#ifndef REFLEX_BUILD
#define REFLEX_BUILD
#endif
#include "Reflex/Kernel.h"
#include "Reflex/Scope.h"
#include "Reflex/internal/ScopeName.h"
#include "Reflex/PropertyList.h"
#include "Reflex/Type.h"
#include "Reflex/Base.h"
#include "Reflex/Member.h"
#include "Reflex/Object.h"
#include "Reflex/PropertyList.h"
#include "Reflex/MemberTemplate.h"
#include "Reflex/Any.h"
#include "Fundamental.h"
#include "Namespace.h"
#include "Typedef.h"
#include "Class.h"
#include <typeinfo>
Reflex::Instance::Instance() {
Namespace::GlobalScope();
Fundamental * tb = 0;
Type t = Type();
tb = new Fundamental( "char",
sizeof( char ),
typeid( char ));
tb->Properties().AddProperty( "Description", "fundamental type" );
tb = new Fundamental( "signed char",
sizeof( signed char ),
typeid( signed char ));
tb->Properties().AddProperty( "Description", "fundamental type" );
tb = new Fundamental( "short int",
sizeof( short int ),
typeid( short int ));
tb->Properties().AddProperty( "Description", "fundamental type" );
t = tb->ThisType();
new Typedef( "short", t, FUNDAMENTAL, t );
new Typedef( "signed short", t, FUNDAMENTAL, t );
new Typedef( "short signed", t, FUNDAMENTAL, t );
new Typedef( "signed short int", t, FUNDAMENTAL, t );
new Typedef( "short signed int", t, FUNDAMENTAL, t );
tb = new Fundamental( "int",
sizeof( int ),
typeid( int ));
tb->Properties().AddProperty( "Description", "fundamental type" );
t = tb->ThisType();
new Typedef( "signed", t, FUNDAMENTAL, t );
new Typedef( "signed int", t, FUNDAMENTAL, t );
tb = new Fundamental( "long int",
sizeof( long int ),
typeid( long int ));
tb->Properties().AddProperty( "Description", "fundamental type" );
t = tb->ThisType();
new Typedef( "long", t, FUNDAMENTAL, t );
new Typedef( "signed long", t, FUNDAMENTAL, t );
new Typedef( "long signed", t, FUNDAMENTAL, t );
new Typedef( "signed long int", t, FUNDAMENTAL, t );
new Typedef( "long signed int", t, FUNDAMENTAL, t );
tb = new Fundamental( "unsigned char",
sizeof( unsigned char ),
typeid( unsigned char ));
tb->Properties().AddProperty( "Description", "fundamental type" );
tb = new Fundamental( "unsigned short int",
sizeof( unsigned short int ),
typeid( unsigned short int ));
tb->Properties().AddProperty( "Description", "fundamental type" );
t = tb->ThisType();
new Typedef( "unsigned short", t, FUNDAMENTAL, t );
new Typedef( "short unsigned int", t, FUNDAMENTAL, t );
tb = new Fundamental( "unsigned int",
sizeof( unsigned int ),
typeid( unsigned int ));
tb->Properties().AddProperty( "Description", "fundamental type" );
t = tb->ThisType();
new Typedef( "unsigned", t, FUNDAMENTAL, t );
tb = new Fundamental( "unsigned long int",
sizeof( unsigned long int ),
typeid( unsigned long int ));
tb->Properties().AddProperty( "Description", "fundamental type" );
t = tb->ThisType();
new Typedef( "unsigned long", t, FUNDAMENTAL, t );
new Typedef( "long unsigned", t, FUNDAMENTAL, t );
new Typedef( "long unsigned int", t, FUNDAMENTAL, t );
tb = new Fundamental( "bool",
sizeof( bool ),
typeid( bool ));
tb->Properties().AddProperty( "Description", "fundamental type" );
tb = new Fundamental( "float",
sizeof( float ),
typeid( float ));
tb->Properties().AddProperty( "Description", "fundamental type" );
tb = new Fundamental( "double",
sizeof( double ),
typeid( double ));
tb->Properties().AddProperty( "Description", "fundamental type" );
tb = new Fundamental( "long double",
sizeof( long double ),
typeid( long double ));
tb->Properties().AddProperty( "Description", "fundamental type" );
tb = new Fundamental( "void",
0,
typeid( void ));
tb->Properties().AddProperty( "Description", "fundamental type" );
#if defined(_WIN32) && !defined(__CINT__)
typedef __int64 longlong;
typedef unsigned __int64 ulonglong;
#else
typedef long long int longlong;
typedef unsigned long long int ulonglong;
#endif
tb = new Fundamental( "long long",
sizeof( longlong ),
typeid( longlong ));
tb->Properties().AddProperty( "Description", "fundamental type" );
t = tb->ThisType();
new Typedef( "long long int", t, FUNDAMENTAL, t );
tb = new Fundamental( "unsigned long long",
sizeof( ulonglong ),
typeid( ulonglong ));
tb->Properties().AddProperty( "Description", "fundamental type" );
t = tb->ThisType();
new Typedef( "long long unsigned", t, FUNDAMENTAL, t );
new Typedef( "unsigned long long int", t, FUNDAMENTAL, t );
new Typedef( "long long unsigned int", t, FUNDAMENTAL, t );
}
void Reflex::Instance::Shutdown() {
MemberTemplateName::CleanUp();
TypeTemplateName::CleanUp();
TypeName::CleanUp();
ScopeName::CleanUp();
}
Reflex::Instance::~Instance() {
}
const Reflex::StdString_Cont_Type_t & Reflex::Dummy::StdStringCont() {
return Get< StdString_Cont_Type_t >();
}
const Reflex::Type_Cont_Type_t & Reflex::Dummy::TypeCont() {
return Get< Type_Cont_Type_t >();
}
const Reflex::Base_Cont_Type_t & Reflex::Dummy::BaseCont() {
return Get< Base_Cont_Type_t >();
}
const Reflex::Scope_Cont_Type_t & Reflex::Dummy::ScopeCont() {
return Get< Scope_Cont_Type_t >();
}
const Reflex::Object_Cont_Type_t & Reflex::Dummy::ObjectCont() {
return Get< Object_Cont_Type_t >();
}
const Reflex::Member_Cont_Type_t & Reflex::Dummy::MemberCont() {
return Get< Member_Cont_Type_t >();
}
const Reflex::TypeTemplate_Cont_Type_t & Reflex::Dummy::TypeTemplateCont() {
return Get< TypeTemplate_Cont_Type_t >();
}
const Reflex::MemberTemplate_Cont_Type_t & Reflex::Dummy::MemberTemplateCont() {
return Get< MemberTemplate_Cont_Type_t >();
}
Reflex::Any & Reflex::Dummy::Any() {
static Reflex::Any i;
if ( i ) i.Clear();
return i;
}
const Reflex::Object & Reflex::Dummy::Object() {
return Get< Reflex::Object >();
}
const Reflex::Type & Reflex::Dummy::Type() {
return Get< Reflex::Type >();
}
const Reflex::TypeTemplate & Reflex::Dummy::TypeTemplate() {
return Get< Reflex::TypeTemplate >();
}
const Reflex::Base & Reflex::Dummy::Base() {
return Get< Reflex::Base >();
}
const Reflex::PropertyList & Reflex::Dummy::PropertyList() {
return Get< Reflex::PropertyList >();
}
const Reflex::Member & Reflex::Dummy::Member() {
return Get< Reflex::Member >();
}
const Reflex::MemberTemplate & Reflex::Dummy::MemberTemplate() {
return Get< Reflex::MemberTemplate >();
}
const Reflex::Scope & Reflex::Dummy::Scope() {
return Get< Reflex::Scope >();
}
const std::string & Reflex::Argv0() {
static std::string str = "REFLEX";
return str;
}
namespace {
Reflex::Instance initialise;
}
Last change: Wed Jun 25 08:31:17 2008
Last generated: 2008-06-25 08:31
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