/*
Copyright (C) 2003 Motorola Inc
Copyright (C) 2003 David Bateman
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, 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; see the file COPYING. If not, write to the Free
Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
In addition to the terms of the GPL, you are permitted to link
this program with any Open Source program, as defined by the
Open Source Initiative (www.opensource.org)
*/
#if defined (__GNUG__) && defined (USE_PRAGMA_INTERFACE_IMPLEMENTATION)
#pragma implementation
#endif
#include <iostream>
#include <octave/gripes.h>
#include <octave/config.h>
#include <octave/oct-obj.h>
#include <octave/ov.h>
#include <octave/ov-re-mat.h>
#include <octave/ov-typeinfo.h>
#include <octave/ops.h>
#include "int/fixed.h"
#include "ov-fixed-complex.h"
#include "ov-fixed-cx-mat.h"
#include "fixed-def.h"
// fixed complex scalar unary ops.
FIXED_DEFUNOP_OP (not, fixed_complex, !)
FIXED_DEFUNOP_OP (uminus, fixed_complex, -)
#ifdef HAVE_OCTAVE_UPLUS
FIXED_DEFUNOP_OP (uplus, fixed_complex, /* no-op */)
#endif
FIXED_DEFUNOP_OP (transpose, fixed_complex, /* no-op */)
DEFUNOP (hermitian, fixed_complex)
{
CAST_UNOP_ARG (const octave_fixed_complex&);
return new octave_fixed_complex (conj (v.fixed_complex_value ()));
}
DEFNCUNOP_METHOD (incr, fixed_complex, increment)
DEFNCUNOP_METHOD (decr, fixed_complex, decrement)
// fixed complex scalar by fixed scalar ops.
FIXED_DEFBINOP_OP (add, fixed_complex, fixed_complex, fixed_complex, +)
FIXED_DEFBINOP_OP (sub, fixed_complex, fixed_complex, fixed_complex, -)
FIXED_DEFBINOP_OP (mul, fixed_complex, fixed_complex, fixed_complex, *)
DEFBINOP (div, fixed_complex, fixed_complex)
{
CAST_BINOP_ARGS (const octave_fixed_complex&, const octave_fixed_complex&);
FixedPointComplex d = v2.fixed_complex_value ();
if (d.fixedpoint() == 0.0)
gripe_divide_by_zero ();
octave_value retval = new octave_fixed_complex (v1.fixed_complex_value ()
/ d);
retval.maybe_mutate();
return retval;
}
FIXED_DEFBINOP_FN (pow, fixed_complex, fixed_complex, fixed_complex, pow)
DEFBINOP (ldiv, fixed_complex, fixed_complex)
{
CAST_BINOP_ARGS (const octave_fixed_complex&, const octave_fixed_complex&);
FixedPointComplex d = v1.fixed_complex_value ();
if (d.fixedpoint() == 0.0)
gripe_divide_by_zero ();
octave_value retval = new octave_fixed_complex (v2.fixed_complex_value ()
/ d);
retval.maybe_mutate();
return retval;
}
DEFBINOP (lt, fixed_complex, fixed_complex)
{
CAST_BINOP_ARGS (const octave_fixed_complex&, const octave_fixed_complex&);
return real (v1.fixed_complex_value ()) < real (v2.fixed_complex_value ());
}
DEFBINOP (le, fixed_complex, fixed_complex)
{
CAST_BINOP_ARGS (const octave_fixed_complex&, const octave_fixed_complex&);
return real (v1.fixed_complex_value ()) <= real (v2.fixed_complex_value ());
}
DEFBINOP (eq, fixed_complex, fixed_complex)
{
CAST_BINOP_ARGS (const octave_fixed_complex&, const octave_fixed_complex&);
return v1.fixed_complex_value () == v2.fixed_complex_value ();
}
DEFBINOP (ge, fixed_complex, fixed_complex)
{
CAST_BINOP_ARGS (const octave_fixed_complex&, const octave_fixed_complex&);
return real (v1.fixed_complex_value ()) >= real (v2.fixed_complex_value ());
}
DEFBINOP (gt, fixed_complex, fixed_complex)
{
CAST_BINOP_ARGS (const octave_fixed_complex&, const octave_fixed_complex&);
return real (v1.fixed_complex_value ()) > real (v2.fixed_complex_value ());
}
DEFBINOP (ne, fixed_complex, fixed_complex)
{
CAST_BINOP_ARGS (const octave_fixed_complex&, const octave_fixed_complex&);
return v1.fixed_complex_value () != v2.fixed_complex_value ();
}
FIXED_DEFBINOP_OP (el_mul, fixed_complex, fixed_complex, fixed_complex, *)
DEFBINOP (el_div, fixed_complex, fixed_complex)
{
CAST_BINOP_ARGS (const octave_fixed_complex&, const octave_fixed_complex&);
FixedPointComplex d = v2.fixed_complex_value ();
if (d.fixedpoint() == 0.0)
gripe_divide_by_zero ();
octave_value retval = new octave_fixed_complex (v1.fixed_complex_value ()
/ d);
retval.maybe_mutate();
return retval;
}
FIXED_DEFBINOP_FN (el_pow, fixed_complex, fixed_complex, fixed_complex, pow)
DEFBINOP (el_ldiv, fixed_complex, fixed_complex)
{
CAST_BINOP_ARGS (const octave_fixed_complex&, const octave_fixed_complex&);
FixedPointComplex d = v1.fixed_complex_value ();
if (d.fixedpoint() == 0.0)
gripe_divide_by_zero ();
octave_value retval = new octave_fixed_complex (v2.fixed_complex_value ()
/ d);
retval.maybe_mutate();
return retval;
}
DEFBINOP (el_and, fixed_complex, fixed_complex)
{
CAST_BINOP_ARGS (const octave_fixed_complex&, const octave_fixed_complex&);
FixedPointComplex d1 = v1.fixed_complex_value ();
FixedPointComplex d2 = v2.fixed_complex_value ();
return octave_value ((d1.fixedpoint() != 0.0 && d2.fixedpoint () != 0.0));
}
DEFBINOP (el_or, fixed_complex, fixed_complex)
{
CAST_BINOP_ARGS (const octave_fixed_complex&, const octave_fixed_complex&);
FixedPointComplex d1 = v1.fixed_complex_value ();
FixedPointComplex d2 = v2.fixed_complex_value ();
return octave_value ((d1.fixedpoint() != 0.0 || d2.fixedpoint () != 0.0));
}
FIXED_DEFCATOP_FN (fcs_fcs, fixed_complex, fixed_complex,
fixed_complex_matrix, fixed_complex_matrix,
fixed_complex_matrix, concat)
void
install_fcs_fcs_ops (void)
{
INSTALL_UNOP (op_not, octave_fixed_complex, not);
INSTALL_UNOP (op_uminus, octave_fixed_complex, uminus);
#ifdef HAVE_OCTAVE_UPLUS
INSTALL_UNOP (op_uplus, octave_fixed_complex, uplus);
#endif
INSTALL_UNOP (op_transpose, octave_fixed_complex, transpose);
INSTALL_UNOP (op_hermitian, octave_fixed_complex, hermitian);
INSTALL_NCUNOP (op_incr, octave_fixed_complex, incr);
INSTALL_NCUNOP (op_decr, octave_fixed_complex, decr);
INSTALL_BINOP (op_add, octave_fixed_complex, octave_fixed_complex, add);
INSTALL_BINOP (op_sub, octave_fixed_complex, octave_fixed_complex, sub);
INSTALL_BINOP (op_mul, octave_fixed_complex, octave_fixed_complex, mul);
INSTALL_BINOP (op_div, octave_fixed_complex, octave_fixed_complex, div);
INSTALL_BINOP (op_pow, octave_fixed_complex, octave_fixed_complex, pow);
INSTALL_BINOP (op_ldiv, octave_fixed_complex, octave_fixed_complex, ldiv);
INSTALL_BINOP (op_lt, octave_fixed_complex, octave_fixed_complex, lt);
INSTALL_BINOP (op_le, octave_fixed_complex, octave_fixed_complex, le);
INSTALL_BINOP (op_eq, octave_fixed_complex, octave_fixed_complex, eq);
INSTALL_BINOP (op_ge, octave_fixed_complex, octave_fixed_complex, ge);
INSTALL_BINOP (op_gt, octave_fixed_complex, octave_fixed_complex, gt);
INSTALL_BINOP (op_ne, octave_fixed_complex, octave_fixed_complex, ne);
INSTALL_BINOP (op_el_mul, octave_fixed_complex, octave_fixed_complex,
el_mul);
INSTALL_BINOP (op_el_div, octave_fixed_complex, octave_fixed_complex,
el_div);
INSTALL_BINOP (op_el_pow, octave_fixed_complex, octave_fixed_complex,
el_pow);
INSTALL_BINOP (op_el_ldiv, octave_fixed_complex, octave_fixed_complex,
el_ldiv);
INSTALL_BINOP (op_el_and, octave_fixed_complex, octave_fixed_complex,
el_and);
INSTALL_BINOP (op_el_or, octave_fixed_complex, octave_fixed_complex, el_or);
FIXED_INSTALL_CATOP (octave_fixed_complex, octave_fixed_complex, fcs_fcs);
INSTALL_ASSIGNCONV (octave_fixed_complex, octave_fixed_complex,
octave_fixed_complex_matrix);
}
/*
;;; Local Variables: ***
;;; mode: C++ ***
;;; End: ***
*/
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