mirror of
https://github.com/mpv-player/mpv
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a8aec55f16
git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@12687 b3059339-0415-0410-9bf9-f77b7e298cf2
446 lines
13 KiB
Perl
Executable File
446 lines
13 KiB
Perl
Executable File
#!/usr/bin/perl -w
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# A script for pipelined editing of subtitle files.
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# Copyright (C) 2004 Michael Klepikov <mike72@mail.ru>
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#
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# Version 1.0 initial release 28-Mar-04
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#
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# Comments, suggestions -- send me an mail, but the recommended way is
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# to enhance/fix on your own and submit to the distribution;)
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# If you like, I can review the fixes.
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#
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# This script is free software; you can redistribute it and/or
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# modify it under the terms of the GNU Lesser General Public
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# License as published by the Free Software Foundation; either
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# version 2 of the License, or (at your option) any later version.
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# Retain original credits when modifying.
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#
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# This script is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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# Lesser General Public License for more details.
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#
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# You should have received a copy of the GNU Lesser General Public
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# License along with this library; if not, write to the Free Software
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# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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#
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use Math::BigInt;
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# Constants
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my $FMT_UNKNOWN = 0;
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my $FMT_SRT = 1;
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# Argument values
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my $DEBUG = 0;
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my $inFormat;
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my $outFormat;
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my $shiftMilli;
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my $scaleMilli;
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my $splitFromMilli;
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my $splitToMilli;
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## Process command line
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while (defined ($argVal = shift)) {
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if ($argVal eq "-d" || $argVal eq "--debug") {
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$DEBUG = 1;
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} elsif ($argVal eq "-if" || $argVal eq "--input-format") {
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$inFormat = shift;
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usage ("Must specify input format") if ! $inFormat;
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if ($inFormat =~ /^srt/i) {
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$inFormat = $FMT_SRT;
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} else {
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usage ("Invalid input format");
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}
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} elsif ($argVal eq "-of" || $argVal eq "--output-format") {
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$outFormat = shift;
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usage ("Must specify input format") if ! $outFormat;
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if ($outFormat =~ /^srt/i) {
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$outFormat = $FMT_SRT;
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} else {
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usage ("Invalid output format");
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}
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} elsif ($argVal eq "-s" || $argVal eq "--shift") {
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my $argTime = shift;
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if (! defined $argTime ||
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! defined ($shiftMilli = getTimeMillis ($argTime))) {
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usage ("Invalid shift time value");
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}
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} elsif ($argVal eq "-c" || $argVal eq "--scale") {
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my $argTime = shift;
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if (! defined $argTime ||
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! defined ($scaleMilli = getTimeMillis ($argTime))) {
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usage ("Invalid scale time value");
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}
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} elsif ($argVal eq "-f" || $argVal eq "--split-from") {
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my $argTime = shift;
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if (! defined $argTime ||
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! defined ($splitFromMilli = getTimeMillis ($argTime))) {
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usage ("Invalid split start time value");
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}
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} elsif ($argVal eq "-t" || $argVal eq "--split-to") {
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my $argTime = shift;
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if (! defined $argTime ||
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! defined ($splitToMilli = getTimeMillis ($argTime))) {
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usage ("Invalid split end time value");
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}
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} elsif ($argVal eq "-h" || $argVal eq "--help") {
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usage ();
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} else {
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usage ("Unrecognized argument $argVal");
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}
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}
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# Input format defaults to SRT
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$inFormat = $FMT_SRT if (! defined $inFormat);
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# Output format defaults to the same as input
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$outFormat = $inFormat if (! defined $outFormat);
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## Read
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my $subs;
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if ($inFormat == $FMT_SRT) {
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$subs = readSRT (*STDIN);
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printf STDERR ("Read %d SRT subs\n", scalar @{$subs}) if $DEBUG;
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# Sort by start time
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@{$subs} = sort {$a -> {srtStartTime} <=> $b -> {srtEndTime}} @{$subs};
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}
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## Transform
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if (defined $shiftMilli && 0 != $shiftMilli) {
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printf STDERR ("Shift: %d milliseconds\n", $shiftMilli) if $DEBUG;
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shiftSRT ($subs, $shiftMilli);
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}
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if (defined $splitFromMilli || defined $splitToMilli) {
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if ($DEBUG) {
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my $printFrom = (defined $splitFromMilli) ? $splitFromMilli : "-";
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my $printTo = (defined $splitToMilli) ? $splitToMilli : "-";
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printf STDERR ("Split: from $printFrom to $printTo\n");
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}
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splitSRT ($subs, $splitFromMilli, $splitToMilli);
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}
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if (defined $scaleMilli && 0 != $scaleMilli) {
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my $lastSubIdx = scalar @{$subs} - 1;
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if ($lastSubIdx >= 0) {
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my $lastTimeOrig = $subs -> [$lastSubIdx] -> {srtEndTime};
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if ($lastTimeOrig == 0) {
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die "Cannot scale when last subtitle ends at 00:00:00,000";
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}
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my $lastTimeScaled = $lastTimeOrig + $scaleMilli;
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printf STDERR ("Scale: %d/%d\n", $lastTimeScaled, $lastTimeOrig) if $DEBUG;
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scaleSRT ($subs, $lastTimeScaled, $lastTimeOrig);
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}
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}
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## Write
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if ($outFormat == $FMT_SRT) {
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writeSRT (*STDOUT, $subs);
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}
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# Close STDOUT, as recommended by Perl manual
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# (allows diagnostics on disc overflow, etc.)
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close (STDOUT) || die "Cannot close output stream: $!";
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exit 0;
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## Subroutines
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# Convert string time format to milliseconds
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# SRT style: "01:20:03.251", and "," is allowed instead of "."
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# Return undef in case of format error
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sub getTimeMillis
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{
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$_ = shift;
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my $millis = 0;
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if (/\s*(.*)[\.,]([0-9]+)?\s*$/) { # Fraction; strip surrounding spaces
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#print STDERR "frac: \$1=$1 \$2=$2\n" if $DEBUG;
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$_ = $1;
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$millis += ("0." . $2) * 1000 if $2;
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}
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if (/(.*?)([0-9]+)$/) { # Seconds
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#print STDERR "secs: \$1=$1 \$2=$2\n" if $DEBUG;
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$_ = $1;
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$millis += $2 * 1000 if $2;
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}
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if (/(.*?)([0-9]+):$/) { # Minutes
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#print STDERR "mins: \$1=$1 \$2=$2\n" if $DEBUG;
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$_ = $1;
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$millis += $2 * 60000 if $2;
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}
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if (/(.*?)([0-9]+):$/) { # Hours
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#print STDERR "mins: \$1=$1 \$2=$2\n" if $DEBUG;
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$_ = $1;
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$millis += $2 * 3600000 if $2;
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}
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if (/(.*?)\-$/) { # Minus sign
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$_ = $1;
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$millis *= -1;
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}
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$millis = undef if (! /^$/); # Make sure we ate everything up
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if ($DEBUG) {
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if (defined $millis) {
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#print STDERR "time value match: $millis ms\n";
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} else {
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#print STDERR "time mismatch\n";
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}
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}
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return $millis;
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}
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# Convert milliseconds to SRT formatted string
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sub getTimeSRT
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{
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my $t = shift;
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my $tMinus = "";
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if ($t < 0) {
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$t = -$t;
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$tMinus = "-";
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}
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my $tMilli = $t % 1000;
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$t /= 1000;
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my $tSec = $t % 60;
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$t /= 60;
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my $tMin = $t % 60;
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$t /= 60;
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my $tHr = $t;
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return sprintf ("%s%02d:%02d:%02d,%03d",
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$tMinus, $tHr, $tMin, $tSec, $tMilli);
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}
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# Read SRT subtitles
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sub readSRT
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{
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local *IN = shift;
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my $subs = [];
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$_ = <IN>;
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print STDERR "Undefined first line\n" if ! defined $_ && $DEBUG;
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my $lineNo = 1;
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READ_SUBS:
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while (defined $_) {
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# Each loop iteration reads one subtitle from <IN>
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my $sub = {};
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# print STDERR "Reading line $lineNo\n" if $DEBUG;
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# Skip empty lines
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while (/^\s*$/) {
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last READ_SUBS if ! ($_ = <IN>);
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++$lineNo;
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}
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# Subtitle number
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if (/^\s*([0-9]+)\s*$/) {
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$sub -> {srtNumber} = $1;
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# print "SRT num: $1\n" if $DEBUG;
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} else {
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die "Invalid SRT format at line $lineNo";
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}
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# Timing
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if ($_ = <IN>) {
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++$lineNo;
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} else {
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die "Unexpected end of SRT stream at line $lineNo";
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}
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# print STDERR "LINE: $_\n" if $DEBUG;
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if (/^\s*(\S+)\s*--\>\s*(\S+)\s*$/) {
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my $startMillis = getTimeMillis ($1);
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my $endMillis = getTimeMillis ($2);
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die "Invalid SRT timing format at line $lineNo: $_"
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if ! defined $startMillis || ! defined $endMillis;
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$sub -> {srtStartTime} = $startMillis;
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$sub -> {srtEndTime} = $endMillis;
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} else {
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die "Invalid SRT timing format at line $lineNo: $_";
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}
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# Text lines
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my $subLines = [];
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while (1) {
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last if ! ($_ = <IN>); # EOF ends subtitle
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++$lineNo;
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last if /^\s*$/; # Empty line ends subtitle
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($_ = $_) =~ s/\s+$//; # Strip trailing spaces
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push @{$subLines}, $_;
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}
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die "No text in SRT subtitle at line $lineNo" if 0 == scalar @{$subLines};
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$sub -> {lines} = $subLines;
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# Append subtitle to the list
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push @{$subs}, $sub;
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}
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print STDERR "SRT read ok, $lineNo lines\n" if $DEBUG;
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return $subs;
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}
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# Write SRT subtitles
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sub writeSRT
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{
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use integer; # For integer division
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local *OUT = shift;
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my $subs = shift;
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my $subNum = 0;
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foreach (@{$subs}) {
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++$subNum;
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my $sub = $_;
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my $sTimeSRT = getTimeSRT ($sub -> {srtStartTime});
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my $eTimeSRT = getTimeSRT ($sub -> {srtEndTime});
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printf OUT ("%d\n%s --> %s\n", $subNum, $sTimeSRT, $eTimeSRT);
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foreach (@{$sub -> {lines}}) {
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printf OUT ("%s\n", $_);
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}
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printf OUT "\n";
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}
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printf STDERR ("Wrote %d SRT subs\n", $subNum) if $DEBUG;
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}
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# Shift SRT subtitles by a given number of seconds.
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# The number may be negative and fractional.
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sub shiftSRT
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{
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use integer; # $shiftMilli could be passed as float
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my $subs = shift;
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my $shiftMilli = shift;
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foreach (@{$subs}) {
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$_ -> {srtStartTime} += $shiftMilli;
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$_ -> {srtEndTime} += $shiftMilli;
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}
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}
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# Multiply each subtitle timing by a divident and divide by divisor.
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# The idea is that the divident is usually the new total number of
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# milliseconds in the subtitle file, and the divisor is the old
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# total number of milliseconds in the subtitle file.
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# We could simply use a double precision real coefficient instead of
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# integer divident and divisor, and that could be good enough, but
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# using integer arithmetics *guarantees* precision up to the last
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# digit, so why settle for good enough when we can have a guarantee.
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#
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# Uses Math::BigInt arithmetics, because it works with numbers
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# up to (total number of milliseconds for a subtitle timing)^2,
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# which could be on the order of approximately 1e+13, which is
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# larger than maximum 32-bit integer.
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# There is a performance loss when using BigInt vs. regular floating
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# point arithmetics, but the actual performance is quite acceptable
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# on files with a few thousand subtitles.
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sub scaleSRT
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{
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use integer; # Divident and divisor could be passed as floats, truncate
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my $subs = shift;
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my $scaleDividend = shift;
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my $scaleDivisor = shift;
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foreach (@{$subs}) {
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my $ss = Math::BigInt -> new ($_ -> {srtStartTime});
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$ss = $ss -> bmul ($scaleDividend);
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$_ -> {srtStartTime} = $ss -> bdiv ($scaleDivisor) -> bsstr ();
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my $se = Math::BigInt -> new ($_ -> {srtEndTime});
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$se = $se -> bmul ($scaleDividend);
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$_ -> {srtEndTime} = $se -> bdiv ($scaleDivisor) -> bsstr ();
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}
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}
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# Extract a fragment within a given time interval
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# Either "from" or "to" may be undefined
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sub splitSRT
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{
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use integer; # fromMilli and toMilli could be passed as floats, truncate
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my $subs = shift;
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my $fromMilli = shift;
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my $toMilli = shift;
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my $iSub = 0;
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while ($iSub < scalar @{$subs}) {
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$_ = $subs -> [$iSub];
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my $keep = 0;
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if (! defined $fromMilli || $_ -> {srtEndTime} >= $fromMilli) {
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# The subtitle ends later than the start boundary
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# Fix overlapping start timing,
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# but only of the start boundary is not infinite (undef)
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if (defined $fromMilli && $_ -> {srtStartTime} < $fromMilli) {
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$_ -> {srtStartTime} = $fromMilli;
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}
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if (! defined $toMilli || $_ -> {srtStartTime} <= $toMilli) {
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# The subtitle begins earlier than the end boundary
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# Fix overlapping end timing,
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# but only of the end boundary is not infinite (undef)
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if (defined $toMilli && $_ -> {srtEndTime} > $toMilli) {
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$_ -> {srtEndTime} = $toMilli;
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}
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# All conditions met, all fixes done
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$keep = 1;
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}
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}
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if ($keep) {
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++$iSub;
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} else {
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splice @{$subs}, $iSub, 1;
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}
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}
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}
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# Print brief usage help
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# Accepts an optional error message, e.g. for errors parsing command line
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sub usage
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{
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my $msg = shift;
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my $exitCode = 0;
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if (defined $msg) {
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$exitCode = 2;
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print STDERR "$msg\n";
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}
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print STDERR <<USAGE;
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Usage: $0 [switches]
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-if,--input-format <fmt> input format; supported: SRT
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default is SRT
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-of,--output-format <fmt> output format; supported: SRT
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default is same as input format
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-s,--shift <time> shift all subtitles by <time>
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(format: [-]hh:mm:ss,fraction)
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-c,--scale <time> scale by adding <time> to overall duration
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-f,--split-from <time> Drop subtitles that end before <time>
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-t,--split-to <time> Drop subtitles that start after <time>
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(will truncate timing if it overlaps a boundary)
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-r,--renumber renumber SRT subtitles in output
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-d,--debug enable debug output
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-h,--help this help message
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All times could be negative. Input/output may also contain negative timings,
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which is sometimes useful for intermediate results.
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SRT subtitles are always renumbered on output.
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EXAMPLES
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Split subtitle file into two disks at a boundary of one hour 15 minutes:
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subedit.pl --split-to 1:15:0 < all.srt > p1.srt
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subedit.pl -f 1:15:0 < all.srt | subedit.pl --shift -1:15:0 > p2.srt
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Join the previous two disks back into one file:
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subedit.pl -s 1:15:00 < p2.srt | cat p1.srt - | subedit.pl > all.srt
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Correct a situation where the first subtitle starts in sync with the video,
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but the last one starts 3.5 seconds earlier than the speech in the video,
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assuming the first subtitle timing is 00:01:05.030:
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subedit.pl -s -1:5.03 | subedit.pl -c 3.5 | subedit.pl -s 1:5.03
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USAGE
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exit $exitCode;
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}
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