As I've been learning haskell I've enjoyed the pure parts but now I am stumbling through the monadic and IO parts and probably experiencing what some people find truly infuriating about the language. I solving a project euler problem and I simple want a mutable array because I have to update elements frequently by index. I tried Vectors but couldn't get them working so I tried Data.Array.IO. I can read and write elements fine but I can't display the array in terminal the way I want. So far I have this.
test = do
arr <- newArray (1,10) 37 :: IO (IOArray Int Int)
a <- readArray arr 1
writeArray arr 1 64
b <- readArray arr 1
dispArray arr
return ()
dispArray arr = do
(a,b) <- getBounds arr
printf "["
dispArray' arr a
printf "]\n"
where dispArray' arr i = do
(a,b) <- getBounds arr
if i < a || i > b
then return ()
else do
v <- readArray arr i
print v
dispArray' arr (i+1)
The ouput of this as you would expect is this:
[64
37
37
37
37
37
37
37
37
37
]
But this is inconvenient and I want this [64,37,37,37....
like this. I've seen functions that are something like toList
, but I don't want this. I don't want to convert to a list everytime I display. So I figured I would need to use printf
. So I replaced print v
with printf " %s," (show v)
. But this doesn't compile. I don't know why. I thought it would because print :: Show a => a -> IO ()
and show :: Show a => a -> String
so why wouldn't it work because %s
signifies a string? So I then put to calls next to each other. To see if printf would even work.
printf " %s," "hello"
print v
Which compiles and displays:
[ hello,64
hello,37
hello,37
hello,37
hello,37
hello,37
hello,37
hello,37
hello,37
hello,37
]
Why can I not use show v
? Why is haskell IO so infuriating to beginners?
printf " %s," (show v)
?dispArray'
I've tried adding types via::
but the types for monads I feel are incredibly cryptic.ST
arrays. They let you have mutable stuff hidden beneath a purely functional interfaceprintf
to work. The proper type annotation isprintf "%s," v :: IO ()
. In ghci, you can use:info PrintfType
to see what instances are in scope, although in the particular case ofPrintfType
that's still pretty cryptic.