53 std::vector<math::XYZTLorentzVector> secondaries;
56 if (aStep !=
nullptr) {
57 const G4TrackVector *tkV = aStep->GetSecondary();
58 G4Track *thTk = aStep->GetTrack();
59 const G4StepPoint *preStepPoint = aStep->GetPreStepPoint();
60 const G4StepPoint *postStepPoint = aStep->GetPostStepPoint();
61 double eTrackNew = thTk->GetKineticEnergy() /
MeV;
62 deltaE =
eTrack - eTrackNew;
64 if (tkV !=
nullptr && postStepPoint !=
nullptr) {
65 int nsc = (*tkV).size();
66 const G4VProcess *
proc = postStepPoint->GetProcessDefinedStep();
67 if (proc !=
nullptr) {
68 G4ProcessType
type = proc->GetProcessType();
70 name = proc->GetProcessName();
71 int sec = nsc -
nsecL;
72 LogDebug(
"CheckSecondary") << sec <<
" secondaries in step " << thTk->GetCurrentStepNumber() <<
" of track " 73 << thTk->GetTrackID() <<
" from " <<
name <<
" of type " << type <<
" ID " << procid
77 if (procid >= 121 && procid <= 151) {
78 LogDebug(
"CheckSecondary") <<
"Hadronic Interaction " <<
nHad <<
" of Type " << procid <<
" with " << sec
79 <<
" secondaries from process " << proc->GetProcessName() <<
" Delta E " << deltaE
80 <<
" Flag " << hadrInt;
82 for (
int i = nsecL;
i < nsc; ++
i) {
83 G4Track *tk = (*tkV)[
i];
84 G4ThreeVector
pp = tk->GetMomentum();
85 double ee = tk->GetTotalEnergy();
87 secondaries.push_back(secondary);
88 int charge = (
int)(tk->GetDefinition()->GetPDGCharge());
89 charges.push_back(charge);
92 for (
int i = nsecL;
i < nsc;
i++) {
93 G4Track *tk = (*tkV)[
i];
94 LogDebug(
"CheckSecondary") <<
"Secondary: " << sec <<
" ID " << tk->GetTrackID() <<
" Status " 95 << tk->GetTrackStatus() <<
" Particle " 96 << tk->GetDefinition()->GetParticleName() <<
" Position " << tk->GetPosition()
97 <<
" KE " << tk->GetKineticEnergy() <<
" Time " << tk->GetGlobalTime();
105 LogDebug(
"CheckSecondary") <<
"Track: " << thTk->GetTrackID() <<
" Status " << thTk->GetTrackStatus()
106 <<
" Particle " << thTk->GetDefinition()->GetParticleName() <<
" at " 107 << preStepPoint->GetPosition() <<
" Step: " <<
step <<
" KE " 108 << thTk->GetKineticEnergy() /
GeV <<
" GeV; p " << thTk->GetMomentum().mag() /
GeV 109 <<
" GeV/c; Step Length " << aStep->GetStepLength() <<
" Energy Deposit " 110 << aStep->GetTotalEnergyDeposit() /
MeV <<
" MeV; Interaction " << hadrInt;
std::string processG4Name(int) const
TrainProcessor *const proc
G4ProcessTypeEnumerator * typeEnumerator
XYZTLorentzVectorD XYZTLorentzVector
Lorentz vector with cylindrical internal representation using pseudorapidity.
int processIdLong(const G4VProcess *p) const