xref: /titanic_51/usr/src/lib/libm/common/m9x/tgammal.c (revision 0ed5c46e82c989cfa9726d9dae452e3d24ef83be)
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 /*
23  * Copyright 2011 Nexenta Systems, Inc.  All rights reserved.
24  */
25 /*
26  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
27  * Use is subject to license terms.
28  */
29 
30 #if defined(ELFOBJ)
31 #pragma weak tgammal = __tgammal
32 #endif
33 
34 #include "libm.h"
35 #include <sys/isa_defs.h>
36 
37 #if defined(_BIG_ENDIAN)
38 #define	H0_WORD(x)	((unsigned *) &x)[0]
39 #define	H3_WORD(x)	((unsigned *) &x)[3]
40 #define	CHOPPED(x)	(long double) ((double) (x))
41 #else
42 #define	H0_WORD(x)	((((int *) &x)[2] << 16) | \
43 			(0x0000ffff & (((unsigned *) &x)[1] >> 15)))
44 #define	H3_WORD(x)	((unsigned *) &x)[0]
45 #define	CHOPPED(x)	(long double) ((float) (x))
46 #endif
47 
48 struct LDouble {
49 	long double h, l;
50 };
51 
52 /* INDENT OFF */
53 /* Primary interval GTi() */
54 static const long double P1[] = {
55 	+0.709086836199777919037185741507610124611513720557L,
56 	+4.45754781206489035827915969367354835667391606951e-0001L,
57 	+3.21049298735832382311662273882632210062918153852e-0002L,
58 	-5.71296796342106617651765245858289197369688864350e-0003L,
59 	+6.04666892891998977081619174969855831606965352773e-0003L,
60 	+8.99106186996888711939627812174765258822658645168e-0004L,
61 	-6.96496846144407741431207008527018441810175568949e-0005L,
62 	+1.52597046118984020814225409300131445070213882429e-0005L,
63 	+5.68521076168495673844711465407432189190681541547e-0007L,
64 	+3.30749673519634895220582062520286565610418952979e-0008L,
65 };
66 static const long double Q1[] = {
67 	+1.0+0000L,
68 	+1.35806511721671070408570853537257079579490650668e+0000L,
69 	+2.97567810153429553405327140096063086994072952961e-0001L,
70 	-1.52956835982588571502954372821681851681118097870e-0001L,
71 	-2.88248519561420109768781615289082053597954521218e-0002L,
72 	+1.03475311719937405219789948456313936302378395955e-0002L,
73 	+4.12310203243891222368965360124391297374822742313e-0004L,
74 	-3.12653708152290867248931925120380729518332507388e-0004L,
75 	+2.36672170850409745237358105667757760527014332458e-0005L,
76 };
77 static const long double P2[] = {
78 	+0.428486815855585429730209907810650135255270600668084114L,
79 	+2.62768479103809762805691743305424077975230551176e-0001L,
80 	+3.81187532685392297608310837995193946591425896150e-0002L,
81 	+3.00063075891811043820666846129131255948527925381e-0003L,
82 	+2.47315407812279164228398470797498649142513408654e-0003L,
83 	+3.62838199917848372586173483147214880464782938664e-0004L,
84 	+3.43991105975492623982725644046473030098172692423e-0006L,
85 	+4.56902151569603272237014240794257659159045432895e-0006L,
86 	+2.13734755837595695602045100675540011352948958453e-0007L,
87 	+9.74123440547918230781670266967882492234877125358e-0009L,
88 };
89 static const long double Q2[] = {
90 	+1.0L,
91 	+9.18284118632506842664645516830761489700556179701e-0001L,
92 	-6.41430858837830766045202076965923776189154874947e-0003L,
93 	-1.24400885809771073213345747437964149775410921376e-0001L,
94 	+4.69803798146251757538856567522481979624746875964e-0003L,
95 	+7.18309447069495315914284705109868696262662082731e-0003L,
96 	-8.75812626987894695112722600697653425786166399105e-0004L,
97 	-1.23539972377769277995959339188431498626674835169e-0004L,
98 	+3.10019017590151598732360097849672925448587547746e-0005L,
99 	-1.77260223349332617658921874288026777465782364070e-0006L,
100 };
101 static const long double P3[] = {
102 	+0.3824094797345675048502747661075355640070439388902L,
103 	+3.42198093076618495415854906335908427159833377774e-0001L,
104 	+9.63828189500585568303961406863153237440702754858e-0002L,
105 	+8.76069421042696384852462044188520252156846768667e-0003L,
106 	+1.86477890389161491224872014149309015261897537488e-0003L,
107 	+8.16871354540309895879974742853701311541286944191e-0004L,
108 	+6.83783483674600322518695090864659381650125625216e-0005L,
109 	-1.10168269719261574708565935172719209272190828456e-0006L,
110 	+9.66243228508380420159234853278906717065629721016e-0007L,
111 	+2.31858885579177250541163820671121664974334728142e-0008L,
112 };
113 static const long double Q3[] = {
114 	+1.0L,
115 	+8.25479821168813634632437430090376252512793067339e-0001L,
116 	-1.62251363073937769739639623669295110346015576320e-0002L,
117 	-1.10621286905916732758745130629426559691187579852e-0001L,
118 	+3.48309693970985612644446415789230015515365291459e-0003L,
119 	+6.73553737487488333032431261131289672347043401328e-0003L,
120 	-7.63222008393372630162743587811004613050245128051e-0004L,
121 	-1.35792670669190631476784768961953711773073251336e-0004L,
122 	+3.19610150954223587006220730065608156460205690618e-0005L,
123 	-1.82096553862822346610109522015129585693354348322e-0006L,
124 };
125 
126 static const long double
127 #if defined(__x86)
128 GZ1_h 	=  0.938204627909682449364570100414084663498215377L,
129 GZ1_l   =  4.518346116624229420055327632718530617227944106e-20L,
130 GZ2_h 	=  0.885603194410888700264725126309883762587560340L,
131 GZ2_l   =  1.409077427270497062039119290776508217077297169e-20L,
132 GZ3_h 	=  0.936781411463652321613537060640553022494714241L,
133 GZ3_l   =  5.309836440284827247897772963887219035221996813e-21L,
134 #else
135 GZ1_h 	=  0.938204627909682449409753561580326910854647031L,
136 GZ1_l   =  4.684412162199460089642452580902345976446297037e-35L,
137 GZ2_h 	=  0.885603194410888700278815900582588658192658794L,
138 GZ2_l   =  7.501529273890253789219935569758713534641074860e-35L,
139 GZ3_h 	=  0.936781411463652321618846897080837818855399840L,
140 GZ3_l   =  3.088721217404784363585591914529361687403776917e-35L,
141 #endif
142 TZ1	= -0.3517214357852935791015625L,
143 TZ3	=  0.280530631542205810546875L;
144 /* INDENT ON */
145 
146 /* INDENT OFF */
147 /*
148  * compute gamma(y=yh+yl) for y in GT1 = [1.0000, 1.2845]
149  * ...assume yh got 53 or 24(i386) significant bits
150  */
151 /* INDENT ON */
152 static struct LDouble
153 GT1(long double yh, long double yl) {
154 	long double t3, t4, y;
155 	int i;
156 	struct LDouble r;
157 
158 	y = yh + yl;
159 	for (t4 = Q1[8], t3 = P1[8] + y * P1[9], i = 7; i >= 0; i--) {
160 		t4 = t4 * y + Q1[i];
161 		t3 = t3 * y + P1[i];
162 	}
163 	t3 = (y * y) * t3 / t4;
164 	t3 += (TZ1 * yl + GZ1_l);
165 	t4 = TZ1 * yh;
166 	r.h = CHOPPED((t4 + GZ1_h + t3));
167 	t3 += (t4 - (r.h - GZ1_h));
168 	r.l = t3;
169 	return (r);
170 }
171 
172 /* INDENT OFF */
173 /*
174  * compute gamma(y=yh+yl) for y in GT2 = [1.2844, 1.6374]
175  * ...assume yh got 53 significant bits
176  */
177 /* INDENT ON */
178 static struct LDouble
179 GT2(long double yh, long double yl) {
180 	long double t3, t4, y;
181 	int i;
182 	struct LDouble r;
183 
184 	y = yh + yl;
185 	for (t4 = Q2[9], t3 = P2[9], i = 8; i >= 0; i--) {
186 		t4 = t4 * y + Q2[i];
187 		t3 = t3 * y + P2[i];
188 	}
189 	t3 = GZ2_l + (y * y) * t3 / t4;
190 	r.h = CHOPPED((GZ2_h + t3));
191 	r.l = t3 - (r.h - GZ2_h);
192 	return (r);
193 }
194 
195 /* INDENT OFF */
196 /*
197  * compute gamma(y=yh+yl) for y in GT3 = [1.6373, 2.0000]
198  * ...assume yh got 53 significant bits
199  */
200 /* INDENT ON */
201 static struct LDouble
202 GT3(long double yh, long double yl) {
203 	long double t3, t4, y;
204 	int i;
205 	struct LDouble r;
206 
207 	y = yh + yl;
208 	for (t4 = Q3[9], t3 = P3[9], i = 8; i >= 0; i--) {
209 		t4 = t4 * y + Q3[i];
210 		t3 = t3 * y + P3[i];
211 	}
212 	t3 = (y * y) * t3 / t4;
213 	t3 += (TZ3 * yl + GZ3_l);
214 	t4 = TZ3 * yh;
215 	r.h = CHOPPED((t4 + GZ3_h + t3));
216 	t3 += (t4 - (r.h - GZ3_h));
217 	r.l = t3;
218 	return (r);
219 }
220 
221 /* INDENT OFF */
222 /* Hex value of GP[0] shoule be 3FB55555 55555555 */
223 static const long double GP[] = {
224 	+0.083333333333333333333333333333333172839171301L,
225 	-2.77777777777777777777777777492501211999399424104e-0003L,
226 	+7.93650793650793650793635650541638236350020883243e-0004L,
227 	-5.95238095238095238057299772679324503339241961704e-0004L,
228 	+8.41750841750841696138422987977683524926142600321e-0004L,
229 	-1.91752691752686682825032547823699662178842123308e-0003L,
230 	+6.41025641022403480921891559356473451161279359322e-0003L,
231 	-2.95506535798414019189819587455577003732808185071e-0002L,
232 	+1.79644367229970031486079180060923073476568732136e-0001L,
233 	-1.39243086487274662174562872567057200255649290646e+0000L,
234 	+1.34025874044417962188677816477842265259608269775e+0001L,
235 	-1.56803713480127469414495545399982508700748274318e+0002L,
236 	+2.18739841656201561694927630335099313968924493891e+0003L,
237 	-3.55249848644100338419187038090925410976237921269e+0004L,
238 	+6.43464880437835286216768959439484376449179576452e+0005L,
239 	-1.20459154385577014992600342782821389605893904624e+0007L,
240 	+2.09263249637351298563934942349749718491071093210e+0008L,
241 	-2.96247483183169219343745316433899599834685703457e+0009L,
242 	+2.88984933605896033154727626086506756972327292981e+0010L,
243 	-1.40960434146030007732838382416230610302678063984e+0011L,	/* 19 */
244 };
245 
246 static const long double T3[] = {
247 	+0.666666666666666666666666666666666634567834260213L,	/* T3[0] */
248 	+0.400000000000000000000000000040853636176634934140L,	/* T3[1] */
249 	+0.285714285714285714285696975252753987869020263448L,	/* T3[2] */
250 	+0.222222222222222225593221101192317258554772129875L,	/* T3[3] */
251 	+0.181818181817850192105847183461778186703779262916L,	/* T3[4] */
252 	+0.153846169861348633757101285952333369222567014596L,	/* T3[5] */
253 	+0.133033462889260193922261296772841229985047571265L,	/* T3[6] */
254 };
255 
256 static const long double c[] = {
257 0.0L,
258 1.0L,
259 2.0L,
260 0.5L,
261 1.0e-4930L,							/* tiny */
262 4.18937683105468750000e-01L,					/* hln2pim1_h */
263 8.50099203991780329736405617639861397473637783412817152e-07L,	/* hln2pim1_l */
264 0.418938533204672741780329736405617639861397473637783412817152L, /* hln2pim1 */
265 2.16608493865351192653179168701171875e-02L,			/* ln2_32hi */
266 5.96317165397058692545083025235937919875797669127130e-12L,	/* ln2_32lo */
267 46.16624130844682903551758979206054839765267053289554989233L,	/* invln2_32 */
268 #if defined(__x86)
269 1.7555483429044629170023839037639845628291e+03L,		/* overflow */
270 #else
271 1.7555483429044629170038892160702032034177e+03L,		/* overflow */
272 #endif
273 };
274 
275 #define	zero		c[0]
276 #define	one		c[1]
277 #define	two		c[2]
278 #define	half		c[3]
279 #define	tiny		c[4]
280 #define	hln2pim1_h	c[5]
281 #define	hln2pim1_l	c[6]
282 #define	hln2pim1	c[7]
283 #define	ln2_32hi	c[8]
284 #define	ln2_32lo	c[9]
285 #define	invln2_32	c[10]
286 #define	overflow	c[11]
287 
288 /*
289  * |exp(r) - (1+r+Et0*r^2+...+Et10*r^12)| <= 2^(-128.88) for |r|<=ln2/64
290  */
291 static const long double Et[] = {
292 	+5.0000000000000000000e-1L,
293 	+1.66666666666666666666666666666828835166292152466e-0001L,
294 	+4.16666666666666666666666666666693398646592712189e-0002L,
295 	+8.33333333333333333333331748774512601775591115951e-0003L,
296 	+1.38888888888888888888888845356011511394764753997e-0003L,
297 	+1.98412698412698413237140350092993252684198882102e-0004L,
298 	+2.48015873015873016080222025357442659895814371694e-0005L,
299 	+2.75573192239028921114572986441972140933432317798e-0006L,
300 	+2.75573192239448470555548102895526369739856219317e-0007L,
301 	+2.50521677867683935940853997995937600214167232477e-0008L,
302 	+2.08767928899010367374984448513685566514152147362e-0009L,
303 };
304 
305 /*
306  * long double precision coefficients for computing log(x)-1 in tgamma.
307  *  See "algorithm" for details
308  *
309  *  log(x) - 1 = T1(n) + T2(j) + T3(s), where x = 2**n * y,  1<=y<2,
310  *  j=[64*y], z[j]=1+j/64+1/128, s = (y-z[j])/(y+z[j]), and
311  *       T1(n) = T1[2n,2n+1] = n*log(2)-1,
312  *       T2(j) = T2[2j,2j+1] = log(z[j]),
313  *       T3(s) = 2s + T3[0]s^3 + T3[1]s^5 + T3[2]s^7 + ... + T3[6]s^15
314  *  Note
315  *  (1) the leading entries are truncated to 24 binary point.
316  *  (2) Remez error for T3(s) is bounded by 2**(-136.54)
317  */
318 static const long double T1[] = {
319 -1.000000000000000000000000000000000000000000e+00L,
320 	+0.000000000000000000000000000000000000000000e+00L,
321 -3.068528175354003906250000000000000000000000e-01L,
322 -1.904654299957767878541823431924500011926579e-09L,
323 	+3.862943053245544433593750000000000000000000e-01L,
324 	+5.579533617547508924291635313615100141107647e-08L,
325 	+1.079441487789154052734375000000000000000000e+00L,
326 	+5.389068187551732136437452970422650211661470e-08L,
327 	+1.772588670253753662109375000000000000000000e+00L,
328 	+5.198602757555955348583270627230200282215294e-08L,
329 	+2.465735852718353271484375000000000000000000e+00L,
330 	+5.008137327560178560729088284037750352769117e-08L,
331 	+3.158883035182952880859375000000000000000000e+00L,
332 	+4.817671897564401772874905940845299849351090e-08L,
333 	+3.852030217647552490234375000000000000000000e+00L,
334 	+4.627206467568624985020723597652849919904913e-08L,
335 	+4.545177400112152099609375000000000000000000e+00L,
336 	+4.436741037572848197166541254460399990458737e-08L,
337 	+5.238324582576751708984375000000000000000000e+00L,
338 	+4.246275607577071409312358911267950061012560e-08L,
339 	+5.931471765041351318359375000000000000000000e+00L,
340 	+4.055810177581294621458176568075500131566384e-08L,
341 };
342 
343 /*
344  * T2[2i,2i+1] = log(1+i/64+1/128)
345  */
346 static const long double T2[] = {
347 	+7.7821016311645507812500000000000000000000e-03L,
348 	+3.8810890398166212900061136763678127453570e-08L,
349 	+2.3167014122009277343750000000000000000000e-02L,
350 	+4.5159525100885049160962289916579411752759e-08L,
351 	+3.8318812847137451171875000000000000000000e-02L,
352 	+5.1454999148021880325123797290345960518164e-08L,
353 	+5.3244471549987792968750000000000000000000e-02L,
354 	+4.2968824489897120193786528776939573415076e-08L,
355 	+6.7950606346130371093750000000000000000000e-02L,
356 	+5.5562377378300815277772629414034632394030e-08L,
357 	+8.2443654537200927734375000000000000000000e-02L,
358 	+1.4673873663533785068668307805914095366600e-08L,
359 	+9.6729576587677001953125000000000000000000e-02L,
360 	+4.9870874110342446056487463437015041543346e-08L,
361 	+1.1081433296203613281250000000000000000000e-01L,
362 	+3.3378253981382306169323211928098474801099e-08L,
363 	+1.2470346689224243164062500000000000000000e-01L,
364 	+1.1608714804222781515380863268491613205318e-08L,
365 	+1.3840228319168090820312500000000000000000e-01L,
366 	+3.9667438227482200873601649187393160823607e-08L,
367 	+1.5191602706909179687500000000000000000000e-01L,
368 	+1.4956750178196803424896884511327584958252e-08L,
369 	+1.6524952650070190429687500000000000000000e-01L,
370 	+4.6394605258578736449277240313729237989366e-08L,
371 	+1.7840760946273803710937500000000000000000e-01L,
372 	+4.8010080260010025241510941968354682199540e-08L,
373 	+1.9139480590820312500000000000000000000000e-01L,
374 	+4.7091426329609298807561308873447039132856e-08L,
375 	+2.0421552658081054687500000000000000000000e-01L,
376 	+1.4847880344628820386196239272213742113867e-08L,
377 	+2.1687388420104980468750000000000000000000e-01L,
378 	+5.4099564554931589525744347498478964801484e-08L,
379 	+2.2937405109405517578125000000000000000000e-01L,
380 	+4.9970790654210230725046139871550961365282e-08L,
381 	+2.4171990156173706054687500000000000000000e-01L,
382 	+3.5325408107597432515913513900103385655073e-08L,
383 	+2.5391519069671630859375000000000000000000e-01L,
384 	+1.9284247135543573297906606667466299224747e-08L,
385 	+2.6596349477767944335937500000000000000000e-01L,
386 	+5.3719458497979750926537543389268821141517e-08L,
387 	+2.7786844968795776367187500000000000000000e-01L,
388 	+1.3154985425144750329234012330820349974537e-09L,
389 	+2.8963327407836914062500000000000000000000e-01L,
390 	+1.8504673536253893055525668970003860369760e-08L,
391 	+3.0126130580902099609375000000000000000000e-01L,
392 	+2.4769140784919125538233755492657352680723e-08L,
393 	+3.1275570392608642578125000000000000000000e-01L,
394 	+6.0778104626049965596883190321597861455475e-09L,
395 	+3.2411944866180419921875000000000000000000e-01L,
396 	+1.9992407776871920760434987352182336158873e-08L,
397 	+3.3535552024841308593750000000000000000000e-01L,
398 	+2.1672724744319679579814166199074433006807e-08L,
399 	+3.4646672010421752929687500000000000000000e-01L,
400 	+4.7241991051621587188425772950711830538414e-08L,
401 	+3.5745584964752197265625000000000000000000e-01L,
402 	+3.9274281801569759490140904474434669956562e-08L,
403 	+3.6832553148269653320312500000000000000000e-01L,
404 	+2.9676011119845105154050398826897178765758e-08L,
405 	+3.7907832860946655273437500000000000000000e-01L,
406 	+2.4325502905656478345631019858881408009210e-08L,
407 	+3.8971674442291259765625000000000000000000e-01L,
408 	+6.7171126157142136040035208670510556529487e-09L,
409 	+4.0024316310882568359375000000000000000000e-01L,
410 	+1.0181870233355751019951311700799406124957e-09L,
411 	+4.1065990924835205078125000000000000000000e-01L,
412 	+1.5736916335153056203175822787661567534220e-08L,
413 	+4.2096924781799316406250000000000000000000e-01L,
414 	+4.6826136472066367161506795972449857268707e-08L,
415 	+4.3117344379425048828125000000000000000000e-01L,
416 	+2.1024120852577922478955594998480144051225e-08L,
417 	+4.4127452373504638671875000000000000000000e-01L,
418 	+3.7069828842770746441661301225362605528786e-08L,
419 	+4.5127463340759277343750000000000000000000e-01L,
420 	+1.0731865811707192383079012478685922879010e-08L,
421 	+4.6117568016052246093750000000000000000000e-01L,
422 	+3.4961647705430499925597855358603099030515e-08L,
423 	+4.7097969055175781250000000000000000000000e-01L,
424 	+2.4667033200046897856056359251373510964634e-08L,
425 	+4.8068851232528686523437500000000000000000e-01L,
426 	+1.7020465042442243455448011551208861216878e-08L,
427 	+4.9030393362045288085937500000000000000000e-01L,
428 	+5.4424740957290971159645746860530583309571e-08L,
429 	+4.9982786178588867187500000000000000000000e-01L,
430 	+7.7705606579463314152470441415126573566105e-09L,
431 	+5.0926184654235839843750000000000000000000e-01L,
432 	+5.5247449548366574919228323824878565745713e-08L,
433 	+5.1860773563385009765625000000000000000000e-01L,
434 	+2.8574195534496726996364798698556235730848e-08L,
435 	+5.2786707878112792968750000000000000000000e-01L,
436 	+1.0839714455426392217778300963558522088193e-08L,
437 	+5.3704142570495605468750000000000000000000e-01L,
438 	+4.0191927599879229244153832299023744345999e-08L,
439 	+5.4613238573074340820312500000000000000000e-01L,
440 	+5.1867392242179272209231209163864971792889e-08L,
441 	+5.5514144897460937500000000000000000000000e-01L,
442 	+5.8565892217715480359515904050170125743178e-08L,
443 	+5.6407010555267333984375000000000000000000e-01L,
444 	+3.2732129626227634290090190711817681692354e-08L,
445 	+5.7291972637176513671875000000000000000000e-01L,
446 	+2.7190020372374006726626261068626400393936e-08L,
447 	+5.8169168233871459960937500000000000000000e-01L,
448 	+5.7295907882911235753725372340709967597394e-08L,
449 	+5.9038740396499633789062500000000000000000e-01L,
450 	+4.2637180036751291708123598757577783615014e-08L,
451 	+5.9900814294815063476562500000000000000000e-01L,
452 	+4.6697932764615975024461651502060474048774e-08L,
453 	+6.0755521059036254882812500000000000000000e-01L,
454 	+3.9634179246672960152791125371893149820625e-08L,
455 	+6.1602985858917236328125000000000000000000e-01L,
456 	+1.8626341656366315928196700650292529688219e-08L,
457 	+6.2443327903747558593750000000000000000000e-01L,
458 	+8.9744179151050387440546731199093039879228e-09L,
459 	+6.3276666402816772460937500000000000000000e-01L,
460 	+5.5428701049364114685035797584887586099726e-09L,
461 	+6.4103114604949951171875000000000000000000e-01L,
462 	+3.3371431779336851334405392546708949047361e-08L,
463 	+6.4922791719436645507812500000000000000000e-01L,
464 	+2.9430743363812714969905311122271269100885e-08L,
465 	+6.5735805034637451171875000000000000000000e-01L,
466 	+2.2361985518423140023245936165514147093250e-08L,
467 	+6.6542261838912963867187500000000000000000e-01L,
468 	+1.4155960810278217610006660181148303091649e-08L,
469 	+6.7342263460159301757812500000000000000000e-01L,
470 	+4.0610573702719835388801017264750843477878e-08L,
471 	+6.8135917186737060546875000000000000000000e-01L,
472 	+5.2940532463479321559568089441735584156689e-08L,
473 	+6.8923324346542358398437500000000000000000e-01L,
474 	+3.7773385396340539337814603903232796216537e-08L,
475 };
476 
477 /*
478  * S[j],S_trail[j] = 2**(j/32.) for the final computation of exp(t+w)
479  */
480 static const long double S[] = {
481 #if defined(__x86)
482 	+1.0000000000000000000000000e+00L,
483 	+1.0218971486541166782081522e+00L,
484 	+1.0442737824274138402382006e+00L,
485 	+1.0671404006768236181297224e+00L,
486 	+1.0905077326652576591003302e+00L,
487 	+1.1143867425958925362894369e+00L,
488 	+1.1387886347566916536971221e+00L,
489 	+1.1637248587775775137938619e+00L,
490 	+1.1892071150027210666875674e+00L,
491 	+1.2152473599804688780476325e+00L,
492 	+1.2418578120734840485256747e+00L,
493 	+1.2690509571917332224885722e+00L,
494 	+1.2968395546510096659215822e+00L,
495 	+1.3252366431597412945939118e+00L,
496 	+1.3542555469368927282668852e+00L,
497 	+1.3839098819638319548151403e+00L,
498 	+1.4142135623730950487637881e+00L,
499 	+1.4451808069770466200253470e+00L,
500 	+1.4768261459394993113155431e+00L,
501 	+1.5091644275934227397133885e+00L,
502 	+1.5422108254079408235859630e+00L,
503 	+1.5759808451078864864006862e+00L,
504 	+1.6104903319492543080837174e+00L,
505 	+1.6457554781539648445110730e+00L,
506 	+1.6817928305074290860378350e+00L,
507 	+1.7186192981224779156032914e+00L,
508 	+1.7562521603732994831094730e+00L,
509 	+1.7947090750031071864148413e+00L,
510 	+1.8340080864093424633989166e+00L,
511 	+1.8741676341102999013002103e+00L,
512 	+1.9152065613971472938202589e+00L,
513 	+1.9571441241754002689657438e+00L,
514 #else
515 	+1.00000000000000000000000000000000000e+00L,
516 	+1.02189714865411667823448013478329942e+00L,
517 	+1.04427378242741384032196647873992910e+00L,
518 	+1.06714040067682361816952112099280918e+00L,
519 	+1.09050773266525765920701065576070789e+00L,
520 	+1.11438674259589253630881295691960313e+00L,
521 	+1.13878863475669165370383028384151134e+00L,
522 	+1.16372485877757751381357359909218536e+00L,
523 	+1.18920711500272106671749997056047593e+00L,
524 	+1.21524735998046887811652025133879836e+00L,
525 	+1.24185781207348404859367746872659561e+00L,
526 	+1.26905095719173322255441908103233805e+00L,
527 	+1.29683955465100966593375411779245118e+00L,
528 	+1.32523664315974129462953709549872168e+00L,
529 	+1.35425554693689272829801474014070273e+00L,
530 	+1.38390988196383195487265952726519287e+00L,
531 	+1.41421356237309504880168872420969798e+00L,
532 	+1.44518080697704662003700624147167095e+00L,
533 	+1.47682614593949931138690748037404985e+00L,
534 	+1.50916442759342273976601955103319352e+00L,
535 	+1.54221082540794082361229186209073479e+00L,
536 	+1.57598084510788648645527016018190504e+00L,
537 	+1.61049033194925430817952066735740067e+00L,
538 	+1.64575547815396484451875672472582254e+00L,
539 	+1.68179283050742908606225095246642969e+00L,
540 	+1.71861929812247791562934437645631244e+00L,
541 	+1.75625216037329948311216061937531314e+00L,
542 	+1.79470907500310718642770324212778174e+00L,
543 	+1.83400808640934246348708318958828892e+00L,
544 	+1.87416763411029990132999894995444645e+00L,
545 	+1.91520656139714729387261127029583086e+00L,
546 	+1.95714412417540026901832225162687149e+00L,
547 #endif
548 };
549 static const long double S_trail[] = {
550 #if defined(__x86)
551 	+0.0000000000000000000000000e+00L,
552 	+2.6327965667180882569382524e-20L,
553 	+8.3765863521895191129661899e-20L,
554 	+3.9798705777454504249209575e-20L,
555 	+1.0668046596651558640993042e-19L,
556 	+1.9376009847285360448117114e-20L,
557 	+6.7081819456112953751277576e-21L,
558 	+1.9711680502629186462729727e-20L,
559 	+2.9932584438449523689104569e-20L,
560 	+6.8887754153039109411061914e-20L,
561 	+6.8002718741225378942847820e-20L,
562 	+6.5846917376975403439742349e-20L,
563 	+1.2171958727511372194876001e-20L,
564 	+3.5625253228704087115438260e-20L,
565 	+3.1129551559077560956309179e-20L,
566 	+5.7519192396164779846216492e-20L,
567 	+3.7900651177865141593101239e-20L,
568 	+1.1659262405698741798080115e-20L,
569 	+7.1364385105284695967172478e-20L,
570 	+5.2631003710812203588788949e-20L,
571 	+2.6328853788732632868460580e-20L,
572 	+5.4583950085438242788190141e-20L,
573 	+9.5803254376938269960718656e-20L,
574 	+7.6837733983874245823512279e-21L,
575 	+2.4415965910835093824202087e-20L,
576 	+2.6052966871016580981769728e-20L,
577 	+2.6876456344632553875309579e-21L,
578 	+1.2861930155613700201703279e-20L,
579 	+8.8166633394037485606572294e-20L,
580 	+2.9788615389580190940837037e-20L,
581 	+5.2352341619805098677422139e-20L,
582 	+5.2578463064010463732242363e-20L,
583 #else
584 	+0.00000000000000000000000000000000000e+00L,
585 	+1.80506787420330954745573333054573786e-35L,
586 -9.37452029228042742195756741973083214e-35L,
587 -1.59696844729275877071290963023149997e-35L,
588 	+9.11249341012502297851168610167248666e-35L,
589 -6.50422820697854828723037477525938871e-35L,
590 -8.14846884452585113732569176748815532e-35L,
591 -5.06621457672180031337233074514290335e-35L,
592 -1.35983097468881697374987563824591912e-35L,
593 	+9.49742763556319647030771056643324660e-35L,
594 -3.28317052317699860161506596533391526e-36L,
595 -5.01723570938719041029018653045842895e-35L,
596 -2.39147479768910917162283430160264014e-35L,
597 -8.35057135763390881529889073794408385e-36L,
598 	+7.03675688907326504242173719067187644e-35L,
599 -5.18248485306464645753689301856695619e-35L,
600 	+9.42224254862183206569211673639406488e-35L,
601 -3.96750082539886230916730613021641828e-35L,
602 	+7.14352899156330061452327361509276724e-35L,
603 	+1.15987125286798512424651783410044433e-35L,
604 	+4.69693347835811549530973921320187447e-35L,
605 -3.38651317599500471079924198499981917e-35L,
606 -8.58731877429824706886865593510387445e-35L,
607 -9.60595154874935050318549936224606909e-35L,
608 	+9.60973393212801278450755869714178581e-35L,
609 	+6.37839792144002843924476144978084855e-35L,
610 	+7.79243078569586424945646112516927770e-35L,
611 	+7.36133776758845652413193083663393220e-35L,
612 -6.47299514791334723003521457561217053e-35L,
613 	+8.58747441795369869427879806229522962e-35L,
614 	+2.37181542282517483569165122830269098e-35L,
615 -3.02689168209611877300459737342190031e-37L,
616 #endif
617 };
618 /* INDENT ON */
619 
620 /* INDENT OFF */
621 /*
622  * return tgamma(x) scaled by 2**-m for 8<x<=171.62... using Stirling's formula
623  *     log(G(x)) ~= (x-.5)*(log(x)-1) + .5(log(2*pi)-1) + (1/x)*P(1/(x*x))
624  *                = L1 + L2 + L3,
625  */
626 /* INDENT ON */
627 static struct LDouble
628 large_gam(long double x, int *m) {
629 	long double z, t1, t2, t3, z2, t5, w, y, u, r, v;
630 	long double t24 = 16777216.0L, p24 = 1.0L / 16777216.0L;
631 	int n2, j2, k, ix, j, i;
632 	struct LDouble zz;
633 	long double u2, ss_h, ss_l, r_h, w_h, w_l, t4;
634 
635 /* INDENT OFF */
636 /*
637  * compute ss = ss.h+ss.l = log(x)-1 (see tgamma_log.h for details)
638  *
639  *  log(x) - 1 = T1(n) + T2(j) + T3(s), where x = 2**n * y,  1<=y<2,
640  *  j=[64*y], z[j]=1+j/64+1/128, s = (y-z[j])/(y+z[j]), and
641  *       T1(n) = T1[2n,2n+1] = n*log(2)-1,
642  *       T2(j) = T2[2j,2j+1] = log(z[j]),
643  *       T3(s) = 2s + T3[0]s^3 + T3[1]s^5 + ... + T3[6]s^15
644  *  Note
645  *  (1) the leading entries are truncated to 24 binary point.
646  *  (2) Remez error for T3(s) is bounded by 2**(-72.4)
647  *                                   2**(-24)
648  *                           _________V___________________
649  *               T1(n):     |_________|___________________|
650  *                             _______ ______________________
651  *               T2(j):       |_______|______________________|
652  *                                ____ _______________________
653  *               2s:             |____|_______________________|
654  *                                    __________________________
655  *          +    T3(s)-2s:           |__________________________|
656  *                       -------------------------------------------
657  *                          [leading] + [Trailing]
658  */
659 	/* INDENT ON */
660 	ix = H0_WORD(x);
661 	n2 = (ix >> 16) - 0x3fff;	/* exponent of x, range:3-10 */
662 	y = scalbnl(x, -n2);	/* y = scale x to [1,2] */
663 	n2 += n2;		/* 2n */
664 	j = (ix >> 10) & 0x3f;	/* j */
665 	z = 1.0078125L + (long double) j * 0.015625L;	/* z[j]=1+j/64+1/128 */
666 	j2 = j + j;
667 	t1 = y + z;
668 	t2 = y - z;
669 	r = one / t1;
670 	u = r * t2;		/* u = (y-z)/(y+z) */
671 	t1 = CHOPPED(t1);
672 	t4 = T2[j2 + 1] + T1[n2 + 1];
673 	z2 = u * u;
674 	k = H0_WORD(u) & 0x7fffffff;
675 	t3 = T2[j2] + T1[n2];
676 	for (t5 = T3[6], i = 5; i >= 0; i--)
677 		t5 = z2 * t5 + T3[i];
678 	if ((k >> 16) < 0x3fec) {	/* |u|<2**-19 */
679 		t2 = t4 + u * (two + z2 * t5);
680 	} else {
681 		t5 = t4 + (u * z2) * t5;
682 		u2 = u + u;
683 		v = (long double) ((int) (u2 * t24)) * p24;
684 		t2 = t5 + r * ((two * t2 - v * t1) - v * (y - (t1 - z)));
685 		t3 += v;
686 	}
687 	ss_h = CHOPPED((t2 + t3));
688 	ss_l = t2 - (ss_h - t3);
689 /* INDENT OFF */
690 /*
691  * compute ww = (x-.5)*(log(x)-1) + .5*(log(2pi)-1) + 1/x*(P(1/x^2)))
692  * where ss = log(x) - 1 in already in extra precision
693  */
694 	/* INDENT ON */
695 	z = one / x;
696 	r = x - half;
697 	r_h = CHOPPED((r));
698 	w_h = r_h * ss_h + hln2pim1_h;
699 	z2 = z * z;
700 	w = (r - r_h) * ss_h + r * ss_l;
701 	t1 = GP[19];
702 	for (i = 18; i > 0; i--)
703 		t1 = z2 * t1 + GP[i];
704 	w += hln2pim1_l;
705 	w_l = z * (GP[0] + z2 * t1) + w;
706 	k = (int) ((w_h + w_l) * invln2_32 + half);
707 
708 	/* compute the exponential of w_h+w_l */
709 
710 	j = k & 0x1f;
711 	*m = k >> 5;
712 	t3 = (long double) k;
713 
714 	/* perform w - k*ln2_32 (represent as w_h - w_l) */
715 	t1 = w_h - t3 * ln2_32hi;
716 	t2 = t3 * ln2_32lo;
717 	w = t2 - w_l;
718 	w_h = t1 - w;
719 	w_l = w - (t1 - w_h);
720 
721 	/* compute exp(w_h-w_l) */
722 	z = w_h - w_l;
723 	for (t1 = Et[10], i = 9; i >= 0; i--)
724 		t1 = z * t1 + Et[i];
725 	t3 = w_h - (w_l - (z * z) * t1);	/* t3 = expm1(z) */
726 	zz.l = S_trail[j] * (one + t3) + S[j] * t3;
727 	zz.h = S[j];
728 	return (zz);
729 }
730 
731 /* INDENT OFF */
732 /*
733  * kpsin(x)= sin(pi*x)/pi
734  *	           3        5        7        9        11                27
735  *	= x+ks[0]*x +ks[1]*x +ks[2]*x +ks[3]*x +ks[4]*x  + ... + ks[12]*x
736  */
737 static const long double ks[] = {
738 	-1.64493406684822643647241516664602518705158902870e+0000L,
739 	+8.11742425283353643637002772405874238094995726160e-0001L,
740 	-1.90751824122084213696472111835337366232282723933e-0001L,
741 	+2.61478478176548005046532613563241288115395517084e-0002L,
742 	-2.34608103545582363750893072647117829448016479971e-0003L,
743 	+1.48428793031071003684606647212534027556262040158e-0004L,
744 	-6.97587366165638046518462722252768122615952898698e-0006L,
745 	+2.53121740413702536928659271747187500934840057929e-0007L,
746 	-7.30471182221385990397683641695766121301933621956e-0009L,
747 	+1.71653847451163495739958249695549313987973589884e-0010L,
748 	-3.34813314714560776122245796929054813458341420565e-0012L,
749 	+5.50724992262622033449487808306969135431411753047e-0014L,
750 	-7.67678132753577998601234393215802221104236979928e-0016L,
751 };
752 /* INDENT ON */
753 
754 /*
755  * assume x is not tiny and positive
756  */
757 static struct LDouble
758 kpsin(long double x) {
759 	long double z, t1, t2;
760 	struct LDouble xx;
761 	int i;
762 
763 	z = x * x;
764 	xx.h = x;
765 	for (t2 = ks[12], i = 11; i > 0; i--)
766 		t2 = z * t2 + ks[i];
767 	t1 = z * x;
768 	t2 *= z * t1;
769 	xx.l = t1 * ks[0] + t2;
770 	return (xx);
771 }
772 
773 /* INDENT OFF */
774 /*
775  * kpcos(x)= cos(pi*x)/pi
776  *                     2        4        6        8        10        12
777  *	= 1/pi +kc[0]*x +kc[1]*x +kc[2]*x +kc[3]*x +kc[4]*x  +kc[5]*x
778  *
779  *                     2        4        6        8        10            22
780  *	= 1/pi - pi/2*x +kc[0]*x +kc[1]*x +kc[2]*x +kc[3]*x  +...+kc[9]*x
781  *
782  * -pi/2*x*x = (npi_2_h + npi_2_l) * (x_f+x_l)*(x_f+x_l)
783  *	   =  npi_2_h*(x_f+x_l)*(x_f+x_l) + npi_2_l*x*x
784  *	   =  npi_2_h*x_f*x_f + npi_2_h*(x*x-x_f*x_f) + npi_2_l*x*x
785  *	   =  npi_2_h*x_f*x_f + npi_2_h*(x+x_f)*(x-x_f) + npi_2_l*x*x
786  * Here x_f = (long double) (float)x
787  * Note that pi/2(in hex) =
788  *  1.921FB54442D18469898CC51701B839A252049C1114CF98E804177D4C76273644A29
789  * npi_2_h = -pi/2 chopped to 25 bits = -1.921FB50000000000000000000000000 =
790  *  -1.570796310901641845703125000000000 and
791  * npi_2_l =
792  *  -0.0000004442D18469898CC51701B839A252049C1114CF98E804177D4C76273644A29 =
793  *  -.0000000158932547735281966916397514420985846996875529104874722961539 =
794  *  -1.5893254773528196691639751442098584699687552910487472296153e-8
795  * 1/pi(in hex) =
796  *  .517CC1B727220A94FE13ABE8FA9A6EE06DB14ACC9E21C820FF28B1D5EF5DE2B
797  * will be splitted into:
798  *  one_pi_h = 1/pi chopped to 48 bits = .517CC1B727220000000000...  and
799  *  one_pi_l = .0000000000000A94FE13ABE8FA9A6EE06DB14ACC9E21C820FF28B1D5EF5DE2B
800  */
801 
802 static const long double
803 #if defined(__x86)
804 one_pi_h = 0.3183098861481994390487670898437500L,	/* 31 bits */
805 one_pi_l = 3.559123248900043690127872406891929148e-11L,
806 #else
807 one_pi_h = 0.31830988618379052468299050815403461456298828125L,
808 one_pi_l = 1.46854777018590994109505931010230912897495334688117e-16L,
809 #endif
810 npi_2_h = -1.570796310901641845703125000000000L,
811 npi_2_l = -1.5893254773528196691639751442098584699687552910e-8L;
812 
813 static const long double kc[] = {
814 	+1.29192819501249250731151312779548918765320728489e+0000L,
815 	-4.25027339979557573976029596929319207009444090366e-0001L,
816 	+7.49080661650990096109672954618317623888421628613e-0002L,
817 	-8.21458866111282287985539464173976555436050215120e-0003L,
818 	+6.14202578809529228503205255165761204750211603402e-0004L,
819 	-3.33073432691149607007217330302595267179545908740e-0005L,
820 	+1.36970959047832085796809745461530865597993680204e-0006L,
821 	-4.41780774262583514450246512727201806217271097336e-0008L,
822 	+1.14741409212381858820016567664488123478660705759e-0009L,
823 	-2.44261236114707374558437500654381006300502749632e-0011L,
824 };
825 /* INDENT ON */
826 
827 /*
828  * assume x is not tiny and positive
829  */
830 static struct LDouble
831 kpcos(long double x) {
832 	long double z, t1, t2, t3, t4, x4, x8;
833 	int i;
834 	struct LDouble xx;
835 
836 	z = x * x;
837 	xx.h = one_pi_h;
838 	t1 = (long double) ((float) x);
839 	x4 = z * z;
840 	t2 = npi_2_l * z + npi_2_h * (x + t1) * (x - t1);
841 	for (i = 8, t3 = kc[9]; i >= 0; i--)
842 		t3 = z * t3 + kc[i];
843 	t3 = one_pi_l + x4 * t3;
844 	t4 = t1 * t1 * npi_2_h;
845 	x8 = t2 + t3;
846 	xx.l = x8 + t4;
847 	return (xx);
848 }
849 
850 /* INDENT OFF */
851 static const long double
852 	/* 0.13486180573279076968979393577465291700642511139552429398233 */
853 #if defined(__x86)
854 t0z1   =  0.1348618057327907696779385054997035808810L,
855 t0z1_l =  1.1855430274949336125392717150257379614654e-20L,
856 #else
857 t0z1   =  0.1348618057327907696897939357746529168654L,
858 t0z1_l =  1.4102088588676879418739164486159514674310e-37L,
859 #endif
860 	/* 0.46163214496836234126265954232572132846819620400644635129599 */
861 #if defined(__x86)
862 t0z2   =  0.4616321449683623412538115843295472018326L,
863 t0z2_l =  8.84795799617412663558532305039261747030640e-21L,
864 #else
865 t0z2   =  0.46163214496836234126265954232572132343318L,
866 t0z2_l =  5.03501162329616380465302666480916271611101e-36L,
867 #endif
868 	/* 0.81977310110050060178786870492160699631174407846245179119586 */
869 #if defined(__x86)
870 t0z3   =  0.81977310110050060178773362329351925836817L,
871 t0z3_l =  1.350816280877379435658077052534574556256230e-22L
872 #else
873 t0z3   =  0.8197731011005006017878687049216069516957449L,
874 t0z3_l =  4.461599916947014419045492615933551648857380e-35L
875 #endif
876 ;
877 /* INDENT ON */
878 
879 /*
880  * gamma(x+i) for 0 <= x < 1
881  */
882 static struct LDouble
883 gam_n(int i, long double x) {
884 	struct LDouble rr = {0.0L, 0.0L}, yy;
885 	long double r1, r2, t2, z, xh, xl, yh, yl, zh, z1, z2, zl, x5, wh, wl;
886 
887 	/* compute yy = gamma(x+1) */
888 	if (x > 0.2845L) {
889 		if (x > 0.6374L) {
890 			r1 = x - t0z3;
891 			r2 = CHOPPED((r1 - t0z3_l));
892 			t2 = r1 - r2;
893 			yy = GT3(r2, t2 - t0z3_l);
894 		} else {
895 			r1 = x - t0z2;
896 			r2 = CHOPPED((r1 - t0z2_l));
897 			t2 = r1 - r2;
898 			yy = GT2(r2, t2 - t0z2_l);
899 		}
900 	} else {
901 		r1 = x - t0z1;
902 		r2 = CHOPPED((r1 - t0z1_l));
903 		t2 = r1 - r2;
904 		yy = GT1(r2, t2 - t0z1_l);
905 	}
906 	/* compute gamma(x+i) = (x+i-1)*...*(x+1)*yy, 0<i<8 */
907 	switch (i) {
908 	case 0:		/* yy/x */
909 		r1 = one / x;
910 		xh = CHOPPED((x));	/* x is not tiny */
911 		rr.h = CHOPPED(((yy.h + yy.l) * r1));
912 		rr.l = r1 * (yy.h - rr.h * xh) - ((r1 * rr.h) * (x - xh) -
913 			r1 * yy.l);
914 		break;
915 	case 1:		/* yy */
916 		rr.h = yy.h;
917 		rr.l = yy.l;
918 		break;
919 	case 2:		/* (x+1)*yy */
920 		z = x + one;	/* may not be exact */
921 		zh = CHOPPED((z));
922 		rr.h = zh * yy.h;
923 		rr.l = z * yy.l + (x - (zh - one)) * yy.h;
924 		break;
925 	case 3:		/* (x+2)*(x+1)*yy */
926 		z1 = x + one;
927 		z2 = x + 2.0L;
928 		z = z1 * z2;
929 		xh = CHOPPED((z));
930 		zh = CHOPPED((z1));
931 		xl = (x - (zh - one)) * (z2 + zh) - (xh - zh * (zh + one));
932 
933 		rr.h = xh * yy.h;
934 		rr.l = z * yy.l + xl * yy.h;
935 		break;
936 
937 	case 4:		/* (x+1)*(x+3)*(x+2)*yy */
938 		z1 = x + 2.0L;
939 		z2 = (x + one) * (x + 3.0L);
940 		zh = CHOPPED(z1);
941 		zl = x - (zh - 2.0L);
942 		xh = CHOPPED(z2);
943 		xl = zl * (zh + z1) - (xh - (zh * zh - one));
944 
945 		/* wh+wl=(x+2)*yy */
946 		wh = CHOPPED((z1 * (yy.h + yy.l)));
947 		wl = (zl * yy.h + z1 * yy.l) - (wh - zh * yy.h);
948 
949 		rr.h = xh * wh;
950 		rr.l = z2 * wl + xl * wh;
951 
952 		break;
953 	case 5:		/* ((x+1)*(x+4)*(x+2)*(x+3))*yy */
954 		z1 = x + 2.0L;
955 		z2 = x + 3.0L;
956 		z = z1 * z2;
957 		zh = CHOPPED((z1));
958 		yh = CHOPPED((z));
959 		yl = (x - (zh - 2.0L)) * (z2 + zh) - (yh - zh * (zh + one));
960 		z2 = z - 2.0L;
961 		z *= z2;
962 		xh = CHOPPED((z));
963 		xl = yl * (z2 + yh) - (xh - yh * (yh - 2.0L));
964 		rr.h = xh * yy.h;
965 		rr.l = z * yy.l + xl * yy.h;
966 		break;
967 	case 6:		/* ((x+1)*(x+2)*(x+3)*(x+4)*(x+5))*yy */
968 		z1 = x + 2.0L;
969 		z2 = x + 3.0L;
970 		z = z1 * z2;
971 		zh = CHOPPED((z1));
972 		yh = CHOPPED((z));
973 		z1 = x - (zh - 2.0L);
974 		yl = z1 * (z2 + zh) - (yh - zh * (zh + one));
975 		z2 = z - 2.0L;
976 		x5 = x + 5.0L;
977 		z *= z2;
978 		xh = CHOPPED(z);
979 		zh += 3.0;
980 		xl = yl * (z2 + yh) - (xh - yh * (yh - 2.0L));
981 						/* xh+xl=(x+1)*...*(x+4) */
982 		/* wh+wl=(x+5)*yy */
983 		wh = CHOPPED((x5 * (yy.h + yy.l)));
984 		wl = (z1 * yy.h + x5 * yy.l) - (wh - zh * yy.h);
985 		rr.h = wh * xh;
986 		rr.l = z * wl + xl * wh;
987 		break;
988 	case 7:		/* ((x+1)*(x+2)*(x+3)*(x+4)*(x+5)*(x+6))*yy */
989 		z1 = x + 3.0L;
990 		z2 = x + 4.0L;
991 		z = z2 * z1;
992 		zh = CHOPPED((z1));
993 		yh = CHOPPED((z));	/* yh+yl = (x+3)(x+4) */
994 		yl = (x - (zh - 3.0L)) * (z2 + zh) - (yh - (zh * (zh + one)));
995 		z1 = x + 6.0L;
996 		z2 = z - 2.0L;	/* z2 = (x+2)*(x+5) */
997 		z *= z2;
998 		xh = CHOPPED((z));
999 		xl = yl * (z2 + yh) - (xh - yh * (yh - 2.0L));
1000 						/* xh+xl=(x+2)*...*(x+5) */
1001 		/* wh+wl=(x+1)(x+6)*yy */
1002 		z2 -= 4.0L;	/* z2 = (x+1)(x+6) */
1003 		wh = CHOPPED((z2 * (yy.h + yy.l)));
1004 		wl = (z2 * yy.l + yl * yy.h) - (wh - (yh - 6.0L) * yy.h);
1005 		rr.h = wh * xh;
1006 		rr.l = z * wl + xl * wh;
1007 	}
1008 	return (rr);
1009 }
1010 
1011 long double
1012 tgammal(long double x) {
1013 	struct LDouble ss, ww;
1014 	long double t, t1, t2, t3, t4, t5, w, y, z, z1, z2, z3, z5;
1015 	int i, j, m, ix, hx, xk;
1016 	unsigned lx;
1017 
1018 	hx = H0_WORD(x);
1019 	lx = H3_WORD(x);
1020 	ix = hx & 0x7fffffff;
1021 	y = x;
1022 	if (ix < 0x3f8e0000) {	/* x < 2**-113 */
1023 		return (one / x);
1024 	}
1025 	if (ix >= 0x7fff0000)
1026 		return (x * ((hx < 0)? zero : x));	/* Inf or NaN */
1027 	if (x > overflow)	/* overflow threshold */
1028 		return (x * 1.0e4932L);
1029 	if (hx >= 0x40020000) {	/* x >= 8 */
1030 		ww = large_gam(x, &m);
1031 		w = ww.h + ww.l;
1032 		return (scalbnl(w, m));
1033 	}
1034 
1035 	if (hx > 0) {		/* 0 < x < 8 */
1036 		i = (int) x;
1037 		ww = gam_n(i, x - (long double) i);
1038 		return (ww.h + ww.l);
1039 	}
1040 	/* INDENT OFF */
1041 	/* negative x */
1042 	/*
1043 	 * compute xk =
1044 	 *	-2 ... x is an even int (-inf is considered an even #)
1045 	 *	-1 ... x is an odd int
1046 	 *	+0 ... x is not an int but chopped to an even int
1047 	 *	+1 ... x is not an int but chopped to an odd int
1048 	 */
1049 	/* INDENT ON */
1050 	xk = 0;
1051 #if defined(__x86)
1052 	if (ix >= 0x403e0000) {	/* x >= 2**63 } */
1053 		if (ix >= 0x403f0000)
1054 			xk = -2;
1055 		else
1056 			xk = -2 + (lx & 1);
1057 #else
1058 	if (ix >= 0x406f0000) {	/* x >= 2**112 */
1059 		if (ix >= 0x40700000)
1060 			xk = -2;
1061 		else
1062 			xk = -2 + (lx & 1);
1063 #endif
1064 	} else if (ix >= 0x3fff0000) {
1065 		w = -x;
1066 		t1 = floorl(w);
1067 		t2 = t1 * half;
1068 		t3 = floorl(t2);
1069 		if (t1 == w) {
1070 			if (t2 == t3)
1071 				xk = -2;
1072 			else
1073 				xk = -1;
1074 		} else {
1075 			if (t2 == t3)
1076 				xk = 0;
1077 			else
1078 				xk = 1;
1079 		}
1080 	}
1081 
1082 	if (xk < 0) {
1083 		/* return NaN. Ideally gamma(-n)= (-1)**(n+1) * inf */
1084 		return (x - x) / (x - x);
1085 	}
1086 
1087 	/*
1088 	 * negative underflow thresold -(1774+9ulp)
1089 	 */
1090 	if (x < -1774.0000000000000000000000000000017749370L) {
1091 		z = tiny / x;
1092 		if (xk == 1)
1093 			z = -z;
1094 		return (z * tiny);
1095 	}
1096 
1097 	/* INDENT OFF */
1098 	/*
1099 	 * now compute gamma(x) by  -1/((sin(pi*y)/pi)*gamma(1+y)), y = -x
1100 	 */
1101 	/*
1102 	 * First compute ss = -sin(pi*y)/pi so that
1103 	 * gamma(x) = 1/(ss*gamma(1+y))
1104 	 */
1105 	/* INDENT ON */
1106 	y = -x;
1107 	j = (int) y;
1108 	z = y - (long double) j;
1109 	if (z > 0.3183098861837906715377675L)
1110 		if (z > 0.6816901138162093284622325L)
1111 			ss = kpsin(one - z);
1112 		else
1113 			ss = kpcos(0.5L - z);
1114 	else
1115 		ss = kpsin(z);
1116 	if (xk == 0) {
1117 		ss.h = -ss.h;
1118 		ss.l = -ss.l;
1119 	}
1120 
1121 	/* Then compute ww = gamma(1+y), note that result scale to 2**m */
1122 	m = 0;
1123 	if (j < 7) {
1124 		ww = gam_n(j + 1, z);
1125 	} else {
1126 		w = y + one;
1127 		if ((lx & 1) == 0) {	/* y+1 exact (note that y<184) */
1128 			ww = large_gam(w, &m);
1129 		} else {
1130 			t = w - one;
1131 			if (t == y) {	/* y+one exact */
1132 				ww = large_gam(w, &m);
1133 			} else {	/* use y*gamma(y) */
1134 				if (j == 7)
1135 					ww = gam_n(j, z);
1136 				else
1137 					ww = large_gam(y, &m);
1138 				t4 = ww.h + ww.l;
1139 				t1 = CHOPPED((y));
1140 				t2 = CHOPPED((t4));
1141 						/* t4 will not be too large */
1142 				ww.l = y * (ww.l - (t2 - ww.h)) + (y - t1) * t2;
1143 				ww.h = t1 * t2;
1144 			}
1145 		}
1146 	}
1147 
1148 	/* compute 1/(ss*ww) */
1149 	t3 = ss.h + ss.l;
1150 	t4 = ww.h + ww.l;
1151 	t1 = CHOPPED((t3));
1152 	t2 = CHOPPED((t4));
1153 	z1 = ss.l - (t1 - ss.h);	/* (t1,z1) = ss */
1154 	z2 = ww.l - (t2 - ww.h);	/* (t2,z2) = ww */
1155 	t3 = t3 * t4;			/* t3 = ss*ww */
1156 	z3 = one / t3;			/* z3 = 1/(ss*ww) */
1157 	t5 = t1 * t2;
1158 	z5 = z1 * t4 + t1 * z2;		/* (t5,z5) = ss*ww */
1159 	t1 = CHOPPED((t3));		/* (t1,z1) = ss*ww */
1160 	z1 = z5 - (t1 - t5);
1161 	t2 = CHOPPED((z3));		/* leading 1/(ss*ww) */
1162 	z2 = z3 * (t2 * z1 - (one - t2 * t1));
1163 	z = t2 - z2;
1164 
1165 	return (scalbnl(z, -m));
1166 }
1167