/* * (c) copyright 1988 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". * * Author: Ceriel J.H. Jacobs */ /* $Header$ */ #define __NO_DEFS #include #include extern _trp(); static double floor(x) double x; { extern double _fif(); double val; return _fif(x, 1.0, &val) < 0 ? val - 1.0 : val ; /* this also works if _fif always returns a positive fractional part */ } static double ldexp(fl,exp) double fl; int exp; { extern double _fef(); int sign = 1; int currexp; if (fl<0) { fl = -fl; sign = -1; } fl = _fef(fl,&currexp); exp += currexp; if (exp > 0) { while (exp>30) { fl *= (double) (1L << 30); exp -= 30; } fl *= (double) (1L << exp); } else { while (exp<-30) { fl /= (double) (1L << 30); exp += 30; } fl /= (double) (1L << -exp); } return sign * fl; } double _exp(x) double x; { /* 2**x = (Q(x*x)+x*P(x*x))/(Q(x*x)-x*P(x*x)) for x in [0,0.5] */ /* Hart & Cheney #1069 */ static double p[3] = { 0.2080384346694663001443843411e+07, 0.3028697169744036299076048876e+05, 0.6061485330061080841615584556e+02 }; static double q[4] = { 0.6002720360238832528230907598e+07, 0.3277251518082914423057964422e+06, 0.1749287689093076403844945335e+04, 0.1000000000000000000000000000e+01 }; int negative = x < 0; int ipart, large = 0; double xsqr, xPxx, Qxx; if (x < M_LN_MIN_D) { return M_MIN_D; } if (x >= M_LN_MAX_D) { if (x > M_LN_MAX_D) { _trp(EEXP); return HUGE; } return M_MAX_D; } if (negative) { x = -x; } x /= M_LN2; ipart = floor(x); x -= ipart; if (x > 0.5) { large = 1; x -= 0.5; } xsqr = x * x; xPxx = x * POLYNOM2(xsqr, p); Qxx = POLYNOM3(xsqr, q); x = (Qxx + xPxx) / (Qxx - xPxx); if (large) x *= M_SQRT2; x = ldexp(x, ipart); if (negative) return 1.0/x; return x; }