std::remainder
Defined in header <cmath>
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||
float remainder( float x, float y ); |
(1) | (since C++11) |
double remainder( double x, double y ); |
(2) | (since C++11) |
long double remainder( long double x, long double y ); |
(3) | (since C++11) |
Promoted remainder( Arithmetic1 x, Arithmetic2 y ); |
(4) | (since C++11) |
The IEEE floating-point remainder of the division operation x/y calculated by this function is exactly the value x - n*y, where the value n
is the integral value nearest the exact value x/y. When |n-x/y| = , the value n
is chosen to be even.
In contrast to std::fmod(), the returned value is not guaranteed to have the same sign as x
.
If the returned value is 0
, it will have the same sign as x
.
Parameters
x, y | - | values of floating-point or integral types |
Return value
If successful, returns the IEEE floating-point remainder of the division x/y as defined above.
If a domain error occurs, an implementation-defined value is returned (NaN where supported)
If a range error occurs due to underflow, the correct result is returned.
If y
is zero, but the domain error does not occur, zero is returned.
Error handling
Errors are reported as specified in math_errhandling
Domain error may occur if y
is zero.
If the implementation supports IEEE floating-point arithmetic (IEC 60559),
- The current rounding mode has no effect.
- FE_INEXACT is never raised, the result is always exact.
- If
x
is andy
is not NaN, NaN is returned and FE_INVALID is raised - If
y
is 0 andx
is not NaN, NaN is returned and FE_INVALID is raised - If either argument is NaN, NaN is returned
Notes
POSIX requires that a domain error occurs if x
is infinite or y
is zero.
std::fmod, but not std::remainder
is useful for doing silent wrapping of floating-point types to unsigned integer types: (0.0 <= (y = std::fmod( std::rint(x), 65536.0 )) ? y : 65536.0 + y) is in the range [-0.0 .. 65535.0]
, which corresponds to unsigned short, but std::remainder(std::rint(x), 65536.0) is in the range [-32767.0, +32768.0]
, which is outside of the range of signed short.
Example
#include <iostream> #include <cmath> #include <cfenv> #pragma STDC FENV_ACCESS ON int main() { std::cout << "remainder(+5.1, +3.0) = " << std::remainder(5.1,3) << '\n' << "remainder(-5.1, +3.0) = " << std::remainder(-5.1,3) << '\n' << "remainder(+5.1, -3.0) = " << std::remainder(5.1,-3) << '\n' << "remainder(-5.1, -3.0) = " << std::remainder(-5.1,-3) << '\n'; // special values std::cout << "remainder(-0.0, 1.0) = " << std::remainder(-0.0, 1) << '\n' << "remainder(5.1, Inf) = " << std::remainder(5.1, INFINITY) << '\n'; // error handling std::feclearexcept(FE_ALL_EXCEPT); std::cout << "remainder(+5.1, 0) = " << std::remainder(5.1, 0) << '\n'; if(fetestexcept(FE_INVALID)) std::cout << " FE_INVALID raised\n"; }
Possible output:
remainder(+5.1, +3.0) = -0.9 remainder(-5.1, +3.0) = 0.9 remainder(+5.1, -3.0) = -0.9 remainder(-5.1, -3.0) = 0.9 remainder(-0.0, 1.0) = -0 remainder(5.1, Inf) = 5.1 remainder(+5.1, 0) = -nan FE_INVALID raised
See also
(C++11) |
computes quotient and remainder of integer division (function) |
remainder of the floating point division operation (function) | |
(C++11) |
signed remainder as well as the three last bits of the division operation (function) |