Let's see what the compiler is actually looking at when it sees your function
(I don't have ghc at my disposal right now, but it should look something like below)
> :t fill
fill :: (Num a) => [a] -> [a] -- or fill:: [Integer] -> [Integer] for simplicity
Okay, that's a function that takes a list of numerics to return another list of numerics. Let's look at main:
> :t main
main :: IO ()
IO doing there? Well,
main the entry point for all standalone haskell programs. It exposes your functions out into the real world modelled by the poorly named
Now, what did you actually want to accomplish here?
I just simply wanted to fill 0's with a number like 4 and return the
Right, so let's get down to it. Here's my type definition - all I'm saying is that, whatever be the type of lists that I get here, characterised by
a - it should conform to numbers, that's what I mean why I constrain the types to
Num here is a typeclass, which you can look more about here.
fill :: (Num a) => [a] -> [a]
Now, when I see an empty list, I return back an empty list. Easy -
fill  = 
In your function definition, you're not replacing zeroes at all - let's fix that:
fill (x:xs) = if x == 0
then 4:fill xs
else x:fill xs
Okay, we're still not done here - how do we expose
fill to our outside world? Cometh the main, cometh the world. Cheesy, I know :-) But
main wraps everything into an
IO, how do we wrap our little function into it? Ah, how do I display strings out into
main :: IO ()
main = putStrLn "Hello World!"
We're now safely esconsced in our little echo chambers muttering "hello world" to ourselves.
Let's make it a bit more useful. Now, I'm just going to print out our list:
> :t print
print :: Show a => a -> IO ()
Show is also another typeclass. I leave you to figure this out as homework. :-)
main = print $ fill [0,1,0,1]