limit fstBC to 30bp in Python3 ver.
[GalaxyCodeBases.git] / c_cpp / etc / calc / cmath.h
bloba2e010e46a1df62fdbac03f7fdd8f9e22581e9f8
1 /*
2 * cmath - data structures for extended precision complex arithmetic
4 * Copyright (C) 1999-2007 David I. Bell
6 * Calc is open software; you can redistribute it and/or modify it under
7 * the terms of the version 2.1 of the GNU Lesser General Public License
8 * as published by the Free Software Foundation.
10 * Calc is distributed in the hope that it will be useful, but WITHOUT
11 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
12 * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General
13 * Public License for more details.
15 * A copy of version 2.1 of the GNU Lesser General Public License is
16 * distributed with calc under the filename COPYING-LGPL. You should have
17 * received a copy with calc; if not, write to Free Software Foundation, Inc.
18 * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
20 * @(#) $Revision: 30.1 $
21 * @(#) $Id: cmath.h,v 30.1 2007/03/16 11:09:46 chongo Exp $
22 * @(#) $Source: /usr/local/src/bin/calc/RCS/cmath.h,v $
24 * Under source code control: 1993/07/30 19:42:45
25 * File existed as early as: 1993
27 * Share and enjoy! :-) http://www.isthe.com/chongo/tech/comp/calc/
31 #if !defined(__CMATH_H__)
32 #define __CMATH_H__
35 #if defined(CALC_SRC) /* if we are building from the calc source tree */
36 # include "qmath.h"
37 #else
38 # include <calc/qmath.h>
39 #endif
43 * Complex arithmetic definitions.
45 typedef struct {
46 NUMBER *real; /* real part of number */
47 NUMBER *imag; /* imaginary part of number */
48 long links; /* link count */
49 } COMPLEX;
53 * Input, output, and conversion routines.
55 E_FUNC COMPLEX *comalloc(void);
56 E_FUNC COMPLEX *qqtoc(NUMBER *q1, NUMBER *q2);
57 E_FUNC void comfree(COMPLEX *c);
58 E_FUNC void comprint(COMPLEX *c);
59 E_FUNC void cprintfr(COMPLEX *c);
63 * Basic numeric routines.
66 E_FUNC COMPLEX *c_add(COMPLEX *c1, COMPLEX *c2);
67 E_FUNC COMPLEX *c_sub(COMPLEX *c1, COMPLEX *c2);
68 E_FUNC COMPLEX *c_mul(COMPLEX *c1, COMPLEX *c2);
69 E_FUNC COMPLEX *c_div(COMPLEX *c1, COMPLEX *c2);
70 E_FUNC COMPLEX *c_addq(COMPLEX *c, NUMBER *q);
71 E_FUNC COMPLEX *c_subq(COMPLEX *c, NUMBER *q);
72 E_FUNC COMPLEX *c_mulq(COMPLEX *c, NUMBER *q);
73 E_FUNC COMPLEX *c_divq(COMPLEX *c, NUMBER *q);
74 E_FUNC COMPLEX *c_scale(COMPLEX *c, long i);
75 E_FUNC COMPLEX *c_shift(COMPLEX *c, long i);
76 E_FUNC COMPLEX *c_square(COMPLEX *c);
77 E_FUNC COMPLEX *c_conj(COMPLEX *c);
78 E_FUNC COMPLEX *c_real(COMPLEX *c);
79 E_FUNC COMPLEX *c_imag(COMPLEX *c);
80 E_FUNC COMPLEX *c_neg(COMPLEX *c);
81 E_FUNC COMPLEX *c_inv(COMPLEX *c);
82 E_FUNC COMPLEX *c_int(COMPLEX *c);
83 E_FUNC COMPLEX *c_frac(COMPLEX *c);
84 E_FUNC BOOL c_cmp(COMPLEX *c1, COMPLEX *c2);
88 * More complicated functions.
90 E_FUNC COMPLEX *c_powi(COMPLEX *c, NUMBER *q);
91 E_FUNC NUMBER *c_ilog(COMPLEX *c, ZVALUE base);
95 * Transcendental routines. These all take an epsilon argument to
96 * specify how accurately these are to be calculated.
98 E_FUNC COMPLEX *c_power(COMPLEX *c1, COMPLEX *c2, NUMBER *epsilon);
99 E_FUNC COMPLEX *c_sqrt(COMPLEX *c, NUMBER *epsilon, long R);
100 E_FUNC COMPLEX *c_root(COMPLEX *c, NUMBER *q, NUMBER *epsilon);
101 E_FUNC COMPLEX *c_exp(COMPLEX *c, NUMBER *epsilon);
102 E_FUNC COMPLEX *c_ln(COMPLEX *c, NUMBER *epsilon);
103 E_FUNC COMPLEX *c_log(COMPLEX *c, NUMBER *epsilon);
104 E_FUNC COMPLEX *c_cos(COMPLEX *c, NUMBER *epsilon);
105 E_FUNC COMPLEX *c_sin(COMPLEX *c, NUMBER *epsilon);
106 E_FUNC COMPLEX *c_cosh(COMPLEX *c, NUMBER *epsilon);
107 E_FUNC COMPLEX *c_sinh(COMPLEX *c, NUMBER *epsilon);
108 E_FUNC COMPLEX *c_polar(NUMBER *q1, NUMBER *q2, NUMBER *epsilon);
109 E_FUNC COMPLEX *c_rel(COMPLEX *c1, COMPLEX *c2);
110 E_FUNC COMPLEX *c_asin(COMPLEX *c, NUMBER *epsilon);
111 E_FUNC COMPLEX *c_acos(COMPLEX *c, NUMBER *epsilon);
112 E_FUNC COMPLEX *c_atan(COMPLEX *c, NUMBER *epsilon);
113 E_FUNC COMPLEX *c_acot(COMPLEX *c, NUMBER *epsilon);
114 E_FUNC COMPLEX *c_asec(COMPLEX *c, NUMBER *epsilon);
115 E_FUNC COMPLEX *c_acsc(COMPLEX *c, NUMBER *epsilon);
116 E_FUNC COMPLEX *c_asinh(COMPLEX *c, NUMBER *epsilon);
117 E_FUNC COMPLEX *c_acosh(COMPLEX *c, NUMBER *epsilon);
118 E_FUNC COMPLEX *c_atanh(COMPLEX *c, NUMBER *epsilon);
119 E_FUNC COMPLEX *c_acoth(COMPLEX *c, NUMBER *epsilon);
120 E_FUNC COMPLEX *c_asech(COMPLEX *c, NUMBER *epsilon);
121 E_FUNC COMPLEX *c_acsch(COMPLEX *c, NUMBER *epsilon);
122 E_FUNC COMPLEX *c_gd(COMPLEX *c, NUMBER *epsilon);
123 E_FUNC COMPLEX *c_agd(COMPLEX *c, NUMBER *epsilon);
128 * external functions
130 E_FUNC COMPLEX *swap_b8_in_COMPLEX(COMPLEX *dest, COMPLEX *src, BOOL all);
131 E_FUNC COMPLEX *swap_b16_in_COMPLEX(COMPLEX *dest, COMPLEX *src, BOOL all);
132 E_FUNC COMPLEX *swap_HALF_in_COMPLEX(COMPLEX *dest, COMPLEX *src, BOOL all);
136 * macro expansions to speed this thing up
138 #define cisreal(c) (qiszero((c)->imag))
139 #define cisimag(c) (qiszero((c)->real) && !cisreal(c))
140 #define ciszero(c) (cisreal(c) && qiszero((c)->real))
141 #define cisone(c) (cisreal(c) && qisone((c)->real))
142 #define cisnegone(c) (cisreal(c) && qisnegone((c)->real))
143 #define cisrunit(c) (cisreal(c) && qisunit((c)->real))
144 #define cisiunit(c) (qiszero((c)->real) && qisunit((c)->imag))
145 #define cisunit(c) (cisrunit(c) || cisiunit(c))
146 #define cistwo(c) (cisreal(c) && qistwo((c)->real))
147 #define cisint(c) (qisint((c)->real) && qisint((c)->imag))
148 #define ciseven(c) (qiseven((c)->real) && qiseven((c)->imag))
149 #define cisodd(c) (qisodd((c)->real) || qisodd((c)->imag))
150 #define clink(c) ((c)->links++, (c))
154 * Pre-defined values.
156 EXTERN COMPLEX _czero_, _cone_, _conei_;
159 #endif /* !__CMATH_H__ */