# Strings and dynamic programming algorithm

A string Z is a merge of two other strings X and Y if Z is a concatenation of substrings of X and Y , in order. For example “strMERingGE” is a merge of “string” and “MERGE”. Give a dynamic programming algorithm that takes 3 strings and tests if the third is a merge of the first two.

This problem looks like a variation of the longest common subsequence problem, I tried this algorithm but I an not sure about it.

``````public static String concat(String s1, String s2) {
if (string.IsNullOrEmpty(s1))
return s2;
if (string.IsNullOrEmpty(s2) )
return s1;

int len1 = s1.Length - 1;
char last1 = s1[len1];
char first2 = s2[0];

if (s1[len1 - indexOfLast2] == first2)
{

int inLast2 = s2.LastIn(last1, Math.Min(len1, s2.Length - 1));
while (inLast2 != -1)
{
int x = inLast2;
while ((x != -1) && (s1[len1 - inLast2 + x] == s2[x]))
x--;
if (x == -1)
return s1 + s2.Substring(Last2 + 1);
}
inLast2 = s2.LastIn(last1, inLast2 - 1);

}

if ( s1 + s2.Substring(Last2 + 1) == 2)
return inLast2  +1;
``````
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An almost identical version of this question was the last problem on my Algorithms exam yesterday. You're almost on the right track, but dynamic programming implies some sort of recursion call using arrays. Also, this algorithm would be more of a boolean return value than a String. – Jason Feb 17 '12 at 23:44

Use this dynamic programming recursion:

Match(i,j) = Match(i-1,j) AND (Z[i+j] == X[i]) OR Match(i,j-1) AND (Z[i+j] == Y[j])

This will give a 2D binary matrix. If there is a path (continuous True, only up or left, not across) between end and beginning, there is a solution (Solution given by translating up to X and left to Y matchings).

PS:Use the following function and the matrix will automatically remember the path:

``````Match(i,j) =
if Match(i-1,j) AND (Z[i+j] == X[i]):
1
elif Match(i,j-1) AND (Z[i+j] == Y[j]):
2
else:
0
``````
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Thanks dear ElKamina. I am just wondering if should I this finction after I have determine the index of both S1 and S2 as I wrote in the algorithm above ? – Lara Feb 18 '12 at 2:14
This is the correct answer. @Lara: You'll call Match(X.Length-1, Y.Length-1), which gives you the answer. You have to add memoization to the recursive function, or rewrite it in a way that iteratively fills out a table. – Igor ostrovsky Feb 18 '12 at 2:38
@Lara As Igor mentioned just memorize values of Match(i,j), and call Match(length(X)-1,length(Y)-1) – ElKamina Feb 18 '12 at 3:19

It sounds to me more similar to the edit distance algorithm than longest common subsequence.

If lengths of X and Y are m and n, create a (m+1)-by-(n+1) matrix. Starting at cell (i, j)=(0,0), traverse Z, and move one cell right (j+1) in the matrix if the current character equals X[j], and one down (i+1) if the current character equals Y[i]. Output true if you end up at cell (m+1,n+1), and false if you can't match a character in either string at any point or you end up in some other cell.

For the edit distance algorithm, which is very similar, see: http://en.wikipedia.org/wiki/Levenshtein_distance

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I have not gone through your stuff but indeed I feel this could be solved with a LCS algorithm. Really what you need to find out is:

• Is LCS(Z,Y) == Y
• Is LCS(Z,X) == X
• Is Sorted(X+Y) == Sorted(Z)

Intuitively that seems to do the trick...

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If X=AB, Y=BC and Z=ABCD ?? – ElKamina Feb 18 '12 at 0:01
Good point... I will be careful with my intuition next time :) – Jean-Pascal Billaud Feb 18 '12 at 0:12
X=ABC, Y=BCD, Z= CBABCD ? – ElKamina Feb 19 '12 at 15:11