# Is this a Haskell higher order function?

I want to know whether shift is a higher order function or not.

chartoInt  :: Char -> Int
chartoInt c  =  ord c

Inttochar  :: Int -> Char
Inttochar  n   =  chr n

shift :: Int -> Char -> Char
shift n c  =  Inttochar  (chartoInt c + n)

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None of these functions are higher order functions, because none of these functions take a function as a parameter.

shift's parameters are n (an Int) and c (a Char): neither are functions.

(Also: Inttochar should be inttochar: function names in Haskell cannot start with an upper case letter.)

Here's a higher order function that looks like your shift:

higherShift :: (Int -> Char) -> Int -> Char -> Char
higherShift f n c = f (chartoInt c + n)

shift = higherShift inttochar   -- same as your original shift


Or, perhaps more usefully:

anotherHigherShift :: (Int -> Int) -> Char -> Char
anotherHigherShift f c = inttochar (f (chartoInt c))

shift n = anotherHigherShift (+n)   -- same as your original shift


You can read the type signature for anotherHigherShift as saying that

• it's a function
• whose first parameter is a function (this function takes an Int and returns an Int)
• whose second parameter is a Char
• and which returns a Char

(+n) is shorthand for \m -> m + n.

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so want to know how to change shift function in to higher order function –  user1150071 Feb 6 '12 at 9:57
@user1150071 to be a higher order function, it has to take a function as an argument (and use it :p). –  ivanm Feb 6 '12 at 10:02
Thanks for the help @dave4420 .can you briefly explain your second example anotherHigherShift code.i can't understand what happened there specially this line (Int -> Int) -> Char -> Char and shift n = anotherHigherShift (+n) function –  user1150071 Feb 6 '12 at 10:42
@user1150071 See my edit. Is it clear now? –  dave4420 Feb 6 '12 at 10:59
@dave4420 yep.its clear now.i think higherShift function is more clear than second one.thanks a lot –  user1150071 Feb 6 '12 at 11:37

There is informal rule: take a look at function's type. If it contains (with necessity [1]) braces, than it's a higher order function.

[1] In the meaning that omitting them changes the type.

And now take a look at types of your function and functions from first answer from this point of view. It's simple.

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"braces" == "parentheses" –  amindfv Feb 6 '12 at 16:03
I see your intention, but you expressed it not precise enough, IMHO. Consider foo :: Maybe (Either Int Char) -> Bool –  Ingo Feb 7 '12 at 11:53

It is.

The shift is a higher order function.

shift :: Int -> (Char -> Char) -- The long prototype.


It get Int and return function getting Char and returning Char.

P.S. You should write inttochar.

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That doesn't make it a higher order function, as it returns a function rather than taking one. –  ivanm Feb 6 '12 at 10:05
What is definition of higher order function? –  Michas Feb 6 '12 at 10:06
Quoting first sentence: A higher-order function is a function that takes other functions as arguments or returns a function as result. –  Michas Feb 6 '12 at 10:16
@user1150071 by the technical definition of what "higher-order function" means, it is; by the useful definition that is normally meant when the term is used in Haskell, no. –  ivanm Feb 6 '12 at 11:38
Perhaps it would a good idea to distinguish between languages like haskell, that are curried by default, and other languages. In languages like C# it might make sense to explicitly name the class of functions that return another function, since these are relatively rare. In haskell however, this would comprise all functions of more than one argument, so the distinction is not very useful. By the way, good job on the explicit reference to documentation in the comments. –  Boris Feb 6 '12 at 12:39