What should the output of the following program be?
#include <stdio.h>
#include <math.h>
#include <float.h>
int main() {
int exp;
float mant = frexp(FLT_MAX, &exp);
printf("frexp(%a) = {%f, %d}\n", FLT_MAX, mant, exp);
return 0;
}
On my amd64 Linux system with glibc it prints:
frexp(0x1.fffffep+127) = {1.000000, 128}
From the IEEE 754 Wikipedia article I see that the "Largest normalized number" has an exponent of 127. I also see that the only values with an exponent of 128 are ±Infinity and NaN.
From the frexp man page I understand that frexp() should return a value in the range [0.5, 1.0) (that is, excluding 1.0).
Both the mantissa and exponent returned seem to be incorrect based on those pieces of information.
Knowing what frexp() does and the value of FLT_MAX (= (2 - 2^-23) * 2^127) tells me that {1.0, 128} is indeed very close to the correct answer, since (2 - 2^-23) is very close to 2.
So what should frexp(FLT_MAX, ...) return?
(0.5, 1.0]
should be[0.5, 1.0)
by the way :)frexp()
returns but what precision should be used as you yourself said Knowing what frexp() does and the value of FLT_MAX (= (2 - 2^-23) * 2^127) tells me that {1.0, 128} is indeed very close to the correct answer, since (2 - 2^-23) is very close to 2 , this means you are losing precision .Trydouble
instead offloat
.frexpf
instead offrexp
.