How do I perform a mod operation between two integers in C++?

21Is there a term for a post where googling the title yields the answer? – msw Apr 5 '10 at 22:43

2And.. click here if you don't mind stackoverflow being the ultimate resource, even for easy questions. – Greg M. Krsak Feb 4 '13 at 20:20
Like this: x=y%z

3

3

@wilhelmtell: 5.6/4: "(a/b)*b + a%b is equal to a", so roundtowardzero (the overwhelmingly popular implementation, for better or worse) implies that, and it is mandated by C++0x. – Potatoswatter Apr 6 '10 at 0:35

Round towards zero is mandated by c++0x, but not c++03. In both standards, your formula must hold true, but the sign of
a%b
depends on how integral division is implemented. The sign is well defined as nonnegative only ifa
andb
are both nonnegative. – Dennis Zickefoose Apr 6 '10 at 0:41 
1In any case, it won't map negative integers onto a en.wikipedia.org/wiki/Modular_arithmetic modular arithmetic ring. If it does, you are very lucky and your program is very unportable. – Potatoswatter Apr 6 '10 at 1:35
As the other answers have stated, you can use the C++ % operator. But be aware that there's a wrinkle no one has mentioned yet: in the expression a % b
, what if a
is negative?
Should the result of this operation be positive or negative? The C++ standard leaves this up to the
implementation. So if you want to handle negative inputs portably, you should probably
do something like r = abs(a) % b
, then fix up the sign of r
to match your requirements.

1That's assuming you want the implied
div
operation to be roundtowardszero. If you want roundtowardsnegativeinfinity, then you'll wantr = (unsigned(a) + offset * b) % b
, whereoffset
is big enough fora + offset * b
to always be positive. – Mike DeSimone Apr 5 '10 at 23:19
C++ has the %
operator, occasionally and misleadingly named "the modulus" operator. In particular the STL has the modulus<>
functor in the <functional>
header. That's not the mathematical modulus operator, mind you, because in modulus arithmetics a mod b
by definition evaluates to a nonnegative value for any value of a
and any positive value of b
. In C++ the sign of the result of a % b
is implementationdefined if either of the arguments is negative. So, we would more appropriately name the %
operator the remainder operator.
That said, if you truly want the mathematical modulus operator then you can define a function to do just that:
template<typename V>
V mod(const V& a, const V& b)
{
return (a % b + b) % b;
}
So long as b
is a positive value a call to the above function will yield a nonnegative result.

2No one else mentions how % is essentially a remainder operator in C++, and fail to provide a modulus implementation that wraps around properly given a negative input value for a. This is the best answer. – leetNightshade Sep 20 '12 at 17:22
Using the modulus %
operator :
int modulus_a_b = a % b;

1
a
andb
are integers... so whydouble
?modulus_a_b
should be the same type asa
andb
. – Mike DeSimone Apr 5 '10 at 22:42 
@Mike: well,
a % b
will be eitherint
, or else the same type as at least one ofa
andb
. So you have a few choices for the type ofmodulus_a_b
, depending on context :) – Steve Jessop Apr 5 '10 at 22:50 
@Steve: But only one of those choices is the type that the
%
operator returns. All the others imply a typecast, er,static_cast<>
.double
is certainly one of the latter. Also, usingdouble
means using the slowest math available (unless there's along double
type, dog forbid)... – Mike DeSimone Apr 5 '10 at 23:13 

The reason I said a lot of choice is because for instance the result of
short % short
is anint
, not ashort
, but depending on context it probably makes more sense to use it as ashort
. So there's a conflict between "the same type as a and b" vs "avoiding an implicit conversion". – Steve Jessop Apr 6 '10 at 10:38
if you use double variable, you should use;
double x;
double y;
double result = fmod(x, y);