# Modulo operation with negative numbers

In a c program i was trying the below operations(Just to check the behavior )

`````` x = 5 % (-3);
y = (-5) % (3);
z = (-5) % (-3);

printf("%d ,%d ,%d", x, y, z);
``````

gave me output as `(2, -2 , -2)` in gcc . I was expecting a positive result every time. Can a modulus be negative? Can anybody explain this behavior?

-
Possible duplicate of stackoverflow.com/questions/4003232/… –  james Jul 30 '12 at 11:41
Possible duplicate of stackoverflow.com/questions/3609572/… –  luser droog Aug 29 '14 at 7:36
possible duplicate of Modulo operator with negative values –  sugavaneshb Feb 8 at 8:46

C99 requires that when `a/b` is representable:

`(a/b) * b + a%b` shall equal `a`

This makes sense, logically. Right?

Let's see what this leads to:

Example A. `5/(-3)` is `-1`

=> `(-1) * (-3) + 5%(-3)` = `5`

=> `5%(-3)` should be `2`

Example B. `(-5)/3` is `-1`

=> `(-1) * 3 + (-5)%3` = `-5`

=> `(-5)%3` should be `-2`

-
+1. Round towards zero is what makes it impossible to construct an expression in one variable which is always positive. –  Potatoswatter Jul 30 '12 at 11:55
@Potatoswatter: `!x + !!x` is always positive, as are numerous other examples. What did you mean? –  j_random_hacker Jul 3 '14 at 11:52
@j_random_hacker The mathematical definition of modulus gives a nonnegative result, but the round-towards-zero behavior specified by C confounds attempts to define that behavior in such a simple expression. –  Potatoswatter Jul 3 '14 at 12:31

The `%` operator in C is not the modulo operator but the remainder operator.

Modulo and remainder operators differ with respect to negative values.

With a remainder operator, the sign of the result is the same as the sign of the dividend while with a modulo operator the sign of the result is the same as the divisor.

C defines the `%` operation for `a % b` as:

``````  a == (a / b * b) + a % b
``````

with `/` the integer division with truncation towards `0`. That's the truncation that is done towards `0` (and not towards negative inifinity) that defines the `%` as a remainder operator rather than a modulo operator.

-
Remainder is the result of modulo operation by definition. There should be no such thing as remainder operator because there is no such thing as remainder operation, it's called modulo. –  gronostaj Jun 27 at 20:49

Based on the C99 Specification: `a = (a / b) * b + a % b`

We can write a function to calculate `(a % b) = a - (a / b) * b`!

``````int remainder(int a, int b)
{
return a - (a / b) * b;
}
``````

For modulo operation, we can have the following function:

``````int mod(int a, int b)
{
int r = a % b;
return r < 0 ? r + b : r;
}
``````

My conclusion is (a % b) in C is a remainder operator and NOT modulo operator.

-

The result of Modulo operation depends on the sign of numerator, and thus you're getting -2 for y and z

Here's the reference

http://www.chemie.fu-berlin.de/chemnet/use/info/libc/libc_14.html

Integer Division

This section describes functions for performing integer division. These functions are redundant in the GNU C library, since in GNU C the ```/' operator always rounds towards zero. But in other C implementations,```/' may round differently with negative arguments. div and ldiv are useful because they specify how to round the quotient: towards zero. The remainder has the same sign as the numerator.

-
You are referring to a text about ANSI C. This is a fairly old norm of C. Not sure if the text is correct with regard to ANSI C, but definitely not with regard to C99. In C99 §6.5.5 integer division is defined to always truncate towards zero. –  Palec Feb 5 '14 at 20:36
–  Ioannis Filippidis May 5 at 21:25

The other answers have explained in C99 or later, division of integers involving negative operands always truncate towards zero.

Note that, in C89, whether the result round upward or downward is implementation-defined. Because `(a/b) * b + a%b` equals `a` in all standards, the result of `%` involving negative operands is also implementation-defined in C89.

-