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MeasurementTrackerImpl.cc
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MeasurementTrackerImpl.cc
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#include "MeasurementTrackerImpl.h"
#include "FWCore/Framework/interface/ESHandle.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include "Geometry/TrackerGeometryBuilder/interface/TrackerGeometry.h"
#include "Geometry/CommonDetUnit/interface/GeomDet.h"
#include "Geometry/CommonDetUnit/interface/GeomDetUnit.h"
#include "Geometry/CommonDetUnit/interface/GluedGeomDet.h"
#include "Geometry/TrackerGeometryBuilder/interface/StackGeomDet.h"
#include "Geometry/Records/interface/TrackerDigiGeometryRecord.h"
#include "MagneticField/Records/interface/IdealMagneticFieldRecord.h"
#include "DataFormats/DetId/interface/DetIdCollection.h"
#include "DataFormats/SiStripDetId/interface/StripSubdetector.h"
#include "DataFormats/SiPixelDetId/interface/PixelSubdetector.h"
#include "DataFormats/SiStripDetId/interface/StripSubdetector.h"
#include "DataFormats/SiStripCluster/interface/SiStripClusterCollection.h"
#include "DataFormats/Common/interface/ContainerMask.h"
#include "TrackingTools/MeasurementDet/interface/MeasurementDetException.h"
#include "RecoLocalTracker/ClusterParameterEstimator/interface/PixelClusterParameterEstimator.h"
#include "RecoLocalTracker/Records/interface/TrackerCPERecord.h"
#include "RecoLocalTracker/SiStripRecHitConverter/interface/SiStripRecHitMatcher.h"
#include "RecoLocalTracker/SiStripRecHitConverter/interface/StripCPE.h"
#include "RecoTracker/TkDetLayers/interface/GeometricSearchTracker.h"
#include "RecoTracker/Record/interface/TrackerRecoGeometryRecord.h"
#include "TkStripMeasurementDet.h"
#include "TkPixelMeasurementDet.h"
#include "TkPhase2OTMeasurementDet.h"
#include "TkGluedMeasurementDet.h"
#include "TkStackMeasurementDet.h"
#include "CondFormats/SiStripObjects/interface/SiStripNoises.h"
#include "CondFormats/DataRecord/interface/SiStripNoisesRcd.h"
#include <iostream>
#include <typeinfo>
#include <map>
#include <algorithm>
//
using namespace std;
namespace {
class StrictWeakOrdering{
public:
bool operator() ( uint32_t p,const uint32_t& i) const {return p < i;}
};
struct CmpTKD {
bool operator()(MeasurementDet const* rh, MeasurementDet const * lh) {
return rh->fastGeomDet().geographicalId().rawId() < lh->fastGeomDet().geographicalId().rawId();
}
bool operator()(MeasurementDet const & rh, MeasurementDet const & lh) {
return rh.fastGeomDet().geographicalId().rawId() < lh.fastGeomDet().geographicalId().rawId();
}
};
template<typename TKD>
void sortTKD( std::vector<TKD*> & det) {
std::sort(det.begin(),det.end(),CmpTKD());
}
template<typename TKD>
void sortTKD( std::vector<TKD> & det) {
std::sort(det.begin(),det.end(),CmpTKD());
}
}
MeasurementTrackerImpl::MeasurementTrackerImpl(const edm::ParameterSet& conf,
const PixelClusterParameterEstimator* pixelCPE,
const StripClusterParameterEstimator* stripCPE,
const SiStripRecHitMatcher* hitMatcher,
const TrackerTopology* trackerTopology,
const TrackerGeometry* trackerGeom,
const GeometricSearchTracker* geometricSearchTracker,
const SiStripQuality *stripQuality,
int stripQualityFlags,
int stripQualityDebugFlags,
const SiPixelQuality *pixelQuality,
const SiPixelFedCabling *pixelCabling,
int pixelQualityFlags,
int pixelQualityDebugFlags,
const ClusterParameterEstimator<Phase2TrackerCluster1D>* phase2OTCPE):
MeasurementTracker(trackerGeom,geometricSearchTracker),
pset_(conf),
name_(conf.getParameter<std::string>("ComponentName")),
theStDetConditions(hitMatcher,stripCPE),
thePxDetConditions(pixelCPE),
thePhase2DetConditions(phase2OTCPE)
{
this->initialize(trackerTopology);
this->initializeStripStatus(stripQuality, stripQualityFlags, stripQualityDebugFlags);
this->initializePixelStatus(pixelQuality, pixelCabling, pixelQualityFlags, pixelQualityDebugFlags);
}
MeasurementTrackerImpl::~MeasurementTrackerImpl()
{
}
void MeasurementTrackerImpl::initialize(const TrackerTopology* trackerTopology)
{
bool subIsPixel = false;
//FIXME:just temporary solution for phase2 :
//the OT is defined as PixelSubDetector!
bool subIsOT = false;
//if the TkGeometry has the subDet vector filled, the theDetMap is filled, otherwise nothing should happen
if(theTrackerGeom->detsPXB().size()!=0) {
subIsPixel = GeomDetEnumerators::isTrackerPixel(theTrackerGeom->geomDetSubDetector(theTrackerGeom->detsPXB().front()->geographicalId().subdetId()));
addDets(theTrackerGeom->detsPXB(), subIsPixel, subIsOT);
}
if(theTrackerGeom->detsPXF().size()!=0) {
subIsPixel = GeomDetEnumerators::isTrackerPixel(theTrackerGeom->geomDetSubDetector(theTrackerGeom->detsPXF().front()->geographicalId().subdetId()));
addDets(theTrackerGeom->detsPXF(), subIsPixel, subIsOT);
}
subIsOT = true;
if(theTrackerGeom->detsTIB().size()!=0) {
subIsPixel = GeomDetEnumerators::isTrackerPixel(theTrackerGeom->geomDetSubDetector(theTrackerGeom->detsTIB().front()->geographicalId().subdetId()));
addDets(theTrackerGeom->detsTIB(), subIsPixel, subIsOT);
}
if(theTrackerGeom->detsTID().size()!=0) {
subIsPixel = GeomDetEnumerators::isTrackerPixel(theTrackerGeom->geomDetSubDetector(theTrackerGeom->detsTID().front()->geographicalId().subdetId()));
addDets(theTrackerGeom->detsTID(), subIsPixel, subIsOT);
}
if(theTrackerGeom->detsTOB().size()!=0) {
subIsPixel = GeomDetEnumerators::isTrackerPixel(theTrackerGeom->geomDetSubDetector(theTrackerGeom->detsTOB().front()->geographicalId().subdetId()));
addDets(theTrackerGeom->detsTOB(), subIsPixel, subIsOT);
}
if(theTrackerGeom->detsTEC().size()!=0) {
subIsPixel = GeomDetEnumerators::isTrackerPixel(theTrackerGeom->geomDetSubDetector(theTrackerGeom->detsTEC().front()->geographicalId().subdetId()));
addDets(theTrackerGeom->detsTEC(), subIsPixel, subIsOT);
}
// fist all stripdets
sortTKD(theStripDets);
initStMeasurementConditionSet(theStripDets);
for (unsigned int i=0; i!=theStripDets.size(); ++i)
theDetMap[theStDetConditions.id(i)] = &theStripDets[i];
// now the glued dets
sortTKD(theGluedDets);
for (unsigned int i=0; i!=theGluedDets.size(); ++i)
initGluedDet(theGluedDets[i], trackerTopology);
// then the pixels
sortTKD(thePixelDets);
initPxMeasurementConditionSet(thePixelDets);
for (unsigned int i=0; i!=thePixelDets.size(); ++i)
theDetMap[thePxDetConditions.id(i)] = &thePixelDets[i];
// then the phase2 dets
sortTKD(thePhase2Dets);
initPhase2OTMeasurementConditionSet(thePhase2Dets);
for (unsigned int i=0; i!=thePhase2Dets.size(); ++i)
theDetMap[thePhase2DetConditions.id(i)] = &thePhase2Dets[i];
// and then the stack dets, at last
sortTKD(theStackDets);
for (unsigned int i=0; i!=theStackDets.size(); ++i)
initStackDet(theStackDets[i]);
if(!checkDets())
throw MeasurementDetException("Number of dets in MeasurementTracker not consistent with TrackerGeometry!");
}
void MeasurementTrackerImpl::initStMeasurementConditionSet(std::vector<TkStripMeasurementDet> & stripDets)
{
// assume vector is full and ordered!
int size = stripDets.size();
theStDetConditions.init(size);
for (int i=0; i!=size; ++i) {
auto & mdet = stripDets[i];
mdet.setIndex(i);
//intialize the detId !
theStDetConditions.id_[i] = mdet.specificGeomDet().geographicalId().rawId();
theStDetConditions.subId_[i]=SiStripDetId(theStDetConditions.id_[i]).subdetId()-3;
//initalize the total number of strips
theStDetConditions.totalStrips_[i] = mdet.specificGeomDet().specificTopology().nstrips();
}
}
void MeasurementTrackerImpl::initPxMeasurementConditionSet(std::vector<TkPixelMeasurementDet> & pixelDets)
{
// assume vector is full and ordered!
int size = pixelDets.size();
thePxDetConditions.init(size);
for (int i=0; i!=size; ++i) {
auto & mdet = pixelDets[i];
mdet.setIndex(i);
thePxDetConditions.id_[i] = mdet.specificGeomDet().geographicalId().rawId();
}
}
void MeasurementTrackerImpl::initPhase2OTMeasurementConditionSet(std::vector<TkPhase2OTMeasurementDet> & phase2Dets)
{
// assume vector is full and ordered!
int size = phase2Dets.size();
thePhase2DetConditions.init(size);
for (int i=0; i!=size; ++i) {
auto & mdet = phase2Dets[i];
mdet.setIndex(i);
thePhase2DetConditions.id_[i] = mdet.specificGeomDet().geographicalId().rawId();
}
}
void MeasurementTrackerImpl::addDets( const TrackingGeometry::DetContainer& dets, bool subIsPixel, bool subIsOT){
//in phase2, we can have composed subDetector made by Pixel or Strip
for (TrackerGeometry::DetContainer::const_iterator gd=dets.begin();
gd != dets.end(); gd++) {
const GeomDetUnit* gdu = dynamic_cast<const GeomDetUnit*>(*gd);
//Pixel or Strip GeomDetUnit
if (gdu->isLeaf()) {
if(subIsPixel) {
if(!subIsOT) {
addPixelDet(*gd);
} else {
addPhase2Det(*gd);
}
} else {
addStripDet(*gd);
}
} else {
//Glued or Stack GeomDet
const GluedGeomDet* gluedDet = dynamic_cast<const GluedGeomDet*>(*gd);
const StackGeomDet* stackDet = dynamic_cast<const StackGeomDet*>(*gd);
if ((gluedDet == 0 && stackDet == 0) || (gluedDet != 0 && stackDet != 0)) {
throw MeasurementDetException("MeasurementTracker ERROR: GeomDet neither DetUnit nor GluedDet nor StackDet");
}
if(gluedDet != 0)
addGluedDet(gluedDet);
else
addStackDet(stackDet);
}
}
}
bool MeasurementTrackerImpl::checkDets(){
if(theTrackerGeom->dets().size() == theDetMap.size())
return true;
return false;
}
void MeasurementTrackerImpl::addStripDet( const GeomDet* gd)
{
try {
theStripDets.push_back(TkStripMeasurementDet( gd, theStDetConditions ));
}
catch(MeasurementDetException& err){
edm::LogError("MeasurementDet") << "Oops, got a MeasurementDetException: " << err.what() ;
}
}
void MeasurementTrackerImpl::addPixelDet( const GeomDet* gd)
{
try {
thePixelDets.push_back(TkPixelMeasurementDet( gd, thePxDetConditions ));
}
catch(MeasurementDetException& err){
edm::LogError("MeasurementDet") << "Oops, got a MeasurementDetException: " << err.what() ;
}
}
void MeasurementTrackerImpl::addPhase2Det( const GeomDet* gd)
{
try {
thePhase2Dets.push_back(TkPhase2OTMeasurementDet( gd, thePhase2DetConditions ));
}
catch(MeasurementDetException& err){
edm::LogError("MeasurementDet") << "Oops, got a MeasurementDetException: " << err.what() ;
}
}
void MeasurementTrackerImpl::addGluedDet( const GluedGeomDet* gd)
{
theGluedDets.push_back(TkGluedMeasurementDet( gd, theStDetConditions.matcher(), theStDetConditions.stripCPE() ));
}
void MeasurementTrackerImpl::addStackDet( const StackGeomDet* gd)
{
//since the Stack will be composed by PS or 2S,
//both cluster parameter estimators are needed? - right now just the thePixelCPE is used.
theStackDets.push_back(TkStackMeasurementDet( gd, thePxDetConditions.pixelCPE() ));
}
void MeasurementTrackerImpl::initGluedDet( TkGluedMeasurementDet & det, const TrackerTopology* trackerTopology)
{
const GluedGeomDet& gd = det.specificGeomDet();
const MeasurementDet* monoDet = findDet( gd.monoDet()->geographicalId());
const MeasurementDet* stereoDet = findDet( gd.stereoDet()->geographicalId());
if (monoDet == 0 || stereoDet == 0) {
edm::LogError("MeasurementDet") << "MeasurementTracker ERROR: GluedDet components not found as MeasurementDets ";
throw MeasurementDetException("MeasurementTracker ERROR: GluedDet components not found as MeasurementDets");
}
det.init(monoDet, stereoDet, trackerTopology);
theDetMap[gd.geographicalId()] = &det;
}
void MeasurementTrackerImpl::initStackDet( TkStackMeasurementDet & det)
{
const StackGeomDet& gd = det.specificGeomDet();
const MeasurementDet* lowerDet = findDet( gd.lowerDet()->geographicalId());
const MeasurementDet* upperDet = findDet( gd.upperDet()->geographicalId());
if (lowerDet == 0 || upperDet == 0) {
edm::LogError("MeasurementDet") << "MeasurementTracker ERROR: StackDet components not found as MeasurementDets ";
throw MeasurementDetException("MeasurementTracker ERROR: StackDet components not found as MeasurementDets");
}
det.init(lowerDet,upperDet);
theDetMap[gd.geographicalId()] = &det;
}
void MeasurementTrackerImpl::initializeStripStatus(const SiStripQuality *quality, int qualityFlags, int qualityDebugFlags) {
edm::ParameterSet cutPset = pset_.getParameter<edm::ParameterSet>("badStripCuts");
if (qualityFlags & BadStrips) {
typedef StMeasurementConditionSet::BadStripCuts BadStripCuts;
theStDetConditions.badStripCuts_[SiStripDetId::TIB-3] = BadStripCuts(cutPset.getParameter<edm::ParameterSet>("TIB"));
theStDetConditions.badStripCuts_[SiStripDetId::TOB-3] = BadStripCuts(cutPset.getParameter<edm::ParameterSet>("TOB"));
theStDetConditions.badStripCuts_[SiStripDetId::TID-3] = BadStripCuts(cutPset.getParameter<edm::ParameterSet>("TID"));
theStDetConditions.badStripCuts_[SiStripDetId::TEC-3] = BadStripCuts(cutPset.getParameter<edm::ParameterSet>("TEC"));
}
theStDetConditions.setMaskBad128StripBlocks((qualityFlags & MaskBad128StripBlocks) != 0);
if ((quality != 0) && (qualityFlags != 0)) {
edm::LogInfo("MeasurementTracker") << "qualityFlags = " << qualityFlags;
unsigned int on = 0, tot = 0;
unsigned int foff = 0, ftot = 0, aoff = 0, atot = 0;
for (int i=0; i!= theStDetConditions.nDet(); i++) {
uint32_t detid = theStDetConditions.id(i);
if (qualityFlags & BadModules) {
bool isOn = quality->IsModuleUsable(detid);
theStDetConditions.setActive(i,isOn);
tot++; on += (unsigned int) isOn;
if (qualityDebugFlags & BadModules) {
edm::LogInfo("MeasurementTracker")<< "MeasurementTrackerImpl::initializeStripStatus : detid " << detid << " is " << (isOn ? "on" : "off");
}
} else {
theStDetConditions.setActive(i,true);
}
// first turn all APVs and fibers ON
theStDetConditions.set128StripStatus(i,true);
if (qualityFlags & BadAPVFibers) {
short badApvs = quality->getBadApvs(detid);
short badFibers = quality->getBadFibers(detid);
for (int j = 0; j < 6; j++) {
atot++;
if (badApvs & (1 << j)) {
theStDetConditions.set128StripStatus(i,false, j);
aoff++;
}
}
for (int j = 0; j < 3; j++) {
ftot++;
if (badFibers & (1 << j)) {
theStDetConditions.set128StripStatus(i,false, 2*j);
theStDetConditions.set128StripStatus(i,false, 2*j+1);
foff++;
}
}
}
auto & badStrips = theStDetConditions.getBadStripBlocks(i);
badStrips.clear();
if (qualityFlags & BadStrips) {
SiStripBadStrip::Range range = quality->getRange(detid);
for (SiStripBadStrip::ContainerIterator bit = range.first; bit != range.second; ++bit) {
badStrips.push_back(quality->decode(*bit));
}
}
}
if (qualityDebugFlags & BadModules) {
edm::LogInfo("MeasurementTracker StripModuleStatus") <<
" Total modules: " << tot << ", active " << on <<", inactive " << (tot - on);
}
if (qualityDebugFlags & BadAPVFibers) {
edm::LogInfo("MeasurementTracker StripAPVStatus") <<
" Total APVs: " << atot << ", active " << (atot-aoff) <<", inactive " << (aoff);
edm::LogInfo("MeasurementTracker StripFiberStatus") <<
" Total Fibers: " << ftot << ", active " << (ftot-foff) <<", inactive " << (foff);
}
} else {
for (int i=0; i!=theStDetConditions.nDet(); i++) {
theStDetConditions.setActive(i,true); // module ON
theStDetConditions.set128StripStatus(i,true); // all APVs and fibers ON
}
}
}
void MeasurementTrackerImpl::initializePixelStatus(const SiPixelQuality *quality, const SiPixelFedCabling *pixelCabling, int qualityFlags, int qualityDebugFlags) {
if ((quality != 0) && (qualityFlags != 0)) {
edm::LogInfo("MeasurementTracker") << "qualityFlags = " << qualityFlags;
unsigned int on = 0, tot = 0, badrocs = 0;
for (std::vector<TkPixelMeasurementDet>::iterator i=thePixelDets.begin();
i!=thePixelDets.end(); i++) {
uint32_t detid = ((*i).geomDet().geographicalId()).rawId();
if (qualityFlags & BadModules) {
bool isOn = quality->IsModuleUsable(detid);
(i)->setActive(isOn);
tot++; on += (unsigned int) isOn;
if (qualityDebugFlags & BadModules) {
edm::LogInfo("MeasurementTracker")<< "MeasurementTrackerImpl::initializePixelStatus : detid " << detid << " is " << (isOn ? "on" : "off");
}
} else {
(i)->setActive(true);
}
if ((qualityFlags & BadROCs) && (quality->getBadRocs(detid) != 0)) {
std::vector<LocalPoint> badROCs = quality->getBadRocPositions(detid, *theTrackerGeom, pixelCabling);
badrocs += badROCs.size();
(i)->setBadRocPositions(badROCs);
} else {
(i)->clearBadRocPositions();
}
}
if (qualityDebugFlags & BadModules) {
edm::LogInfo("MeasurementTracker PixelModuleStatus") <<
" Total modules: " << tot << ", active " << on <<", inactive " << (tot - on);
}
if (qualityDebugFlags & BadROCs) {
edm::LogInfo("MeasurementTracker PixelROCStatus") << " Total of bad ROCs: " << badrocs ;
}
} else {
for (std::vector<TkPixelMeasurementDet>::iterator i=thePixelDets.begin();
i!=thePixelDets.end(); i++) {
(i)->setActive(true); // module ON
}
}
}