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I wrote a function f, which I use in a foldM:

foldM (f xs) [] ids
...
f xs acc id = case lookup id xs of
    Just x -> return $ acc ++ [(id, x)]
    Nothing -> throwError $ TypeError "Cannot project nonexisting field"

the type signature I wrote for it is:

[(String, Value)] -> [(String, Value)] -> String -> EvalMonad [(String, Value)]

then I decided to delete the type signature, since the function is simple and descriptive enough as it is. When I used hdevtools to get the inferred type, I got

[(t, t)] -> [(t, t)] -> t -> m [(t, t)]

What is this? I am guessing that t is different from the usual a or b you commonly see. The first and second element of the tuple are not the same type (no, SValue is not a type synonym of String), while this signature implies that constraint. Also, why is there no class constraint on the monad m? I am not using the whole EvalMonad stack here, but m should at least be an instance of MonadError.

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I think you dropped a constraint when copy/pasting that type. You should have got the type Monad m => [(t, t)] -> [(t, t)] -> t -> m [(t, t)]. The difference is rather important. –  Thomas M. DuBuisson Jul 10 '13 at 2:06
    
nope, that's what hdevtools prints. I figured that in the end ghci must get things right or I would get a segfault or similar, but I am wondering why the mistake. AFAIK, hdevtools and ghc-mod are what people use for type inference. It's very useful, but I can't have it derp out as soon as I analyze a nontrivial expression... –  BruceBerry Jul 10 '13 at 2:28
    
Looks like this is this ghc-mod bug. –  Rüdiger Hanke Jul 10 '13 at 9:13

1 Answer 1

up vote 2 down vote accepted

I used ghci to check the inferred type of your code, like so:

f typeError xs acc id = case lookup id xs of
    Just x -> return $ acc ++ [(id, x)]
    Nothing -> throwError $ typeError "Cannot project nonexisting field"

(note that I made the fixed TypeError into an extra argument typeError so I didn't have to have a definition for it)

The type I got was:

f :: (Eq t, MonadError e m) =>
     ([Char] -> e) -> [(t, t1)] -> [(t, t1)] -> t -> m [(t, t1)]

So I'm not sure why you're getting something a type with [(t, t)], or without the constraints. t in a type signature is indeed the same as a or b; in a type, any identifier starting with a lowercase letter is a type variable, and multiple repetitions of a single such identifier within a single type represent the same type variable.

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I'm happy that at least ghc gets it right :-) So this is a bug in hdevtools? –  BruceBerry Jul 10 '13 at 2:29
    
That's my impression, yes. –  Thomas M. DuBuisson Jul 10 '13 at 2:35

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