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Suppose I have a module that contains a type:

module My where

data L a = Nil | Cons a (L a)

The module exports the concrete definition of My to allow for pattern matching etc. Is it possible for another module, say Client to import My in a manner where L a is abstract i.e. such that pattern matching on L a values is prohibited by the type-checker?

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2 Answers 2

Yes; you just have to use the import list:

module Client where

import My (L)
ok :: L Int
ok = undefined

bad :: L Int
bad = Cons 3 Nil

bad2 :: L Int -> Int
bad2 (Cons i _) = i
bad2 Nil        = 0

If you try to compile this, you'll get the following four errors:

Client.hs:8:10: Not in scope: data constructor `Cons'
Client.hs:8:17: Not in scope: data constructor `Nil'
Client.hs:11:10: Not in scope: data constructor `Cons'
Client.hs:12:9: Not in scope: data constructor `Nil'

If you did want to import the constructors, you would instead specify L(..), or L(Cons) to import Cons but not Nil.

For some other ways you can use the import statement, check out the HaskellWiki article on import (although the article doesn't mention importing data types and their constructors).

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Yes, you may do

import My(L())

to import a type without importing any of its constructors. If you still wish to construct values of this type (but not pattern match), you must import functions for doing that construction (for example, by exporting such functions from My or by creating a utility module with such functions).

edit: Since you explicitly mentioned that you wanted a type-checking error, I should point out for completeness that this won't cause pattern-matching on Nil and Cons to be a type-checking error, but merely a scoping error.

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Note that this is pretty much exactly the same syntax used to export a type without its constructors, and also that just import My(L) does the same thing. –  C. A. McCann Jun 24 '11 at 22:35
...also, I mention the second form because for some reason I keep getting it in my head that import M(T) should be equivalent to import M(T(..)), not import M(T()), a notion which GHC disabuses me of rather forcefully. –  C. A. McCann Jun 24 '11 at 22:46
Perfect, thanks all! –  Ranjit Jhala Jun 25 '11 at 16:46

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