command
+ffmpeg -i input_file.ext -c copy -map 0 output_file.ext
+# Rewrap DV video to .dv file
+ffmpeg -i input_file -f rawvideo -c:v copy output_file.dv
+# Transcode to deinterlaced Apple ProRes LT
+ffmpeg -i input_file -c:v prores -profile:v 1 -vf yadif -c:a pcm_s16le output_file.mov
+# Transcode to an H.264 access file
+ffmpeg -i input_file -c:v libx264 -pix_fmt yuv420p -c:a aac output_file
+# Transcode from DCP to an H.264 access file
+ffmpeg -i input_video_file.mxf -i input_audio_file.mxf -c:v libx264 -pix_fmt yuv420p -c:a aac output_file.mp4
+# Transcode your file with the FFV1 Version 3 Codec in a Matroska container
+ffmpeg -i input_file -map 0 -dn -c:v ffv1 -level 3 -g 1 -slicecrc 1 -slices 16 -c:a copy output_file.mkv -f framemd5 -an framemd5_output_file
+# Convert DVD to H.264
+ffmpeg -i concat:input_file_1\|input_file_2\|input_file_3 -c:v libx264 -c:a aac output_file.mp4
+# Transcode to an H.265/HEVC MP4
+ffmpeg -i input_file -c:v libx265 -pix_fmt yuv420p -c:a copy output_file
+# Transcode to an Ogg Theora
+ffmpeg -i input_file -acodec libvorbis -b:v 690k output_file
+# Convert WAV to MP3
+ffmpeg -i input_file.wav -write_id3v1 1 -id3v2_version 3 -dither_method rectangular -out_sample_rate 48k -qscale:a 1 output_file.mp3
+# Generate two access MP3s (with and without copyright).
+ffmpeg -i input_file -i input_file_to_append -filter_complex "[0:a:0]asplit=2[a][b];[b]afifo[bb];[1:a:0][bb]concat=n=2:v=0:a=1[concatout]" -map "[a]" -codec:a libmp3lame -dither_method modified_e_weighted -qscale:a 2 output_file.mp3 -map "[concatout]" -codec:a libmp3lame -dither_method modified_e_weighted -qscale:a 2 output_file_appended.mp3
+# Convert WAV to AAC/MP4
+ffmpeg -i input_file.wav -c:a aac -b:a 128k -dither_method rectangular -ar 44100 output_file.mp4
+# Transform 4:3 aspect ratio into 16:9 with pillarbox
+ffmpeg -i input_file -filter:v "pad=ih*16/9:ih:(ow-iw)/2:(oh-ih)/2" -c:a copy output_file
+# Transform 16:9 aspect ratio video into 4:3 with letterbox
+ffmpeg -i input_file -filter:v "pad=iw:iw*3/4:(ow-iw)/2:(oh-ih)/2" -c:a copy output_file
+# Flip video image
+ffmpeg -i input_file -filter:v "hflip,vflip" -c:a copy output_file
+# Transform SD to HD with pillarbox
+ffmpeg -i input_file -filter:v "colormatrix=bt601:bt709, scale=1440:1080:flags=lanczos, pad=1920:1080:240:0" -c:a copy output_file
+# Change display aspect ratio without re-encoding
+ffmpeg -i input_file -c:v copy -aspect 4:3 output_file
+# Convert colorspace of video
+ffmpeg -i input_file -c:v libx264 -vf colormatrix=src:dst output_file
+# Modify image and sound speed
+ffmpeg -i input_file -r output_fps -filter_complex "[0:v]setpts=input_fps/output_fps*PTS[v]; [0:a]atempo=output_fps/input_fps[a]" -map "[v]" -map "[a]" output_file
+# Synchronize video and audio streams
+ffmpeg -i input_file -itsoffset 0.125 -i input_file -map 1:v -map 0:a -c copy output_file
+# Clarify stream properties
+ffprobe input_file -show_streams
+# Crop video
+ffmpeg -i input_file -vf "crop=width:height" output_file
+# Change video color to black and white
+ffmpeg -i input_file -filter_complex hue=s=0 -c:a copy output_file
+# Extract audio without loss from an AV file
+ffmpeg -i input_file -c:a copy -vn output_file
+# Combine audio tracks
+ffmpeg -i input_file -filter_complex "[0:a:0][0:a:1]amerge[out]" -map 0:v -map "[out]" -c:v copy -shortest output_file
+# Inverses the audio phase of the second channel
+ffmpeg -i input_file -af pan="stereo|c0=c0|c1=-1*c1" output_file
+# Calculate Loudness Levels
+ffmpeg -i input_file -af loudnorm=print_format=json -f null -
+# RIAA Equalization
+ffmpeg -i input_file -af aemphasis=type=riaa output_file
+# Reverse CD Pre-Emphasis
+ffmpeg -i input_file -af aemphasis=type=cd output_file
+# One Pass Loudness Normalization
+ffmpeg -i input_file -af loudnorm=dual_mono=true -ar 48k output_file
+# Two Pass Loudness Normalization
+ffmpeg -i input_file -af loudnorm=dual_mono=true:measured_I=input_i:measured_TP=input_tp:measured_LRA=input_lra:measured_thresh=input_thresh:offset=target_offset:linear=true -ar 48k output_file
+# Fix A/V sync issues by resampling audio
+ffmpeg -i input_file -c:v copy -c:a pcm_s16le -af "aresample=async=1000" output_file
+# Join (concatenate) two or more files of the same type
+ffmpeg -f concat -i mylist.txt -c copy output_file
+# Join (concatenate) two or more files of different types
+ffmpeg -i input_1.avi -i input_2.mp4 -filter_complex "[0:v:0][0:a:0][1:v:0][1:a:0]concat=n=2:v=1:a=1[video_out][audio_out]" -map "[video_out]" -map "[audio_out]" output_file
+# Split one file into several smaller segments
+ffmpeg -i input_file -c copy -map 0 -f segment -segment_time 60 -reset_timestamps 1 output_file-%03d.mkv
+# Trim file
+ffmpeg -i input_file -ss 00:02:00 -to 00:55:00 -c copy -map 0 output_file
+# Create an excerpt, starting from the beginning of the file
+ffmpeg -i input_file -t 5 -c copy -map 0 output_file
+# Create a new file with the first five seconds trimmed off the original
+ffmpeg -i input_file -ss 5 -c copy -map 0 output_file
+# Create a new file with the final five seconds of the original
+ffmpeg -sseof -5 -i input_file -c copy -map 0 output_file
+# Trim silence from beginning of an audio file
+ffmpeg -i input_file -af silenceremove=start_threshold=-57dB:start_duration=1:start_periods=1  -c:a your_codec_choice -ar your_sample_rate_choice output_file
+# Trim silence from the end of an audio file
+ffmpeg -i input_file -af areverse,silenceremove=start_threshold=-57dB:start_duration=1:start_periods=1,areverse -c:a your_codec_choice -ar your_sample_rate_choice output_file
+# Upscaled, pillar-boxed HD H.264 access files from SD NTSC source
+ffmpeg -i input_file -c:v libx264 -filter:v "yadif, scale=1440:1080:flags=lanczos, pad=1920:1080:(ow-iw)/2:(oh-ih)/2, format=yuv420p" output_file
+# Deinterlace video
+ffmpeg -i input_file -c:v libx264 -vf "yadif,format=yuv420p" output_file
+# Inverse telecine
+ffmpeg -i input_file -c:v libx264 -vf "fieldmatch,yadif,decimate" output_file
+# Set field order for interlaced video
+ffmpeg -i input_file -c:v video_codec -filter:v setfield=tff output_file
+# Identify interlacement patterns in a video file
+ffmpeg -i input file -filter:v idet -f null -
+# Create opaque centered text watermark
+ffmpeg -i input_file -vf drawtext="fontfile=font_path:fontsize=font_size:text=watermark_text:fontcolor=font_color:alpha=0.4:x=(w-text_w)/2:y=(h-text_h)/2" output_file
+# Overlay image watermark on video
+ffmpeg -i input_video file -i input_image_file -filter_complex overlay=main_w-overlay_w-5:5 output_file
+# Burn in timecode
+ffmpeg -i input_file -vf drawtext="fontfile=font_path:fontsize=font_size:timecode=starting_timecode:fontcolor=font_colour:box=1:boxcolor=box_colour:rate=timecode_rate:x=(w-text_w)/2:y=h/1.2" output_file
+Embed subtitles
+ffmpeg -i input_file -i subtitles_file -c copy -c:s mov_text output_file
+# Export one thumbnail per video file
+ffmpeg -i input_file -ss 00:00:20 -vframes 1 thumb.png
+# Export many thumbnails per video file
+ffmpeg -i input_file -vf fps=1/60 out%d.png
+# Create GIF from still images
+ffmpeg -f image2 -framerate 9 -pattern_type glob -i "input_image_*.jpg" -vf scale=250x250 output_file.gif
+# Create GIF from a video
+ffmpeg -ss HH:MM:SS -i input_file -filter_complex "fps=10,scale=500:-1:flags=lanczos,palettegen" -t 3 palette.png
+ffmpeg -ss HH:MM:SS -i input_file -i palette.png -filter_complex "[0:v]fps=10, scale=500:-1:flags=lanczos[v], [v][1:v]paletteuse" -t 3 -loop 6 output_file
+# Transcode an image sequence into uncompressed 10-bit video
+ffmpeg -f image2 -framerate 24 -i input_file_%06d.ext -c:v v210 output_file
+# Create video from image and audio
+ffmpeg -r 1 -loop 1 -i image_file -i audio_file -acodec copy -shortest -vf scale=1280:720 output_file
+# Audio Bitscope
+ffplay -f lavfi "amovie=input_file, asplit=2[out1][a], [a]abitscope=colors=purple|yellow[out0]"
+# Play a graphical output showing decibel levels of an input file
+ffplay -f lavfi "amovie='input.mp3', astats=metadata=1:reset=1, adrawgraph=lavfi.astats.Overall.Peak_level:max=0:min=-30.0:size=700x256:bg=Black[out]"
+# Identify pixels out of broadcast range
+ffplay -f lavfi "movie='input.mp4', signalstats=out=brng:color=cyan[out]"
+# Vectorscope from video to screen
+ffplay input_file -vf "split=2[m][v], [v]vectorscope=b=0.7:m=color3:g=green[v], [m][v]overlay=x=W-w:y=H-h"
+# Side by Side Videos/Temporal Difference Filter
+ffmpeg -i input01 -i input02 -filter_complex "[0:v:0]tblend=all_mode=difference128[a];[1:v:0]tblend=all_mode=difference128[b];[a][b]hstack[out]" -map [out] -f nut -c:v rawvideo - | ffplay -
+# Use xstack to arrange output layout of multiple video sources
+ffplay -f lavfi -i testsrc -vf "split=3[a][b][c],[a][b][c]xstack=inputs=3:layout=0_0|0_h0|0_h0+h1[out]"
+# Pull specs from video file
+ffprobe -i input_file -show_format -show_streams -show_data -print_format xml
+# Strip metadata
+ffmpeg -i input_file -map_metadata -1 -c:v copy -c:a copy output_file
+# Batch processing (Mac/Linux)
+for file in *.mxf; do ffmpeg -i "$file" -map 0 -c copy "${file%.mxf}.mov"; done
+# Check decoder errors
+ffmpeg -i input_file -f null -
+# Check FFV1 fixity
+ffmpeg -report -i input_file -f null -
+# Create MD5 checksums (video frames)
+ffmpeg -i input_file -f framemd5 -an output_file
+# Create MD5 checksums (audio samples)
+ffmpeg -i input_file -af "asetnsamples=n=48000" -f framemd5 -vn output_file
+# Create MD5 checksum(s) for A/V stream data only
+ffmpeg -i input_file -map 0:v:0 -c:v copy -f md5 output_file_1 -map 0:a:0 -c:a copy -f md5 output_file_2
+# Get checksum for video/audio stream
+ffmpeg -loglevel error -i input_file -map 0:v:0 -f hash -hash md5 -
+# QCTools report (with audio)
+ffprobe -f lavfi -i "movie=input_file:s=v+a[in0][in1], [in0]signalstats=stat=tout+vrep+brng, cropdetect=reset=1:round=1, idet=half_life=1, split[a][b];[a]field=top[a1];[b]field=bottom, split[b1][b2];[a1][b1]psnr[c1];[c1][b2]ssim[out0];[in1]ebur128=metadata=1, astats=metadata=1:reset=1:length=0.4[out1]" -show_frames -show_versions -of xml=x=1:q=1 -noprivate | gzip > input_file.qctools.xml.gz
+# QCTools report (no audio)
+ffprobe -f lavfi -i "movie=input_file,signalstats=stat=tout+vrep+brng, cropdetect=reset=1:round=1, idet=half_life=1, split[a][b];[a]field=top[a1];[b]field=bottom,split[b1][b2];[a1][b1]psnr[c1];[c1][b2]ssim" -show_frames -show_versions -of xml=x=1:q=1 -noprivate | gzip > input_file.qctools.xml.gz
+# Read/Extract EIA-608 Closed Captioning
+ffprobe -f lavfi -i movie=input_file,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 > input_file.csv
+# Make a mandelbrot test pattern video
+ffmpeg -f lavfi -i mandelbrot=size=1280x720:rate=25 -c:v libx264 -t 10 output_file
+# Make a SMPTE bars test pattern video
+ffmpeg -f lavfi -i smptebars=size=720x576:rate=25 -c:v prores -t 10 output_file
+# Make a test pattern video
+ffmpeg -f lavfi -i testsrc=size=720x576:rate=25 -c:v v210 -t 10 output_file
+# Play HD SMPTE bars
+ffplay -f lavfi -i smptehdbars=size=1920x1080
+# Play VGA SMPTE bars
+ffplay -f lavfi -i smptebars=size=640x480
+# Generate a sine wave test audio file
+ffmpeg -f lavfi -i "sine=frequency=1000:sample_rate=48000:duration=5" -c:a pcm_s16le output_file.wav
+# SMPTE bars + Sine wave audio
+ffmpeg -f lavfi -i "smptebars=size=720x576:rate=25" -f lavfi -i "sine=frequency=1000:sample_rate=48000" -c:a pcm_s16le -t 10 -c:v ffv1 output_file
+# Make a broken file
+ffmpeg -i input_file -bsf noise=1 -c copy output_file
+# Conway's Game of Life
+ffplay -f lavfi life=s=300x200:mold=10:r=60:ratio=0.1:death_color=#C83232:life_color=#00ff00,scale=1200:800
+# Play video with OCR
+ffplay input_file -vf "ocr,drawtext=fontfile=/Library/Fonts/Andale Mono.ttf:text=%{metadata\\\:lavfi.ocr.text}:fontcolor=white"
+# Export OCR from video to screen
+ffprobe -show_entries frame_tags=lavfi.ocr.text -f lavfi -i "movie=input_file,ocr"
+# Compare Video Fingerprints
+ffmpeg -i input_one -i input_two -filter_complex signature=detectmode=full:nb_inputs=2 -f null -
+# Generate Video Fingerprint
+ffmpeg -i input -vf signature=format=xml:filename="output.xml" -an -f null -
+# Play an image sequence
+ffplay -framerate 5 input_file_%06d.ext
+# Split audio and video tracks
+ffmpeg -i input_file -map 0:v:0 video_output_file -map 0:a:0 audio_output_file
+# Merge audio and video tracks
+ffmpeg -i video_file -i audio_file -map 0:v -map 1:a -c copy output_file
+# Create ISO files for DVD access
+ffmpeg -i input_file -aspect 4:3 -target ntsc-dvd output_file.mpg
+# CSV with timecodes and YDIF
+ffprobe -f lavfi -i movie=input_file,signalstats -show_entries frame=pkt_pts_time:frame_tags=lavfi.signalstats.YDIF -of csv
+# Cover head switching noise
+ffmpeg -i input_file -filter:v drawbox=w=iw:h=7:y=ih-h:t=max output_file
+# Record and live-stream simultaneously
+ffmpeg -re -i ${INPUTFILE} -map 0 -flags +global_header -vf scale="1280:-1,format=yuv420p" -pix_fmt yuv420p -level 3.1 -vsync passthrough -crf 26 -g 50 -bufsize 3500k -maxrate 1800k -c:v libx264 -c:a aac -b:a 128000 -r:a 44100 -ac 2 -t ${STREAMDURATION} -f tee "[movflags=+faststart]${TARGETFILE}|[f=flv]${STREAMTARGET}"
+# View FFmpeg subprogram information
+ffmpeg -h type=name
+# Rip a CD with CD Paranoia
+cdparanoia -L -B -O [Drive Offset] [Starting Track Number]-[Ending Track Number] output_file.wav
+# Rip a CD with Cdda2wav
+cdda2wav -L0 -t all -cuefile -paranoia paraopts=retries=200,readahead=600,minoverlap=sectors-per-request-1 -verbose-level all output.wav
+# Compare two images
+compare -metric ae image1.ext image2.ext null:
+# Create thumbnails of images
+mogrify -resize 80x80 -format jpg -quality 75 -path thumbs *.jpg
+# Creates grid of images from text file
+montage @list.txt -tile 6x12 -geometry +0+0 output_grid.jpg
+# Get file signature data
+convert -verbose input_file.ext | grep -i signature
+# Removes exif metadata
+mogrify -path ./stripped/ -strip *.jpg
+# Resizes image to specific pixel width
+convert input_file.ext -resize 750 output_file.ext
+# Transcoding to/from FLAC
+flac --best --keep-foreign-metadata --preserve-modtime --verify input.wav
+flac --decode --keep-foreign-metadata --preserve-modtime --verify input.flac

scripts/get_recipe_list

@@ -0,0 +1 @@
+curl https://amiaopensource.github.io/ffmprovisr/ -s | grep -E '<h3>.*</h3>|<p><code>.*</code></p>' | sed 's/.*<code>\(.*\)<\/code>/\1/' | sed 's/.*<h3>\(.*\)<\/h3>/# \1/' | grep -v '\*\*\*' | sed -e 's/<[^>]*>//g'