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I have a problem with built a function with a monad-list

 > multab 4
 ["1*1=1","1*2=2","1*3=3","1*4=4","2*2=4","2*3=6","2*4=8","3*3=9","3*4=12","4*4=16"]

So I want to start like :

multab :: Integer -> [String]

for the rest, would you like give any suggestions?

Thanks in advance.

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1  
What do you mean by monad-list? Are you supposed to use control.Monad.List? –  Karolis Juodelė Jul 11 '12 at 6:52
    
I dont want use any specific monadList here. Just trying to build this fucntion with any monad-List, btw i am not sure how can i use write a code with Contol-list! –  user1516831 Jul 11 '12 at 7:03
4  
Why worry about monads? mulTab n = [printf "%d*%d=%d" i j (i*j) | i <- [1..n], j <- [1..n]] –  augustss Jul 11 '12 at 8:41

4 Answers 4

Basically you want to generate a list of entries and then print them.

Let's start with the entries. These consists of two integers and their product. So let us define a type synonym to hold the two integers

type Entry = (Integer, Integer)

and an evaluation function that computes the product of these integers,

eval :: Entry -> Integer
eval = uncurry (*)

Then, we define a function for generating the entries:

gen :: Integer -> [Entry]
gen n = [(i, j) | i <- [1 .. n], j <- [i .. n]]

For example:

> gen 4
[(1,1),(1,2),(1,3),(1,4),(2,2),(2,3),(2,4),(3,3),(3,4),(4,4)]

Next, we need to be able to print an entry:

showEntry :: Entry -> String
showEntry e@(i, j) = show   i ++ "*"    ++ show j ++ "=" ++ show (eval  e)

For example:

> showEntry (2, 3)
"2*3=6"

Finally, let's glue these pieces together:

multab :: Integer -> [String]
multab = map showEntry . gen

Here we go:

> multab 4
["1*1=1","1*2=2","1*3=3","1*4=4","2*2=4","2*3=6","2*4=8","3*3=9","3*4=12","4*4=16"]
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Here is some scratch solution based on Karolis answer.

> let nonDec xs = and $ zipWith (>=) (drop 1 xs) xs
nonDec :: Ord b => [b] -> Bool

> let getSets s n = filter nonDec $ replicateM n s
getSets :: Ord b => [b] -> Int -> [[b]]

> getSets [1,2,3,4] 2
[[1,1],[1,2],[1,3],[1,4],[2,2],[2,3],[2,4],[3,3],[3,4],[4,4]]

> let showExp = \[i,j] -> show i ++ "*" ++ show j ++ "=" ++ show (i*j)
showExp :: [Integer] -> [Char]

> map showExp $ getSets [1,2,3,4] 2
["1*1=1","1*2=2","1*3=3","1*4=4","2*2=4","2*3=6","2*4=8","3*3=9","3*4=12","4*4=16"]

So, multab is \n -> map showExp $ getSets [1..n] 2.

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Thnaks so much! –  user1516831 Jul 11 '12 at 8:14

The natural way to do this is to generate a list of all pairs (i, j) with i < or = j and then map (\(i, j) -> show i ++ "*" ++ show j ++ "=" ++ show (i*j)) on it. The most obvious way to generate such list would be to write [(i, j) | i <- [1..n], j <- [1..n], i <= j]. Although it might be better to do [1..n] >>= list where list i = map (\k -> (i, k)) [i..n] as this does not do any filtering (because it doesn't generate unwanted pairs).

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Thank you that was really helpful! –  user1516831 Jul 11 '12 at 7:13
    
The filtering as you have it in that list comprehension doesn't really make sense at the moment. And the monad solution could, perhaps more comprehensably, be written in a do block. That's a bit of a matter of taste though. –  leftaroundabout Jul 11 '12 at 7:14
    
@leftaroundabout, thanks, fixed. –  Karolis Juodelė Jul 11 '12 at 7:37
    
Instead of writing thanks-like comments it's better to just vote up an answer. –  ДМИТРИЙ МАЛИКОВ Jul 11 '12 at 8:51
1  
you could just fuse it, [ ... | i<-[1..n], j<-[i..n]]. No filtering. :) –  Will Ness Jul 11 '12 at 9:37

Just as an alternative to the other answers one which uses the List as a Monad.

multab :: Integer -> [String]
multab n = do
    i <- [1..n]
    j <- [i..n]
    return $ show i ++ "*" ++ show j ++ "=" ++ show (i*j)

Where the first two rules bind every pair of integers (i,j) with j <= i <= n. The last rule returns the printed value.

More practical is perhaps the list comprehension version

multab2 :: Integer -> [String]
multab2 n =
    [ show i ++ "*" ++ show j ++ "=" ++ show (i*j)
    | i <- [1..n]
    , j <- [i..n] ]

Which could be directly translated to the monad version as the structure suggests, though this is not the most efficient translation. Additionally this is equivalent to what you would get when you inline all the functions from dblhelix's answer.

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