Re-orders a set of strings { buzz, fuzz, jazz, fizz..} so that sum of similarity scores between each pair of adjacent strings is the lowest.

buzz-> fuzz (1)
fuzz-> jazz (2)
jazz-> fizz (2)

sum of the scores is 5. If reordered based on lowest(4) final output is

{ buzz, fuzz, fizz, jazz..}

buzz-> fuzz (1)
fuzz-> fizz (1)
fizz-> jazz (2) 

My approach is to find Edit distance for every pair of strings and construct a weighted graph where edge represents the edit distance value. Use DFS to find the lowest path.
Is this the efficient solution? can it be done any better?

  • 3
    The way you model the problem gives you basically the So this will have exponential runtime (ergo: this solution is not efficient). However, I cannot think of a more efficient way to solve this. – SaiBot Aug 10 at 14:37
  • 2
    I believe that you are looking for the shortest Hamiltonian path in a complete graph. Visit each word or vertex once -> Hamiltonian Path. Each word is connected to every other word (with variable weights) -> Complete Graph. Good news. This problem is well known. :) Bad news. It is NP-Complete. :(… – Mark Wistrom Aug 10 at 14:39
  • @SaiBot given a similar problem like this in coding interview to finish in 1 hour. I wasn't sure if what I had is the optimal solution. Wanted to hear the thoughts of the others if I am missing anything. – Kar Aug 10 at 16:11
  • You say you were given a "similar" problem in a coding interview, but probably that problem is not similar at all, because it has a good solution that you could code in an hour. This one does not – Matt Timmermans Aug 10 at 16:47
  • @MattTimmermans I didn't want to mention that this was given as is in the coding interview. Now I just did. – Kar Aug 11 at 1:18

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