#include <RootMucCalibDataCnv.h>
Inheritance diagram for RootMucCalibDataCnv:
Public Types | |
typedef Ty1 | source |
typedef Ty2 | destination |
Public Member Functions | |
const CLID & | objType () const |
RootMucCalibDataCnv (ISvcLocator *svc) | |
virtual | ~RootMucCalibDataCnv () |
virtual StatusCode | createRoot (const std::string &fname, CalibData::CalibBase1 *pTDSObj) |
virtual long | repSvcType () const |
virtual StatusCode | initialize () |
virtual StatusCode | finalize () |
virtual StatusCode | createObj (IOpaqueAddress *addr, DataObject *&refpObject) |
ICalibRootSvc * | getCalibRootSvc () |
virtual StatusCode | readRootObj (const std::string &treename, const std::string &branch, TObject *&pCalib, unsigned index=0) |
virtual StatusCode | readRootObj (TTree *tree, const std::string &branch, TObject *&pCalib, unsigned index=0) |
destination * | operator (const source &) const |
Static Public Member Functions | |
static const CLID & | classID () |
static const unsigned char | storageType () |
Protected Member Functions | |
virtual StatusCode | i_createObj (const std::string &fname, DataObject *&refpObject) |
virtual StatusCode | internalCreateObj (const std::string &fname, DataObject *&refpObject, IOpaqueAddress *address) |
virtual StatusCode | i_processObj (DataObject *pObject, IOpaqueAddress *address) |
In case there is additional work to do on the created object. | |
virtual StatusCode | fillRoot (CalibData::CalibBase *pTDSObj, TObject *pRootObj) |
virtual StatusCode | openWrite (const std::string &fname) |
StatusCode | closeWrite () |
StatusCode | openRead (const std::string &fname) |
StatusCode | closeRead () |
void | setBaseInfo (CalibData::CalibBase1 *pObj) |
Another utility for derived classes to use. | |
virtual destination * | convert (const source &) const =0 |
Protected Attributes | |
ICalibRootSvc * | m_rootSvc |
ICalibMetaCnvSvc * | m_metaSvc |
IInstrumentName * | m_instrSvc |
int | m_serNo |
ITime * | m_vstart |
ITime * | m_vend |
int | m_runfrm |
int | m_runto |
TFile * | m_outFile |
TTree * | m_ttree |
TFile * | m_inFile |
TDirectory * | m_saveDir |
Private Attributes | |
CalibData::MucIdTransform * | m_ptrIdTr |
Friends | |
class | CnvFactory< RootMucCalibDataCnv > |
Definition at line 26 of file RootMucCalibDataCnv.h.
typedef Ty2 Converter< Ty1, Ty2 >::destination [inherited] |
Definition at line 19 of file Converter.h.
Definition at line 18 of file Converter.h.
RootMucCalibDataCnv::RootMucCalibDataCnv | ( | ISvcLocator * | svc | ) |
Definition at line 39 of file RootMucCalibDataCnv.cxx.
References m_ptrIdTr.
00039 : 00040 RootCalBaseCnv(svc, CLID_Calib_MucCal) { 00041 m_ptrIdTr = new MucIdTransform(); 00042 }
virtual RootMucCalibDataCnv::~RootMucCalibDataCnv | ( | ) | [inline, virtual] |
const CLID & RootMucCalibDataCnv::classID | ( | ) | [static] |
Definition at line 49 of file RootMucCalibDataCnv.cxx.
References CLID_Calib_MucCal.
00049 { 00050 return CLID_Calib_MucCal; 00051 }
StatusCode RootCalBaseCnv::closeRead | ( | ) | [protected, inherited] |
Clean up when we've finished reading in
Definition at line 135 of file RootCalBaseCnv.cxx.
References RootCalBaseCnv::m_inFile, and RootCalBaseCnv::m_saveDir.
Referenced by RootCalBaseCnv::internalCreateObj().
00135 { 00136 m_inFile->Close(); 00137 00138 delete m_inFile; 00139 m_inFile = 0; 00140 00141 if (m_saveDir) { 00142 m_saveDir->cd(); 00143 m_saveDir = 0; 00144 } 00145 return StatusCode::SUCCESS; 00146 }
StatusCode RootCalBaseCnv::closeWrite | ( | ) | [protected, inherited] |
Finish up writing file opened with openWrite: fill the tree write the file close the file Delete TFile (causes associated Tree to be deleted)
Definition at line 182 of file RootCalBaseCnv.cxx.
References RootCalBaseCnv::m_outFile, RootCalBaseCnv::m_saveDir, and msgSvc().
Referenced by RootTofCalibDataCnv::createRoot(), RootMdcCalibDataCnv::createRoot(), RootEstTofCalibDataCnv::createRoot(), RootEmcCalibDataCnv::createRoot(), and RootDedxCalibDataCnv::createRoot().
00182 { 00183 00184 MsgStream log(msgSvc(), "RootCalBaseCnv"); 00185 00186 StatusCode ret = StatusCode::SUCCESS; 00187 00188 m_outFile->cd(); 00189 m_outFile->Close(); 00190 delete m_outFile; 00191 m_outFile = 0; 00192 if (m_saveDir) m_saveDir->cd(); 00193 m_saveDir = 0; 00194 return ret; 00195 }
virtual destination* Converter< Ty1, Ty2 >::convert | ( | const source & | ) | const [protected, pure virtual, inherited] |
StatusCode RootCalBaseCnv::createObj | ( | IOpaqueAddress * | addr, | |
DataObject *& | refpObject | |||
) | [virtual, inherited] |
Create the transient representation of an object, given an opaque address. This and the following update method comprise the core functionality of calibration converters.
Definition at line 252 of file RootCalBaseCnv.cxx.
References Bes_Common::DEBUG, RootCalBaseCnv::internalCreateObj(), msgSvc(), and deljobs::string.
00253 { 00254 // StatusCode ret; 00255 00256 // first do the things we always need: 00257 // First string parameter of opaque address is file ident 00258 MsgStream log(msgSvc(), "RootCalBaseCnv"); 00259 log << MSG::DEBUG<<"RootCalBaseCnv::createObj( starting ...."<<endreq; 00260 const std::string* par = addr->par(); 00261 00262 std::string par0 = par[0]; 00263 00264 return internalCreateObj(par0, refpObject, addr); 00265 00266 }
StatusCode RootMucCalibDataCnv::createRoot | ( | const std::string & | fname, | |
CalibData::CalibBase1 * | pTDSObj | |||
) | [virtual] |
Create ROOT file corresponding to TDS object input. Default implementation is to return an error. Must be separately implemented for each calibration type.
fname | Filename for output file | |
pTDSObj | Pointer to tds object to be converted |
Reimplemented from RootCalBaseCnv.
Definition at line 162 of file RootMucCalibDataCnv.cxx.
References msgSvc().
00163 { 00164 00165 MsgStream log(msgSvc(), "RootMucCalibDataCnv"); 00166 00167 // Open the file, create the branch 00168 /* StatusCode sc = openWrite(fname); 00169 if(!sc) 00170 { log<<MSG::ERROR<<"unable to open files"<<endreq; 00171 } 00172 // write the Data in the TCDS to RootFile 00173 CalibData::MucCalibData* tmpObject = dynamic_cast<CalibData::MucCalibData*>(pTDSObj); 00174 int tmpNo; 00175 double MucCalibConst; 00176 double EnCoeff; 00177 double PosCoeff; 00178 int i; 00179 00180 //DigiCalibConst------------------------------------------------------------------ 00181 TTree *Digitree = new TTree("DigiCalibConst", "DigiCalibConst"); 00182 Digitree -> Branch("DigiCalibConst", &MucCalibConst, "MucCalibConst/D"); 00183 tmpNo = tmpObject -> getDigiCalibConstNo(); 00184 for(i=0; i<tmpNo; i++){ 00185 MucCalibConst = tmpObject -> getDigiCalibConst(i); 00186 Digitree -> Fill(); 00187 } 00188 00189 00190 //EnCoeff------------------------------------------------------------------------- 00191 TTree *Entree = new TTree("EnCoeff", "EnCoeff"); 00192 Entree -> Branch("EnCoeff", &EnCoeff, "EnCoeff/D"); 00193 tmpNo = tmpObject -> getEnCoeffNo(); 00194 for(i=0; i<tmpNo; i++){ 00195 EnCoeff = tmpObject -> getEnCoeff(i); 00196 Entree -> Fill(); 00197 } 00198 00199 //PosCoeff------------------------------------------------------------------------- 00200 TTree *Postree = new TTree("PosCoeff", "PosCoeff"); 00201 Postree -> Branch("PosCoeff", &PosCoeff, "PosCoeff/D"); 00202 tmpNo = tmpObject -> getPosCoeffNo(); 00203 for(i=0; i<tmpNo; i++){ 00204 PosCoeff = tmpObject -> getPosCoeff(i); 00205 Postree -> Fill(); 00206 } 00207 00208 00209 Digitree -> Write(); 00210 Entree -> Write(); 00211 Postree -> Write(); 00212 00213 00214 delete Digitree; 00215 delete Entree; 00216 delete Postree; 00217 00218 closeWrite(); 00219 log<<MSG::INFO<<"successfully create RootFile"<<endreq; 00220 */ 00221 return StatusCode::SUCCESS; 00222 00223 }
StatusCode RootCalBaseCnv::fillRoot | ( | CalibData::CalibBase * | pTDSObj, | |
TObject * | pRootObj | |||
) | [protected, virtual, inherited] |
Given a pointer to a TDS object which can be cast to "our" type, fill in corresponding information in the corresponding root class
pTDSObj | Pointer to tds object to be converted | |
pRootObj | Pointer to destination root object |
Definition at line 241 of file RootCalBaseCnv.cxx.
00242 { 00243 00244 // Get instrument name from InstrumentName service Now handled by 00245 // RootCalBaseCnv 00246 // TString instr = TString((m_instrSvc->getInstrumentName()).c_str()); 00247 // pRootObj->setInstrument(instr); 00248 return StatusCode::SUCCESS; 00249 }
StatusCode RootCalBaseCnv::finalize | ( | ) | [virtual, inherited] |
ICalibRootSvc* RootCalBaseCnv::getCalibRootSvc | ( | ) | [inline, inherited] |
Definition at line 58 of file RootCalBaseCnv.h.
References RootCalBaseCnv::m_rootSvc.
00058 { 00059 return m_rootSvc; 00060 }
StatusCode RootMucCalibDataCnv::i_createObj | ( | const std::string & | fname, | |
DataObject *& | refpObject | |||
) | [protected, virtual] |
This creates the transient representation of an object from the corresponding ROOT object. This actually does the "new" operation and deals with the attributes of the node. This base class implementation does nothing; it should not normally be called because it doesn't correspond to any TCDS class. Instead, i_createObj of some derived class will be called.
fname | The ROOT file to be read in to be used to builds the object | |
refpObject | the object to be built |
Reimplemented from RootCalBaseCnv.
Definition at line 53 of file RootMucCalibDataCnv.cxx.
References BOX_MAX, CLST_MAX, Bes_Common::DEBUG, DEFAULT_CLST_PRO, calibUtil::ERROR, genRecEmupikp::i, ganga-rec::j, LAYER_MAX, RootCalBaseCnv::m_inFile, m_ptrIdTr, msgSvc(), RootCalBaseCnv::openRead(), CalibData::MucCalibData::setBoxClstPro(), CalibData::MucCalibData::setBoxCnt(), CalibData::MucCalibData::setBoxEff(), CalibData::MucCalibData::setBoxNos(), CalibData::MucCalibData::setBoxNosRatio(), CalibData::MucIdTransform::SetBoxPos(), CalibData::MucCalibData::setLayerClstPro(), CalibData::MucCalibData::setLayerCnt(), CalibData::MucCalibData::setLayerEff(), CalibData::MucCalibData::setLayerNos(), CalibData::MucCalibData::setLayerNosRatio(), CalibData::MucCalibData::setStripCnt(), CalibData::MucCalibData::setStripEff(), CalibData::MucCalibData::setStripNos(), CalibData::MucCalibData::setStripNosRatio(), CalibData::MucIdTransform::SetStripPos(), and STRIP_MAX.
00054 { 00055 00056 MsgStream log(msgSvc(), "RootMucCalibDataCnv"); 00057 log<<MSG::DEBUG<<"SetProperty"<<endreq; 00058 00059 StatusCode sc = openRead(fname); 00060 if(!sc) 00061 { log<<MSG::ERROR<<"unable to open files"<<endreq; 00062 return StatusCode::FAILURE; 00063 } 00064 00065 MucCalibData *tmpObject = new MucCalibData() ; 00066 // Read in our object 00067 // int i; 00068 // int nentries; 00069 00070 // read DigiCalibConst ------------------------------------------------------------ 00071 00072 Double_t lay_eff, box_eff, str_eff; 00073 Double_t lay_cnt, box_cnt, str_cnt; 00074 Double_t lay_nos, box_nos, str_nos; 00075 Double_t lay_nos_ratio, box_nos_ratio, str_nos_ratio; 00076 lay_eff = box_eff = str_eff = 0.0; 00077 lay_cnt = box_cnt = str_cnt = 0.0; 00078 lay_nos = box_nos = str_nos = 0.0; 00079 lay_nos_ratio = box_nos_ratio = str_nos_ratio = 0.0; 00080 00081 char name[60]; 00082 00083 TTree* tr_Lvl[3]; 00084 //TTree* tr_ClstPro[2]; 00085 00086 //TTree *ddgtree = (TTree*)m_inFile -> Get("ddgcalib"); 00087 tr_Lvl[0] = (TTree*)m_inFile->Get("LayConst"); 00088 tr_Lvl[0]->SetBranchAddress("layer_eff", &lay_eff); 00089 tr_Lvl[0]->SetBranchAddress("layer_cnt", &lay_cnt); 00090 tr_Lvl[0]->SetBranchAddress("layer_noise", &lay_nos); 00091 tr_Lvl[0]->SetBranchAddress("layer_nosratio", &lay_nos_ratio); 00092 00093 tr_Lvl[1] = (TTree*)m_inFile->Get("BoxConst"); 00094 tr_Lvl[1]->SetBranchAddress("box_eff", &box_eff); 00095 tr_Lvl[1]->SetBranchAddress("box_cnt", &box_cnt); 00096 tr_Lvl[1]->SetBranchAddress("box_noise", &box_nos); 00097 tr_Lvl[1]->SetBranchAddress("box_nosratio", &box_nos_ratio); 00098 00099 tr_Lvl[2] = (TTree*)m_inFile->Get("StrConst"); 00100 tr_Lvl[2]->SetBranchAddress("strip_eff", &str_eff); 00101 tr_Lvl[2]->SetBranchAddress("strip_cnt", &str_cnt); 00102 tr_Lvl[2]->SetBranchAddress("strip_noise", &str_nos); 00103 tr_Lvl[2]->SetBranchAddress("strip_nosratio", &str_nos_ratio); 00104 //tr_ClstPro[0] = (TTree*)m_inFile->Get("LayClstPro"); 00105 //tr_ClstPro[1] = (TTree*)m_inFile->Get("BoxClstPro"); 00106 00107 int part, segment, layer, strip; 00108 part = segment = layer = strip = 0; 00109 for(int i=0; i<LAYER_MAX; i++) 00110 { 00111 00112 tr_Lvl[0]->GetEntry(i); 00113 tmpObject->setLayerEff(lay_eff, i); 00114 tmpObject->setLayerCnt(lay_cnt, i); 00115 tmpObject->setLayerNos(lay_nos, i); 00116 tmpObject->setLayerNosRatio(lay_nos_ratio, i); 00117 00118 sprintf(name,"LayClstPro"); 00119 //tr_ClstPro[0] = (TTree*)m_inFile->Get(name); 00120 for(int j=0; j<CLST_MAX; j++) { 00121 //if( tr_ClstPro[0] != NULL ) tmpObject->setLayerClstPro(tr_ClstPro[0]->GetBinContent(j),i,j); 00122 //else tmpObject->setLayerClstPro(DEFAULT_CLST_PRO[j],i,j); 00123 tmpObject->setLayerClstPro(DEFAULT_CLST_PRO[j],i,j); 00124 } 00125 //log<<MSG::DEBUG<<"layer: " << i << "\t" << lay_eff <<endreq; 00126 } 00127 00128 for(int i=0; i<BOX_MAX; i++) 00129 { 00130 m_ptrIdTr->SetBoxPos( i, &part, &segment, &layer ); 00131 tr_Lvl[1]->GetEntry(i); 00132 tmpObject->setBoxEff(box_eff, part, segment, layer); 00133 tmpObject->setBoxCnt(box_cnt, part, segment, layer); 00134 tmpObject->setBoxNos(box_nos, part, segment, layer); 00135 tmpObject->setBoxNosRatio(box_nos_ratio, part, segment, layer); 00136 00137 sprintf(name,"BoxClstPro_B%d",i); 00138 //tr_ClstPro[1] = (TTree*)m_inFile->Get(name); 00139 for(int j=0; j<CLST_MAX; j++) { 00140 //if( tr_ClstPro[1] != NULL ) tmpObject->setBoxClstPro(tr_ClstPro[1]->GetBinContent(j),part,segment,layer,j); 00141 //else tmpObject->setBoxClstPro(DEFAULT_CLST_PRO[j],part,segment,layer,j); 00142 tmpObject->setBoxClstPro(DEFAULT_CLST_PRO[j],part,segment,layer,j); 00143 } 00144 //log<<MSG::DEBUG<<"box: " << i << "\t" << box_eff <<endreq; 00145 } 00146 00147 for(int i=0; i<STRIP_MAX; i++) 00148 { 00149 m_ptrIdTr->SetStripPos( i, &part, &segment, &layer, &strip ); 00150 tr_Lvl[2]->GetEntry(i); 00151 tmpObject->setStripEff(str_eff, part, segment, layer, strip); 00152 tmpObject->setStripCnt(str_cnt, part, segment, layer, strip); 00153 tmpObject->setStripNos(str_nos, part, segment, layer, strip); 00154 tmpObject->setStripNosRatio(str_nos_ratio, part, segment, layer, strip); 00155 //log<<MSG::DEBUG<<"strip: " << i << "\t" << str_eff <<endreq; 00156 } 00157 refpObject=tmpObject; 00158 00159 return StatusCode::SUCCESS; 00160 }
StatusCode RootCalBaseCnv::i_processObj | ( | DataObject * | pObject, | |
IOpaqueAddress * | address | |||
) | [protected, virtual, inherited] |
In case there is additional work to do on the created object.
Definition at line 322 of file RootCalBaseCnv.cxx.
Referenced by RootCalBaseCnv::internalCreateObj().
StatusCode RootCalBaseCnv::initialize | ( | ) | [virtual, inherited] |
Definition at line 46 of file RootCalBaseCnv.cxx.
References IID_ICalibMetaCnvSvc(), IID_ICalibRootSvc(), IID_IInstrumentName(), RootCalBaseCnv::m_instrSvc, RootCalBaseCnv::m_metaSvc, and RootCalBaseCnv::m_rootSvc.
00046 { 00047 StatusCode status = Converter::initialize(); 00048 00049 IDataProviderSvc* dp; 00050 00051 // I guess the service names are assigned in jobOptions? 00052 00053 /*serviceLocator()->getService ("CalibDataSvc", 00054 IID_IDataProviderSvc, 00055 (IInterface*&)dp);*/ 00056 serviceLocator()->getService ("CalibDataSvc", 00057 IDataProviderSvc::interfaceID(), 00058 (IInterface*&)dp); 00059 setDataProvider(dp); 00060 00061 // Locate the Root Conversion Service 00062 serviceLocator()->getService ("CalibRootCnvSvc", 00063 IID_ICalibRootSvc, 00064 (IInterface*&) m_rootSvc); 00065 00066 // Locate meta conversion service 00067 // Will anything need to be changed here to accommodate possibility 00068 // of two concrete implementations of ICalibMetaCnvSvc? Would 00069 // have different storage types. Could specify type desired 00070 // as job option. Ditto for name of class? 00071 serviceLocator()->getService("CalibMySQLCnvSvc", 00072 IID_ICalibMetaCnvSvc, 00073 (IInterface*&)m_metaSvc); 00074 00075 serviceLocator()->getService ("CalibDataSvc", 00076 IID_IInstrumentName, 00077 (IInterface*&)m_instrSvc); 00078 00079 return status; 00080 }
StatusCode RootCalBaseCnv::internalCreateObj | ( | const std::string & | fname, | |
DataObject *& | refpObject, | |||
IOpaqueAddress * | address | |||
) | [protected, virtual, inherited] |
This creates the transient representation of an object from the corresponding ROOT object it, then fills it and process it. This implementation actually only calls the i_* methods of the "right" converter to do the job; so the very first thing it does is get a pointer to the appropriate derived converter. Converters typically don't need to override this method but only to override/implement some of the i_* methods.
pRootObj | pointer to the ROOT object | |
refpObject | the object to be built | |
address | the opaque address for this object |
Definition at line 268 of file RootCalBaseCnv.cxx.
References RootCalBaseCnv::closeRead(), Bes_Common::DEBUG, calibUtil::ERROR, RootCalBaseCnv::i_createObj(), RootCalBaseCnv::i_processObj(), RootCalBaseCnv::m_runfrm, RootCalBaseCnv::m_runto, msgSvc(), RootCalBaseCnv::setBaseInfo(), and Bes_Common::WARNING.
Referenced by RootCalBaseCnv::createObj().
00270 { 00271 MsgStream log(msgSvc(), "RootCalBaseCnv"); 00272 log << MSG::DEBUG<<"RootCalBaseCnv::internalCreateObj( starting ..... "<<endreq; 00273 RootCalBaseCnv* converter = this; 00274 CLID classId = address->clID(); 00275 00276 IConverter* conv = this->conversionSvc()->converter(classId); 00277 if (0 == conv) { 00278 log << MSG::WARNING 00279 << "No proper converter found for classID " << classId 00280 << ", the default converter" 00281 << " will be used. " << endreq; 00282 } else { 00283 converter = dynamic_cast <RootCalBaseCnv*> (conv); 00284 if (0 == converter) { 00285 log << MSG::ERROR 00286 << "The converter found for classID " << classId 00287 << " was not a descendent of RootCalBaseCnv as it should be " 00288 << "( was of type " << typeid (*converter).name() << "). " 00289 << "The default converter will be used" << endreq; 00290 converter = this; 00291 } 00292 } 00293 00294 m_runfrm =*( address->ipar()); 00295 m_runto =*( address->ipar()+1); 00296 // creates an object for the node found 00297 StatusCode sc = converter->i_createObj(fname, refpObject); 00298 if (sc.isFailure()) { 00299 return sc; 00300 } 00301 CalibData::CalibBase1* tmpObject = dynamic_cast <CalibData::CalibBase1*> (refpObject); 00302 setBaseInfo(tmpObject); 00303 // ends up the object construction 00304 sc = converter->i_processObj(refpObject, address); 00305 if (sc.isSuccess()) { 00306 log << MSG::DEBUG << "Successfully created calib. object " << endreq; 00307 } 00308 closeRead(); 00309 return sc; 00310 }
const CLID & RootMucCalibDataCnv::objType | ( | ) | const |
Definition at line 45 of file RootMucCalibDataCnv.cxx.
References CLID_Calib_MucCal.
00045 { 00046 return CLID_Calib_MucCal; 00047 }
StatusCode RootCalBaseCnv::openRead | ( | const std::string & | fname | ) | [protected, inherited] |
Utility for "leaf" converters to call
Root | file to open for read | |
Name | of branch to be read in | |
ref. | to pCalib pointer which will be set to address of read-in object |
Definition at line 98 of file RootCalBaseCnv.cxx.
References RootCalBaseCnv::doClean(), calibUtil::ERROR, Bes_Common::INFO, RootCalBaseCnv::m_inFile, RootCalBaseCnv::m_saveDir, msgSvc(), deljobs::string, and Bes_Common::WARNING.
Referenced by RootTofSimDataCnv::i_createObj(), RootTofElecDataCnv::i_createObj(), RootTofCalibDataCnv::i_createObj(), i_createObj(), RootMdcCalibDataCnv::i_createObj(), RootEstTofCalibDataCnv::i_createObj(), RootEsTimeCalibDataCnv::i_createObj(), RootEmcCalibDataCnv::i_createObj(), RootDedxSimDataCnv::i_createObj(), and RootDedxCalibDataCnv::i_createObj().
00098 { 00099 00100 MsgStream log(msgSvc(), "RootCalBaseCnv"); 00101 00102 // Check fname isn't empty 00103 if (fname == std::string("")) return StatusCode::FAILURE; 00104 00105 if (doClean() ) { 00106 log << MSG::WARNING << "Previous operation didn't clean up! " << endreq; 00107 } 00108 m_saveDir = gDirectory; 00109 00110 std::string ourName(fname); 00111 facilities::Util::expandEnvVar(&ourName); 00112 00113 m_inFile = new TFile(ourName.c_str()); 00114 00115 if (!m_inFile->IsOpen() ) { 00116 log << MSG::ERROR << "ROOT file " << ourName 00117 << "could not be opened for reading " << endreq; 00118 delete m_inFile; 00119 m_inFile = 0; 00120 return StatusCode::FAILURE; 00121 } 00122 else { 00123 log << MSG::INFO 00124 << "Successfully opened ROOT file " << fname << " aka " << ourName 00125 << " for reading " << endreq; 00126 } 00127 00128 00129 m_inFile->cd(); // Maybe will need this 00130 00131 00132 return StatusCode::SUCCESS; 00133 }
StatusCode RootCalBaseCnv::openWrite | ( | const std::string & | fname | ) | [protected, virtual, inherited] |
Utility used by derived converters to start writing a ROOT file (open TFile, make a TTree, give it a branch)
fname | Name for new file | |
className | Name of class for object specified in next parameter; used to name branch as well) | |
pCalib | pointer to object used to create the branch |
Definition at line 148 of file RootCalBaseCnv.cxx.
References RootCalBaseCnv::doClean(), calibUtil::ERROR, Bes_Common::INFO, RootCalBaseCnv::m_outFile, RootCalBaseCnv::m_saveDir, msgSvc(), deljobs::string, and Bes_Common::WARNING.
Referenced by RootTofSimDataCnv::createRoot(), RootTofCalibDataCnv::createRoot(), RootMdcCalibDataCnv::createRoot(), RootEstTofCalibDataCnv::createRoot(), RootEsTimeCalibDataCnv::createRoot(), RootEmcCalibDataCnv::createRoot(), RootDedxSimDataCnv::createRoot(), and RootDedxCalibDataCnv::createRoot().
00148 { 00149 00150 MsgStream log(msgSvc(), "RootCalBaseCnv"); 00151 00152 // Check fname isn't empty 00153 if (fname == std::string("")) return StatusCode::FAILURE; 00154 00155 std::string ourName(fname); 00156 facilities::Util::expandEnvVar(&ourName); 00157 00158 if (doClean() ) { 00159 log << MSG::WARNING << "Previous operation didn't clean up! " << endreq; 00160 } 00161 00162 m_saveDir = gDirectory; 00163 00164 00165 m_outFile = new TFile(ourName.c_str(), "RECREATE"); 00166 if (!m_outFile->IsOpen()) { 00167 log << MSG::ERROR << "ROOT file " << fname << " aka " << ourName 00168 << " could not be opened for writing" << endreq; 00169 delete m_outFile; 00170 m_outFile = 0; 00171 return StatusCode::FAILURE; 00172 } 00173 else { 00174 log << MSG::INFO 00175 << "Successfully opened ROOT file " << fname << " aka " << ourName 00176 << " for writing " << endreq; 00177 } 00178 m_outFile->cd(); 00179 return StatusCode::SUCCESS; 00180 }
destination* Converter< Ty1, Ty2 >::operator | ( | const source & | ) | const [inline, inherited] |
StatusCode RootCalBaseCnv::readRootObj | ( | TTree * | tree, | |
const std::string & | branch, | |||
TObject *& | pCalib, | |||
unsigned | index = 0 | |||
) | [virtual, inherited] |
Definition at line 206 of file RootCalBaseCnv.cxx.
00208 { 00209 TBranch* pBranch=pTree->GetBranch(branch.c_str()); 00210 pBranch->SetAddress(&pObj); 00211 int nBytes = pBranch->GetEntry(ix); 00212 return (nBytes > 0) ? StatusCode::SUCCESS : StatusCode::FAILURE; 00213 }
StatusCode RootCalBaseCnv::readRootObj | ( | const std::string & | treename, | |
const std::string & | branch, | |||
TObject *& | pCalib, | |||
unsigned | index = 0 | |||
) | [virtual, inherited] |
Read in object (by default the first) from specified branch.
Definition at line 198 of file RootCalBaseCnv.cxx.
References RootCalBaseCnv::m_inFile.
00200 { 00201 TTree* pTree = (TTree*)m_inFile->Get(treename.c_str()); 00202 00203 return readRootObj(pTree, branch, pObj, ix); 00204 }
virtual long RootMucCalibDataCnv::repSvcType | ( | ) | const [inline, virtual] |
Definition at line 39 of file RootMucCalibDataCnv.h.
References CALIBROOT_StorageType.
00039 { 00040 return CALIBROOT_StorageType; 00041 }
void RootCalBaseCnv::setBaseInfo | ( | CalibData::CalibBase1 * | pObj | ) | [protected, inherited] |
Another utility for derived classes to use.
Another convenience for derived classes: sets information belonging to the calibration base class, namely validity interval and serial number.
Definition at line 328 of file RootCalBaseCnv.cxx.
References Bes_Common::DEBUG, RootCalBaseCnv::m_runfrm, RootCalBaseCnv::m_runto, msgSvc(), CalibData::CalibBase1::setrunfrm(), and CalibData::CalibBase1::setrunto().
Referenced by RootCalBaseCnv::internalCreateObj().
00328 { 00329 MsgStream log(msgSvc(), "RootCalBaseCnv"); 00330 log << MSG::DEBUG<<"set the runfrm and runto Numbers in the converter"<<endreq; 00331 pObj->setrunfrm(m_runfrm); 00332 pObj->setrunto(m_runto); 00333 }
static const unsigned char RootCalBaseCnv::storageType | ( | ) | [inline, static, inherited] |
Definition at line 62 of file RootCalBaseCnv.h.
References CALIBROOT_StorageType.
00062 {return CALIBROOT_StorageType;}
friend class CnvFactory< RootMucCalibDataCnv > [friend] |
Definition at line 28 of file RootMucCalibDataCnv.h.
TFile* RootCalBaseCnv::m_inFile [protected, inherited] |
Definition at line 207 of file RootCalBaseCnv.h.
Referenced by RootCalBaseCnv::closeRead(), RootCalBaseCnv::doClean(), RootTofSimDataCnv::i_createObj(), RootTofElecDataCnv::i_createObj(), RootTofCalibDataCnv::i_createObj(), i_createObj(), RootMdcCalibDataCnv::i_createObj(), RootEstTofCalibDataCnv::i_createObj(), RootEsTimeCalibDataCnv::i_createObj(), RootEmcCalibDataCnv::i_createObj(), RootDedxSimDataCnv::i_createObj(), RootDedxCalibDataCnv::i_createObj(), RootCalBaseCnv::openRead(), and RootCalBaseCnv::readRootObj().
IInstrumentName* RootCalBaseCnv::m_instrSvc [protected, inherited] |
ICalibMetaCnvSvc* RootCalBaseCnv::m_metaSvc [protected, inherited] |
TFile* RootCalBaseCnv::m_outFile [protected, inherited] |
Definition at line 204 of file RootCalBaseCnv.h.
Referenced by RootCalBaseCnv::closeWrite(), RootCalBaseCnv::doClean(), and RootCalBaseCnv::openWrite().
Definition at line 48 of file RootMucCalibDataCnv.h.
Referenced by i_createObj(), and RootMucCalibDataCnv().
ICalibRootSvc* RootCalBaseCnv::m_rootSvc [protected, inherited] |
Definition at line 193 of file RootCalBaseCnv.h.
Referenced by RootCalBaseCnv::getCalibRootSvc(), and RootCalBaseCnv::initialize().
int RootCalBaseCnv::m_runfrm [protected, inherited] |
Definition at line 200 of file RootCalBaseCnv.h.
Referenced by RootCalBaseCnv::internalCreateObj(), and RootCalBaseCnv::setBaseInfo().
int RootCalBaseCnv::m_runto [protected, inherited] |
Definition at line 201 of file RootCalBaseCnv.h.
Referenced by RootCalBaseCnv::internalCreateObj(), and RootCalBaseCnv::setBaseInfo().
TDirectory* RootCalBaseCnv::m_saveDir [protected, inherited] |
Definition at line 209 of file RootCalBaseCnv.h.
Referenced by RootCalBaseCnv::closeRead(), RootCalBaseCnv::closeWrite(), RootCalBaseCnv::doClean(), RootCalBaseCnv::openRead(), and RootCalBaseCnv::openWrite().
int RootCalBaseCnv::m_serNo [protected, inherited] |
Definition at line 197 of file RootCalBaseCnv.h.
TTree* RootCalBaseCnv::m_ttree [protected, inherited] |
ITime* RootCalBaseCnv::m_vend [protected, inherited] |
Definition at line 199 of file RootCalBaseCnv.h.
ITime* RootCalBaseCnv::m_vstart [protected, inherited] |
Definition at line 198 of file RootCalBaseCnv.h.