V4L capturing/script: Difference between revisions
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(Initial version) |
(Fixes and updated version of the script) |
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* Encode a file: Run <code>~/v4l-capture.sh --encode <name-of-output-directory> <how-long-it-is></code> |
* Encode a file: Run <code>~/v4l-capture.sh --encode <name-of-output-directory> <how-long-it-is></code> |
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*# If you don't specify a duration, you can finish encoding with <kbd>ctrl+c</kbd>, or with <kbd>q</kbd> and <kbd>enter</kbd> |
*# If you don't specify a duration, you can finish encoding with <kbd>ctrl+c</kbd>, or with <kbd>q</kbd> and <kbd>enter</kbd> |
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* Review the file: run <code>~/v4l-capture.sh -- |
* Review the file: run <code>~/v4l-capture.sh --review <name-of-output-directory></code> |
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*# Use ctrl, shift, alt and your mouse wheel to scroll through the video |
*# Use ctrl, shift, alt and your mouse wheel to scroll through the video |
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*# Backwards frame-seek won't always work before the video has finished recording |
*# Backwards frame-seek won't always work before the video has finished recording |
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*# Transcode: run <code><name-of-output-directory>/<name-of-output-directory>.sh</code> on the command-line |
*# Transcode: run <code><name-of-output-directory>/<name-of-output-directory>.sh</code> on the command-line |
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Note: timestamps differ slightly between the review file and the accurate copy. The review file has a fixed framerate so you can scroll around in it during playback, the accurate copy has a variable framerate so you can measure it during transcoding. Accurate timestamps are |
Note: timestamps differ slightly between the review file and the accurate copy. The review file has a fixed framerate so you can scroll around in it during playback, the accurate copy has a variable framerate so you can measure it during transcoding. Accurate timestamps are displayed in the review video itself to make transcoding easier. |
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== The script == |
== The script == |
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;; |
;; |
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esac |
esac |
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} |
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timed_progress() { |
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PADDING="$( echo -n "$MESSAGE" | tr -c '' ' ' )" |
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CURRENT_TIME_MS="$2" |
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} |
} |
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if [ "$PARAMETER" = out_time_ms ] && [ -n "$VALUE" -a "$VALUE" != 0 ] |
if [ "$PARAMETER" = out_time_ms ] && [ -n "$VALUE" -a "$VALUE" != 0 ] |
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then |
then |
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timed_progress "$1" "$VALUE" |
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elif [ "$PARAMETER" = progress -a "$VALUE" = end ] |
elif [ "$PARAMETER" = progress -a "$VALUE" = end ] |
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then |
then |
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fi |
fi |
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} |
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sox_progress() { |
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MESSAGE="$1..." |
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echo -n $'\r'"$( date +%c ) $MESSAGE" >&2 |
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read -d $'\r' |
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while read -d $'\r' PERCENT TIME EXTRA |
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do |
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if [ "$TIME" = "00:00:00.00" ] |
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then |
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echo -n $'\r'"$( echo -n "$MESSAGE" | tr -c '' ' ' )"$'\r' >&2 |
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elif [ -n "$TIME" ] |
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then |
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timed_progress "$1" "$( parse_time "$TIME" )000" |
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fi |
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done |
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} |
} |
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-p|--p|--pr|--pro|--prof|--profi|--profil|--profile) |
-p|--p|--pr|--pro|--prof|--profi|--profil|--profile) |
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sed -i "$CONFIG_SCRIPT" -e '/^DEFAULT_NOISE_PROFILE=.*/d' |
sed -i "$CONFIG_SCRIPT" -e '/^DEFAULT_NOISE_PROFILE=.*/d' |
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echo "DEFAULT_NOISE_PROFILE='$( "$CMD_GST" -q alsasrc device="$AUDIO_DEVICE" ! wavenc ! fdsink | |
echo "DEFAULT_NOISE_PROFILE='$( "$CMD_GST" -q alsasrc device="$AUDIO_DEVICE" ! wavenc ! fdsink | $CMD_SOX -t wav - -n trim 0 1 noiseprof | tr '\n' '\t' )'" >> "$CONFIG_SCRIPT" |
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echo "Updated $CONFIG_SCRIPT with default noise profile" |
echo "Updated $CONFIG_SCRIPT with default noise profile" |
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;; |
;; |
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date +"%c $( tput setaf 4 )$FILE$( tput sgr0 ) started" |
date +"%c $( tput setaf 4 )$FILE$( tput sgr0 ) started" |
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START_TIME="$( date +%s )" |
START_TIME="$( date +%s )" |
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# Encoding command: |
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$CMD_FFMPEG \ |
$CMD_FFMPEG \ |
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\ |
\ |
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PREV_TIME= |
PREV_TIME= |
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# Review command: |
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$CMD_MPV --keep-open --ontop --pause --config-dir="$DIRECTORY/mpv-config" --term-status-msg 'TIME ${=time-pos}'$'\n' "$FILE.webm" 2>&1 | \ |
$CMD_MPV --keep-open --ontop --pause --config-dir="$DIRECTORY/mpv-config" --term-status-msg 'TIME ${=time-pos}'$'\n' "$FILE.webm" 2>&1 | \ |
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while read TITLE TIME |
while read TITLE TIME |
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fi |
fi |
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else |
else |
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NOISE_PROFILE="$( $CMD_FFMPEG -ss "${NOISE_TIME/-*/}" -i "$ORIGINAL" -t "${NOISE_TIME/*-/}" -vn -c:a pcm_s16le -f wav - | |
NOISE_PROFILE="$( $CMD_FFMPEG -ss "${NOISE_TIME/-*/}" -i "$ORIGINAL" -t "${NOISE_TIME/*-/}" -vn -c:a pcm_s16le -f wav - | $CMD_SOX -t wav - -n noiseprof 2>/dev/null )" |
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fi |
fi |
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HAVE_NOISE_PROFILE=true |
HAVE_NOISE_PROFILE=true |
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END |
END |
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echo -n 'measuring...' >&2 |
echo -n 'measuring...' >&2 |
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# Segment playback command: |
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$CMD_FFPLAY $SEGMENT_START_OPTS -i "$ORIGINAL" -vf "$TRANSCODE_VIDEO_FILTERS, cropdetect=24:2:1500" 2> >( |
$CMD_FFPLAY $SEGMENT_START_OPTS -i "$ORIGINAL" -vf "$TRANSCODE_VIDEO_FILTERS, cropdetect=24:2:1500" 2> >( |
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sed -une 's/.*t:0*\([0-9]*\)\.\([0-9]*\) \(crop=[0-9:]*\)$/\1\2 \3/p' | { |
sed -une 's/.*t:0*\([0-9]*\)\.\([0-9]*\) \(crop=[0-9:]*\)$/\1\2 \3/p' | { |
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fi |
fi |
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# Step two: |
# Step two: audio extraction command |
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$ |
START_TIME="$( date +%s )" |
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else $CMD_SOX --temp "$DIRECTORY" -S -t wav - "$AUDIO_FILE" noisered <( echo "$NOISE_PROFILE" ) "${NOISE_REDUCTION:-0.21}" $AUDIO_FILTERS |
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fi \ |
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< <( |
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-i "$ORIGINAL" \ |
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-filter_complex "$AUDIO_FILTER$DELAY_FILTER" \ |
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-map "$OUT_STREAM" \ |
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-vn -f wav - |
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) |
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CURRENT_STAGE=$(( CURRENT_STAGE + 1 )) |
CURRENT_STAGE=$(( CURRENT_STAGE + 1 )) |
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fi |
fi |
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fi |
fi |
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# Transcoding command: |
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$CMD_FFMPEG \ |
$CMD_FFMPEG \ |
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\ |
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\ |
\ |
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-progress file://>( ffmpeg_progress "$( tput setaf 4 )$SEGMENT_FILENAME$( tput sgr0 )$STAGE_MESSAGE" ) \ |
-progress file://>( ffmpeg_progress "$( tput setaf 4 )$SEGMENT_FILENAME$( tput sgr0 )$STAGE_MESSAGE" ) \ |
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Revision as of 17:22, 12 October 2015
This script is designed for use with the V4L capturing page. It should be enough for most use cases, but search this page for CMD_ if you'd rather take the commands and do it yourself.
Installation
- Save the script: copy the block into a file in your home directory called
v4l-capture.sh - Make the script executable: run
chmod o+x ~/v4l-capture.shon the command-line - Initialise the script:
~/v4l-capture.sh --init - Configure the script: open
~/.v4l-capturercin an editor - Go through the V4L capturing instructions, setting values in the configuration file based on environment variables in the instructions
- Measure your audio noise: close your configuration file, pause a tape or tune to a silent TV channel, then run
~/v4l-capture.sh --profile - See the changes: reopen
~/.v4l-capturercand make sure there's a huge line full of numbers at the bottom
Ordinary usage
- Get the duration: Fast-forward/rewind a tape and write down how long it is (e.g. a 6-hour tape would be written as 06:00:00)
- Encode a file: Run
~/v4l-capture.sh --encode <name-of-output-directory> <how-long-it-is>- If you don't specify a duration, you can finish encoding with ctrl+c, or with q and enter
- Review the file: run
~/v4l-capture.sh --review <name-of-output-directory>- Use ctrl, shift, alt and your mouse wheel to scroll through the video
- Backwards frame-seek won't always work before the video has finished recording
- Configure the transcode script: open
<name-of-output-directory>/<name-of-output-directory>.sh- Try different settings to see what you like
- Set the start/end times from the numbers in the bottom-left of the review file
- Scrolling around in review mode will continually copy the review file's timestamps - paste them and edit the microsecond count to match the time in the bottom-left
- Transcode: run
<name-of-output-directory>/<name-of-output-directory>.shon the command-line
Note: timestamps differ slightly between the review file and the accurate copy. The review file has a fixed framerate so you can scroll around in it during playback, the accurate copy has a variable framerate so you can measure it during transcoding. Accurate timestamps are displayed in the review video itself to make transcoding easier.
The script
#!/bin/bash
#
# Encode/transcode a video - see http://linuxtv.org/wiki/index.php/V4L_capturing
#
# Approximate system requirements for the default settings:
# * about 10GB disk space for every hour of the initial recording
# * about 1-2GB disk space for every hour of transcoded recordings
# * dual 1.5GHz processor
HELP_MESSAGE="Usage: $0 --init
$0 --profile
$0 --encode <directory> [duration]
$0 --review <directory>
Record a video into a directory (one directory per video).
--init create an initial ~/.v4l-capturerc
please edit this file before your first recording
--profile update ~/.v4l-capturerc with your system's default noise profile
pause a tape or tune to a silent channel for the best profile
--encode create a faithful recording in the specified directory
Specify a duration to finish recording after that amount of time
--review play a special copy of the video, designed to help find segment boundaries
(you can run this from a second window while encoding)
Once you've encoded a file, the script in the same directory will explain how to transcode.
"
CONFIGURATION='#
# CONFIGURATION FOR V4L CAPTURE SCRIPT
# See http://linuxtv.org/wiki/index.php/V4L_capturing
#
#
# VARIABLES YOU NEED TO EDIT
# See the wiki page for details about finding these values
#
# Set these based on your hardware/location:
TV_NORM="PAL" # (search Wikipedia for the exact norm in your country)
AUDIO_DEVICE="hw:CARD=SAA7134,DEV=0"
VIDEO_DEVICE="/dev/video0"
VIDEO_INPUT="1"
VIDEO_CONTROLS="brightness=128,contrast=64,saturation=64,hue=0"
# PAL video is approximately 720x576 resolution. VHS tapes have about half the horizontal quality, but this post convinced me to encode at 720x576 anyway:
# http://forum.videohelp.com/threads/215570-Sensible-resolution-for-VHS-captures?p=1244415#post1244415
VIDEO_CAPABILITIES="video/x-raw, format=UYVY, framerate=25/1, width=720, height=576"
AUDIO_CAPABILITIES="audio/x-raw, rate=32000, channels=2"
# Encode settings:
ENCODE_VIDEO_FORMAT="libx264"
ENCODE_AUDIO_FORMAT="flac"
ENCODE_MUXER_FORMAT="matroska"
ENCODE_VIDEO_OPTIONS="-preset ultrafast -x264opts crf=18:keyint=50:min-keyint=5 -pix_fmt yuv422p" # change "18" to "0" for true lossless video
ENCODE_AUDIO_OPTIONS=""
ENCODE_MUXER_OPTIONS=""
ENCODE_EXTENSION="mkv"
# Transcode settings:
TRANSCODE_VIDEO_FORMAT="libx264"
TRANSCODE_AUDIO_FORMAT="libmp3lame"
TRANSCODE_MUXER_FORMAT="matroska"
TRANSCODE_VIDEO_OPTIONS="-flags +ilme+ildct -preset veryslow -crf 22 -pix_fmt yuv422p" # increase/decrease "22" for smaller files/better quality
TRANSCODE_AUDIO_OPTIONS="-b:a 256k" # for some reason, ffmpeg desyncs audio and video if "-q:a" is used instead of "-b:a"
TRANSCODE_MUXER_OPTIONS=""
#
# COMMON TRANSCODE SETTINGS
#
# For systems that do not automatically handle audio/video initialisation times:
DEFAULT_AUDIO_DELAY="0"
# Reducing noise:
DEFAULT_NOISE_REDUCTION="0.21"
# remove overscan:
DEFAULT_VIDEO_FILTERS="crop=(iw-10):(ih-14):3:0, pad=iw+10:ih+14:(ow-iw)/2:(oh-ih)/2"
# make all files are about as loud as each other (note: this filter uses sox instead of ffmpeg - see the man page for details):
DEFAULT_AUDIO_FILTERS="norm -1"
# Once you have set the above, record a silent source (e.g. a paused tape or silent TV channel)
# then call '"$0"' --profile to build a default noise profile
DEFAULT_NOISE_PROFILE=""
'
#
# CONFIGURATION SECTION
#
CONFIG_SCRIPT="$HOME/.v4l-capturerc"
[ -e "$CONFIG_SCRIPT" ] && source "$CONFIG_SCRIPT"
#
# OPTIONS FOR THE webm FILE:
# Detects several events that should help find segment boundaries
#
ENCODE_WEBM_VIDEO_OPTS="-crf 10 -b:v 512K -cpu-used 16 -g 20"
ENCODE_WEBM_AUDIO_OPTS=
# build the main image:
ENCODE_WEBM_FILTER_MAIN_IMAGE="
[0:v]
crop=(iw-14):(ih-14):7:0,
blackdetect=d=0.4,
cropdetect=limit=14:round=16:reset=1,
scale=352:(ih*352/iw),
drawtext=text='%{pts\\:hms}': x=50: y=main_h-50: fontsize=24: fontcolor=white: borderw=3,
pad=360:(ih+(ih*72/iw)+100):(ow-iw)/2,
setpts=PREV_INPTS,
setpts=PREV_INPTS [main_image]
"
# detect silence:
ENCODE_WEBM_FILTER_DETECT_SILENCE="[0:a] silencedetect=d=2:n=-25dB; [0:a] asplit=1 [wa]"
# build the waveform. This visualisation doesn't let us align waveforms precisely to frames, so we cheat:
# pick a ridiculously high framerate, knowing all but the closest one to a video frame will be thrown away,
# then duplicate frame contents into nearby frames so whichever frames are picked contain about a video frame's worth of data
ENCODE_WEBM_FILTER_WAVEFORM_IMAGES=4 # reduce this number to save a little CPU during encoding
ENCODE_WEBM_FILTER_WAVEFORM="
[0:a] showwaves=s=$(( 72 / ENCODE_WEBM_FILTER_WAVEFORM_IMAGES ))x100:rate=$(( 25 * ENCODE_WEBM_FILTER_WAVEFORM_IMAGES )), split [waveform0][waveform1];
[waveform0] pad=72:ih [waveforms0];
$(
for (( IMAGE=1; IMAGE < ENCODE_WEBM_FILTER_WAVEFORM_IMAGES-1; ++IMAGE ))
do echo "[waveform$IMAGE] setpts=PREV_INPTS, split [waveform+$IMAGE][waveform$((IMAGE+1))]; [waveforms$((IMAGE-1))][waveform+$IMAGE] overlay=overlay_w*$IMAGE [waveforms$((IMAGE))];"
done )
[waveform$((ENCODE_WEBM_FILTER_WAVEFORM_IMAGES-1))]
setpts=PREV_INPTS [waveform+$((ENCODE_WEBM_FILTER_WAVEFORM_IMAGES-1))];
[waveforms$((ENCODE_WEBM_FILTER_WAVEFORM_IMAGES-2))][waveform+$((ENCODE_WEBM_FILTER_WAVEFORM_IMAGES-1))] overlay=overlay_w*$((ENCODE_WEBM_FILTER_WAVEFORM_IMAGES-1)) [waveform]
"
# build the small image:
ENCODE_WEBM_FILTER_SMALL_IMAGE="[0:v] scale=72:(ih*72/iw), pad=72:ih+100 [small_image]"
# combine image and waveform into film strip view:
ENCODE_WEBM_FILTER_FILM_STRIP="
[small_image][waveform] overlay=0:(main_h-overlay_h) [film_strip+0];
[film_strip+0] split [film_strip+1][to_combine+0]; [main_image][to_combine+0] overlay=72*0:(main_h-overlay_h) [combined+0];
[film_strip+1] setpts=PREV_INPTS, split [film_strip+2][to_combine+1]; [combined+0][to_combine+1] overlay=72*1:(main_h-overlay_h) [combined+1];
[film_strip+2] setpts=PREV_INPTS, split [film_strip+3][to_combine+2]; [combined+1][to_combine+2] overlay=72*2:(main_h-overlay_h) [combined+2];
[film_strip+3] setpts=PREV_INPTS, split [film_strip+4][to_combine+3]; [combined+2][to_combine+3] overlay=72*3:(main_h-overlay_h) [combined+3];
[film_strip+4] setpts=PREV_INPTS, split [film_strip+5][to_combine+4]; [combined+3][to_combine+4] overlay=72*4:(main_h-overlay_h) [combined+4];
[film_strip+5] setpts=PREV_INPTS [to_combine+5]; [combined+4][to_combine+5] overlay=72*5:(main_h-overlay_h) [wv]
"
ENCODE_WEBM_FILTER="
$ENCODE_WEBM_FILTER_MAIN_IMAGE;
$ENCODE_WEBM_FILTER_DETECT_SILENCE;
$ENCODE_WEBM_FILTER_WAVEFORM;
$ENCODE_WEBM_FILTER_SMALL_IMAGE;
$ENCODE_WEBM_FILTER_FILM_STRIP
"
#
# UTILITY FUNCTIONS
# You should only need to edit these if you're making significant changes to the way the script works
#
pluralise() {
case "$1" in
""|0) return
;;
1) echo "$1 $2, "
;;
*) echo "$1 ${2}s, "
;;
esac
}
timed_progress() {
PADDING="$( echo -n "$MESSAGE" | tr -c '' ' ' )"
CURRENT_TIME_MS="$2"
TIME_REMAINING="$(( ( $(date +%s) - $START_TIME ) * ( $TOTAL_TIME_MS - $CURRENT_TIME_MS ) / $CURRENT_TIME_MS ))"
HOURS_REMAINING=$(( $TIME_REMAINING / 3600 ))
MINUTES_REMAINING=$(( ( $TIME_REMAINING - $HOURS_REMAINING*3600 ) / 60 ))
SECONDS_REMAINING=$(( $TIME_REMAINING - $HOURS_REMAINING*3600 - $MINUTES_REMAINING*60 ))
HOURS_REMAINING="$( pluralise $HOURS_REMAINING hour )"
MINUTES_REMAINING="$( pluralise $MINUTES_REMAINING minute )"
SECONDS_REMAINING="$( pluralise $SECONDS_REMAINING second )"
MESSAGE_REMAINING="$( echo "$HOURS_REMAINING$MINUTES_REMAINING$SECONDS_REMAINING" | sed -e 's/, $//' -e 's/\(.*\),/\1 and/' )"
MESSAGE="$1 $(( 100 * CURRENT_TIME_MS / TOTAL_TIME_MS ))% ETA: $( date +%X -d "$TIME_REMAINING seconds" ) (about $MESSAGE_REMAINING)"
MESSAGE="$( date +%c ) $MESSAGE" >&2
echo -n $'\r'"$PADDING"$'\r'"$MESSAGE" >&2
}
ffmpeg_progress() {
MESSAGE="$1..."
echo -n $'\r'"$( date +%c ) $MESSAGE" >&2
if [ -z "$TOTAL_TIME_MS" -o "$TOTAL_TIME_MS" = 0 ]
then
while IFS== read PARAMETER VALUE
do
if [ "$PARAMETER" = out_time ]
then
PADDING="$( echo -n "$MESSAGE" | tr -c '' ' ' )"
MESSAGE="$( date +%c ) $1 ${VALUE/%???????/}" >&2
echo -n $'\r'"$PADDING"$'\r'"$MESSAGE" >&2
elif [ "$PARAMETER" = progress -a "$VALUE" = end ]
then
echo -n $'\r'"$( echo -n "$MESSAGE" | tr -c '' ' ' )"$'\r' >&2
return
fi
done
else
while IFS== read PARAMETER VALUE
do
if [ "$PARAMETER" = out_time_ms ] && [ -n "$VALUE" -a "$VALUE" != 0 ]
then
timed_progress "$1" "$VALUE"
elif [ "$PARAMETER" = progress -a "$VALUE" = end ]
then
echo -n $'\r'"$( echo -n "$MESSAGE" | tr -c '' ' ' )"$'\r' >&2
return
fi
done
fi
}
sox_progress() {
MESSAGE="$1..."
echo -n $'\r'"$( date +%c ) $MESSAGE" >&2
read -d $'\r'
while read -d $'\r' PERCENT TIME EXTRA
do
if [ "$TIME" = "00:00:00.00" ]
then
echo -n $'\r'"$( echo -n "$MESSAGE" | tr -c '' ' ' )"$'\r' >&2
elif [ -n "$TIME" ]
then
timed_progress "$1" "$( parse_time "$TIME" )000"
fi
done
}
# convert 00:00:00.000 to a count in milliseconds
parse_time() {
echo $((
$(date -d "1970-01-01T${1}Z" +%s )*1000
+ $(
echo "$1" | sed \
-e 's/.*\.\([0-9]\)$/\100/' \
-e 's/.*\.\([0-9][0-9]\)$/\10/' \
-e 's/.*\.\([0-9][0-9][0-9]\)$/\1/' \
-e '/^[0-9][0-9][0-9]$/! s/.*/0/' \
-e 's/^0*\([0-9]\)/\1/'
)
))
}
ms_to_s() {
case "$1" in
. ) echo ".00$1" ;;
.. ) echo ".0$1" ;;
...) echo ".$1" ;;
* ) echo "$1" | sed -e 's/\(.*\)\(...\)$/\1.\2/'
esac
}
# get the full name of the script's directory
set_directory() {
if [ -z "$1" ]
then
echo "$HELP_MESSAGE"
exit 1
else
DIRECTORY="$( readlink -f "$1" )"
FILE="$DIRECTORY/$( basename "$DIRECTORY" )"
fi
}
# actual commands that do something interesting:
CMD_GST="gst-launch-1.0"
CMD_FFMPEG="nice -n +20 ffmpeg -loglevel 23"
CMD_FFPLAY="ffplay"
CMD_SOX="nice -n +20 sox"
CMD_MPV="mpv"
#
# MAIN LOOP
#
case "$1" in
-i|--i|--in|--ini|--init)
if [ -e "$CONFIG_SCRIPT" ]
then
echo "Please delete $CONFIG_SCRIPT if you want to recreate it"
else
echo "$CONFIGURATION" > "$CONFIG_SCRIPT"
echo "Now edit $( tput setaf 4 )$CONFIG_SCRIPT$( tput sgr0 ) to match your system"
fi
;;
-p|--p|--pr|--pro|--prof|--profi|--profil|--profile)
sed -i "$CONFIG_SCRIPT" -e '/^DEFAULT_NOISE_PROFILE=.*/d'
echo "DEFAULT_NOISE_PROFILE='$( "$CMD_GST" -q alsasrc device="$AUDIO_DEVICE" ! wavenc ! fdsink | $CMD_SOX -t wav - -n trim 0 1 noiseprof | tr '\n' '\t' )'" >> "$CONFIG_SCRIPT"
echo "Updated $CONFIG_SCRIPT with default noise profile"
;;
-e|--e|--en|--enc|--enco|--encod|--encode)
# Build a pipeline with sources being encoded as MPEG4 video and FLAC audio, then being muxed into a Matroska container.
# FLAC and Matroska are used during encoding to ensure we don't lose much data between passes
set_directory "$2"
mkdir -p -- "$DIRECTORY" || exit
if [ -z "$3" ]
then
DURATION_OPTIONS=
TOTAL_TIME_MS=
else
DURATION_OPTIONS="-t $3"
TOTAL_TIME_MS="$( parse_time "$3" )000"
fi
if [ -e "$FILE.$ENCODE_EXTENSION" ]
then
echo "Please delete the old $FILE.$ENCODE_EXTENSION before making a new recording"
exit 1
fi
cat <<EOF > "$FILE.sh"
#!$0 --transcode
#
# The original $( basename "$FILE" ).$ENCODE_EXTENSION accurately represents the source.
# If you would like to get rid of imperfections in the source (e.g.
# splitting it into segments), edit then run this file.
#
# ORIGINAL FILE
#
# This is the original file:
original "$( basename "$FILE" ).$ENCODE_EXTENSION"
#
# AUDIO DELAY
#
# If you need to manually synchronise audio and video,
# set this to the duration in seconds (can be fractional):
#
audio_delay ${AUDIO_DELAY:-0.0}
#
# SYSTEM NOISE REDUCTION
#
# Your system will add a small amount of noise to any recording.
# You can undo this by specifying the amount of noise reduction
# (the default value is usually fine), and can optionally specify
# a time in the video to use for the noise profile.
# Uncomment the following line if you have configured a default
# noise profile with \`--profile\`:
#reduce_noise $DEFAULT_NOISE_REDUCTION
# If this video starts with silence, you can use that instead of
# the default noise profile.
#reduce_noise $DEFAULT_NOISE_REDUCTION 00:00:00-00:00:01
# Uncomment the following line to disable noise reduction:
#no_reduce_noise
#
# LOCAL SETTINGS
#
# You might want to override some settings, for example to filter
# videos based on the quality of this specific source.
#
TRANSCODE_VIDEO_FILTERS="$DEFAULT_VIDEO_FILTERS"
# See https://ffmpeg.org/ffmpeg-filters.html for information,
# Here are some examples - remove the leading '#' to make one work:
# lightly denoise a video - useful for good-quality VHS tapes:
#TRANSCODE_VIDEO_FILTERS="il=d:d:d, pp=tn, hqdn3d, il=i:i:i, $DEFAULT_VIDEO_FILTERS"
# significantly denoise interlaced video - useful for poor-quality VHS tapes:
#TRANSCODE_VIDEO_FILTERS="il=d:d:d, pp=tn, hqdn3d=luma_spatial=6:2:luma_tmp=20, il=i:i:i, $DEFAULT_VIDEO_FILTERS"
# significantly reduce "snow" (video noise) - not yet released as of ffmpeg 2.7:
#TRANSCODE_VIDEO_FILTERS="il=d:d:d, removegrain=9:0:0:0, pp=tn, il=i:i:i, $DEFAULT_VIDEO_FILTERS"
# VHS LP recordings produce tape hiss above about 4KHz.
# This adds an audio filter to silence all noise above that range with minimal effect below it:
#TRANSCODE_AUDIO_FREQUENCY_RANGE="0 4000"
# add any other filters you like:
TRANSCODE_AUDIO_FILTERS="$DEFAULT_AUDIO_FILTERS"
#
# SEGMENTS
#
# You can split a video into one or more files. To create a segment,
# add a line like this:
#
# segment "name of output file.avi" start-end start-end ...
#
# each "start-end" block specifies part of the file used in the segment.
# You can use this to e.g. split adverts out of a TV program
#
# Here are some examples - remove the leading '#' to make one work:
# create a file from the whole file:
#segment "$( basename "$FILE" ).mkv"
# remove ad breaks from a half-hour program:
#segment "$( basename "$FILE" ).mkv" 00:00:30-00:15:00 00:19:00-00:28:00
# split into two parts just over and hour:
#segment "$( basename "$FILE" ) part 1.mkv" 00:00:00-01:00:05
#segment "$( basename "$FILE" ) part 2.mkv" 00:59:55-01:00:05
# Advanced examples:
#
# show what a segment would look like with your video filters:
#play_segment "$( basename "$FILE" ).mkv" 00:01:00-00:02:00
# build the audio and metadata files for a segment, but not the video:
#prepare_segment "$( basename "$FILE" ) part 1.mkv" 00:01:00-00:02:00
# Create a playlist with all the segments above
# (adding multiple playlists will create
playlist "$( basename "$FILE" ).m3u"
EOF
chmod 755 "$FILE.sh"
[ -n "$VIDEO_INPUT" ] && v4l2-ctl --device="$VIDEO_DEVICE" --set-input "$VIDEO_INPUT" > >( grep -v '^Video input set to' )
[ -n "$VIDEO_CONTROLS" ] && v4l2-ctl --device="$VIDEO_DEVICE" --set-ctrl "$VIDEO_CONTROLS"
SUBTITLE_ID=1
format_subtitle() {
START="$( date -u +"%H:%M:%S,${1/*./}" -d @$1 )"
END="$( date -u +"%H:%M:%S,${2/*./}" -d @$2 )"
MESSAGE="$3"
echo "$((SUBTITLE_ID++))"
echo "$START --> $END"
echo "$MESSAGE"
echo
}
process_ffmpeg_output() {
sed -un \
-e 's/.*Parsed_cropdetect.*t:0*\([0-9.]*\) crop=[-0-9]*:\([0-9]*\).*/crop \1 \2/p' \
-e 's/.*silencedetect .* silence_start: \(.*\)$/silence_start \1/p' \
-e 's/.*silencedetect .* silence_end: \([0-9.]*\).*/silence_end \1/p' \
-e 's/.*blackdetect .* black_start:\([0-9.]*\) black_end:\([0-9.]*\).*/black \1 \2/p' \
| {
format_subtitle 0 10 "Subtitles indicate possible ad breaks."
declare -A CROPS=()
CROP_START_TIME=0
CROP_END_TIME=0
CROP_COUNT=0
OLD_CROP=
while read MESSAGE_TYPE ARG1 ARG2
do
case "$MESSAGE_TYPE" in
silence_start)
if [ "${ARG1:0:1}" = "-" ]
then SILENCE_START="0"
else SILENCE_START="$ARG1"
fi
;;
silence_end)
format_subtitle "$SILENCE_START" "$ARG1" "silence"
;;
black)
format_subtitle "$ARG1" "$ARG2" "darkness"
;;
crop) # need some more complex logic to build a useful message
if [ $(( ++CROP_COUNT )) -gt 250 ]
then
MOST_FREQUENT=
MOST_FREQUENCY=0
for CROP in "${!CROPS[@]}"
do
if [ "${CROPS[$CROP]}" -gt "$MOST_FREQUENCY" ]
then
MOST_FREQUENT="${CROP:1}"
MOST_FREQUENCY="${CROPS[$CROP]}"
fi
done
if [ "$OLD_CROP" != "$MOST_FREQUENT" ]
then
if [ -n "$OLD_CROP" ]
then
CROP_MESSAGE="$( echo "$OLD_CROP" | sed -e 's/:/x/' -e 's/:/+/g' )"
format_subtitle "$CROP_START_TIME" "$CROP_END_TIME" "image is $CROP_MESSAGE pixels high"
fi
CROP_START_TIME="$CROP_END_TIME"
fi
CROP_END_TIME="$ARG1"
declare -A CROPS=()
CROP_COUNT=0
OLD_CROP="$MOST_FREQUENT"
fi
CROPS["x$ARG2"]="$(( CROPS["x$ARG2"] + 1 ))"
;;
esac
done
} > "$FILE.txt"
}
date +"%c $( tput setaf 4 )$FILE$( tput sgr0 ) started"
START_TIME="$( date +%s )"
# Encoding command:
$CMD_FFMPEG \
\
-loglevel 32 \
\
$DURATION_OPTIONS \
\
-i <(
$CMD_GST -q \
v4l2src device="$VIDEO_DEVICE" do-timestamp=true norm="$TV_NORM" pixel-aspect-ratio=1 \
! $VIDEO_CAPABILITIES \
! queue max-size-buffers=0 max-size-time=0 max-size-bytes=0 \
! mux. \
alsasrc device="$AUDIO_DEVICE" do-timestamp=true \
! $AUDIO_CAPABILITIES \
! queue max-size-buffers=0 max-size-time=0 max-size-bytes=0 \
! mux. \
matroskamux name=mux \
! fdsink fd=1
) \
\
-filter_complex "$ENCODE_WEBM_FILTER" \
\
-c:v "$ENCODE_VIDEO_FORMAT" $ENCODE_VIDEO_OPTIONS \
-c:a "$ENCODE_AUDIO_FORMAT" $ENCODE_AUDIO_OPTIONS \
-f "$ENCODE_MUXER_FORMAT" $ENCODE_MUXER_OPTIONS \
"$FILE.$ENCODE_EXTENSION" \
\
-map [wv] -c:v libvpx $ENCODE_WEBM_VIDEO_OPTS \
-map [wa] -c:a libvorbis $ENCODE_WEBM_AUDIO_OPTS \
"$FILE.webm" \
\
-progress >( ffmpeg_progress "$( tput setaf 4 )$FILE$( tput sgr0 )" ) \
\
2> >( process_ffmpeg_output )
echo >&2
date +"%c $FILE.$ENCODE_EXTENSION finished"
echo "Now see $( tput setaf 4 )$FILE.sh$( tput sgr0 )"
;;
-r|--r|--re|--rev|--revi|--revie|--review)
set_directory "$2"
[ -d "$DIRECTORY/mpv-config" ] || mkdir "$DIRECTORY/mpv-config"
cat > "$DIRECTORY/mpv-config/input.conf" <<END
Shift+MOUSE_BTN3 frame_step
Shift+MOUSE_BTN4 frame_back_step
Ctrl+Shift+MOUSE_BTN3 seek 0.5
Ctrl+Shift+MOUSE_BTN4 seek -0.5
MOUSE_BTN3 seek 5
MOUSE_BTN4 seek -5
Ctrl+MOUSE_BTN3 seek 200 - exact
Ctrl+MOUSE_BTN4 seek -200 - exact
Alt+MOUSE_BTN3 sub_seek 1
Alt+MOUSE_BTN4 sub_seek -1
END
PREV_TIME=
# Review command:
$CMD_MPV --keep-open --ontop --pause --config-dir="$DIRECTORY/mpv-config" --term-status-msg 'TIME ${=time-pos}'$'\n' "$FILE.webm" 2>&1 | \
while read TITLE TIME
do
if [ "$TITLE" = "TIME" -a "$TIME" != "$PREV_TIME" ]
then
PREV_TIME="$TIME"
TIME="$( date --utc +"%H:%M:%S.${TIME/*./}" -d "@$TIME" )"
TIME="${TIME%000}"
echo -n "$TIME" | xclip
fi
done
rm -rf "$DIRECTORY/mpv-config"
;;
--transcode)
# we use ffmpeg and sox here, as they have better tools
HAVE_CREATED_SEGMENTS=
PLAYLIST=$'#EXTM3U\n'
HAVE_NOISE_PROFILE=true
AUDIO_BITRATE="$( echo "$AUDIO_CAPABILITIES" | sed -ne 's/.*rate=\([0-9]*\).*/\1/p' )"
if [ -z "$AUDIO_BITRATE" ]
then
echo "Please specify a rate in AUDIO_CAPABILITIES"
exit
fi
original() {
ORIGINAL="$1"
ORIGINAL_METADATA="$(
$CMD_FFMPEG -i "$ORIGINAL" -f ffmetadata - < /dev/null
date -u +"DATE_DIGITIZED=%Y-%m-%d %H:%M:%S.000" -d @$( stat -c %Y "$ORIGINAL" )
)"
}
no_reduce_noise() {
NOISE_PROFILE=
HAVE_NOISE_PROFILE=true
}
reduce_noise() {
NOISE_REDUCTION="$1"
NOISE_TIME="$2"
if [ -z "$NOISE_REDUCTION" ]
then
echo "Please specify a noise reduction amount"
exit 1
fi
if [ -z "$NOISE_TIME" ]
then
if [ -z "$DEFAULT_NOISE_PROFILE" ]
then
cat <<END
Please specify a default noise profile.
Pause a tape (so only background noise is playing) then run:
$0 --profile
This will save information about the background noise.
END
exit 1
else
NOISE_PROFILE="$( echo "$DEFAULT_NOISE_PROFILE" | tr '\t' '\n' )"
fi
else
NOISE_PROFILE="$( $CMD_FFMPEG -ss "${NOISE_TIME/-*/}" -i "$ORIGINAL" -t "${NOISE_TIME/*-/}" -vn -c:a pcm_s16le -f wav - | $CMD_SOX -t wav - -n noiseprof 2>/dev/null )"
fi
HAVE_NOISE_PROFILE=true
}
audio_delay() {
if [[ "$1" =~ ^[0.]*$ ]]
then AUDIO_DELAY=
else AUDIO_DELAY="$1"
fi
}
calculate_segment() {
# Calculate segment options:
if [ -z "$1" ]
then
SEGMENT_START_OPTS=
SEGMENT_END_OPTS=
CHAPTER_METADATA=
VIDEO_FILTER_SPLIT=
VIDEO_FILTER_LIST='[0:v]'
AUDIO_FILTER_SPLIT=
AUDIO_FILTER_LIST='[0:a]'
CHAPTER_NUMBER=1
else
SEGMENT_START="${1/-*/}"
CHAPTER_END="${1/*-/}"
SEGMENT_START_MS="$( parse_time "$SEGMENT_START" )"
SEGMENT_START_OPTS="-ss $SEGMENT_START"
shift
CHAPTER_END_MS="$(( $( parse_time "$CHAPTER_END" ) - SEGMENT_START_MS ))";
TOTAL_TIME_MS="$CHAPTER_END_MS"
CHAPTER_END_S="$( ms_to_s "$CHAPTER_END_MS" )";
VIDEO_FILTER_SPLIT="[0:v] trim=end=$CHAPTER_END_S [v0]"
AUDIO_FILTER_SPLIT="[0:a] atrim=end=$CHAPTER_END_S [a0]"
VIDEO_FILTER_LIST="[v0] ";
AUDIO_FILTER_LIST="[a0] ";
CHAPTER_NUMBER=1
if [ -z "$*" ]
then CHAPTER_TITLE="$SEGMENT_TITLE"
else CHAPTER_TITLE="Chapter $CHAPTER_NUMBER"
fi
CHAPTER_METADATA="[CHAPTER]
TIMEBASE=1/1000000000
START=0
END=${TOTAL_TIME_MS}000000
title=$CHAPTER_TITLE
"
for CHAPTER in "$@"
do
CHAPTER_START_MS="$(( $( parse_time "${CHAPTER/-*/}" ) - SEGMENT_START_MS ))";
CHAPTER_START_S="$( ms_to_s "$CHAPTER_START_MS" )";
CHAPTER_END_MS="$(( $( parse_time "${CHAPTER/*-/}" ) - SEGMENT_START_MS ))";
CHAPTER_END_S="$( ms_to_s "$CHAPTER_END_MS" )";
VIDEO_FILTER_SPLIT="$VIDEO_FILTER_SPLIT ;
[0:v] trim=start=$CHAPTER_START_S:end=$CHAPTER_END_S, setpts=PTS-STARTPTS [v$CHAPTER_NUMBER]"
AUDIO_FILTER_SPLIT="$AUDIO_FILTER_SPLIT ;
[0:a] atrim=start=$CHAPTER_START_S:end=$CHAPTER_END_S, asetpts=PTS-STARTPTS [a$CHAPTER_NUMBER]"
VIDEO_FILTER_LIST="$VIDEO_FILTER_LIST[v$CHAPTER_NUMBER] ";
AUDIO_FILTER_LIST="$AUDIO_FILTER_LIST[a$CHAPTER_NUMBER] ";
CHAPTER_NUMBER="$(( CHAPTER_NUMBER + 1 ))"
CHAPTER_METADATA="${CHAPTER_METADATA}[CHAPTER]
TIMEBASE=1/1000000000
START=${TOTAL_TIME_MS}000000
END=$(( TOTAL_TIME_MS + CHAPTER_END_MS - CHAPTER_START_MS ))000000
title=Chapter $CHAPTER_NUMBER
"
TOTAL_TIME_MS="$(( TOTAL_TIME_MS + CHAPTER_END_MS - CHAPTER_START_MS ))"
done
TOTAL_TIME_MS="${TOTAL_TIME_MS}000" # microseconds -> milliseconds
fi
if [ -z "$TRANSCODE_VIDEO_FILTERS" ]
then VIDEO_FILTER="$VIDEO_FILTER_SPLIT ;
${VIDEO_FILTER_LIST}concat=n=$CHAPTER_NUMBER [video]"
else VIDEO_FILTER="$VIDEO_FILTER_SPLIT ;
${VIDEO_FILTER_LIST}concat=n=$CHAPTER_NUMBER, $TRANSCODE_VIDEO_FILTERS [video]"
fi
AUDIO_FILTER="$AUDIO_FILTER_SPLIT ;
${AUDIO_FILTER_LIST}concat=n=$CHAPTER_NUMBER:v=0:a=1 [audio]"
}
play_segment() {
shift
calculate_segment "$@"
cat >&2 <<END
Suggested video filters:
END
echo -n 'measuring...' >&2
# Segment playback command:
$CMD_FFPLAY $SEGMENT_START_OPTS -i "$ORIGINAL" -vf "$TRANSCODE_VIDEO_FILTERS, cropdetect=24:2:1500" 2> >(
sed -une 's/.*t:0*\([0-9]*\)\.\([0-9]*\) \(crop=[0-9:]*\)$/\1\2 \3/p' | {
read START_TIME OLD_CROP
MESSAGE=
while read TIME CROP
do
DURATION="$(( TIME - START_TIME ))"
if [ "$CROP" != "$OLD_CROP" ]
then
[[ $DURATION -gt 2000000 ]] && echo -n $'\nmeasuring...' >&2
OLD_CROP="$CROP"
START_TIME="$TIME"
MESSAGE=
DURATION=0
fi
if [[ $DURATION -gt 2000000 ]]
then
echo -n $'\r'"$( echo -n "$MESSAGE" | tr -c '' ' ' )"$'\r' >&2
MESSAGE="TRANSCODE_VIDEO_FILTERS=\"$CROP, pad=$SOURCE_WIDTH:$SOURCE_HEIGHT:(ow-iw)/2:(oh-ih)/2\" # (measured good for ${DURATION/%??????/} second(s))"
echo -n "$MESSAGE" >&2
fi
done
}
)
HAVE_CREATED_SEGMENTS=true
}
# build the components of a segment, but not the segment itself:
prepare_segment() {
PREPARE_SEGMENT=true
segment "$@"
}
# build a segment:
segment() {
SEGMENT_FILENAME="$1" ; shift
SEGMENT_TITLE="$( basename "${SEGMENT_FILENAME/\.*/}" )"
HAVE_CREATED_SEGMENTS=true
if [ -z "$HAVE_NOISE_PROFILE" ]
then
echo "Please add a noise profile (for details, search your script for 'noise reduction')"
exit 1
fi
CURRENT_STAGE=1
STAGE_COUNT=2
[ -e "$AUDIO_FILE" ] || STAGE_COUNT="$(( STAGE_COUNT + 1 ))"
case "$SEGMENT_FILENAME" in
*.mkv)
STAGE_COUNT=$(( STAGE_COUNT - 1 ))
;;
esac
AUDIO_FILE="${SEGMENT_FILENAME/\.*/.wav}"
METADATA_FILE="${SEGMENT_FILENAME/\.*/-metadata.txt}"
calculate_segment "$@"
[ "$STAGE_COUNT" -eq 1 ] || date +"%c $( tput setaf 4 )$SEGMENT_FILENAME$( tput sgr0 ) started ($STAGE_COUNT stages)"
case "$SEGMENT_FILENAME" in
*.mkv)
# allow variable frame rate
FRAMERATE_OPTS=
;;
*)
START_TIME="$( date +%s )"
while IFS== read PARAMETER VALUE
do
if [ "$PARAMETER" = frame ]
then FRAME=$VALUE
else
[ "$PARAMETER" = out_time_ms ] && OUT_TIME_MS="$VALUE"
echo $PARAMETER=$VALUE
fi
TOTAL_TIME_MS=$OUT_TIME_MS
FRAMERATE_OPTS="-r ${FRAME}000000/$OUT_TIME_MS"
done < <( $CMD_FFMPEG $SEGMENT_START_OPTS -i "$ORIGINAL" -filter_complex "$VIDEO_FILTER" -map '[video]' -vcodec rawvideo -an -f null /dev/null -progress /dev/stdout < /dev/null ) \
> >( ffmpeg_progress "$SEGMENT_FILENAME calculating framerate ($CURRENT_STAGE/$STAGE_COUNT)" )
CURRENT_STAGE=$(( CURRENT_STAGE + 1 ))
;;
esac
# Build metadata for segment:
[ -e "$METADATA_FILE" ] || echo -n "$ORIGINAL_METADATA"$'\n'"; To add chapter titles etc., edit the values below then re-run."$'\n'"title=$SEGMENT_TITLE"$'\n'"$CHAPTER_METADATA" > "$METADATA_FILE"
# Build audio file for segment:
MESSAGE=
if [ -e "$AUDIO_FILE" ]
then
AUDIO_TIME_MS="$( $CMD_SOX --info -D "$AUDIO_FILE" | sed -e 's/\.//' )"
if [[ $AUDIO_TIME_MS -gt $TOTAL_TIME_MS ]]
then
AUDIO_OFFSET_MS="$(( AUDIO_TIME_MS - TOTAL_TIME_MS ))"
AUDIO_LENGTH_WORD="long"
AUDIO_ERROR_SUGGESTION="if you really want your audio to continue past the end of your video, add some periods of black video"
else
AUDIO_OFFSET_MS="$(( TOTAL_TIME_MS - AUDIO_TIME_MS ))"
AUDIO_LENGTH_WORD="short"
AUDIO_ERROR_SUGGESTION="if you really want silence at the end of your video, add silence to the end of the audio file"
fi
if [[ $AUDIO_OFFSET_MS -gt 1000000 ]]
then
echo "$( tput setaf 1 )Error:$( tput sgr0 ) audio file $( tput setaf 4 )${SEGMENT_FILENAME/\.*/}.$( tput setaf 1 )wav$( tput sgr0 ) is ${AUDIO_OFFSET_MS/%??????/} seconds too $AUDIO_LENGTH_WORD"
echo "Please fix the problem and try again"
echo " * to rebuild the audio automatically, delete the .wav file and re-run."
echo " * $AUDIO_ERROR_SUGGESTION"
echo
return
fi
else
START_TIME="$( date +%s )"
# Step one: calculate audio delay
case "${AUDIO_DELAY:0:1}X" in # Step two: shift the audio according to the audio delay
X)
# no audio delay
EXTRA_INPUT=
DELAY_FILTER=
OUT_STREAM="[audio]"
;;
-)
# negative audio delay - trim start
EXTRA_INPUT=
DELAY_FILTER="; [audio] atrim=start=${AUDIO_DELAY:1} [trimmed_audio]"
OUT_STREAM="[trimmed_audio]"
;;
*)
# positive audio delay - prepend silence
DELAY_FILTER="; aevalsrc=0:s=$AUDIO_BITRATE:c=2:d=$AUDIO_DELAY [padding]; [padding] [audio] concat=v=0:a=1 [padded_audio]"
OUT_STREAM="[padded_audio]"
;;
esac
AUDIO_FILTERS="$TRANSCODE_AUDIO_FILTERS"
if [ -n "$TRANSCODE_AUDIO_FREQUENCY_RANGE" ]
then
LOWER_BOUND="${TRANSCODE_AUDIO_FREQUENCY_RANGE/ */}"
UPPER_BOUND="${TRANSCODE_AUDIO_FREQUENCY_RANGE/* /}"
for (( Hz=0; Hz<$LOWER_BOUND; Hz+=10 ))
do AUDIO_FILTERS="equalizer $Hz 1h -50 $AUDIO_FILTERS"
done
if [ "$UPPER_BOUND" -lt $(( AUDIO_BITRATE / 4 )) ]
then
for (( Hz="$UPPER_BOUND"; Hz<=$UPPER_BOUND+500; Hz+=10 ))
do AUDIO_FILTERS="equalizer $Hz 1h -50 $AUDIO_FILTERS"
done
for (( Hz="$UPPER_BOUND"; Hz<=$UPPER_BOUND*2; Hz+=50 ))
do AUDIO_FILTERS="equalizer $Hz 5h -90 $AUDIO_FILTERS"
done
for (( Hz="$UPPER_BOUND"*2; Hz<=$(( AUDIO_BITRATE / 2 )); Hz+=100 ))
do AUDIO_FILTERS="equalizer $Hz 10h -120 $AUDIO_FILTERS"
done
else
for (( Hz="$UPPER_BOUND"; Hz<=$(( AUDIO_BITRATE / 2 )); Hz+=50 ))
do AUDIO_FILTERS="equalizer $Hz 5h -90 $AUDIO_FILTERS"
done
fi
fi
# Step two: audio extraction command
START_TIME="$( date +%s )"
if [ -z "$NOISE_PROFILE" ] # Step three: denoise based on the default noise profile, then normalise audio levels
then $CMD_SOX --temp "$DIRECTORY" -S -t wav - "$AUDIO_FILE" $AUDIO_FILTERS
else $CMD_SOX --temp "$DIRECTORY" -S -t wav - "$AUDIO_FILE" noisered <( echo "$NOISE_PROFILE" ) "${NOISE_REDUCTION:-0.21}" $AUDIO_FILTERS
fi \
2> >( sox_progress "$( tput setaf 4 )$SEGMENT_FILENAME$( tput sgr0 ) creating audio ($CURRENT_STAGE/$STAGE_COUNT)" ) \
< <(
$CMD_FFMPEG \
$SEGMENT_START_OPTS \
-i "$ORIGINAL" \
-filter_complex "$AUDIO_FILTER$DELAY_FILTER" \
-map "$OUT_STREAM" \
-vn -f wav -
)
CURRENT_STAGE=$(( CURRENT_STAGE + 1 ))
fi
echo -n $'\r'"$( echo -n "$MESSAGE" | tr -c '' ' ' )"$'\r' >&2
OUT_TIME_S="${OUT_TIME_MS/%??????/}"
PLAYLIST="$PLAYLIST
#EXTINF:${OUT_TIME_S:-0},$SEGMENT_TITLE
$SEGMENT_FILENAME
"
if [ -z "$PREPARE_SEGMENT" ]
then
if [ -e "$SEGMENT_FILENAME" ]
then
date +"%c: renamed old $( tput setaf 4 )$SEGMENT_FILENAME$( tput sgr0 ) to $( tput setaf 4 )$SEGMENT_FILENAME.old$( tput sgr0 )"
mv "$SEGMENT_FILENAME" "$SEGMENT_FILENAME.old"
fi
# Build video file for segment:
START_TIME="$( date +%s )"
if [ "$STAGE_COUNT" -eq 1 ]
then STAGE_MESSAGE=
else STAGE_MESSAGE=" creating video ($CURRENT_STAGE/$STAGE_COUNT)"
fi
# Transcoding command:
$CMD_FFMPEG \
\
-loglevel 16 \
\
-progress file://>( ffmpeg_progress "$( tput setaf 4 )$SEGMENT_FILENAME$( tput sgr0 )$STAGE_MESSAGE" ) \
\
$SEGMENT_START_OPTS -i "$ORIGINAL" \
-i "$AUDIO_FILE" \
-i "$METADATA_FILE" \
\
-filter_complex "$VIDEO_FILTER" \
\
-c:v "$TRANSCODE_VIDEO_FORMAT" $TRANSCODE_VIDEO_OPTIONS \
-c:a "$TRANSCODE_AUDIO_FORMAT" $TRANSCODE_AUDIO_OPTIONS \
-f "$TRANSCODE_MUXER_FORMAT" $TRANSCODE_MUXER_OPTIONS \
\
-map 1:0 -map [video] -map_metadata 2 -map_chapters 2 \
-metadata "$( date -u +"DATE_ENCODED=%Y-%m-%d %H:%M:%S.000" )" \
$FRAMERATE_OPTS \
"$SEGMENT_FILENAME" \
|| exit 1
sleep 0.1 # quick-and-dirty way to ensure ffmpeg_progress finishes before we print the next line
date +"%c $( tput setaf 4 )$SEGMENT_FILENAME$( tput sgr0 ) finished"
fi
PREPARE_SEGMENT=
}
playlist() {
echo "$PLAYLIST" > "$1"
PLAYLIST=$'#EXTM3U\n'
date +"%c $( tput setaf 4 )$1$( tput sgr0 ) created"
}
PREPARE_SEGMENT=
SCRIPT_FILE="$( readlink -f "$2" )"
cd "$( dirname "$SCRIPT_FILE" )"
source "$SCRIPT_FILE"
[ -z "$HAVE_CREATED_SEGMENTS" ] && echo "Please specify at least one segment"
;;
*)
echo "$HELP_MESSAGE"
esac