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Clean up isa() function. * ov-class.cc (Fisa): Remove not strictly necessary const modifiers on variables. Use more meaningful variable names. Put direct test for class name first in if tree since this is the most likely test to succeed.
author Rik <rik@octave.org>
date Tue, 22 Sep 2015 01:38:40 -0700
parents 7ac907da9fba
children
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/*

Copyright (C) 1996-2015 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 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
<http://www.gnu.org/licenses/>.

*/

#if !defined (octave_ov_range_h)
#define octave_ov_range_h 1

#include <cstdlib>

#include <iosfwd>
#include <string>

#include "Range.h"

#include "lo-mappers.h"
#include "lo-utils.h"
#include "mx-base.h"
#include "str-vec.h"

#include "error.h"
#include "oct-stream.h"
#include "ov-base.h"
#include "ov-re-mat.h"
#include "ov-typeinfo.h"

class octave_value_list;

class tree_walker;

// Range values.

class
octave_range : public octave_base_value
{
public:

  octave_range (void)
    : octave_base_value (), range (), idx_cache () { }

  octave_range (double base, double limit, double inc)
    : octave_base_value (), range (base, limit, inc), idx_cache ()
  {
    if (range.numel () < 0)
      error ("invalid range");
  }

  octave_range (const Range& r)
    : octave_base_value (), range (r), idx_cache ()
  {
    if (range.numel () < 0 && range.numel () != -2)
      error ("invalid range");
  }

  octave_range (const octave_range& r)
    : octave_base_value (), range (r.range),
      idx_cache (r.idx_cache ? new idx_vector (*r.idx_cache) : 0)
  { }

  octave_range (const Range& r, const idx_vector& cache)
    : octave_base_value (), range (r), idx_cache ()
  {
    set_idx_cache (cache);
  }

  ~octave_range (void) { clear_cached_info (); }

  octave_base_value *clone (void) const { return new octave_range (*this); }

  // A range is really just a special kind of real matrix object.  In
  // the places where we need to call empty_clone, it makes more sense
  // to create an empty matrix (0x0) instead of an empty range (1x0).
  octave_base_value *empty_clone (void) const { return new octave_matrix (); }

  type_conv_info numeric_conversion_function (void) const;

  octave_base_value *try_narrowing_conversion (void);

  octave_value subsref (const std::string& type,
                        const std::list<octave_value_list>& idx);

  octave_value_list subsref (const std::string& type,
                             const std::list<octave_value_list>& idx, int)
  { return subsref (type, idx); }

  octave_value do_index_op (const octave_value_list& idx,
                            bool resize_ok = false);

  idx_vector index_vector (bool require_integers = false) const;

  dim_vector dims (void) const
  {
    octave_idx_type n = range.numel ();
    return dim_vector (n > 0, n);
  }

  octave_value resize (const dim_vector& dv, bool fill = false) const;


  size_t byte_size (void) const { return 3 * sizeof (double); }

  octave_value reshape (const dim_vector& new_dims) const
  { return NDArray (array_value ().reshape (new_dims)); }

  octave_value permute (const Array<int>& vec, bool inv = false) const
  { return NDArray (array_value ().permute (vec, inv)); }

  octave_value squeeze (void) const { return range; }

  octave_value full_value (void) const { return range.matrix_value (); }

  bool is_defined (void) const { return true; }

  bool is_constant (void) const { return true; }

  bool is_range (void) const { return true; }

  octave_value all (int dim = 0) const;

  octave_value any (int dim = 0) const;

  octave_value diag (octave_idx_type k = 0) const;

  octave_value diag (octave_idx_type m, octave_idx_type n) const;

  octave_value sort (octave_idx_type dim = 0, sortmode mode = ASCENDING) const
  { return range.sort (dim, mode); }

  octave_value sort (Array<octave_idx_type>& sidx, octave_idx_type dim = 0,
                     sortmode mode = ASCENDING) const
  { return range.sort (sidx, dim, mode); }

  sortmode is_sorted (sortmode mode = UNSORTED) const
  { return range.is_sorted (mode); }

  Array<octave_idx_type> sort_rows_idx (sortmode) const
  { return Array<octave_idx_type> (dim_vector (1, 0)); }

  sortmode is_sorted_rows (sortmode mode = UNSORTED) const
  { return mode ? mode : ASCENDING; }

  builtin_type_t builtin_type (void) const { return btyp_double; }

  bool is_real_type (void) const { return true; }

  bool is_double_type (void) const { return true; }

  bool is_float_type (void) const { return true; }

  bool is_numeric_type (void) const { return true; }

  bool is_true (void) const;

  double double_value (bool = false) const;

  float float_value (bool = false) const;

  double scalar_value (bool frc_str_conv = false) const
  { return double_value (frc_str_conv); }

  float float_scalar_value (bool frc_str_conv = false) const
  { return float_value (frc_str_conv); }

  Matrix matrix_value (bool = false) const
  { return range.matrix_value (); }

  FloatMatrix float_matrix_value (bool = false) const
  { return range.matrix_value (); }

  NDArray array_value (bool = false) const
  { return range.matrix_value (); }

  FloatNDArray float_array_value (bool = false) const
  { return FloatMatrix (range.matrix_value ()); }

  charNDArray char_array_value (bool = false) const;

  // FIXME: it would be better to have Range::intXNDArray_value
  // functions to avoid the intermediate conversion to a matrix
  // object.

  int8NDArray
  int8_array_value (void) const { return int8NDArray (array_value ()); }

  int16NDArray
  int16_array_value (void) const { return int16NDArray (array_value ()); }

  int32NDArray
  int32_array_value (void) const { return int32NDArray (array_value ()); }

  int64NDArray
  int64_array_value (void) const { return int64NDArray (array_value ()); }

  uint8NDArray
  uint8_array_value (void) const { return uint8NDArray (array_value ()); }

  uint16NDArray
  uint16_array_value (void) const { return uint16NDArray (array_value ()); }

  uint32NDArray
  uint32_array_value (void) const { return uint32NDArray (array_value ()); }

  uint64NDArray
  uint64_array_value (void) const { return uint64NDArray (array_value ()); }

  SparseMatrix sparse_matrix_value (bool = false) const
  { return SparseMatrix (range.matrix_value ()); }

  SparseComplexMatrix sparse_complex_matrix_value (bool = false) const
  { return SparseComplexMatrix (sparse_matrix_value ()); }

  Complex complex_value (bool = false) const;

  FloatComplex float_complex_value (bool = false) const;

  boolNDArray bool_array_value (bool warn = false) const;

  ComplexMatrix complex_matrix_value (bool = false) const
  { return ComplexMatrix (range.matrix_value ()); }

  FloatComplexMatrix float_complex_matrix_value (bool = false) const
  { return FloatComplexMatrix (range.matrix_value ()); }

  ComplexNDArray complex_array_value (bool = false) const
  { return ComplexMatrix (range.matrix_value ()); }

  FloatComplexNDArray float_complex_array_value (bool = false) const
  { return FloatComplexMatrix (range.matrix_value ()); }

  Range range_value (void) const { return range; }

  octave_value convert_to_str_internal (bool pad, bool force, char type) const;

  void print (std::ostream& os, bool pr_as_read_syntax = false);

  void print_raw (std::ostream& os, bool pr_as_read_syntax = false) const;

  bool print_name_tag (std::ostream& os, const std::string& name) const;

  void short_disp (std::ostream& os) const;

  bool save_ascii (std::ostream& os);

  bool load_ascii (std::istream& is);

  bool save_binary (std::ostream& os, bool& save_as_floats);

  bool load_binary (std::istream& is, bool swap,
                    oct_mach_info::float_format fmt);

  bool save_hdf5 (octave_hdf5_id loc_id, const char *name, bool save_as_floats);

  bool load_hdf5 (octave_hdf5_id loc_id, const char *name);

  int write (octave_stream& os, int block_size,
             oct_data_conv::data_type output_type, int skip,
             oct_mach_info::float_format flt_fmt) const
  {
    // FIXME: could be more memory efficient by having a
    // special case of the octave_stream::write method for ranges.

    return os.write (matrix_value (), block_size, output_type, skip, flt_fmt);
  }

  mxArray *as_mxArray (void) const;

  octave_value map (unary_mapper_t umap) const
  {
    octave_matrix m (matrix_value ());
    return m.map (umap);
  }

  octave_value fast_elem_extract (octave_idx_type n) const;

private:

  Range range;

  idx_vector set_idx_cache (const idx_vector& idx) const
  {
    delete idx_cache;
    idx_cache = idx ? new idx_vector (idx) : 0;
    return idx;
  }

  void clear_cached_info (void) const
  {
    delete idx_cache; idx_cache = 0;
  }

  mutable idx_vector *idx_cache;

  // No assignment.

  octave_range& operator = (const octave_range&);


  DECLARE_OV_TYPEID_FUNCTIONS_AND_DATA
};

#endif