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?

- Get the normal 1 in 32 bits:
`0000...0001`

- Shift it to left for 1 bit:
`0000...0010`

- 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`

?

- Get the normal min_int in 32 bits:
`1000...000`

- Shift it to left for 1 bit:
`000...000`

- 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?

`min_int`

is`01000…000`

. – Pascal Cuoq Jun 10 '14 at 17:24`010...000`

, I am just trying to find out the conversion process – Jackson Tale Jun 10 '14 at 17:26`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`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`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