mosesdecoder/scripts/training/clean-corpus-n-ratio.perl

165 lines
4.0 KiB
Perl
Executable File

#!/usr/bin/perl -w
# $Id: clean-corpus-n.perl 3633 2010-10-21 09:49:27Z phkoehn $
use strict;
use Getopt::Long;
my $help;
my $lc = 0; # lowercase the corpus?
my $ignore_ratio = 0;
my $ignore_xml = 0;
my $enc = "utf8"; # encoding of the input and output files
# set to anything else you wish, but I have not tested it yet
my $max_word_length = 1000; # any segment with a word (or factor) exceeding this length in chars
# is discarded; motivated by symal.cpp, which has its own such parameter (hardcoded to 1000)
# and crashes if it encounters a word that exceeds it
my $ratio = 9;
GetOptions(
"help" => \$help,
"lowercase|lc" => \$lc,
"encoding=s" => \$enc,
"ratio=f" => \$ratio,
"ignore-ratio" => \$ignore_ratio,
"ignore-xml" => \$ignore_xml,
"max-word-length|mwl=s" => \$max_word_length
) or exit(1);
if (scalar(@ARGV) < 6 || $help) {
print "syntax: clean-corpus-n.perl [-ratio n] corpus l1 l2 clean-corpus min max [lines retained file]\n";
exit;
}
my $corpus = $ARGV[0];
my $l1 = $ARGV[1];
my $l2 = $ARGV[2];
my $out = $ARGV[3];
my $min = $ARGV[4];
my $max = $ARGV[5];
my $linesRetainedFile = "";
if (scalar(@ARGV) > 6) {
$linesRetainedFile = $ARGV[6];
open(LINES_RETAINED,">$linesRetainedFile") or die "Can't write $linesRetainedFile";
}
print STDERR "clean-corpus.perl: processing $corpus.$l1 & .$l2 to $out, cutoff $min-$max, ratio $ratio\n";
my $opn = undef;
my $l1input = "$corpus.$l1";
if (-e $l1input) {
$opn = $l1input;
} elsif (-e $l1input.".gz") {
$opn = "zcat $l1input.gz |";
} else {
die "Error: $l1input does not exist";
}
open(F,$opn) or die "Can't open '$opn'";
$opn = undef;
my $l2input = "$corpus.$l2";
if (-e $l2input) {
$opn = $l2input;
} elsif (-e $l2input.".gz") {
$opn = "zcat $l2input.gz |";
} else {
die "Error: $l2input does not exist";
}
open(E,$opn) or die "Can't open '$opn'";
open(FO,">$out.$l1") or die "Can't write $out.$l1";
open(EO,">$out.$l2") or die "Can't write $out.$l2";
# necessary for proper lowercasing
my $binmode;
if ($enc eq "utf8") {
$binmode = ":utf8";
} else {
$binmode = ":encoding($enc)";
}
binmode(F, $binmode);
binmode(E, $binmode);
binmode(FO, $binmode);
binmode(EO, $binmode);
my $innr = 0;
my $outnr = 0;
my $factored_flag;
while(my $f = <F>) {
$innr++;
print STDERR "." if $innr % 10000 == 0;
print STDERR "($innr)" if $innr % 100000 == 0;
my $e = <E>;
die "$corpus.$l2 is too short!" if !defined $e;
chomp($e);
chomp($f);
if ($innr == 1) {
$factored_flag = ($e =~ /\|/ || $f =~ /\|/);
}
#if lowercasing, lowercase
if ($lc) {
$e = lc($e);
$f = lc($f);
}
$e =~ s/\|//g unless $factored_flag;
$e =~ s/\s+/ /g;
$e =~ s/^ //;
$e =~ s/ $//;
$f =~ s/\|//g unless $factored_flag;
$f =~ s/\s+/ /g;
$f =~ s/^ //;
$f =~ s/ $//;
next if $f eq '';
next if $e eq '';
my $ec = &word_count($e);
my $fc = &word_count($f);
next if $ec > $max;
next if $fc > $max;
next if $ec < $min;
next if $fc < $min;
next if !$ignore_ratio && $ec/$fc > $ratio;
next if !$ignore_ratio && $fc/$ec > $ratio;
# Skip this segment if any factor is longer than $max_word_length
my $max_word_length_plus_one = $max_word_length + 1;
next if $e =~ /[^\s\|]{$max_word_length_plus_one}/;
next if $f =~ /[^\s\|]{$max_word_length_plus_one}/;
# An extra check: none of the factors can be blank!
die "There is a blank factor in $corpus.$l1 on line $innr: $f"
if $f =~ /[ \|]\|/;
die "There is a blank factor in $corpus.$l2 on line $innr: $e"
if $e =~ /[ \|]\|/;
$outnr++;
print FO $f."\n";
print EO $e."\n";
if ($linesRetainedFile ne "") {
print LINES_RETAINED $innr."\n";
}
}
if ($linesRetainedFile ne "") {
close LINES_RETAINED;
}
print STDERR "\n";
my $e = <E>;
die "$corpus.$l2 is too long!" if defined $e;
print STDERR "Input sentences: $innr Output sentences: $outnr\n";
sub word_count {
my ($line) = @_;
if ($ignore_xml) {
$line =~ s/<\S[^>]*\S>//g;
$line =~ s/\s+/ /g;
$line =~ s/^ //g;
$line =~ s/ $//g;
}
my @w = split(/ /,$line);
return scalar @w;
}