/usr/include/octave-3.8.1/octave/ov.h is in liboctave-dev 3.8.1-1ubuntu1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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1422 1423 1424 | /*
Copyright (C) 1996-2013 John W. Eaton
Copyright (C) 2009-2010 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
<http://www.gnu.org/licenses/>.
*/
#if !defined (octave_ov_h)
#define octave_ov_h 1
#include <cstdlib>
#include <iosfwd>
#include <string>
#include <list>
#include "Range.h"
#include "data-conv.h"
#include "idx-vector.h"
#include "mach-info.h"
#include "mx-base.h"
#include "oct-alloc.h"
#include "oct-time.h"
#include "str-vec.h"
#include "oct-hdf5.h"
#include "oct-sort.h"
class Cell;
class mxArray;
class octave_map;
class octave_scalar_map;
class Octave_map;
class octave_stream;
class octave_function;
class octave_user_function;
class octave_fcn_handle;
class octave_fcn_inline;
class octave_value_list;
class octave_lvalue;
#include "ov-base.h"
// Constants.
class octave_value;
class
OCTINTERP_API
octave_value
{
public:
enum unary_op
{
op_not, // not
op_uplus, // uplus
op_uminus, // uminus
op_transpose, // transpose
op_hermitian, // ctranspose
op_incr,
op_decr,
num_unary_ops,
unknown_unary_op
};
enum binary_op
{
op_add, // plus
op_sub, // minus
op_mul, // mtimes
op_div, // mrdivide
op_pow, // mpower
op_ldiv, // mldivide
op_lshift,
op_rshift,
op_lt, // lt
op_le, // le
op_eq, // eq
op_ge, // ge
op_gt, // gt
op_ne, // ne
op_el_mul, // times
op_el_div, // rdivide
op_el_pow, // power
op_el_ldiv, // ldivide
op_el_and, // and
op_el_or, // or
op_struct_ref,
num_binary_ops,
unknown_binary_op
};
enum compound_binary_op
{
// ** compound operations **
op_trans_mul,
op_mul_trans,
op_herm_mul,
op_mul_herm,
op_trans_ldiv,
op_herm_ldiv,
op_el_not_and,
op_el_not_or,
op_el_and_not,
op_el_or_not,
num_compound_binary_ops,
unknown_compound_binary_op
};
enum assign_op
{
op_asn_eq,
op_add_eq,
op_sub_eq,
op_mul_eq,
op_div_eq,
op_ldiv_eq,
op_pow_eq,
op_lshift_eq,
op_rshift_eq,
op_el_mul_eq,
op_el_div_eq,
op_el_ldiv_eq,
op_el_pow_eq,
op_el_and_eq,
op_el_or_eq,
num_assign_ops,
unknown_assign_op
};
static binary_op assign_op_to_binary_op (assign_op);
static assign_op binary_op_to_assign_op (binary_op);
static std::string unary_op_as_string (unary_op);
static std::string unary_op_fcn_name (unary_op);
static std::string binary_op_as_string (binary_op);
static std::string binary_op_fcn_name (binary_op);
static std::string binary_op_fcn_name (compound_binary_op);
static std::string assign_op_as_string (assign_op);
static octave_value empty_conv (const std::string& type,
const octave_value& rhs = octave_value ());
enum magic_colon { magic_colon_t };
octave_value (void)
{
static octave_base_value nil_rep;
rep = &nil_rep;
rep->count++;
}
octave_value (short int i);
octave_value (unsigned short int i);
octave_value (int i);
octave_value (unsigned int i);
octave_value (long int i);
octave_value (unsigned long int i);
// FIXME: these are kluges. They turn into doubles
// internally, which will break for very large values. We just use
// them to store things like 64-bit ino_t, etc, and hope that those
// values are never actually larger than can be represented exactly
// in a double.
#if defined (HAVE_LONG_LONG_INT)
octave_value (long long int i);
#endif
#if defined (HAVE_UNSIGNED_LONG_LONG_INT)
octave_value (unsigned long long int i);
#endif
octave_value (octave_time t);
octave_value (double d);
octave_value (float d);
octave_value (const Array<octave_value>& a, bool is_cs_list = false);
octave_value (const Cell& c, bool is_cs_list = false);
octave_value (const Matrix& m, const MatrixType& t = MatrixType ());
octave_value (const FloatMatrix& m, const MatrixType& t = MatrixType ());
octave_value (const NDArray& nda);
octave_value (const FloatNDArray& nda);
octave_value (const Array<double>& m);
octave_value (const Array<float>& m);
octave_value (const DiagMatrix& d);
octave_value (const DiagArray2<double>& d);
octave_value (const DiagArray2<float>& d);
octave_value (const DiagArray2<Complex>& d);
octave_value (const DiagArray2<FloatComplex>& d);
octave_value (const FloatDiagMatrix& d);
octave_value (const RowVector& v);
octave_value (const FloatRowVector& v);
octave_value (const ColumnVector& v);
octave_value (const FloatColumnVector& v);
octave_value (const Complex& C);
octave_value (const FloatComplex& C);
octave_value (const ComplexMatrix& m, const MatrixType& t = MatrixType ());
octave_value (const FloatComplexMatrix& m,
const MatrixType& t = MatrixType ());
octave_value (const ComplexNDArray& cnda);
octave_value (const FloatComplexNDArray& cnda);
octave_value (const Array<Complex>& m);
octave_value (const Array<FloatComplex>& m);
octave_value (const ComplexDiagMatrix& d);
octave_value (const FloatComplexDiagMatrix& d);
octave_value (const ComplexRowVector& v);
octave_value (const FloatComplexRowVector& v);
octave_value (const ComplexColumnVector& v);
octave_value (const FloatComplexColumnVector& v);
octave_value (const PermMatrix& p);
octave_value (bool b);
octave_value (const boolMatrix& bm, const MatrixType& t = MatrixType ());
octave_value (const boolNDArray& bnda);
octave_value (const Array<bool>& bnda);
octave_value (char c, char type = '\'');
octave_value (const char *s, char type = '\'');
octave_value (const std::string& s, char type = '\'');
octave_value (const string_vector& s, char type = '\'');
octave_value (const charMatrix& chm, char type = '\'');
octave_value (const charNDArray& chnda, char type = '\'');
octave_value (const Array<char>& chnda, char type = '\'');
octave_value (const charMatrix& chm, bool is_string,
char type = '\'') GCC_ATTR_DEPRECATED;
octave_value (const charNDArray& chnda, bool is_string,
char type = '\'') GCC_ATTR_DEPRECATED;
octave_value (const Array<char>& chnda, bool is_string,
char type = '\'') GCC_ATTR_DEPRECATED;
octave_value (const SparseMatrix& m, const MatrixType& t = MatrixType ());
octave_value (const Sparse<double>& m, const MatrixType& t = MatrixType ());
octave_value (const SparseComplexMatrix& m,
const MatrixType& t = MatrixType ());
octave_value (const Sparse<Complex>& m, const MatrixType& t = MatrixType ());
octave_value (const SparseBoolMatrix& bm,
const MatrixType& t = MatrixType ());
octave_value (const Sparse<bool>& m, const MatrixType& t = MatrixType ());
octave_value (const octave_int8& i);
octave_value (const octave_int16& i);
octave_value (const octave_int32& i);
octave_value (const octave_int64& i);
octave_value (const octave_uint8& i);
octave_value (const octave_uint16& i);
octave_value (const octave_uint32& i);
octave_value (const octave_uint64& i);
octave_value (const int8NDArray& inda);
octave_value (const Array<octave_int8>& inda);
octave_value (const int16NDArray& inda);
octave_value (const Array<octave_int16>& inda);
octave_value (const int32NDArray& inda);
octave_value (const Array<octave_int32>& inda);
octave_value (const int64NDArray& inda);
octave_value (const Array<octave_int64>& inda);
octave_value (const uint8NDArray& inda);
octave_value (const Array<octave_uint8>& inda);
octave_value (const uint16NDArray& inda);
octave_value (const Array<octave_uint16>& inda);
octave_value (const uint32NDArray& inda);
octave_value (const Array<octave_uint32>& inda);
octave_value (const uint64NDArray& inda);
octave_value (const Array<octave_uint64>& inda);
octave_value (const Array<octave_idx_type>& inda,
bool zero_based = false, bool cache_index = false);
octave_value (const Array<std::string>& cellstr);
octave_value (const idx_vector& idx, bool lazy = true);
octave_value (double base, double limit, double inc);
octave_value (const Range& r);
octave_value (const octave_map& m);
octave_value (const octave_scalar_map& m);
octave_value (const Octave_map& m);
octave_value (const Octave_map& m, const std::string& id,
const std::list<std::string>& plist);
octave_value (const octave_value_list& m, bool = false);
octave_value (octave_value::magic_colon);
octave_value (octave_base_value *new_rep, bool borrow = false);
octave_value (octave_base_value *new_rep, int xcount) GCC_ATTR_DEPRECATED;
// Copy constructor.
octave_value (const octave_value& a)
{
rep = a.rep;
rep->count++;
}
// This should only be called for derived types.
octave_base_value *clone (void) const;
octave_base_value *empty_clone (void) const
{ return rep->empty_clone (); }
// Delete the representation of this constant if the count drops to
// zero.
~octave_value (void)
{
if (--rep->count == 0)
delete rep;
}
void make_unique (void)
{
if (rep->count > 1)
{
octave_base_value *r = rep->unique_clone ();
if (--rep->count == 0)
delete rep;
rep = r;
}
}
// This uniquifies the value if it is referenced by more than a certain
// number of shallow copies. This is useful for optimizations where we
// know a certain copy, typically within a cell array, to be obsolete.
void make_unique (int obsolete_copies)
{
if (rep->count > obsolete_copies + 1)
{
octave_base_value *r = rep->unique_clone ();
if (--rep->count == 0)
delete rep;
rep = r;
}
}
// Simple assignment.
octave_value& operator = (const octave_value& a)
{
if (rep != a.rep)
{
if (--rep->count == 0)
delete rep;
rep = a.rep;
rep->count++;
}
return *this;
}
octave_idx_type get_count (void) const { return rep->count; }
octave_base_value::type_conv_info numeric_conversion_function (void) const
{ return rep->numeric_conversion_function (); }
octave_base_value::type_conv_info numeric_demotion_function (void) const
{ return rep->numeric_demotion_function (); }
void maybe_mutate (void);
octave_value squeeze (void) const
{ return rep->squeeze (); }
// The result of full().
octave_value full_value (void) const
{ return rep->full_value (); }
octave_base_value *try_narrowing_conversion (void)
{ return rep->try_narrowing_conversion (); }
// Close to dims (), but can be overloaded for classes.
Matrix size (void)
{ return rep->size (); }
octave_idx_type numel (const octave_value_list& idx)
{ return rep->numel (idx); }
octave_value single_subsref (const std::string& type,
const octave_value_list& idx);
octave_value subsref (const std::string& type,
const std::list<octave_value_list>& idx)
{ return rep->subsref (type, idx); }
octave_value subsref (const std::string& type,
const std::list<octave_value_list>& idx,
bool auto_add)
{ return rep->subsref (type, idx, auto_add); }
octave_value_list subsref (const std::string& type,
const std::list<octave_value_list>& idx,
int nargout);
octave_value_list subsref (const std::string& type,
const std::list<octave_value_list>& idx,
int nargout,
const std::list<octave_lvalue> *lvalue_list);
octave_value next_subsref (const std::string& type, const
std::list<octave_value_list>& idx,
size_t skip = 1);
octave_value_list next_subsref (int nargout,
const std::string& type, const
std::list<octave_value_list>& idx,
size_t skip = 1);
octave_value_list next_subsref (int nargout,
const std::string& type, const
std::list<octave_value_list>& idx,
const std::list<octave_lvalue> *lvalue_list,
size_t skip = 1);
octave_value next_subsref (bool auto_add, const std::string& type, const
std::list<octave_value_list>& idx,
size_t skip = 1);
octave_value do_index_op (const octave_value_list& idx,
bool resize_ok = false)
{ return rep->do_index_op (idx, resize_ok); }
octave_value_list
do_multi_index_op (int nargout, const octave_value_list& idx);
octave_value_list
do_multi_index_op (int nargout, const octave_value_list& idx,
const std::list<octave_lvalue> *lvalue_list);
octave_value subsasgn (const std::string& type,
const std::list<octave_value_list>& idx,
const octave_value& rhs);
octave_value undef_subsasgn (const std::string& type,
const std::list<octave_value_list>& idx,
const octave_value& rhs);
octave_value& assign (assign_op op, const std::string& type,
const std::list<octave_value_list>& idx,
const octave_value& rhs);
octave_value& assign (assign_op, const octave_value& rhs);
idx_vector index_vector (void) const
{ return rep->index_vector (); }
// Size.
dim_vector dims (void) const
{ return rep->dims (); }
octave_idx_type rows (void) const { return rep->rows (); }
octave_idx_type columns (void) const { return rep->columns (); }
octave_idx_type length (void) const;
int ndims (void) const { return rep->ndims (); }
bool all_zero_dims (void) const { return dims ().all_zero (); }
octave_idx_type numel (void) const
{ return rep->numel (); }
octave_idx_type capacity (void) const
{ return rep->capacity (); }
size_t byte_size (void) const
{ return rep->byte_size (); }
octave_idx_type nnz (void) const { return rep->nnz (); }
octave_idx_type nzmax (void) const { return rep->nzmax (); }
octave_idx_type nfields (void) const { return rep->nfields (); }
octave_value reshape (const dim_vector& dv) const
{ return rep->reshape (dv); }
octave_value permute (const Array<int>& vec, bool inv = false) const
{ return rep->permute (vec, inv); }
octave_value ipermute (const Array<int>& vec) const
{ return rep->permute (vec, true); }
octave_value resize (const dim_vector& dv, bool fill = false) const
{ return rep->resize (dv, fill);}
MatrixType matrix_type (void) const
{ return rep->matrix_type (); }
MatrixType matrix_type (const MatrixType& typ) const
{ return rep->matrix_type (typ); }
// Does this constant have a type? Both of these are provided since
// it is sometimes more natural to write is_undefined() instead of
// ! is_defined().
bool is_defined (void) const
{ return rep->is_defined (); }
bool is_undefined (void) const
{ return ! is_defined (); }
bool is_empty (void) const
{ return rep->is_empty (); }
bool is_cell (void) const
{ return rep->is_cell (); }
bool is_cellstr (void) const
{ return rep->is_cellstr (); }
bool is_real_scalar (void) const
{ return rep->is_real_scalar (); }
bool is_real_matrix (void) const
{ return rep->is_real_matrix (); }
bool is_complex_scalar (void) const
{ return rep->is_complex_scalar (); }
bool is_complex_matrix (void) const
{ return rep->is_complex_matrix (); }
bool is_bool_scalar (void) const
{ return rep->is_bool_scalar (); }
bool is_bool_matrix (void) const
{ return rep->is_bool_matrix (); }
bool is_char_matrix (void) const
{ return rep->is_char_matrix (); }
bool is_diag_matrix (void) const
{ return rep->is_diag_matrix (); }
bool is_perm_matrix (void) const
{ return rep->is_perm_matrix (); }
bool is_string (void) const
{ return rep->is_string (); }
bool is_sq_string (void) const
{ return rep->is_sq_string (); }
bool is_dq_string (void) const
{ return rep->is_string () && ! rep->is_sq_string (); }
bool is_range (void) const
{ return rep->is_range (); }
bool is_map (void) const
{ return rep->is_map (); }
bool is_object (void) const
{ return rep->is_object (); }
bool is_java (void) const
{ return rep->is_java (); }
bool is_cs_list (void) const
{ return rep->is_cs_list (); }
bool is_magic_colon (void) const
{ return rep->is_magic_colon (); }
bool is_null_value (void) const
{ return rep->is_null_value (); }
// Are any or all of the elements in this constant nonzero?
octave_value all (int dim = 0) const
{ return rep->all (dim); }
octave_value any (int dim = 0) const
{ return rep->any (dim); }
builtin_type_t builtin_type (void) const
{ return rep->builtin_type (); }
// Floating point types.
bool is_double_type (void) const
{ return rep->is_double_type (); }
bool is_single_type (void) const
{ return rep->is_single_type (); }
bool is_float_type (void) const
{ return rep->is_float_type (); }
// Integer types.
bool is_int8_type (void) const
{ return rep->is_int8_type (); }
bool is_int16_type (void) const
{ return rep->is_int16_type (); }
bool is_int32_type (void) const
{ return rep->is_int32_type (); }
bool is_int64_type (void) const
{ return rep->is_int64_type (); }
bool is_uint8_type (void) const
{ return rep->is_uint8_type (); }
bool is_uint16_type (void) const
{ return rep->is_uint16_type (); }
bool is_uint32_type (void) const
{ return rep->is_uint32_type (); }
bool is_uint64_type (void) const
{ return rep->is_uint64_type (); }
// Other type stuff.
bool is_bool_type (void) const
{ return rep->is_bool_type (); }
bool is_integer_type (void) const
{ return rep->is_integer_type (); }
bool is_real_type (void) const
{ return rep->is_real_type (); }
bool is_complex_type (void) const
{ return rep->is_complex_type (); }
bool is_scalar_type (void) const
{ return rep->is_scalar_type (); }
bool is_matrix_type (void) const
{ return rep->is_matrix_type (); }
bool is_numeric_type (void) const
{ return rep->is_numeric_type (); }
bool is_sparse_type (void) const
{ return rep->is_sparse_type (); }
// Does this constant correspond to a truth value?
bool is_true (void) const
{ return rep->is_true (); }
// Do two constants match (in a switch statement)?
bool is_equal (const octave_value&) const;
// Are the dimensions of this constant zero by zero?
bool is_zero_by_zero (void) const
{ return (rows () == 0 && columns () == 0); }
bool is_constant (void) const
{ return rep->is_constant (); }
bool is_function_handle (void) const
{ return rep->is_function_handle (); }
bool is_anonymous_function (void) const
{ return rep->is_anonymous_function (); }
bool is_inline_function (void) const
{ return rep->is_inline_function (); }
bool is_function (void) const
{ return rep->is_function (); }
bool is_user_script (void) const
{ return rep->is_user_script (); }
bool is_user_function (void) const
{ return rep->is_user_function (); }
bool is_user_code (void) const
{ return rep->is_user_code (); }
bool is_builtin_function (void) const
{ return rep->is_builtin_function (); }
bool is_dld_function (void) const
{ return rep->is_dld_function (); }
bool is_mex_function (void) const
{ return rep->is_mex_function (); }
void erase_subfunctions (void) { rep->erase_subfunctions (); }
// Values.
octave_value eval (void) { return *this; }
short int
short_value (bool req_int = false, bool frc_str_conv = false) const
{ return rep->short_value (req_int, frc_str_conv); }
unsigned short int
ushort_value (bool req_int = false, bool frc_str_conv = false) const
{ return rep->ushort_value (req_int, frc_str_conv); }
int int_value (bool req_int = false, bool frc_str_conv = false) const
{ return rep->int_value (req_int, frc_str_conv); }
unsigned int
uint_value (bool req_int = false, bool frc_str_conv = false) const
{ return rep->uint_value (req_int, frc_str_conv); }
int nint_value (bool frc_str_conv = false) const
{ return rep->nint_value (frc_str_conv); }
long int
long_value (bool req_int = false, bool frc_str_conv = false) const
{ return rep->long_value (req_int, frc_str_conv); }
unsigned long int
ulong_value (bool req_int = false, bool frc_str_conv = false) const
{ return rep->ulong_value (req_int, frc_str_conv); }
int64_t
int64_value (bool req_int = false, bool frc_str_conv = false) const
{ return rep->int64_value (req_int, frc_str_conv); }
uint64_t
uint64_value (bool req_int = false, bool frc_str_conv = false) const
{ return rep->uint64_value (req_int, frc_str_conv); }
octave_idx_type
idx_type_value (bool req_int = false, bool frc_str_conv = false) const;
double double_value (bool frc_str_conv = false) const
{ return rep->double_value (frc_str_conv); }
float float_value (bool frc_str_conv = false) const
{ return rep->float_value (frc_str_conv); }
double scalar_value (bool frc_str_conv = false) const
{ return rep->scalar_value (frc_str_conv); }
float float_scalar_value (bool frc_str_conv = false) const
{ return rep->float_scalar_value (frc_str_conv); }
Cell cell_value (void) const;
Matrix matrix_value (bool frc_str_conv = false) const
{ return rep->matrix_value (frc_str_conv); }
FloatMatrix float_matrix_value (bool frc_str_conv = false) const
{ return rep->float_matrix_value (frc_str_conv); }
NDArray array_value (bool frc_str_conv = false) const
{ return rep->array_value (frc_str_conv); }
FloatNDArray float_array_value (bool frc_str_conv = false) const
{ return rep->float_array_value (frc_str_conv); }
Complex complex_value (bool frc_str_conv = false) const
{ return rep->complex_value (frc_str_conv); }
FloatComplex float_complex_value (bool frc_str_conv = false) const
{ return rep->float_complex_value (frc_str_conv); }
ComplexMatrix complex_matrix_value (bool frc_str_conv = false) const
{ return rep->complex_matrix_value (frc_str_conv); }
FloatComplexMatrix
float_complex_matrix_value (bool frc_str_conv = false) const
{ return rep->float_complex_matrix_value (frc_str_conv); }
ComplexNDArray complex_array_value (bool frc_str_conv = false) const
{ return rep->complex_array_value (frc_str_conv); }
FloatComplexNDArray
float_complex_array_value (bool frc_str_conv = false) const
{ return rep->float_complex_array_value (frc_str_conv); }
bool bool_value (bool warn = false) const
{ return rep->bool_value (warn); }
boolMatrix bool_matrix_value (bool warn = false) const
{ return rep->bool_matrix_value (warn); }
boolNDArray bool_array_value (bool warn = false) const
{ return rep->bool_array_value (warn); }
charMatrix char_matrix_value (bool frc_str_conv = false) const
{ return rep->char_matrix_value (frc_str_conv); }
charNDArray char_array_value (bool frc_str_conv = false) const
{ return rep->char_array_value (frc_str_conv); }
SparseMatrix sparse_matrix_value (bool frc_str_conv = false) const
{ return rep->sparse_matrix_value (frc_str_conv); }
SparseComplexMatrix
sparse_complex_matrix_value (bool frc_str_conv = false) const
{ return rep->sparse_complex_matrix_value (frc_str_conv); }
SparseBoolMatrix sparse_bool_matrix_value (bool warn = false) const
{ return rep->sparse_bool_matrix_value (warn); }
DiagMatrix diag_matrix_value (bool force = false) const
{ return rep->diag_matrix_value (force); }
FloatDiagMatrix float_diag_matrix_value (bool force = false) const
{ return rep->float_diag_matrix_value (force); }
ComplexDiagMatrix complex_diag_matrix_value (bool force = false) const
{ return rep->complex_diag_matrix_value (force); }
FloatComplexDiagMatrix
float_complex_diag_matrix_value (bool force = false) const
{ return rep->float_complex_diag_matrix_value (force); }
PermMatrix perm_matrix_value (void) const
{ return rep->perm_matrix_value (); }
octave_int8 int8_scalar_value (void) const
{ return rep->int8_scalar_value (); }
octave_int16 int16_scalar_value (void) const
{ return rep->int16_scalar_value (); }
octave_int32 int32_scalar_value (void) const
{ return rep->int32_scalar_value (); }
octave_int64 int64_scalar_value (void) const
{ return rep->int64_scalar_value (); }
octave_uint8 uint8_scalar_value (void) const
{ return rep->uint8_scalar_value (); }
octave_uint16 uint16_scalar_value (void) const
{ return rep->uint16_scalar_value (); }
octave_uint32 uint32_scalar_value (void) const
{ return rep->uint32_scalar_value (); }
octave_uint64 uint64_scalar_value (void) const
{ return rep->uint64_scalar_value (); }
int8NDArray int8_array_value (void) const
{ return rep->int8_array_value (); }
int16NDArray int16_array_value (void) const
{ return rep->int16_array_value (); }
int32NDArray int32_array_value (void) const
{ return rep->int32_array_value (); }
int64NDArray int64_array_value (void) const
{ return rep->int64_array_value (); }
uint8NDArray uint8_array_value (void) const
{ return rep->uint8_array_value (); }
uint16NDArray uint16_array_value (void) const
{ return rep->uint16_array_value (); }
uint32NDArray uint32_array_value (void) const
{ return rep->uint32_array_value (); }
uint64NDArray uint64_array_value (void) const
{ return rep->uint64_array_value (); }
string_vector all_strings (bool pad = false) const
{ return rep->all_strings (pad); }
std::string string_value (bool force = false) const
{ return rep->string_value (force); }
Array<std::string> cellstr_value (void) const
{ return rep->cellstr_value (); }
Range range_value (void) const
{ return rep->range_value (); }
octave_map map_value (void) const;
octave_scalar_map scalar_map_value (void) const;
string_vector map_keys (void) const
{ return rep->map_keys (); }
size_t nparents (void) const
{ return rep->nparents (); }
std::list<std::string> parent_class_name_list (void) const
{ return rep->parent_class_name_list (); }
string_vector parent_class_names (void) const
{ return rep->parent_class_names (); }
octave_base_value *
find_parent_class (const std::string& parent_class_name)
{ return rep->find_parent_class (parent_class_name); }
octave_function *function_value (bool silent = false) const;
octave_user_function *user_function_value (bool silent = false) const;
octave_user_script *user_script_value (bool silent = false) const;
octave_user_code *user_code_value (bool silent = false) const;
octave_fcn_handle *fcn_handle_value (bool silent = false) const;
octave_fcn_inline *fcn_inline_value (bool silent = false) const;
octave_value_list list_value (void) const;
ColumnVector column_vector_value (bool frc_str_conv = false,
bool frc_vec_conv = false) const;
ComplexColumnVector
complex_column_vector_value (bool frc_str_conv = false,
bool frc_vec_conv = false) const;
RowVector row_vector_value (bool frc_str_conv = false,
bool frc_vec_conv = false) const;
ComplexRowVector
complex_row_vector_value (bool frc_str_conv = false,
bool frc_vec_conv = false) const;
FloatColumnVector float_column_vector_value (bool frc_str_conv = false,
bool frc_vec_conv = false) const;
FloatComplexColumnVector
float_complex_column_vector_value (bool frc_str_conv = false,
bool frc_vec_conv = false) const;
FloatRowVector float_row_vector_value (bool frc_str_conv = false,
bool frc_vec_conv = false) const;
FloatComplexRowVector
float_complex_row_vector_value (bool frc_str_conv = false,
bool frc_vec_conv = false) const;
Array<int> int_vector_value (bool req_int = false,
bool frc_str_conv = false,
bool frc_vec_conv = false) const;
Array<octave_idx_type>
octave_idx_type_vector_value (bool req_int = false,
bool frc_str_conv = false,
bool frc_vec_conv = false) const;
Array<double> vector_value (bool frc_str_conv = false,
bool frc_vec_conv = false) const;
Array<Complex> complex_vector_value (bool frc_str_conv = false,
bool frc_vec_conv = false) const;
Array<float> float_vector_value (bool frc_str_conv = false,
bool frc_vec_conv = false) const;
Array<FloatComplex>
float_complex_vector_value (bool frc_str_conv = false,
bool frc_vec_conv = false) const;
// Possibly economize a lazy-indexed value.
void maybe_economize (void)
{ rep->maybe_economize (); }
// The following two hook conversions are called on any octave_value prior to
// storing it to a "permanent" location, like a named variable, a cell or a
// struct component, or a return value of a function.
octave_value storable_value (void) const;
// Ditto, but in place, i.e. equivalent to *this = this->storable_value (),
// but possibly more efficient.
void make_storable_value (void);
// Conversions. These should probably be private. If a user of this
// class wants a certain kind of constant, he should simply ask for
// it, and we should convert it if possible.
octave_value convert_to_str (bool pad = false, bool force = false,
char type = '\'') const
{ return rep->convert_to_str (pad, force, type); }
octave_value
convert_to_str_internal (bool pad, bool force, char type) const
{ return rep->convert_to_str_internal (pad, force, type); }
void convert_to_row_or_column_vector (void)
{ rep->convert_to_row_or_column_vector (); }
bool print_as_scalar (void) const
{ return rep->print_as_scalar (); }
void print (std::ostream& os, bool pr_as_read_syntax = false) const
{ rep->print (os, pr_as_read_syntax); }
void print_raw (std::ostream& os, bool pr_as_read_syntax = false) const
{ rep->print_raw (os, pr_as_read_syntax); }
bool print_name_tag (std::ostream& os, const std::string& name) const
{ return rep->print_name_tag (os, name); }
void print_with_name (std::ostream& os, const std::string& name) const
{ rep->print_with_name (os, name, true); }
void short_disp (std::ostream& os) const { rep->short_disp (os); }
int type_id (void) const { return rep->type_id (); }
std::string type_name (void) const { return rep->type_name (); }
std::string class_name (void) const { return rep->class_name (); }
// Unary and binary operations.
friend OCTINTERP_API octave_value do_unary_op (unary_op op,
const octave_value& a);
octave_value& do_non_const_unary_op (unary_op op);
octave_value& do_non_const_unary_op (unary_op op, const std::string& type,
const std::list<octave_value_list>& idx);
friend OCTINTERP_API octave_value do_binary_op (binary_op op,
const octave_value& a,
const octave_value& b);
friend OCTINTERP_API octave_value do_binary_op (compound_binary_op op,
const octave_value& a,
const octave_value& b);
friend OCTINTERP_API octave_value do_cat_op (const octave_value& a,
const octave_value& b,
const Array<octave_idx_type>& ra_idx);
const octave_base_value& get_rep (void) const { return *rep; }
bool is_copy_of (const octave_value &val) const { return rep == val.rep; }
void print_info (std::ostream& os,
const std::string& prefix = std::string ()) const;
bool save_ascii (std::ostream& os) { return rep->save_ascii (os); }
bool load_ascii (std::istream& is) { return rep->load_ascii (is); }
bool save_binary (std::ostream& os, bool& save_as_floats)
{ return rep->save_binary (os, save_as_floats); }
bool load_binary (std::istream& is, bool swap,
oct_mach_info::float_format fmt)
{ return rep->load_binary (is, swap, fmt); }
#if defined (HAVE_HDF5)
bool save_hdf5 (hid_t loc_id, const char *name, bool save_as_floats)
{ return rep->save_hdf5 (loc_id, name, save_as_floats); }
bool load_hdf5 (hid_t loc_id, const char *name)
{ return rep->load_hdf5 (loc_id, name); }
#endif
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;
octave_base_value *internal_rep (void) const { return rep; }
// Unsafe. These functions exist to support the MEX interface.
// You should not use them anywhere else.
void *mex_get_data (void) const { return rep->mex_get_data (); }
octave_idx_type *mex_get_ir (void) const { return rep->mex_get_ir (); }
octave_idx_type *mex_get_jc (void) const { return rep->mex_get_jc (); }
mxArray *as_mxArray (void) const { return rep->as_mxArray (); }
octave_value diag (octave_idx_type k = 0) const
{ return rep->diag (k); }
octave_value diag (octave_idx_type m, octave_idx_type n) const
{ return rep->diag (m, n); }
octave_value sort (octave_idx_type dim = 0, sortmode mode = ASCENDING) const
{ return rep->sort (dim, mode); }
octave_value sort (Array<octave_idx_type> &sidx, octave_idx_type dim = 0,
sortmode mode = ASCENDING) const
{ return rep->sort (sidx, dim, mode); }
sortmode is_sorted (sortmode mode = UNSORTED) const
{ return rep->is_sorted (mode); }
Array<octave_idx_type> sort_rows_idx (sortmode mode = ASCENDING) const
{ return rep->sort_rows_idx (mode); }
sortmode is_sorted_rows (sortmode mode = UNSORTED) const
{ return rep->is_sorted_rows (mode); }
void lock (void) { rep->lock (); }
void unlock (void) { rep->unlock (); }
bool islocked (void) const { return rep->islocked (); }
void dump (std::ostream& os) const { rep->dump (os); }
#define MAPPER_FORWARD(F) \
octave_value F (void) const { return rep->map (octave_base_value::umap_ ## F); }
MAPPER_FORWARD (abs)
MAPPER_FORWARD (acos)
MAPPER_FORWARD (acosh)
MAPPER_FORWARD (angle)
MAPPER_FORWARD (arg)
MAPPER_FORWARD (asin)
MAPPER_FORWARD (asinh)
MAPPER_FORWARD (atan)
MAPPER_FORWARD (atanh)
MAPPER_FORWARD (cbrt)
MAPPER_FORWARD (ceil)
MAPPER_FORWARD (conj)
MAPPER_FORWARD (cos)
MAPPER_FORWARD (cosh)
MAPPER_FORWARD (erf)
MAPPER_FORWARD (erfinv)
MAPPER_FORWARD (erfcinv)
MAPPER_FORWARD (erfc)
MAPPER_FORWARD (erfcx)
MAPPER_FORWARD (erfi)
MAPPER_FORWARD (dawson)
MAPPER_FORWARD (exp)
MAPPER_FORWARD (expm1)
MAPPER_FORWARD (finite)
MAPPER_FORWARD (fix)
MAPPER_FORWARD (floor)
MAPPER_FORWARD (gamma)
MAPPER_FORWARD (imag)
MAPPER_FORWARD (isinf)
MAPPER_FORWARD (isna)
MAPPER_FORWARD (isnan)
MAPPER_FORWARD (lgamma)
MAPPER_FORWARD (log)
MAPPER_FORWARD (log2)
MAPPER_FORWARD (log10)
MAPPER_FORWARD (log1p)
MAPPER_FORWARD (real)
MAPPER_FORWARD (round)
MAPPER_FORWARD (roundb)
MAPPER_FORWARD (signum)
MAPPER_FORWARD (sin)
MAPPER_FORWARD (sinh)
MAPPER_FORWARD (sqrt)
MAPPER_FORWARD (tan)
MAPPER_FORWARD (tanh)
// These functions are prefixed with X to avoid potential macro
// conflicts.
MAPPER_FORWARD (xisalnum)
MAPPER_FORWARD (xisalpha)
MAPPER_FORWARD (xisascii)
MAPPER_FORWARD (xiscntrl)
MAPPER_FORWARD (xisdigit)
MAPPER_FORWARD (xisgraph)
MAPPER_FORWARD (xislower)
MAPPER_FORWARD (xisprint)
MAPPER_FORWARD (xispunct)
MAPPER_FORWARD (xisspace)
MAPPER_FORWARD (xisupper)
MAPPER_FORWARD (xisxdigit)
MAPPER_FORWARD (xsignbit)
MAPPER_FORWARD (xtoascii)
MAPPER_FORWARD (xtolower)
MAPPER_FORWARD (xtoupper)
#undef MAPPER_FORWARD
octave_value map (octave_base_value::unary_mapper_t umap) const
{ return rep->map (umap); }
// Extract the n-th element, aka val(n). Result is undefined if val is not an
// array type or n is out of range. Never error.
octave_value
fast_elem_extract (octave_idx_type n) const
{ return rep->fast_elem_extract (n); }
// Assign the n-th element, aka val(n) = x. Returns false if val is not an
// array type, x is not a matching scalar type, or n is out of range.
// Never error.
virtual bool
fast_elem_insert (octave_idx_type n, const octave_value& x)
{
make_unique ();
return rep->fast_elem_insert (n, x);
}
protected:
// The real representation.
octave_base_value *rep;
private:
assign_op unary_op_to_assign_op (unary_op op);
binary_op op_eq_to_binary_op (assign_op op);
// This declaration protects against constructing octave_value from
// const octave_base_value* which actually silently calls octave_value (bool).
octave_value (const octave_base_value *);
DECLARE_OCTAVE_ALLOCATOR
};
// Publish externally used friend functions.
extern OCTINTERP_API octave_value
do_unary_op (octave_value::unary_op op, const octave_value& a);
extern OCTINTERP_API octave_value
do_binary_op (octave_value::binary_op op,
const octave_value& a, const octave_value& b);
extern OCTINTERP_API octave_value
do_binary_op (octave_value::compound_binary_op op,
const octave_value& a, const octave_value& b);
#define OV_UNOP_FN(name) \
inline octave_value \
name (const octave_value& a) \
{ \
return do_unary_op (octave_value::name, a); \
}
#define OV_UNOP_OP(name, op) \
inline octave_value \
operator op (const octave_value& a) \
{ \
return name (a); \
}
#define OV_UNOP_FN_OP(name, op) \
OV_UNOP_FN (name) \
OV_UNOP_OP (name, op)
OV_UNOP_FN_OP (op_not, !)
OV_UNOP_FN_OP (op_uplus, +)
OV_UNOP_FN_OP (op_uminus, -)
OV_UNOP_FN (op_transpose)
OV_UNOP_FN (op_hermitian)
// No simple way to define these for prefix and suffix ops?
//
// incr
// decr
#define OV_BINOP_FN(name) \
inline octave_value \
name (const octave_value& a1, const octave_value& a2) \
{ \
return do_binary_op (octave_value::name, a1, a2); \
}
#define OV_BINOP_OP(name, op) \
inline octave_value \
operator op (const octave_value& a1, const octave_value& a2) \
{ \
return name (a1, a2); \
}
#define OV_BINOP_FN_OP(name, op) \
OV_BINOP_FN (name) \
OV_BINOP_OP (name, op)
OV_BINOP_FN_OP (op_add, +)
OV_BINOP_FN_OP (op_sub, -)
OV_BINOP_FN_OP (op_mul, *)
OV_BINOP_FN_OP (op_div, /)
OV_BINOP_FN (op_pow)
OV_BINOP_FN (op_ldiv)
OV_BINOP_FN (op_lshift)
OV_BINOP_FN (op_rshift)
OV_BINOP_FN_OP (op_lt, <)
OV_BINOP_FN_OP (op_le, <=)
OV_BINOP_FN_OP (op_eq, ==)
OV_BINOP_FN_OP (op_ge, >=)
OV_BINOP_FN_OP (op_gt, >)
OV_BINOP_FN_OP (op_ne, !=)
OV_BINOP_FN (op_el_mul)
OV_BINOP_FN (op_el_div)
OV_BINOP_FN (op_el_pow)
OV_BINOP_FN (op_el_ldiv)
OV_BINOP_FN (op_el_and)
OV_BINOP_FN (op_el_or)
OV_BINOP_FN (op_struct_ref)
#define OV_COMP_BINOP_FN(name) \
inline octave_value \
name (const octave_value& a1, const octave_value& a2) \
{ \
return do_binary_op (octave_value::name, a1, a2); \
}
OV_COMP_BINOP_FN (op_trans_mul)
OV_COMP_BINOP_FN (op_mul_trans)
OV_COMP_BINOP_FN (op_herm_mul)
OV_COMP_BINOP_FN (op_mul_herm)
extern OCTINTERP_API void install_types (void);
// This will eventually go away, but for now it can be used to
// simplify the transition to the new octave_value class hierarchy,
// which uses octave_base_value instead of octave_value for the type
// of octave_value::rep.
#define OV_REP_TYPE octave_base_value
// Templated value extractors.
template<class Value>
inline Value octave_value_extract (const octave_value&)
{ assert (false); }
#define DEF_VALUE_EXTRACTOR(VALUE,MPREFIX) \
template<> \
inline VALUE octave_value_extract<VALUE> (const octave_value& v) \
{ return v.MPREFIX ## _value (); }
DEF_VALUE_EXTRACTOR (double, scalar)
DEF_VALUE_EXTRACTOR (float, float_scalar)
DEF_VALUE_EXTRACTOR (Complex, complex)
DEF_VALUE_EXTRACTOR (FloatComplex, float_complex)
DEF_VALUE_EXTRACTOR (bool, bool)
DEF_VALUE_EXTRACTOR (octave_int8, int8_scalar)
DEF_VALUE_EXTRACTOR (octave_int16, int16_scalar)
DEF_VALUE_EXTRACTOR (octave_int32, int32_scalar)
DEF_VALUE_EXTRACTOR (octave_int64, int64_scalar)
DEF_VALUE_EXTRACTOR (octave_uint8, uint8_scalar)
DEF_VALUE_EXTRACTOR (octave_uint16, uint16_scalar)
DEF_VALUE_EXTRACTOR (octave_uint32, uint32_scalar)
DEF_VALUE_EXTRACTOR (octave_uint64, uint64_scalar)
DEF_VALUE_EXTRACTOR (NDArray, array)
DEF_VALUE_EXTRACTOR (FloatNDArray, float_array)
DEF_VALUE_EXTRACTOR (ComplexNDArray, complex_array)
DEF_VALUE_EXTRACTOR (FloatComplexNDArray, float_complex_array)
DEF_VALUE_EXTRACTOR (boolNDArray, bool_array)
DEF_VALUE_EXTRACTOR (charNDArray, char_array)
DEF_VALUE_EXTRACTOR (int8NDArray, int8_array)
DEF_VALUE_EXTRACTOR (int16NDArray, int16_array)
DEF_VALUE_EXTRACTOR (int32NDArray, int32_array)
DEF_VALUE_EXTRACTOR (int64NDArray, int64_array)
DEF_VALUE_EXTRACTOR (uint8NDArray, uint8_array)
DEF_VALUE_EXTRACTOR (uint16NDArray, uint16_array)
DEF_VALUE_EXTRACTOR (uint32NDArray, uint32_array)
DEF_VALUE_EXTRACTOR (uint64NDArray, uint64_array)
DEF_VALUE_EXTRACTOR (Matrix, matrix)
DEF_VALUE_EXTRACTOR (FloatMatrix, float_matrix)
DEF_VALUE_EXTRACTOR (ComplexMatrix, complex_matrix)
DEF_VALUE_EXTRACTOR (FloatComplexMatrix, float_complex_matrix)
DEF_VALUE_EXTRACTOR (boolMatrix, bool_matrix)
DEF_VALUE_EXTRACTOR (ColumnVector, column_vector)
DEF_VALUE_EXTRACTOR (FloatColumnVector, float_column_vector)
DEF_VALUE_EXTRACTOR (ComplexColumnVector, complex_column_vector)
DEF_VALUE_EXTRACTOR (FloatComplexColumnVector, float_complex_column_vector)
DEF_VALUE_EXTRACTOR (RowVector, row_vector)
DEF_VALUE_EXTRACTOR (FloatRowVector, float_row_vector)
DEF_VALUE_EXTRACTOR (ComplexRowVector, complex_row_vector)
DEF_VALUE_EXTRACTOR (FloatComplexRowVector, float_complex_row_vector)
DEF_VALUE_EXTRACTOR (DiagMatrix, diag_matrix)
DEF_VALUE_EXTRACTOR (FloatDiagMatrix, float_diag_matrix)
DEF_VALUE_EXTRACTOR (ComplexDiagMatrix, complex_diag_matrix)
DEF_VALUE_EXTRACTOR (FloatComplexDiagMatrix, float_complex_diag_matrix)
DEF_VALUE_EXTRACTOR (PermMatrix, perm_matrix)
DEF_VALUE_EXTRACTOR (SparseMatrix, sparse_matrix)
DEF_VALUE_EXTRACTOR (SparseComplexMatrix, sparse_complex_matrix)
DEF_VALUE_EXTRACTOR (SparseBoolMatrix, sparse_bool_matrix)
#undef DEF_VALUE_EXTRACTOR
#define DEF_DUMMY_VALUE_EXTRACTOR(VALUE,DEFVAL) \
template<> \
inline VALUE octave_value_extract<VALUE> (const octave_value&) \
{ assert (false); return DEFVAL; }
DEF_DUMMY_VALUE_EXTRACTOR (char, 0)
DEF_DUMMY_VALUE_EXTRACTOR (octave_value, octave_value ())
#undef DEF_DUMMY_VALUE_EXTRACTOR
#endif
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