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I am very bad at wording things, so please bear with me.

I am doing a problem that requires me to generate all possible numbers in the form of a lists of lists, in Haskell.

For example if I have x = 3 and y = 2, I have to generate a list of lists like this:

[[1,1,1], [1,2,1], [2,1,1], [2,2,1], [1,1,2], [1,2,2], [2,1,2], [2,2,2]]

x and y are passed into the function and it has to work with any nonzero positive integers x and y.

I am completely lost and have no idea how to even begin.

For anyone kind enough to help me, please try to keep any math-heavy explanations as easy to understand as possible. I am really not good at math.

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If this is homework, as you imply, then it would be best for you to talk about what you have already tried. Also, as written the question seems to have two parts - the algorithmic part of "how can I solve this problem." and the language part of "how can I implement this solution in Haskell". Perhaps you should start with the algorithmic part and form a new answer around that along with your thoughts on what a solution could be. – Thomas M. DuBuisson Feb 4 '13 at 6:13
@ThomasM.DuBuisson He should do so even if this isn't homework. That's how people should ask a question. – Ramon Snir Feb 4 '13 at 7:56
Does it matter what order the list of lists is in? – dave4420 Feb 4 '13 at 10:13
Btw, look at replicateM, and know that lists implement the Monad typeclass. – dave4420 Feb 4 '13 at 10:16
Just to make sure I actually understand what you want: Given x and y greater than 0, you want all lists of length x consisting of Ints between 1 and y (inclusive)? – gspr Feb 4 '13 at 10:50

Assuming that this is homework, I'll give you the part of the answer, and show you how I think through this sort of problem. It's helpful to experiment in GHCi, and build up the pieces we need. One thing we need is to be able to generate a list of numbers from 1 through y. Suppose y is 7. Then:

λ> [1..7]

But as you'll see in a moment, what we really need is not a simple list, but a list of lists that we can build on. Like this:

λ> map (:[]) [1..7]

This basically says to take each element in the array, and prepend it to the empty list []. So now we can write a function to do this for us.

makeListOfLists y = map (:[]) [1..y]

Next, we need a way to prepend a new element to every element in a list of lists. Something like this:

λ> map (99:) [[1],[2],[3],[4],[5],[6],[7]]

(I used 99 here instead of, say, 1, so that you can easily see where the numbers come from.) So we could write a function to do that:

prepend x yss = map (x:) yss

Ultimately, we want to be able to take a list and a list of lists, and invoke prepend on every element in the list to every element in the list of lists. We can do that using the map function again. But as it turns out, it will be a little easier to do that if we switch the order of the arguments to prepend, like this:

prepend2 yss x = map (x:) yss

Then we can do something like this:

λ>  map (prepend2 [[1],[2],[3],[4],[5],[6],[7]]) [97,98,99]

So now we can write that function:

supermap xs yss = map (prepend2 yss) xs

Using your example, if x=2 and y=3, then the answer we need is:

λ> let yss = makeListOfLists 3
λ> supermap [1..3] yss

(If that was all we needed, we could have done this more easily using a list comprehension. But since we need to be able to do this for an arbitrary x, a list comprehension won't work.)

Hopefully you can take it from here, and extend it to arbitrary x.

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For the specific x, as already mentioned, the list comprehension would do the trick, assuming that x equals 3, one would write the following:

 generate y = [[a,b,c] | a<-[1..y], b<-[1..y], c <-[1..y]]

But life gets much more complicated when x is not predetermined. I don't have much experience of programming in Haskell, I'm not acquainted with library functions and my approach is far from being the most efficient solution, so don't judge it too harshly.

My solution consists of two functions:

strip [] = []
strip (h:t) = h ++ strip t

populate y 2 = strip( map (\a-> map (:a:[]) [1..y]) [1..y])
populate y x = strip( map (\a-> map (:a) [1..y]) ( populate y ( x - 1) ))

strip is defined for the nested lists. By merging the list-items it reduces the hierarchy so to speak. For example calling

strip [[1],[2],[3]]

generates the output:


populate is the tricky one.

On the last step of the recursion, when the second argument equals to 2, the function maps each item of [1..y] with every element of the same list into a new list. For example

map (\a-> map (:a:[]) [1..2]) [1..2])

generates the output:


and the strip function turns it into:


As for the initial step of the recursion, when x is more than 2, populate does almost the same thing except this time it maps the items of the list with the list generated by the recursive call. And Finally:

populate 2 3

gives us the desired result:


As I mentioned above, this approach is neither the most efficient nor the most readable one, but I think it solves the problem. In fact, theoritically the only way of solving this without the heavy usage of recursion would be building the string with list comprehension statement in it and than compiling that string dynamically, which, according to my short experience, as a programmer, is never a good solution.

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Since it is not clear that this is a homework or not, and solution of your problem can be easily done after reading couple chapter from any book. I can not give what you exactly want for now (can be change later if you insist)

Also you didn't provide any clue on your level of understanding list. I assume you just start learning Haskell. So there are some basic.

There are couple ways to generate a list (mostly of any kind). You can try playing with my code in ghci to get the idea.

Disclaimer: I am a beginner in Haskell, I can only share what I already know. There might be something I missed.

Explicitly listed all element: This good for getting quick list.

>let some_ints = [0,2,5,8,1]

>let some_chars = ['a','e','i','o']

Use enumeration by provide only some elements (you can even create infinite list but don't try to display them all because it will take infinite time to finished)

>let ten_ints = [0..10]
>let low_chars = ['a'..'z']
>let inf_ints = [1..]
>take 10 inf_ints

Use list comprehensions

>let sq_int = [x*x|x<-[1..10]]

By apply a function to another list

>let plus3 = map (+3) [1..10]

In your case you want a list of list which can be easy to extended from generating a trivial list. So grab some book and take your time to read it. This should not take so long.

BTW if it turned out that I misunderstanding your question somehow and you are not a beginner who understand connection of list and monad, I think you might looking for

>:t replicateM
>replicateM :: Monad m => Int -> m a -> m [a]
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As far as I can tell, this has absolutely nothing to do with the question (other than showing some basics of Haskell). – gspr Feb 4 '13 at 10:45

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