Добрый вечер!
Есть один скрипт - jpegrescan. Он использует в свою очередь jpegtran. Подскажите, как можно изменить скрипт таким образом, чтобы я мог указать сам путь к jpegtran, т.е.
perl.exe jpegrescan.pl Путь\jpegtran.exe in.jpg out.jpg
Код скрипта jpegrescan:
#!/usr/bin/perl -ws
# jpegrescan by Loren Merritt
# Last updated: 2008-11-29 / Image Catalyst 2012-04-28
# This code is public domain.
sub jpegtran (@) {
unless(system("jpegtran", $strip ? ("-copy","none") : ("-copy","all"), @_) == 0) {
if ($? == -1) {
die "Error execute jpegtran: $!\n";
}
elsif ($? & 128) {
die sprintf(
"jpegtran died with signal %d, %s coredump\n",
($? & 127), ($? & 128) ? 'with' : 'without'
);
}
else {
die "jpegtran exited with ERRORLEVEL=" . $? >> 8 . "\n";
}
}
}
# FIXME optimize order for either progressive transfer or decoding speed
sub canonize {
my $txt = $prefix.$suffix.shift;
$txt =~ s/\s*;\s*/;\n/g;
$txt =~ s/^\s*//;
$txt =~ s/ +/ /g;
$txt =~ s/: (\d+) (\d+)/sprintf ": %2d %2d", $1, $2/ge;
# treat u and v identically. I shouldn't need to do this, but with jpegtran overhead it saves 9% speed. cost: .008% bitrate.
$txt =~ s/^2:.*\n//gm;
$txt =~ s/^1:(.+)\n/1:$1\n2:$1\n/gm;
# dc before ac, coarse before fine
return join( "\n",
sort {
"$a\n$b" =~ /: *(\d+) .* (\d);\n.*: *(\d+) .* (\d);/ or die;
!$3 <=> !$1 or $4 <=> $2 or $a cmp $b;
}
split( /\n/, $txt )
);
}
sub try {
my $txt = canonize(shift);
my $rc;
# print $txt, "\n\n"; # debug
if (exists $memo{$txt}) {
$rc = $memo{$txt};
}
else {
open( my $io, "> $ftmp") or die "Error create $ftmp file: $!\n";
print $io $txt;
close $io;
unlink $fout if (-f $fout);
jpegtran("-scans", $ftmp, "-outfile", $fout, $jtmp);
unless ($rc = -s $fout) {
die "jpegtran output file zero size";
}
unless ($quiet) {
print $verbose ? "$txt\n$rc\n\n" : ".";
}
$memo{$txt} = $rc;
}
return $rc;
}
sub triesn {
my ($limit, @modes) = @_;
my $overshoot = 0;
my ($bmode, $bsize);
foreach my $mode (@modes) {
my $s = try($mode);
if (!$bsize || $s < $bsize) {
$bsize = $s;
$bmode = $mode;
$overshoot = 0;
}
elsif ($limit > 0 and ++$overshoot >= $limit) {
last;
}
}
return $bmode;
}
sub gen_modes {
my $c = shift;
my $str = shift;
map {
$_ => sprintf( "$c: 1 %d $str;$c: %d 63 $str;", $_, $_+1)
} 2,5,8,12,18;
}
sub try_splits {
my $c = shift;
my $str = shift;
my %n = gen_modes($c, $str);
my $mode = triesn(2, "$c: 1 63 $str;", @n{2,8,5});
if ($mode ne $n{8}) {
return $mode;
}
else {
return triesn(1, $mode, @n{12,18});
}
}
sub get_stderr {
my $code = shift;
my $rc;
if (ref $code eq 'CODE') {
my $old_stderr;
open $old_stderr, ">&", STDERR;
open STDERR, ">", $otmp;
$code->(@_);
open STDERR, ">&", $old_stderr;
$rc = do {
local $/;
open(my $io, $otmp);
<$io>;
};
unlink( $otmp ) if (-f $otmp);
}
return $rc;
}
# sub main {
unless (scalar @ARGV == 2) {
die "usage: jpegrescan in.jpg out.jpg\ntries various progressive scan orders\n";
}
$fin = $ARGV[0];
$fout = $ARGV[1];
$verbose = 0;
$quiet = 0;
$strip = 0;
$ftmp = "$fout-$$.scan";
$jtmp = "$fout-$$.jpg";
$otmp = "$fout-$$.out";
undef $/;
$|=1;
$old_size = -s $fin;
$prefix = "";
$suffix = "";
# convert the input to baseline, just to make all the other conversions faster
# FIXME there's still a bunch of redundant computation in separate calls to jpegtran
my $stderr = get_stderr(
sub {
jpegtran("-v", "-optimize", "-outfile", $jtmp, $fin);
}
);
if ($stderr =~ /components=(\d+)/) {
my $rgb;
if ($1 == 3) {
$rgb = 1;
# 012 helps very little
# 0/12 and 0/1/2 are pretty evenly matched in frequency, but 0/12 wins in total size if every image had to use the same mode
# dc refinement passes never help
$dc = triesn(0, "0: 0 0 0 0;1: 0 0 0 0;2: 0 0 0 0;" );
# jpegtran won't let me omit dc entirely, but I can at least quantize it away to make the rest of the tests faster.
$prefix = "0 1 2: 0 0 0 9;";
}
elsif ($1 == 1) {
$rgb = 0;
$dc = "0: 0 0 0 0;";
$prefix = "0: 0 0 0 9;";
}
else {
die "File $fin is not RGB or grayscale\n"
}
foreach my $c ( 0 .. $rgb ) {
my $max_i = $c ? 2 : 3;
my $ml = "";
my @modes;
my $refine;
foreach my $i ( 0 .. $max_i ) {
push @modes, "$c: 1 8 0 $i;$c: 9 63 0 $i;".$ml;
$ml .= sprintf("$c: 1 63 %d %d;", $i+1, $i);
}
$refine = triesn(1, @modes);
$refine =~ s/.* (0 \d);//;
$ac .= $refine . try_splits($c, $1);
}
# luma can make use of up to 3 refinement passes.
# chroma can make use of up to 2 refinement passes.
# refinement passes have some chance of being split (luma: 4%,4%,4%. chroma: 20%,8%) but the total bit gain is negligible.
# msb pass should almost always be split (luma: 87%, chroma: 81%).
# I have no theoretical reason for this list of split positions, they're just the most common in practice.
# splitting into 3 ections is often slightly better, but the total number of bits saved is negligible.
# FIXME: penalize lots of refinement passes because it's slower to decode. if so, then also force overwrite if bigger than the input.
$prefix = "";
%memo = ();
$mode = $dc.$ac;
$mode = canonize($mode);
try($mode);
$size = $memo{$mode};
print "\n$mode\n$size\n" unless ($quiet);
unlink(
$jtmp,
$ftmp,
(($size >= $old_size) ? $fout : ())
);
}
else {
die "Invalud output from jpegtran\n";
}