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#include <SiPixelTrackResidualModule.h>
Definition at line 27 of file SiPixelTrackResidualModule.h.
| SiPixelTrackResidualModule::SiPixelTrackResidualModule | ( | ) |
Definition at line 35 of file SiPixelTrackResidualModule.cc.
References bBookTracks.
: id_(0) { bBookTracks = true; }
| SiPixelTrackResidualModule::SiPixelTrackResidualModule | ( | const uint32_t | id | ) |
Definition at line 40 of file SiPixelTrackResidualModule.cc.
References bBookTracks.
: id_(id) { bBookTracks = true; }
| SiPixelTrackResidualModule::~SiPixelTrackResidualModule | ( | ) |
Definition at line 45 of file SiPixelTrackResidualModule.cc.
{
}
| void SiPixelTrackResidualModule::book | ( | const edm::ParameterSet & | iConfig, |
| bool | reducedSet = true, |
||
| int | type = 0 |
||
| ) |
Definition at line 50 of file SiPixelTrackResidualModule.cc.
References Reference_intrackfit_cff::barrel, PixelEndcapName::bladeName(), DQMStore::book1D(), PixelEndcapName::diskName(), Reference_intrackfit_cff::endcap, edm::ParameterSet::getParameter(), id_, PixelBarrelName::isHalfModule(), edm::InputTag::label(), PixelBarrelName::ladderName(), PixelBarrelName::layerName(), meCharge_offTrack_, meCharge_offTrackBlade_, meCharge_offTrackDisk_, meCharge_offTrackLad_, meCharge_offTrackLay_, meCharge_offTrackPhi_, meCharge_offTrackRing_, meCharge_onTrack_, meCharge_onTrackBlade_, meCharge_onTrackDisk_, meCharge_onTrackLad_, meCharge_onTrackLay_, meCharge_onTrackPhi_, meCharge_onTrackRing_, meNClusters_offTrack_, meNClusters_offTrackBlade_, meNClusters_offTrackDisk_, meNClusters_offTrackLad_, meNClusters_offTrackLay_, meNClusters_offTrackPhi_, meNClusters_offTrackRing_, meNClusters_onTrack_, meNClusters_onTrackBlade_, meNClusters_onTrackDisk_, meNClusters_onTrackLad_, meNClusters_onTrackLay_, meNClusters_onTrackPhi_, meNClusters_onTrackRing_, meResidualX_, meResidualXBlade_, meResidualXDisk_, meResidualXLad_, meResidualXLay_, meResidualXPhi_, meResidualXRing_, meResidualY_, meResidualYBlade_, meResidualYDisk_, meResidualYLad_, meResidualYLay_, meResidualYPhi_, meResidualYRing_, meSize_offTrack_, meSize_offTrackBlade_, meSize_offTrackDisk_, meSize_offTrackLad_, meSize_offTrackLay_, meSize_offTrackPhi_, meSize_offTrackRing_, meSize_onTrack_, meSize_onTrackBlade_, meSize_onTrackDisk_, meSize_onTrackLad_, meSize_onTrackLay_, meSize_onTrackPhi_, meSize_onTrackRing_, meSizeX_offTrack_, meSizeX_offTrackBlade_, meSizeX_offTrackDisk_, meSizeX_offTrackLad_, meSizeX_offTrackLay_, meSizeX_offTrackPhi_, meSizeX_offTrackRing_, meSizeX_onTrack_, meSizeX_onTrackBlade_, meSizeX_onTrackDisk_, meSizeX_onTrackLad_, meSizeX_onTrackLay_, meSizeX_onTrackPhi_, meSizeX_onTrackRing_, meSizeY_offTrack_, meSizeY_offTrackBlade_, meSizeY_offTrackDisk_, meSizeY_offTrackLad_, meSizeY_offTrackLay_, meSizeY_offTrackPhi_, meSizeY_offTrackRing_, meSizeY_onTrack_, meSizeY_onTrackBlade_, meSizeY_onTrackDisk_, meSizeY_onTrackLad_, meSizeY_onTrackLay_, meSizeY_onTrackPhi_, meSizeY_onTrackRing_, PixelBarrelName::moduleName(), cppFunctionSkipper::operator, PixelEndcapName::pannelName(), GeomDetEnumerators::PixelBarrel, GeomDetEnumerators::PixelEndcap, PixelEndcapName::plaquetteName(), MonitorElement::setAxisTitle(), SiPixelHistogramId::setHistoId(), alcazmumu_cfi::src, and DetId::subdetId().
{
DQMStore* dbe = edm::Service<DQMStore>().operator->();
bool barrel = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelBarrel);
bool endcap = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelEndcap);
bool isHalfModule = false;
if(barrel){
isHalfModule = PixelBarrelName(DetId(id_)).isHalfModule();
}
edm::InputTag src = iConfig.getParameter<edm::InputTag>("src");
std::string hisID;
if(type==0){
SiPixelHistogramId* theHistogramId = new SiPixelHistogramId(src.label());
hisID = theHistogramId->setHistoId("residualX",id_);
meResidualX_ = dbe->book1D(hisID,"Hit-to-Track Residual in X",100,-5.,5.);
meResidualX_->setAxisTitle("hit-to-track residual in x (cm)",1);
hisID = theHistogramId->setHistoId("residualY",id_);
meResidualY_ = dbe->book1D(hisID,"Hit-to-Track Residual in Y",100,-5.,5.);
meResidualY_->setAxisTitle("hit-to-track residual in y (cm)",1);
// Number of clusters
hisID = theHistogramId->setHistoId("nclusters_OnTrack",id_);
meNClusters_onTrack_ = dbe->book1D(hisID,"Number of Clusters (on Track)",10,0.,10.);
meNClusters_onTrack_->setAxisTitle("Number of Clusters on Track",1);
// Total cluster charge in ke
hisID = theHistogramId->setHistoId("charge_OnTrack",id_);
meCharge_onTrack_ = dbe->book1D(hisID,"Normalized Cluster charge (on Track)",100,0.,200.);
meCharge_onTrack_->setAxisTitle("Charge [kilo electrons]",1);
// Total cluster size (in pixels)
hisID = theHistogramId->setHistoId("size_OnTrack",id_);
meSize_onTrack_ = dbe->book1D(hisID,"Total cluster size (on Track)",30,0.,30.);
meSize_onTrack_->setAxisTitle("Cluster size [number of pixels]",1);
// Number of clusters
hisID = theHistogramId->setHistoId("nclusters_OffTrack",id_);
meNClusters_offTrack_ = dbe->book1D(hisID,"Number of Clusters (off Track)",35,0.,35.);
meNClusters_offTrack_->setAxisTitle("Number of Clusters off Track",1);
// Total cluster charge in ke
hisID = theHistogramId->setHistoId("charge_OffTrack",id_);
meCharge_offTrack_ = dbe->book1D(hisID,"Cluster charge (off Track)",100,0.,200.);
meCharge_offTrack_->setAxisTitle("Charge [kilo electrons]",1);
// Total cluster size (in pixels)
hisID = theHistogramId->setHistoId("size_OffTrack",id_);
meSize_offTrack_ = dbe->book1D(hisID,"Total cluster size (off Track)",30,0.,30.);
meSize_offTrack_->setAxisTitle("Cluster size [number of pixels]",1);
if(!reducedSet){
// Cluster width on the x-axis
hisID = theHistogramId->setHistoId("sizeX_OnTrack",id_);
meSizeX_onTrack_ = dbe->book1D(hisID,"Cluster x-width (rows) (on Track)",10,0.,10.);
meSizeX_onTrack_->setAxisTitle("Cluster x-size [rows]",1);
// Cluster width on the y-axis
hisID = theHistogramId->setHistoId("sizeY_OnTrack",id_);
meSizeY_onTrack_ = dbe->book1D(hisID,"Cluster y-width (columns) (on Track)",15,0.,15.);
meSizeY_onTrack_->setAxisTitle("Cluster y-size [columns]",1);
// Cluster width on the x-axis
hisID = theHistogramId->setHistoId("sizeX_OffTrack",id_);
meSizeX_offTrack_ = dbe->book1D(hisID,"Cluster x-width (rows) (off Track)",10,0.,10.);
meSizeX_offTrack_->setAxisTitle("Cluster x-size [rows]",1);
// Cluster width on the y-axis
hisID = theHistogramId->setHistoId("sizeY_OffTrack",id_);
meSizeY_offTrack_ = dbe->book1D(hisID,"Cluster y-width (columns) (off Track)",15,0.,15.);
meSizeY_offTrack_->setAxisTitle("Cluster y-size [columns]",1);
}
delete theHistogramId;
}
if(type==1 && barrel){
uint32_t DBladder = PixelBarrelName(DetId(id_)).ladderName();
char sladder[80]; sprintf(sladder,"Ladder_%02i",DBladder);
hisID = src.label() + "_" + sladder;
if(isHalfModule) hisID += "H";
else hisID += "F";
meResidualXLad_ = dbe->book1D("residualX_"+hisID,"Hit-to-Track Residual in X",100,-5.,5.);
meResidualXLad_->setAxisTitle("hit-to-track residual in x (cm)",1);
meResidualYLad_ = dbe->book1D("residualY_"+hisID,"Hit-to-Track Residual in Y",100,-5.,5.);
meResidualYLad_->setAxisTitle("hit-to-track residual in y (cm)",1);
// Number of clusters
meNClusters_onTrackLad_ = dbe->book1D("nclusters_OnTrack_" + hisID,"Number of Clusters (on Track)",10,0.,10.);
meNClusters_onTrackLad_->setAxisTitle("Number of Clusters on Track",1);
// Total cluster charge in MeV
meCharge_onTrackLad_ = dbe->book1D("charge_OnTrack_" + hisID,"Normalized Cluster charge (on Track)",100,0.,200.);
meCharge_onTrackLad_->setAxisTitle("Charge [kilo electrons]",1);
// Total cluster size (in pixels)
meSize_onTrackLad_ = dbe->book1D("size_OnTrack_" + hisID,"Total cluster size (on Track)",30,0.,30.);
meSize_onTrackLad_->setAxisTitle("Cluster size [number of pixels]",1);
// Number of clusters
meNClusters_offTrackLad_ = dbe->book1D("nclusters_OffTrack_" + hisID,"Number of Clusters (off Track)",35,0.,35.);
meNClusters_offTrackLad_->setAxisTitle("Number of Clusters off Track",1);
// Total cluster charge in MeV
meCharge_offTrackLad_ = dbe->book1D("charge_OffTrack_" + hisID,"Cluster charge (off Track)",100,0.,200.);
meCharge_offTrackLad_->setAxisTitle("Charge [kilo electrons]",1);
// Total cluster size (in pixels)
meSize_offTrackLad_ = dbe->book1D("size_OffTrack_" + hisID,"Total cluster size (off Track)",30,0.,30.);
meSize_offTrackLad_->setAxisTitle("Cluster size [number of pixels]",1);
if(!reducedSet){
// Cluster width on the x-axis
meSizeX_offTrackLad_ = dbe->book1D("sizeX_OffTrack_" + hisID,"Cluster x-width (rows) (off Track)",10,0.,10.);
meSizeX_offTrackLad_->setAxisTitle("Cluster x-size [rows]",1);
// Cluster width on the y-axis
meSizeY_offTrackLad_ = dbe->book1D("sizeY_OffTrack_" + hisID,"Cluster y-width (columns) (off Track)",15,0.,15.);
meSizeY_offTrackLad_->setAxisTitle("Cluster y-size [columns]",1);
// Cluster width on the x-axis
meSizeX_onTrackLad_ = dbe->book1D("sizeX_OnTrack_" + hisID,"Cluster x-width (rows) (on Track)",10,0.,10.);
meSizeX_onTrackLad_->setAxisTitle("Cluster x-size [rows]",1);
// Cluster width on the y-axis
meSizeY_onTrackLad_ = dbe->book1D("sizeY_OnTrack_" + hisID,"Cluster y-width (columns) (on Track)",15,0.,15.);
meSizeY_onTrackLad_->setAxisTitle("Cluster y-size [columns]",1);
}
}
if(type==2 && barrel){
uint32_t DBlayer = PixelBarrelName(DetId(id_)).layerName();
char slayer[80]; sprintf(slayer,"Layer_%i",DBlayer);
hisID = src.label() + "_" + slayer;
meResidualXLay_ = dbe->book1D("residualX_"+hisID,"Hit-to-Track Residual in X",100,-5.,5.);
meResidualXLay_->setAxisTitle("hit-to-track residual in x (cm)",1);
meResidualYLay_ = dbe->book1D("residualY_"+hisID,"Hit-to-Track Residual in Y",100,-5.,5.);
meResidualYLay_->setAxisTitle("hit-to-track residual in y (cm)",1);
// Number of clusters
meNClusters_onTrackLay_ = dbe->book1D("nclusters_OnTrack_" + hisID,"Number of Clusters (on Track)",10,0.,10.);
meNClusters_onTrackLay_->setAxisTitle("Number of Clusters on Track",1);
// Total cluster charge in MeV
meCharge_onTrackLay_ = dbe->book1D("charge_OnTrack_" + hisID,"Normalized Cluster charge (on Track)",100,0.,200.);
meCharge_onTrackLay_->setAxisTitle("Charge [kilo electrons]",1);
// Total cluster size (in pixels)
meSize_onTrackLay_ = dbe->book1D("size_OnTrack_" + hisID,"Total cluster size (on Track)",30,0.,30.);
meSize_onTrackLay_->setAxisTitle("Cluster size [number of pixels]",1);
// Number of clusters
meNClusters_offTrackLay_ = dbe->book1D("nclusters_OffTrack_" + hisID,"Number of Clusters (off Track)",35,0.,35.);
meNClusters_offTrackLay_->setAxisTitle("Number of Clusters off Track",1);
// Total cluster charge in MeV
meCharge_offTrackLay_ = dbe->book1D("charge_OffTrack_" + hisID,"Cluster charge (off Track)",100,0.,200.);
meCharge_offTrackLay_->setAxisTitle("Charge [kilo electrons]",1);
// Total cluster size (in pixels)
meSize_offTrackLay_ = dbe->book1D("size_OffTrack_" + hisID,"Total cluster size (off Track)",30,0.,30.);
meSize_offTrackLay_->setAxisTitle("Cluster size [number of pixels]",1);
if(!reducedSet){
// Cluster width on the x-axis
meSizeX_onTrackLay_ = dbe->book1D("sizeX_OnTrack_" + hisID,"Cluster x-width (rows) (on Track)",10,0.,10.);
meSizeX_onTrackLay_->setAxisTitle("Cluster x-size [rows]",1);
// Cluster width on the y-axis
meSizeY_onTrackLay_ = dbe->book1D("sizeY_OnTrack_" + hisID,"Cluster y-width (columns) (on Track)",15,0.,15.);
meSizeY_onTrackLay_->setAxisTitle("Cluster y-size [columns]",1);
// Cluster width on the x-axis
meSizeX_offTrackLay_ = dbe->book1D("sizeX_OffTrack_" + hisID,"Cluster x-width (rows) (off Track)",10,0.,10.);
meSizeX_offTrackLay_->setAxisTitle("Cluster x-size [rows]",1);
// Cluster width on the y-axis
meSizeY_offTrackLay_ = dbe->book1D("sizeY_OffTrack_" + hisID,"Cluster y-width (columns) (off Track)",15,0.,15.);
meSizeY_offTrackLay_->setAxisTitle("Cluster y-size [columns]",1);
}
}
if(type==3 && barrel){
uint32_t DBmodule = PixelBarrelName(DetId(id_)).moduleName();
char smodule[80]; sprintf(smodule,"Ring_%i",DBmodule);
hisID = src.label() + "_" + smodule;
meResidualXPhi_ = dbe->book1D("residualX_"+hisID,"Hit-to-Track Residual in X",100,-5.,5.);
meResidualXPhi_->setAxisTitle("hit-to-track residual in x (cm)",1);
meResidualYPhi_ = dbe->book1D("residualY_"+hisID,"Hit-to-Track Residual in Y",100,-5.,5.);
meResidualYPhi_->setAxisTitle("hit-to-track residual in y (cm)",1);
// Number of clusters
meNClusters_onTrackPhi_ = dbe->book1D("nclusters_OnTrack_" + hisID,"Number of Clusters (on Track)",10,0.,10.);
meNClusters_onTrackPhi_->setAxisTitle("Number of Clusters on Track",1);
// Total cluster charge in MeV
meCharge_onTrackPhi_ = dbe->book1D("charge_OnTrack_" + hisID,"Normalized Cluster charge (on Track)",100,0.,200.);
meCharge_onTrackPhi_->setAxisTitle("Charge [kilo electrons]",1);
// Total cluster size (in pixels)
meSize_onTrackPhi_ = dbe->book1D("size_OnTrack_" + hisID,"Total cluster size (on Track)",30,0.,30.);
meSize_onTrackPhi_->setAxisTitle("Cluster size [number of pixels]",1);
// Number of clusters
meNClusters_offTrackPhi_ = dbe->book1D("nclusters_OffTrack_" + hisID,"Number of Clusters (off Track)",35,0.,35.);
meNClusters_offTrackPhi_->setAxisTitle("Number of Clusters off Track",1);
// Total cluster charge in MeV
meCharge_offTrackPhi_ = dbe->book1D("charge_OffTrack_" + hisID,"Cluster charge (off Track)",100,0.,200.);
meCharge_offTrackPhi_->setAxisTitle("Charge [kilo electrons]",1);
// Total cluster size (in pixels)
meSize_offTrackPhi_ = dbe->book1D("size_OffTrack_" + hisID,"Total cluster size (off Track)",30,0.,30.);
meSize_offTrackPhi_->setAxisTitle("Cluster size [number of pixels]",1);
if(!reducedSet){
// Cluster width on the x-axis
meSizeX_onTrackPhi_ = dbe->book1D("sizeX_OnTrack_" + hisID,"Cluster x-width (rows) (on Track)",10,0.,10.);
meSizeX_onTrackPhi_->setAxisTitle("Cluster x-size [rows]",1);
// Cluster width on the y-axis
meSizeY_onTrackPhi_ = dbe->book1D("sizeY_OnTrack_" + hisID,"Cluster y-width (columns) (on Track)",15,0.,15.);
meSizeY_onTrackPhi_->setAxisTitle("Cluster y-size [columns]",1);
// Cluster width on the x-axis
meSizeX_offTrackPhi_ = dbe->book1D("sizeX_OffTrack_" + hisID,"Cluster x-width (rows) (off Track)",10,0.,10.);
meSizeX_offTrackPhi_->setAxisTitle("Cluster x-size [rows]",1);
// Cluster width on the y-axis
meSizeY_offTrackPhi_ = dbe->book1D("sizeY_OffTrack_" + hisID,"Cluster y-width (columns) (off Track)",15,0.,15.);
meSizeY_offTrackPhi_->setAxisTitle("Cluster y-size [columns]",1);
}
}
if(type==4 && endcap){
uint32_t blade= PixelEndcapName(DetId(id_)).bladeName();
char sblade[80]; sprintf(sblade, "Blade_%02i",blade);
hisID = src.label() + "_" + sblade;
meResidualXBlade_ = dbe->book1D("residualX_"+hisID,"Hit-to-Track Residual in X",100,-5.,5.);
meResidualXBlade_->setAxisTitle("hit-to-track residual in x (cm)",1);
meResidualYBlade_ = dbe->book1D("residualY_"+hisID,"Hit-to-Track Residual in Y",100,-5.,5.);
meResidualYBlade_->setAxisTitle("hit-to-track residual in y (cm)",1);
// Number of clusters
meNClusters_onTrackBlade_ = dbe->book1D("nclusters_OnTrack_" + hisID,"Number of Clusters (on Track)",10,0.,10.);
meNClusters_onTrackBlade_->setAxisTitle("Number of Clusters on Track",1);
// Total cluster charge in MeV
meCharge_onTrackBlade_ = dbe->book1D("charge_OnTrack_" + hisID,"Normalized Cluster charge (on Track)",100,0.,200.);
meCharge_onTrackBlade_->setAxisTitle("Charge [kilo electrons]",1);
// Total cluster size (in pixels)
meSize_onTrackBlade_ = dbe->book1D("size_OnTrack_" + hisID,"Total cluster size (on Track)",30,0.,30.);
meSize_onTrackBlade_->setAxisTitle("Cluster size [number of pixels]",1);
// Number of clusters
meNClusters_offTrackBlade_ = dbe->book1D("nclusters_OffTrack_" + hisID,"Number of Clusters (off Track)",35,0.,35.);
meNClusters_offTrackBlade_->setAxisTitle("Number of Clusters off Track",1);
// Total cluster charge in MeV
meCharge_offTrackBlade_ = dbe->book1D("charge_OffTrack_" + hisID,"Cluster charge (off Track)",100,0.,200.);
meCharge_offTrackBlade_->setAxisTitle("Charge [kilo electrons]",1);
// Total cluster size (in pixels)
meSize_offTrackBlade_ = dbe->book1D("size_OffTrack_" + hisID,"Total cluster size (off Track)",30,0.,30.);
meSize_offTrackBlade_->setAxisTitle("Cluster size [number of pixels]",1);
if(!reducedSet){
// Cluster width on the x-axis
meSizeX_onTrackBlade_ = dbe->book1D("sizeX_OnTrack_" + hisID,"Cluster x-width (rows) (on Track)",10,0.,10.);
meSizeX_onTrackBlade_->setAxisTitle("Cluster x-size [rows]",1);
// Cluster width on the y-axis
meSizeY_onTrackBlade_ = dbe->book1D("sizeY_OnTrack_" + hisID,"Cluster y-width (columns) (on Track)",15,0.,15.);
meSizeY_onTrackBlade_->setAxisTitle("Cluster y-size [columns]",1);
// Cluster width on the x-axis
meSizeX_offTrackBlade_ = dbe->book1D("sizeX_OffTrack_" + hisID,"Cluster x-width (rows) (off Track)",10,0.,10.);
meSizeX_offTrackBlade_->setAxisTitle("Cluster x-size [rows]",1);
// Cluster width on the y-axis
meSizeY_offTrackBlade_ = dbe->book1D("sizeY_OffTrack_" + hisID,"Cluster y-width (columns) (off Track)",15,0.,15.);
meSizeY_offTrackBlade_->setAxisTitle("Cluster y-size [columns]",1);
}
}
if(type==5 && endcap){
uint32_t disk = PixelEndcapName(DetId(id_)).diskName();
char sdisk[80]; sprintf(sdisk, "Disk_%i",disk);
hisID = src.label() + "_" + sdisk;
meResidualXDisk_ = dbe->book1D("residualX_"+hisID,"Hit-to-Track Residual in X",100,-5.,5.);
meResidualXDisk_->setAxisTitle("hit-to-track residual in x (cm)",1);
meResidualYDisk_ = dbe->book1D("residualY_"+hisID,"Hit-to-Track Residual in Y",100,-5.,5.);
meResidualYDisk_->setAxisTitle("hit-to-track residual in y (cm)",1);
// Number of clusters
meNClusters_onTrackDisk_ = dbe->book1D("nclusters_OnTrack_" + hisID,"Number of Clusters (on Track)",10,0.,10.);
meNClusters_onTrackDisk_->setAxisTitle("Number of Clusters on Track",1);
// Total cluster charge in MeV
meCharge_onTrackDisk_ = dbe->book1D("charge_OnTrack_" + hisID,"Normalized Cluster charge (on Track)",100,0.,200.);
meCharge_onTrackDisk_->setAxisTitle("Charge [kilo electrons]",1);
// Total cluster size (in pixels)
meSize_onTrackDisk_ = dbe->book1D("size_OnTrack_" + hisID,"Total cluster size (on Track)",30,0.,30.);
meSize_onTrackDisk_->setAxisTitle("Cluster size [number of pixels]",1);
// Number of clusters
meNClusters_offTrackDisk_ = dbe->book1D("nclusters_OffTrack_" + hisID,"Number of Clusters (off Track)",35,0.,35.);
meNClusters_offTrackDisk_->setAxisTitle("Number of Clusters off Track",1);
// Total cluster charge in MeV
meCharge_offTrackDisk_ = dbe->book1D("charge_OffTrack_" + hisID,"Cluster charge (off Track)",100,0.,200.);
meCharge_offTrackDisk_->setAxisTitle("Charge [kilo electrons]",1);
// Total cluster size (in pixels)
meSize_offTrackDisk_ = dbe->book1D("size_OffTrack_" + hisID,"Total cluster size (off Track)",30,0.,30.);
meSize_offTrackDisk_->setAxisTitle("Cluster size [number of pixels]",1);
if(!reducedSet){
// Cluster width on the x-axis
meSizeX_onTrackDisk_ = dbe->book1D("sizeX_OnTrack_" + hisID,"Cluster x-width (rows) (on Track)",10,0.,10.);
meSizeX_onTrackDisk_->setAxisTitle("Cluster x-size [rows]",1);
// Cluster width on the y-axis
meSizeY_onTrackDisk_ = dbe->book1D("sizeY_OnTrack_" + hisID,"Cluster y-width (columns) (on Track)",15,0.,15.);
meSizeY_onTrackDisk_->setAxisTitle("Cluster y-size [columns]",1);
// Cluster width on the x-axis
meSizeX_offTrackDisk_ = dbe->book1D("sizeX_OffTrack_" + hisID,"Cluster x-width (rows) (off Track)",10,0.,10.);
meSizeX_offTrackDisk_->setAxisTitle("Cluster x-size [rows]",1);
// Cluster width on the y-axis
meSizeY_offTrackDisk_ = dbe->book1D("sizeY_OffTrack_" + hisID,"Cluster y-width (columns) (off Track)",15,0.,15.);
meSizeY_offTrackDisk_->setAxisTitle("Cluster y-size [columns]",1);
}
}
if(type==6 && endcap){
uint32_t panel= PixelEndcapName(DetId(id_)).pannelName();
uint32_t module= PixelEndcapName(DetId(id_)).plaquetteName();
char slab[80]; sprintf(slab, "Panel_%i_Ring_%i",panel, module);
hisID = src.label() + "_" + slab;
meResidualXRing_ = dbe->book1D("residualX_"+hisID,"Hit-to-Track Residual in X",100,-5.,5.);
meResidualXRing_->setAxisTitle("hit-to-track residual in x (cm)",1);
meResidualYRing_ = dbe->book1D("residualY_"+hisID,"Hit-to-Track Residual in Y",100,-5.,5.);
meResidualYRing_->setAxisTitle("hit-to-track residual in y (cm)",1);
// Number of clusters
meNClusters_onTrackRing_ = dbe->book1D("nclusters_OnTrack_" + hisID,"Number of Clusters (on Track)",10,0.,10.);
meNClusters_onTrackRing_->setAxisTitle("Number of Clusters on Track",1);
// Total cluster charge in MeV
meCharge_onTrackRing_ = dbe->book1D("charge_OnTrack_" + hisID,"Normalized Cluster charge (on Track)",100,0.,200.);
meCharge_onTrackRing_->setAxisTitle("Charge [kilo electrons]",1);
// Total cluster size (in pixels)
meSize_onTrackRing_ = dbe->book1D("size_OnTrack_" + hisID,"Total cluster size (on Track)",30,0.,30.);
meSize_onTrackRing_->setAxisTitle("Cluster size [number of pixels]",1);
// Number of clusters
meNClusters_offTrackRing_ = dbe->book1D("nclusters_OffTrack_" + hisID,"Number of Clusters (off Track)",35,0.,35.);
meNClusters_offTrackRing_->setAxisTitle("Number of Clusters off Track",1);
// Total cluster charge in MeV
meCharge_offTrackRing_ = dbe->book1D("charge_OffTrack_" + hisID,"Cluster charge (off Track)",100,0.,200.);
meCharge_offTrackRing_->setAxisTitle("Charge [kilo electrons]",1);
// Total cluster size (in pixels)
meSize_offTrackRing_ = dbe->book1D("size_OffTrack_" + hisID,"Total cluster size (off Track)",30,0.,30.);
meSize_offTrackRing_->setAxisTitle("Cluster size [number of pixels]",1);
if(!reducedSet){
// Cluster width on the x-axis
meSizeX_onTrackRing_ = dbe->book1D("sizeX_OnTrack_" + hisID,"Cluster x-width (rows) (on Track)",10,0.,10.);
meSizeX_onTrackRing_->setAxisTitle("Cluster x-size [rows]",1);
// Cluster width on the y-axis
meSizeY_onTrackRing_ = dbe->book1D("sizeY_OnTrack_" + hisID,"Cluster y-width (columns) (on Track)",15,0.,15.);
meSizeY_onTrackRing_->setAxisTitle("Cluster y-size [columns]",1);
// Cluster width on the x-axis
meSizeX_offTrackRing_ = dbe->book1D("sizeX_OffTrack_" + hisID,"Cluster x-width (rows) (off Track)",10,0.,10.);
meSizeX_offTrackRing_->setAxisTitle("Cluster x-size [rows]",1);
// Cluster width on the y-axis
meSizeY_offTrackRing_ = dbe->book1D("sizeY_OffTrack_" + hisID,"Cluster y-width (columns) (off Track)",15,0.,15.);
meSizeY_offTrackRing_->setAxisTitle("Cluster y-size [columns]",1);
}
}
}
| void SiPixelTrackResidualModule::fill | ( | const Measurement2DVector & | residual, |
| bool | reducedSet = true, |
||
| bool | modon = true, |
||
| bool | ladon = true, |
||
| bool | layon = true, |
||
| bool | phion = true, |
||
| bool | bladeon = true, |
||
| bool | diskon = true, |
||
| bool | ringon = true |
||
| ) |
Definition at line 373 of file SiPixelTrackResidualModule.cc.
References Reference_intrackfit_cff::barrel, Reference_intrackfit_cff::endcap, HcalObjRepresent::Fill(), id_, meResidualX_, meResidualXBlade_, meResidualXDisk_, meResidualXLad_, meResidualXLay_, meResidualXPhi_, meResidualXRing_, meResidualY_, meResidualYBlade_, meResidualYDisk_, meResidualYLad_, meResidualYLay_, meResidualYPhi_, meResidualYRing_, GeomDetEnumerators::PixelBarrel, GeomDetEnumerators::PixelEndcap, DetId::subdetId(), PV2DBase< T, PVType, FrameType >::x(), and PV2DBase< T, PVType, FrameType >::y().
{
bool barrel = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelBarrel);
bool endcap = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelEndcap);
if(modon){
(meResidualX_)->Fill(residual.x());
(meResidualY_)->Fill(residual.y());
}
if(ladon && barrel){
(meResidualXLad_)->Fill(residual.x());
(meResidualYLad_)->Fill(residual.y());
}
if(layon && barrel){
(meResidualXLay_)->Fill(residual.x());
(meResidualYLay_)->Fill(residual.y());
}
if(phion && barrel){
(meResidualXPhi_)->Fill(residual.x());
(meResidualYPhi_)->Fill(residual.y());
}
if(bladeon && endcap){
(meResidualXBlade_)->Fill(residual.x());
(meResidualYBlade_)->Fill(residual.y());
}
if(diskon && endcap){
(meResidualXDisk_)->Fill(residual.x());
(meResidualYDisk_)->Fill(residual.y());
}
if(ringon && endcap){
(meResidualXRing_)->Fill(residual.x());
(meResidualYRing_)->Fill(residual.y());
}
}
| void SiPixelTrackResidualModule::fill | ( | const SiPixelCluster & | clust, |
| bool | onTrack, | ||
| double | corrCharge, | ||
| bool | reducedSet, | ||
| bool | modon, | ||
| bool | ladon, | ||
| bool | layon, | ||
| bool | phion, | ||
| bool | bladeon, | ||
| bool | diskon, | ||
| bool | ringon | ||
| ) |
Definition at line 414 of file SiPixelTrackResidualModule.cc.
References Reference_intrackfit_cff::barrel, SiPixelCluster::charge(), DeDxDiscriminatorTools::charge(), Reference_intrackfit_cff::endcap, HcalObjRepresent::Fill(), id_, meCharge_offTrack_, meCharge_offTrackBlade_, meCharge_offTrackDisk_, meCharge_offTrackLad_, meCharge_offTrackLay_, meCharge_offTrackPhi_, meCharge_offTrackRing_, meCharge_onTrack_, meCharge_onTrackBlade_, meCharge_onTrackDisk_, meCharge_onTrackLad_, meCharge_onTrackLay_, meCharge_onTrackPhi_, meCharge_onTrackRing_, meSize_offTrack_, meSize_offTrackBlade_, meSize_offTrackDisk_, meSize_offTrackLad_, meSize_offTrackLay_, meSize_offTrackPhi_, meSize_offTrackRing_, meSize_onTrack_, meSize_onTrackBlade_, meSize_onTrackDisk_, meSize_onTrackLad_, meSize_onTrackLay_, meSize_onTrackPhi_, meSize_onTrackRing_, meSizeX_offTrack_, meSizeX_offTrackBlade_, meSizeX_offTrackDisk_, meSizeX_offTrackLad_, meSizeX_offTrackLay_, meSizeX_offTrackPhi_, meSizeX_offTrackRing_, meSizeX_onTrack_, meSizeX_onTrackBlade_, meSizeX_onTrackDisk_, meSizeX_onTrackLad_, meSizeX_onTrackLay_, meSizeX_onTrackPhi_, meSizeX_onTrackRing_, meSizeY_offTrack_, meSizeY_offTrackBlade_, meSizeY_offTrackDisk_, meSizeY_offTrackLad_, meSizeY_offTrackLay_, meSizeY_offTrackPhi_, meSizeY_offTrackRing_, meSizeY_onTrack_, meSizeY_onTrackBlade_, meSizeY_onTrackDisk_, meSizeY_onTrackLad_, meSizeY_onTrackLay_, meSizeY_onTrackPhi_, meSizeY_onTrackRing_, GeomDetEnumerators::PixelBarrel, GeomDetEnumerators::PixelEndcap, findQualityFiles::size, SiPixelCluster::size(), SiPixelCluster::sizeX(), SiPixelCluster::sizeY(), and DetId::subdetId().
{
bool barrel = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelBarrel);
bool endcap = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelEndcap);
float charge = 0.001*(clust.charge()); // total charge of cluster
if(onTrack) charge = corrCharge; // corrected cluster charge
int size = clust.size(); // total size of cluster (in pixels)
int sizeX = clust.sizeX(); // size of cluster in x-clustrection
int sizeY = clust.sizeY(); // size of cluster in y-direction
if(onTrack){
if(modon){
(meCharge_onTrack_)->Fill((float)charge);
(meSize_onTrack_)->Fill((int)size);
if(!reducedSet){
(meSizeX_onTrack_)->Fill((int)sizeX);
(meSizeY_onTrack_)->Fill((int)sizeY);
}
}
if(barrel && ladon){
(meCharge_onTrackLad_)->Fill((float)charge);
(meSize_onTrackLad_)->Fill((int)size);
if(!reducedSet){
(meSizeX_onTrackLad_)->Fill((int)sizeX);
(meSizeY_onTrackLad_)->Fill((int)sizeY);
}
}
if(barrel && layon){
(meCharge_onTrackLay_)->Fill((float)charge);
(meSize_onTrackLay_)->Fill((int)size);
if(!reducedSet){
(meSizeX_onTrackLay_)->Fill((int)sizeX);
(meSizeY_onTrackLay_)->Fill((int)sizeY);
}
}
if(barrel && phion){
(meCharge_onTrackPhi_)->Fill((float)charge);
(meSize_onTrackPhi_)->Fill((int)size);
if(!reducedSet){
(meSizeX_onTrackPhi_)->Fill((int)sizeX);
(meSizeY_onTrackPhi_)->Fill((int)sizeY);
}
}
if(endcap && bladeon){
(meCharge_onTrackBlade_)->Fill((float)charge);
(meSize_onTrackBlade_)->Fill((int)size);
if(!reducedSet){
(meSizeX_onTrackBlade_)->Fill((int)sizeX);
(meSizeY_onTrackBlade_)->Fill((int)sizeY);
}
}
if(endcap && diskon){
(meCharge_onTrackDisk_)->Fill((float)charge);
(meSize_onTrackDisk_)->Fill((int)size);
if(!reducedSet){
(meSizeX_onTrackDisk_)->Fill((int)sizeX);
(meSizeY_onTrackDisk_)->Fill((int)sizeY);
}
}
if(endcap && ringon){
(meCharge_onTrackRing_)->Fill((float)charge);
(meSize_onTrackRing_)->Fill((int)size);
if(!reducedSet){
(meSizeX_onTrackRing_)->Fill((int)sizeX);
(meSizeY_onTrackRing_)->Fill((int)sizeY);
}
}
}
if(!onTrack){
if(modon){
(meCharge_offTrack_)->Fill((float)charge);
(meSize_offTrack_)->Fill((int)size);
if(!reducedSet){
(meSizeX_offTrack_)->Fill((int)sizeX);
(meSizeY_offTrack_)->Fill((int)sizeY);
}
}
if(barrel && ladon){
(meCharge_offTrackLad_)->Fill((float)charge);
(meSize_offTrackLad_)->Fill((int)size);
if(!reducedSet){
(meSizeX_offTrackLad_)->Fill((int)sizeX);
(meSizeY_offTrackLad_)->Fill((int)sizeY);
}
}
if(barrel && layon){
(meCharge_offTrackLay_)->Fill((float)charge);
(meSize_offTrackLay_)->Fill((int)size);
if(!reducedSet){
(meSizeX_offTrackLay_)->Fill((int)sizeX);
(meSizeY_offTrackLay_)->Fill((int)sizeY);
}
}
if(barrel && phion){
(meCharge_offTrackPhi_)->Fill((float)charge);
(meSize_offTrackPhi_)->Fill((int)size);
if(!reducedSet){
(meSizeX_offTrackPhi_)->Fill((int)sizeX);
(meSizeY_offTrackPhi_)->Fill((int)sizeY);
}
}
if(endcap && bladeon){
(meCharge_offTrackBlade_)->Fill((float)charge);
(meSize_offTrackBlade_)->Fill((int)size);
if(!reducedSet){
(meSizeX_offTrackBlade_)->Fill((int)sizeX);
(meSizeY_offTrackBlade_)->Fill((int)sizeY);
}
}
if(endcap && diskon){
(meCharge_offTrackDisk_)->Fill((float)charge);
(meSize_offTrackDisk_)->Fill((int)size);
if(!reducedSet){
(meSizeX_offTrackDisk_)->Fill((int)sizeX);
(meSizeY_offTrackDisk_)->Fill((int)sizeY);
}
}
if(endcap && ringon){
(meCharge_offTrackRing_)->Fill((float)charge);
(meSize_offTrackRing_)->Fill((int)size);
if(!reducedSet){
(meSizeX_offTrackRing_)->Fill((int)sizeX);
(meSizeY_offTrackRing_)->Fill((int)sizeY);
}
}
}
}
| void SiPixelTrackResidualModule::nfill | ( | int | onTrack, |
| int | offTrack, | ||
| bool | reducedSet, | ||
| bool | modon, | ||
| bool | ladon, | ||
| bool | layon, | ||
| bool | phion, | ||
| bool | bladeon, | ||
| bool | diskon, | ||
| bool | ringon | ||
| ) |
Definition at line 547 of file SiPixelTrackResidualModule.cc.
References Reference_intrackfit_cff::barrel, Reference_intrackfit_cff::endcap, MonitorElement::Fill(), id_, meNClusters_offTrack_, meNClusters_offTrackBlade_, meNClusters_offTrackDisk_, meNClusters_offTrackLad_, meNClusters_offTrackLay_, meNClusters_offTrackPhi_, meNClusters_offTrackRing_, meNClusters_onTrack_, meNClusters_onTrackBlade_, meNClusters_onTrackDisk_, meNClusters_onTrackLad_, meNClusters_onTrackLay_, meNClusters_onTrackPhi_, meNClusters_onTrackRing_, GeomDetEnumerators::PixelBarrel, GeomDetEnumerators::PixelEndcap, and DetId::subdetId().
{
bool barrel = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelBarrel);
bool endcap = DetId(id_).subdetId() == static_cast<int>(PixelSubdetector::PixelEndcap);
bool fillOn = false; if(onTrack>0) fillOn = true;
bool fillOff = false; if(offTrack>0) fillOff = true;
if(modon){
if(fillOn) meNClusters_onTrack_->Fill(onTrack);
if(fillOff) meNClusters_offTrack_->Fill(offTrack);
}
if(ladon && barrel){
if(fillOn) meNClusters_onTrackLad_->Fill(onTrack);
if(fillOff) meNClusters_offTrackLad_->Fill(offTrack);
}
if(layon && barrel){
if(fillOn) meNClusters_onTrackLay_->Fill(onTrack);
if(fillOff) meNClusters_offTrackLay_->Fill(offTrack);
}
if(phion && barrel){
if(fillOn) meNClusters_onTrackPhi_->Fill(onTrack);
if(fillOff) meNClusters_offTrackPhi_->Fill(offTrack);
}
if(bladeon && endcap){
if(fillOn) meNClusters_onTrackBlade_->Fill(onTrack);
if(fillOff) meNClusters_offTrackBlade_->Fill(offTrack);
}
if(diskon && endcap){
if(fillOn) meNClusters_onTrackDisk_->Fill(onTrack);
if(fillOff) meNClusters_offTrackDisk_->Fill(offTrack);
}
if(ringon && endcap){
if(fillOn) meNClusters_onTrackRing_->Fill(onTrack);
if(fillOff) meNClusters_offTrackRing_->Fill(offTrack);
}
}
bool SiPixelTrackResidualModule::bBookTracks [private] |
Definition at line 40 of file SiPixelTrackResidualModule.h.
Referenced by SiPixelTrackResidualModule().
uint32_t SiPixelTrackResidualModule::id_ [private] |
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1.7.3