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Assume the system is 32 bits.

For a word, OCaml reserves the least significant bit to identify it is a pointer or an integer. So for an integer, there are only 31 bits effective.

I wish to know what OCaml does exactly for this conversion.

For example, if I do let x = 1, does OCaml do the followings?

  1. Get the normal 1 in 32 bits: 0000...0001
  2. Shift it to left for 1 bit: 0000...0010
  3. Adding an 1 to it to make it appear like an integer: 0000...0011

Am I correct?

But if this is the case, how does OCaml deal with negative integer such as let x = min_int?

  1. Get the normal min_int in 32 bits: 1000...000
  2. Shift it to left for 1 bit: 000...000
  3. Adding an 1: 000...0001

Then the negative sign is lost, right?

In addition, how about the reversed process, i.e., what will OCaml do when it find a word in heap is an integer?

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OCaml's min_int is 01000…000. –  Pascal Cuoq Jun 10 '14 at 17:24
@PascalCuoq yes, I know, the value should be 010...000, I am just trying to find out the conversion process –  Jackson Tale Jun 10 '14 at 17:26
You described the conversion process in your question (except with the wrong value for min_int: min_int's real value is 010...000, shift it to the left and add one gives 10…0001 for the unboxed encoding. The sign bit is right in its place. –  Pascal Cuoq Jun 10 '14 at 17:30
@PascalCuoq So you mean, if I say let x = -1073741824 (* min_int value *), OCaml will assume first that the sign bit must be on the 2nd most significant bit, and do 2's complement based on 31 bits? –  Jackson Tale Jun 10 '14 at 17:34
@PascalCuoq I wrote in my question about min_int that way is because I thought OCaml would assume 32 bits first, then do the shift and add. –  Jackson Tale Jun 10 '14 at 17:35

2 Answers 2

up vote 1 down vote accepted

First of all, a symmetric issue exists for large positive values. You will convert the sign of max_int as well.

Rather than left shift, think of the conversion as: x * 2 + 1

So, your representable numbers are limited to min_int / 2 to max_int / 2 [due to the representation of integers using twos complement, this is not really symmetric, the real limits are min_int / 2 - 1 to max_int / 2]

The conversion back to integer is simply m / 2

Most processors have an "arithmetic shift" instruction that shifts right preserving (duplicating) the sign bit.

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if I say let x = -1073741824 (* min_int value *), OCaml will allocate a 32 bits word, assume first that the sign bit must be on the 2nd most significant bit, and do 2's complement based on 31 bits? –  Jackson Tale Jun 10 '14 at 17:43
The binary representation of -1073741824 is 0b1100000000000000 -- note that the two most significant bits are identical. This condition is true for all numbers that can be shifted left by one and not "lose" their sign. –  Doug Currie Jun 10 '14 at 18:29
It's not clear what you mean by "do 2's complement" -- the value -1073741824 should be in 2's complement to start with; then it's just a matter of shifting left and adding one. –  Doug Currie Jun 10 '14 at 18:33

Here is some OCaml code (ints.ml):

let x = 1
let y = min_int

Here is the code generated for i386 (32-bit) architecture:

    .align  4
    .globl  _camlInts__entry
    subl    $12, %esp
    movl    $0x3, _camlInts
    movl    $0x80000001, _camlInts + 4
    movl    $0x1, %eax
    addl    $12, %esp

So (A) OCaml representation for 1 is 0b11 and for min_int is 0b1000....1. (B) The generated code doesn't "do" anything other than load the value (i.e., the int value isn't computed at run time from the usual integer value).

To add two OCaml int values: clear lowest bit of one of them, then add as usual.

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could you please answer this stackoverflow.com/questions/27624671/… –  Jackson Tale Dec 23 '14 at 17:27

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