// @(#)root/:$Id: 5400e36954e1dc109fcfc306242c30234beb7312 $ // Author: Sergey Linev, Rene Brun 10.05.2004 /************************************************************************* * Copyright (C) 1995-2004, Rene Brun and Fons Rademakers. * * All rights reserved. * * * * For the licensing terms see $ROOTSYS/LICENSE. * * For the list of contributors see $ROOTSYS/README/CREDITS. * *************************************************************************/ /** \class TBufferXML \ingroup IO Class for serializing/deserializing object to/from xml. It redefines most of TBuffer class function to convert simple types, array of simple types and objects to/from xml. Instead of writing a binary data it creates a set of xml structures as nodes and attributes TBufferXML class uses streaming mechanism, provided by ROOT system, therefore most of ROOT and user classes can be stored to xml. There are limitations for complex objects like TTree, which can not be yet converted to xml. */ #include "TBufferXML.h" #include "Compression.h" #include "TXMLFile.h" #include "TObjArray.h" #include "TROOT.h" #include "TClass.h" #include "TClassTable.h" #include "TDataType.h" #include "TExMap.h" #include "TMethodCall.h" #include "TStreamerInfo.h" #include "TStreamerElement.h" #include "TProcessID.h" #include "TFile.h" #include "TMemberStreamer.h" #include "TStreamer.h" #include "TStreamerInfoActions.h" #include "RZip.h" #ifdef R__VISUAL_CPLUSPLUS #define FLong64 "%I64d" #define FULong64 "%I64u" #else #define FLong64 "%lld" #define FULong64 "%llu" #endif ClassImp(TBufferXML); std::string TBufferXML::fgFloatFmt = "%e"; //////////////////////////////////////////////////////////////////////////////// /// Default constructor TBufferXML::TBufferXML() : TBufferFile(), TXMLSetup(), fXML(0), fStack(), fVersionBuf(-111), fObjMap(0), fIdArray(0), fErrorFlag(0), fCanUseCompact(kFALSE), fExpectedChain(kFALSE), fExpectedBaseClass(0), fCompressLevel(0), fIOVersion(3) { } //////////////////////////////////////////////////////////////////////////////// /// Creates buffer object to serailize/deserialize data to/from xml. /// Mode should be either TBuffer::kRead or TBuffer::kWrite. TBufferXML::TBufferXML(TBuffer::EMode mode) : TBufferFile(mode), TXMLSetup(), fXML(0), fStack(), fVersionBuf(-111), fObjMap(0), fIdArray(0), fErrorFlag(0), fCanUseCompact(kFALSE), fExpectedChain(kFALSE), fExpectedBaseClass(0), fCompressLevel(0), fIOVersion(3) { fBufSize = 1000000000; SetParent(0); SetBit(kCannotHandleMemberWiseStreaming); SetBit(kTextBasedStreaming); } //////////////////////////////////////////////////////////////////////////////// /// Creates buffer object to serailize/deserialize data to/from xml. /// This constructor should be used, if data from buffer supposed to be stored in file. /// Mode should be either TBuffer::kRead or TBuffer::kWrite. TBufferXML::TBufferXML(TBuffer::EMode mode, TXMLFile* file) : TBufferFile(mode), TXMLSetup(*file), fXML(0), fStack(), fVersionBuf(-111), fObjMap(0), fIdArray(0), fErrorFlag(0), fCanUseCompact(kFALSE), fExpectedChain(kFALSE), fExpectedBaseClass(0), fCompressLevel(0), fIOVersion(3) { // this is for the case when StreamerInfo reads elements from // buffer as ReadFastArray. When it checks if size of buffer is // too small and skip reading. Actually, more improved method should // be used here. fBufSize = 1000000000; SetParent(file); SetBit(kCannotHandleMemberWiseStreaming); SetBit(kTextBasedStreaming); if (XmlFile()) { SetXML(XmlFile()->XML()); SetCompressionSettings(XmlFile()->GetCompressionSettings()); SetIOVersion(XmlFile()->GetIOVersion()); } } //////////////////////////////////////////////////////////////////////////////// /// Destroy xml buffer. TBufferXML::~TBufferXML() { if (fObjMap) delete fObjMap; if (fIdArray) delete fIdArray; fStack.Delete(); } //////////////////////////////////////////////////////////////////////////////// /// Returns pointer to TXMLFile object. /// Access to file is necessary to produce unique identifier for object references. TXMLFile* TBufferXML::XmlFile() { return dynamic_cast(GetParent()); } //////////////////////////////////////////////////////////////////////////////// /// Converts object, inherited from TObject class, to XML string /// fmt contains configuration of XML layout. See TXMLSetup class for detatils TString TBufferXML::ConvertToXML(const TObject* obj, Bool_t GenericLayout, Bool_t UseNamespaces) { return ConvertToXML(obj, obj ? obj->IsA() : 0, GenericLayout, UseNamespaces); } //////////////////////////////////////////////////////////////////////////////// /// Converts any type of object to XML string. /// fmt contains configuration of XML layout. See TXMLSetup class for detatils TString TBufferXML::ConvertToXML(const void* obj, const TClass* cl, Bool_t GenericLayout, Bool_t UseNamespaces) { TXMLEngine xml; TBufferXML buf(TBuffer::kWrite); buf.SetXML(&xml); buf.SetXmlLayout(GenericLayout ? TXMLSetup::kGeneralized : TXMLSetup::kSpecialized); buf.SetUseNamespaces(UseNamespaces); XMLNodePointer_t xmlnode = buf.XmlWriteAny(obj, cl); TString res; xml.SaveSingleNode(xmlnode, &res); xml.FreeNode(xmlnode); return res; } //////////////////////////////////////////////////////////////////////////////// /// Read object from XML, produced by ConvertToXML() method. /// If object does not inherit from TObject class, return 0. /// GenericLayout and UseNamespaces should be the same as in ConvertToXML() TObject* TBufferXML::ConvertFromXML(const char* str, Bool_t GenericLayout, Bool_t UseNamespaces) { TClass* cl = 0; void* obj = ConvertFromXMLAny(str, &cl, GenericLayout, UseNamespaces); if ((cl==0) || (obj==0)) return 0; Int_t delta = cl->GetBaseClassOffset(TObject::Class()); if (delta<0) { cl->Destructor(obj); return 0; } return (TObject*) ( ( (char*)obj ) + delta ); } //////////////////////////////////////////////////////////////////////////////// /// Read object of any class from XML, produced by ConvertToXML() method. /// If cl!=0, return actual class of object. /// GenericLayout and UseNamespaces should be the same as in ConvertToXML() void* TBufferXML::ConvertFromXMLAny(const char* str, TClass** cl, Bool_t GenericLayout, Bool_t UseNamespaces) { TXMLEngine xml; TBufferXML buf(TBuffer::kRead); buf.SetXML(&xml); buf.SetXmlLayout(GenericLayout ? TXMLSetup::kGeneralized : TXMLSetup::kSpecialized); buf.SetUseNamespaces(UseNamespaces); XMLNodePointer_t xmlnode = xml.ReadSingleNode(str); void* obj = buf.XmlReadAny(xmlnode, 0, cl); xml.FreeNode(xmlnode); return obj; } //////////////////////////////////////////////////////////////////////////////// /// Convert object of any class to xml structures /// Return pointer on top xml element XMLNodePointer_t TBufferXML::XmlWriteAny(const void* obj, const TClass* cl) { fErrorFlag = 0; if (fXML==0) return 0; XMLNodePointer_t res = XmlWriteObject(obj, cl); return res; } //////////////////////////////////////////////////////////////////////////////// /// Recreate object from xml structure. /// Return pointer to read object. /// if (cl!=0) returns pointer to class of object void* TBufferXML::XmlReadAny(XMLNodePointer_t node, void* obj, TClass** cl) { if (node==0) return 0; if (cl) *cl = 0; fErrorFlag = 0; if (fXML==0) return 0; PushStack(node, kTRUE); void* res = XmlReadObject(obj, cl); PopStack(); return res; } //////////////////////////////////////////////////////////////////////////////// /// Convert object into xml structures. /// !!! Should be used only by TBufferXML itself. /// Use ConvertToXML() methods to convert your object to xml /// Redefined here to avoid gcc 3.x warning void TBufferXML::WriteObject(const TObject *obj) { TBufferFile::WriteObject(obj); } // TXMLStackObj is used to keep stack of object hierarchy, // stored in TBuffer. For instnace, data for parent class(es) // stored in subnodes, but initial object node will be kept. class TXMLStackObj : public TObject { public: TXMLStackObj(XMLNodePointer_t node) : TObject(), fNode(node), fInfo(0), fElem(0), fElemNumber(0), fCompressedClassNode(kFALSE), fClassNs(0), fIsStreamerInfo(kFALSE), fIsElemOwner(kFALSE) {} virtual ~TXMLStackObj() { if (fIsElemOwner) delete fElem; } Bool_t IsStreamerInfo() const { return fIsStreamerInfo; } XMLNodePointer_t fNode; TStreamerInfo* fInfo; TStreamerElement* fElem; Int_t fElemNumber; Bool_t fCompressedClassNode; XMLNsPointer_t fClassNs; Bool_t fIsStreamerInfo; Bool_t fIsElemOwner; }; //////////////////////////////////////////////////////////////////////////////// /// Add new level to xml stack. TXMLStackObj* TBufferXML::PushStack(XMLNodePointer_t current, Bool_t simple) { if (IsReading() && !simple) { current = fXML->GetChild(current); fXML->SkipEmpty(current); } TXMLStackObj* stack = new TXMLStackObj(current); fStack.Add(stack); return stack; } //////////////////////////////////////////////////////////////////////////////// /// Remove one level from xml stack. TXMLStackObj* TBufferXML::PopStack() { TObject* last = fStack.Last(); if (last!=0) { fStack.Remove(last); delete last; fStack.Compress(); } return dynamic_cast (fStack.Last()); } //////////////////////////////////////////////////////////////////////////////// /// Return xml stack object of specified depth. TXMLStackObj* TBufferXML::Stack(Int_t depth) { TXMLStackObj* stack = 0; if (depth<=fStack.GetLast()) stack = dynamic_cast (fStack.At(fStack.GetLast()-depth)); return stack; } //////////////////////////////////////////////////////////////////////////////// /// Return pointer on current xml node. XMLNodePointer_t TBufferXML::StackNode() { TXMLStackObj* stack = dynamic_cast (fStack.Last()); return (stack==0) ? 0 : stack->fNode; } //////////////////////////////////////////////////////////////////////////////// /// Shift stack node to next. void TBufferXML::ShiftStack(const char* errinfo) { TXMLStackObj* stack = dynamic_cast (fStack.Last()); if (stack) { fXML->ShiftToNext(stack->fNode); if (gDebug>4) Info("ShiftStack","%s to node %s", errinfo, fXML->GetNodeName(stack->fNode)); } } //////////////////////////////////////////////////////////////////////////////// /// See comments for function SetCompressionSettings. void TBufferXML::SetCompressionAlgorithm(Int_t algorithm) { if (algorithm < 0 || algorithm >= ROOT::kUndefinedCompressionAlgorithm) algorithm = 0; if (fCompressLevel < 0) { // if the level is not defined yet use 1 as a default fCompressLevel = 100 * algorithm + 1; } else { int level = fCompressLevel % 100; fCompressLevel = 100 * algorithm + level; } } //////////////////////////////////////////////////////////////////////////////// /// See comments for function SetCompressionSettings. void TBufferXML::SetCompressionLevel(Int_t level) { if (level < 0) level = 0; if (level > 99) level = 99; if (fCompressLevel < 0) { // if the algorithm is not defined yet use 0 as a default fCompressLevel = level; } else { int algorithm = fCompressLevel / 100; if (algorithm >= ROOT::kUndefinedCompressionAlgorithm) algorithm = 0; fCompressLevel = 100 * algorithm + level; } } //////////////////////////////////////////////////////////////////////////////// /// Used to specify the compression level and algorithm. /// /// See TFile constructor for the details. void TBufferXML::SetCompressionSettings(Int_t settings) { fCompressLevel = settings; } //////////////////////////////////////////////////////////////////////////////// /// Write binary data block from buffer to xml. /// This data can be produced only by direct call of TBuffer::WriteBuf() functions. void TBufferXML::XmlWriteBlock(XMLNodePointer_t node) { if ((node==0) || (Length()==0)) return; const char* src = Buffer(); int srcSize = Length(); char* fZipBuffer = 0; Int_t compressionLevel = GetCompressionLevel(); Int_t compressionAlgorithm = GetCompressionAlgorithm(); if ((Length() > 512) && (compressionLevel > 0)) { int zipBufferSize = Length(); fZipBuffer = new char[zipBufferSize + 9]; int dataSize = Length(); int compressedSize = 0; R__zipMultipleAlgorithm(compressionLevel, &dataSize, Buffer(), &zipBufferSize, fZipBuffer, &compressedSize, compressionAlgorithm); if (compressedSize > 0) { src = fZipBuffer; srcSize = compressedSize; } else { delete[] fZipBuffer; fZipBuffer = 0; } } TString res; char sbuf[500]; int block = 0; char* tgt = sbuf; int srcCnt = 0; while (srcCnt++0) res += sbuf; XMLNodePointer_t blocknode = fXML->NewChild(node, 0, xmlio::XmlBlock, res); fXML->NewIntAttr(blocknode, xmlio::Size, Length()); if (fZipBuffer) { fXML->NewIntAttr(blocknode, xmlio::Zip, srcSize); delete[] fZipBuffer; } } //////////////////////////////////////////////////////////////////////////////// /// Read binary block of data from xml. void TBufferXML::XmlReadBlock(XMLNodePointer_t blocknode) { if (blocknode==0) return; Int_t blockSize = fXML->GetIntAttr(blocknode, xmlio::Size); Bool_t blockCompressed = fXML->HasAttr(blocknode, xmlio::Zip); char* fUnzipBuffer = 0; if (gDebug>2) Info("XmlReadBlock","Block size = %d, Length = %d, Compressed = %d", blockSize, Length(), blockCompressed); if (blockSize>BufferSize()) Expand(blockSize); char* tgt = Buffer(); Int_t readSize = blockSize; TString content = fXML->GetNodeContent(blocknode); if (blockCompressed) { Int_t zipSize = fXML->GetIntAttr(blocknode, xmlio::Zip); fUnzipBuffer = new char[zipSize]; tgt = fUnzipBuffer; readSize = zipSize; } char* ptr = (char*) content.Data(); if (gDebug>3) Info("XmlReadBlock","Content %s", ptr); for (int i=0;i57) && (*ptr<97)) || (*ptr>102)) ptr++; int b_hi = (*ptr>57) ? *ptr-87 : *ptr-48; ptr++; int b_lo = (*ptr>57) ? *ptr-87 : *ptr-48; ptr++; *tgt=b_hi*16+b_lo; tgt++; if (gDebug>4) Info("XmlReadBlock"," Buf[%d] = %d", i, b_hi*16+b_lo); } if (fUnzipBuffer) { int srcsize; int tgtsize; int status = R__unzip_header(&srcsize, (UChar_t*) fUnzipBuffer, &tgtsize); int unzipRes = 0; if (status == 0) { R__unzip(&readSize, (unsigned char*) fUnzipBuffer, &blockSize, (unsigned char*) Buffer(), &unzipRes); } if (status != 0 || unzipRes!=blockSize) Error("XmlReadBlock", "Decompression error %d", unzipRes); else if (gDebug>2) Info("XmlReadBlock","Unzip ok"); delete[] fUnzipBuffer; } } //////////////////////////////////////////////////////////////////////////////// /// Add "ptr" attribute to node, if ptr is null or /// if ptr is pointer on object, which is already saved in buffer /// Automatically add "ref" attribute to node, where referenced object is stored Bool_t TBufferXML::ProcessPointer(const void* ptr, XMLNodePointer_t node) { if (node==0) return kFALSE; TString refvalue; if (ptr==0) refvalue = xmlio::Null; //null else { if (fObjMap==0) return kFALSE; ULong_t hash = TString::Hash(&ptr, sizeof(void*)); XMLNodePointer_t refnode = (XMLNodePointer_t) (Long_t)fObjMap->GetValue(hash, (Long_t) ptr); if (refnode==0) return kFALSE; if (fXML->HasAttr(refnode, xmlio::Ref)) refvalue = fXML->GetAttr(refnode, xmlio::Ref); else { refvalue = xmlio::IdBase; if (XmlFile()) refvalue += XmlFile()->GetNextRefCounter(); else refvalue += GetNextRefCounter(); fXML->NewAttr(refnode, 0, xmlio::Ref, refvalue.Data()); } } if (refvalue.Length()>0) { fXML->NewAttr(node, 0, xmlio::Ptr, refvalue.Data()); return kTRUE; } return kFALSE; } //////////////////////////////////////////////////////////////////////////////// /// Register pair of object pointer and node, where this object is saved, /// in object map void TBufferXML::RegisterPointer(const void* ptr, XMLNodePointer_t node) { if ((node==0) || (ptr==0)) return; ULong_t hash = TString::Hash(&ptr, sizeof(void*)); if (fObjMap==0) fObjMap = new TExMap(); if (fObjMap->GetValue(hash, (Long_t) ptr)==0) fObjMap->Add(hash, (Long_t) ptr, (Long_t) node); } //////////////////////////////////////////////////////////////////////////////// /// Searches for "ptr" attribute and returns pointer to object and class, /// if "ptr" attribute reference to read object Bool_t TBufferXML::ExtractPointer(XMLNodePointer_t node, void* &ptr, TClass* &cl) { cl = 0; if (!fXML->HasAttr(node,xmlio::Ptr)) return kFALSE; const char* ptrid = fXML->GetAttr(node, xmlio::Ptr); if (ptrid==0) return kFALSE; // null if (strcmp(ptrid, xmlio::Null)==0) { ptr = 0; return kTRUE; } if ((fIdArray==0) || (fObjMap==0)) return kFALSE; TNamed* obj = (TNamed*) fIdArray->FindObject(ptrid); if (obj) { ptr = (void*) (Long_t)fObjMap->GetValue((Long_t) fIdArray->IndexOf(obj)); cl = TClass::GetClass(obj->GetTitle()); return kTRUE; } return kFALSE; } //////////////////////////////////////////////////////////////////////////////// /// Analyse, if node has "ref" attribute and register it to object map void TBufferXML::ExtractReference(XMLNodePointer_t node, const void* ptr, const TClass* cl) { if ((node==0) || (ptr==0)) return; const char* refid = fXML->GetAttr(node, xmlio::Ref); if (refid==0) return; if (fIdArray==0) { fIdArray = new TObjArray; fIdArray->SetOwner(kTRUE); } TNamed* nid = new TNamed(refid, cl->GetName()); fIdArray->Add(nid); if (fObjMap==0) fObjMap = new TExMap(); fObjMap->Add((Long_t) fIdArray->IndexOf(nid), (Long_t) ptr); if (gDebug>2) Info("ExtractReference","Find reference %s for object %p", refid, ptr); } //////////////////////////////////////////////////////////////////////////////// /// Check, if node has specified name Bool_t TBufferXML::VerifyNode(XMLNodePointer_t node, const char* name, const char* errinfo) { if ((name==0) || (node==0)) return kFALSE; if (strcmp(fXML->GetNodeName(node), name)!=0) { if (errinfo) { Error("VerifyNode","Reading XML file (%s). Get: %s, expects: %s", errinfo, fXML->GetNodeName(node), name); fErrorFlag = 1; } return kFALSE; } return kTRUE; } //////////////////////////////////////////////////////////////////////////////// /// Check, if stack node has specified name Bool_t TBufferXML::VerifyStackNode(const char* name, const char* errinfo) { return VerifyNode(StackNode(), name, errinfo); } //////////////////////////////////////////////////////////////////////////////// /// Checks, that attribute of specified name exists and has specified value Bool_t TBufferXML::VerifyAttr(XMLNodePointer_t node, const char* name, const char* value, const char* errinfo) { if ((node==0) || (name==0) || (value==0)) return kFALSE; const char* cont = fXML->GetAttr(node, name); if (((cont==0) || (strcmp(cont, value)!=0))) { if (errinfo) { Error("VerifyAttr","%s : attr %s = %s, expected: %s", errinfo, name, cont, value); fErrorFlag = 1; } return kFALSE; } return kTRUE; } //////////////////////////////////////////////////////////////////////////////// /// Checks stack attribute Bool_t TBufferXML::VerifyStackAttr(const char* name, const char* value, const char* errinfo) { return VerifyAttr(StackNode(), name, value, errinfo); } //////////////////////////////////////////////////////////////////////////////// /// Create item node of specified name XMLNodePointer_t TBufferXML::CreateItemNode(const char* name) { XMLNodePointer_t node = 0; if (GetXmlLayout()==kGeneralized) { node = fXML->NewChild(StackNode(), 0, xmlio::Item, 0); fXML->NewAttr(node, 0, xmlio::Name, name); } else node = fXML->NewChild(StackNode(), 0, name, 0); return node; } //////////////////////////////////////////////////////////////////////////////// /// Checks, if stack node is item and has specified name Bool_t TBufferXML::VerifyItemNode(const char* name, const char* errinfo) { Bool_t res = kTRUE; if (GetXmlLayout()==kGeneralized) res = VerifyStackNode(xmlio::Item, errinfo) && VerifyStackAttr(xmlio::Name, name, errinfo); else res = VerifyStackNode(name, errinfo); return res; } //////////////////////////////////////////////////////////////////////////////// /// Create xml node correspondent to TStreamerElement object void TBufferXML::CreateElemNode(const TStreamerElement* elem) { XMLNodePointer_t elemnode = 0; const char* elemxmlname = XmlGetElementName(elem); if (GetXmlLayout()==kGeneralized) { elemnode = fXML->NewChild(StackNode(), 0, xmlio::Member, 0); fXML->NewAttr(elemnode, 0, xmlio::Name, elemxmlname); } else { // take namesapce for element only if it is not a base class or class name XMLNsPointer_t ns = Stack()->fClassNs; if ((elem->GetType()==TStreamerInfo::kBase) || ((elem->GetType()==TStreamerInfo::kTNamed) && !strcmp(elem->GetName(), TNamed::Class()->GetName())) || ((elem->GetType()==TStreamerInfo::kTObject) && !strcmp(elem->GetName(), TObject::Class()->GetName())) || ((elem->GetType()==TStreamerInfo::kTString) && !strcmp(elem->GetName(), TString::Class()->GetName()))) ns = 0; elemnode = fXML->NewChild(StackNode(), ns, elemxmlname, 0); } TXMLStackObj* curr = PushStack(elemnode); curr->fElem = (TStreamerElement*)elem; } //////////////////////////////////////////////////////////////////////////////// /// Checks, if stack node correspond to TStreamerElement object Bool_t TBufferXML::VerifyElemNode(const TStreamerElement* elem) { const char* elemxmlname = XmlGetElementName(elem); if (GetXmlLayout()==kGeneralized) { if (!VerifyStackNode(xmlio::Member)) return kFALSE; if (!VerifyStackAttr(xmlio::Name, elemxmlname)) return kFALSE; } else { if (!VerifyStackNode(elemxmlname)) return kFALSE; } PerformPreProcessing(elem, StackNode()); TXMLStackObj* curr = PushStack(StackNode()); // set pointer to first data inside element curr->fElem = (TStreamerElement*)elem; return kTRUE; } //////////////////////////////////////////////////////////////////////////////// /// Write object to buffer /// If object was written before, only pointer will be stored /// Return pointer to top xml node, representing object XMLNodePointer_t TBufferXML::XmlWriteObject(const void* obj, const TClass* cl) { XMLNodePointer_t objnode = fXML->NewChild(StackNode(), 0, xmlio::Object, 0); if (!cl) obj = 0; if (ProcessPointer(obj, objnode)) return objnode; TString clname = XmlConvertClassName(cl->GetName()); fXML->NewAttr(objnode, 0, xmlio::ObjClass, clname); RegisterPointer(obj, objnode); PushStack(objnode); ((TClass*)cl)->Streamer((void*)obj, *this); PopStack(); if (gDebug>1) Info("XmlWriteObject","Done write for class: %s", cl ? cl->GetName() : "null"); return objnode; } //////////////////////////////////////////////////////////////////////////////// /// Read object from the buffer void* TBufferXML::XmlReadObject(void* obj, TClass** cl) { if (cl) *cl = 0; XMLNodePointer_t objnode = StackNode(); if (fErrorFlag>0) return obj; if (objnode==0) return obj; if (!VerifyNode(objnode, xmlio::Object, "XmlReadObjectNew")) return obj; TClass* objClass = 0; if (ExtractPointer(objnode, obj, objClass)) { ShiftStack("readobjptr"); if (cl) *cl = objClass; return obj; } TString clname = fXML->GetAttr(objnode, xmlio::ObjClass); objClass = XmlDefineClass(clname); if (objClass == TDirectory::Class()) objClass = TDirectoryFile::Class(); if (objClass==0) { Error("XmlReadObject", "Cannot find class %s", clname.Data()); ShiftStack("readobjerr"); return obj; } if (gDebug>1) Info("XmlReadObject", "Reading object of class %s", clname.Data()); if (obj==0) obj = objClass->New(); ExtractReference(objnode, obj, objClass); PushStack(objnode); objClass->Streamer((void*)obj, *this); PopStack(); ShiftStack("readobj"); if (gDebug>1) Info("XmlReadObject", "Reading object of class %s done", clname.Data()); if (cl) *cl = objClass; return obj; } //////////////////////////////////////////////////////////////////////////////// /// Function is called from TStreamerInfo WriteBuffer and Readbuffer functions /// and indent new level in xml structure. /// This call indicates, that TStreamerInfo functions starts streaming /// object data of correspondent class void TBufferXML::IncrementLevel(TVirtualStreamerInfo* info) { WorkWithClass((TStreamerInfo*)info); } //////////////////////////////////////////////////////////////////////////////// /// Prepares buffer to stream data of specified class. void TBufferXML::WorkWithClass(TStreamerInfo* sinfo, const TClass* cl) { fCanUseCompact = kFALSE; fExpectedChain = kFALSE; if (sinfo!=0) cl = sinfo->GetClass(); if (cl==0) return; TString clname = XmlConvertClassName(cl->GetName()); if (gDebug>2) Info("IncrementLevel","Class: %s", clname.Data()); Bool_t compressClassNode = fExpectedBaseClass==cl; fExpectedBaseClass = 0; TXMLStackObj* stack = Stack(); if (IsWriting()) { XMLNodePointer_t classnode = 0; if (compressClassNode) { classnode = StackNode(); } else { if (GetXmlLayout()==kGeneralized) { classnode = fXML->NewChild(StackNode(), 0, xmlio::Class, 0); fXML->NewAttr(classnode, 0, "name", clname); } else classnode = fXML->NewChild(StackNode(), 0, clname, 0); stack = PushStack(classnode); } if (fVersionBuf>=-1) { if (fVersionBuf == -1) fVersionBuf = 1; fXML->NewIntAttr(classnode, xmlio::ClassVersion, fVersionBuf); fVersionBuf = -111; } if (IsUseNamespaces() && (GetXmlLayout()!=kGeneralized)) stack->fClassNs = fXML->NewNS(classnode, XmlClassNameSpaceRef(cl), clname); } else { if (!compressClassNode) { if (GetXmlLayout()==kGeneralized) { if (!VerifyStackNode(xmlio::Class, "StartInfo")) return; if (!VerifyStackAttr("name", clname, "StartInfo")) return; } else if (!VerifyStackNode(clname, "StartInfo")) return; stack = PushStack(StackNode()); } } stack->fCompressedClassNode = compressClassNode; stack->fInfo = sinfo; stack->fIsStreamerInfo = kTRUE; } //////////////////////////////////////////////////////////////////////////////// /// Function is called from TStreamerInfo WriteBuffer and Readbuffer functions /// and decrease level in xml structure. void TBufferXML::DecrementLevel(TVirtualStreamerInfo* info) { CheckVersionBuf(); fCanUseCompact = kFALSE; fExpectedChain = kFALSE; if (gDebug>2) Info("DecrementLevel","Class: %s", (info ? info->GetClass()->GetName() : "custom")); TXMLStackObj* stack = Stack(); if (!stack->IsStreamerInfo()) { PerformPostProcessing(); stack = PopStack(); // remove stack of last element } if (stack->fCompressedClassNode) { stack->fInfo = 0; stack->fIsStreamerInfo = kFALSE; stack->fCompressedClassNode = kFALSE; } else { PopStack(); // back from data of stack info if (IsReading()) ShiftStack("declevel"); // shift to next element after streamer info } } //////////////////////////////////////////////////////////////////////////////// /// Function is called from TStreamerInfo WriteBuffer and Readbuffer functions /// and add/verify next element of xml structure /// This calls allows separate data, correspondent to one class member, from another void TBufferXML::SetStreamerElementNumber(TStreamerElement *elem, Int_t comptype) { WorkWithElement(elem, comptype); } //////////////////////////////////////////////////////////////////////////////// /// This function is a part of SetStreamerElementNumber method. /// It is introduced for reading of data for specified data memeber of class. /// Used also in ReadFastArray methods to resolve problem of compressed data, /// when several data memebers of the same basic type streamed with single ...FastArray call void TBufferXML::WorkWithElement(TStreamerElement* elem, Int_t comp_type) { CheckVersionBuf(); fExpectedChain = kFALSE; fCanUseCompact = kFALSE; fExpectedBaseClass = 0; TXMLStackObj* stack = Stack(); if (stack==0) { Error("SetStreamerElementNumber", "stack is empty"); return; } if (!stack->IsStreamerInfo()) { // this is not a first element PerformPostProcessing(); PopStack(); // go level back if (IsReading()) ShiftStack("startelem"); // shift to next element, only for reading stack = dynamic_cast (fStack.Last()); } if (stack==0) { Error("SetStreamerElementNumber", "Lost of stack"); return; } if (!elem) { Error("SetStreamerElementNumber", "Problem in Inc/Dec level"); return; } TStreamerInfo* info = stack->fInfo; if (!stack->IsStreamerInfo()) { Error("SetStreamerElementNumber", "Problem in Inc/Dec level"); return; } Int_t number = info ? info->GetElements()->IndexOf(elem) : -1; if (gDebug>4) Info("SetStreamerElementNumber", " Next element %s", elem->GetName()); Bool_t isBasicType = (elem->GetType()>0) && (elem->GetType()<20); fExpectedChain = isBasicType && (comp_type - elem->GetType() == TStreamerInfo::kOffsetL); if (fExpectedChain && (gDebug>3)) { Info("SetStreamerElementNumber", " Expects chain for elem %s number %d", elem->GetName(), number); } fCanUseCompact = isBasicType && ((elem->GetType()==comp_type) || (elem->GetType()==comp_type-TStreamerInfo::kConv) || (elem->GetType()==comp_type-TStreamerInfo::kSkip)); if ((elem->GetType()==TStreamerInfo::kBase) || ((elem->GetType()==TStreamerInfo::kTNamed) && !strcmp(elem->GetName(), TNamed::Class()->GetName()))) fExpectedBaseClass = elem->GetClassPointer(); if (fExpectedBaseClass && (gDebug>3)) Info("SetStreamerElementNumber", " Expects base class %s with standard streamer", fExpectedBaseClass->GetName()); if (IsWriting()) { CreateElemNode(elem); } else { if (!VerifyElemNode(elem)) return; } stack = Stack(); stack->fElemNumber = number; stack->fIsElemOwner = (number<0); } //////////////////////////////////////////////////////////////////////////////// /// Should be called at the beginning of custom class streamer. /// /// Informs buffer data about class which will be streamed now. /// ClassBegin(), ClassEnd() and ClassMemeber() should be used in /// custom class streamers to specify which kind of data are /// now streamed. Such information is used to correctly /// convert class data to XML. Without that functions calls /// classes with custom streamers cannot be used with TBufferXML void TBufferXML::ClassBegin(const TClass* cl, Version_t) { WorkWithClass(0, cl); } //////////////////////////////////////////////////////////////////////////////// /// Should be called at the end of custom streamer /// See TBufferXML::ClassBegin for more details void TBufferXML::ClassEnd(const TClass*) { DecrementLevel(0); } //////////////////////////////////////////////////////////////////////////////// /// Method indicates name and typename of class member, /// which should be now streamed in custom streamer /// /// Following combinations are supported: /// -# name = "ClassName", typeName = 0 or typename==ClassName. /// This is a case, when data of parent class "ClassName" should be streamed. /// For instance, if class directly inherited from TObject, custom streamer /// should include following code: /// ~~~{.cpp} /// b.ClassMember("TObject"); /// TObject::Streamer(b); /// ~~~ /// -# Basic data type /// ~~~{.cpp} /// b.ClassMember("fInt","Int_t"); /// b >> fInt; /// ~~~ /// -# Array of basic data types /// ~~~{.cpp} /// b.ClassMember("fArr","Int_t", 5); /// b.ReadFastArray(fArr, 5); /// ~~~ /// -# Object as data member /// ~~~{.cpp} /// b.ClassMemeber("fName","TString"); /// fName.Streamer(b); /// ~~~ /// -# Pointer on object as data member /// ~~~{.cpp} /// b.ClassMemeber("fObj","TObject*"); /// b.StreamObject(fObj); /// ~~~ /// /// Arrsize1 and arrsize2 arguments (when specified) indicate first and /// second dimension of array. Can be used for array of basic types. /// See ClassBegin() method for more details. void TBufferXML::ClassMember(const char* name, const char* typeName, Int_t arrsize1, Int_t arrsize2) { if (typeName==0) typeName = name; if ((name==0) || (strlen(name)==0)) { Error("ClassMember","Invalid member name"); fErrorFlag = 1; return; } TString tname = typeName; Int_t typ_id(-1), comp_type(-1); if (strcmp(typeName,"raw:data")==0) typ_id = TStreamerInfo::kMissing; if (typ_id<0) { TDataType *dt = gROOT->GetType(typeName); if (dt!=0) if ((dt->GetType()>0) && (dt->GetType()<20)) typ_id = dt->GetType(); } if (typ_id<0) if (strcmp(name, typeName)==0) { TClass* cl = TClass::GetClass(tname.Data()); if (cl!=0) typ_id = TStreamerInfo::kBase; } if (typ_id<0) { Bool_t isptr = kFALSE; if (tname[tname.Length()-1]=='*') { tname.Resize(tname.Length()-1); isptr = kTRUE; } TClass* cl = TClass::GetClass(tname.Data()); if (cl==0) { Error("ClassMember","Invalid class specifier %s", typeName); fErrorFlag = 1; return; } if (cl->IsTObject()) typ_id = isptr ? TStreamerInfo::kObjectp : TStreamerInfo::kObject; else typ_id = isptr ? TStreamerInfo::kAnyp : TStreamerInfo::kAny; if ((cl==TString::Class()) && !isptr) typ_id = TStreamerInfo::kTString; } TStreamerElement* elem = 0; if (typ_id == TStreamerInfo::kMissing) { elem = new TStreamerElement(name,"title",0, typ_id, "raw:data"); } else if (typ_id==TStreamerInfo::kBase) { TClass* cl = TClass::GetClass(tname.Data()); if (cl!=0) { TStreamerBase* b = new TStreamerBase(tname.Data(), "title", 0); b->SetBaseVersion(cl->GetClassVersion()); elem = b; } } else if ((typ_id>0) && (typ_id<20)) { elem = new TStreamerBasicType(name, "title", 0, typ_id, typeName); comp_type = typ_id; } else if ((typ_id==TStreamerInfo::kObject) || (typ_id==TStreamerInfo::kTObject) || (typ_id==TStreamerInfo::kTNamed)) { elem = new TStreamerObject(name, "title", 0, tname.Data()); } else if (typ_id==TStreamerInfo::kObjectp) { elem = new TStreamerObjectPointer(name, "title", 0, tname.Data()); } else if (typ_id==TStreamerInfo::kAny) { elem = new TStreamerObjectAny(name, "title", 0, tname.Data()); } else if (typ_id==TStreamerInfo::kAnyp) { elem = new TStreamerObjectAnyPointer(name, "title", 0, tname.Data()); } else if (typ_id==TStreamerInfo::kTString) { elem = new TStreamerString(name, "title", 0); } if (elem==0) { Error("ClassMember","Invalid combination name = %s type = %s", name, typeName); fErrorFlag = 1; return; } if (arrsize1>0) { elem->SetArrayDim(arrsize2>0 ? 2 : 1); elem->SetMaxIndex(0, arrsize1); if (arrsize2>0) elem->SetMaxIndex(1, arrsize2); } // we indicate that there is no streamerinfo WorkWithElement(elem, comp_type); } //////////////////////////////////////////////////////////////////////////////// /// Function is converts TObject and TString structures to more compact representation void TBufferXML::PerformPostProcessing() { if (GetXmlLayout()==kGeneralized) return; const TStreamerElement* elem = Stack()->fElem; XMLNodePointer_t elemnode = IsWriting() ? Stack()->fNode : Stack(1)->fNode; if ((elem==0) || (elemnode==0)) return; if (elem->GetType()==TStreamerInfo::kTString) { XMLNodePointer_t node = fXML->GetChild(elemnode); fXML->SkipEmpty(node); XMLNodePointer_t nodecharstar(0), nodeuchar(0), nodeint(0), nodestring(0); while (node!=0) { const char* name = fXML->GetNodeName(node); if (strcmp(name, xmlio::String)==0) { if (nodestring) return; nodestring = node; } else if (strcmp(name, xmlio::UChar)==0) { if (nodeuchar) return; nodeuchar = node; } else if (strcmp(name, xmlio::Int)==0) { if (nodeint) return; nodeint = node; } else if (strcmp(name, xmlio::CharStar)==0) { if (nodecharstar!=0) return; nodecharstar = node; } else return; // can not be something else fXML->ShiftToNext(node); } TString str; if (GetIOVersion()<3) { if (nodeuchar==0) return; if (nodecharstar!=0) str = fXML->GetAttr(nodecharstar, xmlio::v); fXML->UnlinkFreeNode(nodeuchar); fXML->UnlinkFreeNode(nodeint); fXML->UnlinkFreeNode(nodecharstar); } else { if (nodestring!=0) str = fXML->GetAttr(nodestring, xmlio::v); fXML->UnlinkFreeNode(nodestring); } fXML->NewAttr(elemnode, 0, "str", str); } else if (elem->GetType()==TStreamerInfo::kTObject) { XMLNodePointer_t node = fXML->GetChild(elemnode); fXML->SkipEmpty(node); XMLNodePointer_t vnode = 0; XMLNodePointer_t idnode = 0; XMLNodePointer_t bitsnode = 0; XMLNodePointer_t prnode = 0; while (node!=0) { const char* name = fXML->GetNodeName(node); if (strcmp(name, xmlio::OnlyVersion)==0) { if (vnode) return; vnode = node; } else if (strcmp(name, xmlio::UInt)==0) { if (idnode==0) idnode = node; else if (bitsnode==0) bitsnode = node; else return; } else if (strcmp(name, xmlio::UShort)==0) { if (prnode) return; prnode = node; } else return; fXML->ShiftToNext(node); } if ((vnode==0) || (idnode==0) || (bitsnode==0)) return; TString str = fXML->GetAttr(idnode,xmlio::v); fXML->NewAttr(elemnode, 0, "fUniqueID", str); str = fXML->GetAttr(bitsnode, xmlio::v); UInt_t bits; sscanf(str.Data(),"%u", &bits); char sbuf[20]; snprintf(sbuf, sizeof(sbuf), "%x",bits); fXML->NewAttr(elemnode, 0, "fBits", sbuf); if (prnode!=0) { str = fXML->GetAttr(prnode,xmlio::v); fXML->NewAttr(elemnode, 0, "fProcessID", str); } fXML->UnlinkFreeNode(vnode); fXML->UnlinkFreeNode(idnode); fXML->UnlinkFreeNode(bitsnode); fXML->UnlinkFreeNode(prnode); } } //////////////////////////////////////////////////////////////////////////////// /// Function is unpack TObject and TString structures to be able read /// them from custom streamers of this objects void TBufferXML::PerformPreProcessing(const TStreamerElement* elem, XMLNodePointer_t elemnode) { if (GetXmlLayout()==kGeneralized) return; if ((elem==0) || (elemnode==0)) return; if (elem->GetType()==TStreamerInfo::kTString) { if (!fXML->HasAttr(elemnode,"str")) return; TString str = fXML->GetAttr(elemnode, "str"); fXML->FreeAttr(elemnode, "str"); if (GetIOVersion()<3) { Int_t len = str.Length(); XMLNodePointer_t ucharnode = fXML->NewChild(elemnode, 0, xmlio::UChar,0); char sbuf[20]; snprintf(sbuf, sizeof(sbuf), "%d", len); if (len<255) { fXML->NewAttr(ucharnode,0,xmlio::v,sbuf); } else { fXML->NewAttr(ucharnode,0,xmlio::v,"255"); XMLNodePointer_t intnode = fXML->NewChild(elemnode, 0, xmlio::Int, 0); fXML->NewAttr(intnode, 0, xmlio::v, sbuf); } if (len>0) { XMLNodePointer_t node = fXML->NewChild(elemnode, 0, xmlio::CharStar, 0); fXML->NewAttr(node, 0, xmlio::v, str); } } else { XMLNodePointer_t node = fXML->NewChild(elemnode, 0, xmlio::String, 0); fXML->NewAttr(node, 0, xmlio::v, str); } } else if (elem->GetType()==TStreamerInfo::kTObject) { if (!fXML->HasAttr(elemnode, "fUniqueID")) return; if (!fXML->HasAttr(elemnode, "fBits")) return; TString idstr = fXML->GetAttr(elemnode, "fUniqueID"); TString bitsstr = fXML->GetAttr(elemnode, "fBits"); TString prstr = fXML->GetAttr(elemnode, "fProcessID"); fXML->FreeAttr(elemnode, "fUniqueID"); fXML->FreeAttr(elemnode, "fBits"); fXML->FreeAttr(elemnode, "fProcessID"); XMLNodePointer_t node = fXML->NewChild(elemnode, 0, xmlio::OnlyVersion, 0); fXML->NewAttr(node, 0, xmlio::v, "1"); node = fXML->NewChild(elemnode, 0, xmlio::UInt, 0); fXML->NewAttr(node, 0, xmlio::v, idstr); UInt_t bits; sscanf(bitsstr.Data(),"%x", &bits); char sbuf[20]; snprintf(sbuf, sizeof(sbuf), "%u", bits); node = fXML->NewChild(elemnode, 0, xmlio::UInt, 0); fXML->NewAttr(node, 0, xmlio::v, sbuf); if (prstr.Length()>0) { node = fXML->NewChild(elemnode, 0, xmlio::UShort, 0); fXML->NewAttr(node, 0, xmlio::v, prstr.Data()); } } } //////////////////////////////////////////////////////////////////////////////// /// Function is called before any IO operation of TBuffer /// Now is used to store version value if no proper calls are discovered void TBufferXML::BeforeIOoperation() { CheckVersionBuf(); } //////////////////////////////////////////////////////////////////////////////// /// Function to read class from buffer, used in old-style streamers TClass* TBufferXML::ReadClass(const TClass*, UInt_t*) { const char* clname = 0; if (VerifyItemNode(xmlio::Class)) { clname = XmlReadValue(xmlio::Class); } if (gDebug>2) Info("ReadClass", "Try to read class %s", clname ? clname : "---"); return clname ? gROOT->GetClass(clname) : 0; } //////////////////////////////////////////////////////////////////////////////// /// Function to write class into buffer, used in old-style streamers void TBufferXML::WriteClass(const TClass* cl) { if (gDebug>2) Info("WriteClass", "Try to write class %s", cl->GetName()); XmlWriteValue(cl->GetName(), xmlio::Class); } //////////////////////////////////////////////////////////////////////////////// /// Suppressed function of TBuffer Int_t TBufferXML::CheckByteCount(UInt_t /*r_s */, UInt_t /*r_c*/, const TClass* /*cl*/) { return 0; } //////////////////////////////////////////////////////////////////////////////// /// Suppressed function of TBuffer Int_t TBufferXML::CheckByteCount(UInt_t, UInt_t, const char*) { return 0; } //////////////////////////////////////////////////////////////////////////////// /// Suppressed function of TBuffer void TBufferXML::SetByteCount(UInt_t, Bool_t) { } //////////////////////////////////////////////////////////////////////////////// /// Skip class version from I/O buffer. void TBufferXML::SkipVersion(const TClass *cl) { ReadVersion(0,0,cl); } //////////////////////////////////////////////////////////////////////////////// /// Read version value from buffer Version_t TBufferXML::ReadVersion(UInt_t *start, UInt_t *bcnt, const TClass * /*cl*/) { BeforeIOoperation(); Version_t res = 0; if (start) *start = 0; if (bcnt) *bcnt = 0; if (VerifyItemNode(xmlio::OnlyVersion)) { res = AtoI(XmlReadValue(xmlio::OnlyVersion)); } else if ((fExpectedBaseClass!=0) && (fXML->HasAttr(Stack(1)->fNode, xmlio::ClassVersion))) { res = fXML->GetIntAttr(Stack(1)->fNode, xmlio::ClassVersion); } else if (fXML->HasAttr(StackNode(), xmlio::ClassVersion)) { res = fXML->GetIntAttr(StackNode(), xmlio::ClassVersion); } else { Error("ReadVersion", "No correspondent tags to read version");; fErrorFlag = 1; } if (gDebug>2) Info("ReadVersion","Version = %d", res); return res; } //////////////////////////////////////////////////////////////////////////////// /// Checks buffer, filled by WriteVersion /// if next data is arriving, version should be stored in buffer void TBufferXML::CheckVersionBuf() { if (IsWriting() && (fVersionBuf>=-100)) { char sbuf[20]; snprintf(sbuf, sizeof(sbuf), "%d", fVersionBuf); XmlWriteValue(sbuf, xmlio::OnlyVersion); fVersionBuf = -111; } } //////////////////////////////////////////////////////////////////////////////// /// Copies class version to buffer, but not writes it to xml /// Version will be written with next I/O operation or /// will be added as attribute of class tag, created by IncrementLevel call UInt_t TBufferXML::WriteVersion(const TClass *cl, Bool_t /* useBcnt */) { BeforeIOoperation(); if (fExpectedBaseClass!=cl) fExpectedBaseClass = 0; fVersionBuf = cl->GetClassVersion(); if (gDebug>2) Info("WriteVersion", "Class: %s, version = %d", cl->GetName(), fVersionBuf); return 0; } //////////////////////////////////////////////////////////////////////////////// /// Read object from buffer. Only used from TBuffer void* TBufferXML::ReadObjectAny(const TClass*) { BeforeIOoperation(); if (gDebug>2) Info("ReadObjectAny","From node %s", fXML->GetNodeName(StackNode())); void* res = XmlReadObject(0); return res; } //////////////////////////////////////////////////////////////////////////////// /// Skip any kind of object from buffer /// Actually skip only one node on current level of xml structure void TBufferXML::SkipObjectAny() { ShiftStack("skipobjectany"); \ } //////////////////////////////////////////////////////////////////////////////// /// Write object to buffer. Only used from TBuffer void TBufferXML::WriteObjectClass(const void *actualObjStart, const TClass *actualClass) { BeforeIOoperation(); if (gDebug>2) Info("WriteObject","Class %s", (actualClass ? actualClass->GetName() : " null")); XmlWriteObject(actualObjStart, actualClass); } // Macro to read content of uncompressed array #define TXMLReadArrayNoncompress(vname) \ { \ for(Int_t indx=0;indxHasAttr(StackNode(), xmlio::cnt)) \ cnt = fXML->GetIntAttr(StackNode(), xmlio::cnt); \ XmlReadBasic(vname[indx]); \ Int_t curr = indx; indx++; \ while(cnt>1) { \ vname[indx] = vname[curr]; \ cnt--; indx++; \ } \ } \ } // macro to read array, which include size attribute #define TBufferXML_ReadArray(tname, vname) \ { \ BeforeIOoperation(); \ if (!VerifyItemNode(xmlio::Array,"ReadArray")) return 0; \ Int_t n = fXML->GetIntAttr(StackNode(), xmlio::Size); \ if (n<=0) return 0; \ if (!vname) vname = new tname[n]; \ PushStack(StackNode()); \ TXMLReadArrayContent(vname, n); \ PopStack(); \ ShiftStack("readarr"); \ return n; \ } //////////////////////////////////////////////////////////////////////////////// /// Read a Float16_t from the buffer void TBufferXML::ReadFloat16 (Float_t *f, TStreamerElement * /*ele*/) { BeforeIOoperation(); XmlReadBasic(*f); } //////////////////////////////////////////////////////////////////////////////// /// Read a Double32_t from the buffer void TBufferXML::ReadDouble32 (Double_t *d, TStreamerElement * /*ele*/) { BeforeIOoperation(); XmlReadBasic(*d); } //////////////////////////////////////////////////////////////////////////////// /// Read a Double32_t from the buffer when the factor and minimun value have been specified /// see comments about Double32_t encoding at TBufferFile::WriteDouble32(). /// Currently TBufferXML does not optimize space in this case. void TBufferXML::ReadWithFactor(Float_t *ptr, Double_t /* factor */, Double_t /* minvalue */) { BeforeIOoperation(); XmlReadBasic(*ptr); } //////////////////////////////////////////////////////////////////////////////// /// Read a Float16_t from the buffer when the number of bits is specified (explicitly or not) /// see comments about Float16_t encoding at TBufferFile::WriteFloat16(). /// Currently TBufferXML does not optimize space in this case. void TBufferXML::ReadWithNbits(Float_t *ptr, Int_t /* nbits */) { BeforeIOoperation(); XmlReadBasic(*ptr); } //////////////////////////////////////////////////////////////////////////////// /// Read a Double32_t from the buffer when the factor and minimun value have been specified /// see comments about Double32_t encoding at TBufferFile::WriteDouble32(). /// Currently TBufferXML does not optimize space in this case. void TBufferXML::ReadWithFactor(Double_t *ptr, Double_t /* factor */, Double_t /* minvalue */) { BeforeIOoperation(); XmlReadBasic(*ptr); } //////////////////////////////////////////////////////////////////////////////// /// Read a Double32_t from the buffer when the number of bits is specified (explicitly or not) /// see comments about Double32_t encoding at TBufferFile::WriteDouble32(). /// Currently TBufferXML does not optimize space in this case. void TBufferXML::ReadWithNbits(Double_t *ptr, Int_t /* nbits */) { BeforeIOoperation(); XmlReadBasic(*ptr); } //////////////////////////////////////////////////////////////////////////////// /// Write a Float16_t to the buffer void TBufferXML::WriteFloat16 (Float_t *f, TStreamerElement * /*ele*/) { BeforeIOoperation(); XmlWriteBasic(*f); } //////////////////////////////////////////////////////////////////////////////// /// Write a Double32_t to the buffer void TBufferXML::WriteDouble32 (Double_t *d, TStreamerElement * /*ele*/) { BeforeIOoperation(); XmlWriteBasic(*d); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Bool_t from buffer Int_t TBufferXML::ReadArray(Bool_t *&b) { TBufferXML_ReadArray(Bool_t,b); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Char_t from buffer Int_t TBufferXML::ReadArray(Char_t *&c) { TBufferXML_ReadArray(Char_t,c); } //////////////////////////////////////////////////////////////////////////////// /// Read array of UChar_t from buffer Int_t TBufferXML::ReadArray(UChar_t *&c) { TBufferXML_ReadArray(UChar_t,c); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Short_t from buffer Int_t TBufferXML::ReadArray(Short_t *&h) { TBufferXML_ReadArray(Short_t,h); } //////////////////////////////////////////////////////////////////////////////// /// Read array of UShort_t from buffer Int_t TBufferXML::ReadArray(UShort_t *&h) { TBufferXML_ReadArray(UShort_t,h); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Int_t from buffer Int_t TBufferXML::ReadArray(Int_t *&i) { TBufferXML_ReadArray(Int_t,i); } //////////////////////////////////////////////////////////////////////////////// /// Read array of UInt_t from buffer Int_t TBufferXML::ReadArray(UInt_t *&i) { TBufferXML_ReadArray(UInt_t,i); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Long_t from buffer Int_t TBufferXML::ReadArray(Long_t *&l) { TBufferXML_ReadArray(Long_t,l); } //////////////////////////////////////////////////////////////////////////////// /// Read array of ULong_t from buffer Int_t TBufferXML::ReadArray(ULong_t *&l) { TBufferXML_ReadArray(ULong_t,l); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Long64_t from buffer Int_t TBufferXML::ReadArray(Long64_t *&l) { TBufferXML_ReadArray(Long64_t,l); } //////////////////////////////////////////////////////////////////////////////// /// Read array of ULong64_t from buffer Int_t TBufferXML::ReadArray(ULong64_t *&l) { TBufferXML_ReadArray(ULong64_t,l); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Float_t from buffer Int_t TBufferXML::ReadArray(Float_t *&f) { TBufferXML_ReadArray(Float_t,f); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Double_t from buffer Int_t TBufferXML::ReadArray(Double_t *&d) { TBufferXML_ReadArray(Double_t,d); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Float16_t from buffer Int_t TBufferXML::ReadArrayFloat16(Float_t *&f, TStreamerElement * /*ele*/) { TBufferXML_ReadArray(Float_t,f); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Double32_t from buffer Int_t TBufferXML::ReadArrayDouble32(Double_t *&d, TStreamerElement * /*ele*/) { TBufferXML_ReadArray(Double_t,d); } // macro to read array from xml buffer #define TBufferXML_ReadStaticArray(vname) \ { \ BeforeIOoperation(); \ if (!VerifyItemNode(xmlio::Array,"ReadStaticArray")) return 0; \ Int_t n = fXML->GetIntAttr(StackNode(), xmlio::Size); \ if (n<=0) return 0; \ if (!vname) return 0; \ PushStack(StackNode()); \ TXMLReadArrayContent(vname, n); \ PopStack(); \ ShiftStack("readstatarr"); \ return n; \ } //////////////////////////////////////////////////////////////////////////////// /// Read array of Bool_t from buffer Int_t TBufferXML::ReadStaticArray(Bool_t *b) { TBufferXML_ReadStaticArray(b); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Char_t from buffer Int_t TBufferXML::ReadStaticArray(Char_t *c) { TBufferXML_ReadStaticArray(c); } //////////////////////////////////////////////////////////////////////////////// /// Read array of UChar_t from buffer Int_t TBufferXML::ReadStaticArray(UChar_t *c) { TBufferXML_ReadStaticArray(c); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Short_t from buffer Int_t TBufferXML::ReadStaticArray(Short_t *h) { TBufferXML_ReadStaticArray(h); } //////////////////////////////////////////////////////////////////////////////// /// Read array of UShort_t from buffer Int_t TBufferXML::ReadStaticArray(UShort_t *h) { TBufferXML_ReadStaticArray(h); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Int_t from buffer Int_t TBufferXML::ReadStaticArray(Int_t *i) { TBufferXML_ReadStaticArray(i); } //////////////////////////////////////////////////////////////////////////////// /// Read array of UInt_t from buffer Int_t TBufferXML::ReadStaticArray(UInt_t *i) { TBufferXML_ReadStaticArray(i); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Long_t from buffer Int_t TBufferXML::ReadStaticArray(Long_t *l) { TBufferXML_ReadStaticArray(l); } //////////////////////////////////////////////////////////////////////////////// /// Read array of ULong_t from buffer Int_t TBufferXML::ReadStaticArray(ULong_t *l) { TBufferXML_ReadStaticArray(l); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Long64_t from buffer Int_t TBufferXML::ReadStaticArray(Long64_t *l) { TBufferXML_ReadStaticArray(l); } //////////////////////////////////////////////////////////////////////////////// /// Read array of ULong64_t from buffer Int_t TBufferXML::ReadStaticArray(ULong64_t *l) { TBufferXML_ReadStaticArray(l); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Float_t from buffer Int_t TBufferXML::ReadStaticArray(Float_t *f) { TBufferXML_ReadStaticArray(f); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Double_t from buffer Int_t TBufferXML::ReadStaticArray(Double_t *d) { TBufferXML_ReadStaticArray(d); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Float16_t from buffer Int_t TBufferXML::ReadStaticArrayFloat16(Float_t *f, TStreamerElement * /*ele*/) { TBufferXML_ReadStaticArray(f); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Double32_t from buffer Int_t TBufferXML::ReadStaticArrayDouble32(Double_t *d, TStreamerElement * /*ele*/) { TBufferXML_ReadStaticArray(d); } // macro to read content of array, which not include size of array // macro also treat situation, when instead of one single array chain // of several elements should be produced #define TBufferXML_ReadFastArray(vname) \ { \ BeforeIOoperation(); \ if (n<=0) return; \ TStreamerElement* elem = Stack(0)->fElem; \ if ((elem!=0) && (elem->GetType()>TStreamerInfo::kOffsetL) && \ (elem->GetType()GetArrayLength()!=n)) fExpectedChain = kTRUE; \ if (fExpectedChain) { \ fExpectedChain = kFALSE; \ Int_t startnumber = Stack(0)->fElemNumber; \ TStreamerInfo* info = Stack(1)->fInfo; \ Int_t index = 0; \ while (indexGetElements()->At(startnumber++); \ if (elem->GetType()0) { PopStack(); ShiftStack("chainreader"); VerifyElemNode(elem); } \ fCanUseCompact = kTRUE; \ XmlReadBasic(vname[index]); \ index++; \ } else { \ if (!VerifyItemNode(xmlio::Array,"ReadFastArray")) return; \ PushStack(StackNode()); \ Int_t elemlen = elem->GetArrayLength(); \ TXMLReadArrayContent((vname+index), elemlen); \ PopStack(); \ ShiftStack("readfastarr"); \ index+=elemlen; \ } \ } \ } else { \ if (!VerifyItemNode(xmlio::Array,"ReadFastArray")) return; \ PushStack(StackNode()); \ TXMLReadArrayContent(vname, n); \ PopStack(); \ ShiftStack("readfastarr"); \ } \ } //////////////////////////////////////////////////////////////////////////////// /// Read array of Bool_t from buffer void TBufferXML::ReadFastArray(Bool_t *b, Int_t n) { TBufferXML_ReadFastArray(b); } //////////////////////////////////////////////////////////////////////////////// /// Read array of Char_t from buffer /// if nodename==CharStar, read all array as string void TBufferXML::ReadFastArray(Char_t *c, Int_t n) { if ((n>0) && VerifyItemNode(xmlio::CharStar)) { const char* buf; if ((buf = XmlReadValue(xmlio::CharStar))) { Int_t size = strlen(buf); if (size 1) \ fXML->NewIntAttr(elemnode, xmlio::cnt, indx-curr); \ } \ } #define TXMLWriteArrayContent(vname, arrsize) \ { \ if (fCompressLevel>0) { \ TXMLWriteArrayCompress(vname, arrsize) \ } else { \ TXMLWriteArrayNoncompress(vname, arrsize) \ } \ } // macro to write array, which include size #define TBufferXML_WriteArray(vname) \ { \ BeforeIOoperation(); \ XMLNodePointer_t arrnode = CreateItemNode(xmlio::Array); \ fXML->NewIntAttr(arrnode, xmlio::Size, n); \ PushStack(arrnode); \ TXMLWriteArrayContent(vname, n); \ PopStack(); \ } //////////////////////////////////////////////////////////////////////////////// /// Write array of Bool_t to buffer void TBufferXML::WriteArray(const Bool_t *b, Int_t n) { TBufferXML_WriteArray(b); } //////////////////////////////////////////////////////////////////////////////// /// Write array of Char_t to buffer void TBufferXML::WriteArray(const Char_t *c, Int_t n) { TBufferXML_WriteArray(c); } //////////////////////////////////////////////////////////////////////////////// /// Write array of UChar_t to buffer void TBufferXML::WriteArray(const UChar_t *c, Int_t n) { TBufferXML_WriteArray(c); } //////////////////////////////////////////////////////////////////////////////// /// Write array of Short_t to buffer void TBufferXML::WriteArray(const Short_t *h, Int_t n) { TBufferXML_WriteArray(h); } //////////////////////////////////////////////////////////////////////////////// /// Write array of UShort_t to buffer void TBufferXML::WriteArray(const UShort_t *h, Int_t n) { TBufferXML_WriteArray(h); } //////////////////////////////////////////////////////////////////////////////// /// Write array of Int_ to buffer void TBufferXML::WriteArray(const Int_t *i, Int_t n) { TBufferXML_WriteArray(i); } //////////////////////////////////////////////////////////////////////////////// /// Write array of UInt_t to buffer void TBufferXML::WriteArray(const UInt_t *i, Int_t n) { TBufferXML_WriteArray(i); } //////////////////////////////////////////////////////////////////////////////// /// Write array of Long_t to buffer void TBufferXML::WriteArray(const Long_t *l, Int_t n) { TBufferXML_WriteArray(l); } //////////////////////////////////////////////////////////////////////////////// /// Write array of ULong_t to buffer void TBufferXML::WriteArray(const ULong_t *l, Int_t n) { TBufferXML_WriteArray(l); } //////////////////////////////////////////////////////////////////////////////// /// Write array of Long64_t to buffer void TBufferXML::WriteArray(const Long64_t *l, Int_t n) { TBufferXML_WriteArray(l); } //////////////////////////////////////////////////////////////////////////////// /// Write array of ULong64_t to buffer void TBufferXML::WriteArray(const ULong64_t *l, Int_t n) { TBufferXML_WriteArray(l); } //////////////////////////////////////////////////////////////////////////////// /// Write array of Float_t to buffer void TBufferXML::WriteArray(const Float_t *f, Int_t n) { TBufferXML_WriteArray(f); } //////////////////////////////////////////////////////////////////////////////// /// Write array of Double_t to buffer void TBufferXML::WriteArray(const Double_t *d, Int_t n) { TBufferXML_WriteArray(d); } //////////////////////////////////////////////////////////////////////////////// /// Write array of Float16_t to buffer void TBufferXML::WriteArrayFloat16(const Float_t *f, Int_t n, TStreamerElement * /*ele*/) { TBufferXML_WriteArray(f); } //////////////////////////////////////////////////////////////////////////////// /// Write array of Double32_t to buffer void TBufferXML::WriteArrayDouble32(const Double_t *d, Int_t n, TStreamerElement * /*ele*/) { TBufferXML_WriteArray(d); } // write array without size attribute // macro also treat situation, when instead of one single array // chain of several elements should be produced #define TBufferXML_WriteFastArray(vname) \ { \ BeforeIOoperation(); \ if (n<=0) return; \ TStreamerElement* elem = Stack(0)->fElem; \ if ((elem!=0) && (elem->GetType()>TStreamerInfo::kOffsetL) && \ (elem->GetType()GetArrayLength()!=n)) fExpectedChain = kTRUE; \ if (fExpectedChain) { \ TStreamerInfo* info = Stack(1)->fInfo; \ Int_t startnumber = Stack(0)->fElemNumber; \ fExpectedChain = kFALSE; \ Int_t index = 0; \ while (indexGetElements()->At(startnumber++); \ if (elem->GetType()0) { PopStack(); CreateElemNode(elem); } \ fCanUseCompact = kTRUE; \ XmlWriteBasic(vname[index]); \ index++; \ } else { \ XMLNodePointer_t arrnode = CreateItemNode(xmlio::Array); \ Int_t elemlen = elem->GetArrayLength(); \ PushStack(arrnode); \ TXMLWriteArrayContent((vname+index), elemlen); \ index+=elemlen; \ PopStack(); \ } \ } \ } else { \ XMLNodePointer_t arrnode = CreateItemNode(xmlio::Array); \ PushStack(arrnode); \ TXMLWriteArrayContent(vname, n); \ PopStack(); \ } \ } //////////////////////////////////////////////////////////////////////////////// /// Write array of Bool_t to buffer void TBufferXML::WriteFastArray(const Bool_t *b, Int_t n) { TBufferXML_WriteFastArray(b); } //////////////////////////////////////////////////////////////////////////////// /// Write array of Char_t to buffer /// If array does not include any special characters, /// it will be reproduced as CharStar node with string as attribute void TBufferXML::WriteFastArray(const Char_t *c, Int_t n) { Bool_t usedefault = (n==0) || fExpectedChain; const Char_t* buf = c; if (!usedefault) for (int i=0;iIsA() : TObject::Class()); } //////////////////////////////////////////////////////////////////////////////// /// Steram object to/from buffer void TBufferXML::StreamObject(void *obj, const TClass *cl, const TClass* /* onfileClass */ ) { BeforeIOoperation(); if (gDebug>1) Info("StreamObject","Class: %s", (cl ? cl->GetName() : "none")); if (IsReading()) XmlReadObject(obj); else XmlWriteObject(obj, cl); } // macro for right shift operator for basic type #define TBufferXML_operatorin(vname) \ { \ BeforeIOoperation(); \ XmlReadBasic(vname); \ } //////////////////////////////////////////////////////////////////////////////// /// Reads Bool_t value from buffer void TBufferXML::ReadBool(Bool_t &b) { TBufferXML_operatorin(b); } //////////////////////////////////////////////////////////////////////////////// /// Reads Char_t value from buffer void TBufferXML::ReadChar(Char_t &c) { TBufferXML_operatorin(c); } //////////////////////////////////////////////////////////////////////////////// /// Reads UChar_t value from buffer void TBufferXML::ReadUChar(UChar_t &c) { TBufferXML_operatorin(c); } //////////////////////////////////////////////////////////////////////////////// /// Reads Short_t value from buffer void TBufferXML::ReadShort(Short_t &h) { TBufferXML_operatorin(h); } //////////////////////////////////////////////////////////////////////////////// /// Reads UShort_t value from buffer void TBufferXML::ReadUShort(UShort_t &h) { TBufferXML_operatorin(h); } //////////////////////////////////////////////////////////////////////////////// /// Reads Int_t value from buffer void TBufferXML::ReadInt(Int_t &i) { TBufferXML_operatorin(i); } //////////////////////////////////////////////////////////////////////////////// /// Reads UInt_t value from buffer void TBufferXML::ReadUInt(UInt_t &i) { TBufferXML_operatorin(i); } //////////////////////////////////////////////////////////////////////////////// /// Reads Long_t value from buffer void TBufferXML::ReadLong(Long_t &l) { TBufferXML_operatorin(l); } //////////////////////////////////////////////////////////////////////////////// /// Reads ULong_t value from buffer void TBufferXML::ReadULong(ULong_t &l) { TBufferXML_operatorin(l); } //////////////////////////////////////////////////////////////////////////////// /// Reads Long64_t value from buffer void TBufferXML::ReadLong64(Long64_t &l) { TBufferXML_operatorin(l); } //////////////////////////////////////////////////////////////////////////////// /// Reads ULong64_t value from buffer void TBufferXML::ReadULong64(ULong64_t &l) { TBufferXML_operatorin(l); } //////////////////////////////////////////////////////////////////////////////// /// Reads Float_t value from buffer void TBufferXML::ReadFloat(Float_t &f) { TBufferXML_operatorin(f); } //////////////////////////////////////////////////////////////////////////////// /// Reads Double_t value from buffer void TBufferXML::ReadDouble(Double_t &d) { TBufferXML_operatorin(d); } //////////////////////////////////////////////////////////////////////////////// /// Reads array of characters from buffer void TBufferXML::ReadCharP(Char_t *c) { BeforeIOoperation(); const char* buf; if ((buf = XmlReadValue(xmlio::CharStar))) strcpy(c, buf); } //////////////////////////////////////////////////////////////////////////////// /// Reads a TString void TBufferXML::ReadTString(TString &s) { if (GetIOVersion()<3) { TBufferFile::ReadTString(s); } else { BeforeIOoperation(); const char* buf; if ((buf = XmlReadValue(xmlio::String))) s = buf; } } //////////////////////////////////////////////////////////////////////////////// /// Reads a std::string void TBufferXML::ReadStdString(std::string &s) { if (GetIOVersion()<3) { TBufferFile::ReadStdString(s); } else { BeforeIOoperation(); const char* buf; if ((buf = XmlReadValue(xmlio::String))) s = buf; } } // macro for left shift operator for basic types #define TBufferXML_operatorout(vname) \ { \ BeforeIOoperation(); \ XmlWriteBasic(vname); \ } //////////////////////////////////////////////////////////////////////////////// /// Writes Bool_t value to buffer void TBufferXML::WriteBool(Bool_t b) { TBufferXML_operatorout(b); } //////////////////////////////////////////////////////////////////////////////// /// Writes Char_t value to buffer void TBufferXML::WriteChar(Char_t c) { TBufferXML_operatorout(c); } //////////////////////////////////////////////////////////////////////////////// /// Writes UChar_t value to buffer void TBufferXML::WriteUChar(UChar_t c) { TBufferXML_operatorout(c); } //////////////////////////////////////////////////////////////////////////////// /// Writes Short_t value to buffer void TBufferXML::WriteShort(Short_t h) { TBufferXML_operatorout(h); } //////////////////////////////////////////////////////////////////////////////// /// Writes UShort_t value to buffer void TBufferXML::WriteUShort(UShort_t h) { TBufferXML_operatorout(h); } //////////////////////////////////////////////////////////////////////////////// /// Writes Int_t value to buffer void TBufferXML::WriteInt(Int_t i) { TBufferXML_operatorout(i); } //////////////////////////////////////////////////////////////////////////////// /// Writes UInt_t value to buffer void TBufferXML::WriteUInt(UInt_t i) { TBufferXML_operatorout(i); } //////////////////////////////////////////////////////////////////////////////// /// Writes Long_t value to buffer void TBufferXML::WriteLong(Long_t l) { TBufferXML_operatorout(l); } //////////////////////////////////////////////////////////////////////////////// /// Writes ULong_t value to buffer void TBufferXML::WriteULong(ULong_t l) { TBufferXML_operatorout(l); } //////////////////////////////////////////////////////////////////////////////// /// Writes Long64_t value to buffer void TBufferXML::WriteLong64(Long64_t l) { TBufferXML_operatorout(l); } //////////////////////////////////////////////////////////////////////////////// /// Writes ULong64_t value to buffer void TBufferXML::WriteULong64(ULong64_t l) { TBufferXML_operatorout(l); } //////////////////////////////////////////////////////////////////////////////// /// Writes Float_t value to buffer void TBufferXML::WriteFloat(Float_t f) { TBufferXML_operatorout(f); } //////////////////////////////////////////////////////////////////////////////// /// Writes Double_t value to buffer void TBufferXML::WriteDouble(Double_t d) { TBufferXML_operatorout(d); } //////////////////////////////////////////////////////////////////////////////// /// Writes array of characters to buffer void TBufferXML::WriteCharP(const Char_t *c) { BeforeIOoperation(); XmlWriteValue(c, xmlio::CharStar); } //////////////////////////////////////////////////////////////////////////////// /// Writes a TString void TBufferXML::WriteTString(const TString &s) { if (GetIOVersion()<3) { TBufferFile::WriteTString(s); } else { BeforeIOoperation(); XmlWriteValue(s.Data(), xmlio::String); } } //////////////////////////////////////////////////////////////////////////////// /// Writes a TString void TBufferXML::WriteStdString(const std::string &s) { if (GetIOVersion()<3) { TBufferFile::WriteStdString(s); } else { BeforeIOoperation(); XmlWriteValue(s.c_str(), xmlio::String); } } //////////////////////////////////////////////////////////////////////////////// /// Converts Char_t to string and add xml node to buffer XMLNodePointer_t TBufferXML::XmlWriteBasic(Char_t value) { char buf[50]; snprintf(buf, sizeof(buf), "%d",value); return XmlWriteValue(buf, xmlio::Char); } //////////////////////////////////////////////////////////////////////////////// /// Converts Short_t to string and add xml node to buffer XMLNodePointer_t TBufferXML::XmlWriteBasic(Short_t value) { char buf[50]; snprintf(buf, sizeof(buf), "%hd", value); return XmlWriteValue(buf, xmlio::Short); } //////////////////////////////////////////////////////////////////////////////// /// Converts Int_t to string and add xml node to buffer XMLNodePointer_t TBufferXML::XmlWriteBasic(Int_t value) { char buf[50]; snprintf(buf, sizeof(buf), "%d", value); return XmlWriteValue(buf, xmlio::Int); } //////////////////////////////////////////////////////////////////////////////// /// Converts Long_t to string and add xml node to buffer XMLNodePointer_t TBufferXML::XmlWriteBasic(Long_t value) { char buf[50]; snprintf(buf, sizeof(buf), "%ld", value); return XmlWriteValue(buf, xmlio::Long); } //////////////////////////////////////////////////////////////////////////////// /// Converts Long64_t to string and add xml node to buffer XMLNodePointer_t TBufferXML::XmlWriteBasic(Long64_t value) { char buf[50]; snprintf(buf, sizeof(buf), FLong64, value); return XmlWriteValue(buf, xmlio::Long64); } //////////////////////////////////////////////////////////////////////////////// /// Converts Float_t to string and add xml node to buffer XMLNodePointer_t TBufferXML::XmlWriteBasic(Float_t value) { char buf[200]; snprintf(buf, sizeof(buf), fgFloatFmt.c_str(), value); return XmlWriteValue(buf, xmlio::Float); } //////////////////////////////////////////////////////////////////////////////// /// Converts Double_t to string and add xml node to buffer XMLNodePointer_t TBufferXML::XmlWriteBasic(Double_t value) { char buf[1000]; snprintf(buf, sizeof(buf), fgFloatFmt.c_str(), value); return XmlWriteValue(buf, xmlio::Double); } //////////////////////////////////////////////////////////////////////////////// /// Converts Bool_t to string and add xml node to buffer XMLNodePointer_t TBufferXML::XmlWriteBasic(Bool_t value) { return XmlWriteValue(value ? xmlio::True : xmlio::False, xmlio::Bool); } //////////////////////////////////////////////////////////////////////////////// /// Converts UChar_t to string and add xml node to buffer XMLNodePointer_t TBufferXML::XmlWriteBasic(UChar_t value) { char buf[50]; snprintf(buf, sizeof(buf), "%u", value); return XmlWriteValue(buf, xmlio::UChar); } //////////////////////////////////////////////////////////////////////////////// /// Converts UShort_t to string and add xml node to buffer XMLNodePointer_t TBufferXML::XmlWriteBasic(UShort_t value) { char buf[50]; snprintf(buf, sizeof(buf), "%hu", value); return XmlWriteValue(buf, xmlio::UShort); } //////////////////////////////////////////////////////////////////////////////// /// Converts UInt_t to string and add xml node to buffer XMLNodePointer_t TBufferXML::XmlWriteBasic(UInt_t value) { char buf[50]; snprintf(buf, sizeof(buf), "%u", value); return XmlWriteValue(buf, xmlio::UInt); } //////////////////////////////////////////////////////////////////////////////// /// Converts ULong_t to string and add xml node to buffer XMLNodePointer_t TBufferXML::XmlWriteBasic(ULong_t value) { char buf[50]; snprintf(buf, sizeof(buf), "%lu", value); return XmlWriteValue(buf, xmlio::ULong); } //////////////////////////////////////////////////////////////////////////////// /// Converts ULong64_t to string and add xml node to buffer XMLNodePointer_t TBufferXML::XmlWriteBasic(ULong64_t value) { char buf[50]; snprintf(buf, sizeof(buf), FULong64, value); return XmlWriteValue(buf, xmlio::ULong64); } //////////////////////////////////////////////////////////////////////////////// /// Create xml node with specified name and adds it to stack node XMLNodePointer_t TBufferXML::XmlWriteValue(const char* value, const char* name) { XMLNodePointer_t node = 0; if (fCanUseCompact) node = StackNode(); else node = CreateItemNode(name); fXML->NewAttr(node, 0, xmlio::v, value); fCanUseCompact = kFALSE; return node; } //////////////////////////////////////////////////////////////////////////////// /// Reads string from current xml node and convert it to Char_t value void TBufferXML::XmlReadBasic(Char_t& value) { const char* res = XmlReadValue(xmlio::Char); if (res) { int n; sscanf(res,"%d", &n); value = n; } else value = 0; } //////////////////////////////////////////////////////////////////////////////// /// Reads string from current xml node and convert it to Short_t value void TBufferXML::XmlReadBasic(Short_t& value) { const char* res = XmlReadValue(xmlio::Short); if (res) sscanf(res,"%hd", &value); else value = 0; } //////////////////////////////////////////////////////////////////////////////// /// Reads string from current xml node and convert it to Int_t value void TBufferXML::XmlReadBasic(Int_t& value) { const char* res = XmlReadValue(xmlio::Int); if (res) sscanf(res,"%d", &value); else value = 0; } //////////////////////////////////////////////////////////////////////////////// /// Reads string from current xml node and convert it to Long_t value void TBufferXML::XmlReadBasic(Long_t& value) { const char* res = XmlReadValue(xmlio::Long); if (res) sscanf(res,"%ld", &value); else value = 0; } //////////////////////////////////////////////////////////////////////////////// /// Reads string from current xml node and convert it to Long64_t value void TBufferXML::XmlReadBasic(Long64_t& value) { const char* res = XmlReadValue(xmlio::Long64); if (res) sscanf(res, FLong64, &value); else value = 0; } //////////////////////////////////////////////////////////////////////////////// /// Reads string from current xml node and convert it to Float_t value void TBufferXML::XmlReadBasic(Float_t& value) { const char* res = XmlReadValue(xmlio::Float); if (res) sscanf(res, "%f", &value); else value = 0.; } //////////////////////////////////////////////////////////////////////////////// /// Reads string from current xml node and convert it to Double_t value void TBufferXML::XmlReadBasic(Double_t& value) { const char* res = XmlReadValue(xmlio::Double); if (res) sscanf(res, "%lf", &value); else value = 0.; } //////////////////////////////////////////////////////////////////////////////// /// Reads string from current xml node and convert it to Bool_t value void TBufferXML::XmlReadBasic(Bool_t& value) { const char* res = XmlReadValue(xmlio::Bool); if (res) value = (strcmp(res, xmlio::True)==0); else value = kFALSE; } //////////////////////////////////////////////////////////////////////////////// /// Reads string from current xml node and convert it to UChar_t value void TBufferXML::XmlReadBasic(UChar_t& value) { const char* res = XmlReadValue(xmlio::UChar); if (res) { unsigned int n; sscanf(res,"%ud", &n); value = n; } else value = 0; } //////////////////////////////////////////////////////////////////////////////// /// Reads string from current xml node and convert it to UShort_t value void TBufferXML::XmlReadBasic(UShort_t& value) { const char* res = XmlReadValue(xmlio::UShort); if (res) sscanf(res,"%hud", &value); else value = 0; } //////////////////////////////////////////////////////////////////////////////// /// Reads string from current xml node and convert it to UInt_t value void TBufferXML::XmlReadBasic(UInt_t& value) { const char* res = XmlReadValue(xmlio::UInt); if (res) sscanf(res,"%u", &value); else value = 0; } //////////////////////////////////////////////////////////////////////////////// /// Reads string from current xml node and convert it to ULong_t value void TBufferXML::XmlReadBasic(ULong_t& value) { const char* res = XmlReadValue(xmlio::ULong); if (res) sscanf(res,"%lu", &value); else value = 0; } //////////////////////////////////////////////////////////////////////////////// /// Reads string from current xml node and convert it to ULong64_t value void TBufferXML::XmlReadBasic(ULong64_t& value) { const char* res = XmlReadValue(xmlio::ULong64); if (res) sscanf(res, FULong64, &value); else value = 0; } //////////////////////////////////////////////////////////////////////////////// /// read string value from current stack node const char* TBufferXML::XmlReadValue(const char* name) { if (fErrorFlag>0) return 0; Bool_t trysimple = fCanUseCompact; fCanUseCompact = kFALSE; if (trysimple) { if (fXML->HasAttr(Stack(1)->fNode,xmlio::v)) fValueBuf = fXML->GetAttr(Stack(1)->fNode, xmlio::v); else trysimple = kFALSE; } if (!trysimple) { if (!VerifyItemNode(name, "XmlReadValue")) return 0; fValueBuf = fXML->GetAttr(StackNode(), xmlio::v); } if (gDebug>4) Info("XmlReadValue"," Name = %s value = %s", name, fValueBuf.Data()); if (!trysimple) ShiftStack("readvalue"); return fValueBuf.Data(); } void TBufferXML::SetFloatFormat(const char* fmt) { // Set printf format for float/double members, default "%e" // This method is not thread-safe as it changes a global state. if (!fmt) fgFloatFmt = "%e"; fgFloatFmt = fmt; } const char* TBufferXML::GetFloatFormat() { // return current printf format for float/double members, default "%e" return fgFloatFmt.c_str(); } //////////////////////////////////////////////////////////////////////////////// /// Read one collection of objects from the buffer using the StreamerInfoLoopAction. /// The collection needs to be a split TClonesArray or a split vector of pointers. Int_t TBufferXML::ApplySequence(const TStreamerInfoActions::TActionSequence &sequence, void *obj) { TVirtualStreamerInfo *info = sequence.fStreamerInfo; IncrementLevel(info); if (gDebug) { //loop on all active members TStreamerInfoActions::ActionContainer_t::const_iterator end = sequence.fActions.end(); for(TStreamerInfoActions::ActionContainer_t::const_iterator iter = sequence.fActions.begin(); iter != end; ++iter) { // Idea: Try to remove this function call as it is really needed only for XML streaming. SetStreamerElementNumber((*iter).fConfiguration->fCompInfo->fElem,(*iter).fConfiguration->fCompInfo->fType); (*iter).PrintDebug(*this,obj); (*iter)(*this,obj); } } else { //loop on all active members TStreamerInfoActions::ActionContainer_t::const_iterator end = sequence.fActions.end(); for(TStreamerInfoActions::ActionContainer_t::const_iterator iter = sequence.fActions.begin(); iter != end; ++iter) { // Idea: Try to remove this function call as it is really needed only for XML streaming. SetStreamerElementNumber((*iter).fConfiguration->fCompInfo->fElem,(*iter).fConfiguration->fCompInfo->fType); (*iter)(*this,obj); } } DecrementLevel(info); return 0; } //////////////////////////////////////////////////////////////////////////////// /// Read one collection of objects from the buffer using the StreamerInfoLoopAction. /// The collection needs to be a split TClonesArray or a split vector of pointers. Int_t TBufferXML::ApplySequenceVecPtr(const TStreamerInfoActions::TActionSequence &sequence, void *start_collection, void *end_collection) { TVirtualStreamerInfo *info = sequence.fStreamerInfo; IncrementLevel(info); if (gDebug) { //loop on all active members TStreamerInfoActions::ActionContainer_t::const_iterator end = sequence.fActions.end(); for(TStreamerInfoActions::ActionContainer_t::const_iterator iter = sequence.fActions.begin(); iter != end; ++iter) { // Idea: Try to remove this function call as it is really needed only for XML streaming. SetStreamerElementNumber((*iter).fConfiguration->fCompInfo->fElem,(*iter).fConfiguration->fCompInfo->fType); (*iter).PrintDebug(*this,*(char**)start_collection); // Warning: This limits us to TClonesArray and vector of pointers. (*iter)(*this,start_collection,end_collection); } } else { //loop on all active members TStreamerInfoActions::ActionContainer_t::const_iterator end = sequence.fActions.end(); for(TStreamerInfoActions::ActionContainer_t::const_iterator iter = sequence.fActions.begin(); iter != end; ++iter) { // Idea: Try to remove this function call as it is really needed only for XML streaming. SetStreamerElementNumber((*iter).fConfiguration->fCompInfo->fElem,(*iter).fConfiguration->fCompInfo->fType); (*iter)(*this,start_collection,end_collection); } } DecrementLevel(info); return 0; } //////////////////////////////////////////////////////////////////////////////// /// Read one collection of objects from the buffer using the StreamerInfoLoopAction. Int_t TBufferXML::ApplySequence(const TStreamerInfoActions::TActionSequence &sequence, void *start_collection, void *end_collection) { TVirtualStreamerInfo *info = sequence.fStreamerInfo; IncrementLevel(info); TStreamerInfoActions::TLoopConfiguration *loopconfig = sequence.fLoopConfig; if (gDebug) { // Get the address of the first item for the PrintDebug. // (Performance is not essential here since we are going to print to // the screen anyway). void *arr0 = loopconfig->GetFirstAddress(start_collection,end_collection); // loop on all active members TStreamerInfoActions::ActionContainer_t::const_iterator end = sequence.fActions.end(); for(TStreamerInfoActions::ActionContainer_t::const_iterator iter = sequence.fActions.begin(); iter != end; ++iter) { // Idea: Try to remove this function call as it is really needed only for XML streaming. SetStreamerElementNumber((*iter).fConfiguration->fCompInfo->fElem,(*iter).fConfiguration->fCompInfo->fType); (*iter).PrintDebug(*this,arr0); (*iter)(*this,start_collection,end_collection,loopconfig); } } else { //loop on all active members TStreamerInfoActions::ActionContainer_t::const_iterator end = sequence.fActions.end(); for(TStreamerInfoActions::ActionContainer_t::const_iterator iter = sequence.fActions.begin(); iter != end; ++iter) { // Idea: Try to remove this function call as it is really needed only for XML streaming. SetStreamerElementNumber((*iter).fConfiguration->fCompInfo->fElem,(*iter).fConfiguration->fCompInfo->fType); (*iter)(*this,start_collection,end_collection,loopconfig); } } DecrementLevel(info); return 0; }