How to find repeating sequence of characters in a given array?

My problem is to find the repeating sequence of characters in the given array. simply, to identify the pattern in which the characters are appearing.

``````   .---.---.---.---.---.---.---.---.---.---.---.---.---.---.
1: | J | A | M | E | S | O | N | J | A | M | E | S | O | N |
'---'---'---'---'---'---'---'---'---'---'---'---'---'---'``````

``````   .---.---.---.---.---.---.---.---.---.---.---.---.---.---.---.
2: | R | O | N | R | O | N | R | O | N | R | O | N | R | O | N |
'---'---'---'---'---'---'---'---'---'---'---'---'---'---'---'``````

``````   .---.---.---.---.---.---.---.---.---.---.---.---.
3: | S | H | A | M | I | L | S | H | A | M | I | L |
'---'---'---'---'---'---'---'---'---'---'---'---'``````

``````   .---.---.---.---.---.---.---.---.---.---.---.---.---.---.---.---.---.---.
4: | C | A | R | P | E | N | T | E | R | C | A | R | P | E | N | T | E | R |
'---'---'---'---'---'---'---'---'---'---'---'---'---'---'---'---'---'---'``````

Example

Given the previous data, the result should be:

1. `"JAMESON"`
2. `"RON"`
3. `"SHAMIL"`
4. `"CARPENTER"`

Question

• How to deal with this problem efficiently?
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Edited the title of the post so that it actually tells your concrete problem. – Péter Török Sep 9 '10 at 9:39
Removed the [aptitude] tag because it's used primarily to refer to the APT client. Also, should this be tagged [language-agnostic] instead of [java] and [c]? – BoltClock Sep 9 '10 at 9:41
Edited to make the image direct. – bragboy Sep 9 '10 at 9:42
Is the array containing exactly the repeated text, or is it larger ? Is the repeated text starting on the first cell or can it start anywhere in the array ? – barjak Sep 9 '10 at 9:52
Pay attention to stuff like `BARBARABARBARABARBARA` (repeating `BARBARA`, not `BAR`) – pmg Sep 9 '10 at 9:59

For your examples, my first approach would be to

1. get the first character of the array (for your last example, that would be `C`)
2. get the index of the next appearance of that character in the array (e.g. 9)
3. if it is found, search for the next appearance of the substring between the two appearances of the character (in this case `CARPENTER`)
4. if it is found, you're done (and the result is this substring).

Of course, this works only for a very limited subset of possible arrays, where the same word is repeated over and over again, starting from the beginning, without stray characters in between, and its first character is not repeated within the word. But all your examples fall into this category - and I prefer the simplest solution which could possibly work :-)

If the repeated word contains the first character multiple times (e.g. `CACTUS`), the algorithm can be extended to look for subsequent occurrences of that character too, not only the first one (so that it finds the whole repeated word, not only a substring of it).

Note that this extended algorithm would give a different result for your second example, namely `RONRON` instead of `RON`.

-
+1 for a step-by-step explanation. – BoltClock Sep 9 '10 at 9:52
+1 for simplicity and linear time solution. However, I understood the problem differently. I guess that the question should specify whether characters can repeat in the pattern, and whether we are looking for the largest or smallest pattern that repeats itself. – Eyal Schneider Sep 9 '10 at 11:00
assuming the word never repeats the first letter is pretty much throwing up your hands and going home. – Jonathan Sep 9 '10 at 16:39
@Jonathan, in case you haven't noticed, I actually describe how to deal with that case :-) – Péter Török Sep 9 '10 at 16:58
this doesn't solve the 3rd example. – sagivo Dec 1 '14 at 1:22

Tongue-in-cheek O(NlogN) solution

Perform an FFT on your string (treating characters as numeric values). Every peak in the resulting graph corresponds to a substring periodicity.

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+1 nice. thinking outside the box. – Jonathan Sep 9 '10 at 16:41
As you mention the FFT, it got me thinking about using a cross-correlation (whichever method is used) to find matches of the substring in the sequence. Normally my caveman brute-force approach, if I couldn't use an off-the-shelf regex library, would be the "walk the sequence, try to match" approach. But your answer got me thinking -- I wonder if/when a cross correlation would be more efficient. Probably depends on the length of the pattern, the length of the sequence to search, etc... but anyway, your answer got me thinking ("out of the box" as Jonathan said). Thanks. – Dan Sep 11 '10 at 17:45
Cross-correlation and doing a Fourier transform are effectively the same thing (see en.wikipedia.org/wiki/Convolution_theorem). For anything other than quite small values of N, the FFT will be more efficient. – Oliver Charlesworth Sep 11 '10 at 17:51
Could you explain why every peak corresponds to a substring periodicity? Unfortunately, I cannot fully grasp the idea. I only know FFT for frequency analysis in music (there, multiple frequencies overlay at the same time; but when analyzing text we've got a straight sequence of characters). How does this match up? – Otts Feb 5 '14 at 23:14

In Python, you can leverage regexes thus:

``````def recurrence(text):
import re
for i in range(1, len(text)/2 + 1):
m = re.match(r'^(.{%d})\1+\$'%i, text)
if m: return m.group(1)

recurrence('abcabc') # Returns 'abc'
``````

I'm not sure how this would translate to Java or C. (That's one of the reasons I like Python, I guess. :-)

-

First write a method that find repeating substring `sub` in the container string as below.

``````boolean findSubRepeating(String sub, String container);
``````

Now keep calling this method with increasing substring in the container, first try 1 character substring, then 2 characters, etc going upto `container.length/2`.

-

Pseudocode

``````len = str.length
for (i in 1..len) {
if (len%i==0) {
if (str==str.substr(0,i).repeat(len/i)) {
return str.substr(0,i)
}
}
}
``````

Note: For brevity, I'm inventing a "repeat" method for strings, which isn't actually part of Java's string; "abc".repeat(2)="abcabc"

-

Using C++:

``````//Splits the string into the fragments of given size
//Returns the set of of splitted strings avaialble
set<string> split(string s, int frag)
{
set<string> uni;
int len = s.length();
for(int i = 0; i < len; i+= frag)
{
uni.insert(s.substr(i, frag));
}

return uni;
}

int main()
{

string out;
string s = "carpentercarpenter";
int len = s.length();

//Optimistic approach..hope there are only 2 repeated strings
//If that fails, then try to break the strings with lesser number of
//characters
for(int i = len/2; i>1;--i)
{
set<string> uni = split(s,i);
if(uni.size() == 1)
{
out = *uni.begin();
break;
}
}

cout<<out;
return 0;

}
``````
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The first idea that comes to my mind is trying all repeating sequences of lengths that divide length(S) = N. There is a maximum of N/2 such lengths, so this results in a O(N^2) algorithm.

But i'm sure it can be improved...

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and here is a concrete working example:

``````/* find greatest repeated substring */
char *fgrs(const char *s,size_t *l)
{
char *r=0,*a=s;
*l=0;
while( *a )
{
char *e=strrchr(a+1,*a);
if( !e )
break;
do {
size_t t=1;
for(;&a[t]!=e && a[t]==e[t];++t);
if( t>*l )
*l=t,r=a;
while( --e!=a && *e!=*a );
} while( e!=a && *e==*a );
++a;
}
return r;
}

size_t t;
const char *p;
p=fgrs("BARBARABARBARABARBARA",&t);
while( t-- ) putchar(*p++);
p=fgrs("0123456789",&t);
while( t-- ) putchar(*p++);
p=fgrs("1111",&t);
while( t-- ) putchar(*p++);
p=fgrs("11111",&t);
while( t-- ) putchar(*p++);
``````
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oops `p=fgrs("BARBARABARBARAB-RBARA", &t);` – pmg Sep 9 '10 at 17:44

I'd convert the array to a String object and use regex

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Not sure how you define "efficiently". For easy/fast implementation you could do this in Java:

``````    private static String findSequence(String text) {
Pattern pattern = Pattern.compile("(.+?)\\1+");
Matcher matcher = pattern.matcher(text);
return matcher.matches() ? matcher.group(1) : null;
}
``````

it tries to find the shortest string (`.+?`) that must be repeated at least once (`\1+`) to match the entire input text.

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Put all your character in an array e.x. a[]

``````i=0; j=0;
for( 0 < i < count )
{
if (a[i] == a[i+j+1])
{++i;}
else
{++j;i=0;}
}
``````

Then the ratio of (i/j) = repeat count in your array. You must pay attention to limits of `i` and `j`, but it is the simple solution.

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