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Classes | |
| struct | beamData |
| struct | LumiSource |
| struct | PerBXData |
| struct | PerLumiData |
Public Types | |
| typedef std::vector< PerLumiData > | LumiResult |
Public Member Functions | |
| virtual const std::string | dataType () const |
| Lumi2DB (const std::string &dest) | |
| virtual void | retrieveData (unsigned int) |
| virtual const std::string | sourceType () const |
| virtual | ~Lumi2DB () |
Static Public Attributes | |
| static const unsigned int | COMMITLSINTERVAL = 500 |
| static const unsigned int | NORMFACTOR = 6370 |
Private Member Functions | |
| float | applyCalibration (float varToCalibrate) const |
| bool | isLumiDataValid (LumiResult::iterator lumiBeg, LumiResult::iterator lumiEnd) |
| void | parseSourceString (lumi::Lumi2DB::LumiSource &result) const |
| void | retrieveBeamIntensity (HCAL_HLX::DIP_COMBINED_DATA *dataPtr, Lumi2DB::beamData &b) const |
| void | writeAllLumiData (coral::ISessionProxy *session, unsigned int irunnumber, const std::string &ilumiversion, LumiResult::iterator lumiBeg, LumiResult::iterator lumiEnd) |
| void | writeBeamIntensityOnly (coral::ISessionProxy *session, unsigned int irunnumber, const std::string &ilumiversion, LumiResult::iterator lumiBeg, LumiResult::iterator lumiEnd) |
Definition at line 32 of file Lumi2DB.cc.
| typedef std::vector<PerLumiData> lumi::Lumi2DB::LumiResult |
Definition at line 83 of file Lumi2DB.cc.
| lumi::Lumi2DB::Lumi2DB | ( | const std::string & | dest | ) |
Definition at line 397 of file Lumi2DB.cc.
| lumi::Lumi2DB::~Lumi2DB | ( | ) | [virtual] |
Definition at line 673 of file Lumi2DB.cc.
{}
| float lumi::Lumi2DB::applyCalibration | ( | float | varToCalibrate | ) | const [private] |
Definition at line 98 of file Lumi2DB.cc.
References NORMFACTOR.
{
return float(varToCalibrate)*float(lumi::Lumi2DB::NORMFACTOR);
}
| const std::string lumi::Lumi2DB::dataType | ( | ) | const [virtual] |
| bool lumi::Lumi2DB::isLumiDataValid | ( | LumiResult::iterator | lumiBeg, |
| LumiResult::iterator | lumiEnd | ||
| ) | [private] |
Definition at line 102 of file Lumi2DB.cc.
{
lumi::Lumi2DB::LumiResult::iterator lumiIt;
int nBad=0;
for(lumiIt=lumiBeg;lumiIt!=lumiEnd;++lumiIt){
//std::cout<<"instlumi before calib "<<lumiIt->instlumi<<std::endl;
if(lumiIt->instlumi<=1.0e-8){//cut before calib
++nBad;
}
}
if(nBad==std::distance(lumiBeg,lumiEnd)){
return false;
}
return true;
}
| void lumi::Lumi2DB::parseSourceString | ( | lumi::Lumi2DB::LumiSource & | result | ) | const [private] |
Definition at line 400 of file Lumi2DB.cc.
References lumi::Lumi2DB::LumiSource::datestr, Exception, lumi::Lumi2DB::LumiSource::firstsection, csv2json::pieces, pos, lumi::Lumi2DB::LumiSource::run, and lumi::Lumi2DB::LumiSource::version.
{
//parse lumi source file name
if(m_source.length()==0) throw lumi::Exception("lumi source is not set","parseSourceString","Lumi2DB");
//std::cout<<"source "<<m_source<<std::endl;
size_t tempIndex = m_source.find_last_of(".");
size_t nameLength = m_source.length();
std::string FileSuffix= m_source.substr(tempIndex+1,nameLength - tempIndex);
std::string::size_type lastPos=m_source.find_first_not_of("_",0);
std::string::size_type pos = m_source.find_first_of("_",lastPos);
std::vector<std::string> pieces;
while( std::string::npos != pos || std::string::npos != lastPos){
pieces.push_back(m_source.substr(lastPos,pos-lastPos));
lastPos=m_source.find_first_not_of("_",pos);
pos=m_source.find_first_of("_",lastPos);
}
if( pieces[1]!="LUMI" || pieces[2]!="RAW" || FileSuffix!="root"){
throw lumi::Exception("not lumi raw data file CMS_LUMI_RAW","parseSourceString","Lumi2DB");
}
std::strcpy(result.datestr,pieces[3].c_str());
std::strcpy(result.version,pieces[5].c_str());
//std::cout<<"version : "<<result.version<<std::endl;
result.run = atoi(pieces[4].c_str());
//std::cout<<"run : "<<result.run<<std::endl;
result.firstsection = atoi(pieces[5].c_str());
//std::cout<<"first section : "<< result.firstsection<<std::endl;
}
| void lumi::Lumi2DB::retrieveBeamIntensity | ( | HCAL_HLX::DIP_COMBINED_DATA * | dataPtr, |
| Lumi2DB::beamData & | b | ||
| ) | const [private] |
Definition at line 428 of file Lumi2DB.cc.
References a, HCAL_HLX::DIP_COMBINED_DATA::Beam, lumi::Lumi2DB::beamData::beamintensity_1, lumi::Lumi2DB::beamData::beamintensity_2, lumi::Lumi2DB::beamData::bxindex, gather_cfg::cout, i, lumi::N_BX, and lumi::Lumi2DB::beamData::nlivebx.
{
if(dataPtr==0){
std::cout<<"HCAL_HLX::DIP_COMBINED_DATA* dataPtr=0"<<std::endl;
b.bxindex=0;
b.beamintensity_1=0;
b.beamintensity_2=0;
b.nlivebx=0;
}else{
b.bxindex=(short*)::malloc(sizeof(short)*lumi::N_BX);
b.beamintensity_1=(float*)::malloc(sizeof(float)*lumi::N_BX);
b.beamintensity_2=(float*)::malloc(sizeof(float)*lumi::N_BX);
short a=0;//a is position in lumidetail array
for(unsigned int i=0;i<lumi::N_BX;++i){
if(i==0 && (dataPtr->Beam[0].averageBunchIntensities[0]>0 || dataPtr->Beam[1].averageBunchIntensities[0]>0) ){
b.bxindex[a]=0;
b.beamintensity_1[a]=dataPtr->Beam[0].averageBunchIntensities[0];
b.beamintensity_2[a]=dataPtr->Beam[1].averageBunchIntensities[0];
++a;
continue;
}
if(dataPtr->Beam[0].averageBunchIntensities[i-1]>0 || dataPtr->Beam[1].averageBunchIntensities[i-1]>0){
b.bxindex[a]=i;
b.beamintensity_1[a]=dataPtr->Beam[0].averageBunchIntensities[i-1];
b.beamintensity_2[a]=dataPtr->Beam[1].averageBunchIntensities[i-1];
++a;
//if(i!=0){
// std::cout<<"beam intensity "<<dataPtr->sectionNumber<<" "<<dataPtr->timestamp-1262300400<<" "<<(i-1)*10+1<<" "<<b.beamintensity_1[a]<<" "<<b.beamintensity_2[a]<<std::endl;
//}
}
}
b.nlivebx=a;
}
}
| void lumi::Lumi2DB::retrieveData | ( | unsigned int | runnumber | ) | [virtual] |
if(bOCC1.lumivalue*6.370>1.0e-04){ if(i!=0){ std::cout<<i<<" detail "<<(i-1)*10+1<<" "<<(timestp-1262300400)<<" "<<bOCC1.lumivalue*6.37<<" "<<bOCC1.lumierr*6.37<<std::endl; } }
Implements lumi::DataPipe.
Definition at line 464 of file Lumi2DB.cc.
References b, HCAL_HLX::LUMI_SECTION_HEADER::bCMSLive, lumi::Lumi2DB::PerLumiData::beamenergy, lumi::Lumi2DB::PerLumiData::beamintensity_1, lumi::Lumi2DB::PerLumiData::beamintensity_2, lumi::Lumi2DB::PerLumiData::beammode, lumi::Lumi2DB::PerLumiData::bxET, lumi::Lumi2DB::PerLumiData::bxindex, lumi::Lumi2DB::PerLumiData::bxOCC1, lumi::Lumi2DB::PerLumiData::bxOCC2, lumi::Lumi2DB::PerLumiData::cmsalive, lumi::Lumi2DB::PerLumiData::cmslsnr, gather_cfg::cout, HCAL_HLX::LUMI_SUMMARY::DeadTimeNormalization, lumi::Lumi2DB::PerLumiData::dtnorm, lumi::Lumi2DB::beamData::energy, HCAL_HLX::LUMI_DETAIL::ETLumi, HCAL_HLX::LUMI_DETAIL::ETLumiErr, HCAL_HLX::LUMI_DETAIL::ETLumiQlty, Exception, h, i, HCAL_HLX::LUMI_SUMMARY::InstantLumi, HCAL_HLX::LUMI_SUMMARY::InstantLumiErr, HCAL_HLX::LUMI_SUMMARY::InstantLumiQlty, lumi::Lumi2DB::PerLumiData::instlumi, lumi::Lumi2DB::PerLumiData::instlumierror, lumi::Lumi2DB::PerLumiData::lhcnorm, HCAL_HLX::LUMI_SUMMARY::LHCNormalization, lumi::Lumi2DB::PerBXData::lumierr, tablePrinter::lumiheader, lumi::Lumi2DB::PerLumiData::lumilsnr, lumi::Lumi2DB::PerBXData::lumiquality, lumi::Lumi2DB::PerLumiData::lumisectionquality, lumi::Lumi2DB::PerBXData::lumivalue, lumi::Lumi2DB::beamData::mode, lumi::N_BX, lumi::Lumi2DB::PerLumiData::nlivebx, lumi::Lumi2DB::PerLumiData::numorbit, HCAL_HLX::LUMI_SECTION_HEADER::numOrbits, HCAL_HLX::LUMI_DETAIL::OccLumi, HCAL_HLX::LUMI_DETAIL::OccLumiErr, HCAL_HLX::LUMI_DETAIL::OccLumiQlty, lumi::Lumi2DB::LumiSource::run, HCAL_HLX::LUMI_SECTION_HEADER::sectionNumber, python::CommonUtils::session, lumi::DBConfig::setAuthentication(), LaserTracksInput_cfi::source, HCAL_HLX::LUMI_SECTION_HEADER::startOrbit, lumi::Lumi2DB::PerLumiData::startorbit, python::CommonUtils::svc, lumi::Lumi2DB::LumiSource::version, and lumi::Exception::what().
{
lumi::Lumi2DB::LumiResult lumiresult;
//check filename is in lumiraw format
lumi::Lumi2DB::LumiSource filenamecontent;
try{
parseSourceString(filenamecontent);
}catch(const lumi::Exception& er){
std::cout<<er.what()<<std::endl;
throw er;
}
if( filenamecontent.run!=runnumber ){
throw lumi::Exception("runnumber in file name does not match requested run number","retrieveData","Lumi2DB");
}
TFile* source=TFile::Open(m_source.c_str(),"READ");
TTree *hlxtree = (TTree*)source->Get("HLXData");
if(!hlxtree){
throw lumi::Exception(std::string("non-existing HLXData "),"retrieveData","Lumi2DB");
}
//hlxtree->Print();
std::auto_ptr<HCAL_HLX::LUMI_SECTION> localSection(new HCAL_HLX::LUMI_SECTION);
HCAL_HLX::LUMI_SECTION_HEADER* lumiheader = &(localSection->hdr);
HCAL_HLX::LUMI_SUMMARY* lumisummary = &(localSection->lumiSummary);
HCAL_HLX::LUMI_DETAIL* lumidetail = &(localSection->lumiDetail);
hlxtree->SetBranchAddress("Header.",&lumiheader);
hlxtree->SetBranchAddress("Summary.",&lumisummary);
hlxtree->SetBranchAddress("Detail.",&lumidetail);
size_t nentries=hlxtree->GetEntries();
//source->GetListOfKeys()->Print();
std::map<unsigned int, Lumi2DB::beamData> dipmap;
TTree *diptree= (TTree*)source->Get("DIPCombined");
if(diptree){
//throw lumi::Exception(std::string("non-existing DIPData "),"retrieveData","Lumi2DB");
std::auto_ptr<HCAL_HLX::DIP_COMBINED_DATA> dipdata(new HCAL_HLX::DIP_COMBINED_DATA);
diptree->SetBranchAddress("DIPCombined.",&dipdata);
size_t ndipentries=diptree->GetEntries();
for(size_t i=0;i<ndipentries;++i){
diptree->GetEntry(i);
beamData b;
//std::cout<<"Beam Mode : "<<dipdata->beamMode<<"\n";
//std::cout<<"Beam Energy : "<<dipdata->Energy<<"\n";
//std::cout<<"sectionUmber : "<<dipdata->sectionNumber<<"\n";
unsigned int dipls=dipdata->sectionNumber;
if (std::string(dipdata->beamMode).empty()){
b.mode="N/A";
}else{
b.mode=dipdata->beamMode;
}
b.energy=dipdata->Energy;
this->retrieveBeamIntensity(dipdata.get(),b);
dipmap.insert(std::make_pair(dipls,b));
}
}else{
for(size_t i=0;i<nentries;++i){
beamData b;
b.mode="N/A";
b.energy=0.0;
this->retrieveBeamIntensity(0,b);
dipmap.insert(std::make_pair(i,b));
}
}
//diptree->Print();
size_t ncmslumi=0;
std::cout<<"processing total lumi lumisection "<<nentries<<std::endl;
//size_t lumisecid=0;
//unsigned int lumilumisecid=0;
//runnumber=lumiheader->runNumber;
//
//hardcode the first LS is always alive
//
for(size_t i=0;i<nentries;++i){
lumi::Lumi2DB::PerLumiData h;
h.cmsalive=1;
hlxtree->GetEntry(i);
//std::cout<<"live flag "<<lumiheader->bCMSLive <<std::endl;
if( !lumiheader->bCMSLive && i!=0){
std::cout<<"\t non-CMS LS "<<lumiheader->sectionNumber<<" ";
h.cmsalive=0;
}
++ncmslumi;
h.bxET.reserve(lumi::N_BX);
h.bxOCC1.reserve(lumi::N_BX);
h.bxOCC2.reserve(lumi::N_BX);
//runnumber=lumiheader->runNumber;
//if(runnumber!=m_run) throw std::runtime_error(std::string("requested run ")+this->int2str(m_run)+" does not match runnumber in the data header "+this->int2str(runnumber));
h.lumilsnr=lumiheader->sectionNumber;
std::map<unsigned int , Lumi2DB::beamData >::iterator beamIt=dipmap.find(h.lumilsnr);
if ( beamIt!=dipmap.end() ){
h.beammode=beamIt->second.mode;
h.beamenergy=beamIt->second.energy;
h.nlivebx=beamIt->second.nlivebx;
if(h.nlivebx!=0){
h.bxindex=(short*)malloc(sizeof(short)*h.nlivebx);
h.beamintensity_1=(float*)malloc(sizeof(float)*h.nlivebx);
h.beamintensity_2=(float*)malloc(sizeof(float)*h.nlivebx);
if(h.bxindex==0 || h.beamintensity_1==0 || h.beamintensity_2==0){
std::cout<<"malloc failed"<<std::endl;
}
//std::cout<<"h.bxindex size "<<sizeof(short)*h.nlivebx<<std::endl;
//std::cout<<"h.beamintensity_1 size "<<sizeof(float)*h.nlivebx<<std::endl;
//std::cout<<"h.beamintensity_2 size "<<sizeof(float)*h.nlivebx<<std::endl;
std::memmove(h.bxindex,beamIt->second.bxindex,sizeof(short)*h.nlivebx);
std::memmove(h.beamintensity_1,beamIt->second.beamintensity_1,sizeof(float)*h.nlivebx);
std::memmove(h.beamintensity_2,beamIt->second.beamintensity_2,sizeof(float)*h.nlivebx);
::free(beamIt->second.bxindex);beamIt->second.bxindex=0;
::free(beamIt->second.beamintensity_1);beamIt->second.beamintensity_1=0;
::free(beamIt->second.beamintensity_2);beamIt->second.beamintensity_2=0;
}else{
//std::cout<<"h.nlivebx is zero"<<std::endl;
h.bxindex=0;
h.beamintensity_1=0;
h.beamintensity_2=0;
}
}else{
h.beammode="N/A";
h.beamenergy=0.0;
h.nlivebx=0;
h.bxindex=0;
h.beamintensity_1=0;
h.beamintensity_2=0;
}
h.startorbit=lumiheader->startOrbit;
h.numorbit=lumiheader->numOrbits;
if(h.cmsalive==0){
h.cmslsnr=0; //the dead ls has cmsls number=0
}else{
h.cmslsnr=ncmslumi;//we guess cms lumils
}
h.instlumi=lumisummary->InstantLumi;
//std::cout<<"instant lumi "<<lumisummary->InstantLumi<<std::endl;
h.instlumierror=lumisummary->InstantLumiErr;
h.lumisectionquality=lumisummary->InstantLumiQlty;
h.dtnorm=lumisummary->DeadTimeNormalization;
h.lhcnorm=lumisummary->LHCNormalization;
//unsigned int timestp=lumiheader->timestamp;
//std::cout<<"cmslsnum "<<ncmslumi<<"timestp "<<timestp<<std::endl;
for(size_t i=0;i<lumi::N_BX;++i){
lumi::Lumi2DB::PerBXData bET;
lumi::Lumi2DB::PerBXData bOCC1;
lumi::Lumi2DB::PerBXData bOCC2;
//bET.idx=i+1;
bET.lumivalue=lumidetail->ETLumi[i];
bET.lumierr=lumidetail->ETLumiErr[i];
bET.lumiquality=lumidetail->ETLumiQlty[i];
h.bxET.push_back(bET);
//bOCC1.idx=i+1;
bOCC1.lumivalue=lumidetail->OccLumi[0][i];
bOCC1.lumierr=lumidetail->OccLumiErr[0][i];
bOCC1.lumiquality=lumidetail->OccLumiQlty[0][i];
h.bxOCC1.push_back(bOCC1);
//bOCC2.idx=i+1;
bOCC2.lumivalue=lumidetail->OccLumi[1][i];
bOCC2.lumierr=lumidetail->OccLumiErr[1][i];
bOCC2.lumiquality=lumidetail->OccLumiQlty[1][i];
h.bxOCC2.push_back(bOCC2);
}
lumiresult.push_back(h);
}
std::cout<<std::endl;
if ( isLumiDataValid(lumiresult.begin(),lumiresult.end()) ){
coral::ConnectionService* svc=new coral::ConnectionService;
lumi::DBConfig dbconf(*svc);
if(!m_authpath.empty()){
dbconf.setAuthentication(m_authpath);
}
coral::ISessionProxy* session=svc->connect(m_dest,coral::Update);
coral::ITypeConverter& tpc=session->typeConverter();
tpc.setCppTypeForSqlType("unsigned int","NUMBER(10)");
try{
const std::string lversion(filenamecontent.version);
if(m_mode==std::string("beamintensity_only")){
writeBeamIntensityOnly(session,runnumber,lversion,lumiresult.begin(),lumiresult.end());
}else{
writeAllLumiData(session,runnumber,lversion,lumiresult.begin(),lumiresult.end());
}
}catch( const coral::Exception& er){
session->transaction().rollback();
delete session;
delete svc;
throw er;
}
delete session;
delete svc;
}else{
std::cout<<"no valid lumi data found, quit"<<std::endl;
throw lumi::Exception("no valid lumi data found","retrieveData","Lumi2DB");
}
}
| const std::string lumi::Lumi2DB::sourceType | ( | ) | const [virtual] |
| void lumi::Lumi2DB::writeAllLumiData | ( | coral::ISessionProxy * | session, |
| unsigned int | irunnumber, | ||
| const std::string & | ilumiversion, | ||
| LumiResult::iterator | lumiBeg, | ||
| LumiResult::iterator | lumiEnd | ||
| ) | [private] |
Definition at line 193 of file Lumi2DB.cc.
References COMMITLSINTERVAL, gather_cfg::cout, lumi::idDealer::generateNextIDForTable(), j, gen::k, lumi::LumiNames::lumidetailTableName(), lumi::LumiNames::lumisummaryTableName(), lumi::N_BX, and lumi::N_LUMIALGO.
{
coral::AttributeList summaryData;
coral::AttributeList detailData;
summaryData.extend("LUMISUMMARY_ID",typeid(unsigned long long));
summaryData.extend("RUNNUM",typeid(unsigned int));
summaryData.extend("CMSLSNUM",typeid(unsigned int));
summaryData.extend("LUMILSNUM",typeid(unsigned int));
summaryData.extend("LUMIVERSION",typeid(std::string));
summaryData.extend("DTNORM",typeid(float));
summaryData.extend("LHCNORM",typeid(float));
summaryData.extend("INSTLUMI",typeid(float));
summaryData.extend("INSTLUMIERROR",typeid(float));
summaryData.extend("INSTLUMIQUALITY",typeid(short));
summaryData.extend("LUMISECTIONQUALITY",typeid(short));
summaryData.extend("CMSALIVE",typeid(short));
summaryData.extend("STARTORBIT",typeid(unsigned int));
summaryData.extend("NUMORBIT",typeid(unsigned int));
summaryData.extend("BEAMENERGY",typeid(float));
summaryData.extend("BEAMSTATUS",typeid(std::string));
summaryData.extend("CMSBXINDEXBLOB",typeid(coral::Blob));
summaryData.extend("BEAMINTENSITYBLOB_1",typeid(coral::Blob));
summaryData.extend("BEAMINTENSITYBLOB_2",typeid(coral::Blob));
detailData.extend("LUMIDETAIL_ID",typeid(unsigned long long));
detailData.extend("LUMISUMMARY_ID",typeid(unsigned long long));
detailData.extend("BXLUMIVALUE",typeid(coral::Blob));
detailData.extend("BXLUMIERROR",typeid(coral::Blob));
detailData.extend("BXLUMIQUALITY",typeid(coral::Blob));
detailData.extend("ALGONAME",typeid(std::string));
unsigned long long& lumisummary_id=summaryData["LUMISUMMARY_ID"].data<unsigned long long>();
unsigned int& lumirunnum = summaryData["RUNNUM"].data<unsigned int>();
std::string& lumiversion = summaryData["LUMIVERSION"].data<std::string>();
float& dtnorm = summaryData["DTNORM"].data<float>();
float& lhcnorm = summaryData["LHCNORM"].data<float>();
float& instlumi = summaryData["INSTLUMI"].data<float>();
float& instlumierror = summaryData["INSTLUMIERROR"].data<float>();
short& instlumiquality = summaryData["INSTLUMIQUALITY"].data<short>();
short& lumisectionquality = summaryData["LUMISECTIONQUALITY"].data<short>();
short& alive = summaryData["CMSALIVE"].data<short>();
unsigned int& lumilsnr = summaryData["LUMILSNUM"].data<unsigned int>();
unsigned int& cmslsnr = summaryData["CMSLSNUM"].data<unsigned int>();
unsigned int& startorbit = summaryData["STARTORBIT"].data<unsigned int>();
unsigned int& numorbit = summaryData["NUMORBIT"].data<unsigned int>();
float& beamenergy = summaryData["BEAMENERGY"].data<float>();
std::string& beamstatus = summaryData["BEAMSTATUS"].data<std::string>();
coral::Blob& bxindex = summaryData["CMSBXINDEXBLOB"].data<coral::Blob>();
coral::Blob& beamintensity_1 = summaryData["BEAMINTENSITYBLOB_1"].data<coral::Blob>();
coral::Blob& beamintensity_2 = summaryData["BEAMINTENSITYBLOB_2"].data<coral::Blob>();
unsigned long long& lumidetail_id=detailData["LUMIDETAIL_ID"].data<unsigned long long>();
unsigned long long& d2lumisummary_id=detailData["LUMISUMMARY_ID"].data<unsigned long long>();
coral::Blob& bxlumivalue=detailData["BXLUMIVALUE"].data<coral::Blob>();
coral::Blob& bxlumierror=detailData["BXLUMIERROR"].data<coral::Blob>();
coral::Blob& bxlumiquality=detailData["BXLUMIQUALITY"].data<coral::Blob>();
std::string& algoname=detailData["ALGONAME"].data<std::string>();
lumi::Lumi2DB::LumiResult::const_iterator lumiIt;
coral::IBulkOperation* summaryInserter=0;
coral::IBulkOperation* detailInserter=0;
//one loop for ids
//nested transaction doesn't work with bulk inserter
unsigned int totallumils=std::distance(lumiBeg,lumiEnd);
unsigned int lumiindx=0;
std::map< unsigned long long,std::vector<unsigned long long> > idallocationtable;
std::cout<<"\t allocating total lumisummary ids "<<totallumils<<std::endl;
std::cout<<"\t allocating total lumidetail ids "<<totallumils*lumi::N_LUMIALGO<<std::endl;
session->transaction().start(false);
lumi::idDealer idg(session->nominalSchema());
unsigned long long lumisummaryID = idg.generateNextIDForTable(LumiNames::lumisummaryTableName(),totallumils)-totallumils;
unsigned long long lumidetailID=idg.generateNextIDForTable(LumiNames::lumidetailTableName(),totallumils*lumi::N_LUMIALGO)-totallumils*lumi::N_LUMIALGO;
session->transaction().commit();
for(lumiIt=lumiBeg;lumiIt!=lumiEnd;++lumiIt,++lumiindx,++lumisummaryID){
std::vector< unsigned long long > allIDs;
allIDs.reserve(1+lumi::N_LUMIALGO);
allIDs.push_back(lumisummaryID);
for( unsigned int j=0; j<lumi::N_LUMIALGO; ++j, ++lumidetailID){
allIDs.push_back(lumidetailID);
}
idallocationtable.insert(std::make_pair(lumiindx,allIDs));
}
std::cout<<"\t all ids allocated"<<std::endl;
lumiindx=0;
unsigned int comittedls=0;
for(lumiIt=lumiBeg;lumiIt!=lumiEnd;++lumiIt,++lumiindx){
if(!session->transaction().isActive()){
session->transaction().start(false);
coral::ITable& summarytable=session->nominalSchema().tableHandle(LumiNames::lumisummaryTableName());
summaryInserter=summarytable.dataEditor().bulkInsert(summaryData,totallumils);
coral::ITable& detailtable=session->nominalSchema().tableHandle(LumiNames::lumidetailTableName());
detailInserter=detailtable.dataEditor().bulkInsert(detailData,totallumils*lumi::N_LUMIALGO);
}
lumisummary_id=idallocationtable[lumiindx][0];
lumirunnum = irunnumber;
lumiversion = ilumiversion;
dtnorm = lumiIt->dtnorm;
lhcnorm = lumiIt->lhcnorm;
//instlumi = lumiIt->instlumi;
//instlumierror = lumiIt->instlumierror;
instlumi = applyCalibration(lumiIt->instlumi);
instlumierror = applyCalibration(lumiIt->instlumierror);
instlumiquality = lumiIt->instlumiquality;
lumisectionquality = lumiIt->lumisectionquality;
alive = lumiIt->cmsalive;
cmslsnr = lumiIt->cmslsnr;
lumilsnr = lumiIt->lumilsnr;
startorbit = lumiIt->startorbit;
numorbit = lumiIt->numorbit;
beamenergy = lumiIt->beamenergy;
beamstatus = lumiIt->beammode;
short nlivebx=lumiIt->nlivebx;
//std::cout<<"nlivebx "<<nlivebx<<std::endl;
if(nlivebx!=0){
bxindex.resize(sizeof(short)*nlivebx);
beamintensity_1.resize(sizeof(float)*nlivebx);
beamintensity_2.resize(sizeof(float)*nlivebx);
void* bxindex_StartAddress = bxindex.startingAddress();
void* beamIntensity1_StartAddress = beamintensity_1.startingAddress();
void* beamIntensity2_StartAddress = beamintensity_2.startingAddress();
std::memmove(bxindex_StartAddress,lumiIt->bxindex,sizeof(short)*nlivebx);
std::memmove(beamIntensity1_StartAddress,lumiIt->beamintensity_1,sizeof(float)*nlivebx);
std::memmove(beamIntensity2_StartAddress,lumiIt->beamintensity_2,sizeof(float)*nlivebx);
::free(lumiIt->bxindex);
::free(lumiIt->beamintensity_1);
::free(lumiIt->beamintensity_2);
}else{
bxindex.resize(0);
beamintensity_1.resize(0);
beamintensity_2.resize(0);
}
//insert the new row
summaryInserter->processNextIteration();
summaryInserter->flush();
unsigned int algoindx=1;
for( unsigned int j=0; j<lumi:: N_LUMIALGO; ++j,++algoindx ){
d2lumisummary_id=idallocationtable[lumiindx].at(0);
lumidetail_id=idallocationtable[lumiindx].at(algoindx);
std::vector<PerBXData>::const_iterator bxIt;
std::vector<PerBXData>::const_iterator bxBeg;
std::vector<PerBXData>::const_iterator bxEnd;
if(j==0) {
algoname=std::string("ET");
bxBeg=lumiIt->bxET.begin();
bxEnd=lumiIt->bxET.end();
}
if(j==1) {
algoname=std::string("OCC1");
bxBeg=lumiIt->bxOCC1.begin();
bxEnd=lumiIt->bxOCC1.end();
}
if(j==2) {
algoname=std::string("OCC2");
bxBeg=lumiIt->bxOCC2.begin();
bxEnd=lumiIt->bxOCC2.end();
}
float lumivalue[lumi::N_BX]={0.0};
float lumierror[lumi::N_BX]={0.0};
int lumiquality[lumi::N_BX]={0};
bxlumivalue.resize(sizeof(float)*lumi::N_BX);
bxlumierror.resize(sizeof(float)*lumi::N_BX);
bxlumiquality.resize(sizeof(short)*lumi::N_BX);
void* bxlumivalueStartAddress=bxlumivalue.startingAddress();
void* bxlumierrorStartAddress=bxlumierror.startingAddress();
void* bxlumiqualityStartAddress=bxlumiquality.startingAddress();
unsigned int k=0;
for( bxIt=bxBeg;bxIt!=bxEnd;++bxIt,++k ){
lumivalue[k]=bxIt->lumivalue;
lumierror[k]=bxIt->lumierr;
lumiquality[k]=bxIt->lumiquality;
}
std::memmove(bxlumivalueStartAddress,lumivalue,sizeof(float)*lumi::N_BX);
std::memmove(bxlumierrorStartAddress,lumierror,sizeof(float)*lumi::N_BX);
std::memmove(bxlumiqualityStartAddress,lumiquality,sizeof(short)*lumi::N_BX);
detailInserter->processNextIteration();
}
detailInserter->flush();
++comittedls;
if(comittedls==Lumi2DB::COMMITLSINTERVAL){
std::cout<<"\t committing in LS chunck "<<comittedls<<std::endl;
delete summaryInserter;
summaryInserter=0;
delete detailInserter;
detailInserter=0;
session->transaction().commit();
comittedls=0;
std::cout<<"\t committed "<<std::endl;
}else if( lumiindx==(totallumils-1) ){
std::cout<<"\t committing at the end"<<std::endl;
delete summaryInserter; summaryInserter=0;
delete detailInserter; detailInserter=0;
session->transaction().commit();
std::cout<<"\t done"<<std::endl;
}
}
}
| void lumi::Lumi2DB::writeBeamIntensityOnly | ( | coral::ISessionProxy * | session, |
| unsigned int | irunnumber, | ||
| const std::string & | ilumiversion, | ||
| LumiResult::iterator | lumiBeg, | ||
| LumiResult::iterator | lumiEnd | ||
| ) | [private] |
Definition at line 117 of file Lumi2DB.cc.
References COMMITLSINTERVAL, gather_cfg::cout, idDealer::inputData, lumi::LumiNames::lumisummaryTableName(), and cond::runnumber.
{
coral::AttributeList inputData;
inputData.extend("bxindex",typeid(coral::Blob));
inputData.extend("beamintensity_1",typeid(coral::Blob));
inputData.extend("beamintensity_2",typeid(coral::Blob));
inputData.extend("runnum",typeid(unsigned int));
inputData.extend("startorbit",typeid(unsigned int));
inputData.extend("lumiversion",typeid(std::string));
coral::Blob& bxindex = inputData["bxindex"].data<coral::Blob>();
coral::Blob& beamintensity_1 = inputData["beamintensity_1"].data<coral::Blob>();
coral::Blob& beamintensity_2 = inputData["beamintensity_2"].data<coral::Blob>();
unsigned int& runnumber = inputData["runnum"].data<unsigned int>();
unsigned int& startorbit = inputData["startorbit"].data<unsigned int>();
std::string& lumiversion = inputData["lumiversion"].data<std::string>();
lumi::Lumi2DB::LumiResult::const_iterator lumiIt;
coral::IBulkOperation* summaryUpdater=0;
unsigned int totallumils=std::distance(lumiBeg,lumiEnd);
unsigned int lumiindx=0;
unsigned int comittedls=0;
std::string setClause("CMSBXINDEXBLOB=:bxindex,BEAMINTENSITYBLOB_1=:beamintensity_1,BEAMINTENSITYBLOB_2=:beamintensity_2");
std::string condition("RUNNUM=:runnum AND STARTORBIT=:startorbit AND LUMIVERSION=:lumiversion");
runnumber=irunnumber;
lumiversion=ilumiversion;
for(lumiIt=lumiBeg;lumiIt!=lumiEnd;++lumiIt,++lumiindx){
if(!session->transaction().isActive()){
session->transaction().start(false);
}
startorbit=lumiIt->startorbit;
//std::cout<<"runnumber "<<irunnumber<<" starorbit "<<startorbit<<" lumiversion "<<lumiversion<<" totallumils "<<totallumils<<std::endl;
short nlivebx=lumiIt->nlivebx;
if(nlivebx!=0){
bxindex.resize(sizeof(short)*nlivebx);
beamintensity_1.resize(sizeof(float)*nlivebx);
beamintensity_2.resize(sizeof(float)*nlivebx);
void* bxindex_StartAddress = bxindex.startingAddress();
void* beamIntensity1_StartAddress = beamintensity_1.startingAddress();
void* beamIntensity2_StartAddress = beamintensity_2.startingAddress();
std::memmove(bxindex_StartAddress,lumiIt->bxindex,sizeof(short)*nlivebx);
std::memmove(beamIntensity1_StartAddress,lumiIt->beamintensity_1,sizeof(float)*nlivebx);
std::memmove(beamIntensity2_StartAddress,lumiIt->beamintensity_2,sizeof(float)*nlivebx);
::free(lumiIt->bxindex);
::free(lumiIt->beamintensity_1);
::free(lumiIt->beamintensity_2);
}else{
bxindex.resize(0);
beamintensity_1.resize(0);
beamintensity_2.resize(0);
}
coral::ITable& summarytable=session->nominalSchema().tableHandle(LumiNames::lumisummaryTableName());
summaryUpdater=summarytable.dataEditor().bulkUpdateRows(setClause,condition,inputData,totallumils);
summaryUpdater->processNextIteration();
summaryUpdater->flush();
++comittedls;
if(comittedls==Lumi2DB::COMMITLSINTERVAL){
std::cout<<"\t committing in LS chunck "<<comittedls<<std::endl;
delete summaryUpdater;
summaryUpdater=0;
session->transaction().commit();
comittedls=0;
std::cout<<"\t committed "<<std::endl;
}else if( lumiindx==(totallumils-1) ){
std::cout<<"\t committing at the end"<<std::endl;
delete summaryUpdater; summaryUpdater=0;
session->transaction().commit();
std::cout<<"\t done"<<std::endl;
}
}
}
const unsigned int lumi::Lumi2DB::COMMITLSINTERVAL = 500 [static] |
Definition at line 34 of file Lumi2DB.cc.
Referenced by writeAllLumiData(), and writeBeamIntensityOnly().
const unsigned int lumi::Lumi2DB::NORMFACTOR = 6370 [static] |
Definition at line 35 of file Lumi2DB.cc.
Referenced by applyCalibration().
1.7.3