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/*
* Scilab ( http://www.scilab.org/ ) - This file is part of Scilab
* Copyright (C) 2008-2009 - INRIA - Allan SIMON
*
* This file must be used under the terms of the CeCILL.
* This source file is licensed as described in the file COPYING, which
* you should have received as part of this distribution. The terms
* are also available at
* http://www.cecill.info/licences/Licence_CeCILL_V2-en.txt
*
*/
#ifndef __MEANF_H__
#define __MEANF_H__
#include "dynlib_statisticsfunctions.h"
#include "division.h"
#include "addition.h"
#ifdef __cplusplus
extern "C" {
#endif
/*
** \brief Meanf of a scalar element, just returns it
*/
#define smeanfs(in1,in2) in1
#define srowmeanfs(in1,in2) in1
#define scolumnmeanfs(in1,in2) in1
#define smatlabmeanfs(in1,in2) in1
/*
** \brief Meanf of a scalar element, just returns it
*/
#define dmeanfs(in1,in2) in1
#define drowmeanfs(in1,in2) in1
#define dcolumnmeanfs(in1,in2) in1
#define dmatlabmeanfs(in1,in2) in1
/*
** \brief Meanf of a scalar element, just returns it
*/
#define cmeanfs(in1,in2) in1
#define crowmeanfs(in1,in2) in1
#define ccolumnmeanfs(in1,in2) in1
#define cmatlabmeanfs(in1,in2) in1
/*
** \brief Meanf of a scalar element, just returns it
*/
#define zmeanfs(in1,in2) in1
#define zrowmeanfs(in1,in2) in1
#define zcolumnmeanfs(in1,in2) in1
#define zmatlabmeanfs(in1,in2) in1
/*
** \brief Meanf of a float array
** \param in the float array to process
** \param size, the size of the array
** \returns the meanf.
*/
EXTERN_STATFUNC float smeanfa(float *in1, int size, float *in2);
EXTERN_STATFUNC void srowmeanfa(float *in1, int lines, int columns, float *in2, float* out);
EXTERN_STATFUNC void scolumnmeanfa(float *in1, int lines, int columns, float *in2, float* out);
/*
** \brief Meanf of a double array
** \param in the double array to process
** \param size, the size of the array
** \returns the meanf.
*/
EXTERN_STATFUNC double dmeanfa(double *in1, int size, double *in2);
EXTERN_STATFUNC void drowmeanfa(double *in1, int lines, int columns, double *in2, double* out);
EXTERN_STATFUNC void dcolumnmeanfa(double *in1, int lines, int columns, double *in2, double* out);
/*
** \brief Meanf of a float complex array
** \param in the float array to process
** \param size, the size of the array
** \returns the meanf.
*/
EXTERN_STATFUNC floatComplex cmeanfa(floatComplex *in1, int size, floatComplex *in2);
EXTERN_STATFUNC void crowmeanfa(floatComplex *in1, int lines, int columns, floatComplex *in2, floatComplex* out);
EXTERN_STATFUNC void ccolumnmeanfa(floatComplex *in1, int lines, int columns, floatComplex *in2, floatComplex* out);
/*
** \brief Meanf of a double complex array
** \param in the double array to process
** \param size, the size of the array
** \returns the meanf.
*/
EXTERN_STATFUNC doubleComplex zmeanfa(doubleComplex *in1, int size, doubleComplex *in2);
EXTERN_STATFUNC void zrowmeanfa(doubleComplex *in1, int lines, int columns, doubleComplex *in2, doubleComplex* out);
EXTERN_STATFUNC void zcolumnmeanfa(doubleComplex *in1, int lines, int columns, doubleComplex *in2, doubleComplex* out);
/* for convenience with interface */
doubleComplex zmeanfzd (doubleComplex* in1 ,int lines , int columns , double* in2);
doubleComplex zmeanfdz (double* in1 ,int lines , int columns , doubleComplex* in2);
floatComplex cmeanfcs (floatComplex* in1 ,int lines , int columns , float* in2);
floatComplex cmeanfsc (float* in1 ,int lines , int columns , floatComplex* in2);
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif /* !__MEAN_H__ */
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