# What is an algorithm/structure that can be used to effectively find if a object matches any of a set of patterns?

A pattern is a hash with values and functions. For example:

``````pattern = {a:1,b:2,c:function(x){ return x<5; }}
``````

There is a function that checks if an object matches a pattern. For example, an object will match the pattern above if obj.a == 1, obj.b == 2 and obj.c < 5. Some tests:

``````matches(pattern,{a:1,b:3,c:2}) == false // because b != 2
matches(pattern,{a:1,b:2,c:7}) == false // because c >= 5
matches(pattern,{a:1,b:2,c:3}) == true //fine
matches(pattern,{a:1,b:2,c:2,d:4}) == true //no problems in having extras
``````

Suppose that I have a set of patterns and I want to find if an object matches any of those patterns. I could check one by one, but, this way, I have an O(n) complexity, where n is the number of patterns. I have a feeling that this can be optimized if I use the set of patterns to build some other structure; but I'm not sure what that structure could be. Thoughts?

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How is this a haskell question? –  Karolis Juodelė Dec 5 '12 at 8:31
To be honest, I couldn't resist calling the attention of some Haskell people. That's bad, I know, sorry. I'll remove the tag. –  Viclib Dec 5 '12 at 8:33
(Note: I have already asked a similar question but I still couldn't solve the problem.) –  Viclib Dec 5 '12 at 8:34

``````pattern_1 OR pattern_2 OR pattern_3 OR .... OR pattern_n