/*
Copyright (C) 1996, 1997 John W. Eaton
This file is part of Octave.
Octave 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, or (at your option) any
later version.
Octave 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 Octave; see the file COPYING. If not, write to the Free
Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
02110-1301, USA.
*/
#if defined (__GNUG__) && defined (USE_PRAGMA_INTERFACE_IMPLEMENTATION)
#pragma implementation
#endif
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include "MArray.h"
#include "Array-util.h"
#include "lo-error.h"
#include "MArray-defs.h"
// One dimensional array with math ops.
// Element by element MArray by scalar ops.
template <class T>
MArray<T>&
operator += (MArray<T>& a, const T& s)
{
DO_VS_OP2 (T, a, +=, s)
return a;
}
template <class T>
MArray<T>&
operator -= (MArray<T>& a, const T& s)
{
DO_VS_OP2 (T, a, -=, s)
return a;
}
// Element by element MArray by MArray ops.
template <class T>
MArray<T>&
operator += (MArray<T>& a, const MArray<T>& b)
{
int l = a.length ();
if (l > 0)
{
int bl = b.length ();
if (l != bl)
gripe_nonconformant ("operator +=", l, bl);
else
DO_VV_OP2 (T, a, +=, b);
}
return a;
}
template <class T>
MArray<T>&
operator -= (MArray<T>& a, const MArray<T>& b)
{
int l = a.length ();
if (l > 0)
{
int bl = b.length ();
if (l != bl)
gripe_nonconformant ("operator -=", l, bl);
else
DO_VV_OP2 (T, a, -=, b);
}
return a;
}
// Element by element MArray by scalar ops.
#define MARRAY_AS_OP(OP) \
template <class T> \
MArray<T> \
operator OP (const MArray<T>& a, const T& s) \
{ \
MArray<T> result (a.length ()); \
T *r = result.fortran_vec (); \
int l = a.length (); \
const T *v = a.data (); \
DO_VS_OP (r, l, v, OP, s); \
return result; \
}
MARRAY_AS_OP (+)
MARRAY_AS_OP (-)
MARRAY_AS_OP (*)
MARRAY_AS_OP (/)
// Element by element scalar by MArray ops.
#define MARRAY_SA_OP(OP) \
template <class T> \
MArray<T> \
operator OP (const T& s, const MArray<T>& a) \
{ \
MArray<T> result (a.length ()); \
T *r = result.fortran_vec (); \
int l = a.length (); \
const T *v = a.data (); \
DO_SV_OP (r, l, s, OP, v); \
return result; \
}
MARRAY_SA_OP(+)
MARRAY_SA_OP(-)
MARRAY_SA_OP(*)
MARRAY_SA_OP(/)
// Element by element MArray by MArray ops.
#define MARRAY_AA_OP(FCN, OP) \
template <class T> \
MArray<T> \
FCN (const MArray<T>& a, const MArray<T>& b) \
{ \
int l = a.length (); \
int bl = b.length (); \
if (l != bl) \
{ \
gripe_nonconformant (#FCN, l, bl); \
return MArray<T> (); \
} \
if (l == 0) \
return MArray<T> (); \
MArray<T> result (l); \
T *r = result.fortran_vec (); \
const T *x = a.data (); \
const T *y = b.data (); \
DO_VV_OP (r, l, x, OP, y); \
return result; \
}
MARRAY_AA_OP (operator +, +)
MARRAY_AA_OP (operator -, -)
MARRAY_AA_OP (product, *)
MARRAY_AA_OP (quotient, /)
// Unary MArray ops.
template <class T>
MArray<T>
operator + (const MArray<T>& a)
{
return a;
}
template <class T>
MArray<T>
operator - (const MArray<T>& a)
{
int l = a.length ();
MArray<T> result (l);
T *r = result.fortran_vec ();
const T *x = a.data ();
NEG_V (r, l, x);
return result;
}
/*
;;; Local Variables: ***
;;; mode: C++ ***
;;; End: ***
*/
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