Leaked source code of windows server 2003
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131 lines
3.2 KiB

/***
*log.c - logarithmic functions
*
* Copyright (c) 1991-2001, Microsoft Corporation. All rights reserved.
*
*Purpose:
* Compute log(x) and log10(x)
*
*Revision History:
* 8-15-91 GDP written
* 12-20-91 GDP support IEEE exceptions
* 10-07-97 RDL Added IA64.
*
*******************************************************************************/
#include <math.h>
#include <trans.h>
#if defined(_M_IA64)
#pragma function(log, log10)
#endif
static double _log_hlp( double x, int flag);
/* constants */
static double const c0 = 0.70710678118654752440; /* sqrt(0.5) */
static double const c1 = 0.69335937500000000000;
static double const c2 = -2.121944400546905827679e-4;
static double const c3 = 0.43429448190325182765;
/* coefficients for rational approximation */
static double const a0 = -0.64124943423745581147e2 ;
static double const a1 = 0.16383943563021534222e2 ;
static double const a2 = -0.78956112887491257267e0 ;
static double const b0 = -0.76949932108494879777e3 ;
static double const b1 = 0.31203222091924532844e3 ;
static double const b2 = -0.35667977739034646171e2 ;
/* b3=1.0 is not used -avoid multiplication by 1.0 */
#define A(w) (((w) * a2 + a1) * (w) + a0)
#define B(w) ((((w) + b2) * (w) + b1) * (w) + b0)
/***
*double log(double x) - natural logarithm
*double log10(double x) - base-10 logarithm
*
*Purpose:
* Compute the natural and base-10 logarithm of a number.
* The algorithm (reduction / rational approximation) is
* taken from Cody & Waite.
*
*Entry:
*
*Exit:
*
*Exceptions:
* I P Z
*******************************************************************************/
double log10(double x)
{
return(_log_hlp(x,OP_LOG10));
}
double log(double x)
{
return(_log_hlp(x,OP_LOG));
}
static double _log_hlp(double x, int opcode)
{
uintptr_t savedcw;
int n;
double f,result;
double z,w,znum,zden;
double rz,rzsq;
/* save user fp control word */
savedcw = _maskfp();
/* check for infinity or NAN */
if (IS_D_SPECIAL(x)){
switch (_sptype(x)) {
case T_PINF:
RETURN(savedcw, x);
case T_QNAN:
return _handle_qnan1(opcode, x, savedcw);
case T_SNAN:
return _except1(FP_I, opcode, x, _s2qnan(x), savedcw);
}
/* NINF will be handled in the x<0 case */
}
if (x <= 0.0) {
double qnan;
if (x == 0.0) {
return _except1(FP_Z,opcode,x,-D_INF,savedcw);
}
qnan = (opcode == OP_LOG ? QNAN_LOG : QNAN_LOG10);
return _except1(FP_I,opcode,x,qnan,savedcw);
}
if (x == 1.0) {
// no precision ecxeption
RETURN(savedcw, 0.0);
}
f = _decomp(x, &n);
if (f > c0) {
znum = (f - 0.5) - 0.5;
zden = f * 0.5 + 0.5;
}
else {
n--;
znum = f - 0.5;
zden = znum * 0.5 + 0.5;
}
z = znum / zden;
w = z * z;
rzsq = w * A(w)/B(w) ;
rz = z + z*rzsq;
result = (n * c2 + rz) + n * c1;
if (opcode == OP_LOG10) {
result *= c3;
}
RETURN_INEXACT1(opcode,x,result,savedcw);
}