log2
Compute the base-2 logarithm of the input.
Interface Definition
C interface:
float log2f(float x);
double log2(double x);
long double log2l(long double x);
Fortran interface:
RES = LOG2F(X);
RES = LOG2(X);
Parameters
Parameter |
Type |
Description |
Input/Output |
|---|---|---|---|
x |
|
Floating-point value of the input data. |
Input |
Return Value
- The base-2 logarithm y of x is returned. y ∈ (-INF, +INF)
- If input x is ±0, the return value is -∞.
- If input x is 1, the return value is 0.
- If input x is negative, the return value is NaN.
- If input x is -∞, the return value is NaN.
- If input x is +∞, the return value is +∞.
- If input x is NaN, the return value is NaN.
Dependencies
C: "km.h"
Examples
C interface:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 | // typical usage double x1 = 2.0, x2 = 0.5, x3 = 125, x4 = 5; // special handling double a = 0.0, b = INFINITY, c = -INFINITY, d = NAN, e = 1.0; // print result printf("base-5 logarithm of 125 = %.15f\n", log2(x3)/log2(x4)); printf("log2(1.0) = %.15f\n", log2(e)); printf("log2(2.0) = %.15f\n", log2(x1)); printf("log2(0.5) = %.15f\n", log2(x2)); printf("log2(0.0) = %.15f\n", log2(a)); printf("log2(INFINITY) = %.15f\n", log2(b)); printf("log2(-INFINITY) = %.15f\n", log2(c)); printf("log2(NAN) = %.15f\n", log2(d)); /* * base-5 logarithm of 125 = 3.000000000000000 * log2(1.0) = 0.000000000000000 * log2(2.0) = 1.000000000000000 * log2(0.5) = -1.000000000000000 * log2(0.0) = -inf * log2(INFINITY) = inf * log2(-INFINITY) = nan * log2(NAN) = nan * * */ |
Fortran interface:
REAL(8) :: X = 0.5
PRINT*, LOG2(X)
!
! OUTPUT
! -1.000000000000000
!
Parent topic: Exponential and Logarithmic Functions