1
#include "FEATURE/uwin"
2

3
#if !_UWIN
4

5
void _STUB_log(){}
6

7
#else
8

9
/*
10
 * Copyright (c) 1992, 1993
11
 *	The Regents of the University of California.  All rights reserved.
12
 *
13
 * Redistribution and use in source and binary forms, with or without
14
 * modification, are permitted provided that the following conditions
15
 * are met:
16
 * 1. Redistributions of source code must retain the above copyright
17
 *    notice, this list of conditions and the following disclaimer.
18
 * 2. Redistributions in binary form must reproduce the above copyright
19
 *    notice, this list of conditions and the following disclaimer in the
20
 *    documentation and/or other materials provided with the distribution.
21
 * 3. Neither the name of the University nor the names of its contributors
22
 *    may be used to endorse or promote products derived from this software
23
 *    without specific prior written permission.
24
 *
25
 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
26
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
27
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
28
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
29
 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
30
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
31
 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
32
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
33
 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
34
 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
35
 * SUCH DAMAGE.
36
 */
37

38
#ifndef lint
39
static char sccsid[] = "@(#)log.c	8.2 (Berkeley) 11/30/93";
40
#endif /* not lint */
41

42
#include <math.h>
43
#include <errno.h>
44

45
#include "mathimpl.h"
46

47
/* Table-driven natural logarithm.
48
 *
49
 * This code was derived, with minor modifications, from:
50
 *	Peter Tang, "Table-Driven Implementation of the
51
 *	Logarithm in IEEE Floating-Point arithmetic." ACM Trans.
52
 *	Math Software, vol 16. no 4, pp 378-400, Dec 1990).
53
 *
54
 * Calculates log(2^m*F*(1+f/F)), |f/j| <= 1/256,
55
 * where F = j/128 for j an integer in [0, 128].
56
 *
57
 * log(2^m) = log2_hi*m + log2_tail*m
58
 * since m is an integer, the dominant term is exact.
59
 * m has at most 10 digits (for subnormal numbers),
60
 * and log2_hi has 11 trailing zero bits.
61
 *
62
 * log(F) = logF_hi[j] + logF_lo[j] is in tabular form in log_table.h
63
 * logF_hi[] + 512 is exact.
64
 *
65
 * log(1+f/F) = 2*f/(2*F + f) + 1/12 * (2*f/(2*F + f))**3 + ...
66
 * the leading term is calculated to extra precision in two
67
 * parts, the larger of which adds exactly to the dominant
68
 * m and F terms.
69
 * There are two cases:
70
 *	1. when m, j are non-zero (m | j), use absolute
71
 *	   precision for the leading term.
72
 *	2. when m = j = 0, |1-x| < 1/256, and log(x) ~= (x-1).
73
 *	   In this case, use a relative precision of 24 bits.
74
 * (This is done differently in the original paper)
75
 *
76
 * Special cases:
77
 *	0	return signalling -Inf
78
 *	neg	return signalling NaN
79
 *	+Inf	return +Inf
80
*/
81

82
#if defined(vax) || defined(tahoe)
83
#define _IEEE		0
84
#define TRUNC(x)	x = (double) (float) (x)
85
#else
86
#define _IEEE		1
87
#define endian		(((*(int *) &one)) ? 1 : 0)
88
#define TRUNC(x)	*(((int *) &x) + endian) &= 0xf8000000
89
#define infnan(x)	0.0
90
#endif
91

92
#define N 128
93

94
/* Table of log(Fj) = logF_head[j] + logF_tail[j], for Fj = 1+j/128.
95
 * Used for generation of extend precision logarithms.
96
 * The constant 35184372088832 is 2^45, so the divide is exact.
97
 * It ensures correct reading of logF_head, even for inaccurate
98
 * decimal-to-binary conversion routines.  (Everybody gets the
99
 * right answer for integers less than 2^53.)
100
 * Values for log(F) were generated using error < 10^-57 absolute
101
 * with the bc -l package.
102
*/
103
static double	A1 = 	  .08333333333333178827;
104
static double	A2 = 	  .01250000000377174923;
105
static double	A3 =	 .002232139987919447809;
106
static double	A4 =	.0004348877777076145742;
107

108
static double logF_head[N+1] = {
109
	0.,
110
	.007782140442060381246,
111
	.015504186535963526694,
112
	.023167059281547608406,
113
	.030771658666765233647,
114
	.038318864302141264488,
115
	.045809536031242714670,
116
	.053244514518837604555,
117
	.060624621816486978786,
118
	.067950661908525944454,
119
	.075223421237524235039,
120
	.082443669210988446138,
121
	.089612158689760690322,
122
	.096729626458454731618,
123
	.103796793681567578460,
124
	.110814366340264314203,
125
	.117783035656430001836,
126
	.124703478501032805070,
127
	.131576357788617315236,
128
	.138402322859292326029,
129
	.145182009844575077295,
130
	.151916042025732167530,
131
	.158605030176659056451,
132
	.165249572895390883786,
133
	.171850256926518341060,
134
	.178407657472689606947,
135
	.184922338493834104156,
136
	.191394852999565046047,
137
	.197825743329758552135,
138
	.204215541428766300668,
139
	.210564769107350002741,
140
	.216873938300523150246,
141
	.223143551314024080056,
142
	.229374101064877322642,
143
	.235566071312860003672,
144
	.241719936886966024758,
145
	.247836163904594286577,
146
	.253915209980732470285,
147
	.259957524436686071567,
148
	.265963548496984003577,
149
	.271933715484010463114,
150
	.277868451003087102435,
151
	.283768173130738432519,
152
	.289633292582948342896,
153
	.295464212893421063199,
154
	.301261330578199704177,
155
	.307025035294827830512,
156
	.312755710004239517729,
157
	.318453731118097493890,
158
	.324119468654316733591,
159
	.329753286372579168528,
160
	.335355541920762334484,
161
	.340926586970454081892,
162
	.346466767346100823488,
163
	.351976423156884266063,
164
	.357455888922231679316,
165
	.362905493689140712376,
166
	.368325561158599157352,
167
	.373716409793814818840,
168
	.379078352934811846353,
169
	.384411698910298582632,
170
	.389716751140440464951,
171
	.394993808240542421117,
172
	.400243164127459749579,
173
	.405465108107819105498,
174
	.410659924985338875558,
175
	.415827895143593195825,
176
	.420969294644237379543,
177
	.426084395310681429691,
178
	.431173464818130014464,
179
	.436236766774527495726,
180
	.441274560805140936281,
181
	.446287102628048160113,
182
	.451274644139630254358,
183
	.456237433481874177232,
184
	.461175715122408291790,
185
	.466089729924533457960,
186
	.470979715219073113985,
187
	.475845904869856894947,
188
	.480688529345570714212,
189
	.485507815781602403149,
190
	.490303988045525329653,
191
	.495077266798034543171,
192
	.499827869556611403822,
193
	.504556010751912253908,
194
	.509261901790523552335,
195
	.513945751101346104405,
196
	.518607764208354637958,
197
	.523248143765158602036,
198
	.527867089620485785417,
199
	.532464798869114019908,
200
	.537041465897345915436,
201
	.541597282432121573947,
202
	.546132437597407260909,
203
	.550647117952394182793,
204
	.555141507540611200965,
205
	.559615787935399566777,
206
	.564070138285387656651,
207
	.568504735352689749561,
208
	.572919753562018740922,
209
	.577315365035246941260,
210
	.581691739635061821900,
211
	.586049045003164792433,
212
	.590387446602107957005,
213
	.594707107746216934174,
214
	.599008189645246602594,
215
	.603290851438941899687,
216
	.607555250224322662688,
217
	.611801541106615331955,
218
	.616029877215623855590,
219
	.620240409751204424537,
220
	.624433288012369303032,
221
	.628608659422752680256,
222
	.632766669570628437213,
223
	.636907462236194987781,
224
	.641031179420679109171,
225
	.645137961373620782978,
226
	.649227946625615004450,
227
	.653301272011958644725,
228
	.657358072709030238911,
229
	.661398482245203922502,
230
	.665422632544505177065,
231
	.669430653942981734871,
232
	.673422675212350441142,
233
	.677398823590920073911,
234
	.681359224807238206267,
235
	.685304003098281100392,
236
	.689233281238557538017,
237
	.693147180560117703862
238
};
239

240
static double logF_tail[N+1] = {
241
	0.,
242
	-.00000000000000543229938420049,
243
	 .00000000000000172745674997061,
244
	-.00000000000001323017818229233,
245
	-.00000000000001154527628289872,
246
	-.00000000000000466529469958300,
247
	 .00000000000005148849572685810,
248
	-.00000000000002532168943117445,
249
	-.00000000000005213620639136504,
250
	-.00000000000001819506003016881,
251
	 .00000000000006329065958724544,
252
	 .00000000000008614512936087814,
253
	-.00000000000007355770219435028,
254
	 .00000000000009638067658552277,
255
	 .00000000000007598636597194141,
256
	 .00000000000002579999128306990,
257
	-.00000000000004654729747598444,
258
	-.00000000000007556920687451336,
259
	 .00000000000010195735223708472,
260
	-.00000000000017319034406422306,
261
	-.00000000000007718001336828098,
262
	 .00000000000010980754099855238,
263
	-.00000000000002047235780046195,
264
	-.00000000000008372091099235912,
265
	 .00000000000014088127937111135,
266
	 .00000000000012869017157588257,
267
	 .00000000000017788850778198106,
268
	 .00000000000006440856150696891,
269
	 .00000000000016132822667240822,
270
	-.00000000000007540916511956188,
271
	-.00000000000000036507188831790,
272
	 .00000000000009120937249914984,
273
	 .00000000000018567570959796010,
274
	-.00000000000003149265065191483,
275
	-.00000000000009309459495196889,
276
	 .00000000000017914338601329117,
277
	-.00000000000001302979717330866,
278
	 .00000000000023097385217586939,
279
	 .00000000000023999540484211737,
280
	 .00000000000015393776174455408,
281
	-.00000000000036870428315837678,
282
	 .00000000000036920375082080089,
283
	-.00000000000009383417223663699,
284
	 .00000000000009433398189512690,
285
	 .00000000000041481318704258568,
286
	-.00000000000003792316480209314,
287
	 .00000000000008403156304792424,
288
	-.00000000000034262934348285429,
289
	 .00000000000043712191957429145,
290
	-.00000000000010475750058776541,
291
	-.00000000000011118671389559323,
292
	 .00000000000037549577257259853,
293
	 .00000000000013912841212197565,
294
	 .00000000000010775743037572640,
295
	 .00000000000029391859187648000,
296
	-.00000000000042790509060060774,
297
	 .00000000000022774076114039555,
298
	 .00000000000010849569622967912,
299
	-.00000000000023073801945705758,
300
	 .00000000000015761203773969435,
301
	 .00000000000003345710269544082,
302
	-.00000000000041525158063436123,
303
	 .00000000000032655698896907146,
304
	-.00000000000044704265010452446,
305
	 .00000000000034527647952039772,
306
	-.00000000000007048962392109746,
307
	 .00000000000011776978751369214,
308
	-.00000000000010774341461609578,
309
	 .00000000000021863343293215910,
310
	 .00000000000024132639491333131,
311
	 .00000000000039057462209830700,
312
	-.00000000000026570679203560751,
313
	 .00000000000037135141919592021,
314
	-.00000000000017166921336082431,
315
	-.00000000000028658285157914353,
316
	-.00000000000023812542263446809,
317
	 .00000000000006576659768580062,
318
	-.00000000000028210143846181267,
319
	 .00000000000010701931762114254,
320
	 .00000000000018119346366441110,
321
	 .00000000000009840465278232627,
322
	-.00000000000033149150282752542,
323
	-.00000000000018302857356041668,
324
	-.00000000000016207400156744949,
325
	 .00000000000048303314949553201,
326
	-.00000000000071560553172382115,
327
	 .00000000000088821239518571855,
328
	-.00000000000030900580513238244,
329
	-.00000000000061076551972851496,
330
	 .00000000000035659969663347830,
331
	 .00000000000035782396591276383,
332
	-.00000000000046226087001544578,
333
	 .00000000000062279762917225156,
334
	 .00000000000072838947272065741,
335
	 .00000000000026809646615211673,
336
	-.00000000000010960825046059278,
337
	 .00000000000002311949383800537,
338
	-.00000000000058469058005299247,
339
	-.00000000000002103748251144494,
340
	-.00000000000023323182945587408,
341
	-.00000000000042333694288141916,
342
	-.00000000000043933937969737844,
343
	 .00000000000041341647073835565,
344
	 .00000000000006841763641591466,
345
	 .00000000000047585534004430641,
346
	 .00000000000083679678674757695,
347
	-.00000000000085763734646658640,
348
	 .00000000000021913281229340092,
349
	-.00000000000062242842536431148,
350
	-.00000000000010983594325438430,
351
	 .00000000000065310431377633651,
352
	-.00000000000047580199021710769,
353
	-.00000000000037854251265457040,
354
	 .00000000000040939233218678664,
355
	 .00000000000087424383914858291,
356
	 .00000000000025218188456842882,
357
	-.00000000000003608131360422557,
358
	-.00000000000050518555924280902,
359
	 .00000000000078699403323355317,
360
	-.00000000000067020876961949060,
361
	 .00000000000016108575753932458,
362
	 .00000000000058527188436251509,
363
	-.00000000000035246757297904791,
364
	-.00000000000018372084495629058,
365
	 .00000000000088606689813494916,
366
	 .00000000000066486268071468700,
367
	 .00000000000063831615170646519,
368
	 .00000000000025144230728376072,
369
	-.00000000000017239444525614834
370
};
371

372
#if !_lib_log
373

374
extern double
375
#ifdef _ANSI_SOURCE
376
log(double x)
377
#else
378
log(x) double x;
379
#endif
380
{
381
	int m, j;
382
	double F, f, g, q, u, u2, v, zero = 0.0, one = 1.0;
383
	volatile double u1;
384

385
	/* Catch special cases */
386
	if (x <= 0)
387
		if (_IEEE && x == zero)	/* log(0) = -Inf */
388
			return (-one/zero);
389
		else if (_IEEE)		/* log(neg) = NaN */
390
			return (zero/zero);
391
		else if (x == zero)	/* NOT REACHED IF _IEEE */
392
			return (infnan(-ERANGE));
393
		else
394
			return (infnan(EDOM));
395
	else if (!finite(x))
396
		if (_IEEE)		/* x = NaN, Inf */
397
			return (x+x);
398
		else
399
			return (infnan(ERANGE));
400
	
401
	/* Argument reduction: 1 <= g < 2; x/2^m = g;	*/
402
	/* y = F*(1 + f/F) for |f| <= 2^-8		*/
403

404
	m = logb(x);
405
	g = ldexp(x, -m);
406
	if (_IEEE && m == -1022) {
407
		j = logb(g), m += j;
408
		g = ldexp(g, -j);
409
	}
410
	j = N*(g-1) + .5;
411
	F = (1.0/N) * j + 1;	/* F*128 is an integer in [128, 512] */
412
	f = g - F;
413

414
	/* Approximate expansion for log(1+f/F) ~= u + q */
415
	g = 1/(2*F+f);
416
	u = 2*f*g;
417
	v = u*u;
418
	q = u*v*(A1 + v*(A2 + v*(A3 + v*A4)));
419

420
    /* case 1: u1 = u rounded to 2^-43 absolute.  Since u < 2^-8,
421
     * 	       u1 has at most 35 bits, and F*u1 is exact, as F has < 8 bits.
422
     *         It also adds exactly to |m*log2_hi + log_F_head[j] | < 750
423
    */
424
	if (m | j)
425
		u1 = u + 513, u1 -= 513;
426

427
    /* case 2:	|1-x| < 1/256. The m- and j- dependent terms are zero;
428
     * 		u1 = u to 24 bits.
429
    */
430
	else
431
		u1 = u, TRUNC(u1);
432
	u2 = (2.0*(f - F*u1) - u1*f) * g;
433
			/* u1 + u2 = 2f/(2F+f) to extra precision.	*/
434

435
	/* log(x) = log(2^m*F*(1+f/F)) =				*/
436
	/* (m*log2_hi+logF_head[j]+u1) + (m*log2_lo+logF_tail[j]+q);	*/
437
	/* (exact) + (tiny)						*/
438

439
	u1 += m*logF_head[N] + logF_head[j];		/* exact */
440
	u2 = (u2 + logF_tail[j]) + q;			/* tiny */
441
	u2 += logF_tail[N]*m;
442
	return (u1 + u2);
443
}
444

445
#endif
446

447
/*
448
 * Extra precision variant, returning struct {double a, b;};
449
 * log(x) = a+b to 63 bits, with a is rounded to 26 bits.
450
 */
451
struct Double
452
#ifdef _ANSI_SOURCE
453
__log__D(double x)
454
#else
455
__log__D(x) double x;
456
#endif
457
{
458
	int m, j;
459
	double F, f, g, q, u, v, u2, one = 1.0;
460
	volatile double u1;
461
	struct Double r;
462

463
	/* Argument reduction: 1 <= g < 2; x/2^m = g;	*/
464
	/* y = F*(1 + f/F) for |f| <= 2^-8		*/
465

466
	m = (int)logb(x);
467
	g = ldexp(x, -m);
468
	if (_IEEE && m == -1022) {
469
		j = (int)logb(g), m += j;
470
		g = ldexp(g, -j);
471
	}
472
	j = (int)(N*(g-1) + .5);
473
	F = (1.0/N) * j + 1;
474
	f = g - F;
475

476
	g = 1/(2*F+f);
477
	u = 2*f*g;
478
	v = u*u;
479
	q = u*v*(A1 + v*(A2 + v*(A3 + v*A4)));
480
	if (m | j)
481
		u1 = u + 513, u1 -= 513;
482
	else
483
		u1 = u, TRUNC(u1);
484
	u2 = (2.0*(f - F*u1) - u1*f) * g;
485

486
	u1 += m*logF_head[N] + logF_head[j];
487

488
	u2 +=  logF_tail[j]; u2 += q;
489
	u2 += logF_tail[N]*m;
490
	r.a = u1 + u2;			/* Only difference is here */
491
	TRUNC(r.a);
492
	r.b = (u1 - r.a) + u2;
493
	return (r);
494
}
495

496
#endif
497

498