70 using namespace KM3NETDAQ;
73 typedef JParallelFileScanner_t::multi_pointer_type multi_pointer_type;
79 JParallelFileScanner_t inputFile;
83 JCalibration_t calibrationFile;
87 histogram_type calibrate;
94 JParser<> zap(
"Program to perform detector calibration using reconstructed muon trajectories.");
101 zap[
'n'] =
make_field(numberOfEvents) = JLimit::max();
103 zap[
'c'] =
make_field(calibrate,
"Histogram for time calibration per optical module.");
109 catch(
const exception& error) {
110 FATAL(error.what() << endl);
114 if (!calibrate.is_valid()) {
115 FATAL(
"Invalid calibration data " << calibrate << endl);
119 WARNING(
"Number of prefits " <<
parameters.numberOfPrefits <<
" != " << 1 << endl);
131 unique_ptr<JDynamics> dynamics;
137 dynamics->load(calibrationFile);
139 catch(
const exception& error) {
140 if (!calibrationFile.empty()) {
159 TH2D ha(
"ha", NULL, 256, -0.5, 255.5,
160 calibrate.getNumberOfBins(), calibrate.getLowerLimit(), calibrate.getUpperLimit());
162 TProfile hb(
"hb", NULL, 256, -0.5, 255.5);
164 TProfile hr(
"hr", NULL, 60, 0.0, 150.0);
167 calibrate.getNumberOfBins(), calibrate.getLowerLimit(), calibrate.getUpperLimit());
169 JManager_t
g1(
new TProfile(
"%", NULL,
detector.size(), -0.5,
detector.size() - 0.5, -1.0, +1.0));
172 while (inputFile.hasNext()) {
174 STATUS(
"event: " << setw(10) << inputFile.getCounter() <<
'\r');
DEBUG(endl);
176 multi_pointer_type ps = inputFile.next();
181 summary.update(*tev);
184 dynamics->update(*tev);
191 buildL0(*tev, router,
true, back_inserter(dataL0));
193 for (JFIT::JEvt::const_iterator track = in->begin(); track != in->end(); ++track) {
209 for (JDataL0_t::const_iterator
i = dataL0.begin();
i != dataL0.end(); ++
i) {
211 double rate_Hz = summary.getRate(*
i);
213 if (rate_Hz <= 0.0) {
214 rate_Hz = summary.getRate();
230 JDataW0_t::iterator __end = unique(data.begin(), data.end(), equal_to<JDAQPMTIdentifier>());
235 if (track->getE() > 0.1)
236 fit.JRegressor_t::E_GeV = track->getE();
242 for (JDataW0_t::const_iterator hit = data.begin(); hit != __end; ++hit) {
243 buffer.insert(hit->getModuleID());
252 if (
distance(data.begin(), q) - fit.parameters.size() > 0) {
254 fit(ta, data.begin(), q);
256 for (JDataW0_t::const_iterator hit = q; hit != __end; ++hit) {
258 const int index = router.getIndex(*
id);
259 const double t1 = fit.value.getT(hit->getPosition());
260 JTrack3D gradient = fit(fit.value, *hit).gradient;
264 ha.Fill(hit->getToT(), hit->getT1() - t1);
265 hb.Fill(hit->getToT(), gradient.
getT());
267 hr.Fill(fit.value.getDistance(*hit), gradient.
getT());
269 h2.Fill(index, hit->getT() - t1);
271 g1[
"T"]->Fill(index, gradient.
getT());
272 g1[
"X"]->Fill(index, gradient.
getX());
273 g1[
"Y"]->Fill(index, gradient.
getY());
274 g1[
"Z"]->Fill(index, gradient.
getZ());
Utility class to parse command line options.
JPredicate< JResult_t T::*, JComparison::eq > make_predicate(JResult_t T::*member, const JResult_t value)
Helper method to create predicate for data member.
std::vector< T >::difference_type distance(typename std::vector< T >::const_iterator first, typename PhysicsEvent::const_iterator< T > second)
Specialisation of STL distance.
Template specialisation of L0 builder for JHitL0 data type.
Auxiliary data structure for sorting of hits.
Router for direct addressing of module data in detector data structure.
*fatal Wrong number of arguments esac JCookie sh typeset Z DETECTOR typeset Z SOURCE_RUN typeset Z TARGET_RUN set_variable PARAMETERS_FILE $WORKDIR parameters
General purpose class for parallel reading of objects from a single file or multiple files...
Template specialisation of class JModel to match hit with muon trajectory along z-axis.
Empty structure for specification of parser element that is initialised (i.e. does not require input)...
Data structure for fit of straight line in positive z-direction.
Wrapper class to make final fit of muon trajectory.
bool qualitySorter(const JFit &first, const JFit &second)
Comparison of fit results.
Auxiliary class for defining the range of iterations of objects.
Auxiliary class to manage set of compatible ROOT objects (e.g. histograms) using unique keys...
JDirection3D getDirection(const Vec &dir)
Get direction.
Auxiliary class for recursive type list generation.
#define make_field(A,...)
macro to convert parameter to JParserTemplateElement object
JPosition3D getPosition(const Vec &pos)
Get position.
JAxis3D & rotate_back(const JRotation3D &R)
Rotate back axis.
File router for fast addressing of summary data.
double getY() const
Get y position.
bool putObject(TDirectory &dir, const TObject &object)
Write object to ROOT directory.
Data structure for fit parameters.
double getT(const JVector3D &pos) const
Get arrival time of Cherenkov light at given position.
Dynamic detector calibration.
then JCookie sh JDataQuality D $DETECTOR_ID R
Auxiliary class for a hit with background rate value.
static const int JSTART_LENGTH_METRES
distance between first and last hits in metres from JStart.cc
void load(const std::string &file_name, JDetector &detector)
Load detector from input file.
Data structure for set of track fit results.
General purpose class for object reading from a list of file names.
Data structure for fit of straight line paralel to z-axis.
double getX() const
Get x position.
const JLimit & getLimit() const
Get limit.
do set_variable DETECTOR_TXT $WORKDIR detector
then fatal Wrong number of arguments fi set_variable DETECTOR $argv[1] set_variable INPUT_FILE $argv[2] eval JPrintDetector a $DETECTOR O IDENTIFIER eval JPrintDetector a $DETECTOR O SUMMARY JAcoustics sh $DETECTOR_ID source JAcousticsToolkit sh CHECK_EXIT_CODE typeset A EMITTERS get_tripods $WORKDIR tripod txt EMITTERS get_transmitters $WORKDIR transmitter txt EMITTERS for EMITTER in
JPosition3D & rotate(const JRotation3D &R)
Rotate.
void select(const JSelector_t &selector)
Select fits.
double getZ() const
Get z position.
JTOOLS::JRange< double > JZRange
#define DEBUG(A)
Message macros.
Double_t g1(const Double_t x)
Function.
1.8.5