C <fenv.h> - FE_DIVBYZERO
The FE_DIVBYZERO macro expands to a value of type integer constant expression that is distinct powers of 2, which uniquely identifies the floating-point exception raised on pole errors.
Pole errors occur when an operation has a result that is asymptotically infinite, such as divisions by zero, or log(0.0).
Definition in the <fenv.h> header file is:
#define FE_DIVBYZERO /*implementation defined power of 2*/
The details about all floating-point exception macros are listed below:
| Macros | Description |
|---|---|
| FE_DIVBYZERO | Pole error exception occurred in an earlier floating-point operation. |
| FE_INEXACT | Inexact result exception occurred in an earlier floating-point operation (rounding was necessary to store the result). |
| FE_INVALID | Invalid argument exception occurred (domain error occurred) in an earlier floating-point operation. |
| FE_OVERFLOW | Overflow range error exception occurred in an earlier floating-point operation (result was too large to be representable). |
| FE_UNDERFLOW | Underflow range error exception occurred in an earlier floating-point operation (result was subnormal with a loss of precision). |
| FE_ALL_EXCEPT | Bitwise OR of all supported floating-point exceptions. |
Certain library implementations may define additional macro constants in <fenv.h> to identify additional floating-point exceptions (with their corresponding macros also beginning with FE_).
See math_errhandling for more details.
Example:
The example below shows the usage of FE_DIVBYZERO macro.
#include <stdio.h>
#include <fenv.h>
#pragma STDC FENV_ACCESS ON
//volatile not needed if FENV_ACCESS is supported
volatile double zero = 0.0;
int main (){
printf("1/0.0 = %f\n", (1/zero));
if(fetestexcept(FE_DIVBYZERO))
printf("Division by zero is reported.\n");
else
printf("Division by zero is not reported.\n");
return 0;
}
The output of the above code will be:
1/0.0 = inf Division by zero is reported.
❮ C <fenv.h> Library
