1*05a0b428SJohn Marino /* $OpenBSD: s_ctanl.c,v 1.3 2011/07/20 21:02:51 martynas Exp $ */
2*05a0b428SJohn Marino
3*05a0b428SJohn Marino /*
4*05a0b428SJohn Marino * Copyright (c) 2008 Stephen L. Moshier <steve@moshier.net>
5*05a0b428SJohn Marino *
6*05a0b428SJohn Marino * Permission to use, copy, modify, and distribute this software for any
7*05a0b428SJohn Marino * purpose with or without fee is hereby granted, provided that the above
8*05a0b428SJohn Marino * copyright notice and this permission notice appear in all copies.
9*05a0b428SJohn Marino *
10*05a0b428SJohn Marino * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
11*05a0b428SJohn Marino * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
12*05a0b428SJohn Marino * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
13*05a0b428SJohn Marino * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
14*05a0b428SJohn Marino * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
15*05a0b428SJohn Marino * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
16*05a0b428SJohn Marino * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
17*05a0b428SJohn Marino */
18*05a0b428SJohn Marino
19*05a0b428SJohn Marino /* ctanl()
20*05a0b428SJohn Marino *
21*05a0b428SJohn Marino * Complex circular tangent
22*05a0b428SJohn Marino *
23*05a0b428SJohn Marino *
24*05a0b428SJohn Marino *
25*05a0b428SJohn Marino * SYNOPSIS:
26*05a0b428SJohn Marino *
27*05a0b428SJohn Marino * long double complex ctanl();
28*05a0b428SJohn Marino * long double complex z, w;
29*05a0b428SJohn Marino *
30*05a0b428SJohn Marino * w = ctanl( z );
31*05a0b428SJohn Marino *
32*05a0b428SJohn Marino *
33*05a0b428SJohn Marino *
34*05a0b428SJohn Marino * DESCRIPTION:
35*05a0b428SJohn Marino *
36*05a0b428SJohn Marino * If
37*05a0b428SJohn Marino * z = x + iy,
38*05a0b428SJohn Marino *
39*05a0b428SJohn Marino * then
40*05a0b428SJohn Marino *
41*05a0b428SJohn Marino * sin 2x + i sinh 2y
42*05a0b428SJohn Marino * w = --------------------.
43*05a0b428SJohn Marino * cos 2x + cosh 2y
44*05a0b428SJohn Marino *
45*05a0b428SJohn Marino * On the real axis the denominator is zero at odd multiples
46*05a0b428SJohn Marino * of PI/2. The denominator is evaluated by its Taylor
47*05a0b428SJohn Marino * series near these points.
48*05a0b428SJohn Marino *
49*05a0b428SJohn Marino *
50*05a0b428SJohn Marino * ACCURACY:
51*05a0b428SJohn Marino *
52*05a0b428SJohn Marino * Relative error:
53*05a0b428SJohn Marino * arithmetic domain # trials peak rms
54*05a0b428SJohn Marino * DEC -10,+10 5200 7.1e-17 1.6e-17
55*05a0b428SJohn Marino * IEEE -10,+10 30000 7.2e-16 1.2e-16
56*05a0b428SJohn Marino * Also tested by ctan * ccot = 1 and catan(ctan(z)) = z.
57*05a0b428SJohn Marino */
58*05a0b428SJohn Marino
59*05a0b428SJohn Marino #include <complex.h>
60*05a0b428SJohn Marino #include <float.h>
61*05a0b428SJohn Marino #include <math.h>
62*05a0b428SJohn Marino
63*05a0b428SJohn Marino #if LDBL_MANT_DIG == 64
64*05a0b428SJohn Marino static const long double MACHEPL= 5.42101086242752217003726400434970855712890625E-20L;
65*05a0b428SJohn Marino #elif LDBL_MANT_DIG == 113
66*05a0b428SJohn Marino static const long double MACHEPL = 9.629649721936179265279889712924636592690508e-35L;
67*05a0b428SJohn Marino #endif
68*05a0b428SJohn Marino
69*05a0b428SJohn Marino static const long double PIL = 3.141592653589793238462643383279502884197169L;
70*05a0b428SJohn Marino static const long double DP1 = 3.14159265358979323829596852490908531763125L;
71*05a0b428SJohn Marino static const long double DP2 = 1.6667485837041756656403424829301998703007e-19L;
72*05a0b428SJohn Marino static const long double DP3 = 1.8830410776607851167459095484560349402753e-39L;
73*05a0b428SJohn Marino
74*05a0b428SJohn Marino static long double
redupil(long double x)75*05a0b428SJohn Marino redupil(long double x)
76*05a0b428SJohn Marino {
77*05a0b428SJohn Marino long double t;
78*05a0b428SJohn Marino long i;
79*05a0b428SJohn Marino
80*05a0b428SJohn Marino t = x / PIL;
81*05a0b428SJohn Marino if (t >= 0.0L)
82*05a0b428SJohn Marino t += 0.5L;
83*05a0b428SJohn Marino else
84*05a0b428SJohn Marino t -= 0.5L;
85*05a0b428SJohn Marino
86*05a0b428SJohn Marino i = t; /* the multiple */
87*05a0b428SJohn Marino t = i;
88*05a0b428SJohn Marino t = ((x - t * DP1) - t * DP2) - t * DP3;
89*05a0b428SJohn Marino return (t);
90*05a0b428SJohn Marino }
91*05a0b428SJohn Marino
92*05a0b428SJohn Marino static long double
ctansl(long double complex z)93*05a0b428SJohn Marino ctansl(long double complex z)
94*05a0b428SJohn Marino {
95*05a0b428SJohn Marino long double f, x, x2, y, y2, rn, t;
96*05a0b428SJohn Marino long double d;
97*05a0b428SJohn Marino
98*05a0b428SJohn Marino x = fabsl(2.0L * creall(z));
99*05a0b428SJohn Marino y = fabsl(2.0L * cimagl(z));
100*05a0b428SJohn Marino
101*05a0b428SJohn Marino x = redupil(x);
102*05a0b428SJohn Marino
103*05a0b428SJohn Marino x = x * x;
104*05a0b428SJohn Marino y = y * y;
105*05a0b428SJohn Marino x2 = 1.0L;
106*05a0b428SJohn Marino y2 = 1.0L;
107*05a0b428SJohn Marino f = 1.0L;
108*05a0b428SJohn Marino rn = 0.0L;
109*05a0b428SJohn Marino d = 0.0L;
110*05a0b428SJohn Marino do {
111*05a0b428SJohn Marino rn += 1.0L;
112*05a0b428SJohn Marino f *= rn;
113*05a0b428SJohn Marino rn += 1.0L;
114*05a0b428SJohn Marino f *= rn;
115*05a0b428SJohn Marino x2 *= x;
116*05a0b428SJohn Marino y2 *= y;
117*05a0b428SJohn Marino t = y2 + x2;
118*05a0b428SJohn Marino t /= f;
119*05a0b428SJohn Marino d += t;
120*05a0b428SJohn Marino
121*05a0b428SJohn Marino rn += 1.0L;
122*05a0b428SJohn Marino f *= rn;
123*05a0b428SJohn Marino rn += 1.0L;
124*05a0b428SJohn Marino f *= rn;
125*05a0b428SJohn Marino x2 *= x;
126*05a0b428SJohn Marino y2 *= y;
127*05a0b428SJohn Marino t = y2 - x2;
128*05a0b428SJohn Marino t /= f;
129*05a0b428SJohn Marino d += t;
130*05a0b428SJohn Marino }
131*05a0b428SJohn Marino while (fabsl(t/d) > MACHEPL);
132*05a0b428SJohn Marino return(d);
133*05a0b428SJohn Marino }
134*05a0b428SJohn Marino
135*05a0b428SJohn Marino long double complex
ctanl(long double complex z)136*05a0b428SJohn Marino ctanl(long double complex z)
137*05a0b428SJohn Marino {
138*05a0b428SJohn Marino long double complex w;
139*05a0b428SJohn Marino long double d, x, y;
140*05a0b428SJohn Marino
141*05a0b428SJohn Marino x = creall(z);
142*05a0b428SJohn Marino y = cimagl(z);
143*05a0b428SJohn Marino d = cosl(2.0L * x) + coshl(2.0L * y);
144*05a0b428SJohn Marino
145*05a0b428SJohn Marino if (fabsl(d) < 0.25L) {
146*05a0b428SJohn Marino d = fabsl(d);
147*05a0b428SJohn Marino d = ctansl(z);
148*05a0b428SJohn Marino }
149*05a0b428SJohn Marino if (d == 0.0L) {
150*05a0b428SJohn Marino /*mtherr( "ctan", OVERFLOW );*/
151*05a0b428SJohn Marino w = LDBL_MAX + LDBL_MAX * I;
152*05a0b428SJohn Marino return (w);
153*05a0b428SJohn Marino }
154*05a0b428SJohn Marino
155*05a0b428SJohn Marino w = sinl(2.0L * x) / d + (sinhl(2.0L * y) / d) * I;
156*05a0b428SJohn Marino return (w);
157*05a0b428SJohn Marino }
158