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What would be that best appoach (performace-wise) in solving this problem?

It was suggested to use suffix trees, it that the best approach? and if so, what kind of suffix tree?

Thank you

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up vote 4 down vote accepted

Have a look at http://en.wikipedia.org/wiki/Suffix_array as well - they are quite space-efficient and have some reasonably programmable algorithms to produce them, such as "Simple Linear Work Suffix Array Construction" by Karkkainen and Sanders

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Check out this link: http://introcs.cs.princeton.edu/java/42sort/LRS.java.html

 *  Compilation:  javac LRS.java
 *  Execution:    java LRS < file.txt
 *  Dependencies: StdIn.java
 *  Reads a text corpus from stdin, replaces all consecutive blocks of
 *  whitespace with a single space, and then computes the longest
 *  repeated substring in that corpus. Suffix sorts the corpus using
 *  the system sort, then finds the longest repeated substring among 
 *  consecutive suffixes in the sorted order.
 *  % java LRS < mobydick.txt
 *  ',- Such a funny, sporty, gamy, jesty, joky, hoky-poky lad, is the Ocean, oh! Th'
 *  % java LRS 
 *  aaaaaaaaa
 *  'aaaaaaaa'
 *  % java LRS
 *  abcdefg
 *  ''

import java.util.Arrays;

public class LRS {

    // return the longest common prefix of s and t
    public static String lcp(String s, String t) {
        int n = Math.min(s.length(), t.length());
        for (int i = 0; i < n; i++) {
            if (s.charAt(i) != t.charAt(i))
                return s.substring(0, i);
        return s.substring(0, n);

    // return the longest repeated string in s
    public static String lrs(String s) {

        // form the N suffixes
        int N  = s.length();
        String[] suffixes = new String[N];
        for (int i = 0; i < N; i++) {
            suffixes[i] = s.substring(i, N);

        // sort them

        // find longest repeated substring by comparing adjacent sorted suffixes
        String lrs = "";
        for (int i = 0; i < N - 1; i++) {
            String x = lcp(suffixes[i], suffixes[i+1]);
            if (x.length() > lrs.length())
                lrs = x;
        return lrs;

    // read in text, replacing all consecutive whitespace with a single space
    // then compute longest repeated substring
    public static void main(String[] args) {
        String s = StdIn.readAll();
        s = s.replaceAll("\\s+", " ");
        StdOut.println("'" + lrs(s) + "'");
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Great, thanks for the resource – J.W. Jun 4 '14 at 3:11
what is the time complexity for this code – Newbie Dec 1 '15 at 20:57

Here is a simple implementation of longest repeated substring using simplest suffix tree. Suffix tree is very easy to implement in this way.

#include <iostream>
#include <vector>
#include <unordered_map>
#include <string>
using namespace std;

class Node
    char ch;
    unordered_map<char, Node*> children;
    vector<int> indexes; //store the indexes of the substring from where it starts
    Node(char c):ch(c){}

int maxLen = 0;
string maxStr = "";

void insertInSuffixTree(Node* root, string str, int index, string originalSuffix, int level=0)

    // it is repeated and length is greater than maxLen
    // then store the substring
    if(root->indexes.size() > 1 && maxLen < level)
        maxLen = level;
        maxStr = originalSuffix.substr(0, level);

    if(str.empty()) return;

    Node* child;
    if(root->children.count(str[0]) == 0) {
        child = new Node(str[0]);
        root->children[str[0]] = child;
    } else {
        child = root->children[str[0]];

    insertInSuffixTree(child, str.substr(1), index, originalSuffix, level+1);

int main()
    string str = "banana"; //"abcabcaacb"; //"banana";  //"mississippi";
    Node* root = new  Node('@');

    //insert all substring in suffix tree
    for(int i=0; i<str.size(); i++){
        string s = str.substr(i);
        insertInSuffixTree(root, s, i, s);

    cout << maxLen << "->" << maxStr << endl;

    return 1;

s = "mississippi", return "issi"
s = "banana", return "ana"
s = "abcabcaacb", return "abca"
s = "aababa", return "aba"
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There are way too many things that affect performance for us to answer this question with only what you've given us. (Operating System, language, memory issues, the code itself)

If you're just looking for a mathematical analysis of the algorithm's efficiency, you probably want to change the question.


When I mentioned "memory issues" and "the code" I didn't provide all the details. The length of the strings you will be analyzing are a BIG factor. Also, the code doesn't operate alone - it must sit inside a program to be useful. What are the characteristics of that program which impact this algorithm's use and performance?

Basically, you can't performance tune until you have a real situation to test. You can make very educated guesses about what is likely to perform best, but until you have real data and real code, you'll never be certain.

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I'm writing in C++ on Windows 7 using 4 GB of RAM – kukit Apr 27 '12 at 17:30
Thank you for the clarification, the maximum string length is 5000 characters, it will be a worker thread that just reads the string and writes the results so you can assume that there's no other code in the program. – kukit Apr 27 '12 at 17:39
Why is this getting down-voted? Everyone should know that pre-optimizing is a waste of time. We can choose algorithms which are generally a good idea, but we can't pick the "best" without measuring specific scenarios. – John Fisher Feb 16 '15 at 16:18

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