# efficient algorithm for guessing

I am abstracting a real world problem into the following question:

• X is a pool of all possible permutation of letters.
• Y is a pool of strings.
• F is a function that takes a candidate x from X and returns a boolean value depending on whether x belongs to Y.

F is expensive and X is huge. What is the most efficient way to extract as many results from Y as possible? False positives are ok.

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You may want to ask your question here: cstheory.stackexchange.com –  Steve Jun 15 '11 at 3:10
You have abstracted it too far. There is no way to do better than brute force search without knowing something about F. –  btilly Jun 15 '11 at 3:12
judging from what you told me, I can't see anything better than sequential processing. but if some results would be more "interesting" than others, and you want a better chance of seeing those interesting results earlier rather than later, randomizing the order may help. –  jcomeau_ictx Jun 15 '11 at 3:13

Introduce another function G which is cheap and also tests whether x belongs to y. G must return true whenever F returns true, and may return true when F returns false. First test with G, testing with F only if G returns true.

I don't see how to say anything more specific, considering the generality of your formulation.

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There is really no way to answer this question well, as most solutions to these types of problems are highly domain-specific.

You probably should try your question here: http://cstheory.stackexchange.com/

But, to give you an example of the range of possibilities you're talking about; the Traveling Salesman problem seems similar - and is often solved with a "self organizing map": http://www.youtube.com/watch?v=IA6eGYMyr1A

Of course, the "solutions" people come up with to the traveling salesman problem don't have to be the BEST solution, just a GOOD solution... so your question doesn't indicate whether or not this is applicable to your situation or not.

It sounds like you're asking for some sort of more efficient brute-forcing technique... but there just isn't any.

As another example, for cracking passwords (which seems similar to your question), people often try "commonly used words / passwords" first, before resorting to total brute force... but this is, again, a domain-specific solution.

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Make F less expensive by implementing Delta based score calculation. Then use metaheuristics (or branch and bound) to find as many Y's as possible (for example use Drools Planner).

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