/usr/include/octave-4.0.3/octave/oct-map.h is in liboctave-dev 4.0.3-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Copyright (C) 1994-2015 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
<http://www.gnu.org/licenses/>.
*/
#if !defined (octave_oct_map_h)
#define octave_oct_map_h 1
#include <algorithm>
#include <map>
#include "Cell.h"
#include "oct-obj.h"
class string_vector;
// A class holding a map field->index. Supports reference-counting.
class OCTINTERP_API
octave_fields
{
class fields_rep : public std::map<std::string, octave_idx_type>
{
public:
fields_rep (void) : std::map<std::string, octave_idx_type> (), count (1) { }
fields_rep (const fields_rep& other)
: std::map<std::string, octave_idx_type> (other), count (1) { }
octave_refcount<int> count;
private:
fields_rep& operator = (const fields_rep&); // no assignment!
};
fields_rep *rep;
static fields_rep *nil_rep (void);
public:
octave_fields (void) : rep (nil_rep ()) { rep->count++; }
octave_fields (const string_vector&);
octave_fields (const char * const *);
~octave_fields (void)
{
if (--rep->count == 0)
delete rep;
}
void make_unique (void)
{
if (rep->count > 1)
{
fields_rep *r = new fields_rep (*rep);
if (--rep->count == 0)
delete rep;
rep = r;
}
}
octave_fields (const octave_fields& o) : rep (o.rep) { rep->count++; }
octave_fields&
operator = (const octave_fields& o)
{
o.rep->count++;
if (--rep->count == 0)
delete rep;
rep = o.rep;
return *this;
}
// constant iteration support. non-const iteration intentionally unsupported.
typedef std::map<std::string, octave_idx_type>::const_iterator const_iterator;
typedef const_iterator iterator;
const_iterator begin (void) const { return rep->begin (); }
const_iterator end (void) const { return rep->end (); }
std::string key (const_iterator p) const { return p->first; }
octave_idx_type index (const_iterator p) const { return p->second; }
const_iterator seek (const std::string& k) const
{ return rep->find (k); }
// high-level methods.
// number of fields.
octave_idx_type nfields (void) const { return rep->size (); }
// check whether a field exists.
bool isfield (const std::string& name) const;
// get index of field. return -1 if not exist
octave_idx_type getfield (const std::string& name) const;
// get index of field. add if not exist
octave_idx_type getfield (const std::string& name);
// remove field and return the index. -1 if didn't exist.
octave_idx_type rmfield (const std::string& name);
// order the fields of this map. creates a permutation
// used to order the fields.
void orderfields (Array<octave_idx_type>& perm);
// compares two instances for equality up to order of fields.
// returns a permutation needed to bring the fields of *other*
// into the order of *this*.
bool equal_up_to_order (const octave_fields& other,
octave_idx_type* perm) const;
bool equal_up_to_order (const octave_fields& other,
Array<octave_idx_type>& perm) const;
bool is_same (const octave_fields& other) const
{ return rep == other.rep; }
// Returns the fields as a vector of strings.
string_vector fieldnames (void) const;
void clear (void)
{
*this = octave_fields ();
}
};
class OCTINTERP_API
octave_scalar_map
{
public:
octave_scalar_map (const octave_fields& k)
: xkeys (k), xvals (k.nfields ()) { }
octave_scalar_map (void) : xkeys (), xvals () { }
octave_scalar_map (const string_vector& k)
: xkeys (k), xvals (k.length ()) { }
octave_scalar_map (const octave_scalar_map& m)
: xkeys (m.xkeys), xvals(m.xvals) { }
octave_scalar_map& operator = (const octave_scalar_map& m)
{
xkeys = m.xkeys;
xvals = m.xvals;
return *this;
}
// iteration support. note that both const and non-const iterators are the
// same. The const/non-const distinction is made by the key & contents method.
typedef octave_fields::const_iterator const_iterator;
typedef const_iterator iterator;
const_iterator begin (void) const { return xkeys.begin (); }
const_iterator end (void) const { return xkeys.end (); }
const_iterator seek (const std::string& k) const { return xkeys.seek (k); }
std::string key (const_iterator p) const
{ return xkeys.key (p); }
octave_idx_type index (const_iterator p) const
{ return xkeys.index (p); }
const octave_value& contents (const_iterator p) const
{ return xvals[xkeys.index (p)]; }
octave_value& contents (iterator p)
{ return xvals[xkeys.index (p)]; }
const octave_value& contents (octave_idx_type i) const
{ return xvals[i]; }
octave_value& contents (octave_idx_type i)
{ return xvals[i]; }
// number of fields.
octave_idx_type nfields (void) const { return xkeys.nfields (); }
// check whether a field exists.
bool isfield (const std::string& name) const
{ return xkeys.isfield (name); }
bool contains (const std::string& name) const
{ return isfield (name); }
string_vector fieldnames (void) const
{ return xkeys.fieldnames (); }
string_vector keys (void) const
{ return fieldnames (); }
// get contents of a given field. empty value if not exist.
octave_value getfield (const std::string& key) const;
// set contents of a given field. add if not exist.
void setfield (const std::string& key, const octave_value& val);
void assign (const std::string& k, const octave_value& val)
{ setfield (k, val); }
// remove a given field. do nothing if not exist.
void rmfield (const std::string& key);
void del (const std::string& k) { rmfield (k); }
// return a copy with fields ordered, optionally along with permutation.
octave_scalar_map orderfields (void) const;
octave_scalar_map orderfields (Array<octave_idx_type>& perm) const;
octave_scalar_map orderfields (const octave_scalar_map& other,
Array<octave_idx_type>& perm) const;
// aka getfield/setfield, but the latter returns a reference.
octave_value contents (const std::string& k) const;
octave_value& contents (const std::string& k);
void clear (void)
{
xkeys.clear ();
xvals.clear ();
}
friend class octave_map;
private:
octave_fields xkeys;
std::vector<octave_value> xvals;
};
template<>
inline octave_scalar_map
octave_value_extract<octave_scalar_map> (const octave_value& v)
{ return v.scalar_map_value (); }
class OCTINTERP_API
octave_map
{
public:
octave_map (const octave_fields& k)
: xkeys (k), xvals (k.nfields ()), dimensions () { }
octave_map (const dim_vector& dv, const octave_fields& k)
: xkeys (k), xvals (k.nfields (), Cell (dv)), dimensions (dv) { }
typedef octave_scalar_map element_type;
octave_map (void) : xkeys (), xvals (), dimensions () { }
octave_map (const dim_vector& dv) : xkeys (), xvals (), dimensions (dv) { }
octave_map (const string_vector& k)
: xkeys (k), xvals (k.length (), Cell (1, 1)), dimensions (1, 1) { }
octave_map (const dim_vector& dv, const string_vector& k)
: xkeys (k), xvals (k.length (), Cell (dv)), dimensions (dv) { }
octave_map (const octave_map& m)
: xkeys (m.xkeys), xvals (m.xvals), dimensions (m.dimensions) { }
octave_map (const octave_scalar_map& m);
octave_map& operator = (const octave_map& m)
{
xkeys = m.xkeys;
xvals = m.xvals;
dimensions = m.dimensions;
return *this;
}
// iteration support. note that both const and non-const iterators are the
// same. The const/non-const distinction is made by the key & contents method.
typedef octave_fields::const_iterator const_iterator;
typedef const_iterator iterator;
const_iterator begin (void) const { return xkeys.begin (); }
const_iterator end (void) const { return xkeys.end (); }
const_iterator seek (const std::string& k) const { return xkeys.seek (k); }
std::string key (const_iterator p) const
{ return xkeys.key (p); }
octave_idx_type index (const_iterator p) const
{ return xkeys.index (p); }
const Cell& contents (const_iterator p) const
{ return xvals[xkeys.index (p)]; }
Cell& contents (iterator p)
{ return xvals[xkeys.index (p)]; }
const Cell& contents (octave_idx_type i) const
{ return xvals[i]; }
Cell& contents (octave_idx_type i)
{ return xvals[i]; }
// number of fields.
octave_idx_type nfields (void) const { return xkeys.nfields (); }
// check whether a field exists.
bool isfield (const std::string& name) const
{ return xkeys.isfield (name); }
bool contains (const std::string& name) const
{ return isfield (name); }
string_vector fieldnames (void) const
{ return xkeys.fieldnames (); }
string_vector keys (void) const
{ return fieldnames (); }
// get contents of a given field. empty value if not exist.
Cell getfield (const std::string& key) const;
// set contents of a given field. add if not exist. checks for
// correct dimensions.
void setfield (const std::string& key, const Cell& val);
void assign (const std::string& k, const Cell& val)
{ setfield (k, val); }
// remove a given field. do nothing if not exist.
void rmfield (const std::string& key);
void del (const std::string& k) { rmfield (k); }
// return a copy with fields ordered, optionally along with permutation.
octave_map orderfields (void) const;
octave_map orderfields (Array<octave_idx_type>& perm) const;
octave_map orderfields (const octave_map& other,
Array<octave_idx_type>& perm) const;
// aka getfield/setfield, but the latter returns a reference.
Cell contents (const std::string& k) const;
Cell& contents (const std::string& k);
void clear (void)
{
xkeys.clear ();
xvals.clear ();
}
// The Array-like methods.
octave_idx_type numel (void) const { return dimensions.numel (); }
octave_idx_type length (void) const { return numel (); }
bool is_empty (void) const { return dimensions.any_zero (); }
octave_idx_type rows (void) const { return dimensions(0); }
octave_idx_type cols (void) const { return dimensions(1); }
octave_idx_type columns (void) const { return dimensions(1); }
// Extract a scalar substructure.
octave_scalar_map checkelem (octave_idx_type n) const;
octave_scalar_map checkelem (octave_idx_type i, octave_idx_type j) const;
octave_scalar_map
checkelem (const Array<octave_idx_type>& ra_idx) const;
octave_scalar_map operator () (octave_idx_type n) const
{ return checkelem (n); }
octave_scalar_map operator () (octave_idx_type i, octave_idx_type j) const
{ return checkelem (i, j); }
octave_scalar_map
operator () (const Array<octave_idx_type>& ra_idx) const
{ return checkelem (ra_idx); }
octave_map squeeze (void) const;
octave_map permute (const Array<int>& vec, bool inv = false) const;
dim_vector dims (void) const { return dimensions; }
int ndims (void) const { return dimensions.length (); }
octave_map transpose (void) const;
octave_map reshape (const dim_vector& dv) const;
void resize (const dim_vector& dv, bool fill = false);
static octave_map
cat (int dim, octave_idx_type n, const octave_scalar_map *map_list);
static octave_map
cat (int dim, octave_idx_type n, const octave_map *map_list);
octave_map index (const idx_vector& i, bool resize_ok = false) const;
octave_map index (const idx_vector& i, const idx_vector& j,
bool resize_ok = false) const;
octave_map index (const Array<idx_vector>& ia,
bool resize_ok = false) const;
octave_map index (const octave_value_list&, bool resize_ok = false) const;
octave_map column (octave_idx_type k) const;
octave_map page (octave_idx_type k) const;
void assign (const idx_vector& i, const octave_map& rhs);
void assign (const idx_vector& i, const idx_vector& j, const octave_map& rhs);
void assign (const Array<idx_vector>& ia, const octave_map& rhs);
void assign (const octave_value_list&, const octave_map& rhs);
void assign (const octave_value_list& idx, const std::string& k,
const Cell& rhs);
void delete_elements (const idx_vector& i);
void delete_elements (int dim, const idx_vector& i);
void delete_elements (const Array<idx_vector>& ia);
void delete_elements (const octave_value_list&);
octave_map concat (const octave_map& rb,
const Array<octave_idx_type>& ra_idx);
// like checkelem, but no check.
octave_scalar_map fast_elem_extract (octave_idx_type n) const;
// element assignment, no bounds check
bool fast_elem_insert (octave_idx_type n, const octave_scalar_map& rhs);
private:
octave_fields xkeys;
std::vector<Cell> xvals;
dim_vector dimensions;
void optimize_dimensions (void);
void extract_scalar (octave_scalar_map& dest,
octave_idx_type index) const;
static void do_cat (int dim, octave_idx_type n,
const octave_scalar_map *map_list, octave_map& retval);
static void do_cat (int dim, octave_idx_type n,
const octave_map *map_list, octave_map& retval);
};
template<>
inline octave_map octave_value_extract<octave_map> (const octave_value& v)
{ return v.map_value (); }
#endif
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