12 #include "cetlib_except/exception.h" 69 produces<std::vector<recob::Track> >();
70 produces<art::Assns<recob::Track, recob::Hit> >();
71 if (
doTrackFitHitInfo_) produces<std::vector<std::vector<recob::TrackFitHitInfo> > >();
73 produces<std::vector<recob::SpacePoint> >();
74 produces<art::Assns<recob::Hit, recob::SpacePoint> >();
81 auto outputTracks = std::make_unique<std::vector<recob::Track> >();
82 auto outputHits = std::make_unique<art::Assns<recob::Track, recob::Hit> >();
83 auto outputHitInfo = std::make_unique<std::vector<std::vector<recob::TrackFitHitInfo> > >();
84 auto outputSpacePoints = std::make_unique<std::vector<recob::SpacePoint> >();
85 auto outputHitSpacePointAssn = std::make_unique<art::Assns<recob::Hit, recob::SpacePoint> >();
100 unsigned int iTrack = 0;
101 for (
auto hitsRange: tracksWithHits) {
105 std::vector<art::Ptr<recob::Hit> > inHits;
110 std::vector<art::Ptr<recob::Hit> > outHits;
116 bool fitok =
trackMaker_->makeTrack(track, inHits, outTrack, outHits, optionals);
117 if (!fitok)
continue;
122 throw cet::exception(
"TrackProducerFromTrack") <<
"Produced recob::Track required to have 1-1 correspondance between hits and points.\noutTrack.NumberTrajectoryPoints()=" << outTrack.
NumberTrajectoryPoints() <<
" outHits.size()=" << outHits.size() <<
"\n";
126 outputTracks->emplace_back(std::move(outTrack));
129 for (
auto const& trhit: outHits) {
130 outputHits->addSingle(aptr, trhit);
134 const double fXYZ[3] = {tp.X(),tp.Y(),tp.Z()};
135 const double fErrXYZ[6] = {0};
137 outputSpacePoints->emplace_back(std::move(sp));
139 outputHitSpacePointAssn->addSingle(trhit, apsp);
145 for (
auto it = osp.begin(); it!=osp.end(); ++it ) {
146 outputSpacePoints->emplace_back(std::move(it->first));
148 outputHitSpacePointAssn->addSingle(it->second,apsp);
157 e.
put(std::move(outputTracks));
158 e.
put(std::move(outputHits));
160 e.
put(std::move(outputHitInfo));
163 e.
put(std::move(outputSpacePoints));
164 e.
put(std::move(outputHitSpacePointAssn));
TrackProducerFromTrack & operator=(TrackProducerFromTrack const &)=delete
void initTrackFitInfos()
initialize the output vector of TrackFitHitInfos
const recob::TrackTrajectory & Trajectory() const
Access to the stored recob::TrackTrajectory.
size_t NumberTrajectoryPoints() const
Various functions related to the presence and the number of (valid) points.
Produce a reco::Track collection, as a result of the fit of an existing recob::Track collection...
std::unique_ptr< trkmkr::TrackMaker > trackMaker_
ProductID put(std::unique_ptr< PROD > &&product)
auto associated_groups(A const &assns)
Helper functions to access associations in order.
#define DEFINE_ART_MODULE(klass)
T LocationAtPoint(unsigned int p) const
Position at point p. Use e.g. as:
T get(std::string const &key) const
Detector simulation of raw signals on wires.
void produce(art::Event &e) override
std::vector< SpHitPair > spacePointHitPairs()
get the output vector of SpHitPair by releasing and moving
art::InputTag trackInputTag
std::vector< recob::TrackFitHitInfo > trackFitHitInfos()
get the output vector of TrackFitHitInfos by releasing and moving
Helper functions to access associations in order.
bool spacePointsFromTrajP_
ValidHandle< PROD > getValidHandle(InputTag const &tag) const
TrackProducerFromTrack(fhicl::ParameterSet const &p)
void initSpacePoints()
initialize the output vector of SpHitPair
Struct holding optional TrackMaker outputs.
Track from a non-cascading particle.A recob::Track consists of a recob::TrackTrajectory, plus additional members relevant for a "fitted" track:
cet::coded_exception< error, detail::translate > exception