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if i do any isUpper "asBsd", i'll get True.
here, the second element to any is a string.
but, if i do this:

any ("1" `isInfixOf`) ["qas","123","=-0"]

the second element to any is a list of strings.
how and why this difference between those 2 functions?

another example.
if i write filter isUpper "asdVdf" , i'll get "V".
here, the second element to filter, is a string.
but, if i write this:
filter (isUpper . head) ["abc","Vdh","12"] , i'll get ["Vdh"].
as you can see, the second element to filter is now a list of strings.
why there is a differences and how haskell know's it's right in both cases?

to summarize it:
i don't understand how in the same function, one time haskell get a second element that is a string, and in other time, haskell get a list of strings, in the second element.
one time it happened in any function, and the other time in filter function.
how haskell(and me) know's it's right in both cases?

thanks :-).

share|improve this question
What is the question exactly? Type inference is a major feature of Haskell, and any literals or even argument patterns will trigger it. –  Max Shawabkeh Feb 23 '10 at 10:47
i don't understand how in one time haskell get a second argument that is a string, and in other time, haskell get a list of strings, in the second argument, and the both cases happend in the same function. one time in any and other time in filter. how haskell(and me) know's it's right in both cases? i need an explanation of that :-) –  moshe Feb 23 '10 at 10:53
This is a good question, and KennyTM's answer is excellent. However it would help if you could edit the question to include your clarification. That way anyone finding this question in future will be able to understand better. –  Paul Johnson Feb 23 '10 at 18:51
edited. i can change it to something else, if you think it's not clear :-). –  moshe Feb 23 '10 at 19:38
Something that may come in handy. I don't know if this is just a feature of GHC or if all Haskell implementations do this, but you can type :t <something> to find out the type of something. For example if you type :t any you get: any :: (a -> Bool) -> [a] -> Bool. So it takes a function of type a -> Bool and a list of a's and returns a Bool. –  MatrixFrog Feb 23 '10 at 20:15

3 Answers 3

up vote 11 down vote accepted

Because isUpper is a Char -> Bool function and "1" ‘isInfixOf‘ and isUpper . head are [Char] -> Bool functions

"1" `isInfixOf` xxx

can be rewritten as

isInfixOf "1" xxx

We knew the type of isInfixOf is [a] -> [a] -> Bool1. Now the first argument to isInfixOf is "1" which is of type [Char], so we can deduce a is a Char:

     isInfixOf :: [a]    -> [a] -> Bool
       "1"     :: [Char]
//∴ a = Char and
 isInfixOf "1" ::           [a] -> Bool
                =        [Char] -> Bool

That means isInfixOf "1" is now a [Char] -> Bool function.

Now, the type of any is (a -> Bool) -> [a] -> Bool function. As above,

               any :: (a      -> Bool) -> [a] -> Bool
     isInfixOf "1" :: ([Char] -> Bool)
 //∴ a = [Char] and

any (isInfixOf "1") :: [a] -> Bool = [[Char]] -> Bool

In order to satisfy with the type constraint of any (isInfixOf "1"), the argument must be a string list.

Now consider isUpper. The type of isUpper is Char -> Bool. Hence:

              any :: (a    -> Bool) -> [a] -> Bool
          isUpper :: (Char -> Bool)
//∴ a = Char and
      any isUpper ::                   [a] -> Bool
                   =                [Char] -> Bool

So any isUpper needs to take a string only, instead of a string list.

Finally, isUpper . head. In Haskell, the types of the relevant functions are:

 filter :: (a -> Bool) -> [a] -> [a]
   head :: [a] -> a
isUpper :: Char -> Bool
    (.) :: (b -> c) -> (a -> b) -> a -> c

Hence for filter isUpper, a = Char and the type is [Char] -> [Char], i.e. it needs to take a string as parameter.


            (.) :: (b    -> c   ) -> (a   -> b) -> a -> c
        isUpper :: (Char -> Bool)
           head ::                   ([b] -> b)
//∴ c = Bool, b = Char, a = [b] = [Char], and
 isUpper . head ::                                 a -> c
                =                             [Char] -> Bool

Thus for filter (isUpper . head), we have a = [Char] and the type is [[Char]] -> [[Char]], i.e. it needs to take a string list as parameter.


  1. The type of isInfixOf is actually (Eq a) => [a] -> [a] -> Bool as the equality must be valid for type a, but this is irrelevant in our analysis.
  2. I've temporarily changed the variable a to b for head, but it doesn't matter.
share|improve this answer
first of all, thank you very much for great answer, and very detailed one!. i think i get what you say, but i have one question. in filter (isUpper . head) , a = [Char], and because the type signature of filter is filter :: (a -> Bool) -> [a] -> [a] , the (a -> Bool) function is realy a ([Char] -> Bool) function, and because of that we should have [[Char]] in the second element of filter, because if a is actually [Char] thus [a] is actually one level "above" a, which should be [[Char]]. am i right? thanks a lot :-) –  moshe Feb 23 '10 at 15:21
one more thing, i dont know what is isIndexOf or indexOf in your answer. i assumed that you confused this with isInfixOf , so when i saw indexOf , i replaced it with isInfixOf for my understanding. if i'm wrong, please tell me :-). –  moshe Feb 23 '10 at 15:29
@moshe: Yes. And yes, isInfixOf. –  KennyTM Feb 23 '10 at 16:10
thanks a lot again :-) –  moshe Feb 23 '10 at 17:05

A String is actually just list of characters, a [Char]. So if you like, "hello" is shorthand for ['h', 'e', 'l', 'l', 'o']. Therefore in both cases, you're getting a list of something, it's just that one case is a list of Char and the other case is a list of Strings (or a list of lists of chars, if you like).

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thanks you ;-)) –  moshe Feb 23 '10 at 19:28

Well, that's polymorphism. The type of any is (a -> Bool) -> [a] -> Bool where the type variable a can be anything you like. In the first case it's Char - because the second argument is a list of Chars - and the type becomes (Char -> Bool) -> String -> Bool (remember that [Char] is the same as String!); in the second a is String and the type becomes (String -> Bool) -> [String] -> Bool.

The reasoning for filter is similar.

share|improve this answer
thank you very much :-) –  moshe Feb 23 '10 at 15:24

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