/usr/include/varconf-1.0/varconf/variable.h is in libvarconf-dev 1.0.1-5.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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* variable.h - interface for typeless value container class
* Copyright (C) 2001, Stefanus Du Toit, Joseph Zupko
* (C) 2001-2006 Alistair Riddoch
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* Contact: Joseph Zupko
* jaz147@psu.edu
*
* 189 Reese St.
* Old Forge, PA 18518
*/
#ifndef VARCONF_VARIABLE_H
#define VARCONF_VARIABLE_H
#include "varconf_defs.h"
#include <sigc++/trackable.h>
#include <string>
#include <iostream>
#include <vector>
namespace varconf {
typedef enum { GLOBAL = 0x1 << 0,
USER = 0x1 << 1,
INSTANCE = 0x1 << 2
} Scope;
class VARCONF_API VarBase : virtual public sigc::trackable {
public:
VarBase();
VarBase(const VarBase& c);
VarBase(const bool b);
VarBase(const int i);
VarBase(const double d);
VarBase(const std::string& s);
VarBase(const char* s);
virtual ~VarBase();
VARCONF_API friend std::ostream& operator<<(std::ostream& out, const VarBase& v);
VARCONF_API friend bool operator ==(const VarBase& one, const VarBase& two);
VARCONF_API friend bool operator !=(const VarBase& one, const VarBase& two);
virtual VarBase& operator=(const VarBase& c);
virtual VarBase& operator=(const bool b);
virtual VarBase& operator=(const int i);
virtual VarBase& operator=(const double d);
virtual VarBase& operator=(const std::string& s);
virtual VarBase& operator=(const char* s);
virtual operator bool() const;
virtual operator int() const;
virtual operator double() const;
virtual operator std::string() const;
virtual bool is_bool() const;
virtual bool is_int() const;
virtual bool is_double() const;
virtual bool is_string() const;
const Scope scope() const { return m_scope; }
void setScope(Scope s) { m_scope = s; }
private:
mutable bool m_have_bool;
mutable bool m_have_int;
mutable bool m_have_double;
bool m_have_string;
mutable bool m_val_bool;
mutable int m_val_int;
mutable double m_val_double;
std::string m_val;
protected:
Scope m_scope;
};
VARCONF_API std::ostream& operator<<(std::ostream& out, const VarBase& v);
VARCONF_API bool operator ==(const VarBase& one, const VarBase& two);
// The next two classes manage a reference count to
// a pointer to class VarBase.
class VarBox
{
public:
VarBox(VarBase *vb) : m_var(vb), m_ref(1) {}
~VarBox() {delete m_var;}
void ref() {++m_ref;}
void unref() {if(--m_ref == 0) delete this;}
VarBase *elem() {return m_var;}
private:
VarBox(const VarBox&);
VarBox& operator=(const VarBox&);
VarBase *m_var;
unsigned long m_ref;
};
class VARCONF_API VarPtr
{
public:
VarPtr(VarBase *vb) : m_box(new VarBox(vb)) {}
VarPtr(const VarPtr &vp) : m_box(vp.m_box) {m_box->ref();}
~VarPtr() {m_box->unref();}
VarPtr& operator=(const VarPtr &vp)
{
if(vp.m_box != m_box) {
m_box->unref();
m_box = vp.m_box;
m_box->ref();
}
return *this;
}
VarBase& elem() const {return *m_box->elem();}
VarBase* operator->() const {return m_box->elem();}
private:
VarBox *m_box;
};
class Variable;
typedef std::vector<Variable> VarList;
class VARCONF_API Variable : public VarPtr {
public:
Variable() : VarPtr(new VarBase()) {}
Variable(const Variable& c);
Variable(VarBase* vb) : VarPtr(vb) {}
Variable(const bool b) : VarPtr(new VarBase(b)) {}
Variable(const int i) : VarPtr(new VarBase(i)) {}
Variable(const double d) : VarPtr(new VarBase(d)) {}
Variable(const std::string& s) : VarPtr(new VarBase(s)) {}
Variable(const char* s) : VarPtr(new VarBase(s)) {}
Variable(const int n, const Variable& v);
Variable(const VarList& v);
virtual ~Variable();
friend std::ostream& operator<<(std::ostream& out, const Variable& v)
{return (out << v.elem());}
friend bool operator ==(const Variable& one, const Variable& two)
{return (one.elem() == two.elem());}
friend bool operator !=(const Variable& one, const Variable& two)
{return (one.elem() != two.elem());}
Variable& operator=(const Variable& c);
Variable& operator=(VarBase* vb);
Variable& operator=(const bool b);
Variable& operator=(const int i);
Variable& operator=(const double d);
Variable& operator=(const std::string& s);
Variable& operator=(const char* s);
Variable& operator=(const VarList& v);
operator bool() const {return bool(this->elem());}
operator int() const {return int(this->elem());}
operator double() const {return double(this->elem());}
operator std::string() const {return std::string(this->elem());}
VarList* array() const {return dynamic_cast<VarList*>(&this->elem());}
Variable& operator[](const int i);
std::string as_string() const {return std::string(this->elem());}
// This is sort of funky. The corresponding functions in VarBase
// can't be const, since the versions in dynvar::Base call
// set_val(), which certainly isn't const. These versions
// can be const, however, since (const Variable) is a pointer
// to VarBase, not (const VarBase).
bool is_bool() const {return (*this)->is_bool();}
bool is_int() const {return (*this)->is_int();}
bool is_double() const {return (*this)->is_double();}
bool is_string() const {return (*this)->is_string();}
bool is_array() const {return array() != 0;}
};
class VARCONF_API VarArray : public VarBase, public VarList {
public:
VarArray() : VarBase(), VarList() {}
VarArray(const VarArray& v) : VarBase(), VarList(v) {}
VarArray(const int n, const Variable& v = Variable())
: VarBase(), VarList(n, v) {}
VarArray(const VarList& v) : VarBase(), VarList(v) {}
~VarArray();
friend std::ostream& operator<<(std::ostream& out, const VarArray& v);
friend bool operator ==(const VarBase& one, const VarArray& two) {return false;}
friend bool operator ==(const VarArray& one, const VarBase& two) {return false;}
friend bool operator ==(const VarArray& one, const VarArray& two);
virtual operator bool() const;
virtual operator int() const;
virtual operator double() const;
virtual operator std::string() const;
virtual bool is_bool() const;
virtual bool is_int() const;
virtual bool is_double() const;
virtual bool is_string() const;
};
} // namespace varconf
#endif
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