# Why is modulus defined the way it is in programming languages

I'm not asking about the definition but rather why the language creators chose to define modulus with asymmetric behavior in C++. (I think Java too)

Suppose I want to find the least number greater than or equal to n that is divisible by f.

If n is positive, then I do:

``````if(n % f)
ans = n + f - n % f;
``````

If n is negative:

``````ans = n - n % f;
``````

Clearly, this definition is not the most expedient when dealing with negative and positive numbers. So why was it defined like this? In what case does it yield expediency?

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Are you asking why modulo doesn't have a fixed definition for negative operands? –  Kerrek SB Sep 17 '11 at 1:10
To clarify: I'm asking why the definition is asymmetric with respect to the parity of the first operand. –  Ted Tool Sep 18 '11 at 4:32

Because it's using "modulo 2 arithmetic", where each binary digit is treated independently of the other. Look at the example on "division" here

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But it isn't. Modulo-2 arithmetic is used when calculating CRCs, not the modulus operator. –  EJP Oct 9 '11 at 5:28
You're mistaken. When `n` is negative, C++ allows the result of the modulus operator to be either negative or positive as long as the results from `%` and `/` are consistent, so for any given `a` and `b`, the expression `(a/b)*b + a%b` will always yield `a`. C99 requires that the result of `a % b` will have the same sign as `a`. Some other languages (e.g., Python) require that the sign of `a % b` have the same sign as `b`.
This means the expression you've given for negative `n` is not actually required to work in C++. When/if `n%f` yields a positive number (even though `n` is negative), it will give `ans` that's less than `n`.
`(a/b)*b + a%b` always yields `a` except if `b` is zero, then the behavior is undefined. –  JohnPS Sep 17 '11 at 5:44
@David: I considered pointing out that either operand being negative led to implementation defined results -- but since he'd talked specifically about `n` being negative, decided it was better discuss only that. As far as the similarity goes, C99 is more the follower than the leader -- i.e., they standardized it because essentially all modern hardware works that way. Microsoft, for one example, seems to use what the x86 `div` instruction produces, and shows no apparent interest in C99 conformance. –  Jerry Coffin Sep 17 '11 at 20:25