s_tan.c source code [glibc/sysdeps/ieee754/dbl-64/s_tan.c]

1	/*
2	* IBM Accurate Mathematical Library
3	* written by International Business Machines Corp.
4	* Copyright (C) 2001-2022 Free Software Foundation, Inc.
5	*
6	* This program is free software; you can redistribute it and/or modify
7	* it under the terms of the GNU Lesser General Public License as published by
8	* the Free Software Foundation; either version 2.1 of the License, or
9	* (at your option) any later version.
10	*
11	* This program is distributed in the hope that it will be useful,
12	* but WITHOUT ANY WARRANTY; without even the implied warranty of
13	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14	* GNU Lesser General Public License for more details.
15	*
16	* You should have received a copy of the GNU Lesser General Public License
17	* along with this program; if not, see <https://www.gnu.org/licenses/>.
18	*/
19	/*******************************************************************/
20	/ MODULE_NAME: utan.c /
21	/ /
22	/ FUNCTIONS: utan /
23	/ /
24	/ FILES NEEDED:dla.h endian.h mydefs.h utan.h /
25	/ branred.c /
26	/ utan.tbl /
27	/ /
28	/*******************************************************************/
29
30	#include <errno.h>
31	#include <float.h>
32	#include "endian.h"
33	#include <dla.h>
34	#include "mydefs.h"
35	#include <math.h>
36	#include <math_private.h>
37	#include <fenv_private.h>
38	#include <math-underflow.h>
39	#include <libm-alias-double.h>
40	#include <fenv.h>
41
42	#ifndef SECTION
43	# define SECTION
44	#endif
45
46	/ tan with max ULP of ~0.619 based on random sampling. /
47	double
48	SECTION
49	__tan (double x)
50	{
51	#include "utan.h"
52	#include "utan.tbl"
53
54	int ux, i, n;
55	double a, da, a2, b, db, c, dc, fi, gi, pz,
56	s, sy, t, t1, t2, t3, t4, w, x2, xn, y, ya,
57	yya, z0, z, z2;
58	mynumber num, v;
59
60	double retval;
61
62	int __branred (double, double , double* *);
63
64	SET_RESTORE_ROUND_53BIT (FE_TONEAREST);
65
66	/ x=+-INF, x=NaN /
67	num.d = x;
68	ux = num.i[HIGH_HALF];
69	if ((ux & `0x7ff00000`) == `0x7ff00000`)
70	{
71	if ((ux & `0x7fffffff`) == `0x7ff00000`)
72	__set_errno (EDOM);
73	retval = x - x;
74	goto ret;
75	}
76
77	w = (x < `0.0`) ? -x : x;
78
79	/ (I) The case abs(x) <= 1.259e-8 /
80	if (w <= g1.d)
81	{
82	math_check_force_underflow_nonneg (w);
83	retval = x;
84	goto ret;
85	}
86
87	/ (II) The case 1.259e-8 < abs(x) <= 0.0608 /
88	if (w <= g2.d)
89	{
90	x2 = x * x;
91
92	t2 = d9.d + x2 * d11.d;
93	t2 = d7.d + x2 * t2;
94	t2 = d5.d + x2 * t2;
95	t2 = d3.d + x2 * t2;
96	t2 = x x2;
97
98	y = x + t2;
99	retval = y;
100	/ Max ULP is 0.504. /
101	goto ret;
102	}
103
104	/ (III) The case 0.0608 < abs(x) <= 0.787 /
105	if (w <= g3.d)
106	{
107	i = ((int) (mfftnhf.d + `256` * w));
108	z = w - xfg[i][`0`].d;
109	z2 = z * z;
110	s = (x < `0.0`) ? -`1` : `1`;
111	pz = z + z * z2 * (e0.d + z2 * e1.d);
112	fi = xfg[i][`1`].d;
113	gi = xfg[i][`2`].d;
114	t2 = pz * (gi + fi) / (gi - pz);
115	y = fi + t2;
116	retval = (s * y);
117	/ Max ULP is 0.60. /
118	goto ret;
119	}
120
121	/ (---) The case 0.787 < abs(x) <= 25 /
122	if (w <= g4.d)
123	{
124	/ Range reduction by algorithm i /
125	t = (x * hpinv.d + toint.d);
126	xn = t - toint.d;
127	v.d = t;
128	t1 = (x - xn * mp1.d) - xn * mp2.d;
129	n = v.i[LOW_HALF] & `0x00000001`;
130	da = xn * mp3.d;
131	a = t1 - da;
132	da = (t1 - a) - da;
133	if (a < `0.0`)
134	{
135	ya = -a;
136	yya = -da;
137	sy = -`1`;
138	}
139	else
140	{
141	ya = a;
142	yya = da;
143	sy = `1`;
144	}
145
146	/ (VI) The case 0.787 < abs(x) <= 25, 0 < abs(y) <= 0.0608 /
147	if (ya <= gy2.d)
148	{
149	a2 = a * a;
150	t2 = d9.d + a2 * d11.d;
151	t2 = d7.d + a2 * t2;
152	t2 = d5.d + a2 * t2;
153	t2 = d3.d + a2 * t2;
154	t2 = da + a * a2 * t2;
155
156	if (n)
157	{
158	/ -cot /
159	EADD (a, t2, b, db);
160	DIV2 (`1.0`, `0.0`, b, db, c, dc, t1, t2, t3, t4);
161	y = c + dc;
162	retval = (-y);
163	/ Max ULP is 0.506. /
164	goto ret;
165	}
166	else
167	{
168	/ tan /
169	y = a + t2;
170	retval = y;
171	/ Max ULP is 0.506. /
172	goto ret;
173	}
174	}
175
176	/ (VII) The case 0.787 < abs(x) <= 25, 0.0608 < abs(y) <= 0.787 /
177
178	i = ((int) (mfftnhf.d + `256` * ya));
179	z = (z0 = (ya - xfg[i][`0`].d)) + yya;
180	z2 = z * z;
181	pz = z + z * z2 * (e0.d + z2 * e1.d);
182	fi = xfg[i][`1`].d;
183	gi = xfg[i][`2`].d;
184
185	if (n)
186	{
187	/ -cot /
188	t2 = pz * (fi + gi) / (fi + pz);
189	y = gi - t2;
190	retval = (-sy * y);
191	/ Max ULP is 0.62. /
192	goto ret;
193	}
194	else
195	{
196	/ tan /
197	t2 = pz * (gi + fi) / (gi - pz);
198	y = fi + t2;
199	retval = (sy * y);
200	/ Max ULP is 0.62. /
201	goto ret;
202	}
203	}
204
205	/ (---) The case 25 < abs(x) <= 1e8 /
206	if (w <= g5.d)
207	{
208	/ Range reduction by algorithm ii /
209	t = (x * hpinv.d + toint.d);
210	xn = t - toint.d;
211	v.d = t;
212	t1 = (x - xn * mp1.d) - xn * mp2.d;
213	n = v.i[LOW_HALF] & `0x00000001`;
214	da = xn * pp3.d;
215	t = t1 - da;
216	da = (t1 - t) - da;
217	t1 = xn * pp4.d;
218	a = t - t1;
219	da = ((t - a) - t1) + da;
220	EADD (a, da, t1, t2);
221	a = t1;
222	da = t2;
223	if (a < `0.0`)
224	{
225	ya = -a;
226	yya = -da;
227	sy = -`1`;
228	}
229	else
230	{
231	ya = a;
232	yya = da;
233	sy = `1`;
234	}
235
236	/ (VIII) The case 25 < abs(x) <= 1e8, 0 < abs(y) <= 0.0608 /
237	if (ya <= gy2.d)
238	{
239	a2 = a * a;
240	t2 = d9.d + a2 * d11.d;
241	t2 = d7.d + a2 * t2;
242	t2 = d5.d + a2 * t2;
243	t2 = d3.d + a2 * t2;
244	t2 = da + a * a2 * t2;
245
246	if (n)
247	{
248	/ -cot /
249	EADD (a, t2, b, db);
250	DIV2 (`1.0`, `0.0`, b, db, c, dc, t1, t2, t3, t4);
251	y = c + dc;
252	retval = (-y);
253	/ Max ULP is 0.506. /
254	goto ret;
255	}
256	else
257	{
258	/ tan /
259	y = a + t2;
260	retval = y;
261	/ Max ULP is 0.506. /
262	goto ret;
263	}
264	}
265
266	/ (IX) The case 25 < abs(x) <= 1e8, 0.0608 < abs(y) <= 0.787 /
267	i = ((int) (mfftnhf.d + `256` * ya));
268	z = (z0 = (ya - xfg[i][`0`].d)) + yya;
269	z2 = z * z;
270	pz = z + z * z2 * (e0.d + z2 * e1.d);
271	fi = xfg[i][`1`].d;
272	gi = xfg[i][`2`].d;
273
274	if (n)
275	{
276	/ -cot /
277	t2 = pz * (fi + gi) / (fi + pz);
278	y = gi - t2;
279	retval = (-sy * y);
280	/ Max ULP is 0.62. /
281	goto ret;
282	}
283	else
284	{
285	/ tan /
286	t2 = pz * (gi + fi) / (gi - pz);
287	y = fi + t2;
288	retval = (sy * y);
289	/ Max ULP is 0.62. /
290	goto ret;
291	}
292	}
293
294	/ (---) The case 1e8 < abs(x) < 2*1024 /*
295	/ Range reduction by algorithm iii /
296	n = (__branred (x, &a, &da)) & `0x00000001`;
297	EADD (a, da, t1, t2);
298	a = t1;
299	da = t2;
300	if (a < `0.0`)
301	{
302	ya = -a;
303	yya = -da;
304	sy = -`1`;
305	}
306	else
307	{
308	ya = a;
309	yya = da;
310	sy = `1`;
311	}
312
313	/ (X) The case 1e8 < abs(x) < 2*1024, 0 < abs(y) <= 0.0608 /*
314	if (ya <= gy2.d)
315	{
316	a2 = a * a;
317	t2 = d9.d + a2 * d11.d;
318	t2 = d7.d + a2 * t2;
319	t2 = d5.d + a2 * t2;
320	t2 = d3.d + a2 * t2;
321	t2 = da + a * a2 * t2;
322	if (n)
323	{
324	/ -cot /
325	EADD (a, t2, b, db);
326	DIV2 (`1.0`, `0.0`, b, db, c, dc, t1, t2, t3, t4);
327	y = c + dc;
328	retval = (-y);
329	/ Max ULP is 0.506. /
330	goto ret;
331	}
332	else
333	{
334	/ tan /
335	y = a + t2;
336	retval = y;
337	/ Max ULP is 0.507. /
338	goto ret;
339	}
340	}
341
342	/ (XI) The case 1e8 < abs(x) < 2*1024, 0.0608 < abs(y) <= 0.787 /*
343	i = ((int) (mfftnhf.d + `256` * ya));
344	z = (z0 = (ya - xfg[i][`0`].d)) + yya;
345	z2 = z * z;
346	pz = z + z * z2 * (e0.d + z2 * e1.d);
347	fi = xfg[i][`1`].d;
348	gi = xfg[i][`2`].d;
349
350	if (n)
351	{
352	/ -cot /
353	t2 = pz * (fi + gi) / (fi + pz);
354	y = gi - t2;
355	retval = (-sy * y);
356	/ Max ULP is 0.62. /
357	goto ret;
358	}
359	else
360	{
361	/ tan /
362	t2 = pz * (gi + fi) / (gi - pz);
363	y = fi + t2;
364	retval = (sy * y);
365	/ Max ULP is 0.62. /
366	goto ret;
367	}
368
369	ret:
370	return retval;
371	}
372
373	#ifndef __tan
374	libm_alias_double (__tan, tan)
375	#endif
376

source code of glibc/sysdeps/ieee754/dbl-64/s_tan.c