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I have a function that takes 3 functions and combines them to alter a list argument.

For example a test case call would be: chain init tail reverse "Haskell!" the output should be lleksa

I've tried to do this problem a few different ways including using the map function but I kept getting association problems. so i did

chain :: Ord a => [a] -> a
chain f g h x = f.g.h$x

and the error was Couldn't match expected type [t0 -> t1 -> t2 -> a0]

When I type the problem directly in GHCi like by writing, for instance, init.tail.reverse$"Haskell!" it works properly

Is there even a way to include three function arguments? I've only seen two in examples.

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Can you explain why you gave the function that type signature? –  sepp2k Dec 5 '12 at 4:08
Oh sorry, didn't realize I put that type signature, but it's defined in my program, I'll just change my example type case. –  Watts Dec 5 '12 at 4:18
I don't understand what you just said, but your function works perfectly fine once you remove the type signature (or replace it with a correct one). –  sepp2k Dec 5 '12 at 4:29
It's more like the other way around, sorry I'm new to Haskell still trying to get the terminology down, I got that type signature from a website that said that was they way to do composition. So I toke out the type signature and now I'm getting a parse error on the = –  Watts Dec 5 '12 at 4:51
All I can tell you is that I don't get a parse error when I remove the type signature. Maybe you have a mistake earlier in the file? –  sepp2k Dec 5 '12 at 5:16

3 Answers 3

The most general type signature for a higher-order function that composes 3 functions would be:

chain :: (b -> c) -> (b1 -> b) -> (a -> b1) -> a -> c
chain f g h x = f.g.h$x

(you can also write the definition without x, just

chain f g h = f.g.h

). Notice that the return types of intermediate functions b and b1 are arbitrary, the only requirement is that they must match the type of the argument of the next function. Now, if you call chain init tail reverse "Haskell!" you'll get "lleksa".

If you know how to write a function, but you don't know its proper type, you can let GHCi infer the type for you. Just load the function there and type for example :t chain (:t is a shorthand for :type, see GHCi commands).

You could go even further and make a composition of any number of functions. (But in this case the type system forces you to a bit less general type signatures.)

chainN :: [a -> a] -> (a -> a)
chainN fs = foldr (.) id fs

This function takes a list of functions from a to a and composes them together. If the list is empty, it returns just the identity function. With chainN you can write things like

chainN [init, tail, reverse] "Haskell!"
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Or you could go even more further and define chainN as fold over a thrist of functions, which gives you back full generality. (And because I think thrists are underrepresented...) –  phg Dec 5 '12 at 12:31

When prelude "looks" to your function:

chain f g h x = f.g.h$x

it assumes that you are receiving the function f g and h. Why it is assuming that f g h is function? Because the only purpose of the . operator is chain functions. So if you are using it is because you are chain functions.

You defined a type signature for your function ([a] -> a) that is different from what your function should receive and return. One solution it to you do not specify the type signature and leave it to prelude, another is correcting the type signature.

But if your expecting your function to receive a list of 'a' and return an 'a' you should modify or function to something like this:

chain :: (Ord a) => [a] -> a
chain (x:xs) = ...
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I deleted the type signature and I get a parse error on my = sign –  Watts Dec 5 '12 at 5:05
@Watts post your code here using codepaste.net site –  dreamcrash Dec 5 '12 at 5:16
codepaste.net/61tigp –  Watts Dec 5 '12 at 5:19
@Watts try this codepaste.net/okk3vt –  dreamcrash Dec 5 '12 at 5:31
@Watts I believe the problem is that you indented the function definition by one space, but didn't indent the definition of the test list. All toplevel definitions must be indented at the same level (which preferably is zero spaces). –  sepp2k Dec 5 '12 at 5:38

Your definition should look like this:

chain :: ([a] -> [a]) -> ([a] -> [a]) -> ([a] -> [a]) -> [a] -> [a]
chain f g h x = f.g.h$x

First of all, the function you defined expects only one argument, an [a] list and returns one of its contents, a. This will not work, because you want four arguments and a list as a return type.

Secondly, for your needs it seems that Ord is redundant. Perhaps you thought that it is required for reverse, but its type is [a] -> [a].

Lastly, when you define a function which takes other functions as arguments, you need to indicate that this arguments are functions. And it is quite simple - for instance:

if you want the first argument to be init, you can check its type by writing :t init in GHCi or look it up on the internet. Since it is [a] -> [a], this should be the type of your first argument. You need to enclose it in () brackets to indicate that it's a function.

The same applies to any other argument, no matter how many there are.

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I had established my type signature was wrong the problem is I need to be able to accept numbers lists and characters –  Watts Dec 5 '12 at 7:34
It accepts lists of any kind. It's your test cases that are wrong. For example your sq function can't be passed to chain because of its type. –  yzb3 Dec 5 '12 at 8:08
This type signature can be generalized significantly to (c -> d) -> (b -> c) -> (a -> b) -> (a -> d) (and this is, up to alpha equivalence, the type signature that GHC will infer for this definition). –  Daniel Wagner Dec 5 '12 at 8:15

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