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////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2003-2025 The Octave Project Developers
//
// See the file COPYRIGHT.md in the top-level directory of this
// distribution or <https://octave.org/copyright/>.
//
// 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 3 of the License, 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, see
// <https://www.gnu.org/licenses/>.
//
////////////////////////////////////////////////////////////////////////
#if defined (HAVE_CONFIG_H)
# include "config.h"
#endif
#include <string>
#include "Array-util.h"
#include "chNDArray.h"
#include "mx-base.h"
#include "lo-ieee.h"
#include "lo-mappers.h"
#include "mx-op-defs.h"
#include "str-vec.h"
#include "bsxfun-defs.cc"
charNDArray::charNDArray (char c)
: Array<char> ()
{
octave_idx_type n = 1;
resize1 (n);
elem (0) = c;
}
charNDArray::charNDArray (const char *s)
: Array<char> ()
{
octave_idx_type n = (s ? strlen (s) : 0);
resize1 (n);
for (octave_idx_type i = 0; i < n; i++)
elem (i) = s[i];
}
charNDArray::charNDArray (const std::string& s)
: Array<char> ()
{
octave_idx_type n = s.length ();
resize1 (n);
for (octave_idx_type i = 0; i < n; i++)
elem (i) = s[i];
}
charNDArray::charNDArray (const string_vector& s, char fill_value)
: Array<char> (dim_vector (s.numel (), s.max_length ()), fill_value)
{
octave_idx_type nr = rows ();
for (octave_idx_type i = 0; i < nr; i++)
{
const std::string si = s(i);
octave_idx_type nc = si.length ();
for (octave_idx_type j = 0; j < nc; j++)
elem (i, j) = si[j];
}
}
// FIXME: this is not quite the right thing.
boolNDArray
charNDArray::all (int dim) const
{
return do_mx_red_op<bool, char> (*this, dim, mx_inline_all);
}
boolNDArray
charNDArray::any (int dim) const
{
return do_mx_red_op<bool, char> (*this, dim, mx_inline_any);
}
charNDArray
charNDArray::concat (const charNDArray& rb,
const Array<octave_idx_type>& ra_idx)
{
if (rb.numel () > 0)
insert (rb, ra_idx);
return *this;
}
charNDArray
charNDArray::concat (const NDArray& rb, const Array<octave_idx_type>& ra_idx)
{
charNDArray tmp (rb.dims ());
octave_idx_type nel = rb.numel ();
if (rb.isempty ())
return *this;
for (octave_idx_type i = 0; i < nel; i++)
{
double d = rb.elem (i);
if (octave::math::isnan (d))
(*current_liboctave_error_handler)
("invalid conversion from NaN to character");
octave_idx_type ival = octave::math::nint_big (d);
if (ival < 0 || ival > std::numeric_limits<unsigned char>::max ())
// FIXME: is there something better to do? Should we warn the user?
ival = 0;
tmp.elem (i) = static_cast<char> (ival);
}
insert (tmp, ra_idx);
return *this;
}
charNDArray
charNDArray::max (int dim) const
{
return do_mx_minmax_op<char> (*this, dim, mx_inline_max);
}
charNDArray
charNDArray::max (Array<octave_idx_type>& idx_arg, int dim) const
{
return do_mx_minmax_op<char> (*this, idx_arg, dim, mx_inline_max);
}
charNDArray
charNDArray::min (int dim) const
{
return do_mx_minmax_op<char> (*this, dim, mx_inline_min);
}
charNDArray
charNDArray::min (Array<octave_idx_type>& idx_arg, int dim) const
{
return do_mx_minmax_op<char> (*this, idx_arg, dim, mx_inline_min);
}
charNDArray&
charNDArray::insert (const charNDArray& a, octave_idx_type r, octave_idx_type c)
{
Array<char>::insert (a, r, c);
return *this;
}
charNDArray&
charNDArray::insert (const charNDArray& a, const Array<octave_idx_type>& ra_idx)
{
Array<char>::insert (a, ra_idx);
return *this;
}
void
charNDArray::increment_index (Array<octave_idx_type>& ra_idx,
const dim_vector& dimensions,
int start_dimension)
{
::increment_index (ra_idx, dimensions, start_dimension);
}
octave_idx_type
charNDArray::compute_index (Array<octave_idx_type>& ra_idx,
const dim_vector& dimensions)
{
return ::compute_index (ra_idx, dimensions);
}
charNDArray
charNDArray::diag (octave_idx_type k) const
{
return Array<char>::diag (k);
}
charNDArray
charNDArray::diag (octave_idx_type m, octave_idx_type n) const
{
return Array<char>::diag (m, n);
}
charNDArray
min (char d, const charNDArray& m)
{
return do_sm_binary_op<charNDArray::element_type, char,
charNDArray::element_type> (d, m, mx_inline_xmin);
}
charNDArray
min (const charNDArray& m, char d)
{
return do_ms_binary_op<charNDArray::element_type, charNDArray::element_type,
char> (m, d, mx_inline_xmin);
}
charNDArray
min (const charNDArray& a, const charNDArray& b)
{
return do_mm_binary_op<charNDArray::element_type, charNDArray::element_type,
charNDArray::element_type> (a, b, mx_inline_xmin,
mx_inline_xmin,
mx_inline_xmin, "min");
}
charNDArray
max (char d, const charNDArray& m)
{
return do_sm_binary_op<charNDArray::element_type, char,
charNDArray::element_type> (d, m, mx_inline_xmax);
}
charNDArray
max (const charNDArray& m, char d)
{
return do_ms_binary_op<charNDArray::element_type, charNDArray::element_type,
char> (m, d, mx_inline_xmax);
}
charNDArray
max (const charNDArray& a, const charNDArray& b)
{
return do_mm_binary_op<charNDArray::element_type, charNDArray::element_type,
charNDArray::element_type> (a, b, mx_inline_xmax,
mx_inline_xmax,
mx_inline_xmax, "max");
}
NDS_CMP_OPS (charNDArray, char)
NDS_BOOL_OPS (charNDArray, char)
SND_CMP_OPS (char, charNDArray)
SND_BOOL_OPS (char, charNDArray)
NDND_CMP_OPS (charNDArray, charNDArray)
NDND_BOOL_OPS (charNDArray, charNDArray)
BSXFUN_STDREL_DEFS_MXLOOP (charNDArray)
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