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How does Haskell code work even without the Type declaration?

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Type inference. (Questions asked without care get answers written without care.) –  delnan May 27 '11 at 15:12
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Same reason as why var works in C#. –  Etienne de Martel May 27 '11 at 15:15
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+1 legitimate question that Haskellers take for granted. –  Dan Burton May 27 '11 at 17:21
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No. This question is vague, poorly written, and demonstrates absolutely no effort put forth by the questioner. 30 minutes reading just about any introduction to Haskell would provide a more thorough answer than the ones posted here so far, enough to either satisfy curiosity or inform a more meaningful question. Laziness is for evaluation, not learning; please don't encourage bad questions. –  C. A. McCann May 27 '11 at 17:50
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Jeeeeez guys mellow out. Maybe we could help the OP to write a better question instead of berating him and then arguing about it. –  luqui May 27 '11 at 20:35

2 Answers 2

up vote 4 down vote accepted

Note: I'm assuming that you mean type signatures because if you remove type definitions like type Foo = Bar or data X = Y, the code will not work anymore (assuming the defined type is actually used of course).

Haskell code works without type signatures because the type of a variable/function is simply inferred by the compiler if you do not specify a signature. The algorithm used to make this inference is a variant of the Hindley-Milner type inference algorithm.

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Because very often, the type can be inferred from the context. For example, the function tail has the type [a] -> [a] which say we go from a list to another list of the same type. When you pass a String to that function, it is known that another String is the result, so there is not really a need to explicitly say that. Thus, the type of (tail "hello") is known to be String (or [Char], which is really the same).

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-1 though you mention type inference, you then continue to elaborate on generics, which is not really what the question was about. –  Dan Burton May 27 '11 at 17:27
    
@Dan Maybe my example wasn't really good, did I really talk about generics? In my understanding, type inference means that you compose/chain functions, and each function transforms the types it operates on. So, when there is a (+) applied, whatever it is applied, whatever you apply it to must be an instance of Num. This fact is carried on, through the fabric you program is. Without explicitly stating it, it is clear for what kind of data your composition makes sense. Well, hopefully it's a total function, the type system does not check that. –  Waldheinz May 27 '11 at 18:36
    
On second look, inferring the type of (tail "hello") is a fairly good example for the question. On my first read I thought it focused more on the types of generic methods. Sorry for my hasty mistake. –  Dan Burton May 27 '11 at 20:29

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