// Do NOT change. Changes will be lost next time file is generated #define R__DICTIONARY_FILENAME Dict #define R__NO_DEPRECATION /*******************************************************************/ #include #include #include #include #include #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 #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 "testData.h" // Header files passed via #pragma extra_include namespace ROOT { static void *new_testData(void *p = 0); static void *newArray_testData(Long_t size, void *p); static void delete_testData(void *p); static void deleteArray_testData(void *p); static void destruct_testData(void *p); static void streamer_testData(TBuffer &buf, void *obj); // Function generating the singleton type initializer static TGenericClassInfo *GenerateInitInstanceLocal(const ::testData*) { ::testData *ptr = 0; static ::TVirtualIsAProxy* isa_proxy = new ::TInstrumentedIsAProxy< ::testData >(0); static ::ROOT::TGenericClassInfo instance("testData", ::testData::Class_Version(), "testData.h", 5, typeid(::testData), ::ROOT::Internal::DefineBehavior(ptr, ptr), &::testData::Dictionary, isa_proxy, 16, sizeof(::testData) ); instance.SetNew(&new_testData); instance.SetNewArray(&newArray_testData); instance.SetDelete(&delete_testData); instance.SetDeleteArray(&deleteArray_testData); instance.SetDestructor(&destruct_testData); instance.SetStreamerFunc(&streamer_testData); return &instance; } TGenericClassInfo *GenerateInitInstance(const ::testData*) { return GenerateInitInstanceLocal((::testData*)0); } // Static variable to force the class initialization static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const ::testData*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init)); } // end of namespace ROOT //______________________________________________________________________________ atomic_TClass_ptr testData::fgIsA(0); // static to hold class pointer //______________________________________________________________________________ const char *testData::Class_Name() { return "testData"; } //______________________________________________________________________________ const char *testData::ImplFileName() { return ::ROOT::GenerateInitInstanceLocal((const ::testData*)0x0)->GetImplFileName(); } //______________________________________________________________________________ int testData::ImplFileLine() { return ::ROOT::GenerateInitInstanceLocal((const ::testData*)0x0)->GetImplFileLine(); } //______________________________________________________________________________ TClass *testData::Dictionary() { fgIsA = ::ROOT::GenerateInitInstanceLocal((const ::testData*)0x0)->GetClass(); return fgIsA; } //______________________________________________________________________________ TClass *testData::Class() { if (!fgIsA.load()) { R__LOCKGUARD(gInterpreterMutex); fgIsA = ::ROOT::GenerateInitInstanceLocal((const ::testData*)0x0)->GetClass(); } return fgIsA; } //______________________________________________________________________________ void testData::Streamer(TBuffer &R__b) { // Stream an object of class testData. UInt_t R__s, R__c; if (R__b.IsReading()) { Version_t R__v = R__b.ReadVersion(&R__s, &R__c); if (R__v) { } TObject::Streamer(R__b); { for (Int_t R__l = 0; R__l < 255; R__l++) { vector[255] &R__stl = fDirection[R__l]; R__stl.clear(); int R__i, R__n; R__b >> R__n; R__stl.reserve(R__n); for (R__i = 0; R__i < R__n; R__i++) { TVector3 R__t; R__t.Streamer(R__b); R__stl.push_back(R__t); } } } R__b.CheckByteCount(R__s, R__c, testData::IsA()); } else { R__c = R__b.WriteVersion(testData::IsA(), kTRUE); TObject::Streamer(R__b); for (Int_t R__l = 0; R__l < 255; R__l++) { { vector[255] &R__stl = fDirection[R__l]; int R__n=int(R__stl.size()); R__b << R__n; if(R__n) { vector[255]::iterator R__k; for (R__k = R__stl.begin(); R__k != R__stl.end(); ++R__k) { ((TVector3&)(*R__k)).Streamer(R__b); } } } } R__b.SetByteCount(R__c, kTRUE); } } namespace ROOT { // Wrappers around operator new static void *new_testData(void *p) { return p ? new(p) ::testData : new ::testData; } static void *newArray_testData(Long_t nElements, void *p) { return p ? new(p) ::testData[nElements] : new ::testData[nElements]; } // Wrapper around operator delete static void delete_testData(void *p) { delete ((::testData*)p); } static void deleteArray_testData(void *p) { delete [] ((::testData*)p); } static void destruct_testData(void *p) { typedef ::testData current_t; ((current_t*)p)->~current_t(); } // Wrapper around a custom streamer member function. static void streamer_testData(TBuffer &buf, void *obj) { ((::testData*)obj)->::testData::Streamer(buf); } } // end of namespace ROOT for class ::testData namespace ROOT { static TClass *vectorlETVector3gR_Dictionary(); static void vectorlETVector3gR_TClassManip(TClass*); static void *new_vectorlETVector3gR(void *p = 0); static void *newArray_vectorlETVector3gR(Long_t size, void *p); static void delete_vectorlETVector3gR(void *p); static void deleteArray_vectorlETVector3gR(void *p); static void destruct_vectorlETVector3gR(void *p); // Function generating the singleton type initializer static TGenericClassInfo *GenerateInitInstanceLocal(const vector*) { vector *ptr = 0; static ::TVirtualIsAProxy* isa_proxy = new ::TIsAProxy(typeid(vector)); static ::ROOT::TGenericClassInfo instance("vector", -2, "vector", 339, typeid(vector), ::ROOT::Internal::DefineBehavior(ptr, ptr), &vectorlETVector3gR_Dictionary, isa_proxy, 0, sizeof(vector) ); instance.SetNew(&new_vectorlETVector3gR); instance.SetNewArray(&newArray_vectorlETVector3gR); instance.SetDelete(&delete_vectorlETVector3gR); instance.SetDeleteArray(&deleteArray_vectorlETVector3gR); instance.SetDestructor(&destruct_vectorlETVector3gR); instance.AdoptCollectionProxyInfo(TCollectionProxyInfo::Generate(TCollectionProxyInfo::Pushback< vector >())); return &instance; } // Static variable to force the class initialization static ::ROOT::TGenericClassInfo *_R__UNIQUE_DICT_(Init) = GenerateInitInstanceLocal((const vector*)0x0); R__UseDummy(_R__UNIQUE_DICT_(Init)); // Dictionary for non-ClassDef classes static TClass *vectorlETVector3gR_Dictionary() { TClass* theClass =::ROOT::GenerateInitInstanceLocal((const vector*)0x0)->GetClass(); vectorlETVector3gR_TClassManip(theClass); return theClass; } static void vectorlETVector3gR_TClassManip(TClass* ){ } } // end of namespace ROOT namespace ROOT { // Wrappers around operator new static void *new_vectorlETVector3gR(void *p) { return p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) vector : new vector; } static void *newArray_vectorlETVector3gR(Long_t nElements, void *p) { return p ? ::new((::ROOT::Internal::TOperatorNewHelper*)p) vector[nElements] : new vector[nElements]; } // Wrapper around operator delete static void delete_vectorlETVector3gR(void *p) { delete ((vector*)p); } static void deleteArray_vectorlETVector3gR(void *p) { delete [] ((vector*)p); } static void destruct_vectorlETVector3gR(void *p) { typedef vector current_t; ((current_t*)p)->~current_t(); } } // end of namespace ROOT for class vector namespace { void TriggerDictionaryInitialization_Dict_Impl() { static const char* headers[] = { "testData.h", 0 }; static const char* includePaths[] = { "/usr/local/root_v6.22_00/include", "/usr/local/root_v6.20_00/include/", "/home/ps/ROOT6_Test/", 0 }; static const char* fwdDeclCode = R"DICTFWDDCLS( #line 1 "Dict 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; class __attribute__((annotate("$clingAutoload$testData.h"))) testData; )DICTFWDDCLS"; static const char* payloadCode = R"DICTPAYLOAD( #line 1 "Dict dictionary payload" #define _BACKWARD_BACKWARD_WARNING_H // Inline headers #include "testData.h" #undef _BACKWARD_BACKWARD_WARNING_H )DICTPAYLOAD"; static const char* classesHeaders[] = { "testData", payloadCode, "@", nullptr }; static bool isInitialized = false; if (!isInitialized) { TROOT::RegisterModule("Dict", headers, includePaths, payloadCode, fwdDeclCode, TriggerDictionaryInitialization_Dict_Impl, {}, classesHeaders, /*hasCxxModule*/false); isInitialized = true; } } static struct DictInit { DictInit() { TriggerDictionaryInitialization_Dict_Impl(); } } __TheDictionaryInitializer; } void TriggerDictionaryInitialization_Dict() { TriggerDictionaryInitialization_Dict_Impl(); }