prefer <istream>, <ostream>, or <iosfwd> to <iostream> where possible Using <iostream> brings with it a static initializer for the std::cin, std::cout, and std::cerr streams. In most cases they are not needed and should be avoided if possible. Files affected: build-aux/mk-opts.pl libgui/qterminal/libqterminal/win32/QWinTerminalImpl.cpp libinterp/corefcn/__dsearchn__.cc libinterp/corefcn/c-file-ptr-stream.cc libinterp/corefcn/c-file-ptr-stream.h libinterp/corefcn/daspk.cc libinterp/corefcn/dasrt.cc libinterp/corefcn/dassl.cc libinterp/corefcn/defaults.cc libinterp/corefcn/defun.cc libinterp/corefcn/file-io.cc libinterp/corefcn/ft-text-renderer.cc libinterp/corefcn/gl-render.cc libinterp/corefcn/help.cc libinterp/corefcn/ls-ascii-helper.cc libinterp/corefcn/ls-hdf5.cc libinterp/corefcn/ls-hdf5.h libinterp/corefcn/ls-mat-ascii.cc libinterp/corefcn/ls-mat4.cc libinterp/corefcn/ls-mat5.cc libinterp/corefcn/ls-oct-binary.cc libinterp/corefcn/ls-oct-text.cc libinterp/corefcn/lsode.cc libinterp/corefcn/oct-iostrm.cc libinterp/corefcn/oct-procbuf.cc libinterp/corefcn/oct-stdstrm.h libinterp/corefcn/procstream.cc libinterp/corefcn/procstream.h libinterp/corefcn/quad.cc libinterp/corefcn/symscope.h libinterp/corefcn/symtab.h libinterp/corefcn/toplev.cc libinterp/corefcn/urlwrite.cc libinterp/corefcn/utils.cc libinterp/corefcn/zfstream.cc libinterp/dldfcn/__ode15__.cc libinterp/dldfcn/convhulln.cc libinterp/octave-value/ov-base-diag.cc libinterp/octave-value/ov-base-int.cc libinterp/octave-value/ov-base-mat.cc libinterp/octave-value/ov-base-scalar.cc libinterp/octave-value/ov-base-sparse.cc libinterp/octave-value/ov-base.cc libinterp/octave-value/ov-bool-mat.cc libinterp/octave-value/ov-bool-sparse.cc libinterp/octave-value/ov-bool.cc libinterp/octave-value/ov-cell.cc libinterp/octave-value/ov-ch-mat.cc libinterp/octave-value/ov-class.cc libinterp/octave-value/ov-colon.cc libinterp/octave-value/ov-complex.cc libinterp/octave-value/ov-cs-list.cc libinterp/octave-value/ov-cx-mat.cc libinterp/octave-value/ov-cx-sparse.cc libinterp/octave-value/ov-fcn-handle.cc libinterp/octave-value/ov-fcn-inline.cc libinterp/octave-value/ov-float.cc libinterp/octave-value/ov-flt-complex.cc libinterp/octave-value/ov-flt-cx-mat.cc libinterp/octave-value/ov-flt-re-mat.cc libinterp/octave-value/ov-int16.cc libinterp/octave-value/ov-int32.cc libinterp/octave-value/ov-int64.cc libinterp/octave-value/ov-int8.cc libinterp/octave-value/ov-java.cc libinterp/octave-value/ov-range.cc libinterp/octave-value/ov-re-mat.cc libinterp/octave-value/ov-re-sparse.cc libinterp/octave-value/ov-scalar.cc libinterp/octave-value/ov-str-mat.cc libinterp/octave-value/ov-struct.cc libinterp/octave-value/ov-typeinfo.cc libinterp/octave-value/ov-uint16.cc libinterp/octave-value/ov-uint32.cc libinterp/octave-value/ov-uint64.cc libinterp/octave-value/ov-uint8.cc libinterp/octave.cc libinterp/parse-tree/bp-table.cc libinterp/parse-tree/lex.h libinterp/parse-tree/profiler.cc libinterp/parse-tree/pt-arg-list.cc libinterp/parse-tree/pt-array-list.cc libinterp/parse-tree/pt-assign.cc libinterp/parse-tree/pt-cell.cc libinterp/parse-tree/pt-const.cc libinterp/parse-tree/pt-eval.cc libinterp/parse-tree/pt-exp.cc libinterp/parse-tree/pt-fcn-handle.cc libinterp/parse-tree/pt-jit.cc libinterp/parse-tree/pt-pr-code.cc libinterp/parse-tree/pt-tm-const.cc libinterp/parse-tree/pt.cc liboctave/array/Array.cc liboctave/array/CColVector.cc liboctave/array/CDiagMatrix.cc liboctave/array/CMatrix.cc liboctave/array/CNDArray.cc liboctave/array/CRowVector.cc liboctave/array/CSparse.cc liboctave/array/DiagArray2.cc liboctave/array/MArray.cc liboctave/array/Range.cc liboctave/array/Sparse.cc liboctave/array/boolMatrix.cc liboctave/array/boolSparse.cc liboctave/array/chMatrix.cc liboctave/array/dColVector.cc liboctave/array/dDiagMatrix.cc liboctave/array/dMatrix.cc liboctave/array/dNDArray.cc liboctave/array/dRowVector.cc liboctave/array/dSparse.cc liboctave/array/fCColVector.cc liboctave/array/fCDiagMatrix.cc liboctave/array/fCMatrix.cc liboctave/array/fCNDArray.cc liboctave/array/fCRowVector.cc liboctave/array/fColVector.cc liboctave/array/fDiagMatrix.cc liboctave/array/fMatrix.cc liboctave/array/fNDArray.cc liboctave/array/fRowVector.cc liboctave/array/idx-vector.cc liboctave/numeric/CollocWt.cc liboctave/numeric/eigs-base.cc liboctave/system/file-ops.cc liboctave/system/oct-time.cc liboctave/util/cmd-hist.cc liboctave/util/data-conv.cc liboctave/util/data-conv.h liboctave/util/file-info.cc liboctave/util/lo-utils.cc liboctave/util/lo-utils.h liboctave/util/quit.cc liboctave/util/str-vec.cc liboctave/util/url-transfer.cc liboctave/util/url-transfer.h

/*

Copyright (C) 1996-2018 John W. Eaton
Copyright (C) 2010 VZLU Prague

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/>.

*/

// This file should not include config.h.  It is only included in other
// C++ source files that should have included config.h before including
// this file.

#include <cassert>

#include <algorithm>

#include "DiagArray2.h"

#include "lo-error.h"

template <typename T>
DiagArray2<T>::DiagArray2 (const Array<T>& a, octave_idx_type r,
                           octave_idx_type c)
  : Array<T> (a.as_column ()), d1 (r), d2 (c)
{
  octave_idx_type rcmin = std::min (r, c);
  if (rcmin != a.numel ())
    Array<T>::resize (dim_vector (rcmin, 1));
}

template <typename T>
Array<T>
DiagArray2<T>::extract_diag (octave_idx_type k) const
{
  Array<T> d;

  if (k == 0)
    // The main diagonal is shallow-copied.
    d = *this;
  else if (k > 0 && k < cols ())
    d = Array<T> (dim_vector (std::min (cols () - k, rows ()), 1), T ());
  else if (k < 0 && -k < rows ())
    d = Array<T> (dim_vector (std::min (rows () + k, cols ()), 1), T ());
  else  // Matlab returns [] 0x1 for out-of-range diagonal
    d.resize (dim_vector (0, 1));

  return d;
}

template <typename T>
DiagArray2<T>
DiagArray2<T>::transpose (void) const
{
  return DiagArray2<T> (*this, d2, d1);
}

template <typename T>
DiagArray2<T>
DiagArray2<T>::hermitian (T (* fcn) (const T&)) const
{
  return DiagArray2<T> (Array<T>::template map<T> (fcn), d2, d1);
}

// A two-dimensional array with diagonal elements only.

template <typename T>
T&
DiagArray2<T>::elem (octave_idx_type r, octave_idx_type c)
{
  static T zero (0);
  return (r == c) ? Array<T>::elem (r) : zero;
}

template <typename T>
T&
DiagArray2<T>::checkelem (octave_idx_type r, octave_idx_type c)
{
  static T zero (0);
  return check_idx (r, c) ? elem (r, c) : zero;
}

template <typename T>
void
DiagArray2<T>::resize (octave_idx_type r, octave_idx_type c,
                       const T& rfv)
{
  if (r < 0 || c < 0)
    (*current_liboctave_error_handler) ("can't resize to negative dimensions");

  if (r != dim1 () || c != dim2 ())
    {
      Array<T>::resize (dim_vector (std::min (r, c), 1), rfv);
      d1 = r; d2 = c;
    }
}

template <typename T>
Array<T>
DiagArray2<T>::array_value (void) const
{
  Array<T> result (dims (), T (0));

  for (octave_idx_type i = 0, len = length (); i < len; i++)
    result.xelem (i, i) = dgelem (i);

  return result;
}

template <typename T>
bool
DiagArray2<T>::check_idx (octave_idx_type r, octave_idx_type c) const
{
  bool ok = true;

  if (r < 0 || r >= dim1 ())
    octave::err_index_out_of_range (2, 1, r+1, dim1 (), dims ());

  if (c < 0 || c >= dim2 ())
    octave::err_index_out_of_range (2, 2, c+1, dim2 (), dims ());

  return ok;
}