/* * M_APM - mapmhsin.c * * Copyright (C) 2000 - 2007 Michael C. Ring * * Permission to use, copy, and distribute this software and its * documentation for any purpose with or without fee is hereby granted, * provided that the above copyright notice appear in all copies and * that both that copyright notice and this permission notice appear * in supporting documentation. * * Permission to modify the software is granted. Permission to distribute * the modified code is granted. Modifications are to be distributed by * using the file 'license.txt' as a template to modify the file header. * 'license.txt' is available in the official MAPM distribution. * * This software is provided "as is" without express or implied warranty. */ /* * $Id: mapmhsin.c,v 1.4 2007/12/03 01:54:06 mike Exp $ * * This file contains the Hyperbolic SIN, COS, & TAN functions. * * $Log: mapmhsin.c,v $ * Revision 1.4 2007/12/03 01:54:06 mike * Update license * * Revision 1.3 2002/11/03 21:29:20 mike * Updated function parameters to use the modern style * * Revision 1.2 2000/09/23 19:52:56 mike * change divide call to reciprocal * * Revision 1.1 2000/04/03 18:16:26 mike * Initial revision */ #include "m_apm_lc.h" /****************************************************************************/ /* * sinh(x) == 0.5 * [ exp(x) - exp(-x) ] */ void m_apm_sinh(M_APM rr, int places, M_APM aa) { M_APM tmp1, tmp2, tmp3; int local_precision; tmp1 = M_get_stack_var(); tmp2 = M_get_stack_var(); tmp3 = M_get_stack_var(); local_precision = places + 4; m_apm_exp(tmp1, local_precision, aa); m_apm_reciprocal(tmp2, local_precision, tmp1); m_apm_subtract(tmp3, tmp1, tmp2); m_apm_multiply(tmp1, tmp3, MM_0_5); m_apm_round(rr, places, tmp1); M_restore_stack(3); } /****************************************************************************/ /* * cosh(x) == 0.5 * [ exp(x) + exp(-x) ] */ void m_apm_cosh(M_APM rr, int places, M_APM aa) { M_APM tmp1, tmp2, tmp3; int local_precision; tmp1 = M_get_stack_var(); tmp2 = M_get_stack_var(); tmp3 = M_get_stack_var(); local_precision = places + 4; m_apm_exp(tmp1, local_precision, aa); m_apm_reciprocal(tmp2, local_precision, tmp1); m_apm_add(tmp3, tmp1, tmp2); m_apm_multiply(tmp1, tmp3, MM_0_5); m_apm_round(rr, places, tmp1); M_restore_stack(3); } /****************************************************************************/ /* * tanh(x) == [ exp(x) - exp(-x) ] / [ exp(x) + exp(-x) ] */ void m_apm_tanh(M_APM rr, int places, M_APM aa) { M_APM tmp1, tmp2, tmp3, tmp4; int local_precision; tmp1 = M_get_stack_var(); tmp2 = M_get_stack_var(); tmp3 = M_get_stack_var(); tmp4 = M_get_stack_var(); local_precision = places + 4; m_apm_exp(tmp1, local_precision, aa); m_apm_reciprocal(tmp2, local_precision, tmp1); m_apm_subtract(tmp3, tmp1, tmp2); m_apm_add(tmp4, tmp1, tmp2); m_apm_divide(tmp1, local_precision, tmp3, tmp4); m_apm_round(rr, places, tmp1); M_restore_stack(4); } /****************************************************************************/