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Hot answers tagged as-pattern

11

You can do it with syntax like Name=[X|Xs]. An example usage is headlist([H|T]=L) -> io:format("List (~p) with head ~p ~n",[L,H]).

11

fmap has signature (a -> b) -> f a -> f b, i.e. it has to allow for a and b to be different. In your implementation, a and b can only be the same, because it returns the same thing that was passed as an argument. So GHC complains.

3

Your recursion is going to last in both cases, not last1/last2. last1 should be non overlapping in comparison to last2. Lets take a look at the specific String f:[]. It would match to [x] and (x:xs) in last1. It could match (x:xs) but it won't as pattern matching will only match the first success. Overlaps are not ambiguous in this regard (the first ...

2

For the Either a instance, fmap has the following type: (i -> j) -> Either a i -> Either a j In this equation: fmap _ (Left x) = Left x the second argument is known to be of type Either a i and to have matched the pattern Left x. We take the x out, and apply Left to it to get the result of fmap. The trick is that the Left on the left side of ...

2

If you specialize the signature of fmap to Either l, you get: fmap :: (a -> b) -> Either l a -> Either l b This means that the Left r that you are pattern-matching on the left-hand side of your case statement must have type Either l a. However, you can't return it as is, because you have to return an Either l b. This requires re-wrapping the ...

2

My best guess is that this fails because z represents different types on each side of the equation: the overall type is fmap :: (a -> b) -> Either t a -> Either t b on the left side, z :: Either t a on the right side, z :: Either t b It seems that Left x is allowed to have multiple different types in the same equation, but z is not. This ...

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