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#!/usr/bin/env perl
# Display OOV rate of a test set against a training corpus or a phrase table.
# Ondrej Bojar
#
# This file is part of moses. Its use is licensed under the GNU Lesser General
# Public License version 2.1 or, at your option, any later version.
use strict;
use warnings;
use Digest::MD5 qw(md5);
use Encode qw(encode_utf8);
use Getopt::Long;
binmode(STDIN, ":utf8");
binmode(STDOUT, ":utf8");
binmode(STDERR, ":utf8");
my $verbose = 0;
my $n = 1;
my $srcfile = undef;
my $md5 = 0;
GetOptions(
"n=i" => \$n, # the n-grams to search for (default: unigrams)
"verbose!" => \$verbose, # emit the list of oov words
"md5!" => \$md5, # emit the list of oov words
"src=s" => \$srcfile, # use this source file
) or exit 1;
my $testf = shift;
if (!defined $testf) {
print STDERR "usage: $0 test-corpus < training-corpus
Options:
--n=1 ... use phrases of n words as the unit
set --n=0 to compare *whole sentences* (forces md5 hashing on)
--md5 ... hash each ngram using md5, saves memory for longer n-grams
--verbose ... emit OOV phrases at the end
--src=test-src ... a word in the test-corpus not deemed OOV if present in the
corresponding source sentence in test-src.
The files test-corpus and test-src must be of equal length.
Synopsis:
Check OOV of a training corpus against a test set:
cat corpus.src.txt | $0 testset.txt
Check target-side OOV of a phrase table against a reference:
cat ttable | sed 's/ ||| /<ctrl-v><tab>/g' | cut -f 2 \
| $0 reference.txt
";
exit 1;
}
my $ngr_or_sent = $n > 0 ? "$n-grams" : "sentences";
# load source file to accept ngrams from source
my $source_confirms = undef;
my $srcfilelen = undef;
if (defined $srcfile) {
my $fh = my_open($srcfile);
my $nr = 0;
my $srctokens = 0;
while (<$fh>) {
$nr++;
chomp;
s/^\s+//;
s/\s+$//;
my $ngrams = ngrams($n, $_);
foreach my $ngr (keys %$ngrams) {
$source_confirms->[$nr]->{$ngr} += $ngrams->{$ngr};
$srctokens += $ngrams->{$ngr};
}
}
close $fh;
print "Source set sents\t$nr\n";
print "Source set running $ngr_or_sent\t$srctokens\n" if $n>0;
$srcfilelen = $nr;
}
my %needed = ();
my $fh = my_open($testf);
my $nr = 0;
my $testtokens = 0;
my %testtypes = ();
while (<$fh>) {
$nr++;
chomp;
s/^\s+//;
s/\s+$//;
my $ngrams = ngrams($n, $_);
foreach my $ngr (keys %$ngrams) {
$needed{$ngr} += $ngrams->{$ngr}
unless $source_confirms->[$nr]->{$ngr};
$testtokens += $ngrams->{$ngr};
$testtypes{$ngr} = 1;
}
}
close $fh;
my $testtypesneeded = scalar(keys(%needed));
my $testtypes = scalar(keys(%testtypes));
print "Test set sents\t$nr\n";
print "Test set running $n-grams\t$testtokens\n" if $n>0;
print "Test set unique $ngr_or_sent needed\t$testtypesneeded\n";
print "Test set unique $ngr_or_sent\t$testtypes\n";
die "Mismatching sent count: $srcfile and $testf ($srcfilelen vs. $nr)"
if defined $srcfile && $srcfilelen != $nr;
my %seen;
$nr = 0;
my $traintokens = 0;
while (<>) {
$nr++;
print STDERR "." if $nr % 10000 == 0;
print STDERR "($nr)" if $nr % 500000 == 0;
chomp;
s/^\s+//;
s/\s+$//;
my $ngrams = ngrams($n, $_); # [ split /\s+/, $_ ]);
foreach my $ngr (keys %$ngrams) {
$seen{$ngr} = 1 if $ngrams->{$ngr};
$traintokens += $ngrams->{$ngr};
}
}
foreach my $ngr (keys %needed) {
delete $needed{$ngr} if defined $seen{$ngr};
}
print STDERR "Done.\n";
my $traintypes = scalar(keys(%seen));
print "Training set sents\t$nr\n";
print "Training set running $n-grams\t$traintokens\n" if $n>0;
print "Training set unique $ngr_or_sent\t$traintypes\n";
my $oovtypes = scalar(keys(%needed));
my $oovtokens = 0;
foreach my $v (values %needed) {
$oovtokens += $v;
}
printf "OOV $ngr_or_sent types\t%i\t%.1f %%\n", $oovtypes, $oovtypes/$testtypes*100;
printf "OOV $ngr_or_sent tokens\t%i\t%.1f %%\n", $oovtokens, $oovtokens/$testtokens*100;
if ($verbose) {
foreach my $ngr (sort {$needed{$b} <=> $needed{$a}} keys %needed) {
print "$needed{$ngr}\t$ngr\n";
}
}
sub my_open {
my $f = shift;
if ($f eq "-") {
binmode(STDIN, ":utf8");
return *STDIN;
}
die "Not found: $f" if ! -e $f;
my $opn;
my $hdl;
my $ft = `file '$f'`;
# file might not recognize some files!
if ($f =~ /\.gz$/ || $ft =~ /gzip compressed data/) {
$opn = "zcat '$f' |";
} elsif ($f =~ /\.bz2$/ || $ft =~ /bzip2 compressed data/) {
$opn = "bzcat '$f' |";
} else {
$opn = "$f";
}
open $hdl, $opn or die "Can't open '$opn': $!";
binmode $hdl, ":utf8";
return $hdl;
}
sub ngrams {
my $n = shift;
my $sent = shift;
if ($n == 0) {
return { md5(encode_utf8($sent)) => 1 };
} else {
my @words = split /\s+/, $sent;
#factors
if ( $sent =~ m/[|]/) {
my $use_index = 0; # default factor is the first one
@words = map { ( split /[|]/, $_ ) [$use_index] } @words;
}
my $out;
if ($n == 1) {
foreach my $w (@words) {
my $usew = $md5 ? md5(encode_utf8($$w)) : $w;
$out->{$w}++;
}
} else {
while ($#words >= $n-1) {
my $ngr = join(" ", @words[0..$n-1]);
my $usengr = $md5 ? md5(encode_utf8($ngr)) : $ngr;
$out->{$ngr}++;
shift @words;
}
}
return $out;
}
}
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