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#include <math.h>
double aint(x) double x;
double anint(x) double x;
double ceil(x) double x;
double floor(x) double x;
double rint(x) double x;
int irint(x) double x;
int nint(x) double x;
aint(), anint(), ceil(), floor(), and rint() convert a double value into an integral value in double format. They vary in how they choose the result when the argument is not already an integral value. Here an ``integral value'' means a value of a mathematical integer, which however might be too large to fit in a particular computer's int format. All sufficiently large values in a particular floating-point format are already integral; in IEEE double-precision format, that means all values >= 2**52. Zeros, infinities, and quiet NaNs are treated as integral values by these functions, which always preserve their argument's sign.
aint() returns the integral value between x and 0, nearest x. This corresponds to IEEE rounding toward zero and to the Fortran generic intrinsic function aint().
anint() returns the nearest integral value to x, except halfway cases are rounded to the integral value larger in magnitude. This corresponds to the Fortran generic intrinsic function anint().
ceil() returns the least integral value greater than or equal to x. This corresponds to IEEE rounding toward positive infinity.
floor() returns the greatest integral value less than or equal to x. This corresponds to IEEE rounding toward negative infinity.
rint() rounds x to an integral value according to the current IEEE rounding direction.
irint() converts x into int format according to the current IEEE rounding direction.
nint() converts x into int format rounding to the nearest int value, except halfway cases are rounded to the int value larger in magnitude. This corresponds to the Fortran generic intrinsic function nint().
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