// @(#)root/meta:$Id$ // Author: Rene Brun 07/01/95 /************************************************************************* * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers. * * All rights reserved. * * * * For the licensing terms see $ROOTSYS/LICENSE. * * For the list of contributors see $ROOTSYS/README/CREDITS. * *************************************************************************/ #ifndef ROOT_TClass #define ROOT_TClass ////////////////////////////////////////////////////////////////////////// // // // TClass // // // // Dictionary of a class. // // // ////////////////////////////////////////////////////////////////////////// #include "TDictionary.h" #include "TString.h" #ifdef R__LESS_INCLUDES class TObjArray; #else #include "TObjArray.h" // Not used in this header file; user code should #include this directly. // #include "TObjString.h" // #include "ThreadLocalStorage.h" // #include #endif #include #include #include #include #include class TBaseClass; class TBrowser; class TDataMember; class TCling; class TMethod; class TRealData; class TBuffer; class TVirtualStreamerInfo; class TVirtualCollectionProxy; class TMethodCall; class TVirtualIsAProxy; class TVirtualRefProxy; class THashTable; class TListOfFunctions; class TListOfFunctionTemplates; class TListOfDataMembers; class TListOfEnums; class TViewPubFunctions; class TViewPubDataMembers; class TFunctionTemplate; class TProtoClass; namespace ROOT { class TGenericClassInfo; class TMapTypeToTClass; class TMapDeclIdToTClass; namespace Detail { class TSchemaRuleSet; class TCollectionProxyInfo; } namespace Internal { class TCheckHashRecursiveRemoveConsistency; } } typedef ROOT::TMapTypeToTClass IdMap_t; typedef ROOT::TMapDeclIdToTClass DeclIdMap_t; class TClass : public TDictionary { friend class TCling; friend void ROOT::ResetClassVersion(TClass*, const char*, Short_t); friend class ROOT::TGenericClassInfo; friend class TProtoClass; friend class ROOT::Internal::TCheckHashRecursiveRemoveConsistency; friend class TStreamerInfo; public: // TClass status bits enum EStatusBits { kReservedLoading = BIT(7), // Internal status bits, set and reset only during initialization kClassSaved = BIT(12), kHasLocalHashMember = BIT(14), kIgnoreTObjectStreamer = BIT(15), kUnloaded = BIT(16), // The library containing the dictionary for this class was // loaded and has been unloaded from memory. kIsTObject = BIT(17), kIsForeign = BIT(18), kIsEmulation = BIT(19), // Deprecated kStartWithTObject = BIT(20), // see comments for IsStartingWithTObject() kWarned = BIT(21), kHasNameMapNode = BIT(22), kHasCustomStreamerMember = BIT(23) // The class has a Streamer method and it is implemented by the user or an older (not StreamerInfo based) automatic streamer. }; enum ENewType { kRealNew = 0, kClassNew, kDummyNew }; enum ECheckSum { kCurrentCheckSum = 0, kNoEnum = 1, // Used since v3.3 kReflexNoComment = 2, // Up to v5.34.18 (has no range/comment and no typedef at all) kNoRange = 3, // Up to v5.17 kWithTypeDef = 4, // Up to v5.34.18 and v5.99/06 kReflex = 5, // Up to v5.34.18 (has no typedef at all) kNoRangeCheck = 6, // Up to v5.34.18 and v5.99/06 kNoBaseCheckSum = 7, // Up to v5.34.18 and v5.99/06 kLatestCheckSum = 8 }; // Describe the current state of the TClass itself. enum EState { kNoInfo, // The state has not yet been initialized, i.e. the TClass // was just created and/or there is no trace of it in the interpreter. kForwardDeclared, // The interpreted knows the entity is a class but that's it. kEmulated, // The information about the class only comes from a TStreamerInfo kInterpreted, // The class is described completely/only in the interpreter database. kHasTClassInit, // The class has a TClass proper bootstrap coming from a run // through rootcling/genreflex/TMetaUtils and the library // containing this dictionary has been loaded in memory. kLoaded = kHasTClassInit, kNamespaceForMeta // Very transient state necessary to bootstrap namespace entries // in ROOT Meta w/o interpreter information }; private: class TDeclNameRegistry { // A class which is used to collect decl names starting from normalised // names (typedef resolution is excluded here, just string manipulation // is performed). At the heart of the implementation, an unordered set. public: TDeclNameRegistry(Int_t verbLevel=0); void AddQualifiedName(const char *name); Bool_t HasDeclName(const char *name) const; ~TDeclNameRegistry(); private: Int_t fVerbLevel=0; std::unordered_set fClassNamesSet; mutable std::atomic_flag fSpinLock; // MSVC doesn't support = ATOMIC_FLAG_INIT; }; class InsertTClassInRegistryRAII { // Trivial RAII used to insert names in the registry TClass::EState& fState; const char* fName; TDeclNameRegistry& fNoInfoOrEmuOrFwdDeclNameRegistry; public: InsertTClassInRegistryRAII(TClass::EState &state, const char *name, TDeclNameRegistry &emuRegistry); ~InsertTClassInRegistryRAII(); }; // TClass objects can be created as a result of opening a TFile (in which // they are in emulated mode) or as a result of loading the dictionary for // the corresponding class. When a dictionary is loaded any pre-existing // emulated TClass is replaced by the one created/coming from the dictionary. // To have a reference that always point to the 'current' TClass object for // a given class, one should use a TClassRef. // TClassRef works by holding on to the fPersistentRef which is updated // atomically whenever a TClass is replaced. During the replacement the // value of fPersistentRef is set to zero, leading the TClassRef to call // TClass::GetClass which is also locked by the replacement. At the end // of the replacement, fPersistentRef points to the new TClass object. std::atomic fPersistentRef;//!Persistent address of pointer to this TClass object and its successors. typedef std::atomic*> ConvSIMap_t; mutable TObjArray *fStreamerInfo; //Array of TVirtualStreamerInfo mutable ConvSIMap_t fConversionStreamerInfo; //Array of the streamer infos derived from another class. TList *fRealData; //linked list for persistent members including base classes std::atomic fBase; //linked list for base classes std::atomic fData; //linked list for data members; non-owning. std::atomic fUsingData;//linked list for data members pulled in through using decls. std::atomic fEnums; //linked list for the enums TListOfFunctionTemplates *fFuncTemplate; //linked list for function templates [Not public until implemented as active list] std::atomic fMethod; //linked list for methods TViewPubDataMembers*fAllPubData; //all public data members (including from base classes) TViewPubFunctions *fAllPubMethod; //all public methods (including from base classes) mutable TList *fClassMenuList; //list of class menu items const char *fDeclFileName; //name of class declaration file const char *fImplFileName; //name of class implementation file Short_t fDeclFileLine; //line of class declaration Short_t fImplFileLine; //line of class implementation UInt_t fInstanceCount; //number of instances of this class UInt_t fOnHeap; //number of instances on heap mutable std::atomic fCheckSum; //checksum of data members and base classes TVirtualCollectionProxy *fCollectionProxy; //Collection interface Version_t fClassVersion; //Class version Identifier ClassInfo_t *fClassInfo; //pointer to CINT class info class TString fContextMenuTitle;//context menu title const std::type_info *fTypeInfo; //pointer to the C++ type information. ShowMembersFunc_t fShowMembers; //pointer to the class's ShowMembers function TClassStreamer *fStreamer; //pointer to streamer function TString fSharedLibs; //shared libraries containing class code TVirtualIsAProxy *fIsA; //!pointer to the class's IsA proxy. IsAGlobalFunc_t fGlobalIsA; //pointer to a global IsA function. mutable std::atomic fIsAMethod; //!saved info to call a IsA member function ROOT::MergeFunc_t fMerge; //pointer to a function implementing Merging objects of this class. ROOT::ResetAfterMergeFunc_t fResetAfterMerge; //pointer to a function implementing Merging objects of this class. ROOT::NewFunc_t fNew; //pointer to a function newing one object. ROOT::NewArrFunc_t fNewArray; //pointer to a function newing an array of objects. ROOT::DelFunc_t fDelete; //pointer to a function deleting one object. ROOT::DelArrFunc_t fDeleteArray; //pointer to a function deleting an array of objects. ROOT::DesFunc_t fDestructor; //pointer to a function call an object's destructor. ROOT::DirAutoAdd_t fDirAutoAdd; //pointer which implements the Directory Auto Add feature for this class.']' ClassStreamerFunc_t fStreamerFunc; //Wrapper around this class custom Streamer member function. ClassConvStreamerFunc_t fConvStreamerFunc; //Wrapper around this class custom conversion Streamer member function. Int_t fSizeof; //Sizeof the class. // Bit field Int_t fCanSplit : 3; //!Indicates whether this class can be split or not. Values are -1, 0, 1, 2 /// Indicates whether this class represents a pair and was not created from a dictionary nor interpreter info but has /// compiler compatible offset and size (and all the info is in the StreamerInfo per se) Bool_t fIsSyntheticPair : 1; //! mutable std::atomic fProperty; //!Property See TClass::Property() for details mutable Long_t fClassProperty; //!C++ Property of the class (is abstract, has virtual table, etc.) // fHasRootPcmInfo needs to be atomic as long as GetListOfBases needs to modify it. std::atomic fHasRootPcmInfo; //!Whether info was loaded from a root pcm. mutable std::atomic fCanLoadClassInfo; //!Indicates whether the ClassInfo is supposed to be available. mutable std::atomic fIsOffsetStreamerSet; //!saved remember if fOffsetStreamer has been set. mutable std::atomic fVersionUsed; //!Indicates whether GetClassVersion has been called enum class ERuntimeProperties : UChar_t { kNotInitialized = 0, kSet = BIT(0), // kInconsistent when kSet & !kConsistent. kConsistentHash = BIT(1) }; friend bool operator&(UChar_t l, ERuntimeProperties r) { return l & static_cast(r); } mutable std::atomic fRuntimeProperties; //! Properties that can only be evaluated at run-time mutable Long_t fOffsetStreamer; //!saved info to call Streamer Int_t fStreamerType; //!cached of the streaming method to use EState fState; //!Current 'state' of the class (Emulated,Interpreted,Loaded) mutable std::atomic fCurrentInfo; //!cached current streamer info. mutable std::atomic fLastReadInfo; //!cached streamer info used in the last read. TVirtualRefProxy *fRefProxy; //!Pointer to reference proxy if this class represents a reference ROOT::Detail::TSchemaRuleSet *fSchemaRules; //! Schema evolution rules typedef void (*StreamerImpl_t)(const TClass* pThis, void *obj, TBuffer &b, const TClass *onfile_class); #ifdef R__NO_ATOMIC_FUNCTION_POINTER mutable StreamerImpl_t fStreamerImpl; //! Pointer to the function implementing streaming for this class #else mutable std::atomic fStreamerImpl; //! Pointer to the function implementing streaming for this class #endif Bool_t CanSplitBaseAllow(); TListOfFunctions *GetMethodList(); TMethod *GetClassMethod(Long_t faddr); TMethod *FindClassOrBaseMethodWithId(DeclId_t faddr); Int_t GetBaseClassOffsetRecurse(const TClass *toBase); void Init(const char *name, Version_t cversion, const std::type_info *info, TVirtualIsAProxy *isa, const char *dfil, const char *ifil, Int_t dl, Int_t il, ClassInfo_t *classInfo, Bool_t silent); void ForceReload (TClass* oldcl); void LoadClassInfo() const; static TClass *LoadClassDefault(const char *requestedname, Bool_t silent); static TClass *LoadClassCustom(const char *requestedname, Bool_t silent); void SetClassVersion(Version_t version); void SetClassSize(Int_t sizof) { fSizeof = sizof; } TVirtualStreamerInfo* DetermineCurrentStreamerInfo(); void SetStreamerImpl(); void SetRuntimeProperties(); // Various implementation for TClass::Stramer static void StreamerExternal(const TClass* pThis, void *object, TBuffer &b, const TClass *onfile_class); static void StreamerTObject(const TClass* pThis, void *object, TBuffer &b, const TClass *onfile_class); static void StreamerTObjectInitialized(const TClass* pThis, void *object, TBuffer &b, const TClass *onfile_class); static void StreamerTObjectEmulated(const TClass* pThis, void *object, TBuffer &b, const TClass *onfile_class); static void StreamerInstrumented(const TClass* pThis, void *object, TBuffer &b, const TClass *onfile_class); static void ConvStreamerInstrumented(const TClass* pThis, void *object, TBuffer &b, const TClass *onfile_class); static void StreamerStreamerInfo(const TClass* pThis, void *object, TBuffer &b, const TClass *onfile_class); static void StreamerDefault(const TClass* pThis, void *object, TBuffer &b, const TClass *onfile_class); static IdMap_t *GetIdMap(); //Map from typeid to TClass pointer static DeclIdMap_t *GetDeclIdMap(); //Map from DeclId_t to TClass pointer static std::atomic fgClassCount; //provides unique id for a each class //stored in TObject::fUniqueID static TDeclNameRegistry fNoInfoOrEmuOrFwdDeclNameRegistry; // Store decl names of the forwardd and no info instances static Bool_t HasNoInfoOrEmuOrFwdDeclaredDecl(const char*); // Internal status bits, set and reset only during initialization and thus under the protection of the global lock. enum { kLoading = kReservedLoading, kUnloading = kReservedLoading }; // Internal streamer type. enum EStreamerType {kDefault=0, kEmulatedStreamer=1, kTObject=2, kInstrumented=4, kForeign=8, kExternal=16}; // These are the above-referenced hash tables. (The pointers are null // if no entries have been made.) static THashTable* fgClassTypedefHash; TVirtualStreamerInfo *GetStreamerInfoImpl(Int_t version, Bool_t silent) const; private: TClass(const TClass& tc) = delete; TClass& operator=(const TClass&) = delete; bool IsClassStructOrUnion() const { return Property() & (kIsClass|kIsStruct|kIsUnion); } TList *CreateListOfDataMembers(std::atomic &data, TDictionary::EMemberSelection selection, bool load); protected: TVirtualStreamerInfo *FindStreamerInfo(TObjArray *arr, UInt_t checksum) const; void GetMissingDictionariesForBaseClasses(TCollection &result, TCollection &visited, bool recurse); void GetMissingDictionariesForMembers(TCollection &result, TCollection &visited, bool recurse); void GetMissingDictionariesWithRecursionCheck(TCollection &result, TCollection &visited, bool recurse); void GetMissingDictionariesForPairElements(TCollection &result, TCollection &visited, bool recurse); public: TClass(); TClass(const char *name, Bool_t silent = kFALSE); TClass(const char *name, Version_t cversion, Bool_t silent = kFALSE); TClass(const char *name, Version_t cversion, EState theState, Bool_t silent = kFALSE); TClass(ClassInfo_t *info, Version_t cversion, const char *dfil, const char *ifil = 0, Int_t dl = 0, Int_t il = 0, Bool_t silent = kFALSE); TClass(const char *name, Version_t cversion, const char *dfil, const char *ifil = 0, Int_t dl = 0, Int_t il = 0, Bool_t silent = kFALSE); TClass(const char *name, Version_t cversion, const std::type_info &info, TVirtualIsAProxy *isa, const char *dfil, const char *ifil, Int_t dl, Int_t il, Bool_t silent = kFALSE); virtual ~TClass(); void AddInstance(Bool_t heap = kFALSE) { fInstanceCount++; if (heap) fOnHeap++; } void AddImplFile(const char *filename, int line); static Bool_t AddRule(const char *rule); static Int_t ReadRules(const char *filename); static Int_t ReadRules(); void AdoptSchemaRules( ROOT::Detail::TSchemaRuleSet *rules ); virtual void Browse(TBrowser *b); void BuildRealData(void *pointer=0, Bool_t isTransient = kFALSE); void BuildEmulatedRealData(const char *name, Long_t offset, TClass *cl, Bool_t isTransient = kFALSE); void CalculateStreamerOffset() const; Bool_t CallShowMembers(const void* obj, TMemberInspector &insp, Bool_t isTransient = kFALSE) const; Bool_t CanSplit() const; Bool_t CanIgnoreTObjectStreamer() { return TestBit(kIgnoreTObjectStreamer);} Long_t ClassProperty() const; TObject *Clone(const char *newname="") const; void CopyCollectionProxy(const TVirtualCollectionProxy&); void Draw(Option_t *option=""); void Dump() const { TDictionary::Dump(); } void Dump(const void *obj, Bool_t noAddr = kFALSE) const; char *EscapeChars(const char *text) const; TVirtualStreamerInfo *FindStreamerInfo(UInt_t checksum, Bool_t isTransient = kFALSE) const; TVirtualStreamerInfo *GetConversionStreamerInfo( const char* onfile_classname, Int_t version ) const; TVirtualStreamerInfo *FindConversionStreamerInfo( const char* onfile_classname, UInt_t checksum ) const; TVirtualStreamerInfo *GetConversionStreamerInfo( const TClass* onfile_cl, Int_t version ) const; TVirtualStreamerInfo *FindConversionStreamerInfo( const TClass* onfile_cl, UInt_t checksum ) const; Bool_t HasDataMemberInfo() const { return fIsSyntheticPair || fHasRootPcmInfo || HasInterpreterInfo(); } Bool_t HasDefaultConstructor(Bool_t testio = kFALSE) const; Bool_t HasInterpreterInfoInMemory() const { return 0 != fClassInfo; } Bool_t HasInterpreterInfo() const { return fCanLoadClassInfo || fClassInfo; } UInt_t GetCheckSum(ECheckSum code = kCurrentCheckSum) const; UInt_t GetCheckSum(Bool_t &isvalid) const; UInt_t GetCheckSum(ECheckSum code, Bool_t &isvalid) const; TVirtualCollectionProxy *GetCollectionProxy() const; TVirtualIsAProxy *GetIsAProxy() const; TMethod *GetClassMethod(const char *name, const char *params, Bool_t objectIsConst = kFALSE); TMethod *GetClassMethodWithPrototype(const char *name, const char *proto, Bool_t objectIsConst = kFALSE, ROOT::EFunctionMatchMode mode = ROOT::kConversionMatch); Version_t GetClassVersion() const { if (!fVersionUsed.load(std::memory_order_relaxed)) fVersionUsed = kTRUE; return fClassVersion; } Int_t GetClassSize() const { return Size(); } TDataMember *GetDataMember(const char *datamember) const; Long_t GetDataMemberOffset(const char *membername) const; const char *GetDeclFileName() const; Short_t GetDeclFileLine() const { return fDeclFileLine; } ROOT::DelFunc_t GetDelete() const; ROOT::DesFunc_t GetDestructor() const; ROOT::DelArrFunc_t GetDeleteArray() const; ClassInfo_t *GetClassInfo() const { if (fCanLoadClassInfo && !TestBit(kLoading)) LoadClassInfo(); return fClassInfo; } const char *GetContextMenuTitle() const { return fContextMenuTitle; } TVirtualStreamerInfo *GetCurrentStreamerInfo() { auto current = fCurrentInfo.load(std::memory_order_relaxed); if (current) return current; else return DetermineCurrentStreamerInfo(); } TVirtualStreamerInfo *GetLastReadInfo() const { return fLastReadInfo; } void SetLastReadInfo(TVirtualStreamerInfo *info) { fLastReadInfo = info; } TList *GetListOfDataMembers(Bool_t load = kTRUE); TList *GetListOfUsingDataMembers(Bool_t load = kTRUE); TList *GetListOfEnums(Bool_t load = kTRUE); TList *GetListOfFunctionTemplates(Bool_t load = kTRUE); TList *GetListOfBases(); TList *GetListOfMethods(Bool_t load = kTRUE); TCollection *GetListOfMethodOverloads(const char* name) const; TList *GetListOfRealData() const { return fRealData; } const TList *GetListOfAllPublicMethods(Bool_t load = kTRUE); TList *GetListOfAllPublicDataMembers(Bool_t load = kTRUE); const char *GetImplFileName() const { return fImplFileName; } Short_t GetImplFileLine() const { return fImplFileLine; } TClass *GetActualClass(const void *object) const; TClass *GetBaseClass(const char *classname); TClass *GetBaseClass(const TClass *base); Int_t GetBaseClassOffset(const TClass *toBase, void *address = 0, bool isDerivedObject = true); TClass *GetBaseDataMember(const char *datamember); ROOT::ESTLType GetCollectionType() const; ROOT::DirAutoAdd_t GetDirectoryAutoAdd() const; TFunctionTemplate *GetFunctionTemplate(const char *name); UInt_t GetInstanceCount() const { return fInstanceCount; } UInt_t GetHeapInstanceCount() const { return fOnHeap; } void GetMenuItems(TList *listitems); TList *GetMenuList() const; TMethod *GetMethod(const char *method, const char *params, Bool_t objectIsConst = kFALSE); TMethod *GetMethodWithPrototype(const char *method, const char *proto, Bool_t objectIsConst = kFALSE, ROOT::EFunctionMatchMode mode = ROOT::kConversionMatch); TMethod *GetMethodAny(const char *method); TMethod *GetMethodAllAny(const char *method); Int_t GetNdata(); ROOT::MergeFunc_t GetMerge() const; ROOT::ResetAfterMergeFunc_t GetResetAfterMerge() const; ROOT::NewFunc_t GetNew() const; ROOT::NewArrFunc_t GetNewArray() const; Int_t GetNmethods(); TClass *const*GetPersistentRef() const { return fPersistentRef; } TRealData *GetRealData(const char *name) const; TVirtualRefProxy *GetReferenceProxy() const { return fRefProxy; } const ROOT::Detail::TSchemaRuleSet *GetSchemaRules() const; ROOT::Detail::TSchemaRuleSet *GetSchemaRules(Bool_t create = kFALSE); const char *GetSharedLibs(); ShowMembersFunc_t GetShowMembersWrapper() const { return fShowMembers; } EState GetState() const { return fState; } TClassStreamer *GetStreamer() const; ClassStreamerFunc_t GetStreamerFunc() const; ClassConvStreamerFunc_t GetConvStreamerFunc() const; const TObjArray *GetStreamerInfos() const { return fStreamerInfo; } TVirtualStreamerInfo *GetStreamerInfo(Int_t version=0, Bool_t isTransient = kFALSE) const; TVirtualStreamerInfo *GetStreamerInfoAbstractEmulated(Int_t version=0) const; TVirtualStreamerInfo *FindStreamerInfoAbstractEmulated(UInt_t checksum) const; const std::type_info *GetTypeInfo() const { return fTypeInfo; }; /// @brief Return 'true' if we can guarantee that if this class (or any class in /// this class inheritance hierarchy) overload TObject::Hash it also starts /// the RecursiveRemove process from its own destructor. Bool_t HasConsistentHashMember() { if (!fRuntimeProperties) SetRuntimeProperties(); return fRuntimeProperties.load() & ERuntimeProperties::kConsistentHash; } Bool_t HasDictionary() const; static Bool_t HasDictionarySelection(const char* clname); Bool_t HasLocalHashMember() const; void GetMissingDictionaries(THashTable& result, bool recurse = false); void IgnoreTObjectStreamer(Bool_t ignore=kTRUE); Bool_t InheritsFrom(const char *cl) const; Bool_t InheritsFrom(const TClass *cl) const; void InterpretedShowMembers(void* obj, TMemberInspector &insp, Bool_t isTransient); Bool_t IsFolder() const { return kTRUE; } Bool_t IsLoaded() const; Bool_t IsForeign() const; Bool_t IsStartingWithTObject() const; Bool_t IsSyntheticPair() const { return fIsSyntheticPair; } Bool_t IsVersioned() const { return !( GetClassVersion()<=1 && IsForeign() ); } Bool_t IsTObject() const; static TClass *LoadClass(const char *requestedname, Bool_t silent); void ls(Option_t *opt="") const; void MakeCustomMenuList(); Bool_t MatchLegacyCheckSum(UInt_t checksum) const; void Move(void *arenaFrom, void *arenaTo) const; void *New(ENewType defConstructor = kClassNew, Bool_t quiet = kFALSE) const; void *New(void *arena, ENewType defConstructor = kClassNew) const; void *NewArray(Long_t nElements, ENewType defConstructor = kClassNew) const; void *NewArray(Long_t nElements, void *arena, ENewType defConstructor = kClassNew) const; virtual void PostLoadCheck(); Long_t Property() const; Int_t ReadBuffer(TBuffer &b, void *pointer, Int_t version, UInt_t start, UInt_t count); Int_t ReadBuffer(TBuffer &b, void *pointer); void RegisterStreamerInfo(TVirtualStreamerInfo *info); void RemoveStreamerInfo(Int_t slot); void ReplaceWith(TClass *newcl) const; void ResetCaches(); void ResetClassInfo(Long_t tagnum); void ResetClassInfo(); void ResetInstanceCount() { fInstanceCount = fOnHeap = 0; } void ResetMenuList(); Int_t Size() const; void SetCanSplit(Int_t splitmode); void SetCollectionProxy(const ROOT::Detail::TCollectionProxyInfo&); void SetContextMenuTitle(const char *title); void SetCurrentStreamerInfo(TVirtualStreamerInfo *info); void SetGlobalIsA(IsAGlobalFunc_t); void SetDeclFile(const char *name, int line) { fDeclFileName = name; fDeclFileLine = line; } void SetDelete(ROOT::DelFunc_t deleteFunc); void SetDeleteArray(ROOT::DelArrFunc_t deleteArrayFunc); void SetDirectoryAutoAdd(ROOT::DirAutoAdd_t dirAutoAddFunc); void SetDestructor(ROOT::DesFunc_t destructorFunc); void SetImplFileName(const char *implFileName) { fImplFileName = implFileName; } void SetMerge(ROOT::MergeFunc_t mergeFunc); void SetResetAfterMerge(ROOT::ResetAfterMergeFunc_t resetFunc); void SetNew(ROOT::NewFunc_t newFunc); void SetNewArray(ROOT::NewArrFunc_t newArrayFunc); TVirtualStreamerInfo *SetStreamerInfo(Int_t version, const char *info=""); void SetUnloaded(); Int_t WriteBuffer(TBuffer &b, void *pointer, const char *info=""); void AdoptReferenceProxy(TVirtualRefProxy* proxy); void AdoptStreamer(TClassStreamer *strm); void AdoptMemberStreamer(const char *name, TMemberStreamer *strm); void SetMemberStreamer(const char *name, MemberStreamerFunc_t strm); void SetStreamerFunc(ClassStreamerFunc_t strm); void SetConvStreamerFunc(ClassConvStreamerFunc_t strm); // Function to retrieve the TClass object and dictionary function static void AddClass(TClass *cl); static void AddClassToDeclIdMap(TDictionary::DeclId_t id, TClass* cl); static void RemoveClass(TClass *cl); static void RemoveClassDeclId(TDictionary::DeclId_t id); static TClass *GetClass(const char *name, Bool_t load = kTRUE, Bool_t silent = kFALSE); static TClass *GetClass(const char *name, Bool_t load, Bool_t silent, size_t hint_pair_offset, size_t hint_pair_size); static TClass *GetClass(const std::type_info &typeinfo, Bool_t load = kTRUE, Bool_t silent = kFALSE, size_t hint_pair_offset = 0, size_t hint_pair_size = 0); static TClass *GetClass(ClassInfo_t *info, Bool_t load = kTRUE, Bool_t silent = kFALSE); template static TClass *GetClass(Bool_t load = kTRUE, Bool_t silent = kFALSE); static Bool_t GetClass(DeclId_t id, std::vector &classes); static DictFuncPtr_t GetDict (const char *cname); static DictFuncPtr_t GetDict (const std::type_info &info); static Int_t AutoBrowse(TObject *obj, TBrowser *browser); static ENewType IsCallingNew(); static TClass *Load(TBuffer &b); void Store(TBuffer &b) const; // Pseudo-method apply to the 'obj'. In particular those are used to // implement TObject like methods for non-TObject classes Int_t Browse(void *obj, TBrowser *b) const; void DeleteArray(void *ary, Bool_t dtorOnly = kFALSE); void Destructor(void *obj, Bool_t dtorOnly = kFALSE); void *DynamicCast(const TClass *base, void *obj, Bool_t up = kTRUE); const void *DynamicCast(const TClass *base, const void *obj, Bool_t up = kTRUE); Bool_t IsFolder(void *obj) const; inline void Streamer(void *obj, TBuffer &b, const TClass *onfile_class = 0) const { // Inline for performance, skipping one function call. #ifdef R__NO_ATOMIC_FUNCTION_POINTER fStreamerImpl(this,obj,b,onfile_class); #else auto t = fStreamerImpl.load(); t(this,obj,b,onfile_class); #endif } ClassDef(TClass,0) //Dictionary containing class information }; namespace ROOT { namespace Internal { template TClass *GetClassHelper(Bool_t, Bool_t, std::true_type) { return T::Class(); } template struct TClassGetClassHelper { static TClass *GetClass(Bool_t load, Bool_t silent) { return TClass::GetClass(typeid(T), load, silent); } }; template struct TClassGetClassHelper > { static TClass *GetClass(Bool_t load, Bool_t silent) { std::pair *p = nullptr; size_t hint_offset = ((char*)&(p->second)) - (char*)p; return TClass::GetClass(typeid(std::pair), load, silent, hint_offset, sizeof(std::pair)); } }; template TClass *GetClassHelper(Bool_t load, Bool_t silent, std::false_type) { return TClassGetClassHelper::GetClass(load, silent); } } // namespace Internal } // namespace ROOT template TClass *TClass::GetClass(Bool_t load, Bool_t silent) { typename std::is_base_of::type tag; return ROOT::Internal::GetClassHelper(load, silent, tag); } namespace ROOT { template TClass *GetClass(T * /* dummy */) { return TClass::GetClass(); } template TClass *GetClass(const T * /* dummy */) { return TClass::GetClass(); } #ifndef R__NO_CLASS_TEMPLATE_SPECIALIZATION // This can only be used when the template overload resolution can distinguish between T* and T** template TClass* GetClass( T** /* dummy */) { return TClass::GetClass(); } template TClass* GetClass(const T** /* dummy */) { return TClass::GetClass(); } template TClass* GetClass( T* const* /* dummy */) { return TClass::GetClass(); } template TClass* GetClass(const T* const* /* dummy */) { return TClass::GetClass(); } #endif extern TClass *CreateClass(const char *cname, Version_t id, const char *dfil, const char *ifil, Int_t dl, Int_t il); } #endif // ROOT_TClass