# (SOLVED) Transform 4bit hexadec to its correspodning 7bit ascii-code, assembly code

I've gotten the task to make a sub-routine which transforms a 4bit hexadecimal value to its correspodning 7-bit ascii-code. Eg. 0010 which is 2 converts to 011 0010 (ascii for '2'), 1011 which is B converts to 100 0010 (ascii for 'B').

Edited, this should be the answer

``````.global hexasc              # makes hexasc globally known

hexasc:   andi  r2, r4,0xF  # Masks away the four MSB, r4 = input value
movi  r10, 10       # Constant, compare value in cond

cond:   bge   r2, r10, yes  # if r4 is >= 10 then branch yes, else no
# yes = letter, no = numbers

no:     addi  r2, r2, 0x30  # Adds 0x30I've been learning assembly code for about a week so please keep in mind that my knowledge is very limited. And yes, I've been did do some google search before ending up here! (0011 0000) to convert into the 7bit ASCII value
br    end           # Branch to the end, r2 is the return value

yes:    addi  r2, r2, 0x37  # Adds 0x37 (decimal: 55) to increase the ASCII value
# B (number) = 11 (decimal) --add55-> 66 (decimal) = B (char)

end:    ret                 # Sub-routine ends, return r2
``````
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The algorithm in your flowchart doesn't work properly for 8 (becomes 3F `?`) and 9 (becomes 40 `@`). –  Rhymoid Jan 22 '13 at 17:32
Really? I'm gonna look into it and see if I can find the flaws. –  Quasar Jan 22 '13 at 17:38
Ah, I see, since 8 and 9 starts with 1. 1000 and 1001. How about changing the condition to if the 4bits are interpret as larger than 9? –  Quasar Jan 22 '13 at 17:44
Yes, that's more appropriate. You should look at the conditional branch instructions for how to do that. –  JasonD Jan 22 '13 at 17:49
I've came up with this but it gives me errors: edit, i put the code in the first post What seems to the problem? –  Quasar Jan 22 '13 at 18:39

What you can do is use the `SHL` (shift left) `shl mem/reg, cl/const` command which shifts the MSB into the `CF` carry flag. So if you had 101 1011 after shifting left the CF would result in 1. Since you already know how to set a conditional statement you can control it using `jc` (jump if carry flag is set to one). The only issue with this approach is you will alter your number for good. That's no problem though because you know the # of bits you're dealing with so all you'd need to do inside your loop is `SHR` (shift right) `ADD` 1000000 and your back to your original number. If the MSB/CF was 0 you'd just need to `SHR`.