10

I need to find the longest repeating string in substring. Let's say I have string "bannana"

Wikipedia says following:

In computer science, the longest repeated substring problem is the problem of finding the longest substring of a string that occurs at least twice. In the figure with the string "ATCGATCGA$", the longest repeated substring is "ATCGA"

So I assume that for string "bannana" there are two equally long substrings (if not correct me please): "an" and "na".

Wikipedia also says that for this purpose suffix trees are used. To be more specific here is quotation how to do it (this seems to me more understable than definition on wikipedia):

build a Suffix tree, then find the highest node with at least 2 descendants.

I've found several implementations of suffix trees. Following code is taken from here:

use strict;
use warnings;
use Data::Dumper;

sub classify {
    my ($f, $h) = (shift, {});
    for (@_) { push @{$h->{$f->($_)}}, $_ }
    return $h;
}
sub suffixes {
    my $str = shift;
    map { substr $str, $_ } 0 .. length($str) - 1;
}
sub suffix_tree {
    return +{} if @_ == 0;
    return +{ $_[0] => +{} } if @_ == 1;
    my $h = {};
    my $classif = classify sub { substr shift, 0, 1 }, @_;
    for my $key (sort keys %$classif) {
        my $subtree = suffix_tree(
            grep "$_", map { substr $_, 1 } @{$classif->{$key}}
        );
        my @subkeys = keys %$subtree;
        if (@subkeys == 1) {
            my $subkey = shift @subkeys;
            $h->{"$key$subkey"} = $subtree->{$subkey};
        } else { $h->{$key} = $subtree }
    }
    return $h;
}

print +Dumper suffix_tree suffixes 'bannana$';

for string "bannana" it returns following tree:

$VAR1 = {
          '$' => {},
          'n' => {
                   'a' => {
                            'na$' => {},
                            '$' => {}
                          },
                   'nana$' => {}
                 },
          'a' => {
                   '$' => {},
                   'n' => {
                            'a$' => {},
                            'nana$' => {}
                          }
                 },
          'bannana$' => {}
        };

Another implementation is online from here, for string "bannana" it returns following tree:

 7: a
 5: ana
 2: annana
 1: bannana
 6: na
 4: nana
 3: nnana

     |(1:bannana)|leaf
tree:|
     |      |(4:nana)|leaf
     |(2:an)|
     |      |(7:a)|leaf
     |
     |     |(4:nana)|leaf
     |(3:n)|
     |     |(5:ana)|leaf
3 branching nodes

Questions:

  1. How can I get from those graphs "an" and "na" strings?
  2. As you can see trees are different, are they equivalent or not, if yes why they are different, if not which algorithm is correct?
  3. If perl implementation is wrong is there any working implementation for perl/python?
  4. I've read about Ukkonen's algorithm which is also mentioned on page with 2nd example (I did not catch if the online version is using this algorithm or not), does any of the mentioned examples using this algorithm? If not, is used algorithm slower or has any drawbacks compared to Ukkonen?
5
  • It is not quite clear how the first implemetation managed to convert bannana to banana. Jul 16, 2015 at 17:34
  • The first implementation is dubious: is it bannana or banana? The second looks wrong: it has 5 leafs, but bannana has 7 letters, so it should have 7 leafs, according to the definition.
    – IVlad
    Jul 16, 2015 at 17:37
  • Your notation is also confusing. Suffix trees usually label the edges, not the nodes. But you seem to label the nodes, so what do your labels represent?
    – IVlad
    Jul 16, 2015 at 17:39
  • sorry guys, my fault I've fixed bannana vs banana. It is bannana @IVlad to be honest I have no idea. My initial goal is to find longest repeating substring, suffix tree is just a "tool" to do it, how exactly they are working I do not know. But what I understood, is that the answer to my problem. Jul 16, 2015 at 17:44
  • What you should do is look at the algorithms for computing the longest common prefix array (usually used with suffix arrays) from a suffix tree. Jul 16, 2015 at 19:17

1 Answer 1

1

1. How can I get from those graphs "an" and "na" strings?

build a Suffix tree, then find the highest node with at least 2 descendants.

string-node is concatenate strings for every node from root to this node. highest node is node with maximum length string-node.

See tree in my answer for second question. (3:n) have 2 descendants and path to node is (2:a)->(3:n), concatenate is an. And also for (5:a) get na.

2. As you can see trees are different, are they equivalent or not, if yes why they are different, if not which algorithm is correct?

These trees are different. Rebuild second tree for string "bannana$" ( as in the first tree):

 8: $
 7: a$
 5: ana$
 2: annana$
 1: bannana$
 6: na$
 4: nana$
 3: nnana$

     |(1:bannana$)|leaf
tree:|
     |     |     |(4:nana$)|leaf
     |     |(3:n)|
     |     |     |(7:a$)|leaf
     |(2:a)|
     |     |(8:$)|leaf
     |
     |     |(4:nana$)|leaf
     |(3:n)|
     |     |     |(6:na$)|leaf
     |     |(5:a)|
     |     |     |(8:$)|leaf
     |
     |(8:$)|leaf
5 branching nodes

3. If perl implementation is wrong is there any working implementation for perl/python?

I don't know Perl, but the tree is built correctly.

4. I've read about Ukkonen's algorithm which is also mentioned on page with 2nd example (I did not catch if the online version is using this algorithm or not), does any of the mentioned examples using this algorithm? If not, is used algorithm slower or has any drawbacks compared to Ukkonen?

I said earlier that I don't know Perl, but it's a line in first algorthim means that it works at least O(n^2) (n it is length string):

map { substr $str, $_ } 0 .. length($str) - 1;

Ukkonen's algorithm works linear time O(n).

First algorithm also recursive which may affect used memory.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.