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If I want to add a space at the end of a character to return a list, how would I accomplish this with partial application if I am passing no arguments?

Also would the type be?

space :: Char -> [Char]

I'm having trouble adding a space at the end due to a 'parse error' by using the ++ and the : operators.

What I have so far is:

space :: Char -> [Char]
space = ++ ' '

Any help would be much appreciated! Thanks

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post the problematic code –  Karoly Horvath Sep 23 '12 at 1:16
Do you mean partial application? A partial function is one which is undefined for some inputs. –  hammar Sep 23 '12 at 1:19
I think it would be helpful, if you showed how you would use the function. Is it: space "Hello" -- yields "Hello ". If you want to use the function like that, the signature would be space :: [Char] -> [Char]. So it wouldn't contain just Char at all. –  Boris Sep 23 '12 at 18:32

2 Answers 2

What you want here is an operator section. For that, you'll need to surround the application with parentheses, i.e.

space = (: " ")

which is syntactic sugar for

space = (\x -> x : " ")

(++) won't work here because it expects a string as the first argument, compare:

(:)  :: a -> [a] -> [a]
(++) :: [a] -> [a] -> [a]
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Hi, I'm having trouble understanding the concept behind this. If possible, can you please explain? –  user1670032 Sep 23 '12 at 1:22
@user1670032: Sorry, my first solution was more complicated than necessary (I blame it on it being 3AM here). Take a look at the link I posted, there are more examples there. –  hammar Sep 23 '12 at 1:33

Doing what you want is so common in Haskell it's got its own syntax, but being Haskell, it's extraordinarily lightweight. For example, this works:

space :: Char -> [Char]
space = (:" ")

so you weren't far off a correct solution. ([Char] is the same as String. " " is the string containing the character ' '.) Let's look at using a similar function first to get the hang of it. There's a function in a library called equalFilePath :: FilePath -> FilePath -> Bool, which is used to test whether two filenames or folder names represent the same thing. (This solves the problem that on unix, mydir isn't the same as MyDir, but on Windows it is.) Perhaps I want to check a list to see if it's got the file I want:

isMyBestFile :: FilePath -> Bool
isMyBestFile fp = equalFilePath "MyBestFile.txt" fp

but since functions gobble their first argument first, then return a new function to gobble the next, etc, I can write that shorter as

isMyBestFile = equalFilePath "MyBestFile.txt"

This works because equalFilePath "MyBestFile.txt" is itself a function that takes one argument: it's type is FilePath -> Bool. This is partial application, and it's super-useful. Maybe I don't want to bother writing a seperate isMyBestFile function, but want to check whether any of my list has it:

hasMyBestFile :: [FilePath] -> Bool
hasMyBestFile fps = any (equalFilePath "MyBestFile.txt") fps

or just the partially applied version again:

hasMyBestFile = any (equalFilePath "MyBestFile.txt") 

Notice how I need to put brackets round equalFilePath "MyBestFile.txt", because if I wrote any equalFilePath "MyBestFile.txt", then filter would try and use just equalFilePath without the "MyBestFile.txt", because functions gobble their first argument first. any :: (a -> Bool) -> [a] -> Bool

Now some functions are infix operators - taking their arguments from before and after, like == or <. In Haskell these are just regular functions, not hard-wired into the compiler (but have precedence and associativity rules specified). What if I was a unix user who never heard of equalFilePath and didn't care about the portability problem it solves, then I would probably want to do

hasMyBestFile = any ("MyBestFile.txt" ==)

and it would work, just the same, because == is a regular function. When you do that with an operator function, it's called an operator section.

It can work at the front or the back:

hasMyBestFile = any (== "MyBestFile.txt")

and you can do it with any operator you like:

hassmalls = any (< 5)

and a handy operator for lists is :. : takes an element on the left and a list on the right, making a new list of the two after each other, so 'Y':"es" gives you "Yes". (Secretly, "Yes" is actually just shorthand for 'Y':'e':'s':[] because : is a constructor/elemental-combiner-of-values, but that's not relevant here.) Using : we can define

space c = c:" "

and we can get rid of the c as usual

space = (:" ")

which hopefully make more sense to you now.

share|improve this answer
space = (++" ") is definitely not Char -> [Char] –  Sarah Sep 23 '12 at 9:08
@Sarah First I deleted all reference to (++" "), but now I've reinstated it (with the correct type!) because I think it's likely to be more useful. –  AndrewC Sep 25 '12 at 10:47

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