/usr/include/sofa/helper/FnDispatcher.h is in libsofa1-dev 1.0~beta4-12.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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* SOFA, Simulation Open-Framework Architecture, version 1.0 beta 4 *
* (c) 2006-2009 MGH, INRIA, USTL, UJF, CNRS *
* *
* 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. *
*******************************************************************************
* SOFA :: Framework *
* *
* Authors: M. Adam, J. Allard, B. Andre, P-J. Bensoussan, S. Cotin, C. Duriez,*
* H. Delingette, F. Falipou, F. Faure, S. Fonteneau, L. Heigeas, C. Mendoza, *
* M. Nesme, P. Neumann, J-P. de la Plata Alcade, F. Poyer and F. Roy *
* *
* Contact information: contact@sofa-framework.org *
******************************************************************************/
#ifndef SOFA_HELPER_FNDISPATCHER_H
#define SOFA_HELPER_FNDISPATCHER_H
#include <map>
#include <typeinfo>
#include <sofa/helper/helper.h>
namespace sofa
{
namespace helper
{
class TypeInfo
{
public:
const std::type_info* pt;
TypeInfo(const std::type_info& t) : pt(&t) { }
operator const std::type_info&() const { return *pt; }
bool operator==(const TypeInfo& t) const { return *pt == *t.pt; }
bool operator!=(const TypeInfo& t) const { return *pt != *t.pt; }
#ifdef _MSC_VER
bool operator<(const TypeInfo& t) const { return (pt->before(*t.pt)!=0); }
#else
bool operator<(const TypeInfo& t) const { return pt->before(*t.pt); }
#endif
};
template <class BaseClass, typename ResulT = void>
class BasicDispatcher
{
public:
typedef ResulT (*F)(BaseClass &,BaseClass &);
protected:
typedef std::pair<TypeInfo,TypeInfo> KeyType;
typedef std::map<KeyType, F> MapType;
MapType callBackMap;
virtual ~BasicDispatcher(){}
public:
void add(const std::type_info& class1, const std::type_info& class2, F fun)
{
callBackMap[KeyType(class1,class2)] = fun;
}
void ignore(const std::type_info& class1, const std::type_info& class2)
{
callBackMap[KeyType(class1,class2)] = ignoreFn;
}
template <class ConcreteClass1,class ConcreteClass2,ResulT (*F)(ConcreteClass1&,ConcreteClass2&), bool symetric>
void ignore()
{
this->BasicDispatcher<BaseClass, ResulT>::add(typeid(ConcreteClass1), typeid(ConcreteClass2), &ignoreFn);
if (symetric)
{
this->BasicDispatcher<BaseClass, ResulT>::add(typeid(ConcreteClass2), typeid(ConcreteClass1), &ignoreFn);
}
}
virtual ResulT defaultFn(BaseClass& arg1, BaseClass& arg2);
static ResulT ignoreFn(BaseClass& arg1, BaseClass& arg2);
ResulT go(BaseClass &arg1,BaseClass &arg2);
/// Return true if a pair of argument correspond to a callback function (different than ignoreFn)
bool isSupported(BaseClass &arg1, BaseClass &arg2);
};
template <class BaseClass, typename ResulT>
class FnDispatcher : public BasicDispatcher<BaseClass, ResulT>
{
public:
template <class ConcreteClass1, class ConcreteClass2,ResulT (*F)(ConcreteClass1&,ConcreteClass2&), bool symetric>
void add()
{
struct Local
{
static ResulT trampoline(BaseClass &arg1,BaseClass &arg2)
{
return F(static_cast<ConcreteClass1 &> (arg1),
static_cast<ConcreteClass2 &> (arg2));
}
static ResulT trampolineR(BaseClass &arg1,BaseClass &arg2)
{
return trampoline (arg2, arg1);
}
};
this->BasicDispatcher<BaseClass, ResulT>::add(typeid(ConcreteClass1), typeid(ConcreteClass2), &Local::trampoline);
if (symetric)
{
this->BasicDispatcher<BaseClass, ResulT>::add(typeid(ConcreteClass2), typeid(ConcreteClass1), &Local::trampolineR);
}
}
template <class ConcreteClass1, class ConcreteClass2, bool symetric>
void ignore()
{
this->BasicDispatcher<BaseClass, ResulT>::ignore(typeid(ConcreteClass1), typeid(ConcreteClass2));
if (symetric)
{
this->BasicDispatcher<BaseClass, ResulT>::ignore(typeid(ConcreteClass2), typeid(ConcreteClass1));
}
}
};
template <class BaseClass, typename ResulT>
class SingletonFnDispatcher : public FnDispatcher<BaseClass, ResulT>
{
protected:
SingletonFnDispatcher();
public:
static SingletonFnDispatcher<BaseClass, ResulT>* getInstance();
/*
template <class ConcreteClass1,class ConcreteClass2,ResulT (*F)(ConcreteClass1&,ConcreteClass2&), bool symetric>
static void Add()
{
getInstance()->add<ConcreteClass1,ConcreteClass2,F,symetric>();
}
template <class ConcreteClass1, class ConcreteClass2, bool symetric>
static void Ignore()
{
getInstance()->ignore<ConcreteClass1,ConcreteClass2,symetric>();
}
static ResulT Go(BaseClass &arg1,BaseClass &arg2)
{
getInstance()->go(arg1,arg2);
}
*/
};
} // namespace helper
} // namespace sofa
#endif
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