xref: /titanic_50/usr/src/lib/libm/common/C/__sincos.c (revision cffcfaee1e6b29ef9ceb7d80e4e053ffd029906b)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2011 Nexenta Systems, Inc.  All rights reserved.
23  */
24 /*
25  * Copyright 2005 Sun Microsystems, Inc.  All rights reserved.
26  * Use is subject to license terms.
27  */
28 
29 /* INDENT OFF */
30 /*
31  * double __k_sincos(double x, double y, double *c);
32  * kernel sincos function on [-pi/4, pi/4], pi/4 ~ 0.785398164
33  * Input x is assumed to be bounded by ~pi/4 in magnitude.
34  * Input y is the tail of x.
35  * return sin(x) with *c = cos(x)
36  *
37  * Accurate Table look-up algorithm by K.C. Ng, May, 1995.
38  *
39  * 1. Reduce x to x>0 by sin(-x)=-sin(x),cos(-x)=cos(x).
40  * 2. For 0<= x < pi/4, let i = (64*x chopped)-10. Let d = x - a[i], where
41  *    a[i] is a double that is close to (i+10.5)/64 and such that
42  *    sin(a[i]) and cos(a[i]) is close to a double (with error less
43  *    than 2**-8 ulp). Then
44  *	cos(x) = cos(a[i]+d) = cos(a[i])cos(d) - sin(a[i])*sin(d)
45  *	       = TBL_cos_a[i]*(1+QQ1*d^2+QQ2*d^4) -
46  *			TBL_sin_a[i]*(d+PP1*d^3+PP2*d^5)
47  *	       = TBL_cos_a[i] + (TBL_cos_a[i]*d^2*(QQ1+QQ2*d^2) -
48  *			TBL_sin_a[i]*(d+PP1*d^3+PP2*d^5))
49  *	sin(x) = sin(a[i]+d) = sin(a[i])cos(d) + cos(a[i])*sin(d)
50  *	       = TBL_sin_a[i]*(1+QQ1*d^2+QQ2*d^4) +
51  *			TBL_cos_a[i]*(d+PP1*d^3+PP2*d^5)
52  *	       = TBL_sin_a[i] + (TBL_sin_a[i]*d^2*(QQ1+QQ2*d^2) +
53  *			TBL_cos_a[i]*(d+PP1*d^3+PP2*d^5))
54  *
55  *    For |y| less than 10.5/64 = 0.1640625, use
56  *	sin(y) = y + y^3*(p1+y^2*(p2+y^2*(p3+y^2*p4)))
57  *	cos(y) = 1 + y^2*(q1+y^2*(q2+y^2*(q3+y^2*q4)))
58  *
59  *    For |y| less than 0.008, use
60  *	sin(y) = y + y^3*(pp1+y^2*pp2)
61  *	cos(y) = 1 + y^2*(qq1+y^2*qq2)
62  *
63  * Accuracy:
64  *	TRIG(x) returns trig(x) nearly rounded (less than 1 ulp)
65  */
66 
67 #include "libm.h"
68 
69 static const double sc[] = {
70 /* ONE	= */  1.0,
71 /* NONE	= */ -1.0,
72 /*
73  * |sin(x) - (x+pp1*x^3+pp2*x^5)| <= 2^-58.79 for |x| < 0.008
74  */
75 /* PP1	= */ -0.166666666666316558867252052378889521480627858683055567,
76 /* PP2	= */   .008333315652997472323564894248466758248475374977974017927,
77 /*
78  * |(sin(x) - (x+p1*x^3+...+p4*x^9)|
79  * |------------------------------ | <= 2^-57.63 for |x| < 0.1953125
80  * |                 x             |
81  */
82 /* P1  	= */ -1.666666666666629669805215138920301589656e-0001,
83 /* P2  	= */  8.333333332390951295683993455280336376663e-0003,
84 /* P3  	= */ -1.984126237997976692791551778230098403960e-0004,
85 /* P4  	= */  2.753403624854277237649987622848330351110e-0006,
86 /*
87  * |cos(x) - (1+qq1*x^2+qq2*x^4)| <= 2^-55.99 for |x| <= 0.008 (0x3f80624d)
88  */
89 /* QQ1	= */ -0.4999999999975492381842911981948418542742729,
90 /* QQ2	= */  0.041666542904352059294545209158357640398771740,
91 /*
92  * |cos(x) - (1+q1*x^2+...+q4*x^8)| <= 2^-55.86 for |x| <= 0.1640625 (10.5/64)
93  */
94 /* Q1  	= */ -0.5,
95 /* Q2  	= */  4.166666666500350703680945520860748617445e-0002,
96 /* Q3  	= */ -1.388888596436972210694266290577848696006e-0003,
97 /* Q4  	= */  2.478563078858589473679519517892953492192e-0005,
98 };
99 /* INDENT ON */
100 
101 #define	ONE	sc[0]
102 #define	NONE	sc[1]
103 #define	PP1	sc[2]
104 #define	PP2	sc[3]
105 #define	P1	sc[4]
106 #define	P2	sc[5]
107 #define	P3	sc[6]
108 #define	P4	sc[7]
109 #define	QQ1	sc[8]
110 #define	QQ2	sc[9]
111 #define	Q1	sc[10]
112 #define	Q2	sc[11]
113 #define	Q3	sc[12]
114 #define	Q4	sc[13]
115 
116 extern const double _TBL_sincos[], _TBL_sincosx[];
117 
118 double
119 __k_sincos(double x, double y, double *c) {
120 	double	z, w, s, v, p, q;
121 	int	i, j, n, hx, ix;
122 
123 	hx = ((int *)&x)[HIWORD];
124 	ix = hx & ~0x80000000;
125 
126 	if (ix <= 0x3fc50000) {	/* |x| < 10.5/64 = 0.164062500 */
127 		if (ix < 0x3e400000) {	/* |x| < 2**-27 */
128 			if ((int)x == 0)
129 				*c = ONE;
130 			return (x + y);
131 		} else {
132 			z = x * x;
133 			if (ix < 0x3f800000) {	/* |x| < 0.008 */
134 				q = z * (QQ1 + z * QQ2);
135 				p = (x * z) * (PP1 + z * PP2) + y;
136 			} else {
137 				q = z * ((Q1 + z * Q2) + (z * z) * (Q3 +
138 				    z * Q4));
139 				p = (x * z) * ((P1 + z * P2) + (z * z) * (P3 +
140 				    z * P4)) + y;
141 			}
142 			*c = ONE + q;
143 			return (x + p);
144 		}
145 	} else {		/* 0.164062500 < |x| < ~pi/4 */
146 		n = ix >> 20;
147 		i = (((ix >> 12) & 0xff) | 0x100) >> (0x401 - n);
148 		j = i - 10;
149 		if (hx < 0)
150 			v = -y - (_TBL_sincosx[j] + x);
151 		else
152 			v = y - (_TBL_sincosx[j] - x);
153 		s = v * v;
154 		j <<= 1;
155 		w = _TBL_sincos[j];
156 		z = _TBL_sincos[j+1];
157 		p = s * (PP1 + s * PP2);
158 		q = s * (QQ1 + s * QQ2);
159 		p = v + v * p;
160 		*c = z - (w * p - z * q);
161 		s = w * q + z * p;
162 		return ((hx >= 0)? w + s : -(w + s));
163 	}
164 }
165