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Given that I have an input string, for example: aab
And I am given a target string, for example: bababa
And then I am given a set of transformation rules. For example:

ab -> bba
b -> ba

How could I do, in C, an algorithm that would find the minimum number of transformations that would need to be applied in the input string to get the target string.

In this example, for example, the number would be 3. Because we would do:

1 - Apply rule 1 (abba)
2 - Apply rule 1 again (bbaba)
3 - Apply rule 2 (bababa)

It could happen that given an input and a target, there is no solution and that should be noticed too.

I am pretty much lost in strategies on doing this. It comes to my mind creating an automata but I am not sure how would I apply in this situation. I think is an interesting problem and I have been researching online, but all I can find is transformations given rules, but not how to ensure it's a minimum.

EDIT: As one of the answers suggested, we could do a graph starting from the initial string and create nodes that are the result of applying transformations to the previous node. However, this brings some problems, from my point of view:

  1. Imagine that I have a transformation that looks like this a --> ab. And my initial string is 'a'. And my output string is 'c'. So, I keep doing transformations (growing the graph) like this:

    a -> ab ab -> abb abb -> abbb ...

How would I know when I need to stop building the graph?

  1. Say I have the following string aaaa, and I have a transformation rule like aa->b. How would I create the new nodes? I mean, how would I find the substrings in that input string and remember them?
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I'd start by designing the algorithm outside of C (or any language), then code it with C. –  WhozCraig Feb 22 '13 at 21:59
WhozCraig I agree. The problem is the algorithm itself. I don't know how to start with it. –  Hommer Smith Feb 22 '13 at 22:01
If you haven't already, you should check out Formal Grammars and Parsing. I know it's a huge topic, but if you can figure out the type/complexity of the grammar you're dealing with, you can easily find the algorithms that can parse it (or that it's Context-Sensitive, and thus nightmarishly difficult). –  Xavier Holt Feb 22 '13 at 22:07
is yous grammar has only two elements such as a & b? –  amin k Feb 22 '13 at 23:08
No amin k. It can have more elements. –  Hommer Smith Feb 22 '13 at 23:16

1 Answer 1

up vote 3 down vote accepted

I dont think there is an efficient solution for this. I think you have to do breadth-first search. by doing that you will know that as soon as you have a solution that it is a shortest solution.


Image: modify string breadth first

search string breadth first

Every layer is made from the previous by applying all possible rules to all possible substrings. For example the b->ba rule can be applied to abba for each b. It is important to only apply a single rule and then remember that string (eg ababa and abbaa) in a list. You have to completely have each layer in a List in your program before you start the next Layer (=breadth first).


You write you now have an output c. For this you obviously need a rule with XX->c. So say you have rule aaa->c. Now in layer 2 you will have a string aaa which came from some a->aa rules. You will then apply a->aa again and get aaaa, that is ok, since you should go breadth first you will THEN apply the aaa->c rule to aaa and now have layer 3 consisting of aaaa, c and others. You do not continue modifying aaaa because that would go to layer 4, you already found the target c in layer 3 so you can stop.


You now ask if you can decide for an unspecified set of rules how you can decide when to stop layering. In general it is impossible, it is called the Halting problem https://en.wikipedia.org/wiki/Halting_problem .

BUT For specific rules you can tell if you can ever reach the output.

  • Example 1: if the target contains an atom that no rule can provide (your 'c'-Example).
  • Example 2: if your rules are all either increasing the string's length or keeping the length as it is (no rules that decrease the length of the string)
  • Example 3: you can drop certain rules if you found by algorithm that they are cyclic
  • Other examples exist
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eznme thanks for the answer. However, a BFS of what? –  Hommer Smith Feb 22 '13 at 22:01
Imagine a graph. A string (original, target and intermediates) is a node in that graph, a transformation is a directed edge in that graph. –  eznme Feb 22 '13 at 22:03
But how do I generate the intermediate nodes in the graph? I mean, what would be the algorithm to keep generating intermediate strings, and when do I stop? Imagine that there is no solution, when would I stop? –  Hommer Smith Feb 23 '13 at 8:42
I will draw a quick picture. One moment. –  eznme Feb 23 '13 at 9:07
Thanks a lot eznme. Once I have a base, I think I will be able to do something... –  Hommer Smith Feb 23 '13 at 9:11

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