# m68k Hex to Decimal not working right

I'm writing a small OS for a M68k computer that I'm developing, and I've ran into a little issue. I need to be able to show the user a hexadecimal value (say \$1F) in decimal (31.) I've written the following code for doing that, but it has a few issues:

``````ConvertHexByteToDecimal:
move    sr, -(sp)        ; Back up status register to stack.
move    #\$2700, sr       ; Disable interrupts.

move.b  d2, -(sp)        ; Back up d2 to the stack.

and.b   #\$0F, d2         ; Get rid of the high nybble
cmp.b   #\$9, d2          ; Is the low nybble in the range of 0-9?
bgt.s   @convertHex      ; If not, branch.

move.b  (sp)+, d3        ; Restore the 10's place from the stack
and.b   #\$F0, d3         ; Get rid of the low nybble

bra.s   @done            ; If so, branch.

@convertHex:
sub.b   #\$A, d2          ; Subtract \$A from the hexadecimal meeper.

move.b  (sp)+, d3        ; Restore the 10's place from the stack
and.b   #\$F0, d3         ; Get rid of the low nybble

@done:
move.b  d2, d1           ; Copy to output register.
move    (sp)+, sr        ; Restore status register.
``````

The code works nicely on values up to \$F. For example, if I input \$B, it outputs 11. However, once the numbers go past \$F, it starts being broken. If I input \$10 into it, I get 10 outputted, and so on. It always wraps back after a \$xF.

Does anyone have any ideas as to why it's doing this?

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The code makes no attempt to actually convert to decimal, it just adds 6 if the original value is in the range 10..15 mod 16. It never outputs anything, just returns the modified value in a register. Why do you expect this to actually do anything useful? –  Chris Dodd Dec 21 '11 at 4:29

If you're trying to output a number as decimal, you won't be able to do it by processing one nybble at a time. Powers of two and powers of ten do not mesh, other than `100 == 20 == 1`.

All other non-negative powers of 10 end with a `0` while non-negative powers of two end with `2`, `4`, `6` or `8` (never `0`).

To solve this, the idea is to use division by powers of ten to get what you want. Assembly-like psuedo-code like:

``````    // Desired value is in num

push num                       // example \$1f/31
if num < 100 goto tens         // no hundreds, so skip
val = num / 100 + '0'
output val
num = num % 100

tens:
if num < 10 goto ones          // is >= 10 so do this bit
val = num / 10 + '0'           // gives us '3'
output val
num = num % 10                 // remainder is 1

ones:
val = num + '0'                // gives us '1'
output val
pop num
``````

Note that we're doing the same sort of operations as your code but you're effectively doing base-16 division and modulus rather than base-10.

You'll have to convert that pseudo-code into 68k yourself, it's been about two decades since I cut code for that chip.

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