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In Haskell, is there a way to compare that all wildcards are of the same type and value? For example, I want to create a function that exhibits the following behavior:

(1 M) (2 M) (3 M) -> True
(1 S) (2 S) (3 S) -> True
(1 S) (2 M) (3 S) -> False

In other words, the first parameter should be 1, 2 and 3 and the second parameter should be all S or all M.

In this case, we can maybe write a function as follows:

matches (1 _ ) (2 _ ) (3 _ )

But, how do we determine whether the wildcards are all S or all M?

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Does this mean you're looking for S & M? –  ThisSuitIsBlackNot Nov 22 '09 at 2:58

2 Answers 2

up vote 4 down vote accepted

You have to do the equality check explicitly, by using named variables instead of wildcards:

matches (1 a) (2 b) (3 c) | a == b && b == c  = something

(And as a side note: (1 a) is not a valid pattern, you need (1,a) or some other type of constructor)

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If the patterns are that simple (all M or all S), why not define it as is?

matches (1, M) (2, M) (3, M) = True
matches (1, S) (2, S) (3, S) = True
matches _ _ _ = False

Or are there other constraints?

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Yes, there are actually 10 constriants... –  pokiman Nov 22 '09 at 18:47

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