/* * (c) copyright 1983 by the Vrije Universiteit, Amsterdam, The Netherlands. * * This product is part of the Amsterdam Compiler Kit. * * Permission to use, sell, duplicate or disclose this software must be * obtained in writing. Requests for such permissions may be sent to * * Dr. Andrew S. Tanenbaum * Wiskundig Seminarium * Vrije Universiteit * Postbox 7161 * 1007 MC Amsterdam * The Netherlands * */ /* Author: J.W. Stevenson */ #include extern double _fif(); extern double _fef(); extern _trp(); /* exp returns the exponential function of its floating-point argument. The coefficients are #1069 from Hart and Cheney. (22.35D) */ #define HUGE 1.701411733192644270e38 static double p0 = .2080384346694663001443843411e7; static double p1 = .3028697169744036299076048876e5; static double p2 = .6061485330061080841615584556e2; static double q0 = .6002720360238832528230907598e7; static double q1 = .3277251518082914423057964422e6; static double q2 = .1749287689093076403844945335e4; static double log2e = 1.4426950408889634073599247; static double sqrt2 = 1.4142135623730950488016887; static double maxf = 10000.0; static double floor(d) double d; { if (d<0) { d = -d; if (_fif(d, 1.0, &d) != 0) d += 1; d = -d; } else _fif(d, 1.0, &d); return(d); } static double ldexp(fr,exp) double fr; int exp; { int neg,i; neg = 1; if (fr < 0) { fr = -fr; neg = -1; } fr = _fef(fr, &i); /* while (fr < 0.5) { fr *= 2; exp--; } */ exp += i; if (exp > 127) { _trp(EEXP); return(neg * HUGE); } if (exp < -127) return(0); while (exp > 14) { fr *= (1<<14); exp -= 14; } while (exp < -14) { fr /= (1<<14); exp += 14; } if (exp > 0) fr *= (1< maxf) { _trp(EEXP); return(HUGE); } arg *= log2e; ent = floor(arg); fract = (arg-ent) - 0.5; xsq = fract*fract; temp1 = ((p2*xsq+p1)*xsq+p0)*fract; temp2 = ((xsq+q2)*xsq+q1)*xsq + q0; return(ldexp(sqrt2*(temp2+temp1)/(temp2-temp1), ent)); }