# MIPS Assembly: Convert from Integer to Hexadecimal

I found this code snippet that I believe converts an integer to hex. However, I'm not following it at all. I added the comments that say what I believe is happening, but I have no idea WHY it's being done. So, assuming I correctly noted what each line was doing, can someone please explain to me why it's being done? As in how it in any way helps convert to hex?

\$a0 is the integer value

\$a1 is the address of where the result should be

``````        addi \$t0, \$0, 48       #set \$t0 equal to 48
sb \$t0, 0(\$a1)         #store \$to (48) at location 0 in \$a1
addi \$t0, \$0, 120      #set \$t0 equal to 120
sb \$t0, 1(\$a1)         #store \$t0 (120) at location 1 in \$a1
addi \$t1, \$a1, 9       #set \$t1 = the address + 9

LOOP:

andi \$t0, \$a0, 0xf    #\$t0 = 1 if \$a0 and 0xf are the same (0xf = beginning of hex)?

slti \$t2, \$t0, 10     #if \$t0 is less than 10, \$t2 = 1, else 0
bne \$t2, \$0,  DIGIT   #if \$t2 does not equal 0, branch to DIGIT
addi \$t0, \$t0, 48     #set \$t0 equal to 48
addi \$t0, \$t0, 39     #set \$t0 equal to 39 (why did we just write over the 48?)
DIGIT:

sb \$t0, 0(\$t1)        #set \$t0 equal to whatever's in location 0 of \$t1

srl \$a0, \$a0, 4       #shift right 4 bits

bne \$a0, \$0, LOOP     #if \$a0 does not equal 0, branch to LOOP
addi \$t1, \$t1, -1     #set \$t1 = \$t1 - 1

DONE:

jr \$ra                #set the jump register back to \$ra
nop
``````
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``````    slti \$t2, \$t0, 10     #if \$t0 is less than 10, \$t2 = 1, else 0
bne \$t2, \$0,  DIGIT   #if \$t2 does not equal 0, branch to DIGIT
addi \$t0, \$t0, 48     #set \$t0 equal to 48
addi \$t0, \$t0, 39     #set \$t0 equal to 39 (why did we just write over the 48?)
``````

MIPS uses branch delay slots, meaning that the instruction following the branch instruction always is executed before the branch is taken (or not taken).

So what this says is "If \$t0 is less than 10 (i.e. in the range 0..9), goto DIGIT, but first add 48 (ASCII '0') regardless of the value of \$t0. In case the branch was taken you'll now have converted from 0..9 to '0'..'9'. In case the branch wasn't taken, \$t0 was originally in the range 10..15 and will now be in the range 58..63, so we add 39 more to get a value in the range 97..102 (the ASCII codes for 'a'..'f')".

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ohhh so he's converting it to ASCII and then the ASCII code goes into each individual digit? – user2869231 Oct 15 '13 at 18:45
Sort of. The end result is a string, which is just an array of (ASCII) characters. – Michael Oct 15 '13 at 19:44
Ah... I didn't realize hex was a string. Figured it was a number written in a different format. That definitely helps.. Thanks! – user2869231 Oct 16 '13 at 4:58
Hexadecimal doesn't automatically mean a string. But conversion between different bases doesn't make much sense unless there's a textual representation involved. For plain numbers there's no difference (the values 20 and 0x14 are represented by exactly the same bit patterns). – Michael Oct 16 '13 at 7:09