In C, is it possible to divide a dividend by a constant and get the result and the remainder at the same time?

I want to avoid execution of 2 division instructions, as in this example:

val=num / 10;
mod=num % 10;
  • 6
    If you compile this exact code with an optimizing compiler (like GCC) on x86 or x86_64, you will find it already compiles into a single idiv instruction. In short, do not worry about micro-optimizations like this; at this level, modern compilers are much, much smarter than you probably think. – Nemo Oct 30 '11 at 3:41

You could always use the div function.

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I wouldn't worry about the instruction count because the x86 instruction set will provide a idivl instruction that computes the dividend and remainder in one instruction. Any decent compiler will make use of this instruction. The documenation here http://programminggroundup.blogspot.com/2007/01/appendix-b-common-x86-instructions.html describes the instruction as follows:

Performs unsigned division. Divides the contents of the double-word contained in the combined %edx:%eax registers by the value in the register or memory location specified. The %eax register contains the resulting quotient, and the %edx register contains the resulting remainder. If the quotient is too large to fit in %eax, it triggers a type 0 interrupt.

For example, compiling this sample program:

#include <stdio.h>
#include <stdlib.h>
#include <string.h>

int main()
  int x = 39;
  int divisor = 1;
  int div = 0;
  int rem = 0;

  printf("Enter the divisor: ");
  scanf("%d", &divisor);
  div = x/divisor;
  rem = x%divisor;

  printf("div = %d, rem = %d\n", div, rem);

With gcc -S -O2 (-S saves the tempory file created that shows the asm listing), shows that the division and mod in the following lines

div = x/divisor;
rem = x%divisor;

is effectively reduced to the following instruction:

idivl   28(%esp)

As you can see theres one instruction to perform the division and mod calculation. The idivl instruction remains even if the mod calculation in the C program is removed. After the idivl there are calls to mov:

movl    $.LC2, (%esp)
movl    %edx, 8(%esp)
movl    %eax, 4(%esp)
call    printf

These calls copy the quotient and the remainder onto the stack for the call to printf.


Interestingly the function div doesn't do anything special other than wrap the / and % operators in a function call. Therefore, from a performance perspective, it will not improve the performance by replacing the lines

 val=num / 10;       
 mod=num % 10;

with a single call to div.

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  • +1 for actually demonstrating that at least one compiler does it :) – detly Oct 30 '11 at 5:59
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    While OP did want to avoid execution of two division instructions, I think div() has value for readability and maintainability. The division is done at one place in the source, not scattered at two or more places. The field names of div_t also make for readability, I believe. – Gauthier Jun 23 '15 at 8:16
  • I am genuinely confused as to why the division and modulus operations happen separately when there is a CPU instruction that already does it in one step. – Sammitch Feb 8 '18 at 23:49
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    @Sammitch I think the answer shows that they in fact don't happen separately. Even if you write them in two expressions, it will still compile to a single instruction. Unless you are referring to the language itself not assigning them both in the same expression. But that's a different matter. – devios1 Dec 10 '18 at 20:35
  • MS Visual Studio 2017 won't use single idiv when pointer de-referencing like *ptr_to_10 is used even with all optimizations enabled:( – mlt May 9 '19 at 19:41

There's div():

div_t result = div(num, 10);
// quotient is result.quot
// remainder is result.rem
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  • The question was more concerned about the operation count than whether you can wrap calls to % and / in a function. – sashang Oct 30 '11 at 3:55
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    @sashan: Often this type of functions are implemented as compiler intrinsics so it could have the optimal performance. Unfortunately it seems that at least in Visual c++ 10 the div call is not even inlined and it is slower than the original code. – Timo Oct 30 '11 at 4:07
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    See here: sourceware.org/git/?p=glibc.git;a=blob;f=stdlib/…. The implementation of div just wraps the calls to % and /. – sashang Oct 30 '11 at 4:31

Don't waste your time with div() Like Nemo said, the compiler will easily optimize the use of a division followed by the use of a modulus operation into one. Write code that makes optimal sense, and let the computer remove the cruft.

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  • Exactly, but doesn't div() make quite much sense as well? The / followed by % is a well-known idiom, so everybody knows what it does, but using div() and div_t does not make less sense to me. Its fields are called quot and rem, pretty self-documenting. – Gauthier Jun 23 '15 at 8:19

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