# Initialize an array with unique numbers per column

Using F#, I'd like to generate a 2D array which represent a Bingo card. The Bingo card must have unique number per column. Below is what I have right now, this generate a card with the proper dimension and range of number depending on the column, but this doesn't resolve the uniqueness part.

``````let generateCard =
let randNumberGen = new Random()
Array2D.init 5 5 (fun i j -> randNumberGen.Next((i * 15) + 1, ((i + 1) * 15 + 1)))
``````

I am not looking for an imperative way to do this. I could easily do that in C#, but I am trying hard to find better ways to accomplish this using functional/F# style.

-

Here is one way to solve the problem. The structure of the code is different than in your version - I'm generating an array of arrays (rows) and then convert this to 2D array using `array2D`. Values in each row are generated using `uniqueNumbers` function that generates a sequence of unique numbers using the given random number generator (a function).

To generate unique numbers, we use a recursive loop and keep a set of `generated` numbers. When we generate a new number, we first check that the number is not in the generated set (if it is, we try another one). Note that this gets slower if you require larger number of unique numbers (but this is probably not an issue in this example):

``````let uniqueNumbers generator =
let rec loop generated = seq {
let n = generator()
if Set.contains n generated then
yield! loop generated
else
yield n
yield! loop (Set.add n generated) }
loop Set.empty
``````

Now we can generate a card by iterating over row indices 0 to 4 and we generate a row with unique numbers (and we take 5 unique numbers to build each row):

``````let generateCard =
let randNumberGen = new Random()
[ for i in 0 .. 4 ->
uniqueNumbers (fun () -> randNumberGen.Next((i * 15) + 1, ((i + 1) * 15 + 1)))
|> Seq.take 5 ]
|> array2D
``````
-
For `uniqueNumbers` why not just use `Seq.initInfinite (fun _ -> generator()) |> Seq.distinct`? –  Daniel Jun 19 '13 at 14:22
@Daniel That looks like a simpler way to get the same behaviour (I completely forgot about `Seq.distinct`)! –  Tomas Petricek Jun 19 '13 at 14:33
Could you also use the random number as an index into unused numbers? I would imagine this would be more performant than continuously generating new random numbers until you found one that wasn't used. –  mydogisbox Jun 19 '13 at 19:02
@mydogisbox Yes, that would be more efficient if you had a lot of collisions (but you'd need more memory to store the numbers). In this specific case, the number of collisions is pretty small, though... –  Tomas Petricek Jun 23 '13 at 20:19

Unique columns and rows.

``````open System;
let r = new Random();
let generator n = fun (_) -> r.Next() % n

let uniqueColumns cols g =
let rec fn  list =
let row = Seq.take cols (Seq.distinct g) |> Seq.toList
let anyEqual a b = Seq.zip a b |> Seq.exists (fun (a,b)->a=b)
seq {
if Set.exists (anyEqual row) list then
yield! fn  list
else
yield row
}
fn Set.empty
;;

let g = Seq.initInfinite (generator 10)
uniqueColumns 5 g
|> Seq.take 4
|> Seq.toList
``````

outputs

``````[[6; 3; 7; 4; 8];
[7; 6; 8; 9; 5];
[0; 7; 1; 3; 4];
[5; 4; 3; 7; 0]]
``````
-

A variant on the above answer by factoring out some predicates

``````open System;

let r = new Random();
let generator n = fun (_) -> r.Next() % n

// generic function for detecting distinctness via Predicate
let rec distinctBy pred ss =
let set = ref Set.empty
seq {
for s in ss do
if Set.contains s set.Value |> not then
yield s
};;

// A generator for columns
let newRow cols = fun (_) ->
Seq.initInfinite (generator 10)
|> Seq.take cols
|> Seq.toList

let anyEqual a b = Seq.zip a b |> Seq.exists (fun (a,b)->a=b)

// A Generator for rows
Seq.initInfinite (newRow 4)
|> distinctBy anyEqual
|> Seq.take 5
|> Seq.toList;;
``````

outputs

``````[[6; 3; 7; 4; 8];
[7; 6; 8; 9; 5];
[0; 7; 1; 3; 4];
[5; 4; 3; 7; 0]]
``````
-
Not so happy about the mutable in distinct by though! :( –  bradgonesurfing Jun 19 '13 at 15:24