1 /* @(#)e_lgamma_r.c 1.3 95/01/18 */ 2 /* 3 * ==================================================== 4 * Copyright (C) 1993 by Sun Microsystems, Inc. All rights reserved. 5 * 6 * Developed at SunSoft, a Sun Microsystems, Inc. business. 7 * Permission to use, copy, modify, and distribute this 8 * software is freely granted, provided that this notice 9 * is preserved. 10 * ==================================================== 11 */ 12 13 #include <sys/cdefs.h> 14 __FBSDID("$FreeBSD$"); 15 16 /* 17 * See e_lgamma_r.c for complete comments. 18 * 19 * Converted to long double by Steven G. Kargl. 20 */ 21 22 #ifdef __i386__ 23 #include <ieeefp.h> 24 #endif 25 26 #include "fpmath.h" 27 #include "math.h" 28 #include "math_private.h" 29 30 static const volatile double vzero = 0; 31 32 static const double 33 zero= 0, 34 half= 0.5, 35 one = 1; 36 37 static const union IEEEl2bits 38 piu = LD80C(0xc90fdaa22168c235, 1, 3.14159265358979323851e+00L); 39 #define pi (piu.e) 40 /* 41 * Domain y in [0x1p-70, 0.27], range ~[-4.5264e-22, 4.5264e-22]: 42 * |(lgamma(2 - y) + y / 2) / y - a(y)| < 2**-70.9 43 */ 44 static const union IEEEl2bits 45 a0u = LD80C(0x9e233f1bed863d26, -4, 7.72156649015328606028e-02L), 46 a1u = LD80C(0xa51a6625307d3249, -2, 3.22467033424113218889e-01L), 47 a2u = LD80C(0x89f000d2abafda8c, -4, 6.73523010531979398946e-02L), 48 a3u = LD80C(0xa8991563eca75f26, -6, 2.05808084277991211934e-02L), 49 a4u = LD80C(0xf2027e10634ce6b6, -8, 7.38555102796070454026e-03L), 50 a5u = LD80C(0xbd6eb76dd22187f4, -9, 2.89051035162703932972e-03L), 51 a6u = LD80C(0x9c562ab05e0458ed, -10, 1.19275351624639999297e-03L), 52 a7u = LD80C(0x859baed93ee48e46, -11, 5.09674593842117925320e-04L), 53 a8u = LD80C(0xe9f28a4432949af2, -13, 2.23109648015769155122e-04L), 54 a9u = LD80C(0xd12ad0d9b93c6bb0, -14, 9.97387167479808509830e-05L), 55 a10u= LD80C(0xb7522643c78a219b, -15, 4.37071076331030136818e-05L), 56 a11u= LD80C(0xca024dcdece2cb79, -16, 2.40813493372040143061e-05L), 57 a12u= LD80C(0xbb90fb6968ebdbf9, -19, 2.79495621083634031729e-06L), 58 a13u= LD80C(0xba1c9ffeeae07b37, -17, 1.10931287015513924136e-05L); 59 #define a0 (a0u.e) 60 #define a1 (a1u.e) 61 #define a2 (a2u.e) 62 #define a3 (a3u.e) 63 #define a4 (a4u.e) 64 #define a5 (a5u.e) 65 #define a6 (a6u.e) 66 #define a7 (a7u.e) 67 #define a8 (a8u.e) 68 #define a9 (a9u.e) 69 #define a10 (a10u.e) 70 #define a11 (a11u.e) 71 #define a12 (a12u.e) 72 #define a13 (a13u.e) 73 /* 74 * Domain x in [tc-0.24, tc+0.28], range ~[-6.1205e-22, 6.1205e-22]: 75 * |(lgamma(x) - tf) - t(x - tc)| < 2**-70.5 76 */ 77 static const union IEEEl2bits 78 tcu = LD80C(0xbb16c31ab5f1fb71, 0, 1.46163214496836234128e+00L), 79 tfu = LD80C(0xf8cdcde61c520e0f, -4, -1.21486290535849608093e-01L), 80 ttu = LD80C(0xd46ee54b27d4de99, -69, -2.81152980996018785880e-21L), 81 t0u = LD80C(0x80b9406556a62a6b, -68, 3.40728634996055147231e-21L), 82 t1u = LD80C(0xc7e9c6f6df3f8c39, -67, -1.05833162742737073665e-20L), 83 t2u = LD80C(0xf7b95e4771c55d51, -2, 4.83836122723810583532e-01L), 84 t3u = LD80C(0x97213c6e35e119ff, -3, -1.47587722994530691476e-01L), 85 t4u = LD80C(0x845a14a6a81dc94b, -4, 6.46249402389135358063e-02L), 86 t5u = LD80C(0x864d46fa89997796, -5, -3.27885410884846056084e-02L), 87 t6u = LD80C(0x93373cbd00297438, -6, 1.79706751150707171293e-02L), 88 t7u = LD80C(0xa8fcfca7eddc8d1d, -7, -1.03142230361450732547e-02L), 89 t8u = LD80C(0xc7e7015ff4bc45af, -8, 6.10053603296546099193e-03L), 90 t9u = LD80C(0xf178d2247adc5093, -9, -3.68456964904901200152e-03L), 91 t10u = LD80C(0x94188d58f12e5e9f, -9, 2.25976420273774583089e-03L), 92 t11u = LD80C(0xb7cbaef14e1406f1, -10, -1.40224943666225639823e-03L), 93 t12u = LD80C(0xe63a671e6704ea4d, -11, 8.78250640744776944887e-04L), 94 t13u = LD80C(0x914b6c9cae61783e, -11, -5.54255012657716808811e-04L), 95 t14u = LD80C(0xb858f5bdb79276fe, -12, 3.51614951536825927370e-04L), 96 t15u = LD80C(0xea73e744c34b9591, -13, -2.23591563824520112236e-04L), 97 t16u = LD80C(0x99aeabb0d67ba835, -13, 1.46562869351659194136e-04L), 98 t17u = LD80C(0xd7c6938325db2024, -14, -1.02889866046435680588e-04L), 99 t18u = LD80C(0xe24cb1e3b0474775, -15, 5.39540265505221957652e-05L); 100 #define tc (tcu.e) 101 #define tf (tfu.e) 102 #define tt (ttu.e) 103 #define t0 (t0u.e) 104 #define t1 (t1u.e) 105 #define t2 (t2u.e) 106 #define t3 (t3u.e) 107 #define t4 (t4u.e) 108 #define t5 (t5u.e) 109 #define t6 (t6u.e) 110 #define t7 (t7u.e) 111 #define t8 (t8u.e) 112 #define t9 (t9u.e) 113 #define t10 (t10u.e) 114 #define t11 (t11u.e) 115 #define t12 (t12u.e) 116 #define t13 (t13u.e) 117 #define t14 (t14u.e) 118 #define t15 (t15u.e) 119 #define t16 (t16u.e) 120 #define t17 (t17u.e) 121 #define t18 (t18u.e) 122 /* 123 * Domain y in [-0.1, 0.232], range ~[-8.1938e-22, 8.3815e-22]: 124 * |(lgamma(1 + y) + 0.5 * y) / y - u(y) / v(y)| < 2**-71.2 125 */ 126 static const union IEEEl2bits 127 u0u = LD80C(0x9e233f1bed863d27, -4, -7.72156649015328606095e-02L), 128 u1u = LD80C(0x98280ee45e4ddd3d, -1, 5.94361239198682739769e-01L), 129 u2u = LD80C(0xe330c8ead4130733, 0, 1.77492629495841234275e+00L), 130 u3u = LD80C(0xd4a213f1a002ec52, 0, 1.66119622514818078064e+00L), 131 u4u = LD80C(0xa5a9ca6f5bc62163, -1, 6.47122051417476492989e-01L), 132 u5u = LD80C(0xc980e49cd5b019e6, -4, 9.83903751718671509455e-02L), 133 u6u = LD80C(0xff636a8bdce7025b, -9, 3.89691687802305743450e-03L), 134 v1u = LD80C(0xbd109c533a19fbf5, 1, 2.95413883330948556544e+00L), 135 v2u = LD80C(0xd295cbf96f31f099, 1, 3.29039286955665403176e+00L), 136 v3u = LD80C(0xdab8bcfee40496cb, 0, 1.70876276441416471410e+00L), 137 v4u = LD80C(0xd2f2dc3638567e9f, -2, 4.12009126299534668571e-01L), 138 v5u = LD80C(0xa07d9b0851070f41, -5, 3.91822868305682491442e-02L), 139 v6u = LD80C(0xe3cd8318f7adb2c4, -11, 8.68998648222144351114e-04L); 140 #define u0 (u0u.e) 141 #define u1 (u1u.e) 142 #define u2 (u2u.e) 143 #define u3 (u3u.e) 144 #define u4 (u4u.e) 145 #define u5 (u5u.e) 146 #define u6 (u6u.e) 147 #define v1 (v1u.e) 148 #define v2 (v2u.e) 149 #define v3 (v3u.e) 150 #define v4 (v4u.e) 151 #define v5 (v5u.e) 152 #define v6 (v6u.e) 153 /* 154 * Domain x in (2, 3], range ~[-3.3648e-22, 3.4416e-22]: 155 * |(lgamma(y+2) - 0.5 * y) / y - s(y)/r(y)| < 2**-72.3 156 * with y = x - 2. 157 */ 158 static const union IEEEl2bits 159 s0u = LD80C(0x9e233f1bed863d27, -4, -7.72156649015328606095e-02L), 160 s1u = LD80C(0xd3ff0dcc7fa91f94, -3, 2.07027640921219389860e-01L), 161 s2u = LD80C(0xb2bb62782478ef31, -2, 3.49085881391362090549e-01L), 162 s3u = LD80C(0xb49f7438c4611a74, -3, 1.76389518704213357954e-01L), 163 s4u = LD80C(0x9a957008fa27ecf9, -5, 3.77401710862930008071e-02L), 164 s5u = LD80C(0xda9b389a6ca7a7ac, -9, 3.33566791452943399399e-03L), 165 s6u = LD80C(0xbc7a2263faf59c14, -14, 8.98728786745638844395e-05L), 166 r1u = LD80C(0xbf5cff5b11477d4d, 0, 1.49502555796294337722e+00L), 167 r2u = LD80C(0xd9aec89de08e3da6, -1, 8.50323236984473285866e-01L), 168 r3u = LD80C(0xeab7ae5057c443f9, -3, 2.29216312078225806131e-01L), 169 r4u = LD80C(0xf29707d9bd2b1e37, -6, 2.96130326586640089145e-02L), 170 r5u = LD80C(0xd376c2f09736c5a3, -10, 1.61334161411590662495e-03L), 171 r6u = LD80C(0xc985983d0cd34e3d, -16, 2.40232770710953450636e-05L), 172 r7u = LD80C(0xe5c7a4f7fc2ef13d, -25, -5.34997929289167573510e-08L); 173 #define s0 (s0u.e) 174 #define s1 (s1u.e) 175 #define s2 (s2u.e) 176 #define s3 (s3u.e) 177 #define s4 (s4u.e) 178 #define s5 (s5u.e) 179 #define s6 (s6u.e) 180 #define r1 (r1u.e) 181 #define r2 (r2u.e) 182 #define r3 (r3u.e) 183 #define r4 (r4u.e) 184 #define r5 (r5u.e) 185 #define r6 (r6u.e) 186 #define r7 (r7u.e) 187 /* 188 * Domain z in [8, 0x1p70], range ~[-3.0235e-22, 3.0563e-22]: 189 * |lgamma(x) - (x - 0.5) * (log(x) - 1) - w(1/x)| < 2**-71.7 190 */ 191 static const union IEEEl2bits 192 w0u = LD80C(0xd67f1c864beb4a69, -2, 4.18938533204672741776e-01L), 193 w1u = LD80C(0xaaaaaaaaaaaaaaa1, -4, 8.33333333333333332678e-02L), 194 w2u = LD80C(0xb60b60b60b5491c9, -9, -2.77777777777760927870e-03L), 195 w3u = LD80C(0xd00d00cf58aede4c, -11, 7.93650793490637233668e-04L), 196 w4u = LD80C(0x9c09bf626783d4a5, -11, -5.95238023926039051268e-04L), 197 w5u = LD80C(0xdca7cadc5baa517b, -11, 8.41733700408000822962e-04L), 198 w6u = LD80C(0xfb060e361e1ffd07, -10, -1.91515849570245136604e-03L), 199 w7u = LD80C(0xcbd5101bb58d1f2b, -8, 6.22046743903262649294e-03L), 200 w8u = LD80C(0xad27a668d32c821b, -6, -2.11370706734662081843e-02L); 201 #define w0 (w0u.e) 202 #define w1 (w1u.e) 203 #define w2 (w2u.e) 204 #define w3 (w3u.e) 205 #define w4 (w4u.e) 206 #define w5 (w5u.e) 207 #define w6 (w6u.e) 208 #define w7 (w7u.e) 209 #define w8 (w8u.e) 210 211 static long double 212 sin_pil(long double x) 213 { 214 volatile long double vz; 215 long double y,z; 216 uint64_t n; 217 uint16_t hx; 218 219 y = -x; 220 221 vz = y+0x1p63; 222 z = vz-0x1p63; 223 if (z == y) 224 return zero; 225 226 vz = y+0x1p61; 227 EXTRACT_LDBL80_WORDS(hx,n,vz); 228 z = vz-0x1p61; 229 if (z > y) { 230 z -= 0.25; /* adjust to round down */ 231 n--; 232 } 233 n &= 7; /* octant of y mod 2 */ 234 y = y - z + n * 0.25; /* y mod 2 */ 235 236 switch (n) { 237 case 0: y = __kernel_sinl(pi*y,zero,0); break; 238 case 1: 239 case 2: y = __kernel_cosl(pi*(0.5-y),zero); break; 240 case 3: 241 case 4: y = __kernel_sinl(pi*(one-y),zero,0); break; 242 case 5: 243 case 6: y = -__kernel_cosl(pi*(y-1.5),zero); break; 244 default: y = __kernel_sinl(pi*(y-2.0),zero,0); break; 245 } 246 return -y; 247 } 248 249 long double 250 lgammal_r(long double x, int *signgamp) 251 { 252 long double nadj,p,p1,p2,q,r,t,w,y,z; 253 uint64_t lx; 254 int i; 255 uint16_t hx,ix; 256 257 EXTRACT_LDBL80_WORDS(hx,lx,x); 258 259 /* purge +-Inf and NaNs */ 260 *signgamp = 1; 261 ix = hx&0x7fff; 262 if(ix==0x7fff) return x*x; 263 264 ENTERI(); 265 266 /* purge +-0 and tiny arguments */ 267 *signgamp = 1-2*(hx>>15); 268 if(ix<0x3fff-67) { /* |x|<2**-(p+3), return -log(|x|) */ 269 if((ix|lx)==0) 270 RETURNI(one/vzero); 271 RETURNI(-logl(fabsl(x))); 272 } 273 274 /* purge negative integers and start evaluation for other x < 0 */ 275 if(hx&0x8000) { 276 *signgamp = 1; 277 if(ix>=0x3fff+63) /* |x|>=2**(p-1), must be -integer */ 278 RETURNI(one/vzero); 279 t = sin_pil(x); 280 if(t==zero) RETURNI(one/vzero); /* -integer */ 281 nadj = logl(pi/fabsl(t*x)); 282 if(t<zero) *signgamp = -1; 283 x = -x; 284 } 285 286 /* purge 1 and 2 */ 287 if((ix==0x3fff || ix==0x4000) && lx==0x8000000000000000ULL) r = 0; 288 /* for x < 2.0 */ 289 else if(ix<0x4000) { 290 /* 291 * XXX Supposedly, one can use the following information to replace the 292 * XXX FP rational expressions. A similar approach is appropriate 293 * XXX for ld128, but one (may need?) needs to consider llx, too. 294 * 295 * 8.9999961853027344e-01 3ffe e666600000000000 296 * 7.3159980773925781e-01 3ffe bb4a200000000000 297 * 2.3163998126983643e-01 3ffc ed33080000000000 298 * 1.7316312789916992e+00 3fff dda6180000000000 299 * 1.2316322326660156e+00 3fff 9da6200000000000 300 */ 301 if(x<8.9999961853027344e-01) { 302 r = -logl(x); 303 if(x>=7.3159980773925781e-01) {y = 1-x; i= 0;} 304 else if(x>=2.3163998126983643e-01) {y= x-(tc-1); i=1;} 305 else {y = x; i=2;} 306 } else { 307 r = 0; 308 if(x>=1.7316312789916992e+00) {y=2-x;i=0;} 309 else if(x>=1.2316322326660156e+00) {y=x-tc;i=1;} 310 else {y=x-1;i=2;} 311 } 312 switch(i) { 313 case 0: 314 z = y*y; 315 p1 = a0+z*(a2+z*(a4+z*(a6+z*(a8+z*(a10+z*a12))))); 316 p2 = z*(a1+z*(a3+z*(a5+z*(a7+z*(a9+z*(a11+z*a13)))))); 317 p = y*p1+p2; 318 r += p-y/2; break; 319 case 1: 320 p = t0+y*t1+tt+y*y*(t2+y*(t3+y*(t4+y*(t5+y*(t6+y*(t7+y*(t8+ 321 y*(t9+y*(t10+y*(t11+y*(t12+y*(t13+y*(t14+y*(t15+y*(t16+ 322 y*(t17+y*t18)))))))))))))))); 323 r += tf + p; break; 324 case 2: 325 p1 = y*(u0+y*(u1+y*(u2+y*(u3+y*(u4+y*(u5+y*u6)))))); 326 p2 = 1+y*(v1+y*(v2+y*(v3+y*(v4+y*(v5+y*v6))))); 327 r += p1/p2-y/2; 328 } 329 } 330 /* x < 8.0 */ 331 else if(ix<0x4002) { 332 i = x; 333 y = x-i; 334 p = y*(s0+y*(s1+y*(s2+y*(s3+y*(s4+y*(s5+y*s6)))))); 335 q = 1+y*(r1+y*(r2+y*(r3+y*(r4+y*(r5+y*(r6+y*r7)))))); 336 r = y/2+p/q; 337 z = 1; /* lgamma(1+s) = log(s) + lgamma(s) */ 338 switch(i) { 339 case 7: z *= (y+6); /* FALLTHRU */ 340 case 6: z *= (y+5); /* FALLTHRU */ 341 case 5: z *= (y+4); /* FALLTHRU */ 342 case 4: z *= (y+3); /* FALLTHRU */ 343 case 3: z *= (y+2); /* FALLTHRU */ 344 r += logl(z); break; 345 } 346 /* 8.0 <= x < 2**(p+3) */ 347 } else if (ix<0x3fff+67) { 348 t = logl(x); 349 z = one/x; 350 y = z*z; 351 w = w0+z*(w1+y*(w2+y*(w3+y*(w4+y*(w5+y*(w6+y*(w7+y*w8))))))); 352 r = (x-half)*(t-one)+w; 353 /* 2**(p+3) <= x <= inf */ 354 } else 355 r = x*(logl(x)-1); 356 if(hx&0x8000) r = nadj - r; 357 RETURNI(r); 358 } 359