TreeMucCalibDataCnv Class Reference

#include <TreeMucCalibDataCnv.h>

Inheritance diagram for TreeMucCalibDataCnv:

Public Member Functions
const CLID &	objType () const
	TreeMucCalibDataCnv (ISvcLocator *svc)
virtual	~TreeMucCalibDataCnv ()
virtual long	repSvcType () const
Public Member Functions inherited from TreeCalBaseCnv
virtual	~TreeCalBaseCnv ()
virtual StatusCode	initialize ()
virtual StatusCode	finalize ()
virtual StatusCode	createObj (IOpaqueAddress *addr, DataObject *&refpObject)
ICalibTreeSvc *	getCalibTreeSvc ()
	TreeCalBaseCnv (ISvcLocator *svc, const CLID &clid)
virtual StatusCode	createRoot (const std::string &fname, CalibData::CalibBase1 *pTDSObj)
Public Member Functions inherited from Converter< Ty1, Ty2 >
destination *	operator (const source &) const

Static Public Member Functions
static const CLID &	classID ()
Static Public Member Functions inherited from TreeCalBaseCnv
static const unsigned char	storageType ()

Protected Member Functions
virtual StatusCode	i_createObj (IOpaqueAddress *address, DataObject *&refpObject)
Protected Member Functions inherited from TreeCalBaseCnv
virtual StatusCode	internalCreateObj (DataObject *&refpObject, IOpaqueAddress *address)
virtual StatusCode	i_createObj (IOpaqueAddress *address, DataObject *&refpObject)
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)
void	setBaseInfo (CalibData::CalibBase1 *pObj)
	Another utility for derived classes to use.
Protected Member Functions inherited from Converter< Ty1, Ty2 >
virtual destination *	convert (const source &) const =0

Friends
class	CnvFactory< TreeMucCalibDataCnv >

Additional Inherited Members
Public Types inherited from Converter< Ty1, Ty2 >
typedef Ty1	source
typedef Ty2	destination
Protected Attributes inherited from TreeCalBaseCnv
ICalibTreeSvc *	m_treeSvc
ICalibMetaCnvSvc *	m_metaSvc
IInstrumentName *	m_instrSvc
int	m_serNo
int	m_runfrm
int	m_runto
TFile *	m_outFile
TTree *	m_ttree
TFile *	m_inFile
TDirectory *	m_saveDir

Detailed Description

Base class for CAL calibration converters from Ttrees to TCDS. All such converters need to do certain things, which are handled here. Methods common to all calibrations are in the base class TreeCalBaseCnv

Author

huang bin

Definition at line 22 of file TreeMucCalibDataCnv.h.

Constructor & Destructor Documentation

TreeMucCalibDataCnv()

TreeMucCalibDataCnv::TreeMucCalibDataCnv

(

ISvcLocator *

svc

)

Definition at line 33 of file TreeMucCalibDataCnv.cxx.

                                                          :
    TreeCalBaseCnv(svc, CLID_Calib_MucCal) { 
        m_ptrIdTr = new MucIdTransform();
    }

~TreeMucCalibDataCnv()

virtual TreeMucCalibDataCnv::~TreeMucCalibDataCnv ( )

inlinevirtual

Definition at line 31 of file TreeMucCalibDataCnv.h.

{};

Member Function Documentation

classID()

const CLID & TreeMucCalibDataCnv::classID ( )

static

Definition at line 43 of file TreeMucCalibDataCnv.cxx.

                                         {
    return CLID_Calib_MucCal;
}

i_createObj()

StatusCode TreeMucCalibDataCnv::i_createObj ( IOpaqueAddress *  address, DataObject *&  refpObject  )

protectedvirtual

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.

Parameters

fname	The ROOT file to be read in to be used to builds the object
refpObject	the object to be built

Returns

status depending on the completion of the call

Reimplemented from TreeCalBaseCnv.

Definition at line 47 of file TreeMucCalibDataCnv.cxx.

                                 {
 
    MsgStream log(msgSvc(), "TreeMucCalibDataCnv");
    log<<MSG::DEBUG<<"SetProperty"<<endreq;
    CalibData::MucCalibData *tmpObject = new CalibData::MucCalibData ;  
    TreeAddress* add = dynamic_cast<TreeAddress*>(addr);
    DatabaseRecord *records=add->pp();
 
    TBufferFile *buf1 = new TBufferFile(TBuffer::kRead);
    TBufferFile *buf2 = new TBufferFile(TBuffer::kRead);
    TBufferFile *buf3 = new TBufferFile(TBuffer::kRead);
    buf1->SetBuffer((*records)["LayTree"],512000,kFALSE);
    buf2->SetBuffer((*records)["BoxTree"],512000,kFALSE);
    buf3->SetBuffer((*records)["StrTree"],512000,kFALSE);
    std::cout<<" SftVer is "<<(*records)["SftVer"];
    std::cout<<" CalVerSft is "<<(*records)["CalParVer"];
    std::cout<<"  File name  is "<<(*records)["FileName"]<<std::endl;
 
 
    TTree* laytree = new TTree(); 
    laytree->Streamer(*buf1); 
    log<<MSG::DEBUG<< "laytree name:\t" << laytree->GetName() << endreq;
    TTree* boxtree = new TTree(); 
    boxtree->Streamer(*buf2);
    log<<MSG::DEBUG<< "boxtree name:\t" << boxtree->GetName() << endreq;
    TTree* strtree= new TTree(); 
    strtree->Streamer(*buf3); 
    log<<MSG::DEBUG<< "strtree name:\t" << strtree->GetName() << endreq;
 
    // Read in the object
    //read layerConst-----------------------------
    Double_t lay_eff,box_eff,str_eff;
    Double_t lay_cnt, box_cnt, str_cnt;
    Double_t lay_nos, box_nos, str_nos;
    Double_t lay_nos_ratio, box_nos_ratio, str_nos_ratio;
    lay_eff = box_eff = str_eff = 0.0;
    lay_cnt = box_cnt = str_cnt = 0.0;
    lay_nos = box_nos = str_nos = 0.0;
    lay_nos_ratio = box_nos_ratio = str_nos_ratio = 0.0;
 
    char name[60];
    laytree->SetBranchAddress("layer_eff", &lay_eff);
    laytree->SetBranchAddress("layer_cnt", &lay_cnt);
    laytree->SetBranchAddress("layer_noise", &lay_nos);
    laytree->SetBranchAddress("layer_nosratio",&lay_nos_ratio);
 
    boxtree->SetBranchAddress("box_eff", &box_eff);
    boxtree->SetBranchAddress("box_cnt", &box_cnt);
    boxtree->SetBranchAddress("box_noise", &box_nos);
    boxtree->SetBranchAddress("box_nosratio", &box_nos_ratio); 
 
    strtree->SetBranchAddress("strip_eff", &str_eff);
    strtree->SetBranchAddress("strip_cnt", &str_cnt);
    strtree->SetBranchAddress("strip_noise", &str_nos);
    strtree->SetBranchAddress("strip_nosratio", &str_nos_ratio);
 
    int part, segment, layer, strip;
    part = segment = layer = strip = 0;
    for(int i=0; i<LAYER_MAX; i++)
    {
        laytree->GetEntry(i);
        tmpObject->setLayerEff(lay_eff,i);
        tmpObject->setLayerCnt(lay_cnt, i);
        tmpObject->setLayerNos(lay_nos, i);
        tmpObject->setLayerNosRatio(lay_nos_ratio, i);
        sprintf(name,"LayClstPro");
        for(int j=0; j<CLST_MAX; j++) {
            //        if( ht_Pro[0] != NULL ) tmpObject->setLayerClstPro(ht_Pro[0]->GetBinContent(j),i,j);
            //          else tmpObject->setLayerClstPro(DEFAULT_CLST_PRO[j],i,j);
            tmpObject->setLayerClstPro(DEFAULT_CLST_PRO[j],i,j);
        }
        log<<MSG::DEBUG<<"layer: " << i << "\t" << lay_eff <<endreq;        
    }
 
    for(int i=0; i<BOX_MAX; i++)
    {
        m_ptrIdTr->SetBoxPos( i, &part, &segment, &layer );
        boxtree->GetEntry(i);       
        tmpObject->setBoxEff(box_eff, part, segment, layer);
        tmpObject->setBoxCnt(box_cnt, part, segment, layer);
        tmpObject->setBoxNos(box_nos, part, segment, layer);
        tmpObject->setBoxNosRatio(box_nos_ratio, part, segment, layer);
 
        sprintf(name,"BoxClstPro_B%d",i);
        for(int j=0; j<CLST_MAX; j++) {
            //        if( ht_Pro[1] != NULL ) tmpObject->setBoxClstPro(ht_Pro[1]->GetBinContent(j),part,segment,layer,j);
            //    else
            tmpObject->setBoxClstPro(DEFAULT_CLST_PRO[j],part,segment,layer,j);
        }
        log<<MSG::DEBUG<<"box: " << i << "\t" << box_eff <<endreq;               
    }
 
    log<<MSG::DEBUG<<"strtree entries:\t" << strtree->GetEntries() << endreq;
    for(int i=0; i<STRIP_MAX; i++)
    {       
        m_ptrIdTr->SetStripPos( i, &part, &segment, &layer, &strip );
        strtree->GetEntry(i);
        tmpObject->setStripEff(str_eff, part, segment, layer, strip);
        tmpObject->setStripCnt(str_cnt, part, segment, layer, strip);
        tmpObject->setStripNos(str_nos, part, segment, layer, strip);
        tmpObject->setStripNosRatio(str_nos_ratio, part, segment, layer, strip);
        log<<MSG::DEBUG<<"strip: " << i << "\t" << str_eff <<endreq;               
 
    }  
 
    refpObject=tmpObject;
    delete laytree;
    delete boxtree;
    delete strtree;
    return StatusCode::SUCCESS;
 
 
}

objType()

const CLID & TreeMucCalibDataCnv::objType

(

)

const

Definition at line 39 of file TreeMucCalibDataCnv.cxx.

                                               {
    return CLID_Calib_MucCal;
}

repSvcType()

virtual long TreeMucCalibDataCnv::repSvcType ( ) const

inlinevirtual

Definition at line 36 of file TreeMucCalibDataCnv.h.

                                  { 
          return CALIBTREE_StorageType; 
      } 

Friends And Related Function Documentation

CnvFactory< TreeMucCalibDataCnv >

friend class CnvFactory< TreeMucCalibDataCnv >

friend

Definition at line 1 of file TreeMucCalibDataCnv.h.

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The documentation for this class was generated from the following files:

• TreeMucCalibDataCnv.h
• TreeMucCalibDataCnv.cxx