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# Find longest substring without repeating characters

Given a `string S` of `length N` find longest substring without repeating characters.

Example:

Input: "stackoverflow"

Output: "stackoverfl"

If there are two such candidates, return first from left. I need linear time and constant space algorithm.

-
Which part are you having difficulty with ? Is there some reason why you can't just use a "brute force" approach ? – Paul R Mar 16 '12 at 9:16
@Paul: I know brute-force solution, TC: O(n^2). I need linear time algorithm. – mag Mar 16 '12 at 9:18
@downvoter: care to explain? – mag Mar 16 '12 at 9:20
If you need O(n) then this should be stated in the question – Paul R Mar 16 '12 at 10:27
@RajendraUppal: I'm only guessing, but the downvoter probably thought the question "does not show any research effort"... which is not a entirely unreasonable assessment... – Jean-François Corbett Mar 18 '12 at 18:58

1. You are going to need a start and an end locator(/pointer) for the string and an array where you store information for each character: did it occour at least once?

2. Start at the beginning of the string, both locators point to the start of the string.

3. Move the end locator to the right till you find a repetition (or reach the end of the string). For each processed character, store it in the array. When stopped store the position if this is the largest substring. Also remember the repeated character.

4. Now do the same thing with the start locator, when processing each character, remove its flags from the array. Move the locator till you find the repeated character.

5. Go back to step 3 if you haven't reached the end of string.

Overall: O(N)

-
This works only for something like ASCII strings. For Unicode strings, change array to hashtable. – Evgeny Kluev Mar 16 '12 at 9:45
@EvgenyKluev There are ~1 million Unicode chars. This is entirely possible to fit into an array indexed by code point. – Deestan Mar 16 '12 at 10:17
It seems that that algorithm would fail given "ababcdefahijklab" where the correct answer is "bcdefahijkl" – kasavbere Mar 18 '12 at 19:56
@kasavbere is right. An even simpler counterexample: abadef. Your algorithm returns adef, when it should return badef. Problem is, you're not allowing substrings to overlap. – Benubird Apr 11 '13 at 8:53
i don't see what is your problem guys... with the example `abadef`: 3) `ab` - repeated character found (next is `a`), stop. 4) move start locator after the repeated character `b`. 3) move the end locator... `badef`. – Karoly Horvath Apr 13 '13 at 19:41

You keep an array indicating the position at which a certain character occurred last. For convenience all characters occurred at position -1. You iterate on the string keeping a window, if a character is repeated in that window, you chop off the prefix that ends with the first occurrence of this character. Throughout, you maintain the longest length. Here's a python implementation:

``````def longest_unique_substr(S):
# This should be replaced by an array (size = alphabet size).
last_occurrence = {}
longest_len_so_far = 0
longest_pos_so_far = 0
curr_starting_pos = 0
curr_length = 0

for k, c in enumerate(S):
l = last_occurrence.get(c, -1)
# If no repetition within window, no problems.
if l < curr_starting_pos:
curr_length += 1
else:
# Check if it is the longest so far
if curr_length > longest_len_so_far:
longest_pos_so_far = curr_starting_pos
longest_len_so_far = curr_length
# Cut the prefix that has repetition
curr_length -= l - curr_starting_pos
curr_starting_pos = l + 1
# In any case, update last_occurrence
last_occurrence[c] = k

# Maybe the longest substring is a suffix
if curr_length > longest_len_so_far:
longest_pos_so_far = curr_starting_pos
longest_len_so_far = curr_length

return S[longest_pos_so_far:longest_pos_so_far + longest_len_so_far]
``````
-
This is in essence very similar to Karoly's solution. This has the advantage of requiring one pass instead of two on each character while his has the advantage of having slightly better space efficiency (his array is 0/1 therefore can be compacted into a bitmask). – aelguindy Mar 16 '12 at 14:46
Very well written. Thanks for the answer. – Stealth Dec 12 '12 at 4:54
``````import java.util.HashSet;

public class SubString {
public static String subString(String input){

HashSet<Character> set = new HashSet<Character>();

String longestOverAll = "";
String longestTillNow = "";

for (int i = 0; i < input.length(); i++) {
char c = input.charAt(i);

if (set.contains(c)) {
longestTillNow = "";
set.clear();
}
longestTillNow += c;
if (longestTillNow.length() > longestOverAll.length()) {
longestOverAll = longestTillNow;
}
}

return longestOverAll;
}

public static void main(String[] args) {
String input = "substringfindout";
System.out.println(subString(input));
}
}
``````
-
This is the best answer and the best way to do it. Thanks a lot for posting this answer. – Kaveesh Kanwal Apr 29 '15 at 10:59
@KaveeshKanwal I don't think so .. this solution returns only one String as output. What if there are 2 max length sub strings? – Amarnath Sep 22 '15 at 5:30
Doesn't work. Input : "ninenine" or "lolslols" – sr09 Nov 21 '15 at 20:16

EDITED:

following is an implementation of the concesus. It occured to me after my original publication. so as not to delete original, it is presented following:

``````public static String longestUniqueString(String S) {
int start = 0, end = 0, length = 0;
boolean bits[] = new boolean[256];
int x = 0, y = 0;
for (; x < S.length() && y < S.length() && length < S.length() - x; x++) {
bits[S.charAt(x)] = true;
for (y++; y < S.length() && !bits[S.charAt(y)]; y++) {
bits[S.charAt(y)] = true;
}
if (length < y - x) {
start = x;
end = y;
length = y - x;
}
while(y<S.length() && x<y && S.charAt(x) != S.charAt(y))
bits[S.charAt(x++)]=false;
}
return S.substring(start, end);
}//
``````

ORIGINAL POST:

Here is my two cents. Test strings included. boolean bits[] = new boolean[256] may be larger to encompass some larger charset.

``````public static String longestUniqueString(String S) {
int start=0, end=0, length=0;
boolean bits[] = new boolean[256];
int x=0, y=0;
for(;x<S.length() && y<S.length() && length < S.length()-x;x++) {
Arrays.fill(bits, false);
bits[S.charAt(x)]=true;
for(y=x+1;y<S.length() && !bits[S.charAt(y)];y++) {
bits[S.charAt(y)]=true;
}
if(length<y-x) {
start=x;
end=y;
length=y-x;
}
}
return S.substring(start,end);
}//

public static void main(String... args) {
String input[][] = { { "" }, { "a" }, { "ab" }, { "aab" }, { "abb" },
{ "aabc" }, { "abbc" }, { "aabbccdefgbc" },
{ "abcdeafghicabcdefghijklmnop" },
{ "abcdeafghicabcdefghijklmnopqrabcdx" },
{ "zxxaabcdeafghicabcdefghijklmnopqrabcdx" },
{"aaabcdefgaaa"}};
for (String[] a : input) {
System.out.format("%s  *** GIVES ***  {%s}%n", Arrays.toString(a),
longestUniqueString(a[0]));
}
}
``````
-

Algorithm in JavaScript (w/ lots of comments)..

``````/**
Given a string S find longest substring without repeating characters.
Example:

Input: "stackoverflow"
Output: "stackoverfl"

Input: "stackoverflowabcdefghijklmn"
Output: "owabcdefghijklmn"
*/
function findLongestNonRepeatingSubStr(input) {
var chars = input.split('');
var currChar;
var str = "";
var longestStr = "";
var hash = {};
for (var i = 0; i < chars.length; i++) {
currChar = chars[i];
if (!hash[chars[i]]) { // if hash doesn't have the char,
str += currChar; //add it to str
hash[chars[i]] = {index:i};//store the index of the char
} else {// if a duplicate char found..
//store the current longest non-repeating chars. until now
//In case of equal-length, <= right-most str, < will result in left most str
if(longestStr.length <= str.length) {
longestStr = str;
}
//Get the previous duplicate char's index
var prevDupeIndex = hash[currChar].index;

//Find all the chars AFTER previous duplicate char and current one
var strFromPrevDupe = input.substring(prevDupeIndex + 1, i);
//*NEW* longest string will be chars AFTER prevDupe till current char
str = strFromPrevDupe + currChar;
//console.log(str);
//Also, Reset hash to letters AFTER duplicate letter till current char
hash = {};
for (var j = prevDupeIndex + 1; j <= i; j++) {
hash[input.charAt(j)] = {index:j};
}
}
}
return longestStr.length > str.length ? longestStr : str;
}

//console.log("stackoverflow => " + findLongestNonRepeatingSubStr("stackoverflow"));
//returns stackoverfl

//console.log("stackoverflowabcdefghijklmn => " +
findLongestNonRepeatingSubStr("stackoverflowabcdefghijklmn")); //returns owabcdefghijklmn

//console.log("1230123450101 => " + findLongestNonRepeatingSubStr("1230123450101")); //
returns 234501
``````
-
``````private static String LongestSubString(String word)
{
char[] charArray = word.toCharArray();
HashSet set = new HashSet();
String longestOverAll = "";
String longestTillNow = "";
for (int i = 0; i < charArray.length; i++) {
Character c = charArray[i];

if (set.contains(c)) {
longestTillNow = "";
set.clear();
}
longestTillNow += c;
if (longestTillNow.length() > longestOverAll.length())
{
longestOverAll = longestTillNow;

}
}

return longestOverAll;
}
``````
-
Why are you simply posting the same answer again? Just for the sake of reputations? – Kaveesh Kanwal Apr 29 '15 at 10:58

We can consider all substrings one by one and check for each substring whether it contains all unique characters or not. There will be n*(n+1)/2 substrings. Whether a substirng contains all unique characters or not can be checked in linear time by scanning it from left to right and keeping a map of visited characters. Time complexity of this solution would be O(n^3).`

``````import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;

public class LengthOfLongestSubstringWithOutRepeatingChar {
public static void main(String[] args)
{
String s="stackoverflow";
//allSubString(s);
System.out.println("result of find"+find(s));
}
public static String find(String s)
{
List<String> allSubsring=allSubString(s);
for(String temp:allSubsring)
{
boolean a = false;
for(int i=0;i<temp.length();i++)
{
for(int k=temp.length()-1;k>i;k--)
{
if(temp.charAt(k)==temp.charAt(i))
a=true;
}
}
if(!a)
{
}
}
/*for(String x:main)
{
System.out.println(x);
}*/
String res=null;
int min=0,max=s.length();
for(String temp:main)
{
if(temp.length()>min&&temp.length()<max)
{
min=temp.length();
res=temp;
}
}
System.out.println(min+"ha ha ha"+res+"he he he");
return res;

}
//substrings left to right ban rahi hai

private static List<String> allSubString(String str) {
List<String> all=new ArrayList<String>();
int c=0;
for (int i = 0; i < str.length(); i++) {
for (int j = 0; j <= i; j++) {
if (!all.contains(str.substring(j, i + 1)))
{
c++;
}
}
}
for(String temp:all)
{
System.out.println("substring :-"+temp);
}
System.out.println("count"+c);
return all;
}
}``````

-
``````package strings;

import java.util.ArrayList;
import java.util.HashMap;

public class LongestSubstringWithoutRepeatingCharecters {
char[] arr = s.toCharArray();
int pre = 0;

HashMap<Character, Integer> map = new HashMap<Character, Integer>();
for (int i = 0; i < arr.length; i++) {
if (!map.containsKey(arr[i])) {
map.put(arr[i], i);
} else {
pre = Math.max(pre, map.size());
i = map.get(arr[i]);
map.clear();
}
}
return Math.max ( pre, map.size () );
}

public String getLongestSubstringWithoutRepeatingCharecters(String text) {
int max=0;
int min=0;
String longestString = "";
char[] charArr = text.toCharArray ();
ArrayList<String> strList = new ArrayList<String> ();
HashMap<Character, Integer> map = new HashMap<Character, Integer> (  );
for(int i = 0; i< text.length (); i++) {
if(!map.containsKey ( charArr[i] )) {
map.put(charArr[i], i);
max++;
} else {
String temp = "";
if(min<max) temp = text.substring ( min, max-1 );
if(longestString.length () < temp.length () ) longestString = temp;
min = map.get(charArr[i]) + 1;
max = i;
map.clear();
}
}
return longestString;
}

public static void main(String ...args) {
LongestSubstringWithoutRepeatingCharecters cl = new LongestSubstringWithoutRepeatingCharecters ();
System.out.println ( cl.getLongestSubstringWithoutRepeatingCharectersSize ( "arghrteesarfdehreet" ) );
System.out.println ( "=> " + cl.getLongestSubstringWithoutRepeatingCharecters ( "arghrteesarfdehreet" ) );
}
}
``````
-
``````import java.util.ArrayList;
import java.util.HashSet;
import java.util.List;
import java.util.Set;
import java.util.TreeMap;

public class LongestSubString2 {

public static void main(String[] args) {
String input = "stackoverflowabcdefghijklmn";
List<String> allOutPuts = new ArrayList<String>();
TreeMap<Integer, Set> map = new TreeMap<Integer, Set>();
for (int k = 0; k < input.length(); k++) {
String input1 = input.substring(k);
String longestSubString = getLongestSubString(input1);
}

for (String str : allOutPuts) {
int strLen = str.length();
if (map.containsKey(strLen)) {
Set set2 = (HashSet) map.get(strLen);
map.put(strLen, set2);
} else {
Set set1 = new HashSet();
map.put(strLen, set1);
}

}
System.out.println(map.lastKey());
System.out.println(map.get(map.lastKey()));
}

private static void printArray(Object[] currentObjArr) {
for (Object obj : currentObjArr) {
char str = (char) obj;
System.out.println(str);
}

}

private static String getLongestSubString(String input) {

String longestString = "";
int len = input.length();
for (int i = 0; i < len; i++) {
char currentChar = input.charAt(i);
if (i == len - 1) {
String currentStr = getStringFromSet(set);

if (currentStr.length() > longestString.length()) {
longestString = currentStr;
}
}
continue;
} else {
String currentStr = getStringFromSet(set);

if (currentStr.length() > longestString.length()) {
longestString = currentStr;
}
}

}

return longestString;
}

private static String getStringFromSet(Set<Character> set) {

Object[] charArr = set.toArray();

StringBuffer strBuff = new StringBuffer();
for (Object obj : charArr) {
strBuff.append(obj);

}

return strBuff.toString();
}
}
``````
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It does not hurt to add an explanation to the code. – Tunaki Feb 23 '15 at 22:42

This is my solution, and it was accepted by leetcode. However, after I saw the stats, I saw whole lot solutions has much faster result....meaning, my solution is around 600ms for all their test cases, and most of the js solutions are around 200 -300 ms bracket.. who can tell me why my solution is slowwww??

``````var lengthOfLongestSubstring = function(s) {
var arr = s.split("");

if (s.length === 0 || s.length === 1) {
return s.length;
}

tail = 1;
var maxL = 0;
while (tail < arr.length) {
if (str.indexOf(arr[tail]) == -1) {
str += arr[tail];
maxL = Math.max(maxL, str.length);
tail++;
} else {
maxL = Math.max(maxL, str.length);
}
}
return maxL;
};``````

-
``````   public String longestSubstring(String str) {
int start = 0;
int end = 0;
int max = Integer.MIN_VALUE;
StringBuffer longest = new StringBuffer();
StringBuffer temp = new StringBuffer();
HashMap<Character, Boolean> visited = new HashMap<Character, Boolean>();
while (end < str.length()) {
char current = str.charAt(end);
if (visited.get(current) == null) {
visited.put(current, true);
temp.append(current);
} else {
int length = end - start;
if (max < length) {
longest = temp;
max = length;
}
start = end;
temp = new StringBuffer(current + "");
}
end++;
}
int length = end - start;
if (max < length) {
longest = temp;
max = length;
}
return longest.toString();
}
``````
-

I am posting O(n^2) in python . I just want to know whether the technique mentioned by Karoly Horvath has any steps that are similar to existing search/sort algorithms ?

My code :

``````def main():
test='stackoverflow'
tempstr=''
maxlen,index=0,0
indexsubstring=''
print 'Original string is =%s\n\n' %test

while(index!=len(test)):
for char in test[index:]:
if char not in tempstr:
tempstr+=char
if len(tempstr)> len(indexsubstring):
indexsubstring=tempstr
elif (len(tempstr)>=maxlen):
maxlen=len(tempstr)
indexsubstring=tempstr
break
tempstr=''
print 'max substring length till iteration with starting index =%s is %s'%(test[index],indexsubstring)
index+=1

if __name__=='__main__':
main()
``````
-

Simple and Easy

``````import java.util.Scanner;

public class longestsub {

static Scanner sn = new Scanner(System.in);
static String word = sn.nextLine();

public static void main(String[] args) {
System.out.println("The Length is " +check(word));
}
private static int check(String word) {
String store="";
for (int i = 0; i < word.length(); i++) {
if (store.indexOf(word.charAt(i))<0) {
store = store+word.charAt(i);
}
}
System.out.println("Result word " +store);
return store.length();
}

}
``````
-
``````static int lengthOfLongestSubstring(String s)
{
if(s == null || s.isEmpty())
{
return 0;
}
if(s.length() == 1)
{
return 1;
}

StringBuilder longestString = new StringBuilder();
int longest = 0;
int inputLength = s.length();
//
for(int index = 0; index < inputLength; index++)
{
char currentChar = s.charAt(index);

int charLastIndex = longestString.indexOf(String.valueOf(currentChar));

//if repeat is encountered, update longest counter
if(charLastIndex > -1)
{
int length = longestString.length();
if(length > longest)
longest = length;

longestString.delete(0, charLastIndex + 1);
}

//append current
longestString.append(currentChar);
}

// check for last iteration
if(longestString.length() > longest)
longest = longestString.length();

return longest;
}
``````
-

Here is one more solution with only 2 string variables:

``````public static String getLongestNonRepeatingString(String inputStr){
if(inputStr == null){
return null;
}

String maxStr = "";
String tempStr = "";
for(int i=0; i < inputStr.length(); i++){
// 1. if tempStr contains new character, then change tempStr
if(tempStr.contains("" + inputStr.charAt(i))){
tempStr = tempStr.substring(tempStr.lastIndexOf(inputStr.charAt(i)) + 1);
}
tempStr = tempStr + inputStr.charAt(i);
// 3. replace maxStr with tempStr if tempStr is longer
if(maxStr.length() < tempStr.length()){
maxStr = tempStr;
}
}

return maxStr;
}
``````
-

Not quite optimized but simple answer in Python

``````def lengthOfLongestSubstring(s):
temp,maxlen,newstart = {},0,0
for i,x in enumerate(s):
if x in temp:
newstart = max(newstart,s[:i].rfind(x)+1)
else:
temp[x] = 1
maxlen = max(maxlen, len(s[newstart:i + 1]))
return maxlen
``````

I think the costly affair is `rfind` which is why it's not quite optimized.

-

Tested and working. For easy understanding, I suppose there's a drawer to put the letters.

``````public int lengthOfLongestSubstring(String s) {
int maxlen = 0;
int start = 0;
int end = 0;
HashSet<Character> drawer = new HashSet<Character>();
for (int i=0; i<s.length(); i++) {
char ch = s.charAt(i);
if (drawer.contains(ch)) {
//search for ch between start and end
while (s.charAt(start)!=ch) {
//drop letter from drawer
drawer.remove(s.charAt(start));
start++;
}
//Do not remove from drawer actual char (it's the new recently found)
start++;
end++;
}
else {
end++;
int _maxlen = end-start;
if (_maxlen>maxlen) {
maxlen=_maxlen;
}
}
}
return maxlen;
}
``````
-

Another O(n) JavaScript solution. It does not alter strings during the looping; it just keeps track of the offset and length of the longest sub string so far:

``````function longest(str) {
var hash = {}, start, end, bestStart, best;
start = end = bestStart = best = 0;
while (end < str.length) {
while (hash[str[end]]) hash[str[start++]] = 0;
hash[str[end]] = 1;
if (++end - start > best) bestStart = start, best = end - start;
}
return str.substr(bestStart, best);
}

// I/O for snippet
document.querySelector('span').textContent = longest(this.value);
});``````
``````Enter word:<input><br>
Longest: <span></span>``````

-
``````private static string LongestSubstring(string word)
{
var set = new HashSet<char>();
string longestOverAll = "";
string longestTillNow = "";

foreach (char c in word)
{
if (!set.Contains(c))
{
longestTillNow += c;
}
else
{
longestTillNow = string.Empty;
}

if (longestTillNow.Length > longestOverAll.Length)
{
longestOverAll = longestTillNow;
}
}

return longestOverAll;
}
``````
-