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#include <DTTriggerLutTest.h>
Public Member Functions | |
| DTTriggerLutTest (const edm::ParameterSet &ps) | |
| Constructor. | |
| virtual | ~DTTriggerLutTest () |
| Destructor. | |
Protected Member Functions | |
| void | beginJob () |
| BeginJob. | |
| void | beginRun (const edm::Run &r, const edm::EventSetup &c) |
| BeginRun. | |
| void | runClientDiagnostic () |
| Run client analysis. | |
Private Member Functions | |
| void | bookCmsHistos1d (std::string hTag, std::string folder="") |
| void | fillWhPlot (MonitorElement *plot, int sect, int stat, float value, bool lessIsBest=true) |
| Fill summary plots managing double MB4 chambers. | |
| int | performLutTest (double perc, double threshold1, double threshold2) |
| Perform Lut Test logical operations. | |
Private Attributes | |
| bool | detailedAnalysis |
| double | thresholdErrPhi |
| double | thresholdErrPhiB |
| double | thresholdWarnPhi |
| double | thresholdWarnPhiB |
| double | validRange |
* DQM Test Client to monitor Local Trigger position / direction assignement
Definition at line 21 of file DTTriggerLutTest.h.
| DTTriggerLutTest::DTTriggerLutTest | ( | const edm::ParameterSet & | ps | ) |
Constructor.
Definition at line 36 of file DTTriggerLutTest.cc.
References edm::ParameterSet::getUntrackedParameter().
{
setConfig(ps,"DTTriggerLut");
baseFolderDCC = "DT/03-LocalTrigger-DCC/";
baseFolderDDU = "DT/04-LocalTrigger-DDU/";
thresholdWarnPhi = ps.getUntrackedParameter<double>("thresholdWarnPhi");
thresholdErrPhi = ps.getUntrackedParameter<double>("thresholdErrPhi");
thresholdWarnPhiB = ps.getUntrackedParameter<double>("thresholdWarnPhiB");
thresholdErrPhiB = ps.getUntrackedParameter<double>("thresholdErrPhiB");
validRange = ps.getUntrackedParameter<double>("validRange");
detailedAnalysis = ps.getUntrackedParameter<bool>("detailedAnalysis");
}
| DTTriggerLutTest::~DTTriggerLutTest | ( | ) | [virtual] |
| void DTTriggerLutTest::beginJob | ( | void | ) | [protected, virtual] |
BeginJob.
Reimplemented from DTLocalTriggerBaseTest.
Definition at line 56 of file DTTriggerLutTest.cc.
References bk::beginJob(), and Parameters::parameters.
{
DTLocalTriggerBaseTest::beginJob();
vector<string>::const_iterator iTr = trigSources.begin();
vector<string>::const_iterator trEnd = trigSources.end();
vector<string>::const_iterator iHw = hwSources.begin();
vector<string>::const_iterator hwEnd = hwSources.end();
//Booking
if(parameters.getUntrackedParameter<bool>("staticBooking")){
for (; iTr != trEnd; ++iTr){
trigSource = (*iTr);
for (; iHw != hwEnd; ++iHw){
hwSource = (*iHw);
// Loop over the TriggerUnits
for (int wh=-2; wh<=2; ++wh){
if (detailedAnalysis){
bookWheelHistos(wh,"PhiResidualPercentage");
bookWheelHistos(wh,"PhibResidualPercentage");
}
bookWheelHistos(wh,"PhiLutSummary","Summaries");
bookWheelHistos(wh,"PhibLutSummary","Summaries");
if (detailedAnalysis){
bookWheelHistos(wh,"PhiResidualMean");
bookWheelHistos(wh,"PhiResidualRMS");
bookWheelHistos(wh,"PhibResidualMean");
bookWheelHistos(wh,"PhibResidualRMS");
bookWheelHistos(wh,"CorrelationFactorPhi");
bookWheelHistos(wh,"CorrelationFactorPhib");
bookWheelHistos(wh,"DoublePeakFlagPhib");
}
}
bookCmsHistos("TrigLutSummary","",true);
bookCmsHistos("PhiLutSummary");
bookCmsHistos("PhibLutSummary");
if (detailedAnalysis){
bookCmsHistos1d("PhiPercentageSummary");
bookCmsHistos1d("PhibPercentageSummary");
}
}
}
}
}
| void DTTriggerLutTest::beginRun | ( | const edm::Run & | r, |
| const edm::EventSetup & | c | ||
| ) | [protected, virtual] |
BeginRun.
Reimplemented from DTLocalTriggerBaseTest.
Definition at line 108 of file DTTriggerLutTest.cc.
References DTLocalTriggerBaseTest::beginRun().
{
DTLocalTriggerBaseTest::beginRun(r,c);
}
| void DTTriggerLutTest::bookCmsHistos1d | ( | std::string | hTag, |
| std::string | folder = "" |
||
| ) | [private] |
Definition at line 361 of file DTTriggerLutTest.cc.
References python::rootplot::argparse::category, newFWLiteAna::fullName, LogTrace, and MonitorElement::setAxisTitle().
{
string basedir = topFolder(true);
if (folder != "") {
basedir += folder +"/" ;
}
dbe->setCurrentFolder(basedir);
string hName = fullName(hTag);
LogTrace(category()) << "[" << testName << "Test]: booking " << basedir << hName;
MonitorElement* me = dbe->book1D(hName.c_str(),hName.c_str(),101,-0.005,1.005);
me->setAxisTitle("Percentage",1);
cmsME[hName] = me;
}
| void DTTriggerLutTest::fillWhPlot | ( | MonitorElement * | plot, |
| int | sect, | ||
| int | stat, | ||
| float | value, | ||
| bool | lessIsBest = true |
||
| ) | [private] |
Fill summary plots managing double MB4 chambers.
Definition at line 379 of file DTTriggerLutTest.cc.
References MonitorElement::getBinContent(), and MonitorElement::setBinContent().
{
if (sect>12) {
int scsect = sect==13 ? 4 : 10;
if ((value>plot->getBinContent(scsect,stat)) == lessIsBest) {
plot->setBinContent(scsect,stat,value);
}
}
else {
plot->setBinContent(sect,stat,value);
}
return;
}
| int DTTriggerLutTest::performLutTest | ( | double | perc, |
| double | threshold1, | ||
| double | threshold2 | ||
| ) | [private] |
Perform Lut Test logical operations.
Definition at line 350 of file DTTriggerLutTest.cc.
References query::result.
| void DTTriggerLutTest::runClientDiagnostic | ( | ) | [protected, virtual] |
Run client analysis.
Implements DTLocalTriggerBaseTest.
Definition at line 115 of file DTTriggerLutTest.cc.
References corr, newFWLiteAna::fullName, edm::max(), Mean, plotscripts::rms(), testRegression::stat, and DTChamberId::wheel().
{
// Reset lut percentage 1D summaries
if (detailedAnalysis){
cmsME.find(fullName("PhiPercentageSummary"))->second->Reset();
cmsME.find(fullName("PhibPercentageSummary"))->second->Reset();
}
// Loop over Trig & Hw sources
for (vector<string>::const_iterator iTr = trigSources.begin(); iTr != trigSources.end(); ++iTr){
trigSource = (*iTr);
for (vector<string>::const_iterator iHw = hwSources.begin(); iHw != hwSources.end(); ++iHw){
hwSource = (*iHw);
vector<DTChamber*>::const_iterator chIt = muonGeom->chambers().begin();
vector<DTChamber*>::const_iterator chEnd = muonGeom->chambers().end();
for (; chIt != chEnd; ++chIt) {
DTChamberId chId((*chIt)->id());
int wh = chId.wheel();
int sect = chId.sector();
int stat = chId.station();
std::map<std::string,MonitorElement*> &innerME = whME[wh];
// Make Phi Residual Summary
TH1F * PhiResidual = getHisto<TH1F>(dbe->get(getMEName("PhiResidual","Segment", chId)));
int phiSummary = 1;
if (PhiResidual && PhiResidual->GetEntries()>10) {
if( innerME.find(fullName("PhiResidualPercentage")) == innerME.end() ){
bookWheelHistos(wh,"PhiResidualPercentage");
}
float rangeBin = validRange/(PhiResidual->GetBinWidth(1));
float center = (PhiResidual->GetNbinsX())/2.;
float perc = (PhiResidual->Integral(floor(center-rangeBin),ceil(center+rangeBin)))/(PhiResidual->Integral());
fillWhPlot(innerME.find(fullName("PhiResidualPercentage"))->second,sect,stat,perc,false);
phiSummary = performLutTest(perc,thresholdWarnPhi,thresholdErrPhi);
if (detailedAnalysis) cmsME.find(fullName("PhiPercentageSummary"))->second->Fill(perc);
}
fillWhPlot(innerME.find(fullName("PhiLutSummary"))->second,sect,stat,phiSummary);
if (detailedAnalysis){
// if ((phiSummary ==0)&& (PhiResidual->GetEntries()>100)) { //Precision Peak test
// Float_t *source = new float[31];
// Float_t *dest = new float[31];
// //TSpectrum *g = new TSpectrum(5);
// float media = PhiResidual->GetMean();
// int center = PhiResidual->GetXaxis()->FindBin(media);
// for (int i = 0; i < 30; i++) {
// source[i]=PhiResidual->GetBinContent(center+i-15);}
// int nFound = g->SearchHighRes(source, dest, 30, 1, 6, kFALSE, 5, kTRUE,2);
// /if (nFound>1) { // has more than 1 peak
// if( innerME.find(fullName("DoublePeakFlagPhi")) == innerME.end() ){
// bookWheelHistos(wh,"DoublePeakFlagPhi");
// }
// }
// fillWhPlot(innerME.find(fullName("DoublePeakFlagPhi"))->second,sect,stat,1,false);
// }
if ((phiSummary==0)||(phiSummary==3)){ //Information on the Peak
if( innerME.find(fullName("PhiResidualMean")) == innerME.end() ){
bookWheelHistos(wh,"PhiResidualMean");
bookWheelHistos(wh,"PhiResidualRMS");
}
float center = (PhiResidual->GetNbinsX())/2.;
float rangeBin = validRange/(PhiResidual->GetBinWidth(1));
PhiResidual->GetXaxis()->SetRange(floor(center-rangeBin),ceil(center+rangeBin));
float max = PhiResidual->GetMaximumBin();
float maxBin = PhiResidual->GetXaxis()->FindBin(max);
float nBinMax = 0.5/(PhiResidual->GetBinWidth(1));
PhiResidual->GetXaxis()->SetRange(floor(maxBin-nBinMax),ceil(maxBin+nBinMax));
float Mean = PhiResidual->GetMean();
float rms = PhiResidual->GetRMS();
fillWhPlot(innerME.find(fullName("PhiResidualMean"))->second,sect,stat,Mean);
fillWhPlot(innerME.find(fullName("PhiResidualRMS"))->second,sect,stat,rms);
}
TH2F * TrackPhitkvsPhitrig = getHisto<TH2F>(dbe->get(getMEName("PhitkvsPhitrig","Segment", chId)));
if (TrackPhitkvsPhitrig && TrackPhitkvsPhitrig->GetEntries()>100) {
float corr = TrackPhitkvsPhitrig->GetCorrelationFactor();
if( innerME.find(fullName("CorrelationFactorPhi")) == innerME.end() ){
bookWheelHistos(wh,"CorrelationFactorPhi");
}
fillWhPlot(innerME.find(fullName("CorrelationFactorPhi"))->second,sect,stat,corr,false);
}
}
// Make Phib Residual Summary
TH1F * PhibResidual = getHisto<TH1F>(dbe->get(getMEName("PhibResidual","Segment", chId)));
int phibSummary = stat==3 ? -1 : 1; // station 3 has no meaningful MB3 phi bending information
if (stat != 3 && PhibResidual && PhibResidual->GetEntries()>10) {// station 3 has no meaningful MB3 phi bending information
if( innerME.find(fullName("PhibResidualPercentage")) == innerME.end() ){
bookWheelHistos(wh,"PhibResidualPercentage");
}
float rangeBin = validRange/(PhibResidual->GetBinWidth(1));
float center = (PhibResidual->GetNbinsX())/2.;
float perc = (PhibResidual->Integral(floor(center-rangeBin),ceil(center+rangeBin)))/(PhibResidual->Integral());
fillWhPlot(innerME.find(fullName("PhibResidualPercentage"))->second,sect,stat,perc,false);
phibSummary = performLutTest(perc,thresholdWarnPhiB,thresholdErrPhiB);
if (detailedAnalysis) cmsME.find(fullName("PhibPercentageSummary"))->second->Fill(perc);
}
fillWhPlot(innerME.find(fullName("PhibLutSummary"))->second,sect,stat,phibSummary);
if (detailedAnalysis){
// if ((phibSummary ==0)&& (PhibResidual->GetEntries()>100)) { //Precision Peak test
// Float_t * source = new float[31];
// Float_t * dest = new float[31];
// TSpectrum *spec = new TSpectrum(5);
// float media = PhibResidual->GetMean();
// int center= PhibResidual->GetXaxis()->FindBin(media);
// for (int i = 0; i < 30; i++) {
// source[i]=PhibResidual->GetBinContent(center+i-15);
// }
// int nFound = spec->SearchHighRes(source,dest,30,1,6,kFALSE,5,kTRUE,2);
// if (nFound>1) { // has more than 1 peak
// if( innerME.find(fullName("DoublePeakFlagPhib")) == innerME.end() ){
// bookWheelHistos(wh,"DoublePeakFlagPhib");
// }
// fillWhPlot(innerME.find(fullName("DoublePeakFlagPhib"))->second,sect,stat,1,false);
// }
// }
if ((phibSummary==0)||(phibSummary==3)){
if( innerME.find(fullName("PhibResidualMean")) == innerME.end() ){
bookWheelHistos(wh,"PhibResidualMean");
bookWheelHistos(wh,"PhibResidualRMS");
}
float center = (PhibResidual->GetNbinsX())/2.;
float rangeBin = validRange/(PhibResidual->GetBinWidth(1));
PhibResidual->GetXaxis()->SetRange(floor(center-rangeBin),ceil(center+rangeBin));
float max = PhibResidual->GetMaximumBin();
float maxBin = PhibResidual->GetXaxis()->FindBin(max);
float nBinMax = 0.5/(PhibResidual->GetBinWidth(1));
PhibResidual->GetXaxis()->SetRange(floor(maxBin-nBinMax),ceil(maxBin+nBinMax));
float Mean = PhibResidual->GetMean();
float rms = PhibResidual->GetRMS();
fillWhPlot(innerME.find(fullName("PhibResidualMean"))->second,sect,stat,Mean);
fillWhPlot(innerME.find(fullName("PhibResidualRMS"))->second,sect,stat,rms);
}
TH2F * TrackPhibtkvsPhibtrig = getHisto<TH2F>(dbe->get(getMEName("PhibtkvsPhibtrig","Segment", chId)));
if (TrackPhibtkvsPhibtrig && TrackPhibtkvsPhibtrig->GetEntries()>100) {
float corr = TrackPhibtkvsPhibtrig->GetCorrelationFactor();
if( innerME.find(fullName("CorrelationFactorPhib")) == innerME.end() ){
bookWheelHistos(wh,"CorrelationFactorPhib");
}
fillWhPlot(innerME.find(fullName("CorrelationFactorPhib"))->second,sect,stat,corr,false);
}
}
}
}
}
// Barrel Summary Plots
for (vector<string>::const_iterator iTr = trigSources.begin(); iTr != trigSources.end(); ++iTr){
trigSource = (*iTr);
for (vector<string>::const_iterator iHw = hwSources.begin(); iHw != hwSources.end(); ++iHw){
hwSource = (*iHw);
for (int wh=-2; wh<=2; ++wh){
std::map<std::string,MonitorElement*> *innerME = &(whME[wh]);
TH2F* phiWhSummary = getHisto<TH2F>(innerME->find(fullName("PhiLutSummary"))->second);
TH2F* phibWhSummary = getHisto<TH2F>(innerME->find(fullName("PhibLutSummary"))->second);
for (int sect=1; sect<=12; ++sect){
int phiSectorTotal = 0; // CB dai 1 occhio a questo
int phibSectorTotal = 0;
int nullphi = 0;
int nullphib = 0;
int phiStatus = 5;
int phibStatus = 5;
int glbStatus = 0;
for (int stat=1; stat<=4; ++stat){
if (phiWhSummary->GetBinContent(sect,stat)==2){
phiSectorTotal +=1;
glbStatus += 1;
}
if (phiWhSummary->GetBinContent(sect,stat)==1)
nullphi+=1;
if (phibWhSummary->GetBinContent(sect,stat)==2) {
phibSectorTotal+=1;
glbStatus += 1;
}
if (phibWhSummary->GetBinContent(sect,stat)==1)
nullphib+=1;
}
if (nullphi!=4)
phiStatus=phiSectorTotal;
else
phiStatus=5;
if (nullphib!=3)
phibStatus=phibSectorTotal;
else
phibStatus=5;
cmsME.find("TrigLutSummary")->second->setBinContent(sect,wh+3,glbStatus);
cmsME.find(fullName("PhiLutSummary"))->second->setBinContent(sect,wh+3,phiStatus);
cmsME.find(fullName("PhibLutSummary"))->second->setBinContent(sect,wh+3,phibStatus);
}
}
}
}
}
bool DTTriggerLutTest::detailedAnalysis [private] |
Definition at line 55 of file DTTriggerLutTest.h.
double DTTriggerLutTest::thresholdErrPhi [private] |
Definition at line 52 of file DTTriggerLutTest.h.
double DTTriggerLutTest::thresholdErrPhiB [private] |
Definition at line 53 of file DTTriggerLutTest.h.
double DTTriggerLutTest::thresholdWarnPhi [private] |
Definition at line 52 of file DTTriggerLutTest.h.
double DTTriggerLutTest::thresholdWarnPhiB [private] |
Definition at line 53 of file DTTriggerLutTest.h.
double DTTriggerLutTest::validRange [private] |
Definition at line 54 of file DTTriggerLutTest.h.
1.7.3