For a class just starting out with the ARM assembly language, we are required to implement a simple for-loop described below:

for (i=0, i<5, i++)

I have written the following code in ARM assembly:


     MOV r0, #1;         initialize h=1
     MOV r1, #0;         initialize i=0
loop CMP r1, #5;         at start of loop, compare i with 5
     MULLT r0, r0, #3;   if i<5, h=h*3
     SUBLT r0, r0, r1;   if i<5, h=h-i (ties in with previous line)
     ADDLT r1, r1, #1;   increment i if i is less than 5
     BLT loop ;          repeat loop of i is less than 5

stop B stop;             stop program

The problem is that there is an error with the line

     MULLT r0, r0, #3;   if i<5, h=h*3

If I delete it from the code, everything works fine. I just cannot understand the issue with this one line. The error description given is "Bad register name symbol, expected integer register." I have tried loading #3 into a register then multiplying the two registers, but that didn't help. It simply changed the error message to "This register combination results in unpredictable behavior." I am new to this, so please offer only basic instructions as a fix for this. Thanks.

  • 1
    Read what your instruction set reference has to say about the mul instruction, particularly about what forms of operands it takes. – Notlikethat Sep 7 '16 at 15:45
up vote 1 down vote accepted

MUL requires all operands to be registers, so you must use the form MUL r0, rn, r0 where rn is some other suitable register.

If the result and the first operand are the same the result is unpredictable as the error says. This is due to the internal operation of the processor. This is why you must use r0, rn, r0 and not r0, r0, rn

  • The quick reference card doesn't mention any limitation where Rd and Rm need to be the same, unless you are trying to use muls on Thumb-2 (where muls is otherwise not available). So, he could also get around the unpredictable behavior by using a third register, but I guess that would complicate the program needlessly. – rjp Sep 7 '16 at 16:49
  • @rjp Rd and Rm don't need to be the same; I assume Sami is merely preserving the intent of the original code. The only restriction is that prior to ARMv6 the two input registers can't be the same. – Notlikethat Sep 7 '16 at 21:35

Multiplying by 3 is overrated anyway; ARM can do it with a single ridiculously idiomatic addition:

add r0, r0, r0 lsl #1    // r0 = r0 + r0 *2
  • If one counted from 0 down to -4 instead of 0 to 4, one could instead use an mla r0, r0, r2, r1 with r2 = 3. I think I have that math right. – rjp Sep 7 '16 at 16:44

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