# C++ Best way to get integer division and remainder

I am just wondering, if I want to divide a by b, and am interested both in the result c and the remainder (e.g. say I have number of seconds and want to split that into minutes and seconds), what is the best way to go about it?

Would it be

``````int c = (int)a / b;
int d = a % b;
``````

or

``````int c = (int)a / b;
int d = a - b * c;
``````

or

``````double tmp = a / b;
int c = (int)tmp;
int d = (int)(0.5+(tmp-c)*b);
``````

or

maybe there is a magical function that gives one both at once?

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all the answers below seem reasonable, I would just like to add that any mucking with `double` (your last item) seems to me like a bad idea, you will end up with numbers that don't line up, and can cost you in performance and executable size (was always an issue for me on certain embedded systems). – nhed Aug 15 '11 at 20:36
The third is a BAD option: what if tmp = 54.999999999999943157? This said, old style casting is never a clever thing to do. – jimifiki Jul 15 '14 at 13:05

On x86 the remainder is a by-product of the division itself so any half-decent compiler should be able to just use it (and not perform a `div` again). This is probably done on other architectures too.

Instruction: `DIV` src

Note: Unsigned division. Divides accumulator (AX) by "src". If divisor is a byte value, result is put to AL and remainder to AH. If divisor is a word value, then DX:AX is divided by "src" and result is stored in AX and remainder is stored in DX.

``````int c = (int)a / b;
int d = a % b; /* Likely uses the result of the division. */
``````
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I think many poeple know from elementary school that when doing a division you get the remainder for free. The real question is: are our compilers smart enough to take advantage of this? – user180326 Aug 15 '11 at 20:32
Agree - But if b is a power of 2 you could use bit shift. – Ed Heal Aug 15 '11 at 20:34
@jdv: I wouldn't be surprised. It's a very simple optimisation. – Jon Purdy Aug 15 '11 at 20:38
I tried a quick test. With g++ 4.3.2 using -O2, the assembler output clearly shows it using one `idivl` instruction and using the results in eax and edx. I'd have been shocked if it didn't. – Fred Larson Aug 15 '11 at 20:41
Strangely this does not appear to be the case in .Net languages; presumably because of some oddball detail of .Net itself, rather than because of something simple like not running with optimizations enabled. – Chris Moschini Jul 27 '14 at 20:38

`std::div` returns a structure with both result and remainder.

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I'm curious to know if this is actually more efficient than, say, option 1 on a modern compiler. – Greg Howell Aug 15 '11 at 20:27
Nice, i did not know. Is it faster? – user180326 Aug 15 '11 at 20:27
Nice. Would you happen to know if one is implemented for long long somewhere? – Cookie Aug 15 '11 at 20:39
@Cookie : C++03 has no concept of `long long`, but it's highly likely that your compiler has a `long long` overload of `std::div` as an extension. – ildjarn Aug 15 '11 at 20:40
@Greg: I don't think it is, given that it most likely has to write results to a structure in memory and return it, which (unless it compiles as inline and the struct access is optimized away) is a bigger penalty than doing an extra division instruction. – pezcode Aug 15 '11 at 20:42

On x86 at least, g++ 4.6.1 just uses IDIVL and gets both from that single instruction.

C++ code:

``````void foo(int a, int b, int* c, int* d)
{
*c = a / b;
*d = a % b;
}
``````

x86 code:

``````__Z3fooiiPiS_:
LFB4:
movq    %rdx, %r8
movl    %edi, %edx
movl    %edi, %eax
sarl    \$31, %edx
idivl   %esi
movl    %eax, (%r8)
movl    %edx, (%rcx)
ret
``````
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Sample code testing div() and combined division & mod. I compiled these with gcc -O3, I had to add the call to doNothing to stop the compiler from optimising everything out (output would be 0 for the division + mod solution).

Take it with a grain of salt:

``````#include <stdio.h>
#include <sys/time.h>
#include <stdlib.h>

extern doNothing(int,int); // Empty function in another compilation unit

int main() {
int i;
struct timeval timeval;
struct timeval timeval2;
div_t result;
gettimeofday(&timeval,NULL);
for (i = 0; i < 1000; ++i) {
result = div(i,3);
doNothing(result.quot,result.rem);
}
gettimeofday(&timeval2,NULL);
printf("%d",timeval2.tv_usec - timeval.tv_usec);
}
``````

Outputs: 150

``````#include <stdio.h>
#include <sys/time.h>
#include <stdlib.h>

extern doNothing(int,int); // Empty function in another compilation unit

int main() {
int i;
struct timeval timeval;
struct timeval timeval2;
int dividend;
int rem;
gettimeofday(&timeval,NULL);
for (i = 0; i < 1000; ++i) {
dividend = i / 3;
rem = i % 3;
doNothing(dividend,rem);
}
gettimeofday(&timeval2,NULL);
printf("%d",timeval2.tv_usec - timeval.tv_usec);
}
``````

Outputs: 25

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All else being equal, the best solution is one that clearly expresses your intent. So:

``````int totalSeconds = 453;
int minutes = totalSeconds / 60;
int remainingSeconds = totalSeconds % 60;
``````

is probably the best of the three options you presented. As noted in other answers however, the `div` method will calculate both values for you at once.

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Apparently the question is asking about speed... – Pacerier Jun 12 '14 at 19:02

In addition to the aforementioned std::div family of functions, there is also the std::remquo family of functions, return the rem-ainder and getting the quo-tient via a passed-in pointer.

[Edit:] It looks like std::remquo doesn't really return the quotient after all.

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You cannot trust g++ 4.6.3 here with 64 bit integers on a 32 bit intel platform. a/b is computed by a call to divdi3 and a%b is computed by a call to moddi3. I can even come up with an example that computes a/b and a-b*(a/b) with these calls. So I use c=a/b and a-b*c.

The div method gives a call to a function which computes the div structure, but a function call seems inefficient on platforms which have hardware support for the integral type (i.e. 64 bit integers on 64 bit intel/amd platforms).

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You can use a modulus to get the remainder. Though @cnicutar's answer seems cleaner/more direct.

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Yes, the original poster used the modulus operator, the question is how to make it efficient. – Mark Lakata Nov 27 '12 at 19:53