Modulo operator with negative values

Why such operations

``````std::cout << (-7 % 3) << std::endl;
std::cout << (7 % -3) << std::endl;
``````

give different result

``````-1
1
``````

?

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From ISO14882:2011(e) 5.6-4:

The binary / operator yields the quotient, and the binary % operator yields the remainder from the division of the first expression by the second. If the second operand of / or % is zero the behavior is undefined. For integral operands the / operator yields the algebraic quotient with any fractional part discarded; if the quotient a/b is representable in the type of the result, (a/b)*b + a%b is equal to a.

The rest is basic math:

``````(-7/3) => -2
-2 * 3 => -6
so a%b => -1

(7/-3) => -2
-2 * -3 => 6
so a%b => 1
``````

Note that

If both operands are nonnegative then the remainder is nonnegative; if not, the sign of the remainder is implementation-defined.

from ISO14882:2003(e) is no longer present in ISO14882:2011(e)

-
The expression "algebraic quotient" isn't present in ISO 14882:2003; the expression there is just "quotient" (and what is implementation defined is whether `-7/3` results in `-2` or `-3`). –  James Kanze Sep 29 '11 at 8:52
@JamesKanze: Note that the quote is from the current standard, I will try to emphasize it in the answer. –  PlasmaHH Sep 29 '11 at 8:54
I think no matter which way and how many times you skin that cat, the fundamental fact is that divide and modulo with signed operands is implementation defined. There's always a "which way" choice in some guise or another. The guaranteed identity at the end of that quote is what's important. (Though I think C99 may actually fix that choice.) –  Kerrek SB Sep 29 '11 at 9:13
It looked like you were quoting something, but what you quote doesn't correspond to either of the versions I have handy. My version of C++ 2003 is in fact a very late draft, so the wording my have may have changed slightly---if you're quoting the official C++ 2003, then it did. The change was made in C in C99, so the definitive version of C++03 might reflect it (or partially reflect it). –  James Kanze Sep 29 '11 at 9:19
@JamesKanze: C++03 still contains the implementation definedness, it is C++11 which removes it. (and requires divisions to follow fortran, basically) –  PlasmaHH Sep 29 '11 at 10:00
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I decided to implement "negative modulo" needed in linear phase FIR filter circular buffer handling like this

``````        // Indeces to delay line (Note! Up/Down modulo K counters!)
int negitmp = (middle - coefi);
unsigned int negi = (negitmp < 0) ? (CBufLen_c + negitmp) : (negitmp % CBufLen_c);
unsigned int posi = (middle + coefi) % CBufLen_c;
``````
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That's all the language had to say. C++11 (like C99) adopts the Fortran rules of rounding to zero (i.e. dropping the fractional part). In practice, all hardware had adopted the Fortran rules long ago, so all all implementations already did it this way anyway. (The purpose of the "implementation-defined" is to allow C/C++ to do whatever the hardware does. I think some very old hardware did always round down, so that `-7/3` would result in `-3`, but that would be in a very distant past.) –  James Kanze Sep 29 '11 at 8:49
@JamesKanze: If `b` is a power of 2, it used to be possible to compute `n % b` as `n & (b-1)`. The new standard requires that it be computed as `n < 0 ? n | -b : n & (b-1)`. Likewise, `n / b` cannot be written as a simple shift, even on hardware that supports arithmetic shifts; instead, on such systems, an expression like `n/16` (if `n` is an `int32`) must be written as `n < 0 ? (n+15) >> 4 : n >> 4`. Horrible standard, IMHO. Note that since non-power-of-two division is inherently slow anyway, mandating Euclidian behavior wouldn't have slowed it down much. –  supercat Jul 1 '13 at 18:12
@supercat An expression like `n / 16` should be written as `n / 16`. Say what you mean. The newly mandated behavior is the behavior people expect (whether it is right or wrong), and the behavior of all existing hardware. –  James Kanze Jul 1 '13 at 19:02
@JamesKanze: It is NOT the behavior of existing hardware in the case of optimizing divide-by-power-of-two operations as shifts. Under the old rules, `foo /= 16` could be written as `asr [dword foo],4`. Under the new rules, the optimal representation requires many more instructions [perhaps `mov eax,[foo] / mov ebx,eax, asr eax,31 / lsr eax,28 / add eax,ebx / asr eax,4 / mov [foo],eax`] Not as slow as a divide instruction, but a lot more work than a simple shift. –  supercat Jul 1 '13 at 22:11