# modulo c++ math way

Where can I find an implementation or library that computes the remainder of an integer euclidean division, 0<=r<|n| ?

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In C++98 and C++03 versions of C++ language the built-in division (bit `/` and `%` operators) might be Euclidean and might be non-Euclidean - it is implementation defined. However, most implementations truncate the quotient towards zero, which is unfortunately non-Euclidean.

In most implementations `5 / -3 = -1` and `5 % -3 = -2`. In Euclidean division `5 / -3 = -2` and `5 % -3 = 1`.

C++11 requires integer division to be non-Euclidean: it requires an implementation that truncates towards zero.

The issue, as you can see, arises with negative numbers only. So, you can easily implement Euclidean division yourself by using operator `%` and post-correcting negative reminders

``````int euclidean_reminder(int a, int b)
{
assert(b != 0);
int r = a % b;
return r >= 0 ? r : r + std::abs(b);
}
``````
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Yes, I don't have c++11 though. What library could I use ? – NaomiJO Jul 30 '12 at 2:02
How could I make your function a #define instead ? – NaomiJO Jul 30 '12 at 2:10

Write your own function around this, or any of the variants, and don't get hung up on a library - you've spent more time asking than you would to just do it. Start your own library (toolbox) for simple functions you need.

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Yes that works, thanks. Is there no library that implements this function ? It seems fairly common... – NaomiJO Jul 30 '12 at 2:05

It's a simple operator. %.

5 % 4 is 1, etc.

Edit: As has been pointed out, depending on your implementation this isn't necessarily a euclidean mod.

``````#define EUCMOD(a, b)  (a < 0 ? (((a % b) + b) % b) : (a % b))
``````
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Note this only works with integers. If you want floating-point modulus, use the `fmod` function. `fmod (3.3, 2.4) is 0.9` – chris Jul 30 '12 at 1:55
No, I said an euclidian division. (-5)%4 is -1 but should be 3. As I said in the question, the remainder r should be between 0 and n, and in my example it's negative. – NaomiJO Jul 30 '12 at 1:58
@NaomiJO, If you really need to, you can just add the `b` from `a % b` onto the result if it's negative. – chris Jul 30 '12 at 2:02
That's actually incorrect. In most implementations division truncates the result towards zero - this is non-Euclidean division. This means that the result of `%` can be negative: this is non-Euclidean already. – AnT Jul 30 '12 at 2:04
Is there no library that implements this behaviour, am I forced to do it myself ? – NaomiJO Jul 30 '12 at 2:07