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The question is to generate the lexicographically greatest string given some string s. So the aim is to find lexicographically greatest, unique(no repetitions) substring s1 from s. We say that some subsequence s1 is greater than another subsequence s2 if s1 has more characters than s2 or s1 is lexicographically greater than s2 if equal length.

I/O are as follows:

Input is: babab

output is: ba

Second input is: nlhthgrfdnnlprjtecpdrthigjoqdejsfkasoctjijaoebqlrgaiakfsbljmpibkidjsrtkgrdnqsknbarpabgokbsrfhmeklrle

Second output is: tsocrpkijgdqnbafhmle

This is what I wrote for my java code but my code fails on the second test case. Also I'm having a hard time understanding why second output isn't tsrqponmlkjihgfedcba. Can somebody provide suggestions for a fix or even java code?

I think the algorithm has to be more efficient than generating all possible unique strings, sort them and find lexicographically largest one.

To make the question much clearer, if the input is babab, then all the possible unique combinations would be b, a, ba, ab. And the output will be ba because it's the longest and lexicographically greater than ab.

Note: this is not a homework assignment.


public class mostBeautiful {
final static int MAX = 1000000;
static String[] permute;
static void permutation(String prefix, String str, int counter) {
    int n = str.length();
    //System.out.println("n is: "+ n);
    if (n == 0) {
        permute[counter] = prefix;
    } else {
        for (int i = 0; i < n; i++) {
            //System.out.println("str is: "+ str);
            permutation(prefix + str.charAt(i), str.substring(0, i) + str.substring(i+1, n), counter++);
public static void main(String[] args) throws IOException {
    BufferedReader bf = new BufferedReader(new InputStreamReader(;
    String s = bf.readLine();
    char[] unique = new char[26];
    int counter = 0;
    String answer = "";
    //System.out.println("s is: " + s);
    int ascii = 0;
    final int asciiAVal = 97;
    final int asciiZVal = 122;
    for (int i = 0; i < s.length(); i++) {
        ascii = (int)s.charAt(i);
        if (ascii < asciiAVal || ascii > asciiZVal) {
        char ch = s.charAt(i);
        unique[ch - 'a'] = ch;
    String result = "";
    for (int j = 25; j >= 0; j--) {
        result += unique[j];
    result = result.trim();
    int size = result.length() * (result.length() - 1);
    permute = new String[size];
    permutation("", result, counter);
    for (int i = 1; i < size; i++) {
        if (permute[i].compareTo(permute[i - 1]) > 0){
            answer = permute[i];
        }  else {
            answer = permute[i - 1];

    System.out.println("answer is: " + answer);


share|improve this question
A homework tag is missing, I believe. – Marko Topolnik Jul 9 '12 at 8:51
Sorry to disappoint you but it's not homework. It was one of the questions from the programming contest I failed to solve. – kchoi Jul 9 '12 at 9:17
It would be more precise to say "subsequence" (can be non-continuous) instead of "substring" (continuous). – nhahtdh Jul 9 '12 at 9:36
So your true problem statement is to find the set of all chars in the string and sort it in descending order? – Marko Topolnik Jul 9 '12 at 9:45
The string s1="tsocrpkijgdqnbafhmle" is NOT a substring of the Second input. Please edit your question. – Peter Krauss Jul 9 '12 at 13:34
up vote 2 down vote accepted

After thinking about this problem in many ways, I have determined a divide-and-conquer algorithm that gets the results right:

Algorithm - Pseudocode

Assuming some input string, S defined as a concatenation of two substrings A + B, we compute the lexicographically greatest string recursively as:

LexMax(S) = Merge(LexMax(A),LexMax(B))


    if Length(S) = 1
        return S
        LMA = LexMax(S[0:Length/2])
        LMB = LexMax(S[Length/2:end])
        return Merge(LMA,LMB)

    Sa = A
    Sb = B

    for n = 0:Length(A)
        if Sb contains A[n]
            if A[n+1:end] contains character > A[n]
                Remove A[n] from Sa
                Remove A[n] from Sb

    return Sa + Sb

Java Code

Coming soon!


Given an input string


Divide it into


Assuming the function works we have:

LexMax("cefcfda") = "efcda"
LexMax("bbcfed") = "bcfed"

Merging works as follows:

e: efcda bcfed

In both substrings, greater value found to right of e in left substring, remove from left

f: fcda bcfed

In both substrings, no greater value in left substring, remove from right

c: fcda bced

In both substrings, greater value found to right of c in left substring, remove from left

d: fda bced

In both substrings, no greater value in left substring, remove from right

a: fda bce

Not in both substrings, do nothing

Final result:

LexMax(cefcfdabbcfed) = fdabce
share|improve this answer
Nice idea, but the condition in the inner-most if-block is not enough. Consider merging cba and czba. Your algorithm will keep cba and attach z to it, but it should instead remove ba from the first part and return czba. – alveko Nov 25 '13 at 22:41

This is not a direct answer, but doesn't this code meet the requirement as you explained it in the discussion above?

final String x = "saontehusanoethusnaoteusnaoetuh";
final SortedSet<Character> chars = 
   new TreeSet<Character>(Collections.reverseOrder());
for (char c : x.toCharArray()) chars.add(c);
share|improve this answer
no it doesn't output lexicographically greatest string. – kchoi Jul 9 '12 at 10:17
Plus it doesn't work for the 2nd input. – kchoi Jul 9 '12 at 10:17
well if you just wrote that code based on my response above it should be correct. – kchoi Jul 9 '12 at 10:20
I did. Quote: "OK what I meant was any permutation of chars or non-continuous subsquence." Me: "So a descending sort of the set of all chars in a string is any permutation. Your example above confirms that: "ba" is the descending-order sort of the set of all chars in "babab"" You: "Marko, that is correct." – Marko Topolnik Jul 9 '12 at 10:21
When I said "no it doesn't output lexicographically greatest string," I meant to say that I replaced the variable x with "nlhthgrfdnnlprjtecpdrthigjoqdejsfkasoctjijaoebqlrgaiakfsbljmpibkidjsrtkgrdnqskn‌​barpabgokbsrfhmeklrle" and compared the output and they didn't match. – kchoi Jul 9 '12 at 10:22

"tsrqponmlkjihgfedcba" is not the answer because it is not a subsequence of the input. The definition of subsequence requires that the characters of the subsequence occur in the original sequence in the same order. For example, "abc" is a subsequence of "apbqcr", while "cba" is not.

As to the solution, I think a simple greedy algorithm would suffice. First, one has to understand that the maximum possible length of the output is the number of unique symbols (say, N) in the input. Since any output shorter than that would not be the greatest one, it has to be exactly N symbols long. The rest of the procedure is simple and at most quadratic in time complexity: one has to go through the input string and at each step pick the lexicographically highest symbol such that the part of the string to the left of it would still contain all the "unused" symbols.

As an example, consider a string "bacb". The first symbol can be 'a' or 'b', since in both cases the remainder contains both of the other letters. 'b' is greater, so we pick it. Now for "acb" we can only pick 'a' and than 'c' according to that condition, so we end up with "bac" for output.

share|improve this answer

Lexicographic order is an order in which words are displayed in alphabetical order using the appearance of letters in the word.It is also know as dictionary order or alphabetical order.For ex:-"Africa" is smaller than "Bangladesh" ,"He" is smaller than "he".

 public class LexicographicExample {  
      public static void main(String a[]) {  
           Scanner sc = new Scanner(;  
           System.out.println("Enter the String:-");  
           String str = sc.nextLine();  
           System.out.println("Enter the length");  
           int count = sc.nextInt();  
           List<String> list = new ArrayList<String>();  
           for (int i = 0; i < str.length(); i = i + 1) {  
                if (str.length() - i >= count) {  
                     list.add(str.substring(i, count + i));  
           System.out.println("Smallest subString:-" + list.get(0));  
           System.out.println("Largest subString:-" + list.get(list.size() - 1));  

For reference ,refer this link

share|improve this answer

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