// @(#)root/base:$Id: TBuffer.h 25450 2008-09-18 21:13:42Z pcanal $ // Author: Rene Brun, Philippe Canal, Fons Rademakers 04/05/96 /************************************************************************* * 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_TBuffer #define ROOT_TBuffer ////////////////////////////////////////////////////////////////////////// // // // TBuffer // // // // Buffer base class used for serializing objects. // // // ////////////////////////////////////////////////////////////////////////// #ifndef ROOT_TObject #include "TObject.h" #endif class TVirtualStreamerInfo; class TStreamerElement; class TClass; class TString; class TProcessID; class TClonesArray; class TRefTable; class TBuffer : public TObject { protected: Bool_t fMode; //Read or write mode Int_t fVersion; //Buffer format version Int_t fBufSize; //Size of buffer char *fBuffer; //Buffer used to store objects char *fBufCur; //Current position in buffer char *fBufMax; //End of buffer TObject *fParent; //Pointer to parent object owning this buffer // Default ctor TBuffer() : TObject(), fMode(0), fVersion(0), fBufSize(0), fBuffer(0), fBufCur(0), fBufMax(0), fParent(0) {} // TBuffer objects cannot be copied or assigned TBuffer(const TBuffer &); // not implemented void operator=(const TBuffer &); // not implemented void Expand(Int_t newsize); // expand buffer to newsize Int_t Read(const char *name) { return TObject::Read(name); } Int_t Write(const char *name, Int_t opt, Int_t bufs) { return TObject::Write(name, opt, bufs); } Int_t Write(const char *name, Int_t opt, Int_t bufs) const { return TObject::Write(name, opt, bufs); } public: enum EMode { kRead = 0, kWrite = 1 }; enum { kIsOwner = BIT(16) }; //if set TBuffer owns fBuffer enum { kCannotHandleMemberWiseStreaming = BIT(17)}; //if set TClonesArray should not use member wise streaming enum { kInitialSize = 1024, kMinimalSize = 128 }; TBuffer(EMode mode); TBuffer(EMode mode, Int_t bufsiz); TBuffer(EMode mode, Int_t bufsiz, void *buf, Bool_t adopt = kTRUE); virtual ~TBuffer(); Int_t GetBufferVersion() const { return fVersion; } Bool_t IsReading() const { return (fMode & kWrite) == 0; } Bool_t IsWriting() const { return (fMode & kWrite) != 0; } void SetReadMode(); void SetWriteMode(); void SetBuffer(void *buf, UInt_t bufsiz = 0, Bool_t adopt = kTRUE); void SetBufferOffset(Int_t offset = 0) { fBufCur = fBuffer+offset; } void SetParent(TObject *parent); TObject *GetParent() const; char *Buffer() const { return fBuffer; } Int_t BufferSize() const { return fBufSize; } void DetachBuffer() { fBuffer = 0; } Int_t Length() const { return (Int_t)(fBufCur - fBuffer); } virtual Bool_t CheckObject(const TObject *obj) = 0; virtual Bool_t CheckObject(const void *obj, const TClass *ptrClass) = 0; virtual Int_t ReadBuf(void *buf, Int_t max) = 0; virtual void WriteBuf(const void *buf, Int_t max) = 0; virtual char *ReadString(char *s, Int_t max) = 0; virtual void WriteString(const char *s) = 0; virtual Int_t GetVersionOwner() const = 0; virtual Int_t GetMapCount() const = 0; virtual void GetMappedObject(UInt_t tag, void* &ptr, TClass* &ClassPtr) const = 0; virtual void MapObject(const TObject *obj, UInt_t offset = 1) = 0; virtual void MapObject(const void *obj, const TClass *cl, UInt_t offset = 1) = 0; virtual void Reset() = 0; virtual void InitMap() = 0; virtual void ResetMap() = 0; virtual void SetReadParam(Int_t mapsize) = 0; virtual void SetWriteParam(Int_t mapsize) = 0; virtual Int_t CheckByteCount(UInt_t startpos, UInt_t bcnt, const TClass *clss) = 0; virtual Int_t CheckByteCount(UInt_t startpos, UInt_t bcnt, const char *classname) = 0; virtual void SetByteCount(UInt_t cntpos, Bool_t packInVersion = kFALSE)= 0; virtual Version_t ReadVersion(UInt_t *start = 0, UInt_t *bcnt = 0, const TClass *cl = 0) = 0; virtual UInt_t WriteVersion(const TClass *cl, Bool_t useBcnt = kFALSE) = 0; virtual UInt_t WriteVersionMemberWise(const TClass *cl, Bool_t useBcnt = kFALSE) = 0; virtual void *ReadObjectAny(const TClass* cast) = 0; virtual void SkipObjectAny() = 0; virtual void IncrementLevel(TVirtualStreamerInfo* info) = 0; virtual void SetStreamerElementNumber(Int_t) = 0; virtual void DecrementLevel(TVirtualStreamerInfo*) = 0; virtual void ClassBegin(const TClass*, Version_t = -1) = 0; virtual void ClassEnd(const TClass*) = 0; virtual void ClassMember(const char*, const char* = 0, Int_t = -1, Int_t = -1) = 0; virtual TVirtualStreamerInfo *GetInfo() = 0; virtual TClass *ReadClass(const TClass *cl = 0, UInt_t *objTag = 0) = 0; virtual void WriteClass(const TClass *cl) = 0; virtual TObject *ReadObject(const TClass *cl) = 0; virtual void WriteObject(const TObject *obj) = 0; virtual Int_t WriteObjectAny(const void *obj, const TClass *ptrClass) = 0; virtual UShort_t GetPidOffset() const = 0; virtual void SetPidOffset(UShort_t offset) = 0; virtual Int_t GetBufferDisplacement() const = 0; virtual void SetBufferDisplacement() = 0; virtual void SetBufferDisplacement(Int_t skipped) = 0; // basic types and arrays of basic types virtual void ReadFloat16 (Float_t *f, TStreamerElement *ele=0) = 0; virtual void WriteFloat16(Float_t *f, TStreamerElement *ele=0) = 0; virtual void ReadDouble32 (Double_t *d, TStreamerElement *ele=0) = 0; virtual void WriteDouble32(Double_t *d, TStreamerElement *ele=0) = 0; virtual Int_t ReadArray(Bool_t *&b) = 0; virtual Int_t ReadArray(Char_t *&c) = 0; virtual Int_t ReadArray(UChar_t *&c) = 0; virtual Int_t ReadArray(Short_t *&h) = 0; virtual Int_t ReadArray(UShort_t *&h) = 0; virtual Int_t ReadArray(Int_t *&i) = 0; virtual Int_t ReadArray(UInt_t *&i) = 0; virtual Int_t ReadArray(Long_t *&l) = 0; virtual Int_t ReadArray(ULong_t *&l) = 0; virtual Int_t ReadArray(Long64_t *&l) = 0; virtual Int_t ReadArray(ULong64_t *&l) = 0; virtual Int_t ReadArray(Float_t *&f) = 0; virtual Int_t ReadArray(Double_t *&d) = 0; virtual Int_t ReadArrayFloat16(Float_t *&f, TStreamerElement *ele=0) = 0; virtual Int_t ReadArrayDouble32(Double_t *&d, TStreamerElement *ele=0) = 0; virtual Int_t ReadStaticArray(Bool_t *b) = 0; virtual Int_t ReadStaticArray(Char_t *c) = 0; virtual Int_t ReadStaticArray(UChar_t *c) = 0; virtual Int_t ReadStaticArray(Short_t *h) = 0; virtual Int_t ReadStaticArray(UShort_t *h) = 0; virtual Int_t ReadStaticArray(Int_t *i) = 0; virtual Int_t ReadStaticArray(UInt_t *i) = 0; virtual Int_t ReadStaticArray(Long_t *l) = 0; virtual Int_t ReadStaticArray(ULong_t *l) = 0; virtual Int_t ReadStaticArray(Long64_t *l) = 0; virtual Int_t ReadStaticArray(ULong64_t *l) = 0; virtual Int_t ReadStaticArray(Float_t *f) = 0; virtual Int_t ReadStaticArray(Double_t *d) = 0; virtual Int_t ReadStaticArrayFloat16(Float_t *f, TStreamerElement *ele=0) = 0; virtual Int_t ReadStaticArrayDouble32(Double_t *d, TStreamerElement *ele=0) = 0; virtual void ReadFastArray(Bool_t *b, Int_t n) = 0; virtual void ReadFastArray(Char_t *c, Int_t n) = 0; virtual void ReadFastArrayString(Char_t *c, Int_t n) = 0; virtual void ReadFastArray(UChar_t *c, Int_t n) = 0; virtual void ReadFastArray(Short_t *h, Int_t n) = 0; virtual void ReadFastArray(UShort_t *h, Int_t n) = 0; virtual void ReadFastArray(Int_t *i, Int_t n) = 0; virtual void ReadFastArray(UInt_t *i, Int_t n) = 0; virtual void ReadFastArray(Long_t *l, Int_t n) = 0; virtual void ReadFastArray(ULong_t *l, Int_t n) = 0; virtual void ReadFastArray(Long64_t *l, Int_t n) = 0; virtual void ReadFastArray(ULong64_t *l, Int_t n) = 0; virtual void ReadFastArray(Float_t *f, Int_t n) = 0; virtual void ReadFastArray(Double_t *d, Int_t n) = 0; virtual void ReadFastArrayFloat16(Float_t *f, Int_t n, TStreamerElement *ele=0) = 0; virtual void ReadFastArrayDouble32(Double_t *d, Int_t n, TStreamerElement *ele=0) = 0; virtual void ReadFastArray(void *start , const TClass *cl, Int_t n=1, TMemberStreamer *s=0, const TClass *onFileClass=0) = 0; virtual void ReadFastArray(void **startp, const TClass *cl, Int_t n=1, Bool_t isPreAlloc=kFALSE, TMemberStreamer *s=0, const TClass *onFileClass=0) = 0; virtual void WriteArray(const Bool_t *b, Int_t n) = 0; virtual void WriteArray(const Char_t *c, Int_t n) = 0; virtual void WriteArray(const UChar_t *c, Int_t n) = 0; virtual void WriteArray(const Short_t *h, Int_t n) = 0; virtual void WriteArray(const UShort_t *h, Int_t n) = 0; virtual void WriteArray(const Int_t *i, Int_t n) = 0; virtual void WriteArray(const UInt_t *i, Int_t n) = 0; virtual void WriteArray(const Long_t *l, Int_t n) = 0; virtual void WriteArray(const ULong_t *l, Int_t n) = 0; virtual void WriteArray(const Long64_t *l, Int_t n) = 0; virtual void WriteArray(const ULong64_t *l, Int_t n) = 0; virtual void WriteArray(const Float_t *f, Int_t n) = 0; virtual void WriteArray(const Double_t *d, Int_t n) = 0; virtual void WriteArrayFloat16(const Float_t *f, Int_t n, TStreamerElement *ele=0) = 0; virtual void WriteArrayDouble32(const Double_t *d, Int_t n, TStreamerElement *ele=0) = 0; virtual void WriteFastArray(const Bool_t *b, Int_t n) = 0; virtual void WriteFastArray(const Char_t *c, Int_t n) = 0; virtual void WriteFastArrayString(const Char_t *c, Int_t n) = 0; virtual void WriteFastArray(const UChar_t *c, Int_t n) = 0; virtual void WriteFastArray(const Short_t *h, Int_t n) = 0; virtual void WriteFastArray(const UShort_t *h, Int_t n) = 0; virtual void WriteFastArray(const Int_t *i, Int_t n) = 0; virtual void WriteFastArray(const UInt_t *i, Int_t n) = 0; virtual void WriteFastArray(const Long_t *l, Int_t n) = 0; virtual void WriteFastArray(const ULong_t *l, Int_t n) = 0; virtual void WriteFastArray(const Long64_t *l, Int_t n) = 0; virtual void WriteFastArray(const ULong64_t *l, Int_t n) = 0; virtual void WriteFastArray(const Float_t *f, Int_t n) = 0; virtual void WriteFastArray(const Double_t *d, Int_t n) = 0; virtual void WriteFastArrayFloat16(const Float_t *f, Int_t n, TStreamerElement *ele=0) = 0; virtual void WriteFastArrayDouble32(const Double_t *d, Int_t n, TStreamerElement *ele=0) = 0; virtual void WriteFastArray(void *start, const TClass *cl, Int_t n=1, TMemberStreamer *s=0) = 0; virtual Int_t WriteFastArray(void **startp, const TClass *cl, Int_t n=1, Bool_t isPreAlloc=kFALSE, TMemberStreamer *s=0) = 0; virtual void StreamObject(void *obj, const type_info &typeinfo, const TClass* onFileClass = 0 ) = 0; virtual void StreamObject(void *obj, const char *className, const TClass* onFileClass = 0 ) = 0; virtual void StreamObject(void *obj, const TClass *cl, const TClass* onFileClass = 0 ) = 0; virtual void StreamObject(TObject *obj) = 0; virtual void ReadBool(Bool_t &b) = 0; virtual void ReadChar(Char_t &c) = 0; virtual void ReadUChar(UChar_t &c) = 0; virtual void ReadShort(Short_t &s) = 0; virtual void ReadUShort(UShort_t &s) = 0; virtual void ReadInt(Int_t &i) = 0; virtual void ReadUInt(UInt_t &i) = 0; virtual void ReadLong(Long_t &l) = 0; virtual void ReadULong(ULong_t &l) = 0; virtual void ReadLong64(Long64_t &l) = 0; virtual void ReadULong64(ULong64_t &l) = 0; virtual void ReadFloat(Float_t &f) = 0; virtual void ReadDouble(Double_t &d) = 0; virtual void ReadCharP(Char_t *c) = 0; virtual void ReadTString(TString &s) = 0; virtual void WriteBool(Bool_t b) = 0; virtual void WriteChar(Char_t c) = 0; virtual void WriteUChar(UChar_t c) = 0; virtual void WriteShort(Short_t s) = 0; virtual void WriteUShort(UShort_t s) = 0; virtual void WriteInt(Int_t i) = 0; virtual void WriteUInt(UInt_t i) = 0; virtual void WriteLong(Long_t l) = 0; virtual void WriteULong(ULong_t l) = 0; virtual void WriteLong64(Long64_t l) = 0; virtual void WriteULong64(ULong64_t l) = 0; virtual void WriteFloat(Float_t f) = 0; virtual void WriteDouble(Double_t d) = 0; virtual void WriteCharP(const Char_t *c) = 0; virtual void WriteTString(const TString &s) = 0; // Special basic ROOT objects and collections virtual TProcessID *GetLastProcessID(TRefTable *reftable) const = 0; virtual UInt_t GetTRefExecId() = 0; virtual TProcessID *ReadProcessID(UShort_t pidf) = 0; virtual UShort_t WriteProcessID(TProcessID *pid) = 0; // Utilities for TStreamerInfo virtual void ForceWriteInfo(TVirtualStreamerInfo *info, Bool_t force) = 0; virtual void ForceWriteInfoClones(TClonesArray *a) = 0; virtual Int_t ReadClones (TClonesArray *a, Int_t nobjects, Version_t objvers) = 0; virtual Int_t WriteClones(TClonesArray *a, Int_t nobjects) = 0; // Utilities for TClass virtual Int_t ReadClassEmulated(const TClass *cl, void *object, const TClass *onfile_class = 0) = 0; virtual Int_t ReadClassBuffer(const TClass *cl, void *pointer, const TClass *onfile_class = 0) = 0; virtual Int_t ReadClassBuffer(const TClass *cl, void *pointer, Int_t version, UInt_t start, UInt_t count, const TClass *onfile_class = 0) = 0; virtual Int_t WriteClassBuffer(const TClass *cl, void *pointer) = 0; static TClass *GetClass(const type_info &typeinfo); static TClass *GetClass(const char *className); ClassDef(TBuffer,0) //Buffer base class used for serializing objects }; //---------------------- TBuffer default external operators -------------------- inline TBuffer &operator>>(TBuffer &buf, Bool_t &b) { buf.ReadBool(b); return buf; } inline TBuffer &operator>>(TBuffer &buf, Char_t &c) { buf.ReadChar(c); return buf; } inline TBuffer &operator>>(TBuffer &buf, UChar_t &c) { buf.ReadUChar(c); return buf; } inline TBuffer &operator>>(TBuffer &buf, Short_t &s) { buf.ReadShort(s); return buf; } inline TBuffer &operator>>(TBuffer &buf, UShort_t &s) { buf.ReadUShort(s); return buf; } inline TBuffer &operator>>(TBuffer &buf, Int_t &i) { buf.ReadInt(i); return buf; } inline TBuffer &operator>>(TBuffer &buf, UInt_t &i) { buf.ReadUInt(i); return buf; } inline TBuffer &operator>>(TBuffer &buf, Long_t &l) { buf.ReadLong(l); return buf; } inline TBuffer &operator>>(TBuffer &buf, ULong_t &l) { buf.ReadULong(l); return buf; } inline TBuffer &operator>>(TBuffer &buf, Long64_t &l) { buf.ReadLong64(l); return buf; } inline TBuffer &operator>>(TBuffer &buf, ULong64_t &l){ buf.ReadULong64(l);return buf; } inline TBuffer &operator>>(TBuffer &buf, Float_t &f) { buf.ReadFloat(f); return buf; } inline TBuffer &operator>>(TBuffer &buf, Double_t &d) { buf.ReadDouble(d); return buf; } inline TBuffer &operator>>(TBuffer &buf, Char_t *c) { buf.ReadCharP(c); return buf; } inline TBuffer &operator>>(TBuffer &buf, TString &s) { buf.ReadTString(s);return buf; } inline TBuffer &operator<<(TBuffer &buf, Bool_t b) { buf.WriteBool(b); return buf; } inline TBuffer &operator<<(TBuffer &buf, Char_t c) { buf.WriteChar(c); return buf; } inline TBuffer &operator<<(TBuffer &buf, UChar_t c) { buf.WriteUChar(c); return buf; } inline TBuffer &operator<<(TBuffer &buf, Short_t s) { buf.WriteShort(s); return buf; } inline TBuffer &operator<<(TBuffer &buf, UShort_t s) { buf.WriteUShort(s); return buf; } inline TBuffer &operator<<(TBuffer &buf, Int_t i) { buf.WriteInt(i); return buf; } inline TBuffer &operator<<(TBuffer &buf, UInt_t i) { buf.WriteUInt(i); return buf; } inline TBuffer &operator<<(TBuffer &buf, Long_t l) { buf.WriteLong(l); return buf; } inline TBuffer &operator<<(TBuffer &buf, ULong_t l) { buf.WriteULong(l); return buf; } inline TBuffer &operator<<(TBuffer &buf, Long64_t l) { buf.WriteLong64(l); return buf; } inline TBuffer &operator<<(TBuffer &buf, ULong64_t l){ buf.WriteULong64(l);return buf; } inline TBuffer &operator<<(TBuffer &buf, Float_t f) { buf.WriteFloat(f); return buf; } inline TBuffer &operator<<(TBuffer &buf, Double_t d) { buf.WriteDouble(d); return buf; } inline TBuffer &operator<<(TBuffer &buf, const Char_t *c) { buf.WriteCharP(c); return buf; } inline TBuffer &operator<<(TBuffer &buf, const TString &s) { buf.WriteTString(s);return buf; } #if !defined(R__CONCRETE_INPUT_OPERATOR) #ifndef __CINT__ #if defined(R__SOLARIS) && defined(R__GNU) #include #endif template TBuffer &operator>>(TBuffer &buf, Tmpl *&obj) { // Read TObject derived classes from a TBuffer. Need to provide // custom version for non-TObject derived classes. // This operator has to be a templated and/or automatically // generated if we want to be able to check the type of the // incoming object. I.e. a operator>>(TBuffer &buf, TObject *&) // would not be sufficient to pass the information 'which class do we want' // since the pointer could be zero (so typeid(*obj) is not usable). TClass *cl = TBuffer::GetClass(typeid(Tmpl)); obj = (Tmpl *) ( (void*) buf.ReadObjectAny(cl) ); return buf; } template TBuffer &operator<<(TBuffer &buf, const Tmpl *obj) { TClass *cl = (obj) ? TBuffer::GetClass(typeid(*obj)) : 0; buf.WriteObjectAny(obj, cl); return buf; } #else template TBuffer &operator>>(TBuffer &buf, Tmpl *&obj); template TBuffer &operator<<(TBuffer &buf, Tmpl *&obj); #endif #endif #if defined(R__TEMPLATE_OVERLOAD_BUG) template <> #endif inline TBuffer &operator<<(TBuffer &buf, const TObject *obj) { buf.WriteObjectAny(obj, TObject::Class()); return buf; } #endif