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This is the interview question

Given two words that are anagram of each other. Swap one word (only adjacent swapping of letters allowed) to reach to the other word ?

for example

given = abcd
target = dbac

to reach dbac

[Given] abcd

I thought of solving it using edit distance, but edit distance does n't take into account only adjacent swapping of letters

What should be the approach to solve this?

My code using edit distance

#define STRING_X "abcd"
#define STRING_Y "dbac"

// Returns Minimum among a, b, c
int Minimum(int a, int b, int c)
    return min(min(a, b), c);

// Recursive implementation
int EditDistanceRecursion( char *X, char *Y, int m, int n )
    // Base cases
    if( m == 0 && n == 0 )
        return 0;

    if( m == 0 )
        return n;

    if( n == 0 )
        return m;

    // Recurse
    int left = EditDistanceRecursion(X, Y, m-1, n) + 1;
    int right = EditDistanceRecursion(X, Y, m, n-1) + 1;
    int corner = EditDistanceRecursion(X, Y, m-1, n-1) + (X[m-1] != Y[n-1]);

    return Minimum(left, right, corner);

int main()
    char X[] = STRING_X; // vertical
    char Y[] = STRING_Y; // horizontal

    printf("Minimum edits required to convert %s into %s is %d by recursion\n",
           X, Y, EditDistanceRecursion(X, Y, strlen(X), strlen(Y)));

    return 0;

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marked as duplicate by Captain Obvlious, indiv, David Eisenstat, dmportella, fabian Aug 2 at 1:36

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Perhaps this Wikipedia page section will inspire you. en.wikipedia.org/wiki/… –  Pascal Cuoq Aug 1 at 21:57
why so many negative votes. I just want to know how to solve this problem. I have also shared how I approached and tried solving the it. –  vijju Aug 1 at 22:02
If all you need is just mutate one word to another by swapping adjacent chars (and you don't care about number of swaps), you can reduce the task to bubble sort of the source string (using special comparing function, of course). It's pretty obvious approach, may be that's the reason for downvotes. –  Vadim Kalinsky Aug 1 at 22:32
An obvious non-optimal solution is to swap each letter into its final position. –  Jim Balter Aug 2 at 0:24

1 Answer 1

You may solve this easily using a breadth first search on a graph:

  • strings are nodes,
  • adjacent transposals are edges
  • sequence of transposals are paths

With that in mind, you could use the boost graph library. Or, for this simple problem, you could use standard library with vectors (for the sequence of transposals), lists (for the breath first search), and algorithms:

#include <string>
#include <list>
#include <vector>
#include <algorithm>
using namespace std; 

typedef vector<string> sequence;  // sequence of successive transpositions 

With these standard data structures, the search function would look like:

vector<string> reach (string source, string target) 
  list<sequence> l;              // exploration list

  sequence start(1, source);     // start with the source

  while (!l.empty()) {           // loop on list of candidate sequences 
    sequence cur = l.front();    // take first one 
    if (cur[cur.size()-1]==target)  // if reaches target 
      return cur;                      // we're done !
                          // otherwhise extend the sequence with new transpos
    for (int i=0; i<source.size()-1; i++) { 
      string s=cur[cur.size()-1];     // last tranposition of sequence to extend
      swap (s[i], s[i+1]);            // create a new transposition
      if (find(cur.begin(), cur.end(), s)!=cur.end())
         continue;      // if new transpo already in sequence, forget it
      sequence newseq = cur;          // create extended sequence 
      if (s==target)                  // did we reach target ? 
         return newseq;
      else l.push_back(newseq);       // put it in exploration list
                      // If we're here, we tried all possible transpos,
  sequence badnews;   // so, if no path left, ther's no solution 
  return badnews; 

You can then try the algorithm with the following:

  sequence r = reach ("abcd", "dbac");

  if (r.empty()) 
    cout << "Not found\n"; 
  else {
    for (auto x:r)
    cout <<r.size()-1<<" transpositions\n";
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