/usr/include/camp/detail/constructorimpl.hpp is in libcamp0.7-dev 0.7.1.1-1ubuntu2.
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) 2009-2010 TECHNOGERMA Systems France and/or its subsidiary(-ies).
** Contact: Technogerma Systems France Information (contact@technogerma.fr)
**
** This file is part of the CAMP library.
**
** CAMP 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 3 of the License, or
** (at your option) any later version.
**
** CAMP 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 CAMP. If not, see <http://www.gnu.org/licenses/>.
**
****************************************************************************/
#ifndef CAMP_DETAIL_CONSTRUCTORIMPL_HPP
#define CAMP_DETAIL_CONSTRUCTORIMPL_HPP
#include <camp/constructor.hpp>
#include <camp/valuemapper.hpp>
#include <camp/value.hpp>
#include <camp/valuevisitor.hpp>
#include <camp/errors.hpp>
#include <camp/userobject.hpp>
namespace camp
{
namespace detail
{
/**
* \brief Helper function which converts an argument to a C++ type
*
* The main purpose of this function is to convert any BadType error to
* a BadArgument one.
*
* \param args List of arguments
* \param index Index of the argument to convert
*
* \return Value of args[index] converted to T
*
* \thrown BadArgument conversion triggered a BadType error
*/
template <typename T>
inline typename boost::remove_reference<T>::type convertArg(const Args& args, std::size_t index)
{
try
{
return args[index].to<typename boost::remove_reference<T>::type>();
}
catch (BadType&)
{
CAMP_ERROR(BadArgument(args[index].type(), mapType<T>(), index, "constructor"));
}
}
/**
* \brief Check if a value is compatible with a C++ type
*
* This is a strong test, we check if the type of the value is directly mappable to T, not
* just convertible.
*
* \param value Value to check
*
* \return True if the value is compatible with the type T
*/
template <typename T>
bool checkArg(const Value& value);
/**
* \brief Implementation of metaconstructors with no parameter
*/
template <typename T>
class ConstructorImpl0 : public Constructor
{
public:
/**
* \see Constructor::matches
*/
virtual bool matches(const Args& args) const
{
return (args.count() == 0);
}
/**
* \see Constructor::create
*/
virtual UserObject create(const Args&) const
{
return new T();
}
};
/**
* \brief Implementation of metaconstructors with 1 parameter
*/
template <typename T, typename A0>
class ConstructorImpl1 : public Constructor
{
public:
/**
* \see Constructor::matches
*/
virtual bool matches(const Args& args) const
{
return (args.count() == 1)
&& checkArg<A0>(args[0]);
}
/**
* \see Constructor::create
*/
virtual UserObject create(const Args& args) const
{
return new T(convertArg<A0>(args, 0));
}
};
/**
* \brief Implementation of metaconstructors with 2 parameters
*/
template <typename T, typename A0, typename A1>
class ConstructorImpl2 : public Constructor
{
public:
/**
* \see Constructor::matches
*/
virtual bool matches(const Args& args) const
{
return (args.count() == 2)
&& checkArg<A0>(args[0])
&& checkArg<A1>(args[1]);
}
/**
* \see Constructor::create
*/
virtual UserObject create(const Args& args) const
{
return new T(convertArg<A0>(args, 0),
convertArg<A1>(args, 1));
}
};
/**
* \brief Implementation of metaconstructors with 3 parameters
*/
template <typename T, typename A0, typename A1, typename A2>
class ConstructorImpl3 : public Constructor
{
public:
/**
* \see Constructor::matches
*/
virtual bool matches(const Args& args) const
{
return (args.count() == 3)
&& checkArg<A0>(args[0])
&& checkArg<A1>(args[1])
&& checkArg<A2>(args[2]);
}
/**
* \see Constructor::create
*/
virtual UserObject create(const Args& args) const
{
return new T(convertArg<A0>(args, 0),
convertArg<A1>(args, 1),
convertArg<A2>(args, 2));
}
};
/**
* \brief Implementation of metaconstructors with 4 parameters
*/
template <typename T, typename A0, typename A1, typename A2, typename A3>
class ConstructorImpl4 : public Constructor
{
public:
/**
* \see Constructor::matches
*/
virtual bool matches(const Args& args) const
{
return (args.count() == 4)
&& checkArg<A0>(args[0])
&& checkArg<A1>(args[1])
&& checkArg<A2>(args[2])
&& checkArg<A3>(args[3]);
}
/**
* \see Constructor::create
*/
virtual UserObject create(const Args& args) const
{
return new T(convertArg<A0>(args, 0),
convertArg<A1>(args, 1),
convertArg<A2>(args, 2),
convertArg<A3>(args, 3));
}
};
/**
* \brief Implementation of metaconstructors with 5 parameters
*/
template <typename T, typename A0, typename A1, typename A2, typename A3, typename A4>
class ConstructorImpl5 : public Constructor
{
public:
/**
* \see Constructor::matches
*/
virtual bool matches(const Args& args) const
{
return (args.count() == 5)
&& checkArg<A0>(args[0])
&& checkArg<A1>(args[1])
&& checkArg<A2>(args[2])
&& checkArg<A3>(args[3])
&& checkArg<A4>(args[4]);
}
/**
* \see Constructor::create
*/
virtual UserObject create(const Args& args) const
{
return new T(convertArg<A0>(args, 0),
convertArg<A1>(args, 1),
convertArg<A2>(args, 2),
convertArg<A3>(args, 3),
convertArg<A4>(args, 4));
}
};
/**
* \brief Value visitor which checks the type of the visited value against the C++ type T
*/
template <typename T>
struct CheckTypeVisitor : public ValueVisitor<bool>
{
/**
* \brief Common case: check mapping
*/
template <typename U>
bool operator()(const U&)
{
return mapType<T>() == mapType<U>();
}
/**
* \brief Special case of enum objects: check metaenum and bound type
*/
bool operator()(const EnumObject& obj)
{
const Enum* targetEnum = enumByTypeSafe<T>();
return targetEnum && (*targetEnum == obj.getEnum());
}
/**
* \brief Special case of user objects: check metaclass and bound type
*/
bool operator()(const UserObject& obj)
{
const Class* targetClass = classByTypeSafe<T>();
return targetClass && (*targetClass == obj.getClass());
}
};
template <typename T>
bool checkArg(const Value& value)
{
return value.visit(CheckTypeVisitor<T>());
}
} // namespace detail
} // namespace camp
#endif // CAMP_DETAIL_CONSTRUCTORIMPL_HPP
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