ref: 9e8fc02528d531c922e75395b5a7037904445d4b
dir: /sys/src/ape/lib/ap/math/log.c/
/*
log returns the natural logarithm of its floating
point argument.
The coefficients are #2705 from Hart & Cheney. (19.38D)
It calls frexp.
*/
#include <math.h>
#include <errno.h>
#define Log2 0.693147180559945309e0
#define Ln2o1 1.4426950408889634073599
#define Ln10o1 .4342944819032518276511
#define Sqrto2 0.707106781186547524e0
#define P0 -.240139179559210510e2
#define P1 0.309572928215376501e2
#define P2 -.963769093377840513e1
#define P3 0.421087371217979714e0
#define Q0 -.120069589779605255e2
#define Q1 0.194809660700889731e2
#define Q2 -.891110902798312337e1
double
log(double arg)
{
double x, z, zsq, temp;
int exp;
if(arg <= 0) {
errno = (arg==0)? ERANGE : EDOM;
return -HUGE_VAL;
}
x = frexp(arg, &exp);
while(x < 0.5) {
x *= 2;
exp--;
}
if(x < Sqrto2) {
x *= 2;
exp--;
}
z = (x-1) / (x+1);
zsq = z*z;
temp = ((P3*zsq + P2)*zsq + P1)*zsq + P0;
temp = temp/(((zsq + Q2)*zsq + Q1)*zsq + Q0);
temp = temp*z + exp*Log2;
return temp;
}
double
log10(double arg)
{
if(arg <= 0) {
errno = (arg==0)? ERANGE : EDOM;
return -HUGE_VAL;
}
return log(arg) * Ln10o1;
}
double
log2(double arg)
{
if(arg <= 0) {
errno = (arg==0)? ERANGE : EDOM;
return -HUGE_VAL;
}
return log(arg) * Ln2o1;
}