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I am trying to convert a float to a bit list.

Here is my idea:

  1. read all bits info from a float to an Int64
  2. mod 2 64 times and each time store the 0 or 1 to a list
  3. Deal with the negative case (applying 2's complement plus one)

The code is like this:

let convert_non_neg_64 n =
  let rec collect acc i j =
    if Int64.compare j (Int64.of_int 64) <> -1 then acc
    else collect ((Int64.rem i (Int64.of_int 2) |> Int64.to_int)::acc) (Int64.div i (Int64.of_int 2)) (Int64.succ j)
  collect [] n Int64.zero

let negatify l =
  let rl = List.rev_map (fun x -> if x = 0 then 1 else 0) l in
  let rec plus1 extra acc = function
    | [] -> acc
    | hd::tl when extra = 0 -> plus1 0 (hd::acc) tl
    | hd::tl -> if hd = 0 then plus1 0 (1::acc) tl else plus1 1 (0::acc) tl
  plus1 1 [] rl

let convert64 n =
  let nnl = convert_non_neg_64 (Int64.abs n) in 
  if Int64.compare n Int64.zero <> -1 then nnl
  else negatify nnl

let bits_of_float fn = Int64.bits_of_float fn |> convert64 

I think the code is fine.

My question is is there an easier way?

Also, all those Int64 operations are really ugly, any good way to simplify it?

share|improve this question
Int64 is not really the kind of module intended to be opened, but you can always write Int64.(…) around the expressions that need it most. –  Pascal Cuoq Apr 7 at 20:58
In the place where you wrote Int64.compare n Int64.zero <> -1 you meant Int64.compare n Int64.zero >= 0 (which you can write Int64.(compare n zero) >= 0). The compare functions should not be assumed to return -1 or 1. –  Pascal Cuoq Apr 7 at 20:59
The simplest expression for Int64.compare j (Int64.of_int 64) <> -1 is j >= 64L. –  Pascal Cuoq Apr 7 at 21:09
I don't see why you need to treat negatives specially. If you use bit operations you don't need to care about numeric values. Int64.logand can check the low bit (or any bit). –  Jeffrey Scofield Apr 7 at 21:12
@JeffreyScofield what do you mean? I think the bit representation of negative is different? –  Jackson Tale Apr 7 at 21:20

1 Answer 1

up vote 1 down vote accepted

This is what I came up with.

let bitlist_of_float f =
    let rec blist b i64 =
        if b >= 64 then
            let bit =
                Int64.(if logand i64 (shift_left 1L b) = 0L then 0 else 1)
            bit :: blist (b + 1) i64
    blist 0 (Int64.bits_of_float f)

The head of the list is the least significant bit (which I believe is the right way to do things). I have not verified the answers, so there could be an error or two.


I believe this code will give you the bits of your floating value. That's all I mean by "faithful copy." If you wanted to modify the bits somehow, then you'd need to work on them a little more. I'm not sure what you have in mind to do with them.

share|improve this answer
I am trying to achieve this stackoverflow.com/questions/22916519/… –  Jackson Tale Apr 7 at 21:54

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