/* * The Spar Library - modular math parser * Copyright (C) 2000,2001 Davide Angelocola * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. * */ #include #include #include inline double sl_formula_tan (const double alpha) { /* tan(x) = sin(x) / cos(x) */ return (sl_sin (alpha) / sl_cos (alpha)); } inline double sl_formula_cotan (const double alpha) { /* cotan(x) = cos(x) / sin(x) */ return (sl_cos (alpha) / sl_sin (alpha)); } inline double sl_formula_sin_add (const double alpha, const double beta) { /* sin(x+y) */ return (sl_sin (alpha) * sl_cos (beta) + sl_cos (alpha) * sl_sin (beta)); } inline double sl_formula_sin_sub (const double alpha, const double beta) { /* sin(x-y) */ return (sl_sin (alpha) * sl_cos (beta) - sl_cos (alpha) * sl_sin (beta)); } inline double sl_formula_cos_add (const double alpha, const double beta) { /* cos(x+y) */ return (sl_cos (alpha) * sl_cos (beta) - sl_sin (alpha) * sl_sin (beta)); } inline double sl_formula_cos_sub (const double alpha, const double beta) { /* cos(x-y) */ return (sl_cos (alpha) * sl_cos (beta) + sl_sin (alpha) * sl_sin (beta)); } inline double sl_formula_tan_add (const double alpha, const double beta) { /* tan(x+y) */ double n = sl_tan (alpha) + sl_tan (beta); double d = 1. - (sl_tan (alpha) * sl_tan (beta)); return (n / d); } inline double sl_formula_tan_sub (const double alpha, const double beta) { /* tan(x-y) */ double n = sl_tan (alpha) - sl_tan (beta); double d = 1. + (sl_tan (alpha) * sl_tan (beta)); return (n / d); } inline double sl_formula_sin_dup (const double alpha) { /* sin(2x) */ return (2. * sl_sin (alpha) * sl_sin (alpha)); } inline double sl_formula_cos_dup (const double alpha) { /* cos(2x) */ return (sl_pow_2 (sl_cos (alpha)) - sl_pow_2 (sl_sin (alpha))); } inline double sl_formula_tan_dup (const double alpha) { /* tan(2x) */ double n = 2. * sl_tan (alpha); double d = 1. - sl_pow_2 (sl_tan (alpha)); return (n / d); } inline double sl_formula_sin_mul_sin (const double alpha, const double beta) { /* sin(a) * sin(b) */ return 0.5 * (sl_cos (alpha - beta) - sl_cos (alpha + beta)); } inline double sl_formula_sin_mul_cos (const double alpha, const double beta) { /* sin(a) * cos(b) */ return 0.5 * (sl_sin (alpha + beta) + sl_sin (alpha - beta)); } inline double sl_formula_cos_mul_cos (const double alpha, const double beta) { /* cos(a) * cos(b) */ return 0.5 * (sl_cos (alpha + beta) + sl_cos (alpha - beta)); } #define MP(a,b) ((a)+(b)/2.) #define MN(a,b) ((a)-(b)/2.) inline double sl_formula_sin_plus_sin (const double alpha, const double beta) { /* sin(a) + sin(b) */ return 2. * (sl_sin (MP (alpha, beta)) * sl_cos (MN (alpha, beta))); } inline double sl_formula_cos_plus_cos (const double alpha, const double beta) { /* cos(a) + cos(b) */ return 2. * (sl_cos (MP (alpha, beta)) * sl_cos (MN (alpha, beta))); } inline double sl_formula_sin_minus_sin (const double alpha, const double beta) { /* sin(a) - sin(b) */ return 2. * (sl_cos (MP (alpha, beta)) * sl_sin (MN (alpha, beta))); } inline double sl_formula_cos_minus_cos (const double alpha, const double beta) { /* cos(a) - cos(b) */ return -2. * (sl_sin (MP (alpha, beta)) * sl_sin (MN (alpha, beta))); } inline double sl_formula_sin_bisec (const double alpha) { /* sin(x/2) */ return sl_sqrt ((1. - sl_cos (alpha)) / 2.); } inline double sl_formula_cos_bisec (const double alpha) { /* cos(x/2) */ return sl_sqrt ((1. + sl_cos (alpha)) / 2.); } inline double sl_formula_tan_bisec (const double alpha) { /* tan(x/2) */ return sl_sqrt ((1. - sl_cos (alpha)) / (1. + sl_cos (alpha))); }