#define RCSID "$Id: F_Math.c,v 1.12 2006/02/26 00:42:53 geuzaine Exp $"
/*
* Copyright (C) 1997-2006 P. Dular, C. Geuzaine
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
* USA.
*
* Please report all bugs and problems to <getdp@geuz.org>.
*/
#include "GetDP.h"
#include "Data_DefineE.h"
#include "F_Function.h"
#include "GeoData.h"
#include "Get_Geometry.h"
#include "Cal_Value.h"
#include "CurrentData.h"
#include "Numeric.h"
/* ------------------------------------------------------------------------ */
/* Warning: the pointers A and V can be identical. You must */
/* use temporary variables in your computations: you can only */
/* affect to V at the very last time (when you're sure you will */
/* not use A any more). */
/* ------------------------------------------------------------------------ */
#define F_ARG struct Function * Fct, struct Value * A, struct Value * V
/* ------------------------------------------------------------------------ */
/* C math functions (scalar, 1 argument, imaginary part set to zero) */
/* ------------------------------------------------------------------------ */
#define scalar_real_1_arg(func,string) \
int k; \
\
GetDP_Begin("F_" string); \
\
if(A->Type != SCALAR) \
Msg(GERROR, "Non scalar argument for function '" string "'"); \
\
V->Val[0] = func(A->Val[0]) ; \
if (Current.NbrHar != 1){ \
V->Val[MAX_DIM] = 0. ; \
for (k = 2 ; k < Current.NbrHar ; k += 2) \
V->Val[MAX_DIM*k] = V->Val[MAX_DIM*(k+1)] = 0. ; \
} \
V->Type = SCALAR; \
\
GetDP_End ;
void F_Exp (F_ARG) { scalar_real_1_arg (exp, "Exp") }
void F_Log (F_ARG) { scalar_real_1_arg (log, "Log") }
void F_Log10 (F_ARG) { scalar_real_1_arg (log10,"Log10") }
void F_Sqrt (F_ARG) { scalar_real_1_arg (sqrt, "Sqrt") }
void F_Sin (F_ARG) { scalar_real_1_arg (sin, "Sin") }
void F_Asin (F_ARG) { scalar_real_1_arg (asin, "Asin") }
void F_Cos (F_ARG) { scalar_real_1_arg (cos, "Cos" ) }
void F_Acos (F_ARG) { scalar_real_1_arg (acos, "Acos") }
void F_Tan (F_ARG) { scalar_real_1_arg (tan, "Tan") }
void F_Atan (F_ARG) { scalar_real_1_arg (atan, "Atan") }
void F_Sinh (F_ARG) { scalar_real_1_arg (sinh, "Sinh") }
void F_Cosh (F_ARG) { scalar_real_1_arg (cosh, "Cosh") }
void F_Tanh (F_ARG) { scalar_real_1_arg (tanh, "Tanh") }
void F_Fabs (F_ARG) { scalar_real_1_arg (fabs, "Fabs") }
void F_Floor (F_ARG) { scalar_real_1_arg (floor,"Floor") }
void F_Ceil (F_ARG) { scalar_real_1_arg (ceil, "Ceil") }
#undef scalar_real_1_arg
/* ------------------------------------------------------------------------ */
/* C math functions (scalar, 2 arguments, imaginary part set to zero) */
/* ------------------------------------------------------------------------ */
#define scalar_real_2_arg(func,string) \
int k; \
\
GetDP_Begin("F_" string); \
\
if(A->Type != SCALAR || (A+1)->Type != SCALAR) \
Msg(GERROR, "Non scalar argument(s) for function '" string "'"); \
\
V->Val[0] = func(A->Val[0], (A+1)->Val[0]) ; \
if (Current.NbrHar != 1){ \
V->Val[MAX_DIM] = 0. ; \
for (k = 2 ; k < Current.NbrHar ; k += 2) \
V->Val[MAX_DIM*k] = V->Val[MAX_DIM*(k+1)] = 0. ; \
} \
V->Type = SCALAR; \
\
GetDP_End ;
void F_Atan2 (F_ARG) { scalar_real_2_arg (atan2, "Atan2") }
void F_Fmod (F_ARG) { scalar_real_2_arg (fmod, "Fmod") }
#undef scalar_real_2_arg
#undef F_ARG
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