I'm a C++/Java programmer, and I'm trying to learn Haskell (and functional programming in general), and I've been having a rough go at it. One thing I tried was this:
isEven :: Int -> Bool
isEven x =
if mod x 2 == 0 then True
else False
isOdd :: Int -> Bool
isOdd x =
not (isEven x)
main =
print (isEven 2)
print (isOdd 2)
But this failed with this error during compilation:
ghc --make doubler.hs -o Main
[1 of 1] Compiling Main ( doubler.hs, doubler.o )
doubler.hs:11:5: error:
• Couldn't match expected type ‘(a0 -> IO ()) -> Bool -> t’
with actual type ‘IO ()’
• The function ‘print’ is applied to three arguments,
but its type ‘Bool -> IO ()’ has only one
In the expression: print (isEven 2) print (isOdd 2)
In an equation for ‘main’: main = print (isEven 2) print (isOdd 2)
• Relevant bindings include main :: t (bound at doubler.hs:10:1)
make: *** [all] Error 1
So, I saw some code online with the "do" keyword, so I tried it like this:
isEven :: Int -> Bool
isEven x =
if mod x 2 == 0 then True
else False
isOdd :: Int -> Bool
isOdd x =
not (isEven x)
main = do
print (isEven 2)
print (isOdd 2)
And it worked exactly like I thought it should.
What's going on here? Why doesn't the first code snippet work? And what does adding "do" actually do?
PS. I saw something about "monads" on the internet related to the "do" keyword, does that have something to do with this?
Monad
chapter in a haskell book. You might be able to answer your question by searching "desugaring do notation haskell" on this site or google, but you are likely to need more backgrounddo
notation is sugar for common monadic code. Withoutdo
, you could writemain = print (isEven 2) >> print (isOdd 2)
.