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I am new to Haskell and am trying to call a function which I got from: http://www.haskell.org/haskellwiki/Functional_differentiation

  derive :: (Fractional a) => a -> (a -> a) -> (a -> a)
  derive h f x = (f (x+h) - f x) / h

I am having trouble understanding the parameters of the method and what h f x correspond to.

From what I understand:

h is a fractional

f is a function which takes in a fractional and returns a fractional

x ?? where does that come from?

however when I type in GHCi:

Prelude> let derive h f x = (f (x+h) - f x) / h
Prelude> :t derive
derive :: Fractional a => a -> (a -> a) -> a -> a

I get a different type out of it.

What is going on? Is this some kind of currying?

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4 Answers 4

up vote 3 down vote accepted

It is indeed currying. (Fractional a) => a -> (a -> a) -> (a -> a) and Fractional a => a -> (a -> a) -> a -> a are the same type because -> is right associative.

take add x y = x + y. Its type is Int -> Int -> Int ~ Int -> (Int -> Int). So add 5 is a function which takes an Int and adds 5 to it.

The reason that one might write the first form may be to put the emphasis on the usage of the curried form of a function.

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Not exactly. h is of type a, which could be anything, but it needs an instance Fractional. Fractional by itself is not a type, but a type class, i.e., interface the type must support.

f is a function that takes something of type a and returns something of the same type a. It should be the same a as before. Not some other instance of Fractional; the same one.

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Ok, so the differentiation can be approximated as:

df(x)/dx = (f(x+h) - f(x)) / h , in the limit of h -> 0 at point x

where h is a small number. In Haskell, f(x) is written as f x. It takes and x and returns a number, just like f(x) takes a number and returns another. Your function for derivative is a direct translation. Here, f is the function you want to derive at point x, with the small number h.

So for the derivative, you provide the small number h, the function f and the point at which you want to calculate the derivative x. In Haskell,

derive h f x = ...
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Because -> is right associative, the type of derive could be written as

derive :: (Fractional a) => a -> (a -> a) -> a -> a

In other words,

derive :: (Fractional a) => a -> (a -> a) -> (a -> a)


derive :: (Fractional a) => a -> (a -> a) -> a -> a

I think it makes what x means quite clear :-)

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