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I have found that the same mod operation produces different results depending on what language is being used.

In Python:

-1 % 10

produces 9

In C it produces -1 !

1) Which one is the right modulo?
2) How to make mod operation in C to be the same like in Python?

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up vote 43 down vote accepted
  1. Both variants are correct, however in mathematics (number theory in particular), Python's modulo is most commonly used.
  2. In C, you do ((n % M) + M) % M to get the same result as in Python. E. g. ((-1 % 10) + 10) % 10. Note, how it still works for positive integers: ((17 % 10) + 10) % 10 == 17 % 10, as well as for both variants of C implementations (positive or negative remainder).
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What aout n = - 11? I think you meant ((n % M) + M) % M – Henrik Dec 15 '09 at 13:51
with (-17 + 10) % 10 you are in the same problem. – yeyeyerman Dec 15 '09 at 13:52
Oops, corrected. Thanks. – Alex B Dec 15 '09 at 13:53
I must disagree with point 1, and say that in mathematics both are correct, as it defines a congruence class. – SurDin Dec 15 '09 at 14:03
@SurDin: you are right, I have reworded the answer. – Alex B Dec 15 '09 at 14:07

Python has a "true" modulo operation, while C has a remainder operation.

It has a direct relation with how the negative integer division is handled, i.e. rounded towards 0 or minus infinite. Python rounds towards minus infinite and C(99) towards 0, but in both languages (n/m)*m + n%m == n, so the % operator must compensate in the correct direction.

Ada is more explicit and has both, as mod and rem.

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Common Lisp also has both. – Svante Dec 15 '09 at 14:22
@Svante, It's easy to implement both in a library. – Pacerier Sep 10 '14 at 9:33
@Pacerier: yes, that's a form of greenspunning. Modulo and remainder are also very low level operations, so it is not trivial to ensure efficiency from a high level library. – Svante Sep 10 '14 at 10:04
@Svante, Greenspunning is part and parcel of life. It even exists in Common Lisp, except the color is no longer green. – Pacerier Sep 10 '14 at 10:28
Python modulo is not exactly "true" modulo, because it allows M < 0 – mykhal Jun 1 '15 at 10:46

In C89/90 the behavior of division operator and remainder operator with negative operands is implementation-defined, meaning that depending on the implementation you can get either behavior. It is just required that the operators agree with each other: from a / b = q and a % b = r follows a = b * q + r. Use static asserts in your code to check the behavior, if it relies critically on the result.

In C99 the behavior you observe has become standard.

In fact, either behaviors have certain logic in it. The Python's behavior implements the true modulo operation. The behavior you observed is C is consistent with rounding towards 0 (it's also Fortran behavior).

One of the reasons the rounding towards 0 is preferred in C is that it is rather natural to expect the result of -a / b be the same as -(a / b). In case of true modulo behavior, -1 % 10 would evaluate to 9, meaning that -1 / 10 has to be -1. This might be seen as rather unnatural, since -(1 / 10) is 0.

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Whole-number division is periodic; (a+kb)/b = (a/b)+k. Real-number division is periodic and symmetric. Trying to define integer division so as to add symmetry will make it cease to be periodic unless the divisor is odd and it is computed using round-to-nearest semantics. I would regard periodicity as more important than symmetry, though others may differ. – supercat Sep 26 '14 at 19:21

Both answers are correct since -1 modulo 10 is the same as 9 modulo 10.

r = (a mod m)
a = n*q + r

You can be sure that |r| < |n|, but not what the value of r is. There are 2 answers, negative and positive.

In C89, although the answer will always be correct, the exact value of a modulo operation (they refer to it as remainder) is undefined, meaning it can be either a negative result or a positive result. In C99 the result is defined.

If you want the positive answer though, you can simply add 10 if you find your answer is negative.

To get the modulo operator to work the same on all languages, just remember that:

n mod M == (n + M) mod M

and in general:

n mod M == (n + X * M) mod M
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Modulo of negative numbers in C is defined: by the following statement: If the quotient a/b is representable, the expression (a/b)*b + a%b shall equal a. – caf Dec 15 '09 at 14:04
(I should add that in C % isn't actually defined as a "modulo" operator - it's defined as a "remainder"). – caf Dec 15 '09 at 14:06
It seems so, I was going by this wikipedia page which states that it is not defined in C89: en.wikipedia.org/wiki/Modulo_operation – Brian R. Bondy Dec 15 '09 at 14:14
its implementaion defined i.e. its either -1 or 9 but has to be one of them – jk. Dec 15 '09 at 14:15
@jk: Thanks for clearing that up. – Brian R. Bondy Dec 15 '09 at 14:18

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