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188 lines
4.9 KiB
188 lines
4.9 KiB
/***
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*asincos.c - inverse sin, cos
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*
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* Copyright (c) 1991-2001, Microsoft Corporation. All rights reserved.
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*
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*Purpose:
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*
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*Revision History:
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* 8-15-91 GDP written
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* 12-26-91 GDP support IEEE exceptions
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* 06-23-92 GDP asin(denormal) now raises underflow exception
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* 02-06-95 JWM Mac merge
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* 10-07-97 RDL Added IA64.
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*
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*******************************************************************************/
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#include <math.h>
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#include <trans.h>
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#if defined(_M_IA64)
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#pragma function(asin, acos)
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#endif
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static double _asincos(double x, int flag);
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static double const a[2] = {
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0.0,
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0.78539816339744830962
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};
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static double const b[2] = {
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1.57079632679489661923,
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0.78539816339744830962
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};
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static double const EPS = 1.05367121277235079465e-8; /* 2^(-53/2) */
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/* constants for the rational approximation */
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static double const p1 = -0.27368494524164255994e+2;
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static double const p2 = 0.57208227877891731407e+2;
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static double const p3 = -0.39688862997504877339e+2;
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static double const p4 = 0.10152522233806463645e+2;
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static double const p5 = -0.69674573447350646411e+0;
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static double const q0 = -0.16421096714498560795e+3;
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static double const q1 = 0.41714430248260412556e+3;
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static double const q2 = -0.38186303361750149284e+3;
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static double const q3 = 0.15095270841030604719e+3;
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static double const q4 = -0.23823859153670238830e+2;
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/* q5 = 1 is not needed (avoid myltiplying by 1) */
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#define Q(g) (((((g + q4) * g + q3) * g + q2) * g + q1) * g + q0)
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#define R(g) (((((p5 * g + p4) * g + p3) * g + p2) * g + p1) * g) / Q(g)
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/***
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*double asin(double x) - inverse sin
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*double acos(double x) - inverse cos
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*
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*Purpose:
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* Compute arc sin, arc cos.
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* The algorithm (reduction / rational approximation) is
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* taken from Cody & Waite.
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*
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*Entry:
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*
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*Exit:
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*
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*Exceptions:
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* P, I
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* (denormals are accepted)
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*******************************************************************************/
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double asin(double x)
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{
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return _asincos(x,0);
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}
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double acos(double x)
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{
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return _asincos(x,1);
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}
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static double _asincos(double x, int flag)
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{
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uintptr_t savedcw;
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double qnan;
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int who;
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double y,result;
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double g;
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int i;
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/* save user fp control word */
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savedcw = _maskfp();
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if (flag) {
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who = OP_ACOS;
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qnan = QNAN_ACOS;
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}
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else {
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who = OP_ASIN;
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qnan = QNAN_ASIN;
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}
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/* check for infinity or NAN */
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if (IS_D_SPECIAL(x)){
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switch(_sptype(x)) {
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case T_PINF:
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case T_NINF:
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return _except1(FP_I,who,x,qnan,savedcw);
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case T_QNAN:
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return _handle_qnan1(who,x,savedcw);
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default: //T_SNAN
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return _except1(FP_I,who,x,_s2qnan(x),savedcw);
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}
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}
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// do test for zero after making sure that x is not special
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// because the compiler does not handle NaNs for the time
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if (x == 0.0 && !flag) {
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RETURN(savedcw, x);
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}
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y = ABS(x);
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if (y < EPS) {
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i = flag;
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result = y;
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if (IS_D_DENORM(result)) {
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// this should only happen for sin(denorm). Use x as a result
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return _except1(FP_U | FP_P,who,x,_add_exp(x, IEEE_ADJUST),savedcw);
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}
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}
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else {
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if (y > .5) {
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i = 1-flag;
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if (y > 1.0) {
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return _except1(FP_I,who,x,qnan,savedcw);
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}
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else if (y == 1.0) {
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/* separate case to avoid domain error in sqrt */
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if (flag && x >= 0.0) {
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//
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// acos(1.0) is exactly computed as 0.0
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//
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RETURN(savedcw, 0.0);
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}
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y = 0.0;
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g = 0.0;
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}
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else {
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/* now even if y is as close to 1 as possible,
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* 1-y is still not a denormal.
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* e.g. for y=3fefffffffffffff, 1-y is about 10^(-16)
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* So we can speed up division
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*/
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g = _add_exp(1.0 - y,-1);
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/* g and sqrt(g) are not denomrals either,
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* even in the worst case
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* So we can speed up multiplication
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*/
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y = _add_exp(-_fsqrt(g),1);
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}
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}
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else {
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/* y <= .5 */
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i = flag;
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g = y*y;
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}
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result = y + y * R(g);
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}
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if (flag == 0) {
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/* compute asin */
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if (i) {
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/* a[i] is non zero if i is nonzero */
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result = (a[i] + result) + a[i];
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}
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if (x < 0)
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result = -result;
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}
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else {
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/* compute acos */
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if (x < 0)
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result = (b[i] + result) + b[i];
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else
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result = (a[i] - result) + a[i];
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}
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RETURN_INEXACT1 (who,x,result,savedcw);
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}
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