Why can't I curry one of the patterns (but not the other) in my pattern matching?

I have I have a function with two arguments that I have to pattern match over. If I use currying on the first pattern it won't compile:

  drop' :: Int -> [a] -> [a]
drop' 0  = id -- ghci: "Equations for drop' have different numbers of arguments"
drop' n (x:xs) = drop' (n-1) xs


The compiler gives this output:

99.hs:106:3:
Equations for drop' have different numbers of arguments
99.hs:106:3-15
99.hs:107:3-33
In an equation for split':
split xs n
= (take' n xs, drop' n xs)
where
take' 0 _ = []
take' n (x : xs) = x : take (n - 1) xs
drop' 0 = id
drop' n (x : xs) = drop' (n - 1) xs


If I only give the curried pattern, however, then it compiles:

  drop' :: Int -> [a] -> [a]
drop' 0  = id -- compiles


What gives?

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Assuming you know you can simply write drop' 0 x = x? –  Koterpillar Mar 23 '13 at 23:58
All equations defining a function must have the same number of arguments. So drop 0 = id; drop n = \ (_:xs) -> drop (n-1) xs would compile. –  Daniel Fischer Mar 23 '13 at 23:58
@Koterpillar yeah I knew that. –  Guildenstern Mar 25 '13 at 9:34

The problem is mostly syntactical, in the sense that most occurrences of definitions with a different number of arguments are plain typos. The other might be implementation issues: it makes pattern match rules more complex.

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It seems to me that a lot of thought went into the various Haskell Reports on how to protect against programmer error, without sacrificing what you can express in the language. See also Daniel Fischer's comment, and even the dreaded monomorphishm restriction falls into this category. It's a slight hassle now, but you'll be thankful for it later. –  yatima2975 Mar 24 '13 at 0:39
@yatima2975 I can understand the want to nip common programmer errors in the bud. But couldn't it just be a compiler warning? Though I guess having a bunch of compiler warnings could be annoying, too (not to mention the potential annotations for suppressing them), so I guess it's a decent compromise since I can't imagine a case where the code would be significantly less expressive with this slight restriction. –  Guildenstern Mar 24 '13 at 1:57

This is an annoying "feature" of GHC, to be sure, but to fix it, you can do this:

drop' n = \(x:xs) -> drop' (n-1) xs
`

You have to curry both or neither, and both to the same number of arguments. If this is a lint check, that's great: but I wish there were a compiler option to turn it on/off.

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Since this is identical to the other definition (and actually more verbose) it defeats the point a little IMHO. –  jozefg Mar 24 '13 at 3:10