Why does modulus division (`%`) only work with integers?

I recently ran into an issue that could easily be solved using modulus division, but the input was a float:

Given a function which repeats (ex: `sin`), and a computer function that can only compute it when the range is within one segment of that range (ex: -pi to pi), make a function that can handle any input.

The "obvious" solution is something like:

``````#include <cmath>
float sin(float x){
return limited_sin((x + M_PI) % (2 *M_PI) - M_PI);
}
``````

Why doesn't this work? I get this error:

``````error: invalid operands of types double and double to binary operator %
``````

Interestingly, it does work in Python:

``````def sin(x):
return limited_sin((x + math.pi) % (2 * math.pi) - math.pi)
``````
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π is not equal to 3.14, and in fact its not representable as any floating point type. Computing `sin(x)` for large values of `x` actually requires a very difficult transcendental argument reduction process that cannot get by with any finite approximation of pi. –  R.. May 23 '11 at 21:03
While all of the answers are without doubt helpful nobody seems to know the answer to this question. –  Nikolai Ruhe May 23 '11 at 21:04
This is almost certainly a homework assignment, so floating point errors are either outside the scope of the assignment, or this is meant to lead to a discussion of more rigorous numerical analysis. Either way, `fmod` is likely what the instructor is looking for. –  Dennis Zickefoose May 23 '11 at 21:16
"Pi is exactly three!" –  Emile Cormier May 23 '11 at 23:33
OK, I should have been more precise in my statement. My point was that if the argument can grow unboundedly large (not just double precision exponent size), no finite approximation of pi will suffice. For double, yes, a very very long approximation of pi will suffice. –  R.. Jul 15 '12 at 0:21

Because the normal mathematical notion of "remainder" is only applicable to integer division. i.e. division that is required to generate integer quotient.

In order to extend the concept of "remainder" to real numbers you have to introduce a new kind of "hybrid" operation that would generate integer quotient for real operands. Core C language does not support such operation, but it is provided as a standard library `fmod` function, as well as `remainder` function in C99. (Note that these functions are not the same and have some peculiarities. In particular, they do not follow the rounding rules of integer division.)

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Of worth, from the definition of % in the 98 standard: "(a/b)*b + a%b is equal to a." For floating point types, `(a/b)*b` already equals `a` [insofar as such a statement can be made for floating point types], so `a%b` would never be particularly useful. –  Dennis Zickefoose May 23 '11 at 21:10
@Dennis: Indeed, algebraically, in a field the remainder is always 0. The most appropriate definition of the `%` operator for floating point, I suppose, would be `a-(a/b)*b`, which would be either 0 or a very small value. –  R.. May 23 '11 at 21:17
@Dennis: You can easily fix this formula by requiring that "floor(a/b)*b + a%b = a". Note that for integers, floor(a/b) = a/b. –  vog May 23 '11 at 21:22
C-style integer division uses trunc, not floor, but the point remains. –  dan04 Jul 10 '13 at 2:23
-1 Re "the normal mathematical notion of "remainder" is only applicable to integer division", the mathematical notion of modulo arithmetic works as well for floating point values, and this is one of the first issues that Donald Knuth discusses in his classic The Art of Computer Programming (volume I). I.e. it was once basic knowledge. Today, students don't receive the education they pay for, IMHO. –  Cheers and hth. - Alf Aug 23 at 10:51

You're looking for fmod().

I guess to more specifically answer your question, in older languages the `%` operator was just defined as integer modular division and in newer languages they decided to expand the definition of the operator.

EDIT: If I were to wager a guess why, I would say it's because the idea of modular arithmetic originates in number theory and deals specifically with integers.

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"older languages" - APL dates back to the 1960's, and its modulo operator "|" works with both integers and floating point data (also with scalar, vector, matrix, tensor, ...) . There's no good reason that C's "%" modulo operator couldn't have performed the same function as fmod if used with floating point numbers. –  rcgldr Aug 23 at 1:16

The modulo operator `%` in C and C++ is defined for two integers, however, there is an `fmod()` function available for usage with doubles.

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This is the answer to OP's question, but ignores the fundamental problem in what OP is trying to do: `sin(fmod(x,3.14))` or even `sin(fmod(x,M_PI))` is not equal to `sin(x)` for large values of `x`. In fact the values may differ by as much as 2.0. –  R.. May 23 '11 at 21:05
@R..: Right, but that's a different question and I'm not entirely sure there's an accepted answer, though there's plenty of research on the subject –  Mark Elliot May 23 '11 at 21:13
@R - I fixed the equation to do it correctly. The actual equation wasn't the point (it was fairly easy to figure out once I had the function to test it with). –  Brendan Long May 23 '11 at 23:37
Is not `%` the remainder operator and not a modulo operator? –  chux Mar 3 at 19:51

I can't really say for sure, but I'd guess it's mostly historical. Quite a few early C compilers didn't support floating point at all. It was added on later, and even then not as completely -- mostly the data type was added, and the most primitive operations supported in the language, but everything else left to the standard library.

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+1 for being the first reasonable answer I see as I'm reading down the list. Actually, having now read them all, this is the only reasonable answer. –  Cheers and hth. - Alf Aug 23 at 10:54

try `fmod`

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The constraints are in the standards:

C11(ISO/IEC 9899:201x) §6.5.5 Multiplicative operators

Each of the operands shall have arithmetic type. The operands of the % operator shall have integer type.

C++11(ISO/IEC 14882:2011) §5.6 Multiplicative operators

The operands of * and / shall have arithmetic or enumeration type; the operands of % shall have integral or enumeration type. The usual arithmetic conversions are performed on the operands and determine the type of the result.

The solution is to use `fmod`, which is exactly why the operands of `%` are limited to integer type in the first place, according to C99 Rationale §6.5.5 Multiplicative operators:

The C89 Committee rejected extending the % operator to work on floating types as such usage would duplicate the facility provided by fmod

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The % operator gives you a REMAINDER(another name for modulus) of a number. For C/C++, this is only defined for integer operations. Python is a little broader and allows you to get the remainder of a floating point number for the remainder of how many times number can be divided into it:

``````>>> 4 % math.pi
0.85840734641020688
>>> 4 - math.pi
0.85840734641020688
>>>
``````
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The `%` operator does not work in C++, when you are trying to find the remainder of two numbers which are both of the type `Float` or `Double`.

Hence you could try using the `fmod` function from `math.h` / `cmath.h` or you could use these lines of code to avoid using that header file:

``````float sin(float x) {
float temp;
temp = (x + M_PI) / ((2 *M_PI) - M_PI);
return limited_sin((x + M_PI) - ((2 *M_PI) - M_PI) * temp ));
``````

}

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