Just a few observations... First, a number is a number is a number. "hex" and "decimal" (and "binary" and "octal") are ways to represent a number - it's the same number. Converting a "hex representation" to a "decimal representation" in one step would be difficult (but possible... I guess). What you want to do is convert a hex representation to a number... and then probably convert the number to its decimal representation so we can print it.
Your "temp" variable, which I like to call "result so far" is set to zero to begin with, but it is not reset to zero for each character/digit! The general procedure is to set the "result so far" to zero, then for each valid digit encountered, multiply the "result so far" by the radix - ten for decimal, 16 for hex - then add in the new digit... converted from a character to a number, of course. Repeat until you run out of characters
mul is a perfectly fine instruction, but it has "hidden" operands (
dx, in our case). Multiplying by ten, we don't have too much choice, but multiplying by 16 can be accomplished by
shl reg, 4 with fewer "side effects". If you're really on an 8086, only
cl are valid operands. An "immediate" other than one was only introduced in 80186 (80286 for practical purposes - 80186 was rare). You can almost certainly use it, but perhaps you're not "supposed to". I suspect you're "supposed to" use
mul for this - makes it easier to check for overflow, in any case (if you wish to do that - limiting input to 4 characters should avoid overflow anyway).
I don't see the purpose of your
mov bh, ah line - does
ah contain anything "interesting" at this point?
Almost any assembler will accept
cmp al, '0' - same code as
cmp al, 48 or
cmp al, 30h. I find that the former make the purpose of the instruction clearer, but it really doesn't matter.
jg are for signed numbers -
0FFh will be interpreted as -1, and will compare as "less than" zero. In this code, you won't encounter any numbers "big enough to be negative" so it won't matter, but
ja are for unsigned numbers (
0FFh is interpreted as 255) and might be "more correct". That's just a nit-pick, but you might as well learn the difference - sometimes it does matter.
JLE Case ; Start the conversion procedure
Again, I like
cmp al, 'F' better - but it produces the same code. If
al is NOT less or equal (again
jbe would be correct for unsigned), you fall through to
Case: anyway. I doubt if that's what you want! And I don't see why you're subtracting 10. I would have thought 37h, or just 7 if you're going to subtract '0' anyway.
The pesky user is as likely to enter 'a'..'f' as 'A'..'F'. To do a proper "toupper", we would want to make sure the character HAS a "case". Here, we're going to be rejecting anything other than 'A'..'F' anyway, so it won't matter if we produce some junk by forcing characters that don't have an "uppercase". Make sure you've disposed of decimal digits first!
and al, 0DFh ; force to uppercase. You may or may not want to do that - could just force the user to use the shift key. :)
User input ends with a carriage return - 13 or 0Dh - (as I recall... Linux uses linefeed - 10 or 0Ah - but I think dos is 13). You might want to check for that first - before decimal or hex digits. I think your current setup will wait for 4 characters from the user, even if they've hit 'enter'. Probably not the expected behavior...
And yes, get a debugger and learn how to use it. Seeing what's happening step by step will help you a lot. I used to like David Lindauer's GRDB... (like DEBUG only brighter)...