/** * This file has no copyright assigned and is placed in the Public Domain. * This file is part of the w64 mingw-runtime package. * No warranty is given; refer to the file DISCLAIMER.PD within this package. */ #include "cephes_mconf.h" #ifndef _SET_ERRNO #define _SET_ERRNO(x) #endif /* Table size */ #define NXT 32 /* log2(Table size) */ #define LNXT 5 #ifdef UNK /* log(1+x) = x - .5x^2 + x^3 * P(z)/Q(z) * on the domain 2^(-1/32) - 1 <= x <= 2^(1/32) - 1 */ static uLD P[4] = { { { 8.3319510773868690346226E-4L } }, { { 4.9000050881978028599627E-1L } }, { { 1.7500123722550302671919E0L } }, { { 1.4000100839971580279335E0L } } }; static uLD Q[3] = { { { 5.2500282295834889175431E0L } }, { { 8.4000598057587009834666E0L } }, { { 4.2000302519914740834728E0L } } }; /* A[i] = 2^(-i/32), rounded to IEEE long double precision. * If i is even, A[i] + B[i/2] gives additional accuracy. */ static uLD A[33] = { { { 1.0000000000000000000000E0L } }, { { 9.7857206208770013448287E-1L } }, { { 9.5760328069857364691013E-1L } }, { { 9.3708381705514995065011E-1L } }, { { 9.1700404320467123175367E-1L } }, { { 8.9735453750155359320742E-1L } }, { { 8.7812608018664974155474E-1L } }, { { 8.5930964906123895780165E-1L } }, { { 8.4089641525371454301892E-1L } }, { { 8.2287773907698242225554E-1L } }, { { 8.0524516597462715409607E-1L } }, { { 7.8799042255394324325455E-1L } }, { { 7.7110541270397041179298E-1L } }, { { 7.5458221379671136985669E-1L } }, { { 7.3841307296974965571198E-1L } }, { { 7.2259040348852331001267E-1L } }, { { 7.0710678118654752438189E-1L } }, { { 6.9195494098191597746178E-1L } }, { { 6.7712777346844636413344E-1L } }, { { 6.6261832157987064729696E-1L } }, { { 6.4841977732550483296079E-1L } }, { { 6.3452547859586661129850E-1L } }, { { 6.2092890603674202431705E-1L } }, { { 6.0762367999023443907803E-1L } }, { { 5.9460355750136053334378E-1L } }, { { 5.8186242938878875689693E-1L } }, { { 5.6939431737834582684856E-1L } }, { { 5.5719337129794626814472E-1L } }, { { 5.4525386633262882960438E-1L } }, { { 5.3357020033841180906486E-1L } }, { { 5.2213689121370692017331E-1L } }, { { 5.1094857432705833910408E-1L } }, { { 5.0000000000000000000000E-1L } } }; static uLD B[17] = { { { 0.0000000000000000000000E0L } }, { { 2.6176170809902549338711E-20L } }, { { -1.0126791927256478897086E-20L } }, { { 1.3438228172316276937655E-21L } }, { { 1.2207982955417546912101E-20L } }, { { -6.3084814358060867200133E-21L } }, { { 1.3164426894366316434230E-20L } }, { { -1.8527916071632873716786E-20L } }, { { 1.8950325588932570796551E-20L } }, { { 1.5564775779538780478155E-20L } }, { { 6.0859793637556860974380E-21L } }, { { -2.0208749253662532228949E-20L } }, { { 1.4966292219224761844552E-20L } }, { { 3.3540909728056476875639E-21L } }, { { -8.6987564101742849540743E-22L } }, { { -1.2327176863327626135542E-20L } }, { { 0.0000000000000000000000E0L } } }; /* 2^x = 1 + x P(x), * on the interval -1/32 <= x <= 0 */ static uLD R[] = { { { 1.5089970579127659901157E-5L } }, { { 1.5402715328927013076125E-4L } }, { { 1.3333556028915671091390E-3L } }, { { 9.6181291046036762031786E-3L } }, { { 5.5504108664798463044015E-2L } }, { { 2.4022650695910062854352E-1L } }, { { 6.9314718055994530931447E-1L } } }; #define douba(k) A[k].d #define doubb(k) B[k].d #define MEXP (NXT*16384.0L) /* The following if denormal numbers are supported, else -MEXP: */ #ifdef DENORMAL #define MNEXP (-NXT*(16384.0L+64.0L)) #else #define MNEXP (-NXT*16384.0L) #endif /* log2(e) - 1 */ #define LOG2EA 0.44269504088896340735992L #endif #ifdef IBMPC static const uLD P[] = { { { 0xb804,0xa8b7,0xc6f4,0xda6a,0x3ff4, 0, 0, 0 } }, { { 0x7de9,0xcf02,0x58c0,0xfae1,0x3ffd, 0, 0, 0 } }, { { 0x405a,0x3722,0x67c9,0xe000,0x3fff, 0, 0, 0 } }, { { 0xcd99,0x6b43,0x87ca,0xb333,0x3fff, 0, 0, 0 } } }; static const uLD Q[] = { { { 0x6307,0xa469,0x3b33,0xa800,0x4001, 0, 0, 0 } }, { { 0xfec2,0x62d7,0xa51c,0x8666,0x4002, 0, 0, 0 } }, { { 0xda32,0xd072,0xa5d7,0x8666,0x4001, 0, 0, 0 } } }; static const uLD A[] = { { { 0x0000,0x0000,0x0000,0x8000,0x3fff, 0, 0, 0 } }, { { 0x033a,0x722a,0xb2db,0xfa83,0x3ffe, 0, 0, 0 } }, { { 0xcc2c,0x2486,0x7d15,0xf525,0x3ffe, 0, 0, 0 } }, { { 0xf5cb,0xdcda,0xb99b,0xefe4,0x3ffe, 0, 0, 0 } }, { { 0x392f,0xdd24,0xc6e7,0xeac0,0x3ffe, 0, 0, 0 } }, { { 0x48a8,0x7c83,0x06e7,0xe5b9,0x3ffe, 0, 0, 0 } }, { { 0xe111,0x2a94,0xdeec,0xe0cc,0x3ffe, 0, 0, 0 } }, { { 0x3755,0xdaf2,0xb797,0xdbfb,0x3ffe, 0, 0, 0 } }, { { 0x6af4,0xd69d,0xfcca,0xd744,0x3ffe, 0, 0, 0 } }, { { 0xe45a,0xf12a,0x1d91,0xd2a8,0x3ffe, 0, 0, 0 } }, { { 0x80e4,0x1f84,0x8c15,0xce24,0x3ffe, 0, 0, 0 } }, { { 0x27a3,0x6e2f,0xbd86,0xc9b9,0x3ffe, 0, 0, 0 } }, { { 0xdadd,0x5506,0x2a11,0xc567,0x3ffe, 0, 0, 0 } }, { { 0x9456,0x6670,0x4cca,0xc12c,0x3ffe, 0, 0, 0 } }, { { 0x36bf,0x580c,0xa39f,0xbd08,0x3ffe, 0, 0, 0 } }, { { 0x9ee9,0x62fb,0xaf47,0xb8fb,0x3ffe, 0, 0, 0 } }, { { 0x6484,0xf9de,0xf333,0xb504,0x3ffe, 0, 0, 0 } }, { { 0x2590,0xd2ac,0xf581,0xb123,0x3ffe, 0, 0, 0 } }, { { 0x4ac6,0x42a1,0x3eea,0xad58,0x3ffe, 0, 0, 0 } }, { { 0x0ef8,0xea7c,0x5ab4,0xa9a1,0x3ffe, 0, 0, 0 } }, { { 0x38ea,0xb151,0xd6a9,0xa5fe,0x3ffe, 0, 0, 0 } }, { { 0x6819,0x0c49,0x4303,0xa270,0x3ffe, 0, 0, 0 } }, { { 0x11ae,0x91a1,0x3260,0x9ef5,0x3ffe, 0, 0, 0 } }, { { 0x5539,0xd54e,0x39b9,0x9b8d,0x3ffe, 0, 0, 0 } }, { { 0xa96f,0x8db8,0xf051,0x9837,0x3ffe, 0, 0, 0 } }, { { 0x0961,0xfef7,0xefa8,0x94f4,0x3ffe, 0, 0, 0 } }, { { 0xc336,0xab11,0xd373,0x91c3,0x3ffe, 0, 0, 0 } }, { { 0x53c0,0x45cd,0x398b,0x8ea4,0x3ffe, 0, 0, 0 } }, { { 0xd6e7,0xea8b,0xc1e3,0x8b95,0x3ffe, 0, 0, 0 } }, { { 0x8527,0x92da,0x0e80,0x8898,0x3ffe, 0, 0, 0 } }, { { 0x7b15,0xcc48,0xc367,0x85aa,0x3ffe, 0, 0, 0 } }, { { 0xa1d7,0xac2b,0x8698,0x82cd,0x3ffe, 0, 0, 0 } }, { { 0x0000,0x0000,0x0000,0x8000,0x3ffe, 0, 0, 0 } } }; static const uLD B[] = { { { 0x0000,0x0000,0x0000,0x0000,0x0000, 0, 0, 0 } }, { { 0x1f87,0xdb30,0x18f5,0xf73a,0x3fbd, 0, 0, 0 } }, { { 0xac15,0x3e46,0x2932,0xbf4a,0xbfbc, 0, 0, 0 } }, { { 0x7944,0xba66,0xa091,0xcb12,0x3fb9, 0, 0, 0 } }, { { 0xff78,0x40b4,0x2ee6,0xe69a,0x3fbc, 0, 0, 0 } }, { { 0xc895,0x5069,0xe383,0xee53,0xbfbb, 0, 0, 0 } }, { { 0x7cde,0x9376,0x4325,0xf8ab,0x3fbc, 0, 0, 0 } }, { { 0xa10c,0x25e0,0xc093,0xaefd,0xbfbd, 0, 0, 0 } }, { { 0x7d3e,0xea95,0x1366,0xb2fb,0x3fbd, 0, 0, 0 } }, { { 0x5d89,0xeb34,0x5191,0x9301,0x3fbd, 0, 0, 0 } }, { { 0x80d9,0xb883,0xfb10,0xe5eb,0x3fbb, 0, 0, 0 } }, { { 0x045d,0x288c,0xc1ec,0xbedd,0xbfbd, 0, 0, 0 } }, { { 0xeded,0x5c85,0x4630,0x8d5a,0x3fbd, 0, 0, 0 } }, { { 0x9d82,0xe5ac,0x8e0a,0xfd6d,0x3fba, 0, 0, 0 } }, { { 0x6dfd,0xeb58,0xaf14,0x8373,0xbfb9, 0, 0, 0 } }, { { 0xf938,0x7aac,0x91cf,0xe8da,0xbfbc, 0, 0, 0 } }, { { 0x0000,0x0000,0x0000,0x0000,0x0000, 0, 0, 0 } } }; static const uLD R[] = { { { 0xa69b,0x530e,0xee1d,0xfd2a,0x3fee, 0, 0, 0 } }, { { 0xc746,0x8e7e,0x5960,0xa182,0x3ff2, 0, 0, 0 } }, { { 0x63b6,0xadda,0xfd6a,0xaec3,0x3ff5, 0, 0, 0 } }, { { 0xc104,0xfd99,0x5b7c,0x9d95,0x3ff8, 0, 0, 0 } }, { { 0xe05e,0x249d,0x46b8,0xe358,0x3ffa, 0, 0, 0 } }, { { 0x5d1d,0x162c,0xeffc,0xf5fd,0x3ffc, 0, 0, 0 } }, { { 0x79aa,0xd1cf,0x17f7,0xb172,0x3ffe, 0, 0, 0 } } }; /* 10 byte sizes versus 12 byte */ #define douba(k) (A[(k)].ld) #define doubb(k) (B[(k)].ld) #define MEXP (NXT*16384.0L) #ifdef DENORMAL #define MNEXP (-NXT*(16384.0L+64.0L)) #else #define MNEXP (-NXT*16384.0L) #endif static const union { unsigned short L[8]; long double ld; } log2ea = {{0xc2ef,0x705f,0xeca5,0xe2a8,0x3ffd, 0, 0, 0}}; #define LOG2EA (log2ea.ld) /* #define LOG2EA 0.44269504088896340735992L */ #endif #ifdef MIEEE static uLD P[] = { { { 0x3ff40000,0xda6ac6f4,0xa8b7b804, 0 } }, { { 0x3ffd0000,0xfae158c0,0xcf027de9, 0 } }, { { 0x3fff0000,0xe00067c9,0x3722405a, 0 } }, { { 0x3fff0000,0xb33387ca,0x6b43cd99, 0 } } }; static uLD Q[] = { { { 0x40010000,0xa8003b33,0xa4696307, 0 } }, { { 0x40020000,0x8666a51c,0x62d7fec2, 0 } }, { { 0x40010000,0x8666a5d7,0xd072da32, 0 } } }; static uLD A[] = { { { 0x3fff0000,0x80000000,0x00000000, 0 } }, { { 0x3ffe0000,0xfa83b2db,0x722a033a, 0 } }, { { 0x3ffe0000,0xf5257d15,0x2486cc2c, 0 } }, { { 0x3ffe0000,0xefe4b99b,0xdcdaf5cb, 0 } }, { { 0x3ffe0000,0xeac0c6e7,0xdd24392f, 0 } }, { { 0x3ffe0000,0xe5b906e7,0x7c8348a8, 0 } }, { { 0x3ffe0000,0xe0ccdeec,0x2a94e111, 0 } }, { { 0x3ffe0000,0xdbfbb797,0xdaf23755, 0 } }, { { 0x3ffe0000,0xd744fcca,0xd69d6af4, 0 } }, { { 0x3ffe0000,0xd2a81d91,0xf12ae45a, 0 } }, { { 0x3ffe0000,0xce248c15,0x1f8480e4, 0 } }, { { 0x3ffe0000,0xc9b9bd86,0x6e2f27a3, 0 } }, { { 0x3ffe0000,0xc5672a11,0x5506dadd, 0 } }, { { 0x3ffe0000,0xc12c4cca,0x66709456, 0 } }, { { 0x3ffe0000,0xbd08a39f,0x580c36bf, 0 } }, { { 0x3ffe0000,0xb8fbaf47,0x62fb9ee9, 0 } }, { { 0x3ffe0000,0xb504f333,0xf9de6484, 0 } }, { { 0x3ffe0000,0xb123f581,0xd2ac2590, 0 } }, { { 0x3ffe0000,0xad583eea,0x42a14ac6, 0 } }, { { 0x3ffe0000,0xa9a15ab4,0xea7c0ef8, 0 } }, { { 0x3ffe0000,0xa5fed6a9,0xb15138ea, 0 } }, { { 0x3ffe0000,0xa2704303,0x0c496819, 0 } }, { { 0x3ffe0000,0x9ef53260,0x91a111ae, 0 } }, { { 0x3ffe0000,0x9b8d39b9,0xd54e5539, 0 } }, { { 0x3ffe0000,0x9837f051,0x8db8a96f, 0 } }, { { 0x3ffe0000,0x94f4efa8,0xfef70961, 0 } }, { { 0x3ffe0000,0x91c3d373,0xab11c336, 0 } }, { { 0x3ffe0000,0x8ea4398b,0x45cd53c0, 0 } }, { { 0x3ffe0000,0x8b95c1e3,0xea8bd6e7, 0 } }, { { 0x3ffe0000,0x88980e80,0x92da8527, 0 } }, { { 0x3ffe0000,0x85aac367,0xcc487b15, 0 } }, { { 0x3ffe0000,0x82cd8698,0xac2ba1d7, 0 } }, { { 0x3ffe0000,0x80000000,0x00000000, 0 } } }; static uLD B[] = { { { 0x00000000,0x00000000,0x00000000, 0 } }, { { 0x3fbd0000,0xf73a18f5,0xdb301f87, 0 } }, { { 0xbfbc0000,0xbf4a2932,0x3e46ac15, 0 } }, { { 0x3fb90000,0xcb12a091,0xba667944, 0 } }, { { 0x3fbc0000,0xe69a2ee6,0x40b4ff78, 0 } }, { { 0xbfbb0000,0xee53e383,0x5069c895, 0 } }, { { 0x3fbc0000,0xf8ab4325,0x93767cde, 0 } }, { { 0xbfbd0000,0xaefdc093,0x25e0a10c, 0 } }, { { 0x3fbd0000,0xb2fb1366,0xea957d3e, 0 } }, { { 0x3fbd0000,0x93015191,0xeb345d89, 0 } }, { { 0x3fbb0000,0xe5ebfb10,0xb88380d9, 0 } }, { { 0xbfbd0000,0xbeddc1ec,0x288c045d, 0 } }, { { 0x3fbd0000,0x8d5a4630,0x5c85eded, 0 } }, { { 0x3fba0000,0xfd6d8e0a,0xe5ac9d82, 0 } }, { { 0xbfb90000,0x8373af14,0xeb586dfd, 0 } }, { { 0xbfbc0000,0xe8da91cf,0x7aacf938, 0 } }, { { 0x00000000,0x00000000,0x00000000, 0 } } }; static uLD R[] = { { { 0x3fee0000,0xfd2aee1d,0x530ea69b, 0 } }, { { 0x3ff20000,0xa1825960,0x8e7ec746, 0 } }, { { 0x3ff50000,0xaec3fd6a,0xadda63b6, 0 } }, { { 0x3ff80000,0x9d955b7c,0xfd99c104, 0 } }, { { 0x3ffa0000,0xe35846b8,0x249de05e, 0 } }, { { 0x3ffc0000,0xf5fdeffc,0x162c5d1d, 0 } }, { { 0x3ffe0000,0xb17217f7,0xd1cf79aa, 0 } } }; #define douba(k) (A[(k)].ld) #define doubb(k) (B[(k)].ld) #define MEXP (NXT*16384.0L) #ifdef DENORMAL #define MNEXP (-NXT*(16384.0L+64.0L)) #else #define MNEXP (-NXT*16382.0L) #endif static uLD L[1] = [ {0x3ffd0000,0xe2a8eca5,0x705fc2ef, 0} }; #define LOG2EA (L[0].ld) #endif #define F W #define Fa Wa #define Fb Wb #define G W #define Ga Wa #define Gb u #define H W #define Ha Wb #define Hb Wb static VOLATILE long double z; static long double w, W, Wa, Wb, ya, yb, u; static __inline__ long double reducl(long double); extern long double __powil(long double, int); extern long double powl(long double, long double); /* No error checking. We handle Infs and zeros ourselves. */ static __inline__ long double __fast_ldexpl (long double x, int expn) { long double res = 0.0L; __asm__ __volatile__ ("fscale" : "=t" (res) : "0" (x), "u" ((long double) expn)); return res; } #define ldexpl __fast_ldexpl long double powl(long double x, long double y) { /* double F, Fa, Fb, G, Ga, Gb, H, Ha, Hb */ int i, nflg, iyflg, yoddint; long e; if (y == 0.0L) return (1.0L); #ifdef NANS if (isnanl(x)) { _SET_ERRNO (EDOM); return (x); } if (isnanl(y)) { _SET_ERRNO (EDOM); return (y); } #endif if (y == 1.0L) return (x); if (isinfl(y) && (x == -1.0L || x == 1.0L)) return (y); if (x == 1.0L) return (1.0L); if (y >= MAXNUML) { _SET_ERRNO (ERANGE); #ifdef INFINITIES if (x > 1.0L) return (INFINITYL); #else if (x > 1.0L) return (MAXNUML); #endif if (x > 0.0L && x < 1.0L) return (0.0L); #ifdef INFINITIES if (x < -1.0L) return (INFINITYL); #else if (x < -1.0L) return (MAXNUML); #endif if (x > -1.0L && x < 0.0L) return (0.0L); } if (y <= -MAXNUML) { _SET_ERRNO (ERANGE); if (x > 1.0L) return (0.0L); #ifdef INFINITIES if (x > 0.0L && x < 1.0L) return (INFINITYL); #else if (x > 0.0L && x < 1.0L) return (MAXNUML); #endif if (x < -1.0L) return (0.0L); #ifdef INFINITIES if (x > -1.0L && x < 0.0L) return (INFINITYL); #else if (x > -1.0L && x < 0.0L) return (MAXNUML); #endif } if (x >= MAXNUML) { #if INFINITIES if (y > 0.0L) return (INFINITYL); #else if (y > 0.0L) return (MAXNUML); #endif return (0.0L); } w = floorl(y); /* Set iyflg to 1 if y is an integer. */ iyflg = 0; if (w == y) iyflg = 1; /* Test for odd integer y. */ yoddint = 0; if (iyflg) { ya = fabsl(y); ya = floorl(0.5L * ya); yb = 0.5L * fabsl(w); if (ya != yb) yoddint = 1; } if (x <= -MAXNUML) { if (y > 0.0L) { #ifdef INFINITIES if (yoddint) return (-INFINITYL); return (INFINITYL); #else if (yoddint) return (-MAXNUML); return (MAXNUML); #endif } if (y < 0.0L) { #ifdef MINUSZERO if (yoddint) return (NEGZEROL); #endif return (0.0); } } nflg = 0; /* flag = 1 if x<0 raised to integer power */ if (x <= 0.0L) { if (x == 0.0L) { if (y < 0.0) { #ifdef MINUSZERO if (signbitl(x) && yoddint) return (-INFINITYL); #endif #ifdef INFINITIES return (INFINITYL); #else return (MAXNUML); #endif } if (y > 0.0) { #ifdef MINUSZERO if (signbitl(x) && yoddint) return (NEGZEROL); #endif return (0.0); } if (y == 0.0L) return (1.0L); /* 0**0 */ else return (0.0L); /* 0**y */ } else { if (iyflg == 0) { /* noninteger power of negative number */ mtherr(fname, DOMAIN); _SET_ERRNO (EDOM); #ifdef NANS return (NANL); #else return (0.0L); #endif } nflg = 1; } } /* Integer power of an integer. */ if (iyflg) { i = w; w = floorl(x); if ((w == x) && (fabsl(y) < 32768.0)) { w = __powil(x, (int) y); return (w); } } if (nflg) x = fabsl(x); /* separate significand from exponent */ x = frexpl( x, &i ); e = i; /* find significand in antilog table A[] */ i = 1; if (x <= douba(17)) i = 17; if (x <= douba(i + 8)) i += 8; if (x <= douba(i + 4)) i += 4; if (x <= douba(i + 2)) i += 2; if (x >= douba(1)) i = -1; i += 1; /* Find (x - A[i])/A[i] * in order to compute log(x/A[i]): * * log(x) = log( a x/a ) = log(a) + log(x/a) * * log(x/a) = log(1+v), v = x/a - 1 = (x-a)/a */ x -= douba(i); x -= doubb(i/2); x /= douba(i); /* rational approximation for log(1+v): * * log(1+v) = v - v**2/2 + v**3 P(v) / Q(v) */ z = x*x; w = x * ( z * polevll(x, P, 3) / p1evll(x, Q, 3) ); w = w - ldexpl(z, -1); /* w - 0.5 * z */ /* Convert to base 2 logarithm: * multiply by log2(e) = 1 + LOG2EA */ z = LOG2EA * w; z += w; z += LOG2EA * x; z += x; /* Compute exponent term of the base 2 logarithm. */ w = -i; w = ldexpl(w, -LNXT); /* divide by NXT */ w += e; /* Now base 2 log of x is w + z. */ /* Multiply base 2 log by y, in extended precision. */ /* separate y into large part ya * and small part yb less than 1/NXT */ ya = reducl(y); yb = y - ya; /* (w+z)(ya+yb) * = w*ya + w*yb + z*y */ F = z * y + w * yb; Fa = reducl(F); Fb = F - Fa; G = Fa + w * ya; Ga = reducl(G); Gb = G - Ga; H = Fb + Gb; Ha = reducl(H); w = ldexpl(Ga + Ha, LNXT); /* Test the power of 2 for overflow */ if (w > MEXP) { _SET_ERRNO (ERANGE); mtherr(fname, OVERFLOW); return (MAXNUML); } if (w < MNEXP) { _SET_ERRNO (ERANGE); mtherr(fname, UNDERFLOW); return (0.0L); } e = w; Hb = H - Ha; if (Hb > 0.0L) { e += 1; Hb -= (1.0L/NXT); /*0.0625L;*/ } /* Now the product y * log2(x) = Hb + e/NXT. * * Compute base 2 exponential of Hb, * where -0.0625 <= Hb <= 0. */ z = Hb * polevll(Hb, R, 6); /* z = 2**Hb - 1 */ /* Express e/NXT as an integer plus a negative number of (1/NXT)ths. * Find lookup table entry for the fractional power of 2. */ if (e < 0) i = 0; else i = 1; i = e/NXT + i; e = NXT*i - e; w = douba(e); z = w * z; /* 2**-e * ( 1 + (2**Hb-1) ) */ z = z + w; z = ldexpl(z, i); /* multiply by integer power of 2 */ if (nflg) { /* For negative x, * find out if the integer exponent * is odd or even. */ w = ldexpl(y, -1); w = floorl(w); w = ldexpl(w, 1); if (w != y) z = -z; /* odd exponent */ } return (z); } static __inline__ long double __convert_inf_to_maxnum(long double x) { if (isinf(x)) return (x > 0.0L ? MAXNUML : -MAXNUML); else return x; } /* Find a multiple of 1/NXT that is within 1/NXT of x. */ static long double reducl(long double x) { long double t; /* If the call to ldexpl overflows, set it to MAXNUML. This avoids Inf - Inf = Nan result when calculating the 'small' part of a reduction. Instead, the small part becomes Inf, causing under/overflow when adding it to the 'large' part. There must be a cleaner way of doing this. */ t = __convert_inf_to_maxnum (ldexpl( x, LNXT )); t = floorl(t); t = ldexpl(t, -LNXT); return (t); }