// Do NOT change. Changes will be lost next time file is generated

#define R__DICTIONARY_FILENAME dIkm3netdIaanetdIbuilddIdIComponentdOdict
#define R__NO_DEPRECATION

/*******************************************************************/
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#define G__DICTIONARY
#include "RConfig.h"
#include "TClass.h"
#include "TDictAttributeMap.h"
#include "TInterpreter.h"
#include "TROOT.h"
#include "TBuffer.h"
#include "TMemberInspector.h"
#include "TInterpreter.h"
#include "TVirtualMutex.h"
#include "TError.h"

#ifndef G__ROOT
#define G__ROOT
#endif

#include "RtypesImp.h"
#include "TIsAProxy.h"
#include "TFileMergeInfo.h"
#include <algorithm>
#include "TCollectionProxyInfo.h"
/*******************************************************************/

#include "TDataMember.h"

// The generated code does not explicitly qualifies STL entities
namespace std {} using namespace std;

// Header files passed as explicit arguments
#include "Component.hh"
#include "BackgroundComponent.hh"
#include "IsotropicPowerLawComponent.hh"

// Header files passed via #pragma extra_include

namespace ROOT {
   static TClass *Period_Dictionary();
   static void Period_TClassManip(TClass*);
   static void *new_Period(void *p = 0);
   static void *newArray_Period(Long_t size, void *p);
   static void delete_Period(void *p);
   static void deleteArray_Period(void *p);
   static void destruct_Period(void *p);

   // Function generating the singleton type initializer
   static TGenericClassInfo *GenerateInitInstanceLocal(const ::Period*)
   {
      ::Period *ptr = 0;
      static ::TVirtualIsAProxy* isa_proxy = new ::TIsAProxy(typeid(::Period));
      static ::ROOT::TGenericClassInfo 
         instance("Period", "Component.hh", 31,
                  typeid(::Period), ::ROOT::Internal::DefineBehavior(ptr, ptr),
                  &Period_Dictionary, isa_proxy, 4,
                  sizeof(::Period) );
      instance.SetNew(&new_Period);
      instance.SetNewArray(&newArray_Period);
      instance.SetDelete(&delete_Period);
      instance.SetDeleteArray(&deleteArray_Period);
      instance.SetDestructor(&destruct_Period);
      return &instance;
   }
   TGenericClassInfo *GenerateInitInstance(const ::Period*)
   {
      return GenerateInitInstanceLocal((::Period*)0);
   }
   // Static variable to force the class initialization
   static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const ::Period*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init));

   // Dictionary for non-ClassDef classes
   static TClass *Period_Dictionary() {
      TClass* theClass =::ROOT::GenerateInitInstanceLocal((const ::Period*)0x0)->GetClass();
      Period_TClassManip(theClass);
   return theClass;
   }

   static void Period_TClassManip(TClass* theClass){
      theClass->CreateAttributeMap();
      TDictAttributeMap* attrMap( theClass->GetAttributeMap() );
      attrMap->AddProperty("file_name","Component.hh");
   }

} // end of namespace ROOT

namespace ROOT {
   static void delete_Component(void *p);
   static void deleteArray_Component(void *p);
   static void destruct_Component(void *p);

   // Function generating the singleton type initializer
   static TGenericClassInfo *GenerateInitInstanceLocal(const ::Component*)
   {
      ::Component *ptr = 0;
      static ::TVirtualIsAProxy* isa_proxy = new ::TInstrumentedIsAProxy< ::Component >(0);
      static ::ROOT::TGenericClassInfo 
         instance("Component", ::Component::Class_Version(), "Component.hh", 67,
                  typeid(::Component), ::ROOT::Internal::DefineBehavior(ptr, ptr),
                  &::Component::Dictionary, isa_proxy, 4,
                  sizeof(::Component) );
      instance.SetDelete(&delete_Component);
      instance.SetDeleteArray(&deleteArray_Component);
      instance.SetDestructor(&destruct_Component);
      return &instance;
   }
   TGenericClassInfo *GenerateInitInstance(const ::Component*)
   {
      return GenerateInitInstanceLocal((::Component*)0);
   }
   // Static variable to force the class initialization
   static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const ::Component*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init));
} // end of namespace ROOT

namespace ROOT {
   static void delete_BackgroundComponent(void *p);
   static void deleteArray_BackgroundComponent(void *p);
   static void destruct_BackgroundComponent(void *p);

   // Function generating the singleton type initializer
   static TGenericClassInfo *GenerateInitInstanceLocal(const ::BackgroundComponent*)
   {
      ::BackgroundComponent *ptr = 0;
      static ::TVirtualIsAProxy* isa_proxy = new ::TInstrumentedIsAProxy< ::BackgroundComponent >(0);
      static ::ROOT::TGenericClassInfo 
         instance("BackgroundComponent", ::BackgroundComponent::Class_Version(), "BackgroundComponent.hh", 13,
                  typeid(::BackgroundComponent), ::ROOT::Internal::DefineBehavior(ptr, ptr),
                  &::BackgroundComponent::Dictionary, isa_proxy, 4,
                  sizeof(::BackgroundComponent) );
      instance.SetDelete(&delete_BackgroundComponent);
      instance.SetDeleteArray(&deleteArray_BackgroundComponent);
      instance.SetDestructor(&destruct_BackgroundComponent);
      return &instance;
   }
   TGenericClassInfo *GenerateInitInstance(const ::BackgroundComponent*)
   {
      return GenerateInitInstanceLocal((::BackgroundComponent*)0);
   }
   // Static variable to force the class initialization
   static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const ::BackgroundComponent*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init));
} // end of namespace ROOT

namespace ROOT {
   static void *new_IsotropicPowerLawComponent(void *p = 0);
   static void *newArray_IsotropicPowerLawComponent(Long_t size, void *p);
   static void delete_IsotropicPowerLawComponent(void *p);
   static void deleteArray_IsotropicPowerLawComponent(void *p);
   static void destruct_IsotropicPowerLawComponent(void *p);

   // Function generating the singleton type initializer
   static TGenericClassInfo *GenerateInitInstanceLocal(const ::IsotropicPowerLawComponent*)
   {
      ::IsotropicPowerLawComponent *ptr = 0;
      static ::TVirtualIsAProxy* isa_proxy = new ::TInstrumentedIsAProxy< ::IsotropicPowerLawComponent >(0);
      static ::ROOT::TGenericClassInfo 
         instance("IsotropicPowerLawComponent", ::IsotropicPowerLawComponent::Class_Version(), "IsotropicPowerLawComponent.hh", 12,
                  typeid(::IsotropicPowerLawComponent), ::ROOT::Internal::DefineBehavior(ptr, ptr),
                  &::IsotropicPowerLawComponent::Dictionary, isa_proxy, 4,
                  sizeof(::IsotropicPowerLawComponent) );
      instance.SetNew(&new_IsotropicPowerLawComponent);
      instance.SetNewArray(&newArray_IsotropicPowerLawComponent);
      instance.SetDelete(&delete_IsotropicPowerLawComponent);
      instance.SetDeleteArray(&deleteArray_IsotropicPowerLawComponent);
      instance.SetDestructor(&destruct_IsotropicPowerLawComponent);
      return &instance;
   }
   TGenericClassInfo *GenerateInitInstance(const ::IsotropicPowerLawComponent*)
   {
      return GenerateInitInstanceLocal((::IsotropicPowerLawComponent*)0);
   }
   // Static variable to force the class initialization
   static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const ::IsotropicPowerLawComponent*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init));
} // end of namespace ROOT

//______________________________________________________________________________
atomic_TClass_ptr Component::fgIsA(0);  // static to hold class pointer

//______________________________________________________________________________
const char *Component::Class_Name()
{
   return "Component";
}

//______________________________________________________________________________
const char *Component::ImplFileName()
{
   return ::ROOT::GenerateInitInstanceLocal((const ::Component*)0x0)->GetImplFileName();
}

//______________________________________________________________________________
int Component::ImplFileLine()
{
   return ::ROOT::GenerateInitInstanceLocal((const ::Component*)0x0)->GetImplFileLine();
}

//______________________________________________________________________________
TClass *Component::Dictionary()
{
   fgIsA = ::ROOT::GenerateInitInstanceLocal((const ::Component*)0x0)->GetClass();
   return fgIsA;
}

//______________________________________________________________________________
TClass *Component::Class()
{
   if (!fgIsA.load()) { R__LOCKGUARD(gInterpreterMutex); fgIsA = ::ROOT::GenerateInitInstanceLocal((const ::Component*)0x0)->GetClass(); }
   return fgIsA;
}

//______________________________________________________________________________
atomic_TClass_ptr BackgroundComponent::fgIsA(0);  // static to hold class pointer

//______________________________________________________________________________
const char *BackgroundComponent::Class_Name()
{
   return "BackgroundComponent";
}

//______________________________________________________________________________
const char *BackgroundComponent::ImplFileName()
{
   return ::ROOT::GenerateInitInstanceLocal((const ::BackgroundComponent*)0x0)->GetImplFileName();
}

//______________________________________________________________________________
int BackgroundComponent::ImplFileLine()
{
   return ::ROOT::GenerateInitInstanceLocal((const ::BackgroundComponent*)0x0)->GetImplFileLine();
}

//______________________________________________________________________________
TClass *BackgroundComponent::Dictionary()
{
   fgIsA = ::ROOT::GenerateInitInstanceLocal((const ::BackgroundComponent*)0x0)->GetClass();
   return fgIsA;
}

//______________________________________________________________________________
TClass *BackgroundComponent::Class()
{
   if (!fgIsA.load()) { R__LOCKGUARD(gInterpreterMutex); fgIsA = ::ROOT::GenerateInitInstanceLocal((const ::BackgroundComponent*)0x0)->GetClass(); }
   return fgIsA;
}

//______________________________________________________________________________
atomic_TClass_ptr IsotropicPowerLawComponent::fgIsA(0);  // static to hold class pointer

//______________________________________________________________________________
const char *IsotropicPowerLawComponent::Class_Name()
{
   return "IsotropicPowerLawComponent";
}

//______________________________________________________________________________
const char *IsotropicPowerLawComponent::ImplFileName()
{
   return ::ROOT::GenerateInitInstanceLocal((const ::IsotropicPowerLawComponent*)0x0)->GetImplFileName();
}

//______________________________________________________________________________
int IsotropicPowerLawComponent::ImplFileLine()
{
   return ::ROOT::GenerateInitInstanceLocal((const ::IsotropicPowerLawComponent*)0x0)->GetImplFileLine();
}

//______________________________________________________________________________
TClass *IsotropicPowerLawComponent::Dictionary()
{
   fgIsA = ::ROOT::GenerateInitInstanceLocal((const ::IsotropicPowerLawComponent*)0x0)->GetClass();
   return fgIsA;
}

//______________________________________________________________________________
TClass *IsotropicPowerLawComponent::Class()
{
   if (!fgIsA.load()) { R__LOCKGUARD(gInterpreterMutex); fgIsA = ::ROOT::GenerateInitInstanceLocal((const ::IsotropicPowerLawComponent*)0x0)->GetClass(); }
   return fgIsA;
}

namespace ROOT {
   // Wrappers around operator new
   static void *new_Period(void *p) {
      return  p ? new(p) ::Period : new ::Period;
   }
   static void *newArray_Period(Long_t nElements, void *p) {
      return p ? new(p) ::Period[nElements] : new ::Period[nElements];
   }
   // Wrapper around operator delete
   static void delete_Period(void *p) {
      delete ((::Period*)p);
   }
   static void deleteArray_Period(void *p) {
      delete [] ((::Period*)p);
   }
   static void destruct_Period(void *p) {
      typedef ::Period current_t;
      ((current_t*)p)->~current_t();
   }
} // end of namespace ROOT for class ::Period

//______________________________________________________________________________
void Component::Streamer(TBuffer &R__b)
{
   // Stream an object of class Component.

   if (R__b.IsReading()) {
      R__b.ReadClassBuffer(Component::Class(),this);
   } else {
      R__b.WriteClassBuffer(Component::Class(),this);
   }
}

namespace ROOT {
   // Wrapper around operator delete
   static void delete_Component(void *p) {
      delete ((::Component*)p);
   }
   static void deleteArray_Component(void *p) {
      delete [] ((::Component*)p);
   }
   static void destruct_Component(void *p) {
      typedef ::Component current_t;
      ((current_t*)p)->~current_t();
   }
} // end of namespace ROOT for class ::Component

//______________________________________________________________________________
void BackgroundComponent::Streamer(TBuffer &R__b)
{
   // Stream an object of class BackgroundComponent.

   if (R__b.IsReading()) {
      R__b.ReadClassBuffer(BackgroundComponent::Class(),this);
   } else {
      R__b.WriteClassBuffer(BackgroundComponent::Class(),this);
   }
}

namespace ROOT {
   // Wrapper around operator delete
   static void delete_BackgroundComponent(void *p) {
      delete ((::BackgroundComponent*)p);
   }
   static void deleteArray_BackgroundComponent(void *p) {
      delete [] ((::BackgroundComponent*)p);
   }
   static void destruct_BackgroundComponent(void *p) {
      typedef ::BackgroundComponent current_t;
      ((current_t*)p)->~current_t();
   }
} // end of namespace ROOT for class ::BackgroundComponent

//______________________________________________________________________________
void IsotropicPowerLawComponent::Streamer(TBuffer &R__b)
{
   // Stream an object of class IsotropicPowerLawComponent.

   if (R__b.IsReading()) {
      R__b.ReadClassBuffer(IsotropicPowerLawComponent::Class(),this);
   } else {
      R__b.WriteClassBuffer(IsotropicPowerLawComponent::Class(),this);
   }
}

namespace ROOT {
   // Wrappers around operator new
   static void *new_IsotropicPowerLawComponent(void *p) {
      return  p ? new(p) ::IsotropicPowerLawComponent : new ::IsotropicPowerLawComponent;
   }
   static void *newArray_IsotropicPowerLawComponent(Long_t nElements, void *p) {
      return p ? new(p) ::IsotropicPowerLawComponent[nElements] : new ::IsotropicPowerLawComponent[nElements];
   }
   // Wrapper around operator delete
   static void delete_IsotropicPowerLawComponent(void *p) {
      delete ((::IsotropicPowerLawComponent*)p);
   }
   static void deleteArray_IsotropicPowerLawComponent(void *p) {
      delete [] ((::IsotropicPowerLawComponent*)p);
   }
   static void destruct_IsotropicPowerLawComponent(void *p) {
      typedef ::IsotropicPowerLawComponent current_t;
      ((current_t*)p)->~current_t();
   }
} // end of namespace ROOT for class ::IsotropicPowerLawComponent

namespace ROOT {
   static TClass *vectorlEflavorgR_Dictionary();
   static void vectorlEflavorgR_TClassManip(TClass*);
   static void *new_vectorlEflavorgR(void *p = 0);
   static void *newArray_vectorlEflavorgR(Long_t size, void *p);
   static void delete_vectorlEflavorgR(void *p);
   static void deleteArray_vectorlEflavorgR(void *p);
   static void destruct_vectorlEflavorgR(void *p);

   // Function generating the singleton type initializer
   static TGenericClassInfo *GenerateInitInstanceLocal(const vector<flavor>*)
   {
      vector<flavor> *ptr = 0;
      static ::TVirtualIsAProxy* isa_proxy = new ::TIsAProxy(typeid(vector<flavor>));
      static ::ROOT::TGenericClassInfo 
         instance("vector<flavor>", -2, "vector", 210,
                  typeid(vector<flavor>), ::ROOT::Internal::DefineBehavior(ptr, ptr),
                  &vectorlEflavorgR_Dictionary, isa_proxy, 0,
                  sizeof(vector<flavor>) );
      instance.SetNew(&new_vectorlEflavorgR);
      instance.SetNewArray(&newArray_vectorlEflavorgR);
      instance.SetDelete(&delete_vectorlEflavorgR);
      instance.SetDeleteArray(&deleteArray_vectorlEflavorgR);
      instance.SetDestructor(&destruct_vectorlEflavorgR);
      instance.AdoptCollectionProxyInfo(TCollectionProxyInfo::Generate(TCollectionProxyInfo::Pushback< vector<flavor> >()));

      ::ROOT::AddClassAlternate("vector<flavor>","std::vector<flavor, std::allocator<flavor> >");
      return &instance;
   }
   // Static variable to force the class initialization
   static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const vector<flavor>*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init));

   // Dictionary for non-ClassDef classes
   static TClass *vectorlEflavorgR_Dictionary() {
      TClass* theClass =::ROOT::GenerateInitInstanceLocal((const vector<flavor>*)0x0)->GetClass();
      vectorlEflavorgR_TClassManip(theClass);
   return theClass;
   }

   static void vectorlEflavorgR_TClassManip(TClass* ){
   }

} // end of namespace ROOT

namespace ROOT {
   // Wrappers around operator new
   static void *new_vectorlEflavorgR(void *p) {
      return  p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) vector<flavor> : new vector<flavor>;
   }
   static void *newArray_vectorlEflavorgR(Long_t nElements, void *p) {
      return p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) vector<flavor>[nElements] : new vector<flavor>[nElements];
   }
   // Wrapper around operator delete
   static void delete_vectorlEflavorgR(void *p) {
      delete ((vector<flavor>*)p);
   }
   static void deleteArray_vectorlEflavorgR(void *p) {
      delete [] ((vector<flavor>*)p);
   }
   static void destruct_vectorlEflavorgR(void *p) {
      typedef vector<flavor> current_t;
      ((current_t*)p)->~current_t();
   }
} // end of namespace ROOT for class vector<flavor>

namespace ROOT {
   static TClass *vectorlEdoublegR_Dictionary();
   static void vectorlEdoublegR_TClassManip(TClass*);
   static void *new_vectorlEdoublegR(void *p = 0);
   static void *newArray_vectorlEdoublegR(Long_t size, void *p);
   static void delete_vectorlEdoublegR(void *p);
   static void deleteArray_vectorlEdoublegR(void *p);
   static void destruct_vectorlEdoublegR(void *p);

   // Function generating the singleton type initializer
   static TGenericClassInfo *GenerateInitInstanceLocal(const vector<double>*)
   {
      vector<double> *ptr = 0;
      static ::TVirtualIsAProxy* isa_proxy = new ::TIsAProxy(typeid(vector<double>));
      static ::ROOT::TGenericClassInfo 
         instance("vector<double>", -2, "vector", 210,
                  typeid(vector<double>), ::ROOT::Internal::DefineBehavior(ptr, ptr),
                  &vectorlEdoublegR_Dictionary, isa_proxy, 0,
                  sizeof(vector<double>) );
      instance.SetNew(&new_vectorlEdoublegR);
      instance.SetNewArray(&newArray_vectorlEdoublegR);
      instance.SetDelete(&delete_vectorlEdoublegR);
      instance.SetDeleteArray(&deleteArray_vectorlEdoublegR);
      instance.SetDestructor(&destruct_vectorlEdoublegR);
      instance.AdoptCollectionProxyInfo(TCollectionProxyInfo::Generate(TCollectionProxyInfo::Pushback< vector<double> >()));

      ::ROOT::AddClassAlternate("vector<double>","std::vector<double, std::allocator<double> >");
      return &instance;
   }
   // Static variable to force the class initialization
   static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const vector<double>*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init));

   // Dictionary for non-ClassDef classes
   static TClass *vectorlEdoublegR_Dictionary() {
      TClass* theClass =::ROOT::GenerateInitInstanceLocal((const vector<double>*)0x0)->GetClass();
      vectorlEdoublegR_TClassManip(theClass);
   return theClass;
   }

   static void vectorlEdoublegR_TClassManip(TClass* ){
   }

} // end of namespace ROOT

namespace ROOT {
   // Wrappers around operator new
   static void *new_vectorlEdoublegR(void *p) {
      return  p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) vector<double> : new vector<double>;
   }
   static void *newArray_vectorlEdoublegR(Long_t nElements, void *p) {
      return p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) vector<double>[nElements] : new vector<double>[nElements];
   }
   // Wrapper around operator delete
   static void delete_vectorlEdoublegR(void *p) {
      delete ((vector<double>*)p);
   }
   static void deleteArray_vectorlEdoublegR(void *p) {
      delete [] ((vector<double>*)p);
   }
   static void destruct_vectorlEdoublegR(void *p) {
      typedef vector<double> current_t;
      ((current_t*)p)->~current_t();
   }
} // end of namespace ROOT for class vector<double>

namespace ROOT {
   static TClass *vectorlEchannelgR_Dictionary();
   static void vectorlEchannelgR_TClassManip(TClass*);
   static void *new_vectorlEchannelgR(void *p = 0);
   static void *newArray_vectorlEchannelgR(Long_t size, void *p);
   static void delete_vectorlEchannelgR(void *p);
   static void deleteArray_vectorlEchannelgR(void *p);
   static void destruct_vectorlEchannelgR(void *p);

   // Function generating the singleton type initializer
   static TGenericClassInfo *GenerateInitInstanceLocal(const vector<channel>*)
   {
      vector<channel> *ptr = 0;
      static ::TVirtualIsAProxy* isa_proxy = new ::TIsAProxy(typeid(vector<channel>));
      static ::ROOT::TGenericClassInfo 
         instance("vector<channel>", -2, "vector", 210,
                  typeid(vector<channel>), ::ROOT::Internal::DefineBehavior(ptr, ptr),
                  &vectorlEchannelgR_Dictionary, isa_proxy, 0,
                  sizeof(vector<channel>) );
      instance.SetNew(&new_vectorlEchannelgR);
      instance.SetNewArray(&newArray_vectorlEchannelgR);
      instance.SetDelete(&delete_vectorlEchannelgR);
      instance.SetDeleteArray(&deleteArray_vectorlEchannelgR);
      instance.SetDestructor(&destruct_vectorlEchannelgR);
      instance.AdoptCollectionProxyInfo(TCollectionProxyInfo::Generate(TCollectionProxyInfo::Pushback< vector<channel> >()));

      ::ROOT::AddClassAlternate("vector<channel>","std::vector<channel, std::allocator<channel> >");
      return &instance;
   }
   // Static variable to force the class initialization
   static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const vector<channel>*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init));

   // Dictionary for non-ClassDef classes
   static TClass *vectorlEchannelgR_Dictionary() {
      TClass* theClass =::ROOT::GenerateInitInstanceLocal((const vector<channel>*)0x0)->GetClass();
      vectorlEchannelgR_TClassManip(theClass);
   return theClass;
   }

   static void vectorlEchannelgR_TClassManip(TClass* ){
   }

} // end of namespace ROOT

namespace ROOT {
   // Wrappers around operator new
   static void *new_vectorlEchannelgR(void *p) {
      return  p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) vector<channel> : new vector<channel>;
   }
   static void *newArray_vectorlEchannelgR(Long_t nElements, void *p) {
      return p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) vector<channel>[nElements] : new vector<channel>[nElements];
   }
   // Wrapper around operator delete
   static void delete_vectorlEchannelgR(void *p) {
      delete ((vector<channel>*)p);
   }
   static void deleteArray_vectorlEchannelgR(void *p) {
      delete [] ((vector<channel>*)p);
   }
   static void destruct_vectorlEchannelgR(void *p) {
      typedef vector<channel> current_t;
      ((current_t*)p)->~current_t();
   }
} // end of namespace ROOT for class vector<channel>

namespace ROOT {
   static TClass *vectorlETH2DgR_Dictionary();
   static void vectorlETH2DgR_TClassManip(TClass*);
   static void *new_vectorlETH2DgR(void *p = 0);
   static void *newArray_vectorlETH2DgR(Long_t size, void *p);
   static void delete_vectorlETH2DgR(void *p);
   static void deleteArray_vectorlETH2DgR(void *p);
   static void destruct_vectorlETH2DgR(void *p);

   // Function generating the singleton type initializer
   static TGenericClassInfo *GenerateInitInstanceLocal(const vector<TH2D>*)
   {
      vector<TH2D> *ptr = 0;
      static ::TVirtualIsAProxy* isa_proxy = new ::TIsAProxy(typeid(vector<TH2D>));
      static ::ROOT::TGenericClassInfo 
         instance("vector<TH2D>", -2, "vector", 210,
                  typeid(vector<TH2D>), ::ROOT::Internal::DefineBehavior(ptr, ptr),
                  &vectorlETH2DgR_Dictionary, isa_proxy, 0,
                  sizeof(vector<TH2D>) );
      instance.SetNew(&new_vectorlETH2DgR);
      instance.SetNewArray(&newArray_vectorlETH2DgR);
      instance.SetDelete(&delete_vectorlETH2DgR);
      instance.SetDeleteArray(&deleteArray_vectorlETH2DgR);
      instance.SetDestructor(&destruct_vectorlETH2DgR);
      instance.AdoptCollectionProxyInfo(TCollectionProxyInfo::Generate(TCollectionProxyInfo::Pushback< vector<TH2D> >()));

      ::ROOT::AddClassAlternate("vector<TH2D>","std::vector<TH2D, std::allocator<TH2D> >");
      return &instance;
   }
   // Static variable to force the class initialization
   static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const vector<TH2D>*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init));

   // Dictionary for non-ClassDef classes
   static TClass *vectorlETH2DgR_Dictionary() {
      TClass* theClass =::ROOT::GenerateInitInstanceLocal((const vector<TH2D>*)0x0)->GetClass();
      vectorlETH2DgR_TClassManip(theClass);
   return theClass;
   }

   static void vectorlETH2DgR_TClassManip(TClass* ){
   }

} // end of namespace ROOT

namespace ROOT {
   // Wrappers around operator new
   static void *new_vectorlETH2DgR(void *p) {
      return  p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) vector<TH2D> : new vector<TH2D>;
   }
   static void *newArray_vectorlETH2DgR(Long_t nElements, void *p) {
      return p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) vector<TH2D>[nElements] : new vector<TH2D>[nElements];
   }
   // Wrapper around operator delete
   static void delete_vectorlETH2DgR(void *p) {
      delete ((vector<TH2D>*)p);
   }
   static void deleteArray_vectorlETH2DgR(void *p) {
      delete [] ((vector<TH2D>*)p);
   }
   static void destruct_vectorlETH2DgR(void *p) {
      typedef vector<TH2D> current_t;
      ((current_t*)p)->~current_t();
   }
} // end of namespace ROOT for class vector<TH2D>

namespace ROOT {
   static TClass *vectorlEParametergR_Dictionary();
   static void vectorlEParametergR_TClassManip(TClass*);
   static void *new_vectorlEParametergR(void *p = 0);
   static void *newArray_vectorlEParametergR(Long_t size, void *p);
   static void delete_vectorlEParametergR(void *p);
   static void deleteArray_vectorlEParametergR(void *p);
   static void destruct_vectorlEParametergR(void *p);

   // Function generating the singleton type initializer
   static TGenericClassInfo *GenerateInitInstanceLocal(const vector<Parameter>*)
   {
      vector<Parameter> *ptr = 0;
      static ::TVirtualIsAProxy* isa_proxy = new ::TIsAProxy(typeid(vector<Parameter>));
      static ::ROOT::TGenericClassInfo 
         instance("vector<Parameter>", -2, "vector", 210,
                  typeid(vector<Parameter>), ::ROOT::Internal::DefineBehavior(ptr, ptr),
                  &vectorlEParametergR_Dictionary, isa_proxy, 0,
                  sizeof(vector<Parameter>) );
      instance.SetNew(&new_vectorlEParametergR);
      instance.SetNewArray(&newArray_vectorlEParametergR);
      instance.SetDelete(&delete_vectorlEParametergR);
      instance.SetDeleteArray(&deleteArray_vectorlEParametergR);
      instance.SetDestructor(&destruct_vectorlEParametergR);
      instance.AdoptCollectionProxyInfo(TCollectionProxyInfo::Generate(TCollectionProxyInfo::Pushback< vector<Parameter> >()));

      ::ROOT::AddClassAlternate("vector<Parameter>","std::vector<Parameter, std::allocator<Parameter> >");
      return &instance;
   }
   // Static variable to force the class initialization
   static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const vector<Parameter>*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init));

   // Dictionary for non-ClassDef classes
   static TClass *vectorlEParametergR_Dictionary() {
      TClass* theClass =::ROOT::GenerateInitInstanceLocal((const vector<Parameter>*)0x0)->GetClass();
      vectorlEParametergR_TClassManip(theClass);
   return theClass;
   }

   static void vectorlEParametergR_TClassManip(TClass* ){
   }

} // end of namespace ROOT

namespace ROOT {
   // Wrappers around operator new
   static void *new_vectorlEParametergR(void *p) {
      return  p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) vector<Parameter> : new vector<Parameter>;
   }
   static void *newArray_vectorlEParametergR(Long_t nElements, void *p) {
      return p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) vector<Parameter>[nElements] : new vector<Parameter>[nElements];
   }
   // Wrapper around operator delete
   static void delete_vectorlEParametergR(void *p) {
      delete ((vector<Parameter>*)p);
   }
   static void deleteArray_vectorlEParametergR(void *p) {
      delete [] ((vector<Parameter>*)p);
   }
   static void destruct_vectorlEParametergR(void *p) {
      typedef vector<Parameter> current_t;
      ((current_t*)p)->~current_t();
   }
} // end of namespace ROOT for class vector<Parameter>

namespace ROOT {
   static TClass *maplEchannelcOvectorlETH2DgRsPgR_Dictionary();
   static void maplEchannelcOvectorlETH2DgRsPgR_TClassManip(TClass*);
   static void *new_maplEchannelcOvectorlETH2DgRsPgR(void *p = 0);
   static void *newArray_maplEchannelcOvectorlETH2DgRsPgR(Long_t size, void *p);
   static void delete_maplEchannelcOvectorlETH2DgRsPgR(void *p);
   static void deleteArray_maplEchannelcOvectorlETH2DgRsPgR(void *p);
   static void destruct_maplEchannelcOvectorlETH2DgRsPgR(void *p);

   // Function generating the singleton type initializer
   static TGenericClassInfo *GenerateInitInstanceLocal(const map<channel,vector<TH2D> >*)
   {
      map<channel,vector<TH2D> > *ptr = 0;
      static ::TVirtualIsAProxy* isa_proxy = new ::TIsAProxy(typeid(map<channel,vector<TH2D> >));
      static ::ROOT::TGenericClassInfo 
         instance("map<channel,vector<TH2D> >", -2, "map", 96,
                  typeid(map<channel,vector<TH2D> >), ::ROOT::Internal::DefineBehavior(ptr, ptr),
                  &maplEchannelcOvectorlETH2DgRsPgR_Dictionary, isa_proxy, 0,
                  sizeof(map<channel,vector<TH2D> >) );
      instance.SetNew(&new_maplEchannelcOvectorlETH2DgRsPgR);
      instance.SetNewArray(&newArray_maplEchannelcOvectorlETH2DgRsPgR);
      instance.SetDelete(&delete_maplEchannelcOvectorlETH2DgRsPgR);
      instance.SetDeleteArray(&deleteArray_maplEchannelcOvectorlETH2DgRsPgR);
      instance.SetDestructor(&destruct_maplEchannelcOvectorlETH2DgRsPgR);
      instance.AdoptCollectionProxyInfo(TCollectionProxyInfo::Generate(TCollectionProxyInfo::MapInsert< map<channel,vector<TH2D> > >()));

      ::ROOT::AddClassAlternate("map<channel,vector<TH2D> >","std::map<channel, std::vector<TH2D, std::allocator<TH2D> >, std::less<channel>, std::allocator<std::pair<channel const, std::vector<TH2D, std::allocator<TH2D> > > > >");
      return &instance;
   }
   // Static variable to force the class initialization
   static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const map<channel,vector<TH2D> >*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init));

   // Dictionary for non-ClassDef classes
   static TClass *maplEchannelcOvectorlETH2DgRsPgR_Dictionary() {
      TClass* theClass =::ROOT::GenerateInitInstanceLocal((const map<channel,vector<TH2D> >*)0x0)->GetClass();
      maplEchannelcOvectorlETH2DgRsPgR_TClassManip(theClass);
   return theClass;
   }

   static void maplEchannelcOvectorlETH2DgRsPgR_TClassManip(TClass* ){
   }

} // end of namespace ROOT

namespace ROOT {
   // Wrappers around operator new
   static void *new_maplEchannelcOvectorlETH2DgRsPgR(void *p) {
      return  p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) map<channel,vector<TH2D> > : new map<channel,vector<TH2D> >;
   }
   static void *newArray_maplEchannelcOvectorlETH2DgRsPgR(Long_t nElements, void *p) {
      return p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) map<channel,vector<TH2D> >[nElements] : new map<channel,vector<TH2D> >[nElements];
   }
   // Wrapper around operator delete
   static void delete_maplEchannelcOvectorlETH2DgRsPgR(void *p) {
      delete ((map<channel,vector<TH2D> >*)p);
   }
   static void deleteArray_maplEchannelcOvectorlETH2DgRsPgR(void *p) {
      delete [] ((map<channel,vector<TH2D> >*)p);
   }
   static void destruct_maplEchannelcOvectorlETH2DgRsPgR(void *p) {
      typedef map<channel,vector<TH2D> > current_t;
      ((current_t*)p)->~current_t();
   }
} // end of namespace ROOT for class map<channel,vector<TH2D> >

namespace ROOT {
   static TClass *maplEchannelcOTH3DgR_Dictionary();
   static void maplEchannelcOTH3DgR_TClassManip(TClass*);
   static void *new_maplEchannelcOTH3DgR(void *p = 0);
   static void *newArray_maplEchannelcOTH3DgR(Long_t size, void *p);
   static void delete_maplEchannelcOTH3DgR(void *p);
   static void deleteArray_maplEchannelcOTH3DgR(void *p);
   static void destruct_maplEchannelcOTH3DgR(void *p);

   // Function generating the singleton type initializer
   static TGenericClassInfo *GenerateInitInstanceLocal(const map<channel,TH3D>*)
   {
      map<channel,TH3D> *ptr = 0;
      static ::TVirtualIsAProxy* isa_proxy = new ::TIsAProxy(typeid(map<channel,TH3D>));
      static ::ROOT::TGenericClassInfo 
         instance("map<channel,TH3D>", -2, "map", 96,
                  typeid(map<channel,TH3D>), ::ROOT::Internal::DefineBehavior(ptr, ptr),
                  &maplEchannelcOTH3DgR_Dictionary, isa_proxy, 0,
                  sizeof(map<channel,TH3D>) );
      instance.SetNew(&new_maplEchannelcOTH3DgR);
      instance.SetNewArray(&newArray_maplEchannelcOTH3DgR);
      instance.SetDelete(&delete_maplEchannelcOTH3DgR);
      instance.SetDeleteArray(&deleteArray_maplEchannelcOTH3DgR);
      instance.SetDestructor(&destruct_maplEchannelcOTH3DgR);
      instance.AdoptCollectionProxyInfo(TCollectionProxyInfo::Generate(TCollectionProxyInfo::MapInsert< map<channel,TH3D> >()));

      ::ROOT::AddClassAlternate("map<channel,TH3D>","std::map<channel, TH3D, std::less<channel>, std::allocator<std::pair<channel const, TH3D> > >");
      return &instance;
   }
   // Static variable to force the class initialization
   static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const map<channel,TH3D>*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init));

   // Dictionary for non-ClassDef classes
   static TClass *maplEchannelcOTH3DgR_Dictionary() {
      TClass* theClass =::ROOT::GenerateInitInstanceLocal((const map<channel,TH3D>*)0x0)->GetClass();
      maplEchannelcOTH3DgR_TClassManip(theClass);
   return theClass;
   }

   static void maplEchannelcOTH3DgR_TClassManip(TClass* ){
   }

} // end of namespace ROOT

namespace ROOT {
   // Wrappers around operator new
   static void *new_maplEchannelcOTH3DgR(void *p) {
      return  p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) map<channel,TH3D> : new map<channel,TH3D>;
   }
   static void *newArray_maplEchannelcOTH3DgR(Long_t nElements, void *p) {
      return p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) map<channel,TH3D>[nElements] : new map<channel,TH3D>[nElements];
   }
   // Wrapper around operator delete
   static void delete_maplEchannelcOTH3DgR(void *p) {
      delete ((map<channel,TH3D>*)p);
   }
   static void deleteArray_maplEchannelcOTH3DgR(void *p) {
      delete [] ((map<channel,TH3D>*)p);
   }
   static void destruct_maplEchannelcOTH3DgR(void *p) {
      typedef map<channel,TH3D> current_t;
      ((current_t*)p)->~current_t();
   }
} // end of namespace ROOT for class map<channel,TH3D>

namespace ROOT {
   static TClass *maplEchannelcOTH2DgR_Dictionary();
   static void maplEchannelcOTH2DgR_TClassManip(TClass*);
   static void *new_maplEchannelcOTH2DgR(void *p = 0);
   static void *newArray_maplEchannelcOTH2DgR(Long_t size, void *p);
   static void delete_maplEchannelcOTH2DgR(void *p);
   static void deleteArray_maplEchannelcOTH2DgR(void *p);
   static void destruct_maplEchannelcOTH2DgR(void *p);

   // Function generating the singleton type initializer
   static TGenericClassInfo *GenerateInitInstanceLocal(const map<channel,TH2D>*)
   {
      map<channel,TH2D> *ptr = 0;
      static ::TVirtualIsAProxy* isa_proxy = new ::TIsAProxy(typeid(map<channel,TH2D>));
      static ::ROOT::TGenericClassInfo 
         instance("map<channel,TH2D>", -2, "map", 96,
                  typeid(map<channel,TH2D>), ::ROOT::Internal::DefineBehavior(ptr, ptr),
                  &maplEchannelcOTH2DgR_Dictionary, isa_proxy, 0,
                  sizeof(map<channel,TH2D>) );
      instance.SetNew(&new_maplEchannelcOTH2DgR);
      instance.SetNewArray(&newArray_maplEchannelcOTH2DgR);
      instance.SetDelete(&delete_maplEchannelcOTH2DgR);
      instance.SetDeleteArray(&deleteArray_maplEchannelcOTH2DgR);
      instance.SetDestructor(&destruct_maplEchannelcOTH2DgR);
      instance.AdoptCollectionProxyInfo(TCollectionProxyInfo::Generate(TCollectionProxyInfo::MapInsert< map<channel,TH2D> >()));

      ::ROOT::AddClassAlternate("map<channel,TH2D>","std::map<channel, TH2D, std::less<channel>, std::allocator<std::pair<channel const, TH2D> > >");
      return &instance;
   }
   // Static variable to force the class initialization
   static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const map<channel,TH2D>*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init));

   // Dictionary for non-ClassDef classes
   static TClass *maplEchannelcOTH2DgR_Dictionary() {
      TClass* theClass =::ROOT::GenerateInitInstanceLocal((const map<channel,TH2D>*)0x0)->GetClass();
      maplEchannelcOTH2DgR_TClassManip(theClass);
   return theClass;
   }

   static void maplEchannelcOTH2DgR_TClassManip(TClass* ){
   }

} // end of namespace ROOT

namespace ROOT {
   // Wrappers around operator new
   static void *new_maplEchannelcOTH2DgR(void *p) {
      return  p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) map<channel,TH2D> : new map<channel,TH2D>;
   }
   static void *newArray_maplEchannelcOTH2DgR(Long_t nElements, void *p) {
      return p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) map<channel,TH2D>[nElements] : new map<channel,TH2D>[nElements];
   }
   // Wrapper around operator delete
   static void delete_maplEchannelcOTH2DgR(void *p) {
      delete ((map<channel,TH2D>*)p);
   }
   static void deleteArray_maplEchannelcOTH2DgR(void *p) {
      delete [] ((map<channel,TH2D>*)p);
   }
   static void destruct_maplEchannelcOTH2DgR(void *p) {
      typedef map<channel,TH2D> current_t;
      ((current_t*)p)->~current_t();
   }
} // end of namespace ROOT for class map<channel,TH2D>

namespace ROOT {
   static TClass *maplEchannelcOTH1DgR_Dictionary();
   static void maplEchannelcOTH1DgR_TClassManip(TClass*);
   static void *new_maplEchannelcOTH1DgR(void *p = 0);
   static void *newArray_maplEchannelcOTH1DgR(Long_t size, void *p);
   static void delete_maplEchannelcOTH1DgR(void *p);
   static void deleteArray_maplEchannelcOTH1DgR(void *p);
   static void destruct_maplEchannelcOTH1DgR(void *p);

   // Function generating the singleton type initializer
   static TGenericClassInfo *GenerateInitInstanceLocal(const map<channel,TH1D>*)
   {
      map<channel,TH1D> *ptr = 0;
      static ::TVirtualIsAProxy* isa_proxy = new ::TIsAProxy(typeid(map<channel,TH1D>));
      static ::ROOT::TGenericClassInfo 
         instance("map<channel,TH1D>", -2, "map", 96,
                  typeid(map<channel,TH1D>), ::ROOT::Internal::DefineBehavior(ptr, ptr),
                  &maplEchannelcOTH1DgR_Dictionary, isa_proxy, 0,
                  sizeof(map<channel,TH1D>) );
      instance.SetNew(&new_maplEchannelcOTH1DgR);
      instance.SetNewArray(&newArray_maplEchannelcOTH1DgR);
      instance.SetDelete(&delete_maplEchannelcOTH1DgR);
      instance.SetDeleteArray(&deleteArray_maplEchannelcOTH1DgR);
      instance.SetDestructor(&destruct_maplEchannelcOTH1DgR);
      instance.AdoptCollectionProxyInfo(TCollectionProxyInfo::Generate(TCollectionProxyInfo::MapInsert< map<channel,TH1D> >()));

      ::ROOT::AddClassAlternate("map<channel,TH1D>","std::map<channel, TH1D, std::less<channel>, std::allocator<std::pair<channel const, TH1D> > >");
      return &instance;
   }
   // Static variable to force the class initialization
   static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const map<channel,TH1D>*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init));

   // Dictionary for non-ClassDef classes
   static TClass *maplEchannelcOTH1DgR_Dictionary() {
      TClass* theClass =::ROOT::GenerateInitInstanceLocal((const map<channel,TH1D>*)0x0)->GetClass();
      maplEchannelcOTH1DgR_TClassManip(theClass);
   return theClass;
   }

   static void maplEchannelcOTH1DgR_TClassManip(TClass* ){
   }

} // end of namespace ROOT

namespace ROOT {
   // Wrappers around operator new
   static void *new_maplEchannelcOTH1DgR(void *p) {
      return  p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) map<channel,TH1D> : new map<channel,TH1D>;
   }
   static void *newArray_maplEchannelcOTH1DgR(Long_t nElements, void *p) {
      return p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) map<channel,TH1D>[nElements] : new map<channel,TH1D>[nElements];
   }
   // Wrapper around operator delete
   static void delete_maplEchannelcOTH1DgR(void *p) {
      delete ((map<channel,TH1D>*)p);
   }
   static void deleteArray_maplEchannelcOTH1DgR(void *p) {
      delete [] ((map<channel,TH1D>*)p);
   }
   static void destruct_maplEchannelcOTH1DgR(void *p) {
      typedef map<channel,TH1D> current_t;
      ((current_t*)p)->~current_t();
   }
} // end of namespace ROOT for class map<channel,TH1D>

namespace {
  void TriggerDictionaryInitialization_ComponentdOdict_Impl() {
    static const char* headers[] = {
"Component.hh",
0
    };
    static const char* includePaths[] = {
"/usr/local/include",
"/km3net/aanet/evt",
"/km3net/aanet/astro",
"/km3net/aanet",
"/km3net/aanet/externals",
"/km3net/aanet/externals/km3net-dataformat/offline",
"/km3net/aanet/externals/km3net-dataformat/online",
"/km3net/aanet/externals/flux",
"/usr/local/include/",
"/km3net/aanet/ana/search/",
0
    };
    static const char* fwdDeclCode = R"DICTFWDDCLS(
#line 1 "ComponentdOdict dictionary forward declarations' payload"
#pragma clang diagnostic ignored "-Wkeyword-compat"
#pragma clang diagnostic ignored "-Wignored-attributes"
#pragma clang diagnostic ignored "-Wreturn-type-c-linkage"
extern int __Cling_AutoLoading_Map;
struct __attribute__((annotate(R"ATTRDUMP(file_name@@@Component.hh)ATTRDUMP"))) __attribute__((annotate(R"ATTRDUMP(pattern@@@*)ATTRDUMP"))) __attribute__((annotate("$clingAutoload$Component.hh")))  __attribute__((annotate("$clingAutoload$BackgroundComponent.hh")))  Period;
struct __attribute__((annotate(R"ATTRDUMP(file_name@@@Component.hh)ATTRDUMP"))) __attribute__((annotate(R"ATTRDUMP(pattern@@@*)ATTRDUMP"))) __attribute__((annotate("$clingAutoload$Component.hh")))  __attribute__((annotate("$clingAutoload$BackgroundComponent.hh")))  Component;
struct __attribute__((annotate(R"ATTRDUMP(file_name@@@BackgroundComponent.hh)ATTRDUMP"))) __attribute__((annotate(R"ATTRDUMP(pattern@@@*)ATTRDUMP"))) __attribute__((annotate("$clingAutoload$BackgroundComponent.hh")))  BackgroundComponent;
struct __attribute__((annotate(R"ATTRDUMP(file_name@@@IsotropicPowerLawComponent.hh)ATTRDUMP"))) __attribute__((annotate(R"ATTRDUMP(pattern@@@*)ATTRDUMP"))) __attribute__((annotate("$clingAutoload$IsotropicPowerLawComponent.hh")))  IsotropicPowerLawComponent;
)DICTFWDDCLS";
    static const char* payloadCode = R"DICTPAYLOAD(
#line 1 "ComponentdOdict dictionary payload"


#define _BACKWARD_BACKWARD_WARNING_H
// Inline headers
#include "Component.hh"
#include "BackgroundComponent.hh"
#include "IsotropicPowerLawComponent.hh"

#pragma link C++ defined_in "Component.hh";
#pragma link C++ defined_in "IsotropicPowerLawComponent.hh";
#pragma link C++ defined_in "BackgroundComponent.hh";

#undef  _BACKWARD_BACKWARD_WARNING_H
)DICTPAYLOAD";
    static const char* classesHeaders[] = {
"", payloadCode, "@",
"BackgroundComponent", payloadCode, "@",
"BackgroundComponent::fgIsA", payloadCode, "@",
"Component", payloadCode, "@",
"Component::fgIsA", payloadCode, "@",
"IsotropicPowerLawComponent", payloadCode, "@",
"IsotropicPowerLawComponent::fgIsA", payloadCode, "@",
"Period", payloadCode, "@",
nullptr
};
    static bool isInitialized = false;
    if (!isInitialized) {
      TROOT::RegisterModule("Component.dict",
        headers, includePaths, payloadCode, fwdDeclCode,
        TriggerDictionaryInitialization_ComponentdOdict_Impl, {}, classesHeaders, /*hasCxxModule*/false);
      isInitialized = true;
    }
  }
  static struct DictInit {
    DictInit() {
      TriggerDictionaryInitialization_ComponentdOdict_Impl();
    }
  } __TheDictionaryInitializer;
}
void TriggerDictionaryInitialization_ComponentdOdict() {
  TriggerDictionaryInitialization_ComponentdOdict_Impl();
}