Should we avoid do-notation in any case?
I'd say definitely no. For me, the most important criterion in such cases is to make the code as much readable and understandable as possible. The
do-notation was introduced to make monadic code more understandable, and this is what matters. Sure, in many cases, using
Applicative point-free notation is very nice, for example, instead of
f <- [(+1), (*7)]
i <- [1..5]
return $ f i
we'd write just
[(+1), (*7)] <*> [1..5].
But there are many examples where not using the
do-notation will make code very unreadable. Consider this example:
nameDo :: IO ()
nameDo = do putStr "What is your first name? "
first <- getLine
putStr "And your last name? "
last <- getLine
let full = first++" "++last
putStrLn ("Pleased to meet you, "++full++"!")
here it's quite clear what's happening and how the
IO actions are sequenced. A
do-free notation looks like
name :: IO ()
name = putStr "What is your first name? " >>
getLine >>= f
f first = putStr "And your last name? " >>
getLine >>= g
g last = putStrLn ("Pleased to meet you, "++full++"!")
full = first++" "++last
nameLambda :: IO ()
nameLambda = putStr "What is your first name? " >>
\first -> putStr "And your last name? " >>
\last -> let full = first++" "++last
in putStrLn ("Pleased to meet you, "++full++"!")
which are both much less readable. Certainly, here the
do-notation is much more preferable here.
If you want to avoid using
do, try structuring your code into many small functions. This is a good habit anyway, and you can reduce your
do block to contain only 2-3 lines, which can be then replaced nicely by
<$>,<*>` etc. For example, the above could be rewritten as
name = getName >>= welcome
ask :: String -> IO String
ask s = putStr s >> getLine
join :: [String] -> String
join = concat . intersperse " "
getName :: IO String
getName = join <$> traverse ask ["What is your first name? ",
"And your last name? "]
welcome :: String -> IO ()
welcome full = putStrLn ("Pleased to meet you, "++full++"!")
It's a bit longer, and maybe a bit less understandable to Haskell beginners (due to
traverse), but in many cases those new, small functions can be reused in other places of your code, which will make it more structured and composable.
I'd say the situation is very similar to whether to use the point-free notation or not. In many many cases (like in the top-most example
[(+1), (*7)] <*> [1..5]) the point-free notation is great, but if you try to convert a complicated expression, you will get results like
f = ((ite . (<= 1)) `flip` 1) <*>
(((+) . (f . (subtract 1))) <*> (f . (subtract 2)))
ite e x y = if e then x else y
It'd take me quite a long time to understand it without running the code. [Spoiler below:]
f x = if (x <= 1) then 1 else f (x-1) + f (x-2)
Also, why do most tutorials teach IO with do?
IO is exactly designed to mimic imperative computations with side-effects, and so sequencing them using
do is very natural.