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group_alike_words.pl
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group_alike_words.pl
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#!/usr/bin/perl
# Author: Daniel "Trizen" Șuteu
# License: GPLv3
# Date: 20 July 2014
# Website: https://github.com/trizen
# Group in distinct paragraphs all the words that look pretty much the same to one another
use 5.010;
use strict;
use warnings;
use open IO => ':utf8', ':std';
use POSIX qw(ceil);
use Getopt::Std qw(getopts);
use List::Util qw(first min);
my %opt = (d => 2);
sub usage {
my ($code) = @_;
print <<"USAGE";
usage: $0 [options] [input file]
options:
-d int : the maximum distance between two words (default: $opt{d})
-m : merge similar groups into one larger group
-k : allow a word to exist in more than one group
-h : print this message and exit
example:
$0 -d 1 input.txt > output.txt
USAGE
exit($code // 0);
}
getopts('d:kmh', \%opt);
$opt{h} && usage();
# Levenshtein's distance function (optimized for speed)
sub leven {
my ($s, $t) = @_;
my @d = ([0 .. @$t], map { [$_] } 1 .. @$s);
foreach my $i (0 .. $#{$s}) {
foreach my $j (0 .. $#{$t}) {
$d[$i + 1][$j + 1] =
$s->[$i] eq $t->[$j]
? $d[$i][$j]
: 1 + min($d[$i][$j + 1], $d[$i + 1][$j], $d[$i][$j]);
}
}
$d[-1][-1];
}
# When no file has been provided, throw an error
@ARGV || usage(2);
# Iterate over the argument-files
foreach my $file (@ARGV) {
my @words = do {
my %w;
open my $fh, '<', $file or do {
warn "Can't open file '$file': $!";
next;
};
@w{map { unpack('A*') } <$fh>} = ();
map { [split //] } sort keys %w;
};
my %table;
for (my $i = 0 ; $i <= $#words - 1 ; $i++) {
printf STDERR "[%*d of %d] Processing...\r", ceil(log(scalar @words) / log(10)), $i, scalar(@words);
my %h1;
@h1{@{$words[$i]}} = ();
for (my $j = $i + 1 ; $j <= $#words ; $j++) {
# If the lengths of the words differ by more than $opt{d}
if (abs(@{$words[$i]} - @{$words[$j]}) > $opt{d}) {
next; # then there is no need to compute the distance
}
my %h2;
@h2{@{$words[$j]}} = ();
# One more check before calling the very
# expensive Levenshtein's distance function
my $diff = 0;
foreach my $key (keys %h1) {
exists $h2{$key} or do {
last if ++$diff > $opt{d};
};
}
next if $diff > $opt{d};
# Compute the Levenshtein distance
if (leven($words[$i], $words[$j]) <= $opt{d}) {
if (not exists $table{$i}) {
$table{$i} = [join('', @{$words[$i]})];
}
push @{$table{$i}}, join('', @{$words[$j]});
splice(@words, $j--, 1) if (not $opt{k} and not $opt{m});
}
}
}
# Clear the process line
print STDERR " \r";
# Output the results
if ($opt{m}) { # merge the groups
my @values = values %table;
for (my $i = 0 ; $i <= $#values ; $i++) {
foreach my $val (@{$values[$i]}) {
for (my $j = $i + 1 ; $j <= $#values ; $j++) {
if (defined(first { $val eq $_ } @{$values[$j]})) {
push @{$values[$i]}, @{$values[$j]};
splice(@values, $j--, 1);
last;
}
}
}
my %w;
@w{@{$values[$i]}} = ();
say for sort keys %w;
print "\n";
}
}
else { # simple output
foreach my $value (values %table) {
say for @{$value};
print "\n";
}
}
}