# Is there a reason some languages allow a negative modulus?

I am curious about these languages (Java, C ...) which ignore mathematical definition of modulus operation.

What is the point of returning negative values in a module operation (that, by definition, should allways return a positive number)?

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There is no definition that says that anything should be "allways positive". Modular arithmetic is about equivalence classes, and any representative is as good as any other. –  Kerrek SB Nov 29 '11 at 22:43
@OliCharlesworth: Does C99 specify any constraints on modulo arithmetic? –  Matt Joiner Nov 29 '11 at 22:46
It would be nice to have a modulus operation that produced canonical representatives, though. –  Henning Makholm Nov 29 '11 at 22:48
@Matt: Yes, implicitly. It mandates that `(a/b)*b + a%b == a`, and that division truncates towards zero. –  Oli Charlesworth Nov 29 '11 at 22:48
@KerrekSB the problem here is that negative numbers fall into different equivalence classes than positive ones, unlike mathematical modulus. –  soulcheck Nov 29 '11 at 22:48
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I doubt that the remainder operator was deliberately designed to have those semantics, which I agree aren't very useful. (Would you ever write a calendar program that shows the weekdays Sunday, Anti-Saturday, Anti-Friday, ..., Anti-Monday for dates before the epoch?)

Rather, negative remainders are a side effect of the way integer division is defined.

``````A rem B := A - (A div B) * B
``````

If `A div B` is defined as `trunc(A/B)`, you get C's `%` operator. If `A div B` is defined as `floor(A/B)`, you get Python's `%` operator. Other definitions are possible.

So, the real question is:

# Why do C++, Java, C#, etc. use truncating integer division?

Because that's the way that C does it.

# Why does C use truncating division?

Originally, C didn't specify how `/` should handle negative numbers. It left it up to the hardware.

In practice, every significant C implementation used truncating division, so in 1999 these semantics were formally made a part of the C standard.

# Why does hardware use truncating division?

Because it's easier (=cheaper) to implement in terms of unsigned division. You just calculate `abs(A) div abs(B)` and flip the sign if `(A < 0) xor (B < 0)`.

Floored division has the additional step of subtracting 1 from the quotient if the remainder is nonzero.

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I wonder for what applications the C99 version of signed division is actually useful? In my experience, in cases which require exactitude, I almost always have to handle negative numbers specially, so having divisions involving negative numbers return unspecified values wouldn't be much less useful than having them behave as the standard dictates. I could see an argument for leaving the behavior unspecified (which could speed things up on hardware which lacks a signed division instruction), but not much advantage to the standard as written. –  supercat Jun 19 at 21:39

From Wikipedia (my emphasis):

Given two positive numbers, a (the dividend) and n (the divisor), a modulo n (abbreviated as a mod n) can be thought of as the remainder, on division of a by n. For instance, the expression "5 mod 4" would evaluate to 1 because 5 divided by 4 leaves a remainder of 1, while "9 mod 3" would evaluate to 0 because the division of 9 by 3 leaves a remainder of 0; there is nothing to subtract from 9 after multiplying 3 times 3. (Notice that doing the division with a calculator won't show you the result referred to here by this operation, the quotient will be expressed as a decimal.) When either a or n is negative, this naive definition breaks down and programming languages differ in how these values are defined. Although typically performed with a and n both being integers, many computing systems allow other types of numeric operands. The range of numbers for an integer modulo of n is 0 to n - 1. (n mod 1 is always 0; n mod 0 is undefined, possibly resulting in a "Division by zero" error in computer programming languages) See modular arithmetic for an older and related convention applied in number theory.

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Mathematically, the integer remainder is always in the range of 0 to one less than the divisor, assuming a positive divisor. This conflicts with the ugly definition programming languages (and cpus) tend to use. The former definition is extremely useful, e.g. for date computations. The latter is useless except when using integers as approximations for non-integral values (e.g. fixed point). –  R.. Nov 29 '11 at 23:25
@R..: I wouldn't say "mathematically" (unless you have some genuine theory to back this up), but rather "conventionally". (For positive dividends, this is only relevant for negative divisors of course.) –  Kerrek SB Nov 29 '11 at 23:27
Well the algebraic definition of division `n/d` I always learned was `n=qd+r` where `0≤r<d`. :-) –  R.. Nov 29 '11 at 23:34
@R..: actually, that's a good point -- it's still just convention, but that's the popular way the division theorem is stated. (Though note that the theorem is equally valid for any other fixed choice of coset.) That said, this is a nice argument in favour of fixing the remainder to be positive. –  Kerrek SB Nov 29 '11 at 23:57

In Java at least, it's not a modulus operator - it's a remainder operator.

I believe the reason for it being chosen that way is to make this relation work (from the JLS):

The remainder operation for operands that are integers after binary numeric promotion (§5.6.2) produces a result value such that (a/b)*b+(a%b) is equal to a. This identity holds even in the special case that the dividend is the negative integer of largest possible magnitude for its type and the divisor is -1 (the remainder is 0). It follows from this rule that the result of the remainder operation can be negative only if the dividend is negative, and can be positive only if the dividend is positive; moreover, the magnitude of the result is always less than the magnitude of the divisor.

That equality relation seems like a reasonable thing to use as part of the definition. If you take division truncating towards zero to be a given, that leaves you with a negative remainder.

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@JerryCoffin: Yes, but in conjunction with division truncating to 0, you end up with that. I'll add the bit about division to my answer. –  Jon Skeet Nov 29 '11 at 23:02
The same is broadly true in C99: the operator has no name other than `%`, but its result is "the remainder"; and the same euclidean relation between `a` and `b` is true (except that C does not have the special case for `INT_MIN % -1` - that is undefined behaviour). –  caf Nov 29 '11 at 23:07
@caf: where do you find anything saying `INT_MIN % -1` gives UB? I don't see that anywhere in either the C or C++ standards. –  Jerry Coffin Nov 29 '11 at 23:13
@JerryCoffin: Actually I believe you are right - `INT_MIN / -1` may be undefined due to integer overflow but it seems like the remainder should still be zero. However I can get `gcc` to `SIGFPE` with that operation... –  caf Nov 29 '11 at 23:22
@JerryCoffin: It seems that R. and Jens have been here before us - the current draft standard now explicitly calls it out as undefined behaviour. –  caf Nov 29 '11 at 23:26
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Most of them are not defined to return a modulus. What they're defined to return is a remainder, for which positive and negative values are equally reasonable.

In C or C++ it's pretty reasonable to say it should produce whatever the underlying hardware produces. That excuse/reason doesn't work nearly as well for Java though.

Also note that in C89/90 and C++98/03, the remainder could be either positive or negative, as long as the results from remainder and division worked together (`(a/b)*b+a%b == a`). In C99 and C++11, the rules been tightened up so the division must truncate toward zero, and if there is a remainder it must be negative.

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A pragmatic reason to return a negative value for modulus would be that the hardware instruction implementing modulus does so.

So standards leave that ill defined, so that compilers can do whatever is simpler to them.

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It's well-defined in some standards; Java and C99, for instance. –  Oli Charlesworth Nov 29 '11 at 22:46
Are you sure that C99 defines that for negative numbers? –  Basile Starynkevitch Nov 29 '11 at 22:48
Yes. It's defined in terms of the `/` operator, whose behaviour is now well-defined for negative values. –  Oli Charlesworth Nov 29 '11 at 22:50
In neither of the C or Java standards is `%` referred to as a modulus operator - rather, it returns the remainder.
It is defined to return negative numbers for negative dividends so that the relation `(a/b)*b + a%b == a` holds, as long as `a / b` is representable. Since the division operator is defined to truncate towards zero, this constrains the sign of the remainder.