Hot answers tagged as-pattern
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]).
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.
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 ...
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 ...
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 ...
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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