1*05a0b428SJohn Marino /* $OpenBSD: s_clogf.c,v 1.2 2010/07/18 18:42:26 guenther Exp $ */ 2*05a0b428SJohn Marino /* 3*05a0b428SJohn Marino * Copyright (c) 2008 Stephen L. Moshier <steve@moshier.net> 4*05a0b428SJohn Marino * 5*05a0b428SJohn Marino * Permission to use, copy, modify, and distribute this software for any 6*05a0b428SJohn Marino * purpose with or without fee is hereby granted, provided that the above 7*05a0b428SJohn Marino * copyright notice and this permission notice appear in all copies. 8*05a0b428SJohn Marino * 9*05a0b428SJohn Marino * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES 10*05a0b428SJohn Marino * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF 11*05a0b428SJohn Marino * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR 12*05a0b428SJohn Marino * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES 13*05a0b428SJohn Marino * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN 14*05a0b428SJohn Marino * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF 15*05a0b428SJohn Marino * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. 16*05a0b428SJohn Marino */ 17*05a0b428SJohn Marino 18*05a0b428SJohn Marino /* clogf.c 19*05a0b428SJohn Marino * 20*05a0b428SJohn Marino * Complex natural logarithm 21*05a0b428SJohn Marino * 22*05a0b428SJohn Marino * 23*05a0b428SJohn Marino * 24*05a0b428SJohn Marino * SYNOPSIS: 25*05a0b428SJohn Marino * 26*05a0b428SJohn Marino * void clogf(); 27*05a0b428SJohn Marino * cmplxf z, w; 28*05a0b428SJohn Marino * 29*05a0b428SJohn Marino * clogf( &z, &w ); 30*05a0b428SJohn Marino * 31*05a0b428SJohn Marino * 32*05a0b428SJohn Marino * 33*05a0b428SJohn Marino * DESCRIPTION: 34*05a0b428SJohn Marino * 35*05a0b428SJohn Marino * Returns complex logarithm to the base e (2.718...) of 36*05a0b428SJohn Marino * the complex argument x. 37*05a0b428SJohn Marino * 38*05a0b428SJohn Marino * If z = x + iy, r = sqrt( x**2 + y**2 ), 39*05a0b428SJohn Marino * then 40*05a0b428SJohn Marino * w = log(r) + i arctan(y/x). 41*05a0b428SJohn Marino * 42*05a0b428SJohn Marino * The arctangent ranges from -PI to +PI. 43*05a0b428SJohn Marino * 44*05a0b428SJohn Marino * 45*05a0b428SJohn Marino * ACCURACY: 46*05a0b428SJohn Marino * 47*05a0b428SJohn Marino * Relative error: 48*05a0b428SJohn Marino * arithmetic domain # trials peak rms 49*05a0b428SJohn Marino * IEEE -10,+10 30000 1.9e-6 6.2e-8 50*05a0b428SJohn Marino * 51*05a0b428SJohn Marino * Larger relative error can be observed for z near 1 +i0. 52*05a0b428SJohn Marino * In IEEE arithmetic the peak absolute error is 3.1e-7. 53*05a0b428SJohn Marino * 54*05a0b428SJohn Marino */ 55*05a0b428SJohn Marino 56*05a0b428SJohn Marino #include <complex.h> 57*05a0b428SJohn Marino #include <math.h> 58*05a0b428SJohn Marino 59*05a0b428SJohn Marino float complex 60*05a0b428SJohn Marino clogf(float complex z) 61*05a0b428SJohn Marino { 62*05a0b428SJohn Marino float complex w; 63*05a0b428SJohn Marino float p, rr, x, y; 64*05a0b428SJohn Marino 65*05a0b428SJohn Marino x = crealf(z); 66*05a0b428SJohn Marino y = cimagf(z); 67*05a0b428SJohn Marino rr = atan2f(y, x); 68*05a0b428SJohn Marino p = cabsf(z); 69*05a0b428SJohn Marino p = logf(p); 70*05a0b428SJohn Marino w = p + rr * I; 71*05a0b428SJohn Marino return (w); 72*05a0b428SJohn Marino } 73