# conversion from decimal to binary in SML

I have the following formula

``````fun foo 0 = [0]
| foo num = let val l =  (num mod 2)::foo(num div 2) in
rev l
end;
``````

which is supposed to convert from decimal to binary.It has the following signature

``````val foo = fn : int -> int list
``````

I am not sure where exactly I am getting things wrong as I am getting incorrect results.May someone help me figure out where I am making the error?

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The problem seems to be that you reverse the resulting list in every recursive step, instead of just once at the end.

Also, you probably need to map 0 to the empty list, otherwise you'll have one 0 too many in the end.

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I finally got it,I reversed after all conversions `local fun convert 0 = [0] | convert x = if x = 1 then [1] else (Int.rem(x,2))::convert(x div 2) in fun foo num = rev (convert(num)) end;` –  Emma Feb 23 '14 at 17:35

Exactly what Andreas said. Now, the obvious way to get around this is to use a wrapper function:

``````fun f n =
let
fun f' 0   = []
| f' num = num mod 2 :: f' (num div 2)
in
rev (f' n)
end
``````

This works, but has the disadvantage of first building up the list, and then traversing it (the `rev` call). It also isn't tail-recursive. We can do better!

Instead of using reverse, we flip things around and use an accumulator:

``````fun g n =
let
fun g' 0   acc = acc
| g' num acc = g' (num div 2) (num mod 2 :: acc)
in
g' n []
end
``````

To understand the difference, let's see what happens if we run each of these on the number 4.

``````f 4 -> rev (f' 4)
-> rev (4 mod 2 :: f' (4 div 2))
-> rev (0 :: f' 2)
-> rev (0 :: 2 mod 2 :: f' (2 div 2))
-> rev (0 :: 0 :: f' 1)
-> rev (0 :: 0 :: 1 mod 2 :: f' (1 div 2))
-> rev (0 :: 0 :: 1 :: f' 0)
-> rev (0 :: 0 :: 1 :: [])
-> [1, 0, 0]

g 4 -> g' 4 []
-> g' (4 div 2) (4 mod 2 :: [])
-> g' 2 (0 :: [])
-> g' (2 div 2) (2 mod 2 :: 0 :: [])
-> g' 1 (0 :: 0 :: [])
-> g' (1 div 2) (1 mod 2 :: 0 :: 0 :: [])
-> g' 0 (1 :: 0 :: 0 :: [])
-> [1, 0, 0]
``````
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