How can I instruct gcc to emit idiv (integer division, udiv and sdiv) instructions for arm application processors?

So far only way I can come up with is to use -mcpu=cortex-a15 with gcc 4.7.

$cat idiv.c
int test_idiv(int a, int b) {
    return a / b;

On gcc 4.7 (bundled with Android NDK r8e)

$gcc -O2 -mcpu=cortex-a15 -c idiv.c
$objdump -S idiv.o

00000000 <test_idiv>:
   0:   e710f110    sdiv    r0, r0, r1
   4:   e12fff1e    bx  lr

Even this one gives idiv.c:1:0: warning: switch -mcpu=cortex-a15 conflicts with -march=armv7-a switch [enabled by default] if you add -march=armv7-a next to -mcpu=cortex-a15 and doesn't emit idiv instruction.

$gcc -O2 -mcpu=cortex-a15 -march=armv7-a -c idiv.c

idiv.c:1:0: warning: switch -mcpu=cortex-a15 conflicts with -march=armv7-a switch [enabled by default]

$objdump -S idiv.o
00000000 <test_idiv>:
   0:   e92d4008    push    {r3, lr}
   4:   ebfffffe    bl  0 <__aeabi_idiv>
   8:   e8bd8008    pop {r3, pc}

On gcc 4.6 (bundled with Android NDK r8e) it doesn't emit idiv instructions at all but recognizes -mcpu=cortex-a15 also doesn't complain to -mcpu=cortex-a15 -march=armv7-a combination.

Afaik idiv is optional on armv7, so there should be a cleaner way to instruct gcc to emit them but how?

  • Are you sure there is an actual instruction called idiv? I can only find sdiv (signed division) and udiv (unsigned division) ...
    – unwind
    Apr 3, 2013 at 8:16
  • @unwind I assume idiv = sdiv | udiv
    – auselen
    Apr 3, 2013 at 8:18
  • Which CPU specifically is your target? AFAIK the Cortex-A15 supports sdiv/udiv but the Cortex-A5 does not. Both are ARMv7-A compatible. Apr 3, 2013 at 11:17
  • @AustinPhillips Nothing special, I'm just trying to understand if there is a way to tell gcc to spill idiv instructions instead of linking to __aeabi* stuff. One example might be to build Android stack for an emulator which supports idiv.
    – auselen
    Apr 3, 2013 at 17:13
  • 1
    The warning conflicts with looks like a bug. Just don't specify an -march. See arm.c, lines 1644- Or maybe this logic is just to address the situation. Since you requested a CPU that is better than the ARCH, the ARCH is not valid. I think you just want a naked -mcpu=cortex-a7 (or -mcpu=cortex-a15, -mcpu=cortex-r5) to get idiv; these are the only CPU's that support it and they are better than the ARCH. Apr 3, 2013 at 18:49

1 Answer 1


If the instruction is not in the machine descriptions, then I doubt that gcc will emit code. Note1

You can always use inline-assembler to get the instruction if the compiler is not supporting it.Note2 Since your op-code is fairly rare/machine specific, there is probably not so much effort to get it in the gcc source. Especially, there are arch and tune/cpu flags. The tune/cpu is for a more specific machine, but the arch is suppose to allow all machines in that architecture. This op-code seems to break that rule, if I understand.

For gcc 4.6.2, it looks like thumb2 and cortex-r4 are cues to use these instructions and as you have noted with gcc 4.7.2, the cortex-a15 seems to be added to use these instructions. With gcc 4.7.2, the thumb2.md file no longer has udiv/sdiv. However, it might be included somewhere else; I am not 100% familiar with all the machine description language. It also seems that cortex-a7, cortex-a15, and cortex-r5 may enable these instructions with 4.7.2. Note3

This doesn't answer the question directly, but it does give some information/path to get the answer. You can compile the module with -mcpu=cortex-r4, although this may produce linker issues. Also, there is int my_idiv(int a, int b) __attribute__ ((__target__ ("arch=cortexe-r4")));, where you can specify on a per-function basis the machine-description used by the code generator. I haven't used any of these myself, but they are only possibilities to try. Generally you don't want to keep the wrong machine as it could generate sub-optimal (and possibly illegal) op-codes. You will have to experiment and maybe then provide the real answer.

Note1: This is for a stock gcc 4.6.2 and 4.7.2. I don't know if your Android compiler has patches.

gcc-4.6.2/gcc/config/arm$ grep [ius]div *.md
arm.md: "...,sdiv,udiv,other"
cortex-r4.md:;; We guess that division of A/B using sdiv or udiv, on average, 
cortex-r4.md:;; This gives a latency of nine for udiv and ten for sdiv.
cortex-r4.md:(define_insn_reservation "cortex_r4_udiv" 9
cortex-r4.md:       (eq_attr "insn" "udiv"))
cortex-r4.md:(define_insn_reservation "cortex_r4_sdiv" 10
cortex-r4.md:       (eq_attr "insn" "sdiv"))
thumb2.md:  "sdiv%?\t%0, %1, %2"
thumb2.md:   (set_attr "insn" "sdiv")]
thumb2.md:(define_insn "udivsi3"
thumb2.md:      (udiv:SI (match_operand:SI 1 "s_register_operand"  "r")
thumb2.md:  "udiv%?\t%0, %1, %2"
thumb2.md:   (set_attr "insn" "udiv")]
gcc-4.7.2/gcc/config/arm$ grep -i [ius]div *.md
arm.md:  "...,sdiv,udiv,other"
arm.md:  "TARGET_IDIV"
arm.md:  "sdiv%?\t%0, %1, %2"
arm.md:   (set_attr "insn" "sdiv")]
arm.md:(define_insn "udivsi3"
arm.md: (udiv:SI (match_operand:SI 1 "s_register_operand"  "r")
arm.md:  "TARGET_IDIV"
arm.md:  "udiv%?\t%0, %1, %2"
arm.md:   (set_attr "insn" "udiv")]
cortex-a15.md:(define_insn_reservation "cortex_a15_udiv" 9
cortex-a15.md:       (eq_attr "insn" "udiv"))
cortex-a15.md:(define_insn_reservation "cortex_a15_sdiv" 10
cortex-a15.md:       (eq_attr "insn" "sdiv"))
cortex-r4.md:;; We guess that division of A/B using sdiv or udiv, on average, 
cortex-r4.md:;; This gives a latency of nine for udiv and ten for sdiv.
cortex-r4.md:(define_insn_reservation "cortex_r4_udiv" 9
cortex-r4.md:       (eq_attr "insn" "udiv"))
cortex-r4.md:(define_insn_reservation "cortex_r4_sdiv" 10
cortex-r4.md:       (eq_attr "insn" "sdiv"))

Note2: See pre-processor as Assembler if gcc is passing options to gas that prevent use of the udiv/sdiv instructions. For example, you can use asm(" .long <opcode>\n"); where opcode is some token pasted stringified register encode macro output. Also, you can annotate your assembler to specify changes in the machine. So you can temporarily lie and say you have a cortex-r4, etc.


gcc-4.7.2/gcc/config/arm$ grep -E 'TARGET_IDIV|arm_arch_arm_hwdiv|FL_ARM_DIV' *
arm.c:#define FL_ARM_DIV    (1 << 23)         /* Hardware divide (ARM mode).  */
arm.c:int arm_arch_arm_hwdiv;
arm.c:  arm_arch_arm_hwdiv = (insn_flags & FL_ARM_DIV) != 0;
arm-cores.def:ARM_CORE("cortex-a7",  cortexa7,  7A, ... FL_ARM_DIV
arm-cores.def:ARM_CORE("cortex-a15", cortexa15, 7A, ... FL_ARM_DIV
arm-cores.def:ARM_CORE("cortex-r5",  cortexr5,  7R, ... FL_ARM_DIV
arm.h:  if (TARGET_IDIV)                                \
arm.h:#define TARGET_IDIV               ((TARGET_ARM && arm_arch_arm_hwdiv) \
arm.h:extern int arm_arch_arm_hwdiv;
arm.md:  "TARGET_IDIV"
arm.md:  "TARGET_IDIV"
  • (+1) Thanks for giving some courage for machine definitions, I think I can define a new machine type like armv7-ad copying from armv7-a. I don't think you can use inline assembler, compiler will still cry over mismatching instruction. About mach, mcpu, mtune... So integer div is optional, it is optional to mach... then I would expect either a mach variation or some extra flag like fpu. I expect mcpu/mtune to give optimizer some instruction scheduling information - that's why I hesitate to use cortex-a15.
    – auselen
    Apr 3, 2013 at 17:44
  • @auselen Did you try -mcpu=cortex-a7? Or that is not for your machine? It looks like it gives the same FL_ARM_DIV permissions as the -mcpu=cortex-a15. Apr 3, 2013 at 18:05
  • 1
    Nope. Let's assume I use a cortex-a9 with idiv support. May be I can use "-mcpu=cortex-a15 -mtune=cortex-a9", I'll test that later.
    – auselen
    Apr 3, 2013 at 18:41
  • Ok, the cortex-a9 doesn't support it in gcc-4.7. You can change the arm-cores.def to make a new core like cortex-a9-div and then use the FL_ARM_DIV flag to say that is supports idiv (copying the existing cortex-a9). Then you could use -mcpu=cortex-a9-div. Probably no gcc support this yet. It looks like -mcpu=cortex-a7 is an alternative pick. Cortex a7,a9,a15 all have different schedulers. Apr 3, 2013 at 19:04
  • @auselen Hmm, but only the cortex-a15 has the schedule stuff for idiv. Even the cortex-a7 is missing it. Maybe better to post to a gcc mailing list, to get some part of the scheduler working. Apr 3, 2013 at 19:14

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