Hi all I am new here but anyway here is my problem: I am trying to write a subroutine for unsigned integer division in Assembly but I really cannot figure it out. If anyone could show me how to do it, that would be great.

I will call the subroutine DIVU. R1 will be the dividend. The divisor will be in R0. The quotient is going to be in RO and the remained in R1.

Basically, I am trying to make something like this: R1÷R0=R0remainderR1

If R0=0, I want to leave the input parameters unchanged and set the C flag when it returns. Otherwise, I just want to clear the C flag. I do not want to change any other registers' values after returning.

Thanks in advance for the help!

  • Is there any reason this is hard? ARM has a division instruction, doesn't it? single-step through the asm for a C function that does it, and see what's in the libgcc functions that gcc emits calls for. (godbolt.org/g/rao3lh). Or does Cortex-M0 leave out the division instruction? – Peter Cordes Sep 14 '16 at 1:22
  • I am pretty sure that they leave out the division function – jason Sep 14 '16 at 1:30
  • So are you asking how to implement division manually? The "related questions" sidebar already has several with promising titles that look like they're about ARM division. The other part of the question is just a matter of using push/pop to save/restore any regs you want your function not to modify. – Peter Cordes Sep 14 '16 at 1:38
  • 1
    When you're totally new to something, every problem seems unlike every other problem, and mysterious. But that doesn't make it a good SO question. :( If you still have any questions left after checking out the other ARM division questions, and learning to use push/pop to get some scratch registers, then edit this. – Peter Cordes Sep 14 '16 at 3:08
  • 1
    @JasonR - Is this just a learning exercise, or is the intent to create a practical (reasonably fast) division routine? Repeated subtraction would be slow. Including a left shift on each step would help. ARM provides fast division routines in libraries for the processors that do not include a divide instruction. – rcgldr Sep 14 '16 at 8:20

Here is what I have come up with so far. What do you all think? Does it seem like it will work? Constructive criticism for a newbie would be nice, as well as some examples of what to change it to. Thanks :)

      CMP   R1,#0       ;compares R1 to 0
      BEQ   AnsZero     ;if R1=0, it branches to AnsZero (the final answer will be 0)
      CMP   R0,#0       ;compares R0 to 0
      BEQ   EndFlag     ;if R0=0, it will go to the end to set C flag
      PUSH  {R3}        ;saves R3 so it can used as a counter for quotient
      MOV   R3,#0       ;sets R3 to 0
While CMP   R0,R1       ;start of while loop 
      BLT   EndWhil     ;Branches to end of while when dividend < divisor, otherwise goes through loop
      SUB   R1,R1,R0    ;R1=R1-R0 , dividend=dividend-divisor
      ADD   R3,R3,#1    ;R3=R3+1, quotient=quotient+1 (init is zero, so 0+1=1 if one successful loop)
      B While       ;continues loop
EndWhil MOV R0,R3       ;R0=R3, the register that had the divisor gets the quotient
      PULL  {R3}        ;R3's original value is returned
      B Return      ;goes to end of subroutine labeled return
EndFlag PUSH {R0}       ;saves original R0 value
      PUSH  {R1}        ;saves original R1 value
      MRS   R0,APSR     ;this line and the next few down all set the C flag without changing other flags
      MOVS  R1,#0x20    
      LSLS  R1,R1,#24   
      ORRS  R0,R0,R1    
      MSR   APSR,R0
      PULL  {R1}        ;gets original R1 value
      PULL  {R0}        ;gets original R0 value
      B Return      ;goes to end of subroutine
AnsZero MOV R0,#0       ;sets R0=0 because R1=1, 0/X=0r0
      B Return      ;goes to end of subroutine
Return  BX  LR      ;returns from subroutine

I apologize if the code is not displayed correctly, I am new to this so I am still trying to figure out the best way to copy it to the browser and show properly here.

| improve this answer | |
  • 1
    Code Review is a good place for code that you believe to be working. There isn't much asm activity over there, but it's better than asking for feedback in a self-answer. (There's nowhere for anyone to post more than a comment). – Peter Cordes Sep 15 '16 at 0:03
  • 1
    However, from a quick look, your code has some pretty obvious style/performance errors: ARM's PUSH instruction takes a list of registers. Never use two back-to-back PUSH instructions when you could push multiple regs with one insn. Same for POP. (Does PULL even assemble?). – Peter Cordes Sep 15 '16 at 0:09
  • It's ok to have multiple BX LR return instructions in your function. You don't need to, and shouldn't, B RETURN unless you want to have all the exit paths share a bunch of common epilogue code. – Peter Cordes Sep 15 '16 at 0:10
  • It's normal to arrange a loop so the conditional branch is at the end. That reduces the instruction-count by one (removing the unconditional branch). Sometimes you need to test if the loop should even run once before falling into it, or jump to the test at the end, if you can't guarantee that it should always run at least once (do{}while() style). – Peter Cordes Sep 15 '16 at 0:13
  • You don't need the S suffix on multiple flag-setting instructions. Or does thumb-2 only allow the short encoding with the sets-flags version? Anyway, instead of manually modifying APSR, why not subs r0, r0, #1 / mov r0, #0 to set the carry flag? (You know r0 is 0 on entry to that block, so you don't need to save it, and can restore it with a mov immediate 0) It looks like you could then combine more of that exit path with the AnsZero block, since they both just zero R0 before returning. – Peter Cordes Sep 15 '16 at 0:17

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.