#include <MdcDedxCnv.h>
Inheritance diagram for MdcDedxCnv:
Public Types | |
typedef Ty2 | destination |
typedef Ty2 | destination |
typedef Ty1 | source |
typedef Ty1 | source |
Public Member Functions | |
virtual StatusCode | createObj (IOpaqueAddress *addr, DataObject *&dat) |
Convert the persistent object to transient. | |
virtual StatusCode | createObj (IOpaqueAddress *addr, DataObject *&dat) |
Convert the persistent object to transient. | |
virtual StatusCode | createRep (DataObject *pObject, IOpaqueAddress *&refpAddress) |
Convert the transient object to the requested representation. | |
virtual StatusCode | createRep (DataObject *pObject, IOpaqueAddress *&refpAddress) |
Convert the transient object to the requested representation. | |
void | declareObject (const std::string &fullPath, const CLID &clid, const std::string &treename, const std::string &branchname) |
Store TDS path to link a particular converter to an object on the TDS. | |
void | declareObject (const std::string &fullPath, const CLID &clid, const std::string &treename, const std::string &branchname) |
Store TDS path to link a particular converter to an object on the TDS. | |
virtual StatusCode | fillObjRefs (IOpaqueAddress *pAddress, DataObject *pObject) |
Resolve the references of the converted object. | |
virtual StatusCode | fillObjRefs (IOpaqueAddress *pAddress, DataObject *pObject) |
Resolve the references of the converted object. | |
virtual StatusCode | fillRepRefs (IOpaqueAddress *pAddress, DataObject *pObject) |
Resolve the references of the converted object. | |
virtual StatusCode | fillRepRefs (IOpaqueAddress *pAddress, DataObject *pObject) |
Resolve the references of the converted object. | |
virtual StatusCode | finalize () |
virtual StatusCode | finalize () |
TObject * | getReadObject () const |
get the object to be read | |
TObject * | getReadObject () const |
get the object to be read | |
virtual StatusCode | initialize () |
virtual StatusCode | initialize () |
destination * | operator (const source &) const |
destination * | operator (const source &) const |
virtual long | repSvcType () const |
virtual long | repSvcType () const |
virtual | ~MdcDedxCnv () |
virtual | ~MdcDedxCnv () |
Static Public Member Functions | |
const CLID & | classID () |
const CLID & | classID () |
const unsigned char | storageType () |
Storage type and class ID. | |
const unsigned char | storageType () |
Storage type and class ID. | |
Protected Member Functions | |
virtual destination * | convert (const source &) const =0 |
virtual destination * | convert (const source &) const =0 |
virtual StatusCode | DataObjectToTObject (DataObject *obj, RootAddress *addr) |
transformation to root | |
virtual StatusCode | DataObjectToTObject (DataObject *obj, RootAddress *addr) |
transformation to root | |
MdcDedxCnv (ISvcLocator *svc) | |
MdcDedxCnv (ISvcLocator *svc) | |
virtual StatusCode | TObjectToDataObject (DataObject *&obj) |
transformation from root | |
virtual StatusCode | TObjectToDataObject (DataObject *&obj) |
transformation from root | |
Protected Attributes | |
CLID | CLID_top |
the CLID of the upper converter if any | |
std::vector< void * > | m_adresses |
each converter knows the corresponding adresses | |
std::vector< void * > | m_adresses |
each converter knows the corresponding adresses | |
int | m_branchNr |
the branchNr of this converter for writing | |
int | m_branchNrDst |
int | m_branchNrEvtHeader |
int | m_branchNrEvtRec |
int | m_branchNrMc |
int | m_branchNrRecon |
TArrayS * | m_branchNumbers |
array with number of branches for reading | |
TArrayS * | m_branchNumbers |
array with number of branches for reading | |
RootCnvSvc * | m_cnvSvc |
RootCnvSvc * | m_cnvSvc |
std::string | m_currentFileName |
IDataProviderSvc * | m_eds |
pointer to eventdataservice | |
IDataProviderSvc * | m_eds |
pointer to eventdataservice | |
RootEvtSelector * | m_evtsel |
RootEvtSelector * | m_evtsel |
std::vector< RootCnvSvc::Leaf > | m_leaves |
std::vector< RootCnvSvc::Leaf > | m_leaves |
TObject * | m_objRead |
the object that was read | |
TObject * | m_objRead |
the object that was read | |
std::string | m_rootBranchname |
root branchname (may be concatenated of severals) | |
RootInterface * | m_rootInterface |
pointer to the RootInterface | |
RootInterface * | m_rootInterface |
pointer to the RootInterface | |
std::string | m_rootTreename |
each converter knows it's treename | |
Private Attributes | |
commonData | m_common |
relational maps | |
TObjArray * | m_mdcDedxCol |
root object to be read | |
TObjArray * | m_mdcDedxCol |
root object to be read | |
Friends | |
class | CnvFactory<MdcDedxCnv> |
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00025 { };
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00027 : RootEventBaseCnv(classID(), svc) 00028 { 00029 // Here we associate this converter with the /Event path on the TDS. 00030 MsgStream log(msgSvc(), "MdcDedxCnv"); 00031 //log << MSG::DEBUG << "Constructor called for " << objType() << endreq; 00032 m_rootBranchname ="m_mdcDedxCol"; 00033 //declareObject(EventModel::Dst::DstDedxCol, objType(), m_rootTreename, m_rootBranchname); 00034 m_adresses.push_back(&m_mdcDedxCol); 00035 m_mdcDedxCol=0; 00036 }
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00025 { };
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00021 {
00022 return CLID_DstMdcDedxCol;
00023 }
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00021 {
00022 return CLID_DstMdcDedxCol;
00023 }
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Convert the persistent object to transient.
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Convert the persistent object to transient.
Reimplemented in EventCnv, and EventCnv. 00157 { 00158 // transform ROOT object to TDS object 00159 MsgStream log(msgSvc(), "RootEventBaseCnv"); 00160 log << MSG::DEBUG << "RootEventBaseCnv::createObj with clid " <<addr->clID()<< endreq; 00161 StatusCode sc; 00162 00163 // add 2005-11-29 00164 // log<<MSG::INFO<<"######### RootEventBaseCnv ::createObj begin of createObj: m_branchNumbers "<<m_branchNumbers->GetSize()<<"###############"<<endreq; 00165 00166 RootAddress *raddr=dynamic_cast<RootAddress *>(addr); 00167 if (!raddr) { 00168 log << MSG::ERROR << "Could not downcast to Root address" << endreq; 00169 return StatusCode::FAILURE; 00170 } 00171 00172 static int temp =0; //control the begin of each files 2005-12-01 00173 static int entryN =0; //control the event number of each files 2005-21-01 00174 static int brN =0; //control munber of branch of the tree; 00175 int lastBrn = brN; 00176 //lastBrn = brN; 00177 static int branchN=0; 00178 static bool isSet=true; 00179 00180 static int entryBefore = 0; 00181 static bool addEntryEachFile = true; 00182 00183 00184 if(m_rootInterface->getENDFILE() || (temp >0 && temp < branchN)){ // if the file has get the end:y the go to next file to create a new tree 00185 00186 if(m_rootInterface->getENDFILE() ) { 00187 entryN = 0; 00188 } 00189 00190 temp++; 00191 00192 delete m_branchNumbers; 00193 m_branchNumbers = new TArrayS(0); 00194 00195 if(temp == branchN) { 00196 temp =0; 00197 } 00198 } 00199 00200 if(m_rootInterface->getENDFILE()) addEntryEachFile = true; 00201 // the 2nd method 00202 if(m_evtsel->getRecId() - entryBefore == 0) { // first event in this file 00203 delete m_branchNumbers; 00204 m_branchNumbers = new TArrayS(0); 00205 } 00206 00207 //new method to initialize the branchNumber 00208 if(m_currentFileName=="") m_currentFileName = m_rootInterface->getCurrentFileName(); 00209 if(!(m_currentFileName == m_rootInterface->getCurrentFileName())){ 00210 m_currentFileName = m_rootInterface->getCurrentFileName(); 00211 delete m_branchNumbers; 00212 m_branchNumbers = new TArrayS(0); 00213 } 00214 //---------------------------------------- 00215 00216 00217 if (m_branchNumbers->GetSize()<=0) { 00218 if(isSet) brN++; 00219 int branchNumber; 00220 for (int nb=0;nb<raddr->getNrBranches();nb++) { 00221 sc=m_rootInterface->setBranchAddress(raddr->getTreename().c_str(),raddr->getBranchname(nb).c_str(),m_adresses[nb],branchNumber); 00222 if (!sc.isSuccess()) 00223 { 00224 if(isSet) brN--; //liangyt: if fail to retrieve this branch, this will be not a effective branch. 00225 //entryN++; //liangyt: this is the second method 00226 if(temp>0) temp--; //temp > 0 means recording effective branch number. 00227 return sc; 00228 } 00229 m_branchNumbers->Set(nb+1); 00230 m_branchNumbers->AddAt(branchNumber,nb); 00231 00232 } 00233 } 00234 00236 if(addEntryEachFile&&(m_evtsel->getRecId()>entryBefore)){ // for a new file, add entry for ONLY one time. 00237 entryBefore += m_rootInterface->getEntries(); 00238 addEntryEachFile = false; 00239 } 00240 00241 if(lastBrn == brN && isSet ){ 00242 branchN = brN; 00243 isSet=false; 00244 } 00245 00246 if(isSet==false) log << MSG::INFO <<" 1st method set event as : "<<int(entryN/branchN)<<endreq; 00247 if(isSet==false) raddr->setEntryNr(int(entryN/branchN));//former method, keep it to be backup. 00248 if(m_evtsel) log << MSG::INFO <<" event id = "<<m_evtsel->getRecId()<<endreq; 00249 00250 int eventID = 0; 00251 if(entryBefore > m_evtsel->getRecId()) 00252 eventID = m_evtsel->getRecId() + m_rootInterface->getEntries() - entryBefore; 00253 else if(entryBefore == m_evtsel->getRecId()) eventID = 0; 00254 else log << MSG::ERROR <<"eventId error!!!"<<endreq; 00255 00256 log << MSG::INFO <<" 2nd method set event as : "<<eventID<<endreq; 00257 if(m_evtsel) raddr->setEntryNr(eventID); 00258 // read branch 00259 00260 if (m_branchNumbers->GetSize()>0) { 00261 int nbtot=0,nb; 00262 for (int ib=0;ib<m_branchNumbers->GetSize();ib++) { 00263 //sc=m_rootInterface->getBranchEntry(m_branchNumbers->At(ib),raddr->getEntryNr(),nb); 00264 //change to get branch entry with addr(set address for each entry) liangyt 00265 sc=m_rootInterface->getBranchEntry(m_branchNumbers->At(ib),raddr->getEntryNr(),m_adresses[ib],nb); 00266 if (sc.isFailure()) { 00267 log << MSG::ERROR << "Could not read branch " << raddr->getBranchname(nb) << endreq; 00268 return sc; 00269 } 00270 nbtot+=nb; 00271 } 00272 } 00273 00274 else { // get ROOT object 00275 if (CLID_top) { 00276 IConverter *p=conversionSvc()->converter(CLID_top); 00277 RootEventBaseCnv *cnv=dynamic_cast<RootEventBaseCnv *>(p); 00278 if (!cnv) { 00279 log << MSG::ERROR << "Could not downcast to RootEventBaseCnv " << endreq; 00280 return StatusCode::FAILURE; 00281 } 00282 m_objRead=cnv->getReadObject(); 00283 } 00284 } 00285 00286 //do concrete transformation in derived converter 00287 sc = TObjectToDataObject(refpObject); 00288 if (sc.isFailure()) { 00289 log << MSG::ERROR << "Could not transform object" << endreq; 00290 return sc; 00291 } 00292 00293 // verify if we have to register 00294 IRegistry* ent = addr->registry(); 00295 if ( ent == 0) { 00296 sc=m_eds->registerObject(raddr->getPath(),refpObject); 00297 if (sc.isFailure()) { 00298 log << MSG::ERROR << "Could not register object " << raddr->getPath()<<" status "<<sc.getCode()<<endreq; 00299 } 00300 // } 00301 } 00302 00303 entryN++; 00304 return StatusCode::SUCCESS; 00305 }
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Convert the transient object to the requested representation.
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Convert the transient object to the requested representation.
00078 { 00079 // Purpose and Method: Convert the transient object to ROOT 00080 00081 MsgStream log(msgSvc(), "RootEventBaseCnv"); 00082 00083 StatusCode sc= StatusCode::SUCCESS; 00084 // get the corresponding address 00085 RootAddress *rootaddr; 00086 sc=m_cnvSvc->createAddress(obj,addr); 00087 00088 rootaddr = dynamic_cast<RootAddress *>(addr); 00089 00090 if (sc.isFailure() || !rootaddr ) { 00091 log << MSG::ERROR << "Could not create address for clid " <<obj->clID()<<", objname "<<obj->name()<<endreq; 00092 return StatusCode::FAILURE; 00093 } 00094 00095 // do the real conversion in the derived converter 00096 sc = DataObjectToTObject(obj,rootaddr); 00097 00098 delete addr; 00099 addr = NULL; 00100 00101 if (sc.isFailure()) { 00102 log << MSG::ERROR << "Could not transform object" << endreq; 00103 return sc; 00104 } 00105 00106 return StatusCode::SUCCESS; 00107 }
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transformation to root
Implements RootEventBaseCnv. |
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transformation to root
Implements RootEventBaseCnv. 00126 { 00127 00128 MsgStream log(msgSvc(), "MdcDedxCnv"); 00129 log << MSG::DEBUG << "MdcDedxCnv::DataObjectToTObject" << endreq; 00130 StatusCode sc=StatusCode::SUCCESS; 00131 00132 DstMdcDedxCol * mdcDedxColTds=dynamic_cast<DstMdcDedxCol *> (obj); 00133 if (!mdcDedxColTds) { 00134 log << MSG::ERROR << "Could not downcast to MdcDedxCol" << endreq; 00135 return StatusCode::FAILURE; 00136 } 00137 00138 DataObject *evt; 00139 m_eds->findObject(EventModel::Dst::Event,evt); 00140 if (evt==NULL) { 00141 log << MSG::ERROR << "Could not get DstEvent in TDS " << endreq; 00142 return StatusCode::FAILURE; 00143 } 00144 DstEvent * devtTds=dynamic_cast<DstEvent *> (evt); 00145 if (!devtTds) { 00146 log << MSG::ERROR << "MdcDedxCnv:Could not downcast to TDS DstEvent" << endreq; 00147 } 00148 IOpaqueAddress *addr; 00149 00150 m_cnvSvc->getDstCnv()->createRep(evt,addr); 00151 TDstEvent *recEvt=m_cnvSvc->getDstCnv()->getWriteObject(); 00152 00153 const TObjArray *m_mdcDedxCol = recEvt->getMdcDedxCol(); 00154 if (!m_mdcDedxCol) return sc; 00155 recEvt->clearMdcDedxCol(); //necessary in case there is I/O at the same time since array is static 00156 DstMdcDedxCol::const_iterator mdcDedxTds; 00157 00158 for (mdcDedxTds = mdcDedxColTds->begin(); mdcDedxTds != mdcDedxColTds->end(); mdcDedxTds++) { 00159 Int_t trackId = (*mdcDedxTds)->trackId(); 00160 Int_t particleId = (*mdcDedxTds)->particleId(); 00161 Int_t status = (*mdcDedxTds)->status(); 00162 Int_t truncAlg =(*mdcDedxTds)->truncAlg(); 00163 /* 00164 Double_t pb[5]; 00165 for (Int_t i = 0; i < 5; i++) 00166 pb[i] = (*dedxTds)->prob(i); 00167 */ 00168 Double_t chiE = (*mdcDedxTds)->chi(0); 00169 Double_t chiMu = (*mdcDedxTds)->chi(1); 00170 Double_t chiPi = (*mdcDedxTds)->chi(2); 00171 Double_t chiK = (*mdcDedxTds)->chi(3); 00172 Double_t chiP = (*mdcDedxTds)->chi(4); 00173 00174 Int_t numGoodHits = (*mdcDedxTds)->numGoodHits(); 00175 Int_t numTotalHits = (*mdcDedxTds)->numTotalHits(); 00176 00177 Double_t probPH = (*mdcDedxTds)->probPH(); 00178 Double_t normPH = (*mdcDedxTds)->normPH(); 00179 Double_t errorPH = (*mdcDedxTds)->errorPH(); 00180 Double_t twentyPH =(*mdcDedxTds)->twentyPH(); 00181 //Double_t fracErrPH = (*dedxTds)-> fracErrPH(); 00182 //Double_t minIronPH = (*dedxTds)->minIronPH(); 00183 //Double_t corrPH = (*dedxTds)->corrPH(); 00184 log << MSG::INFO <<"check Reconstrunction root"<<" particle Id is : "<<particleId 00185 <<"track id is : "<<trackId 00186 <<" and status is : "<<status<<endreq; 00187 00188 00189 TMdcDedx *mdcDedxRoot = new TMdcDedx(); 00190 //m_common.m_mdcDedxMap[(*mdcDedxTds)] = mdcDedxRoot; 00191 00192 mdcDedxRoot->setTrackId(trackId); 00193 mdcDedxRoot->setParticleId(particleId); 00194 mdcDedxRoot->setStatus (status); 00195 mdcDedxRoot->setTruncAlg(truncAlg); 00196 //dedxRoot->setProb(pb); 00197 mdcDedxRoot->setChiE(chiE); 00198 mdcDedxRoot->setChiMu(chiMu); 00199 mdcDedxRoot->setChiPi(chiPi); 00200 mdcDedxRoot->setChiK(chiK); 00201 mdcDedxRoot->setChiP(chiP); 00202 00203 mdcDedxRoot->setNumGoodHits( numGoodHits); 00204 mdcDedxRoot->setNumTotalHits( numTotalHits); 00205 00206 mdcDedxRoot->setProbPH(probPH); 00207 mdcDedxRoot->setNormPH(normPH); 00208 mdcDedxRoot->setErrorPH(errorPH); 00209 mdcDedxRoot->setTwentyPH(twentyPH); 00210 // dedxRoot->setFracErrPH(fracErrPH); 00211 //dedxRoot->setMinIronPH(minIronPH); 00212 //dedxRoot->setCorrPH(corrPH); 00213 log << MSG::INFO << "check Reconstrunction root"<<" particle Id is : "<<particleId 00214 <<"track id is : "<<trackId 00215 <<" and status is : "<<status<<endreq; 00216 00217 00218 00219 recEvt->addMdcDedx(mdcDedxRoot); 00220 } 00221 00222 return StatusCode::SUCCESS; 00223 }
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Store TDS path to link a particular converter to an object on the TDS.
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Store TDS path to link a particular converter to an object on the TDS.
00150 { 00151 // Purpose and Method: Save the path on the TDS, treename, pathname in the m_leaves vector, 00152 // corresponding to the DataObject that the converter handles. 00153 m_leaves.push_back(RootCnvSvc::Leaf(path, cl,treename,branchname)); 00154 }
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Resolve the references of the converted object.
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Resolve the references of the converted object.
00117 { 00118 // Purpose and Method: Resolve the references of the converted object. 00119 // It is expected that derived classes will override this method. 00120 MsgStream log(msgSvc(), "RootEventBaseCnv"); 00121 return StatusCode::SUCCESS; 00122 }
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Resolve the references of the converted object.
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Resolve the references of the converted object.
00109 { 00110 // Purpose and Method: Resolve the references of the converted object. 00111 // It is expected that derived classes will override this method. 00112 MsgStream log(msgSvc(), "RootEventBaseCnv"); 00113 return StatusCode::SUCCESS; 00114 }
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00141 { 00142 if ( m_cnvSvc ) { 00143 m_cnvSvc->release(); 00144 m_cnvSvc=0; 00145 } 00146 return Converter::finalize(); 00147 }
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get the object to be read
00124 { return m_objRead;}
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get the object to be read
00124 { return m_objRead;}
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Reimplemented in DigiCnv, DstCnv, EvtHeaderCnv, EvtRecCnv, HltCnv, McCnv, RecTrackCnv, TrigCnv, DigiCnv, DstCnv, EvtHeaderCnv, EvtRecCnv, HltCnv, McCnv, RecTrackCnv, and TrigCnv. |
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Reimplemented in DigiCnv, DstCnv, EvtHeaderCnv, EvtRecCnv, HltCnv, McCnv, RecTrackCnv, TrigCnv, DigiCnv, DstCnv, EvtHeaderCnv, EvtRecCnv, HltCnv, McCnv, RecTrackCnv, and TrigCnv. 00125 { 00126 00127 StatusCode status = Converter::initialize(); 00128 00129 if ( status.isSuccess() ) { 00130 IService* isvc = 0; 00131 status = serviceLocator()->service("RootCnvSvc", isvc, false); 00132 if ( !status.isSuccess() ) status = serviceLocator()->service("EventCnvSvc", isvc, true); 00133 if ( status.isSuccess() ) { 00134 status = isvc->queryInterface(IID_IRootCnvSvc, (void**)&m_cnvSvc); 00135 } 00136 } 00137 00138 return status; 00139 }
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00087 {
00088 return ROOT_StorageType;
00089 }
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00087 {
00088 return ROOT_StorageType;
00089 }
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Storage type and class ID.
00083 {
00084 return ROOT_StorageType;
00085 }
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Storage type and class ID.
00083 {
00084 return ROOT_StorageType;
00085 }
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transformation from root
Implements RootEventBaseCnv. |
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transformation from root
Implements RootEventBaseCnv. 00038 { 00039 // creation of TDS object from root object 00040 00041 MsgStream log(msgSvc(), "MdcDedxCnv"); 00042 log << MSG::DEBUG << "MdcDedxCnv::TObjectToDataObject" << endreq; 00043 StatusCode sc=StatusCode::SUCCESS; 00044 00045 // create the TDS location for the Dedx Collection 00046 DstMdcDedxCol* mdcDedxTdsCol = new DstMdcDedxCol; 00047 refpObject=mdcDedxTdsCol; 00048 00049 00050 // now convert 00051 if (!m_mdcDedxCol) return sc; 00052 TIter mdcDedxIter(m_mdcDedxCol); 00053 TMdcDedx *mdcDedxRoot = 0; 00054 while ((mdcDedxRoot = (TMdcDedx*)mdcDedxIter.Next())) { 00055 00056 int trackId = mdcDedxRoot->trackId(); 00057 int particleId = mdcDedxRoot->particleId(); 00058 int status = mdcDedxRoot->status(); 00059 int truncAlg = mdcDedxRoot->truncAlg(); 00060 /* 00061 double pb[5]; 00062 for ( int i = 0; i < 5; i++) 00063 pb[i] = dedxRoot->prob(i); 00064 00065 double numSigmaE = dedxRoot->numSigmaE(); 00066 double numSigmaMu = dedxRoot->numSigmaMu(); 00067 double numSigmaPi = dedxRoot->numSigmaPi(); 00068 double numSigmaK = dedxRoot->numSigmaK(); 00069 double numSigmaP = dedxRoot->numSigmaP(); 00070 */ 00071 double chi[5]; 00072 chi[0] = mdcDedxRoot->chiE(); 00073 chi[1] = mdcDedxRoot->chiMu(); 00074 chi[2] = mdcDedxRoot->chiPi(); 00075 chi[3] = mdcDedxRoot->chiK(); 00076 chi[4] = mdcDedxRoot->chiP(); 00077 int numGoodHits = mdcDedxRoot->numGoodHits(); 00078 int numTotalHits = mdcDedxRoot->numTotalHits(); 00079 00080 double probPH = mdcDedxRoot->probPH(); 00081 double normPH = mdcDedxRoot->normPH(); 00082 double errorPH = mdcDedxRoot->errorPH(); 00083 double twentyPH = mdcDedxRoot->twentyPH(); 00084 //double fracErrPH = dedxRoot-> fracErrPH(); 00085 //double minIronPH = dedxRoot->minIronPH(); 00086 //double corrPH = dedxRoot->corrPH(); 00087 00088 DstMdcDedx *mdcDedxTds = new DstMdcDedx(); 00089 m_common.m_rootMdcDedxMap[mdcDedxRoot] = mdcDedxTds; 00090 00091 mdcDedxTds->setTrackId(trackId); 00092 mdcDedxTds->setParticleId(particleId); 00093 mdcDedxTds->setStatus (status); 00094 mdcDedxTds->setTruncAlg(truncAlg); 00095 /* 00096 dedxTds->setProb(pb); 00097 dedxTds->setNumSigmaE(numSigmaE); 00098 dedxTds->setNumSigmaMu(numSigmaMu); 00099 dedxTds->setNumSigmaPi(numSigmaPi); 00100 dedxTds->setNumSigmaK(numSigmaK); 00101 dedxTds->setNumSigmaP(numSigmaP); 00102 */ 00103 mdcDedxTds->setChi(chi); 00104 00105 mdcDedxTds->setNumGoodHits( numGoodHits); 00106 mdcDedxTds->setNumTotalHits( numTotalHits); 00107 00108 mdcDedxTds->setProbPH(probPH); 00109 mdcDedxTds->setNormPH(normPH); 00110 mdcDedxTds->setErrorPH(errorPH); 00111 mdcDedxTds->setTwentyPH(twentyPH); 00112 //dedxTds->setFracErrPH(fracErrPH); 00113 //dedxTds->setMinIronPH(minIronPH); 00114 //dedxTds->setCorrPH(corrPH); 00115 00116 mdcDedxTdsCol->push_back(mdcDedxTds); 00117 //delete dedxTds; 00118 // dedxTds = NULL; 00119 } 00120 //m_dedxCol->Delete(); 00121 delete m_mdcDedxCol; 00122 m_mdcDedxCol = 0; 00123 return StatusCode::SUCCESS; 00124 }
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the CLID of the upper converter if any
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each converter knows the corresponding adresses
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each converter knows the corresponding adresses
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the branchNr of this converter for writing
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array with number of branches for reading
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array with number of branches for reading
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relational maps
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pointer to eventdataservice
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pointer to eventdataservice
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root object to be read
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root object to be read
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the object that was read
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the object that was read
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root branchname (may be concatenated of severals)
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pointer to the RootInterface
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pointer to the RootInterface
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each converter knows it's treename
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