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since Haskell has such expressive type system, is there something supported directly that we can query whether some data is of some type? like in Racket, (String? "Hi") (will return true) or like MyType? somedata -> Bool

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Why do you need to do this. The only reason I can see is rank 2 polymorphism but its not used much... – alternative Jun 16 '11 at 17:32
ahh..just want the code looks clean without too much customized little functions flowing around...but obviously, it involves the way how Haskell's type system works. and I am realizing that it is wrong to compare Haskell and Racket in many sense. – user618815 Jun 16 '11 at 18:11
up vote 19 down vote accepted
isInt :: Int -> Bool
isInt _ = True

isString :: String -> Bool
isString _ = True

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+1 Snarky, but makes the point well. – Tom Crockett Jun 16 '11 at 17:59
Hahaha, this is exactly the answer I had in mind when I saw the question. – C. A. McCann Jun 16 '11 at 18:13
Just for people who don't get the snarkiness of this answer: these functions never return False; they will fail to typecheck at compile time instead. – luqui Jun 16 '11 at 18:29
They are not partial in Haskell. – augustss Jun 16 '11 at 18:41
I want to downvote this, but it's just too clever. – John L Jun 16 '11 at 23:45

In general, strong typing means you don't get into that kind of situation to start with; you always know the type you've been given, or you know nothing about it but have a dictionary of supported functions (typeclass instances). GHC does have Data.Typeable for when you're playing dirty tricks with the type system to get generic types, though.

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+1 -- for the (relatively rare) occasions when this sort of thing is actually needed, Data.Typeable and Data.Data, as well as libraries like uniplate and such, are the correct way to do it. – C. A. McCann Jun 16 '11 at 18:20

Essentially, your question doesn't make sense in Haskell.

Haskell knows the type of everything statically -- at compile time. So there is no notion of "testing for a type" -- which would be a dynamic test. In fact, GHC erases all type information, since it is never needed at runtime.

The only exceptions to this would be cases where data is represented in a serialized format, such as a string. Then you use parsing as the way to test if a value has the correct type. Or, for advanced users, some type information may be required at runtime to resolve certain higher-order generic operations.

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Yes. I admit (nonsense question:). Learned a great lesson from you guys anyway. – user618815 Jun 16 '11 at 20:40

If you need to check for a type dynamically, then you've done something wrong. This is usually true in most languages with type reconstructors, so functional languages lik Haskell or OCaml or F#.

You have strong type reconstructor and pattern matching, why do you need to ask for a type?

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I dunno. It could be useful in a definition like foo :: (forall a. a -> Bool) -> (Bool, Bool), foo f = (f 5, f 'b'). I find it hard to find a suitable f other than id. Is there another way without something like this to differentiate types? I'm thinking something like f 5 = True, f 'b' = True, f _ = False, possibly with pattern guards instead of just patterns. – alternative Jun 16 '11 at 17:36
@monadic, because we disallow this, we get so-called "free theorems". For example, we can find a theorem that any function of type forall a. a -> Bool must be constant. There is a free theorem for every polymorphic type, it's really cool. – luqui Jun 16 '11 at 18:31

In addition to the other answers...

You can, if you like, use the Data.Dynamic module to work with dynamic types in Haskell. For example:

> let dyns = [ toDyn (5 :: Int), toDyn "hello", toDyn not ]

Then you can easily write a test for a specific type using fromDynamic:

isString :: Dynamic -> Bool
isString dyn = isJust (fromDynamic dyn :: Maybe String)

And you can apply that to any Dynamic value to determine if it contains a String:

> map isString dyns

So if you choose to use dynamic typing using the Data.Dynamic module, then yes you can do this.

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