# How to use replicateM?

I just started learning to code Haskell so apologies if this is a stupid question. I am trying to redo the 8 queen problem by making use of the [] monad. Here is the code,

``````import Control.Monad
[x:xs|x<-[1,2..8], not \$ x `elem` xs || (any (\(index,q) -> abs (x-q) ==index) \$ zip [1..] xs)]
``````

When I try to

``````[[]]>>= replicateM 8 addqueen
``````

it does not work but yields the following error:

``````Couldn't match expected type `t0 -> t1' with actual type `[[a0]]'
The first argument of (\$) takes one argument,
but its type `[[a0]]' has none
In the expression: [[]] >>= replicateM 8 \$ addqueen
In an equation for `it': it = [[]] >>= replicateM 8 \$ addqueen
``````

So how do I achieve what I want to do here?

• It is not really clear what you expect `[[]]>>= replicateM 8 addqueen` to do. Note that `[[]] >>= f` equals `f []`. – Sjoerd Visscher Sep 24 '13 at 17:54
• That looks like `iterate (>>= addqueen) [[]] !! 8` if I'm not mistaken. – Sjoerd Visscher Sep 24 '13 at 18:10
• Ah this works like a charm!! Thanks buddy! – user2812201 Sep 24 '13 at 18:11
• `foldl (>>=) [[]] \$ replicate 8 addqueen` – Sassa NF Sep 24 '13 at 21:04

`replicateM` is wrong choice here:

``````Prelude Control.Monad> :t replicateM
replicateM :: (Monad m) => Int -> m a -> m [a]
``````

this means that in the expression `replicateM 8 addqueen`, `m a ~ ([Int] -> [[Int]])` i.e. `m ~ ((->) [Int])` and `a ~ [[Int]]`. And its type is `m [a] ~ ([Int] -> [[[Int]]])`. This is not what you intended.

(if you get a type error "No instance for `(Monad ((->) [Int]))`", try loading e.g. `Control.Applicative` first, to bring in the definition for `instance Monad ((->) r)`. This will happen if you're using an older version of GHC).

``````Prelude> :m +Control.Monad
(>=>) :: (Monad m) => (a -> m b) -> (b -> m c) -> a -> m c
foldl1 (>=>) \$ replicate 8 addqueen :: [Int] -> [[Int]]
Prelude Control.Monad> :t [[]] >>= ( foldl1 (>=>) \$ replicate 8 addqueen )
[[]] >>= ( foldl1 (>=>) \$ replicate 8 addqueen ) :: [[Int]]
``````

update: this expression, `x1 = foldl1 (>=>) \$ replicate 8 addqueen`, stands on its own, in Prolog terms corresponding to a "goal" of adding 8 queens to an initial solution. It uses a slightly above-basic-level operator "fish"1 i.e. left-to-right Kleisli composition operator `>=>`, defined so that

``````(m >>= a) >>= b  ===  m >>= (a >=> b)
``````

i.e. `>=>` is a composition operator for monadic functions. We use `x1` by feeding an initially empty solution into it, `[ [] ] >>= x1`.

The expression given to you in the comments by Sassa NF, `x2 = foldl (>>=) [[]] \$ replicate 8 addqueen`, uses only the basic monadic bind operator `>>=`, but only works as a whole.

You miss spaces

``````addqueen xs = [x:xs|x<-[1,2..8], not \$ x `elem` xs
|| (any (\(index,q) -> abs (x-q) ==index) \$ zip [1..] xs)]
``````

Second, do not use several infix function together

``````--this code is invalid:
``````

The reason is: `infixl 1 >>=` and `infixr 0 \$`

Third, if you use GHCi, write signature for "empty" data.

``````>([[]] :: [[Int]])>>= replicateM 8 addqueen
``````

``````> [[]]>>= replicateM 8 addqueen
• I still cannot make it work. Here is what I get: No instance for (Monad ((->) [Int])) arising from a use of `replicateM' Possible fix: add an instance declaration for (Monad ((->) [Int])) In the second argument of `(>>=)', namely `replicateM 8 addqueen' In the expression: ([[]] :: [[Int]]) >>= replicateM 8 addqueen In an equation for `it': it = ([[]] :: [[Int]]) >>= replicateM 8 addqueen – user2812201 Sep 24 '13 at 18:00
• `replicateM 3 (1+) \$ 4` ==> `[5,5,5]`. Not `[5,6,7]`. – Will Ness Sep 24 '13 at 19:43
• @user2812201 right now you're missing `instance Monad ((->) r)`. But it's a good thing. Try `Prelude> :m +Control.Applicative` ; the code will work but it will not do what you want, but something else instead. – Will Ness Sep 24 '13 at 19:49