sinf.c
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/**************************************************************************
* *
* Copyright (C) 1994, Silicon Graphics, Inc. *
* *
* These coded instructions, statements, and computer programs contain *
* unpublished proprietary information of Silicon Graphics, Inc., and *
* are protected by Federal copyright law. They may not be disclosed *
* to third parties or copied or duplicated in any form, in whole or *
* in part, without the prior written consent of Silicon Graphics, Inc. *
* *
**************************************************************************/
#include "guint.h"
/* ====================================================================
* ====================================================================
*
* Module: fsin.c
* $Revision: 1.4 $
* $Date: 2003/07/15 03:12:04 $
* $Author: blythe $
* $Source: /root/leakn64/depot/rf/sw/bbplayer/libultra/monegi/gu/sinf.c,v $
*
* Revision history:
* 09-Jun-93 - Original Version
*
* Description: source code for fsin function
*
* ====================================================================
* ====================================================================
*/
#ifdef __GNUC__
float sinf(float x) __attribute__ ((weak, alias ("__sinf")));
#endif
#pragma weak fsin = __sinf
#pragma weak sinf = __sinf
#define fsin __sinf
/* coefficients for polynomial approximation of sin on +/- pi/2 */
static const du P[] =
{
{{0x3ff00000, 0x00000000}},
{{0xbfc55554, 0xbc83656d}},
{{0x3f8110ed, 0x3804c2a0}},
{{0xbf29f6ff, 0xeea56814}},
{{0x3ec5dbdf, 0x0e314bfe}},
};
static const du rpi =
{{0x3fd45f30, 0x6dc9c883}};
static const du pihi =
{{0x400921fb, 0x50000000}};
static const du pilo =
{{0x3e6110b4, 0x611a6263}};
static const fu zero = {0x00000000};
/* ====================================================================
*
* FunctionName fsin
*
* Description computes sine of arg
*
* ====================================================================
*/
float
fsin( float x )
{
double dx, xsq, poly;
double dn;
int n;
double result;
int ix, xpt;
ix = *(int *)&x;
xpt = (ix >> 22);
xpt &= 0x1ff;
/* xpt is exponent(x) + 1 bit of mantissa */
if ( xpt < 0xff )
{
/* |x| < 1.5 */
dx = x;
if ( xpt >= 0xe6 )
{
/* |x| >= 2^(-12) */
/* compute sin(x) with a standard polynomial approximation */
xsq = dx*dx;
poly = ((P[4].d*xsq + P[3].d)*xsq + P[2].d)*xsq + P[1].d;
result = dx + (dx*xsq)*poly;
return ( (float)result );
}
return ( x );
}
if ( xpt < 0x136 )
{
/* |x| < 2^28 */
dx = x;
/* reduce argument to +/- pi/2 */
dn = dx*rpi.d;
n = ROUND(dn);
dn = n;
dx = dx - dn*pihi.d;
dx = dx - dn*pilo.d; /* dx = x - n*pi */
/* compute sin(dx) as before, negating result if n is odd
*/
xsq = dx*dx;
poly = ((P[4].d*xsq + P[3].d)*xsq + P[2].d)*xsq + P[1].d;
result = dx + (dx*xsq)*poly;
if ( (n & 1) == 0 )
return ( (float)result );
return ( -(float)result );
}
if ( x != x )
{
/* x is a NaN; return a quiet NaN */
#ifdef _IP_NAN_SETS_ERRNO
*__errnoaddr = EDOM;
#endif
return ( __libm_qnan_f );
}
/* just give up and return 0.0 */
return ( zero.f );
}