function
<cmath> <ctgmath>
scalbn
double scalbn (double x , int n);
float scalbnf (float x , int n);
long double scalbnl (long double x, int n);
double scalbn (double x , int n);
float scalbn (float x , int n);
long double scalbn (long double x, int n);
double scalbn (T x , int n); // additional overloads for integral types
Scale significand using floating-point base exponent
Scales x by FLT_RADIX raised to the power of n, returning the same as:
scalbn(x,n)
= x * FLT_RADIXn
Presumably, x and n are the components of a floating-point number in the system; In such a case, this function may be optimized to be more efficient than the theoretical operations to compute the value explicitly.
On most platforms, FLT_RADIX is 2
, making this function equivalent to ldexp.
Header
<tgmath.h> provides a type-generic macro version of this function.
Additional overloads are provided in this header (
<cmath>
) for the
integral types: These overloads effectively cast
x to a
double
before calculations (defined for
T being any
integral type).
There also exists another version of this function: scalbln, which is identical, except that it takes a long int
as second argument.
Parameters
- x
- Value representing the significand.
- exp
- Value of the exponent.
Example
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
|
/* scalbn example */
#include <stdio.h> /* printf */
#include <float.h> /* FLT_RADIX */
#include <math.h> /* scalbn */
int main ()
{
double param, result;
int n;
param = 1.50;
n = 4;
result = scalbn (param , n);
printf ("%f * %d^%d = %f\n", param, FLT_RADIX, n, result);
return 0;
}
|
Output:
1.500000 * 2^4 = 24.000000
|
See also
- ldexp
- Generate value from significand and exponent (function
)
- logb
- Compute floating-point base logarithm (function
)