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tools/scripts/FindNormRules.pl
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#!/usr/bin/perl -w
#------------------------------------------
# Author : Emmanuel FERREIRA
# Contact: emmanuel.ferreira0194@gmail.com
# Date : 08/02/12
# Brief :
# Analyze a list of coverage reports and process some text transformation
# in order to check usual words spelling mistakes
# create both a NOEMALIZATION_RULES_FILE containing transformation table in order
# to correct guessed mistakes found by this process and a OOV_LST_FILE
# containing the guessed real OOV words
#------------------------------------------
use strict;
use Getopt::Long;
use Pod::Usage;
use Switch;
#-------------------------------------------
# MAIN
#-------------------------------------------
# options variables
my $help = 0;
my $vocab;
my $penalty = 5;
my $oovReport;
# usefull variables
my %vocabMap;
my $sep="\t";
# Parse options and print usage if there is a syntax
# error, or if usage as explicitly requested
GetOptions('help|?' => \$help,
'penalty=s' => \$penalty);
pod2usage(1) if($help);
pod2usage({-msg =>"
ERROR : you must specify an oov report and a lexicon
", -exitval => 1, -verbose => 0, -output => \*STDERR}) if($#ARGV != 1);
$oovReport = $ARGV[0];
$vocab = $ARGV[1];
#*******************************
# MAIN
#*******************************
#--------------------------
# Load the lexicon in a map
#-------------------------
if($vocab){
my $file;
open($file, $vocab) or die("Cannot open : $vocab");
while(<$file>){
chomp($_);
my $tmp = doTransformation($_);
if(!$vocabMap{$tmp}){
$vocabMap{$tmp}=();
}
push(@{$vocabMap{$tmp}}, $_);
}
close($file);
}
#-----------------------
# Load the OOV report and display the result formatted as follows :
# * normalization rules : r <OCC> <WORD>#<CORREC>#<SCORE> <ID> <EXP>
# * oov : r <OCC> <WORD>#<CORREC>#<SCORE> <ID> <EXP>
#-----------------------
my $file;
open($file, "$oovReport");
while(<$file>)
{
chomp($_);
my @splittedLine = split(/$sep/, $_);
my $word = $splittedLine[1];
my $id = $splittedLine[0];
my $occ = $splittedLine[2];
my $exp = $splittedLine[3];
my $transf = doTransformation($splittedLine[1]);
if($vocabMap{$transf}){
my @bestWord = findBestTransf($word, @{$vocabMap{$transf}});
# on n'afficage pas de score inf a 0
my $score = $bestWord[1];
if($score < 0){
$score = 0;
}
print "r$sep${occ}$sep${word}#$bestWord[0]#$bestWord[1]$sep${id}$sep${exp}
";
}
else{
print "o$sep${occ}$sep${word}$sep${id}$sep${exp}
";
}
}
close($file);
#-------------------------------------------
# SUBROUTINES
#-------------------------------------------
sub doTransformation
{
my ($word) = @_;
$word = lc($word);
$word =~ s/\d//g;
$word =~ s/'//g;
return $word;
}
sub findBestTransf
{
my ($word, @vocabTab) = @_;
my $Best;
my $BestScore;
my $i;
my $score;
for( $i = 0; $i <= $#vocabTab; $i++){
if(!$Best){
$Best = $vocabTab[$i];
$BestScore = calculateScore($word, $Best);
}
else{
$score = calculateScore($word, $vocabTab[$i]);
if($score < $BestScore){
$Best = $vocabTab[$i];
$BestScore = $score;
}
}
}
return ($Best, $BestScore);
}
sub calculateScore
{
my ($word, $cmpword) = @_;
my $score = 0;
if(length($word) > length($cmpword)){
$score += $penalty + levenshtein($word, $cmpword);
}
if ($cmpword =~ /^[A-Z]/ && $cmpword !~ /^[A-Z]+$/ && $word =~ /^[A-Z]/){
$score -= 1;
}
# if($cmpword =~ /^[A-Z]+$/ && $word !~ /^[A-Z]+$/){
# $score += $penalty;
# }
$score += levenshtein($word, $cmpword);
return $score;
}
#---------------------------------------------------
# LEVENSHTEIN DISTANCE ALGORITHM
# Initial version : Jorge Mas Trullenque
#---------------------------------------------------
sub levenshtein($$){
my @A=split //, lc shift;
my @B=split //, lc shift;
my @W=(0..@B);
my ($i, $j, $cur, $next);
for $i (0..$#A){
$cur=$i+1;
for $j (0..$#B){
$next=min(
$W[$j+1]+1,
$cur+1,
($A[$i] ne $B[$j])+$W[$j]
);
$W[$j]=$cur;
$cur=$next;
}
$W[@B]=$next;
}
return $next;
}
sub min($$$){
if ($_[0] < $_[2]){ pop @_; } else { shift @_; }
return $_[0] < $_[1]? $_[0]:$_[1];
}
__END__
=head1 NAME
FindNormRules.pl - from oov produce invoc correction proposition
=head1 SYNOPSIS
FindNormRules.pl [options] <report_oov> <lexicon>
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