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/***************************************************************************
* proxy.h
* This file is part of the KDE project
* copyright (C)2004-2005 by Sebastian Sauer ([email protected])
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
* This program 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
* Library General Public License for more details.
* You should have received a copy of the GNU Library General Public License
* along with this program; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
***************************************************************************/
#ifndef KROSS_API_PROXY_H
#define KROSS_API_PROXY_H
#include "../main/krossconfig.h"
#include "object.h"
#include "variant.h"
#include "list.h"
#include <tqstring.h>
namespace Kross { namespace Api {
/**
* \internal used struct to translate an argument-value dynamicly.
*/
template<class OBJ>
struct ProxyArgTranslator {
OBJ* m_object;
ProxyArgTranslator(Kross::Api::Object* obj) {
m_object = Kross::Api::Object::fromObject<OBJ>(obj);
}
template<typename T>
inline operator T () {
return m_object->operator T();
}
};
/**
* \internal used struct to translate a return-value dynamicly.
*/
struct ProxyRetTranslator {
template<class RETURNOBJ, typename TYPE>
inline static Object::Ptr cast(TYPE t) {
return RETURNOBJ::toObject(t);
}
};
/**
* The ProxyFunction template-class is used to publish any C/C++
* method (not only slots) of a struct or class instance as a
* a \a Function to Kross.
*
* With this class we don't need to have a method-wrapper for
* each single function what a) should reduce the code needed for
* wrappers and b) is more typesafe cause the connection to the
* C/C++ method is done on compiletime.
*
* Example how a ProxyFunction may got used;
* @code
* #include "../api/class.h"
* #include "../api/proxy.h"
* // The class which should be published.
* class MyClass : public Kross::Api::Class<MyClass> {
* public:
* MyClass(const TQString& name) : Kross::Api::Class<MyClass>(name) {
* // publish the function myfunc, so that scripting-code is able
* // to call that method.
* this->addProxyFunction <
* Kross::Api::Variant, // the uint returnvalue is handled with Variant.
* Kross::Api::Variant, // the TQString argument is handled with Variant too.
* MyClass // the MyClass* is handled implicit by our class.
* > ( "myfuncname", // the name the function should be published as.
* this, // pointer to the class-instance which has the method.
* &TestPluginObject::myfunc ); // pointer to the method itself.
* }
* virtual ~MyClass() {}
* virtual const TQString getClassName() const { return "MyClass"; }
* private:
* uint myfunc(const TQCString&, MyClass* myotherclass) {
* // This method will be published to the scripting backend. So, scripting
* // code is able to call this method.
* }
* }
* @endcode
*/
template< class INSTANCE, // the objectinstance
typename METHOD, // the method-signature
class RETURNOBJ,// = Kross::Api::Object, // return-value
class ARG1OBJ = Kross::Api::Object, // first parameter-value
class ARG2OBJ = Kross::Api::Object, // second parameter-value
class ARG3OBJ = Kross::Api::Object, // theird parameter-value
class ARG4OBJ = Kross::Api::Object // forth parameter-value
>
class ProxyFunction : public Function
{
template<class PROXYFUNC, typename RETURNTYPE>
friend struct ProxyFunctionCaller;
private:
/// Pointer to the objectinstance which method should be called.
INSTANCE* m_instance;
/// Pointer to the method which should be called.
const METHOD m_method;
/// First default argument.
KSharedPtr<ARG1OBJ> m_defarg1;
/// Second default argument.
KSharedPtr<ARG2OBJ> m_defarg2;
/// Theird default argument.
KSharedPtr<ARG3OBJ> m_defarg3;
/// Forth default argument.
KSharedPtr<ARG4OBJ> m_defarg4;
/**
* \internal used struct that does the execution of the wrapped
* method.
*/
template<class PROXYFUNC, typename RETURNTYPE>
struct ProxyFunctionCaller {
inline static Object::Ptr exec(PROXYFUNC* self, Kross::Api::Object* arg1, Kross::Api::Object* arg2, Kross::Api::Object* arg3, Kross::Api::Object* arg4) {
return ProxyRetTranslator::cast<RETURNTYPE>(
( (self->m_instance)->*(self->m_method) )( ProxyArgTranslator<ARG1OBJ>(arg1), ProxyArgTranslator<ARG2OBJ>(arg2), ProxyArgTranslator<ARG3OBJ>(arg3), ProxyArgTranslator<ARG4OBJ>(arg4) )
);
}
};
/**
* \internal template-specialization of the \a ProxyFunctionCaller
* above which handles void-returnvalues. We need to handle this
* special case seperatly cause compilers deny to return void :-/
*/
template<class PROXYFUNC>
struct ProxyFunctionCaller<PROXYFUNC, void> {
inline static Object::Ptr exec(PROXYFUNC* self, Kross::Api::Object* arg1, Kross::Api::Object* arg2, Kross::Api::Object* arg3, Kross::Api::Object* arg4) {
( (self->m_instance)->*(self->m_method) )( ProxyArgTranslator<ARG1OBJ>(arg1), ProxyArgTranslator<ARG1OBJ>(arg2), ProxyArgTranslator<ARG3OBJ>(arg3), ProxyArgTranslator<ARG4OBJ>(arg4) );
return 0; // void return-value
}
};
public:
/**
* Constructor.
*
* \param instance The objectinstance to which the \p method
* belongs to.
* \param method The method-pointer.
*/
ProxyFunction(INSTANCE* instance, const METHOD& method, ARG1OBJ* defarg1 = 0, ARG2OBJ* defarg2 = 0, ARG3OBJ* defarg3 = 0, ARG4OBJ* defarg4 = 0)
: m_instance(instance), m_method(method), m_defarg1(defarg1), m_defarg2(defarg2), m_defarg3(defarg3), m_defarg4(defarg4) {}
/**
* This method got called if the wrapped method should be executed.
*
* \param args The optional list of arguments passed to the
* execution-call.
* \return The returnvalue of the functioncall. It will be NULL if
* the functioncall doesn't provide us a returnvalue (e.g.
* if the function has void as returnvalue).
*/
Object::Ptr call(List::Ptr args) {
return ProxyFunctionCaller<ProxyFunction, RETURNOBJ>::exec(this,
args->item(0, m_defarg1),
args->item(1, m_defarg2),
args->item(2, m_defarg3),
args->item(3, m_defarg4)
);
}
};
/**
* Template-specialization of the \a ProxyFunction above with three arguments.
*/
template<class INSTANCE, typename METHOD, class RETURNOBJ, class ARG1OBJ, class ARG2OBJ, class ARG3OBJ>
class ProxyFunction<INSTANCE, METHOD, RETURNOBJ, ARG1OBJ, ARG2OBJ, ARG3OBJ> : public Function
{
template<class PROXYFUNC, typename RETURNTYPE>
friend struct ProxyFunctionCaller;
private:
INSTANCE* m_instance;
const METHOD m_method;
KSharedPtr<ARG1OBJ> m_defarg1;
KSharedPtr<ARG2OBJ> m_defarg2;
KSharedPtr<ARG3OBJ> m_defarg3;
template<class PROXYFUNC, typename RETURNTYPE>
struct ProxyFunctionCaller {
inline static Object::Ptr exec(PROXYFUNC* self, Kross::Api::Object* arg1, Kross::Api::Object* arg2, Kross::Api::Object* arg3) {
return ProxyRetTranslator::cast<RETURNTYPE>(
( (self->m_instance)->*(self->m_method) )( ProxyArgTranslator<ARG1OBJ>(arg1), ProxyArgTranslator<ARG2OBJ>(arg2), ProxyArgTranslator<ARG3OBJ>(arg3) )
);
}
};
template<class PROXYFUNC>
struct ProxyFunctionCaller<PROXYFUNC, void> {
inline static Object::Ptr exec(PROXYFUNC* self, Kross::Api::Object* arg1, Kross::Api::Object* arg2, Kross::Api::Object* arg3) {
( (self->m_instance)->*(self->m_method) )( ProxyArgTranslator<ARG1OBJ>(arg1), ProxyArgTranslator<ARG2OBJ>(arg2), ProxyArgTranslator<ARG3OBJ>(arg3) );
return 0;
}
};
public:
ProxyFunction(INSTANCE* instance, const METHOD& method, ARG1OBJ* defarg1 = 0, ARG2OBJ* defarg2 = 0, ARG3OBJ* defarg3 = 0)
: m_instance(instance), m_method(method), m_defarg1(defarg1), m_defarg2(defarg2), m_defarg3(defarg3) {}
Object::Ptr call(List::Ptr args) {
return ProxyFunctionCaller<ProxyFunction, RETURNOBJ>::exec(this,
args->item(0, m_defarg1), args->item(1, m_defarg2), args->item(2, m_defarg3)
);
}
};
/**
* Template-specialization of the \a ProxyFunction above with two arguments.
*/
template<class INSTANCE, typename METHOD, class RETURNOBJ, class ARG1OBJ, class ARG2OBJ>
class ProxyFunction<INSTANCE, METHOD, RETURNOBJ, ARG1OBJ, ARG2OBJ> : public Function
{
template<class PROXYFUNC, typename RETURNTYPE>
friend struct ProxyFunctionCaller;
private:
INSTANCE* m_instance;
const METHOD m_method;
KSharedPtr<ARG1OBJ> m_defarg1;
KSharedPtr<ARG2OBJ> m_defarg2;
template<class PROXYFUNC, typename RETURNTYPE>
struct ProxyFunctionCaller {
inline static Object::Ptr exec(PROXYFUNC* self, Kross::Api::Object* arg1, Kross::Api::Object* arg2) {
return ProxyRetTranslator::cast<RETURNTYPE>(
( (self->m_instance)->*(self->m_method) )( ProxyArgTranslator<ARG1OBJ>(arg1), ProxyArgTranslator<ARG2OBJ>(arg2) )
);
}
};
template<class PROXYFUNC>
struct ProxyFunctionCaller<PROXYFUNC, void> {
inline static Object::Ptr exec(PROXYFUNC* self, Kross::Api::Object* arg1, Kross::Api::Object* arg2) {
( (self->m_instance)->*(self->m_method) )( ProxyArgTranslator<ARG1OBJ>(arg1), ProxyArgTranslator<ARG2OBJ>(arg2) );
return 0;
}
};
public:
ProxyFunction(INSTANCE* instance, const METHOD& method, ARG1OBJ* defarg1 = 0, ARG2OBJ* defarg2 = 0)
: m_instance(instance), m_method(method), m_defarg1(defarg1), m_defarg2(defarg2) {}
Object::Ptr call(List::Ptr args) {
return ProxyFunctionCaller<ProxyFunction, RETURNOBJ>::exec(this,
args->item(0, m_defarg1), args->item(1, m_defarg2)
);
}
};
/**
* Template-specialization of the \a ProxyFunction above with one argument.
*/
template<class INSTANCE, typename METHOD, class RETURNOBJ, class ARG1OBJ>
class ProxyFunction<INSTANCE, METHOD, RETURNOBJ, ARG1OBJ> : public Function
{
template<class PROXYFUNC, typename RETURNTYPE>
friend struct ProxyFunctionCaller;
private:
INSTANCE* m_instance;
const METHOD m_method;
KSharedPtr<ARG1OBJ> m_defarg1;
template<class PROXYFUNC, typename RETURNTYPE>
struct ProxyFunctionCaller {
inline static Object::Ptr exec(PROXYFUNC* self, Kross::Api::Object* arg1) {
return ProxyRetTranslator::cast<RETURNTYPE>(
( (self->m_instance)->*(self->m_method) )( ProxyArgTranslator<ARG1OBJ>(arg1) )
);
}
};
template<class PROXYFUNC>
struct ProxyFunctionCaller<PROXYFUNC, void> {
inline static Object::Ptr exec(PROXYFUNC* self, Kross::Api::Object* arg1) {
( (self->m_instance)->*(self->m_method) )( ProxyArgTranslator<ARG1OBJ>(arg1) );
return 0;
}
};
public:
ProxyFunction(INSTANCE* instance, const METHOD& method, ARG1OBJ* defarg1 = 0)
: m_instance(instance), m_method(method), m_defarg1(defarg1) {}
Object::Ptr call(List::Ptr args) {
return ProxyFunctionCaller<ProxyFunction, RETURNOBJ>::exec(this,
args->item(0, m_defarg1)
);
}
};
/**
* Template-specialization of the \a ProxyFunction above with no arguments.
*/
template<class INSTANCE, typename METHOD, class RETURNOBJ>
class ProxyFunction<INSTANCE, METHOD, RETURNOBJ> : public Function
{
template<class PROXYFUNC, typename RETURNTYPE>
friend struct ProxyFunctionCaller;
private:
INSTANCE* m_instance;
const METHOD m_method;
template<class PROXYFUNC, typename RETURNTYPE>
struct ProxyFunctionCaller {
inline static Object::Ptr exec(PROXYFUNC* self) {
return ProxyRetTranslator::cast<RETURNTYPE>(
( (self->m_instance)->*(self->m_method) )()
);
}
};
template<class PROXYFUNC>
struct ProxyFunctionCaller<PROXYFUNC, void> {
inline static Object::Ptr exec(PROXYFUNC* self) {
( (self->m_instance)->*(self->m_method) )();
return 0;
}
};
public:
ProxyFunction(INSTANCE* instance, const METHOD& method)
: m_instance(instance), m_method(method) {}
Object::Ptr call(List::Ptr) {
return ProxyFunctionCaller<ProxyFunction, RETURNOBJ>::exec(this);
}
};
}}
#endif
|