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////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2008-2021 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 "byte-swap.h"
#include "ov-re-diag.h"
#include "ov-flt-re-diag.h"
#include "ov-base-diag.cc"
#include "ov-scalar.h"
#include "ov-re-mat.h"
#include "ls-utils.h"
template class octave_base_diag<DiagMatrix, Matrix>;
DEFINE_OV_TYPEID_FUNCTIONS_AND_DATA (octave_diag_matrix, "diagonal matrix",
"double");
static octave_base_value *
default_numeric_conversion_function (const octave_base_value& a)
{
const octave_diag_matrix& v = dynamic_cast<const octave_diag_matrix&> (a);
return new octave_matrix (v.matrix_value ());
}
octave_base_value::type_conv_info
octave_diag_matrix::numeric_conversion_function (void) const
{
return octave_base_value::type_conv_info (default_numeric_conversion_function,
octave_matrix::static_type_id ());
}
static octave_base_value *
default_numeric_demotion_function (const octave_base_value& a)
{
const octave_diag_matrix& v = dynamic_cast<const octave_diag_matrix&> (a);
return new octave_float_diag_matrix (v.float_diag_matrix_value ());
}
octave_base_value::type_conv_info
octave_diag_matrix::numeric_demotion_function (void) const
{
return octave_base_value::type_conv_info
(default_numeric_demotion_function,
octave_float_diag_matrix::static_type_id ());
}
octave_base_value *
octave_diag_matrix::try_narrowing_conversion (void)
{
octave_base_value *retval = nullptr;
if (matrix.nelem () == 1)
retval = new octave_scalar (matrix (0, 0));
return retval;
}
octave_value
octave_diag_matrix::do_index_op (const octave_value_list& idx,
bool resize_ok)
{
octave_value retval;
// This hack is to allow constructing permutation matrices using
// eye(n)(p,:), eye(n)(:,q) && eye(n)(p,q) where p & q are permutation
// vectors.
if (! resize_ok && idx.length () == 2 && matrix.is_multiple_of_identity (1))
{
int k = 0; // index we're accessing when index_vector throws
try
{
idx_vector idx0 = idx(0).index_vector ();
k = 1;
idx_vector idx1 = idx(1).index_vector ();
bool left = idx0.is_permutation (matrix.rows ());
bool right = idx1.is_permutation (matrix.cols ());
if (left && right)
{
if (idx0.is_colon ()) left = false;
if (idx1.is_colon ()) right = false;
if (left && right)
retval = PermMatrix (idx0, false) * PermMatrix (idx1, true);
else if (left)
retval = PermMatrix (idx0, false);
else if (right)
retval = PermMatrix (idx1, true);
else
{
retval = this;
this->count++;
}
}
}
catch (octave::index_exception& e)
{
// Rethrow to allow more info to be reported later.
e.set_pos_if_unset (2, k+1);
throw;
}
}
if (retval.is_undefined ())
retval = octave_base_diag<DiagMatrix, Matrix>::do_index_op (idx, resize_ok);
return retval;
}
DiagMatrix
octave_diag_matrix::diag_matrix_value (bool) const
{
return matrix;
}
FloatDiagMatrix
octave_diag_matrix::float_diag_matrix_value (bool) const
{
return FloatDiagMatrix (matrix);
}
ComplexDiagMatrix
octave_diag_matrix::complex_diag_matrix_value (bool) const
{
return ComplexDiagMatrix (matrix);
}
FloatComplexDiagMatrix
octave_diag_matrix::float_complex_diag_matrix_value (bool) const
{
return FloatComplexDiagMatrix (matrix);
}
octave_value
octave_diag_matrix::as_double (void) const
{
return matrix;
}
octave_value
octave_diag_matrix::as_single (void) const
{
return FloatDiagMatrix (matrix);
}
octave_value
octave_diag_matrix::as_int8 (void) const
{
return int8_array_value ();
}
octave_value
octave_diag_matrix::as_int16 (void) const
{
return int16_array_value ();
}
octave_value
octave_diag_matrix::as_int32 (void) const
{
return int32_array_value ();
}
octave_value
octave_diag_matrix::as_int64 (void) const
{
return int64_array_value ();
}
octave_value
octave_diag_matrix::as_uint8 (void) const
{
return uint8_array_value ();
}
octave_value
octave_diag_matrix::as_uint16 (void) const
{
return uint16_array_value ();
}
octave_value
octave_diag_matrix::as_uint32 (void) const
{
return uint32_array_value ();
}
octave_value
octave_diag_matrix::as_uint64 (void) const
{
return uint64_array_value ();
}
octave_value
octave_diag_matrix::map (unary_mapper_t umap) const
{
switch (umap)
{
case umap_abs:
return matrix.abs ();
case umap_real:
case umap_conj:
return matrix;
case umap_imag:
return DiagMatrix (matrix.rows (), matrix.cols (), 0.0);
case umap_sqrt:
{
ComplexColumnVector tmp;
tmp = matrix.extract_diag ().map<Complex> (octave::math::rc_sqrt);
ComplexDiagMatrix retval (tmp);
retval.resize (matrix.rows (), matrix.columns ());
return retval;
}
default:
return to_dense ().map (umap);
}
}
bool
octave_diag_matrix::save_binary (std::ostream& os, bool save_as_floats)
{
int32_t r = matrix.rows ();
int32_t c = matrix.cols ();
os.write (reinterpret_cast<char *> (&r), 4);
os.write (reinterpret_cast<char *> (&c), 4);
Matrix m = Matrix (matrix.extract_diag ());
save_type st = LS_DOUBLE;
if (save_as_floats)
{
if (m.too_large_for_float ())
{
warning ("save: some values too large to save as floats --");
warning ("save: saving as doubles instead");
}
else
st = LS_FLOAT;
}
else if (matrix.length () > 8192) // FIXME: make this configurable.
{
double max_val, min_val;
if (m.all_integers (max_val, min_val))
st = get_save_type (max_val, min_val);
}
const double *mtmp = m.data ();
write_doubles (os, mtmp, st, m.numel ());
return true;
}
bool
octave_diag_matrix::load_binary (std::istream& is, bool swap,
octave::mach_info::float_format fmt)
{
int32_t r, c;
char tmp;
if (! (is.read (reinterpret_cast<char *> (&r), 4)
&& is.read (reinterpret_cast<char *> (&c), 4)
&& is.read (reinterpret_cast<char *> (&tmp), 1)))
return false;
if (swap)
{
swap_bytes<4> (&r);
swap_bytes<4> (&c);
}
DiagMatrix m (r, c);
double *re = m.fortran_vec ();
octave_idx_type len = m.length ();
read_doubles (is, re, static_cast<save_type> (tmp), len, swap, fmt);
if (! is)
return false;
matrix = m;
return true;
}
bool
octave_diag_matrix::chk_valid_scalar (const octave_value& val,
double& x) const
{
bool retval = val.is_real_scalar ();
if (retval)
x = val.double_value ();
return retval;
}
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