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AODProducerWorkflowSpec.cxx
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3467 lines (3226 loc) · 161 KB
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// Copyright 2019-2020 CERN and copyright holders of ALICE O2.
// See https://alice-o2.web.cern.ch/copyright for details of the copyright holders.
// All rights not expressly granted are reserved.
//
// This software is distributed under the terms of the GNU General Public
// License v3 (GPL Version 3), copied verbatim in the file "COPYING".
//
// In applying this license CERN does not waive the privileges and immunities
// granted to it by virtue of its status as an Intergovernmental Organization
// or submit itself to any jurisdiction.
/// @file AODProducerWorkflowSpec.cxx
#include "AODProducerWorkflow/AODProducerWorkflowSpec.h"
#include "AODProducerWorkflow/AODMcProducerHelpers.h"
#include "AODProducerWorkflow/AODProducerHelpers.h"
#include "DataFormatsEMCAL/TriggerRecord.h"
#include "DataFormatsEMCAL/EventHandler.h"
#include "DataFormatsFT0/RecPoints.h"
#include "DataFormatsFDD/RecPoint.h"
#include "DataFormatsFV0/RecPoints.h"
#include "DataFormatsGlobalTracking/RecoContainer.h"
#include "DataFormatsCTP/Digits.h"
#include "DataFormatsCTP/Configuration.h"
#include "DataFormatsCPV/Cluster.h"
#include "DataFormatsCPV/TriggerRecord.h"
#include "DataFormatsITS/TrackITS.h"
#include "DataFormatsMCH/ROFRecord.h"
#include "DataFormatsMCH/TrackMCH.h"
#include "DataFormatsMCH/Cluster.h"
#include "DataFormatsMID/Track.h"
#include "DataFormatsMFT/TrackMFT.h"
#include "DataFormatsPHOS/TriggerRecord.h"
#include "DataFormatsPHOS/EventHandler.h"
#include "DataFormatsTPC/TrackTPC.h"
#include "DataFormatsZDC/BCRecData.h"
#include "DataFormatsZDC/ZDCEnergy.h"
#include "DataFormatsZDC/ZDCTDCData.h"
#include "DataFormatsParameters/GRPECSObject.h"
#include "MathUtils/Utils.h"
#include "CCDB/BasicCCDBManager.h"
#include "CommonConstants/Triggers.h"
#include "CommonConstants/PhysicsConstants.h"
#include "CommonDataFormat/InteractionRecord.h"
#include "DataFormatsTRD/TrackTRD.h"
#include "DataFormatsTRD/TrackTriggerRecord.h"
#include "DataFormatsTRD/CalibratedTracklet.h"
#include "DataFormatsTRD/TriggerRecord.h"
#include "DataFormatsTRD/Tracklet64.h"
#include "DataFormatsGlobalTracking/RecoContainer.h"
#include "Framework/AnalysisDataModel.h"
#include "Framework/ConfigParamRegistry.h"
#include "Framework/DataTypes.h"
#include "Framework/TableBuilder.h"
#include "Framework/CCDBParamSpec.h"
#include "CommonUtils/TreeStreamRedirector.h"
#include "FT0Base/Geometry.h"
#include "GlobalTracking/MatchTOF.h"
#include "ReconstructionDataFormats/Cascade.h"
#include "GlobalTracking/MatchGlobalFwd.h"
#include "MCHTracking/TrackExtrap.h"
#include "MCHTracking/TrackParam.h"
#include "ITSMFTBase/DPLAlpideParam.h"
#include "DetectorsVertexing/PVertexerParams.h"
#include "ReconstructionDataFormats/GlobalFwdTrack.h"
#include "ReconstructionDataFormats/GlobalTrackID.h"
#include "ReconstructionDataFormats/PrimaryVertex.h"
#include "ReconstructionDataFormats/StrangeTrack.h"
#include "ReconstructionDataFormats/Track.h"
#include "ReconstructionDataFormats/TrackTPCITS.h"
#include "ReconstructionDataFormats/TrackMCHMID.h"
#include "ReconstructionDataFormats/MatchInfoHMP.h"
#include "ReconstructionDataFormats/V0.h"
#include "ReconstructionDataFormats/VtxTrackIndex.h"
#include "ReconstructionDataFormats/VtxTrackRef.h"
#include "SimulationDataFormat/DigitizationContext.h"
#include "SimulationDataFormat/MCEventLabel.h"
#include "SimulationDataFormat/MCTrack.h"
#include "SimulationDataFormat/MCTruthContainer.h"
#include "SimulationDataFormat/MCUtils.h"
#include "SimulationDataFormat/MCGenProperties.h"
#include "ZDCBase/Constants.h"
#include "TPCBase/ParameterElectronics.h"
#include "GPUTPCGMMergedTrackHit.h"
#include "TOFBase/Utils.h"
#include "O2Version.h"
#include "TMath.h"
#include "MathUtils/Utils.h"
#include "Math/SMatrix.h"
#include "TString.h"
#include <limits>
#include <map>
#include <numeric>
#include <type_traits>
#include <unordered_map>
#include <set>
#include <string>
#include <vector>
#include <thread>
#include "TLorentzVector.h"
#include "TVector3.h"
#include "MathUtils/Tsallis.h"
#include <random>
#ifdef WITH_OPENMP
#include <omp.h>
#endif
#include <filesystem>
#include <nlohmann/json.hpp>
using namespace o2::framework;
using namespace o2::math_utils::detail;
using PVertex = o2::dataformats::PrimaryVertex;
using GIndex = o2::dataformats::VtxTrackIndex;
using DataRequest = o2::globaltracking::DataRequest;
using GID = o2::dataformats::GlobalTrackID;
using DetID = o2::detectors::DetID;
using SMatrix55Sym = ROOT::Math::SMatrix<double, 5, 5, ROOT::Math::MatRepSym<double, 5>>;
namespace o2::aodproducer
{
void AODProducerWorkflowDPL::createCTPReadout(const o2::globaltracking::RecoContainer& recoData, std::vector<o2::ctp::CTPDigit>& ctpDigits, ProcessingContext& pc)
{
// Extraxt CTP Config from CCDB
const auto ctpcfg = pc.inputs().get<o2::ctp::CTPConfiguration*>("ctpconfig");
ctpcfg->printStream(std::cout);
// o2::ctp::CTPConfiguration ctpcfg = o2::ctp::CTPRunManager::getConfigFromCCDB(-1, std::to_string(runNumber)); // how to get run
// Extract inputs from recoData
uint64_t classMaskEMCAL = 0, classMaskTRD = 0, classMaskPHOSCPV = 0;
for (const auto& trgclass : ctpcfg->getCTPClasses()) {
if (trgclass.cluster->getClusterDetNames().find("EMC") != std::string::npos) {
classMaskEMCAL = trgclass.classMask;
}
if (trgclass.cluster->getClusterDetNames().find("PHS") != std::string::npos) {
classMaskPHOSCPV = trgclass.classMask;
}
if (trgclass.cluster->getClusterDetNames().find("TRD") != std::string::npos) {
classMaskTRD = trgclass.classMask;
}
}
LOG(info) << "createCTPReadout: Class Mask EMCAL -> " << classMaskEMCAL;
LOG(info) << "createCTPReadout: Class Mask PHOS/CPV -> " << classMaskPHOSCPV;
LOG(info) << "createCTPReadout: Class Mask TRD -> " << classMaskTRD;
// const auto& fddRecPoints = recoData.getFDDRecPoints();
// const auto& fv0RecPoints = recoData.getFV0RecPoints();
const auto& triggerrecordEMCAL = recoData.getEMCALTriggers();
const auto& triggerrecordPHOSCPV = recoData.getPHOSTriggers();
const auto& triggerrecordTRD = recoData.getTRDTriggerRecords();
// For EMCAL filter remove calibration triggers
std::vector<o2::emcal::TriggerRecord> triggerRecordEMCALPhys;
for (const auto& trg : triggerrecordEMCAL) {
if (trg.getTriggerBits() & o2::trigger::Cal) {
continue;
}
triggerRecordEMCALPhys.push_back(trg);
}
// const auto& triggerrecordTRD =recoData.getITSTPCTRDTriggers()
//
// Find TVX triggers, only TRD/EMCAL/PHOS/CPV triggers in coincidence will be accepted
std::set<uint64_t> bcsMapT0triggers;
const auto& ft0RecPoints = recoData.getFT0RecPoints();
for (auto& ft0RecPoint : ft0RecPoints) {
auto t0triggers = ft0RecPoint.getTrigger();
if (t0triggers.getVertex()) {
uint64_t globalBC = ft0RecPoint.getInteractionRecord().toLong();
bcsMapT0triggers.insert(globalBC);
}
}
auto genericCTPDigitizer = [&bcsMapT0triggers, &ctpDigits](auto triggerrecords, uint64_t classmask) -> int {
// Strategy:
// find detector trigger based on trigger record from readout and add CTPDigit if trigger there
int cntwarnings = 0;
uint32_t orbitPrev = 0;
uint16_t bcPrev = 0;
for (auto& trigger : triggerrecords) {
auto orbitPrevT = orbitPrev;
auto bcPrevT = bcPrev;
bcPrev = trigger.getBCData().bc;
orbitPrev = trigger.getBCData().orbit;
// dedicated for TRD: remove bogus triggers
if (orbitPrev < orbitPrevT || bcPrev >= o2::constants::lhc::LHCMaxBunches || (orbitPrev == orbitPrevT && bcPrev < bcPrevT)) {
cntwarnings++;
// LOGP(warning, "Bogus TRD trigger at bc:{}/orbit:{} (previous was {}/{}), with {} tracklets and {} digits",bcPrev, orbitPrev, bcPrevT, orbitPrevT, trig.getNumberOfTracklets(), trig.getNumberOfDigits());
} else {
uint64_t globalBC = trigger.getBCData().toLong();
auto t0entry = bcsMapT0triggers.find(globalBC);
if (t0entry != bcsMapT0triggers.end()) {
auto ctpdig = std::find_if(ctpDigits.begin(), ctpDigits.end(), [globalBC](const o2::ctp::CTPDigit& dig) { return static_cast<uint64_t>(dig.intRecord.toLong()) == globalBC; });
if (ctpdig != ctpDigits.end()) {
// CTP digit existing from other trigger, merge detector class mask
ctpdig->CTPClassMask |= std::bitset<64>(classmask);
LOG(debug) << "createCTPReadout: Merging " << classmask << " CTP digits with existing digit, CTP mask " << ctpdig->CTPClassMask;
} else {
// New CTP digit needed
LOG(debug) << "createCTPReadout: New CTP digit needed for class " << classmask << std::endl;
auto& ctpdigNew = ctpDigits.emplace_back();
ctpdigNew.intRecord.setFromLong(globalBC);
ctpdigNew.CTPClassMask = classmask;
}
} else {
LOG(warning) << "createCTPReadout: Found " << classmask << " and no MTVX:" << globalBC;
}
}
}
return cntwarnings;
};
auto warningsTRD = genericCTPDigitizer(triggerrecordTRD, classMaskTRD);
auto warningsEMCAL = genericCTPDigitizer(triggerRecordEMCALPhys, classMaskEMCAL);
auto warningsPHOSCPV = genericCTPDigitizer(triggerrecordPHOSCPV, classMaskPHOSCPV);
LOG(info) << "createCTPReadout:# of TRD bogus triggers:" << warningsTRD;
LOG(info) << "createCTPReadout:# of EMCAL bogus triggers:" << warningsEMCAL;
LOG(info) << "createCTPReadout:# of PHOS/CPV bogus triggers:" << warningsPHOSCPV;
}
void AODProducerWorkflowDPL::collectBCs(const o2::globaltracking::RecoContainer& data,
const std::vector<o2::InteractionTimeRecord>& mcRecords,
std::map<uint64_t, int>& bcsMap)
{
const auto& primVertices = data.getPrimaryVertices();
const auto& fddRecPoints = data.getFDDRecPoints();
const auto& ft0RecPoints = data.getFT0RecPoints();
const auto& fv0RecPoints = data.getFV0RecPoints();
const auto& caloEMCCellsTRGR = data.getEMCALTriggers();
const auto& caloPHOSCellsTRGR = data.getPHOSTriggers();
const auto& cpvTRGR = data.getCPVTriggers();
const auto& ctpDigits = data.getCTPDigits();
const auto& zdcBCRecData = data.getZDCBCRecData();
bcsMap[mStartIR.toLong()] = 1; // store the start of TF
// collecting non-empty BCs and enumerating them
for (auto& rec : mcRecords) {
uint64_t globalBC = rec.toLong();
bcsMap[globalBC] = 1;
}
for (auto& fddRecPoint : fddRecPoints) {
uint64_t globalBC = fddRecPoint.getInteractionRecord().toLong();
bcsMap[globalBC] = 1;
}
for (auto& ft0RecPoint : ft0RecPoints) {
uint64_t globalBC = ft0RecPoint.getInteractionRecord().toLong();
bcsMap[globalBC] = 1;
}
for (auto& fv0RecPoint : fv0RecPoints) {
uint64_t globalBC = fv0RecPoint.getInteractionRecord().toLong();
bcsMap[globalBC] = 1;
}
for (auto& zdcRecData : zdcBCRecData) {
uint64_t globalBC = zdcRecData.ir.toLong();
bcsMap[globalBC] = 1;
}
for (auto& vertex : primVertices) {
auto& timeStamp = vertex.getTimeStamp();
double tsTimeStamp = timeStamp.getTimeStamp() * 1E3; // mus to ns
uint64_t globalBC = relativeTime_to_GlobalBC(tsTimeStamp);
bcsMap[globalBC] = 1;
}
for (auto& emcaltrg : caloEMCCellsTRGR) {
uint64_t globalBC = emcaltrg.getBCData().toLong();
bcsMap[globalBC] = 1;
}
for (auto& phostrg : caloPHOSCellsTRGR) {
uint64_t globalBC = phostrg.getBCData().toLong();
bcsMap[globalBC] = 1;
}
for (auto& cpvtrg : cpvTRGR) {
uint64_t globalBC = cpvtrg.getBCData().toLong();
bcsMap[globalBC] = 1;
}
for (auto& ctpDigit : ctpDigits) {
uint64_t globalBC = ctpDigit.intRecord.toLong();
bcsMap[globalBC] = 1;
}
int bcID = 0;
for (auto& item : bcsMap) {
item.second = bcID;
bcID++;
}
}
template <typename TracksCursorType, typename TracksCovCursorType>
void AODProducerWorkflowDPL::addToTracksTable(TracksCursorType& tracksCursor, TracksCovCursorType& tracksCovCursor,
const o2::track::TrackParCov& track, int collisionID, aod::track::TrackTypeEnum type)
{
tracksCursor(collisionID,
type,
truncateFloatFraction(track.getX(), mTrackX),
truncateFloatFraction(track.getAlpha(), mTrackAlpha),
track.getY(),
track.getZ(),
truncateFloatFraction(track.getSnp(), mTrackSnp),
truncateFloatFraction(track.getTgl(), mTrackTgl),
truncateFloatFraction(track.getQ2Pt(), mTrack1Pt));
// trackscov
float sY = TMath::Sqrt(track.getSigmaY2()), sZ = TMath::Sqrt(track.getSigmaZ2()), sSnp = TMath::Sqrt(track.getSigmaSnp2()),
sTgl = TMath::Sqrt(track.getSigmaTgl2()), sQ2Pt = TMath::Sqrt(track.getSigma1Pt2());
tracksCovCursor(truncateFloatFraction(sY, mTrackCovDiag),
truncateFloatFraction(sZ, mTrackCovDiag),
truncateFloatFraction(sSnp, mTrackCovDiag),
truncateFloatFraction(sTgl, mTrackCovDiag),
truncateFloatFraction(sQ2Pt, mTrackCovDiag),
(Char_t)(128. * track.getSigmaZY() / (sZ * sY)),
(Char_t)(128. * track.getSigmaSnpY() / (sSnp * sY)),
(Char_t)(128. * track.getSigmaSnpZ() / (sSnp * sZ)),
(Char_t)(128. * track.getSigmaTglY() / (sTgl * sY)),
(Char_t)(128. * track.getSigmaTglZ() / (sTgl * sZ)),
(Char_t)(128. * track.getSigmaTglSnp() / (sTgl * sSnp)),
(Char_t)(128. * track.getSigma1PtY() / (sQ2Pt * sY)),
(Char_t)(128. * track.getSigma1PtZ() / (sQ2Pt * sZ)),
(Char_t)(128. * track.getSigma1PtSnp() / (sQ2Pt * sSnp)),
(Char_t)(128. * track.getSigma1PtTgl() / (sQ2Pt * sTgl)));
}
template <typename TracksExtraCursorType>
void AODProducerWorkflowDPL::addToTracksExtraTable(TracksExtraCursorType& tracksExtraCursor, TrackExtraInfo& extraInfoHolder)
{
// In case of TPC-only tracks, do not truncate the time error since we encapsulate there a special encoding of
// the deltaFwd/Bwd times
auto trackTimeRes = extraInfoHolder.trackTimeRes;
if (!extraInfoHolder.isTPConly) {
trackTimeRes = truncateFloatFraction(trackTimeRes, mTrackTimeError);
}
// extra
tracksExtraCursor(truncateFloatFraction(extraInfoHolder.tpcInnerParam, mTrack1Pt),
extraInfoHolder.flags,
extraInfoHolder.itsClusterSizes,
extraInfoHolder.tpcNClsFindable,
extraInfoHolder.tpcNClsFindableMinusFound,
extraInfoHolder.tpcNClsFindableMinusPID,
extraInfoHolder.tpcNClsFindableMinusCrossedRows,
extraInfoHolder.tpcNClsShared,
extraInfoHolder.trdPattern,
truncateFloatFraction(extraInfoHolder.itsChi2NCl, mTrackChi2),
truncateFloatFraction(extraInfoHolder.tpcChi2NCl, mTrackChi2),
truncateFloatFraction(extraInfoHolder.trdChi2, mTrackChi2),
truncateFloatFraction(extraInfoHolder.tofChi2, mTrackChi2),
truncateFloatFraction(extraInfoHolder.tpcSignal, mTrackSignal),
truncateFloatFraction(extraInfoHolder.trdSignal, mTrackSignal),
truncateFloatFraction(extraInfoHolder.length, mTrackSignal),
truncateFloatFraction(extraInfoHolder.tofExpMom, mTrack1Pt),
truncateFloatFraction(extraInfoHolder.trackEtaEMCAL, mTrackPosEMCAL),
truncateFloatFraction(extraInfoHolder.trackPhiEMCAL, mTrackPosEMCAL),
truncateFloatFraction(extraInfoHolder.trackTime, mTrackTime),
trackTimeRes);
}
template <typename TracksQACursorType>
void AODProducerWorkflowDPL::addToTracksQATable(TracksQACursorType& tracksQACursor, TrackQA& trackQAInfoHolder)
{
tracksQACursor(
trackQAInfoHolder.trackID,
truncateFloatFraction(trackQAInfoHolder.tpcTime0, mTPCTime0),
truncateFloatFraction(trackQAInfoHolder.tpcdEdxNorm, mTrackSignal),
trackQAInfoHolder.tpcdcaR,
trackQAInfoHolder.tpcdcaZ,
trackQAInfoHolder.tpcClusterByteMask,
trackQAInfoHolder.tpcdEdxMax0R,
trackQAInfoHolder.tpcdEdxMax1R,
trackQAInfoHolder.tpcdEdxMax2R,
trackQAInfoHolder.tpcdEdxMax3R,
trackQAInfoHolder.tpcdEdxTot0R,
trackQAInfoHolder.tpcdEdxTot1R,
trackQAInfoHolder.tpcdEdxTot2R,
trackQAInfoHolder.tpcdEdxTot3R,
trackQAInfoHolder.dRefContY,
trackQAInfoHolder.dRefContZ,
trackQAInfoHolder.dRefContSnp,
trackQAInfoHolder.dRefContTgl,
trackQAInfoHolder.dRefContQ2Pt,
trackQAInfoHolder.dRefGloY,
trackQAInfoHolder.dRefGloZ,
trackQAInfoHolder.dRefGloSnp,
trackQAInfoHolder.dRefGloTgl,
trackQAInfoHolder.dRefGloQ2Pt,
trackQAInfoHolder.dTofdX,
trackQAInfoHolder.dTofdZ);
}
template <typename TRDsExtraCursorType>
void AODProducerWorkflowDPL::addToTRDsExtra(const o2::globaltracking::RecoContainer& recoData, TRDsExtraCursorType& trdExtraCursor, const GIndex& trkIdx, int trkTableIdx)
{
static int q0s[6] = {-1}, q1s[6] = {-1}, q2s[6] = {-1};
static float q0sCor[6] = {-1}, q1sCor[6] = {-1}, q2sCor[6] = {-1};
static float ttgls[6] = {-999}, tphis[6] = {-999};
auto contributorsGID = recoData.getSingleDetectorRefs(trkIdx);
if (!contributorsGID[GIndex::Source::TRD].isIndexSet()) { // should be redunant
return;
}
const auto& trk = recoData.getTrack<o2::trd::TrackTRD>(contributorsGID[GIndex::Source::TRD]);
auto trkC = trk;
const auto& trklets = recoData.getTRDTracklets();
const auto& ctrklets = recoData.getTRDCalibratedTracklets();
for (int iLay{0}; iLay < 6; ++iLay) {
q0s[iLay] = q1s[iLay] = q2s[iLay] = -1;
q0sCor[iLay] = q1sCor[iLay] = q2sCor[iLay] = -1;
tphis[iLay] = ttgls[iLay] = -999;
auto trkltId = trk.getTrackletIndex(iLay);
if (trkltId < 0) {
continue;
}
const auto& tracklet = trklets[trkltId];
if (mTRDNoiseMap->isTrackletFromNoisyMCM(tracklet)) {
continue;
}
// we need to propagate into TRD local system
int trkltDet = tracklet.getDetector();
int trkltSec = trkltDet / 30;
if (trkltSec != o2::math_utils::angle2Sector(trkC.getAlpha())) {
if (!trkC.rotate(o2::math_utils::sector2Angle(trkltSec))) {
break;
}
}
if (!o2::base::Propagator::Instance()->PropagateToXBxByBz(trkC, ctrklets[trkltId].getX(), o2::base::Propagator::MAX_SIN_PHI, o2::base::Propagator::MAX_STEP, mMatCorr)) {
break;
}
auto tphi = trkC.getSnp() / std::sqrt((1.f - trkC.getSnp()) * (1.f + trkC.getSnp()));
auto trackletLength = std::sqrt(1.f + tphi * tphi + trkC.getTgl() * trkC.getTgl());
float cor = mTRDLocalGain->getValue(tracklet.getHCID() / 2, tracklet.getPadCol(), tracklet.getPadRow()) * trackletLength;
q0s[iLay] = tracklet.getQ0();
q1s[iLay] = tracklet.getQ1();
q2s[iLay] = tracklet.getQ2();
q0sCor[iLay] = (float)tracklet.getQ0() / cor;
q1sCor[iLay] = (float)tracklet.getQ1() / cor;
q2sCor[iLay] = (float)tracklet.getQ2() / cor;
ttgls[iLay] = trkC.getTgl();
tphis[iLay] = tphi;
// z-row merging
if (trk.getIsCrossingNeighbor(iLay) && trk.getHasNeighbor()) {
for (const auto& trklt : trklets) {
if (tracklet.getTrackletWord() == trklt.getTrackletWord()) {
continue;
}
if (std::abs(tracklet.getPadCol() - trklt.getPadCol()) <= 1 && std::abs(tracklet.getPadRow() - trklt.getPadRow()) == 1) {
cor = mTRDLocalGain->getValue(trklt.getHCID() / 2, trklt.getPadCol(), trklt.getPadRow()) * trackletLength;
q0s[iLay] += trklt.getQ0();
q1s[iLay] += trklt.getQ1();
q2s[iLay] += trklt.getQ2();
q0sCor[iLay] += (float)trklt.getQ0() / cor;
q1sCor[iLay] += (float)trklt.getQ1() / cor;
q2sCor[iLay] += (float)trklt.getQ2() / cor;
}
}
}
}
trdExtraCursor(trkTableIdx, q0s, q1s, q2s, q0sCor, q1sCor, q2sCor, ttgls, tphis);
}
template <typename mftTracksCursorType, typename AmbigMFTTracksCursorType>
void AODProducerWorkflowDPL::addToMFTTracksTable(mftTracksCursorType& mftTracksCursor, AmbigMFTTracksCursorType& ambigMFTTracksCursor,
GIndex trackID, const o2::globaltracking::RecoContainer& data, int collisionID,
std::uint64_t collisionBC, const std::map<uint64_t, int>& bcsMap)
{
// mft tracks
int bcSlice[2] = {-1, -1};
const auto& track = data.getMFTTrack(trackID);
const auto& rof = data.getMFTTracksROFRecords()[mMFTROFs[trackID.getIndex()]];
float trackTime = rof.getBCData().differenceInBC(mStartIR) * o2::constants::lhc::LHCBunchSpacingNS + mMFTROFrameHalfLengthNS + mMFTROFBiasNS;
float trackTimeRes = mMFTROFrameHalfLengthNS;
bool needBCSlice = collisionID < 0;
std::uint64_t bcOfTimeRef;
if (needBCSlice) {
double error = mTimeMarginTrackTime + trackTimeRes;
bcOfTimeRef = fillBCSlice(bcSlice, trackTime - error, trackTime + error, bcsMap);
} else {
bcOfTimeRef = collisionBC - mStartIR.toLong(); // by default (unambiguous) track time is wrt collision BC
}
trackTime -= bcOfTimeRef * o2::constants::lhc::LHCBunchSpacingNS;
// the Cellular Automaton track-finding algorithm flag is stored in first of the 4 bits not used for the cluster size
uint64_t mftClusterSizesAndTrackFlags = track.getClusterSizes();
mftClusterSizesAndTrackFlags |= (track.isCA()) ? (1ULL << (60)) : 0;
mftTracksCursor(collisionID,
track.getX(),
track.getY(),
truncateFloatFraction(track.getZ(), mTrackX), // for the forward tracks Z has the same role as X in barrel
truncateFloatFraction(track.getPhi(), mTrackAlpha),
truncateFloatFraction(track.getTanl(), mTrackTgl),
truncateFloatFraction(track.getInvQPt(), mTrack1Pt),
mftClusterSizesAndTrackFlags,
truncateFloatFraction(track.getTrackChi2(), mTrackChi2),
truncateFloatFraction(trackTime, mTrackTime),
truncateFloatFraction(trackTimeRes, mTrackTimeError));
if (needBCSlice) {
ambigMFTTracksCursor(mTableTrMFTID, bcSlice);
}
}
template <typename TracksCursorType, typename TracksCovCursorType, typename TracksExtraCursorType, typename TracksQACursorType, typename TRDsExtraCursor, typename AmbigTracksCursorType,
typename MFTTracksCursorType, typename MFTTracksCovCursorType, typename AmbigMFTTracksCursorType,
typename FwdTracksCursorType, typename FwdTracksCovCursorType, typename AmbigFwdTracksCursorType, typename FwdTrkClsCursorType>
void AODProducerWorkflowDPL::fillTrackTablesPerCollision(int collisionID,
std::uint64_t collisionBC,
const o2::dataformats::VtxTrackRef& trackRef,
const gsl::span<const GIndex>& GIndices,
const o2::globaltracking::RecoContainer& data,
TracksCursorType& tracksCursor,
TracksCovCursorType& tracksCovCursor,
TracksExtraCursorType& tracksExtraCursor,
TracksQACursorType& tracksQACursor,
TRDsExtraCursor& trdsExtraCursor,
AmbigTracksCursorType& ambigTracksCursor,
MFTTracksCursorType& mftTracksCursor,
MFTTracksCovCursorType& mftTracksCovCursor,
AmbigMFTTracksCursorType& ambigMFTTracksCursor,
FwdTracksCursorType& fwdTracksCursor,
FwdTracksCovCursorType& fwdTracksCovCursor,
AmbigFwdTracksCursorType& ambigFwdTracksCursor,
FwdTrkClsCursorType& fwdTrkClsCursor,
const std::map<uint64_t, int>& bcsMap)
{
for (int src = GIndex::NSources; src--;) {
if (!GIndex::isTrackSource(src)) {
continue;
}
int start = trackRef.getFirstEntryOfSource(src);
int end = start + trackRef.getEntriesOfSource(src);
int nToReserve = end - start; // + last index for a given table
if (src == GIndex::Source::MFT) {
mftTracksCursor.reserve(nToReserve + mftTracksCursor.lastIndex());
} else if (src == GIndex::Source::MCH || src == GIndex::Source::MFTMCH || src == GIndex::Source::MCHMID) {
fwdTracksCursor.reserve(nToReserve + fwdTracksCursor.lastIndex());
fwdTracksCovCursor.reserve(nToReserve + fwdTracksCovCursor.lastIndex());
if (src == GIndex::Source::MFTMCH) {
mftTracksCovCursor.reserve(nToReserve + mftTracksCovCursor.lastIndex());
}
} else {
tracksCursor.reserve(nToReserve + tracksCursor.lastIndex());
tracksCovCursor.reserve(nToReserve + tracksCovCursor.lastIndex());
tracksExtraCursor.reserve(nToReserve + tracksExtraCursor.lastIndex());
}
for (int ti = start; ti < end; ti++) {
const auto& trackIndex = GIndices[ti];
if (GIndex::includesSource(src, mInputSources)) {
if (src == GIndex::Source::MFT) { // MFT tracks are treated separately since they are stored in a different table
if (trackIndex.isAmbiguous() && mGIDToTableMFTID.find(trackIndex) != mGIDToTableMFTID.end()) { // was it already stored ?
continue;
}
addToMFTTracksTable(mftTracksCursor, ambigMFTTracksCursor, trackIndex, data, collisionID, collisionBC, bcsMap);
mGIDToTableMFTID.emplace(trackIndex, mTableTrMFTID);
mTableTrMFTID++;
} else if (src == GIndex::Source::MCH || src == GIndex::Source::MFTMCH || src == GIndex::Source::MCHMID) { // FwdTracks tracks are treated separately since they are stored in a different table
if (trackIndex.isAmbiguous() && mGIDToTableFwdID.find(trackIndex) != mGIDToTableFwdID.end()) { // was it already stored ?
continue;
}
addToFwdTracksTable(fwdTracksCursor, fwdTracksCovCursor, ambigFwdTracksCursor, mftTracksCovCursor, trackIndex, data, collisionID, collisionBC, bcsMap);
mGIDToTableFwdID.emplace(trackIndex, mTableTrFwdID);
addClustersToFwdTrkClsTable(data, fwdTrkClsCursor, trackIndex, mTableTrFwdID);
mTableTrFwdID++;
} else {
// barrel track: normal tracks table
if (trackIndex.isAmbiguous() && mGIDToTableID.find(trackIndex) != mGIDToTableID.end()) { // was it already stored ?
continue;
}
float weight = 0;
static std::uniform_real_distribution<> distr(0., 1.);
bool writeQAData = o2::math_utils::Tsallis::downsampleTsallisCharged(data.getTrackParam(trackIndex).getPt(), mTrackQCFraction, mSqrtS, weight, distr(mGenerator));
auto extraInfoHolder = processBarrelTrack(collisionID, collisionBC, trackIndex, data, bcsMap);
if (writeQAData) {
auto trackQAInfoHolder = processBarrelTrackQA(collisionID, collisionBC, trackIndex, data, bcsMap);
if (std::bitset<8>(trackQAInfoHolder.tpcClusterByteMask).count() >= mTrackQCNTrCut) {
trackQAInfoHolder.trackID = mTableTrID;
// LOGP(info, "orig time0 in bc: {} diffBCRef: {}, ttime: {} -> {}", trackQAInfoHolder.tpcTime0*8, extraInfoHolder.diffBCRef, extraInfoHolder.trackTime, (trackQAInfoHolder.tpcTime0 * 8 - extraInfoHolder.diffBCRef) * o2::constants::lhc::LHCBunchSpacingNS - extraInfoHolder.trackTime);
trackQAInfoHolder.tpcTime0 = (trackQAInfoHolder.tpcTime0 * 8 - extraInfoHolder.diffBCRef) * o2::constants::lhc::LHCBunchSpacingNS - extraInfoHolder.trackTime;
// difference between TPC track time0 and stored track nominal time in ns instead of TF start
addToTracksQATable(tracksQACursor, trackQAInfoHolder);
} else {
writeQAData = false;
}
}
// include specific selection of tpc standalone tracks if thinning is active
if (mThinTracks && extraInfoHolder.isTPConly && !writeQAData) { // if trackQA is written then no check has to be done
auto trk = data.getTPCTrack(trackIndex);
if (trk.getNClusters() >= mTrackQCNCls && trk.getPt() >= mTrackQCPt) {
o2::dataformats::DCA dcaInfo{999.f, 999.f, 999.f, 999.f, 999.f};
o2::dataformats::VertexBase v = mVtx.getMeanVertex(collisionID < 0 ? 0.f : data.getPrimaryVertex(collisionID).getZ());
if (o2::base::Propagator::Instance()->propagateToDCABxByBz(v, trk, 2., mMatCorr, &dcaInfo) && std::abs(dcaInfo.getY()) < mTrackQCDCAxy) {
writeQAData = true; // just setting this to not thin the track
}
}
}
// Skip thinning if not enabled or track is not tpc standalone or assoc. to a V0 or qa'ed
if (mThinTracks && src == GIndex::Source::TPC && mGIDUsedBySVtx.find(trackIndex) == mGIDUsedBySVtx.end() && mGIDUsedByStr.find(trackIndex) == mGIDUsedByStr.end() && !writeQAData) {
mGIDToTableID.emplace(trackIndex, -1); // pretend skipped tracks are stored; this is safe since they are are not written to disk and -1 indicates to all users to not use this track
continue;
}
if (!extraInfoHolder.isTPConly && extraInfoHolder.trackTimeRes < 0.f) { // failed or rejected?
LOG(warning) << "Barrel track " << trackIndex << " has no time set, rejection is not expected : time=" << extraInfoHolder.trackTime
<< " timeErr=" << extraInfoHolder.trackTimeRes << " BCSlice: " << extraInfoHolder.bcSlice[0] << ":" << extraInfoHolder.bcSlice[1];
continue;
}
const auto& trOrig = data.getTrackParam(trackIndex);
bool isProp = false;
if (mPropTracks && trOrig.getX() < mMaxPropXiu &&
mGIDUsedBySVtx.find(trackIndex) == mGIDUsedBySVtx.end() &&
mGIDUsedByStr.find(trackIndex) == mGIDUsedByStr.end()) { // Do not propagate track assoc. to V0s and str. tracking
auto trackPar(trOrig);
isProp = propagateTrackToPV(trackPar, data, collisionID);
if (isProp) {
addToTracksTable(tracksCursor, tracksCovCursor, trackPar, collisionID, aod::track::Track);
}
}
if (!isProp) {
addToTracksTable(tracksCursor, tracksCovCursor, trOrig, collisionID, aod::track::TrackIU);
}
addToTracksExtraTable(tracksExtraCursor, extraInfoHolder);
if (mEnableTRDextra && trackIndex.includesDet(GIndex::Source::TRD)) {
addToTRDsExtra(data, trdsExtraCursor, trackIndex, mTableTrID);
}
// collecting table indices of barrel tracks for V0s table
if (extraInfoHolder.bcSlice[0] >= 0 && collisionID < 0) {
ambigTracksCursor(mTableTrID, extraInfoHolder.bcSlice);
}
mGIDToTableID.emplace(trackIndex, mTableTrID);
mTableTrID++;
}
}
}
}
if (collisionID < 0) {
return;
}
/// Add strangeness tracks to the table
auto sTracks = data.getStrangeTracks();
tracksCursor.reserve(mVertexStrLUT[collisionID + 1] + tracksCursor.lastIndex());
tracksCovCursor.reserve(mVertexStrLUT[collisionID + 1] + tracksCovCursor.lastIndex());
tracksExtraCursor.reserve(mVertexStrLUT[collisionID + 1] + tracksExtraCursor.lastIndex());
for (int iS{mVertexStrLUT[collisionID]}; iS < mVertexStrLUT[collisionID + 1]; ++iS) {
auto& collStrTrk = mCollisionStrTrk[iS];
auto& sTrk = sTracks[collStrTrk.second];
TrackExtraInfo extraInfo;
extraInfo.itsChi2NCl = sTrk.mTopoChi2; // TODO: this is the total chi2 of adding the ITS clusters, the topology chi2 meaning might change in the future
extraInfo.itsClusterSizes = sTrk.getClusterSizes();
addToTracksTable(tracksCursor, tracksCovCursor, sTrk.mMother, collisionID, aod::track::StrangeTrack);
addToTracksExtraTable(tracksExtraCursor, extraInfo);
mStrTrkIndices[collStrTrk.second] = mTableTrID;
mTableTrID++;
}
}
void AODProducerWorkflowDPL::fillIndexTablesPerCollision(const o2::dataformats::VtxTrackRef& trackRef, const gsl::span<const GIndex>& GIndices, const o2::globaltracking::RecoContainer& data)
{
const auto& mchmidMatches = data.getMCHMIDMatches();
for (int src : {GIndex::Source::MCHMID, GIndex::Source::MFTMCH, GIndex::Source::MCH, GIndex::Source::MFT}) {
int start = trackRef.getFirstEntryOfSource(src);
int end = start + trackRef.getEntriesOfSource(src);
for (int ti = start; ti < end; ti++) {
auto& trackIndex = GIndices[ti];
if (GIndex::includesSource(src, mInputSources)) {
if (src == GIndex::Source::MFT) {
if (trackIndex.isAmbiguous() && mGIDToTableMFTID.find(trackIndex) != mGIDToTableMFTID.end()) {
continue;
}
mGIDToTableMFTID.emplace(trackIndex, mIndexMFTID);
mIndexTableMFT[trackIndex.getIndex()] = mIndexMFTID;
mIndexMFTID++;
} else if (src == GIndex::Source::MCH || src == GIndex::Source::MFTMCH || src == GIndex::Source::MCHMID) {
if (trackIndex.isAmbiguous() && mGIDToTableFwdID.find(trackIndex) != mGIDToTableFwdID.end()) {
continue;
}
mGIDToTableFwdID.emplace(trackIndex, mIndexFwdID);
if (src == GIndex::Source::MCH) {
mIndexTableFwd[trackIndex.getIndex()] = mIndexFwdID;
} else if (src == GIndex::Source::MCHMID) {
const auto& mchmidMatch = mchmidMatches[trackIndex.getIndex()];
const auto mchTrackID = mchmidMatch.getMCHRef().getIndex();
mIndexTableFwd[mchTrackID] = mIndexFwdID;
}
mIndexFwdID++;
}
}
}
}
}
template <typename FwdTracksCursorType, typename FwdTracksCovCursorType, typename AmbigFwdTracksCursorType, typename mftTracksCovCursorType>
void AODProducerWorkflowDPL::addToFwdTracksTable(FwdTracksCursorType& fwdTracksCursor, FwdTracksCovCursorType& fwdTracksCovCursor,
AmbigFwdTracksCursorType& ambigFwdTracksCursor, mftTracksCovCursorType& mftTracksCovCursor, GIndex trackID,
const o2::globaltracking::RecoContainer& data, int collisionID, std::uint64_t collisionBC,
const std::map<uint64_t, int>& bcsMap)
{
const auto& mchTracks = data.getMCHTracks();
const auto& midTracks = data.getMIDTracks();
const auto& mchmidMatches = data.getMCHMIDMatches();
const auto& mchClusters = data.getMCHTrackClusters();
FwdTrackInfo fwdInfo;
FwdTrackCovInfo fwdCovInfo;
int bcSlice[2] = {-1, -1};
// helper lambda for mch bitmap -- common for global and standalone tracks
auto getMCHBitMap = [&](int mchTrackID) {
if (mchTrackID != -1) { // check matching just in case
const auto& mchTrack = mchTracks[mchTrackID];
int first = mchTrack.getFirstClusterIdx();
int last = mchTrack.getLastClusterIdx();
for (int i = first; i <= last; i++) { // check chamberIds of all clusters
const auto& cluster = mchClusters[i];
int chamberId = cluster.getChamberId();
fwdInfo.mchBitMap |= 1 << chamberId;
}
}
};
auto getMIDBitMapBoards = [&](int midTrackID) {
if (midTrackID != -1) { // check matching just in case
const auto& midTrack = midTracks[midTrackID];
fwdInfo.midBitMap = midTrack.getHitMap();
fwdInfo.midBoards = midTrack.getEfficiencyWord();
}
};
auto extrapMCHTrack = [&](int mchTrackID) {
const auto& track = mchTracks[mchTrackID];
// mch standalone tracks extrapolated to vertex
// compute 3 sets of tracks parameters :
// - at vertex
// - at DCA
// - at the end of the absorber
// extrapolate to vertex
float vx = 0, vy = 0, vz = 0;
if (collisionID >= 0) {
const auto& v = data.getPrimaryVertex(collisionID);
vx = v.getX();
vy = v.getY();
vz = v.getZ();
}
o2::mch::TrackParam trackParamAtVertex(track.getZ(), track.getParameters(), track.getCovariances());
if (mPropMuons) {
double errVtx{0.0}; // FIXME: get errors associated with vertex if available
double errVty{0.0};
if (!o2::mch::TrackExtrap::extrapToVertex(trackParamAtVertex, vx, vy, vz, errVtx, errVty)) {
return false;
}
}
// extrapolate to DCA
o2::mch::TrackParam trackParamAtDCA(track.getZ(), track.getParameters());
if (!o2::mch::TrackExtrap::extrapToVertexWithoutBranson(trackParamAtDCA, vz)) {
return false;
}
// extrapolate to the end of the absorber
o2::mch::TrackParam trackParamAtRAbs(track.getZ(), track.getParameters());
if (!o2::mch::TrackExtrap::extrapToZ(trackParamAtRAbs, -505.)) { // FIXME: replace hardcoded 505
return false;
}
double dcaX = trackParamAtDCA.getNonBendingCoor() - vx;
double dcaY = trackParamAtDCA.getBendingCoor() - vy;
double dca = std::sqrt(dcaX * dcaX + dcaY * dcaY);
double xAbs = trackParamAtRAbs.getNonBendingCoor();
double yAbs = trackParamAtRAbs.getBendingCoor();
double dpdca = track.getP() * dca;
double dchi2 = track.getChi2OverNDF();
auto fwdmuon = mMatching.MCHtoFwd(trackParamAtVertex);
fwdInfo.x = fwdmuon.getX();
fwdInfo.y = fwdmuon.getY();
fwdInfo.z = fwdmuon.getZ();
fwdInfo.phi = fwdmuon.getPhi();
fwdInfo.tanl = fwdmuon.getTgl();
fwdInfo.invqpt = fwdmuon.getInvQPt();
fwdInfo.rabs = std::sqrt(xAbs * xAbs + yAbs * yAbs);
fwdInfo.chi2 = dchi2;
fwdInfo.pdca = dpdca;
fwdInfo.nClusters = track.getNClusters();
fwdCovInfo.sigX = TMath::Sqrt(fwdmuon.getCovariances()(0, 0));
fwdCovInfo.sigY = TMath::Sqrt(fwdmuon.getCovariances()(1, 1));
fwdCovInfo.sigPhi = TMath::Sqrt(fwdmuon.getCovariances()(2, 2));
fwdCovInfo.sigTgl = TMath::Sqrt(fwdmuon.getCovariances()(3, 3));
fwdCovInfo.sig1Pt = TMath::Sqrt(fwdmuon.getCovariances()(4, 4));
fwdCovInfo.rhoXY = (Char_t)(128. * fwdmuon.getCovariances()(0, 1) / (fwdCovInfo.sigX * fwdCovInfo.sigY));
fwdCovInfo.rhoPhiX = (Char_t)(128. * fwdmuon.getCovariances()(0, 2) / (fwdCovInfo.sigPhi * fwdCovInfo.sigX));
fwdCovInfo.rhoPhiY = (Char_t)(128. * fwdmuon.getCovariances()(1, 2) / (fwdCovInfo.sigPhi * fwdCovInfo.sigY));
fwdCovInfo.rhoTglX = (Char_t)(128. * fwdmuon.getCovariances()(0, 3) / (fwdCovInfo.sigTgl * fwdCovInfo.sigX));
fwdCovInfo.rhoTglY = (Char_t)(128. * fwdmuon.getCovariances()(1, 3) / (fwdCovInfo.sigTgl * fwdCovInfo.sigY));
fwdCovInfo.rhoTglPhi = (Char_t)(128. * fwdmuon.getCovariances()(2, 3) / (fwdCovInfo.sigTgl * fwdCovInfo.sigPhi));
fwdCovInfo.rho1PtX = (Char_t)(128. * fwdmuon.getCovariances()(0, 4) / (fwdCovInfo.sig1Pt * fwdCovInfo.sigX));
fwdCovInfo.rho1PtY = (Char_t)(128. * fwdmuon.getCovariances()(1, 4) / (fwdCovInfo.sig1Pt * fwdCovInfo.sigY));
fwdCovInfo.rho1PtPhi = (Char_t)(128. * fwdmuon.getCovariances()(2, 4) / (fwdCovInfo.sig1Pt * fwdCovInfo.sigPhi));
fwdCovInfo.rho1PtTgl = (Char_t)(128. * fwdmuon.getCovariances()(3, 4) / (fwdCovInfo.sig1Pt * fwdCovInfo.sigTgl));
return true;
};
if (trackID.getSource() == GIndex::MCH) { // This is an MCH track
int mchTrackID = trackID.getIndex();
getMCHBitMap(mchTrackID);
if (!extrapMCHTrack(mchTrackID)) {
LOGF(warn, "Unable to extrapolate MCH track with ID %d! Dummy parameters will be used", mchTrackID);
}
fwdInfo.trackTypeId = o2::aod::fwdtrack::MCHStandaloneTrack;
const auto& rof = data.getMCHTracksROFRecords()[mMCHROFs[mchTrackID]];
auto time = rof.getTimeMUS(mStartIR).first;
fwdInfo.trackTime = time.getTimeStamp() * 1.e3;
fwdInfo.trackTimeRes = time.getTimeStampError() * 1.e3;
} else if (trackID.getSource() == GIndex::MCHMID) { // This is an MCH-MID track
fwdInfo.trackTypeId = o2::aod::fwdtrack::MuonStandaloneTrack;
auto mchmidMatch = mchmidMatches[trackID.getIndex()];
auto mchTrackID = mchmidMatch.getMCHRef().getIndex();
if (!extrapMCHTrack(mchTrackID)) {
LOGF(warn, "Unable to extrapolate MCH track with ID %d! Dummy parameters will be used", mchTrackID);
}
auto midTrackID = mchmidMatch.getMIDRef().getIndex();
fwdInfo.chi2matchmchmid = mchmidMatch.getMatchChi2OverNDF();
getMCHBitMap(mchTrackID);
getMIDBitMapBoards(midTrackID);
auto time = mchmidMatch.getTimeMUS(mStartIR).first;
fwdInfo.trackTime = time.getTimeStamp() * 1.e3;
fwdInfo.trackTimeRes = time.getTimeStampError() * 1.e3;
} else { // This is a GlobalMuonTrack or a GlobalForwardTrack
const auto& track = data.getGlobalFwdTrack(trackID);
const auto& mftTracks = data.getMFTTracks();
const auto& mfttrack = mftTracks[track.getMFTTrackID()];
if (!extrapMCHTrack(track.getMCHTrackID())) {
LOGF(warn, "Unable to extrapolate MCH track with ID %d! Dummy parameters will be used", track.getMCHTrackID());
}
fwdInfo.x = track.getX();
fwdInfo.y = track.getY();
fwdInfo.z = track.getZ();
fwdInfo.phi = track.getPhi();
fwdInfo.tanl = track.getTanl();
fwdInfo.invqpt = track.getInvQPt();
fwdInfo.chi2 = track.getTrackChi2();
// fwdInfo.nClusters = track.getNumberOfPoints();
fwdInfo.chi2matchmchmid = track.getMIDMatchingChi2();
fwdInfo.chi2matchmchmft = track.getMFTMCHMatchingChi2();
fwdInfo.matchscoremchmft = track.getMFTMCHMatchingScore();
fwdInfo.matchmfttrackid = mIndexTableMFT[track.getMFTTrackID()];
fwdInfo.matchmchtrackid = mIndexTableFwd[track.getMCHTrackID()];
fwdInfo.trackTime = track.getTimeMUS().getTimeStamp() * 1.e3;
fwdInfo.trackTimeRes = track.getTimeMUS().getTimeStampError() * 1.e3;
getMCHBitMap(track.getMCHTrackID());
getMIDBitMapBoards(track.getMIDTrackID());
fwdCovInfo.sigX = TMath::Sqrt(track.getCovariances()(0, 0));
fwdCovInfo.sigY = TMath::Sqrt(track.getCovariances()(1, 1));
fwdCovInfo.sigPhi = TMath::Sqrt(track.getCovariances()(2, 2));
fwdCovInfo.sigTgl = TMath::Sqrt(track.getCovariances()(3, 3));
fwdCovInfo.sig1Pt = TMath::Sqrt(track.getCovariances()(4, 4));
fwdCovInfo.rhoXY = (Char_t)(128. * track.getCovariances()(0, 1) / (fwdCovInfo.sigX * fwdCovInfo.sigY));
fwdCovInfo.rhoPhiX = (Char_t)(128. * track.getCovariances()(0, 2) / (fwdCovInfo.sigPhi * fwdCovInfo.sigX));
fwdCovInfo.rhoPhiY = (Char_t)(128. * track.getCovariances()(1, 2) / (fwdCovInfo.sigPhi * fwdCovInfo.sigY));
fwdCovInfo.rhoTglX = (Char_t)(128. * track.getCovariances()(0, 3) / (fwdCovInfo.sigTgl * fwdCovInfo.sigX));
fwdCovInfo.rhoTglY = (Char_t)(128. * track.getCovariances()(1, 3) / (fwdCovInfo.sigTgl * fwdCovInfo.sigY));
fwdCovInfo.rhoTglPhi = (Char_t)(128. * track.getCovariances()(2, 3) / (fwdCovInfo.sigTgl * fwdCovInfo.sigPhi));
fwdCovInfo.rho1PtX = (Char_t)(128. * track.getCovariances()(0, 4) / (fwdCovInfo.sig1Pt * fwdCovInfo.sigX));
fwdCovInfo.rho1PtY = (Char_t)(128. * track.getCovariances()(1, 4) / (fwdCovInfo.sig1Pt * fwdCovInfo.sigY));
fwdCovInfo.rho1PtPhi = (Char_t)(128. * track.getCovariances()(2, 4) / (fwdCovInfo.sig1Pt * fwdCovInfo.sigPhi));
fwdCovInfo.rho1PtTgl = (Char_t)(128. * track.getCovariances()(3, 4) / (fwdCovInfo.sig1Pt * fwdCovInfo.sigTgl));
fwdInfo.trackTypeId = (fwdInfo.chi2matchmchmid >= 0) ? o2::aod::fwdtrack::GlobalMuonTrack : o2::aod::fwdtrack::GlobalForwardTrack;
float sX = TMath::Sqrt(mfttrack.getSigma2X()), sY = TMath::Sqrt(mfttrack.getSigma2Y()), sPhi = TMath::Sqrt(mfttrack.getSigma2Phi()),
sTgl = TMath::Sqrt(mfttrack.getSigma2Tanl()), sQ2Pt = TMath::Sqrt(mfttrack.getSigma2InvQPt());
mftTracksCovCursor(fwdInfo.matchmfttrackid,
truncateFloatFraction(sX, mTrackCovDiag),
truncateFloatFraction(sY, mTrackCovDiag),
truncateFloatFraction(sPhi, mTrackCovDiag),
truncateFloatFraction(sTgl, mTrackCovDiag),
truncateFloatFraction(sQ2Pt, mTrackCovDiag),
(Char_t)(128. * mfttrack.getCovariances()(0, 1) / (sX * sY)),
(Char_t)(128. * mfttrack.getCovariances()(0, 2) / (sPhi * sX)),
(Char_t)(128. * mfttrack.getCovariances()(1, 2) / (sPhi * sY)),
(Char_t)(128. * mfttrack.getCovariances()(0, 3) / (sTgl * sX)),
(Char_t)(128. * mfttrack.getCovariances()(1, 3) / (sTgl * sY)),
(Char_t)(128. * mfttrack.getCovariances()(2, 3) / (sTgl * sPhi)),
(Char_t)(128. * mfttrack.getCovariances()(0, 4) / (sQ2Pt * sX)),
(Char_t)(128. * mfttrack.getCovariances()(1, 4) / (sQ2Pt * sY)),
(Char_t)(128. * mfttrack.getCovariances()(2, 4) / (sQ2Pt * sPhi)),
(Char_t)(128. * mfttrack.getCovariances()(3, 4) / (sQ2Pt * sTgl)));
}
std::uint64_t bcOfTimeRef;
bool needBCSlice = collisionID < 0;
if (needBCSlice) { // need to store BC slice
float err = mTimeMarginTrackTime + fwdInfo.trackTimeRes;
bcOfTimeRef = fillBCSlice(bcSlice, fwdInfo.trackTime - err, fwdInfo.trackTime + err, bcsMap);
} else {
bcOfTimeRef = collisionBC - mStartIR.toLong(); // by default track time is wrt collision BC (unless no collision assigned)
}
fwdInfo.trackTime -= bcOfTimeRef * o2::constants::lhc::LHCBunchSpacingNS;
fwdTracksCursor(collisionID,
fwdInfo.trackTypeId,
fwdInfo.x,
fwdInfo.y,
truncateFloatFraction(fwdInfo.z, mTrackX), // for the forward tracks Z has the same role as X in the barrel
truncateFloatFraction(fwdInfo.phi, mTrackAlpha),
truncateFloatFraction(fwdInfo.tanl, mTrackTgl),
truncateFloatFraction(fwdInfo.invqpt, mTrack1Pt),
fwdInfo.nClusters,
truncateFloatFraction(fwdInfo.pdca, mTrackX),
truncateFloatFraction(fwdInfo.rabs, mTrackX),
truncateFloatFraction(fwdInfo.chi2, mTrackChi2),
truncateFloatFraction(fwdInfo.chi2matchmchmid, mTrackChi2),
truncateFloatFraction(fwdInfo.chi2matchmchmft, mTrackChi2),
truncateFloatFraction(fwdInfo.matchscoremchmft, mTrackChi2),
fwdInfo.matchmfttrackid,
fwdInfo.matchmchtrackid,
fwdInfo.mchBitMap,
fwdInfo.midBitMap,
fwdInfo.midBoards,
truncateFloatFraction(fwdInfo.trackTime, mTrackTime),
truncateFloatFraction(fwdInfo.trackTimeRes, mTrackTimeError));
fwdTracksCovCursor(truncateFloatFraction(fwdCovInfo.sigX, mTrackCovDiag),
truncateFloatFraction(fwdCovInfo.sigY, mTrackCovDiag),
truncateFloatFraction(fwdCovInfo.sigPhi, mTrackCovDiag),
truncateFloatFraction(fwdCovInfo.sigTgl, mTrackCovDiag),
truncateFloatFraction(fwdCovInfo.sig1Pt, mTrackCovDiag),
fwdCovInfo.rhoXY,
fwdCovInfo.rhoPhiX,
fwdCovInfo.rhoPhiY,
fwdCovInfo.rhoTglX,
fwdCovInfo.rhoTglY,
fwdCovInfo.rhoTglPhi,
fwdCovInfo.rho1PtX,
fwdCovInfo.rho1PtY,
fwdCovInfo.rho1PtPhi,
fwdCovInfo.rho1PtTgl);
if (needBCSlice) {
ambigFwdTracksCursor(mTableTrFwdID, bcSlice);
}
}
//------------------------------------------------------------------
void AODProducerWorkflowDPL::updateMCHeader(MCCollisionCursor& collisionCursor,
XSectionCursor& xSectionCursor,
PdfInfoCursor& pdfInfoCursor,
HeavyIonCursor& heavyIonCursor,
const MCEventHeader& header,
int collisionID,
int bcID,
float time,
short generatorID,
int sourceID)
{
using aodmchelpers::updateHepMCHeavyIon;
using aodmchelpers::updateHepMCPdfInfo;
using aodmchelpers::updateHepMCXSection;
using aodmchelpers::updateMCCollisions;
auto genID = updateMCCollisions(collisionCursor,
bcID,
time,
header,
generatorID,
sourceID,
mCollisionPosition);
mXSectionUpdate = (updateHepMCXSection(xSectionCursor, //
collisionID, //
genID, //
header, //
mXSectionUpdate)
? HepMCUpdate::always
: HepMCUpdate::never);
mPdfInfoUpdate = (updateHepMCPdfInfo(pdfInfoCursor, //
collisionID, //
genID, //
header, //
mPdfInfoUpdate)
? HepMCUpdate::always
: HepMCUpdate::never);
mHeavyIonUpdate = (updateHepMCHeavyIon(heavyIonCursor, //