244 using namespace KM3NETDAQ;
252 JEventSelector event_selector;
265 JParser<> zap(
"Program to display hit probabilities.");
267 zap[
'w'] =
make_field(canvas,
"size of canvas <nx>x<ny> [pixels]") =
JCanvas(1200, 600);
268 zap[
'f'] =
make_field(inputFile,
"input file (output of JXXXMuonReconstruction.sh)");
269 zap[
'n'] =
make_field(numberOfEvents) = JLimit::max();
278 zap[
'B'] =
make_field(batch,
"batch processing");
283 catch(
const exception& error) {
284 FATAL(error.what() << endl);
288 FATAL(
"Missing output file name " <<
outputFile <<
" in batch mode." << endl);
295 if (
outputFile.find(WILDCARD) == string::npos) {
296 FATAL(
"Output file name " <<
outputFile <<
" has no wild card '" << WILDCARD <<
"'" << endl);
312 gROOT->SetBatch(batch);
314 TApplication* tp =
new TApplication(
"user", NULL, NULL);
315 TCanvas* cv =
new TCanvas(
"display",
"", canvas.x, canvas.y);
319 gROOT->SetStyle(
"gplot");
322 const size_t NUMBER_OF_PADS = 3;
324 cv->SetFillStyle(4000);
325 cv->SetFillColor(kWhite);
326 cv->Divide(NUMBER_OF_PADS, 1);
328 const double Dmax = 1000.0;
329 const double Rmin = 0.0;
330 const double Rmax = min(
parameters.roadWidth_m, 0.4 * Dmax);
331 const double Tmin = min(
parameters.TMin_ns, -10.0);
332 const double Tmax = max(
parameters.TMax_ns, +100.0);
333 const double Amin = 0.002 * (Tmax - Tmin);
334 const double Amax = 0.8 * (Tmax - Tmin);
335 const double ymin = min(-Amax, Tmin - 0.3 * Amax);
336 const double ymax = max(+Amax, Tmax + 0.5 * Amax);
338 const string Xlabel[NUMBER_OF_PADS] = {
"R [m]",
"#phi [rad]",
"z [m]" };
339 const double Xmin [NUMBER_OF_PADS] = { Rmin, -
PI, -0.5 * Dmax };
340 const double Xmax [NUMBER_OF_PADS] = { Rmax, +
PI, +0.5 * Dmax };
342 double Xs[NUMBER_OF_PADS];
344 for (
size_t i = 0; i != NUMBER_OF_PADS; ++i) {
348 TH2D H2[NUMBER_OF_PADS];
349 TGraph G2[NUMBER_OF_PADS];
351 for (
size_t i = 0; i != NUMBER_OF_PADS; ++i) {
353 H2[i] = TH2D(
MAKE_CSTRING(
"h" << i), NULL, 100, Xmin[i] - Xs[i], Xmax[i] + Xs[i], 100, ymin, ymax);
355 H2[i].GetXaxis()->SetTitle(Xlabel[i].c_str());
356 H2[i].GetYaxis()->SetTitle(
"#Deltat [ns]");
358 H2[i].GetXaxis()->CenterTitle(
true);
359 H2[i].GetYaxis()->CenterTitle(
true);
361 H2[i].SetStats(kFALSE);
365 G2[i].SetPoint(0, H2[i].GetXaxis()->GetXmin(), 0.0);
366 G2[i].SetPoint(1, H2[i].GetXaxis()->GetXmax(), 0.0);
375 while (inputFile.hasNext()) {
377 cout <<
"\revent: " << setw(8) << inputFile.getCounter() << flush;
379 Evt* evt = inputFile.next();
381 if (has_reconstructed_track<JPP_RECONSTRUCTION_TYPE>(*evt,
rec_stages_range(application))) {
383 Trk fit = get_best_reconstructed_track<JPP_RECONSTRUCTION_TYPE>(*evt,
rec_stages_range(application));
385 if (!event_selector(fit, *evt)) {
392 for (
const Hit& hit : evt->hits) {
409 for (
const auto& trk : evt->mc_trks) {
411 if (trk.E > muon.
E) {
423 bool next_event =
false;
424 bool monte_carlo =
false;
426 while (!next_event) {
449 for (JDataL0_t::const_iterator i = dataL0.begin(); i != dataL0.end(); ++i) {
451 JHitW0 hit(*i, summary.getRate(i->getPMTIdentifier()));
464 JDataW0_t::iterator __end = unique(data.begin(), data.end(), equal_to<JDAQPMTIdentifier>());
477 const double z0 = tz.getZ();
478 const double z1 = 0.5 * (zs.getLowerLimit() + zs.getUpperLimit());
485 TLatex latex [NUMBER_OF_PADS];
489 for (
int i = 0; i != NUMBER_OF_PADS; ++i) {
491 latex[i].SetTextAlign(12);
492 latex[i].SetTextFont(42);
493 latex[i].SetTextSize(0.06);
495 latex[i].SetX(H2[i].GetXaxis()->GetXmin() + 0.05 * (H2[i].GetXaxis()->GetXmax() - H2[i].GetXaxis()->GetXmin()));
496 latex[i].SetY(H2[i].GetYaxis()->GetXmax() - 0.05 * (H2[i].GetYaxis()->GetXmax() - H2[i].GetYaxis()->GetXmin()));
501 marker[2].push_back(TMarker(z0 - tz.getZ(), 0.0, kFullCircle));
504 static_cast<TAttMarker&
>(marker[2][0]) = TAttMarker(kRed, kFullCircle, 0.7);
505 static_cast<TAttMarker&
>(marker[2][1]) = TAttMarker(kRed, kFullCircle, 0.7);
510 for (JDataW0_t::const_iterator hit = data.begin(); hit != __end; ++hit) {
512 const double x = hit->getX() - tz.getX();
513 const double y = hit->getY() - tz.getY();
514 const double z = hit->getZ() - tz.getZ();
515 const double R = sqrt(x*x + y*y);
519 JDirection3D dir(hit->getDX(), hit->getDY(), hit->getDZ());
523 const double theta = dir.
getTheta();
524 const double phi = fabs(dir.getPhi());
527 const double E = E_GeV;
528 const double dt = T_ns.constrain(hit->getT() - t1);
539 chi2 += H1.getChi2() - H0.getChi2();
541 const double derivative = H1.getDerivativeOfChi2() - H0.getDerivativeOfChi2();
543 double size = derivative * arrowScale;
545 if (fabs(size) < Amin) {
546 size = (size > 0.0 ? +Amin : -Amin);
547 }
else if (fabs(size) > Amax) {
548 size = (size > 0.0 ? +Amax : -Amax);
551 const double X[NUMBER_OF_PADS] = {
R, atan2(y,x), z - R/
getTanThetaC() };
555 for (
size_t i = 0; i != NUMBER_OF_PADS; ++i) {
556 arrow[i].push_back(TArrow(X[i] + xs*Xs[i], dt, X[i] + xs*Xs[i], dt + size, arrowSize, arrowType.c_str()));
561 ":" << evt->frame_index <<
562 " " << evt->trigger_counter));
577 latex[2].SetTitle(
"Monte Carlo");
583 for (
int i = 0; i != NUMBER_OF_PADS; ++i) {
589 for (
auto& a1 : arrow[i]) {
593 for (
auto& m1 : marker[i]) {
611 for (
int c = 0;
c == 0; ) {
615 static bool first =
true;
618 cout << endl <<
"Type '?' for possible options." << endl;
624 cout <<
"\n> " << flush;
630 cout <<
"possible options: " << endl;
631 cout <<
'q' <<
" -> " <<
"exit application" << endl;
632 cout <<
'u' <<
" -> " <<
"update canvas" << endl;
633 cout <<
's' <<
" -> " <<
"save graphics to file" << endl;
634 cout <<
'M' <<
" -> " <<
"Monte Carlo true muon information" << endl;
635 cout <<
'F' <<
" -> " <<
"fit information" << endl;
636 if (event_selector.is_valid()) {
637 cout <<
'L' <<
" -> " <<
"reload event selector" << endl;
639 cout <<
'r' <<
" -> " <<
"rewind input file" << endl;
640 cout <<
'R' <<
" -> " <<
"switch to ROOT mode (quit ROOT to continue)" << endl;
641 cout <<
'p' <<
" -> " <<
"print event information" << endl;
642 cout <<
' ' <<
" -> " <<
"next event (as well as any other key)" << endl;
664 ERROR(endl <<
"No Monte Carlo muon available." << endl);
677 if (event_selector.is_valid()) {
678 execute(
MAKE_STRING(
"make -f " <<
getPath(argv[0]) <<
"/JMakeEventSelector libs"), 3);
679 event_selector.reload();
692 for (
const auto& trk : evt->mc_trks) {
693 cout <<
"MC "; trk.
print(cout); cout << endl;
695 for (
const auto& trk : evt->trks) {
696 cout <<
"fit "; trk.
print(cout); cout << endl;
698 for (
const auto& hit : evt->hits) {
699 cout <<
"hit "; hit.
print(cout); cout << endl;
static const int JMUONSTART
Utility class to parse command line options.
double getAngle(const JQuaternion3D &first, const JQuaternion3D &second)
Get space angle between quanternions.
TString replace(const TString &target, const TRegexp ®exp, const T &replacement)
Replace regular expression in input by given replacement.
Data structure for direction in three dimensions.
double t
track time [ns] (when the particle is at pos )
std::string getPath(const std::string &file_name)
Get path, i.e. part before last JEEP::PATHNAME_SEPARATOR if any.
bool is_muon(const Trk &track)
Test whether given track is a (anti-)muon.
*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
#define MAKE_CSTRING(A)
Make C-string.
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)...
Auxiliary class to convert DAQ hit time to/from Monte Carlo hit time.
Auxiliary data structure for floating point format specification.
Data structure for UTC time.
double E
Energy [GeV] (either MC truth or reconstructed)
Range of reconstruction stages.
then echo The file $DIR KM3NeT_00000001_00000000 root already please rename or remove it first
#define MAKE_STRING(A)
Make string.
void print(std::ostream &out=std::cout) const
Print hit.
The template JSinglePointer class can be used to hold a pointer to an object.
double getW(const Trk &track, const size_t index, const double value)
Get track information.
Auxiliary class for defining the range of iterations of objects.
static const int JMUONPREFIT
JDirection3D getDirection(const Vec &dir)
Get direction.
JFunction1D_t::result_type result_type
JDirection3D & rotate(const JRotation3D &R)
Rotate.
#define make_field(A,...)
macro to convert parameter to JParserTemplateElement object
Enable unbuffered terminal input.
const array_type< JValue_t > & make_array(const JValue_t(&array)[N])
Method to create array of values.
static const int JMUONGANDALF
double getTheta() const
Get theta angle.
JPosition3D getPosition(const Vec &pos)
Get position.
double len
length, if applicable [m]
static struct JACOUSTICS::@4 compare
Auxiliary data structure to sort transmissions.
double putTime() const
Get Monte Carlo time minus DAQ/trigger time.
static const double PI
Mathematical constants.
File router for fast addressing of summary data.
Vec dir
hit direction; i.e. direction of the PMT
Data structure for fit parameters.
then usage $script[distance] fi case set_variable R
Auxiliary data structure for sequence of same character.
Auxiliary data structure for muon PDF.
Auxiliary class for a hit with background rate value.
const double getSpeedOfLight()
Get speed of light.
static const int JSTART_LENGTH_METRES
distance between first and last hits in metres from JStart.cc
bool has_muon(const Evt &evt)
Test whether given event has a muon.
static const int JMUONSIMPLEX
double t
hit time (from tdc+calibration or MC truth)
Data structure for L0 hit.
const double getInverseSpeedOfLight()
Get inverse speed of light.
int dom_id
module identifier from the data (unique in the detector).
then if[[!-f $DETECTOR]] then JDetector sh $DETECTOR fi cat $WORKDIR trigger_parameters txt<< EOFtrigger3DMuon.enabled=1;trigger3DMuon.numberOfHits=5;trigger3DMuon.gridAngle_deg=1;ctMin=0.0;TMaxLocal_ns=15.0;EOF set_variable TRIGGEREFFICIENCY_TRIGGERED_EVENTS_ONLY INPUT_FILES=() for((i=1;$i<=$NUMBER_OF_RUNS;++i));do JSirene.sh $DETECTOR $JPP_DATA/genhen.km3net_wpd_V2_0.evt.gz $WORKDIR/sirene_ ${i}.root JTriggerEfficiency.sh $DETECTOR $DETECTOR $WORKDIR/sirene_ ${i}.root $WORKDIR/trigger_efficiency_ ${i}.root $WORKDIR/trigger_parameters.txt $JPP_DATA/PMT_parameters.txt INPUT_FILES+=($WORKDIR/trigger_efficiency_ ${i}.root) done for ANGLE_DEG in $ANGLES_DEG[*];do set_variable SIGMA_NS 3.0 set_variable OUTLIERS 3 set_variable OUTPUT_FILE $WORKDIR/matrix\[${ANGLE_DEG}\deg\].root $JPP_DIR/examples/JReconstruction-f"$INPUT_FILES[*]"-o $OUTPUT_FILE-S ${SIGMA_NS}-A ${ANGLE_DEG}-O ${OUTLIERS}-d ${DEBUG}--!fiif[[$OPTION=="plot"]];then if((0));then for H1 in h0 h1;do JPlot1D-f"$WORKDIR/matrix["${^ANGLES_DEG}" deg].root:${H1}"-y"1 2e3"-Y-L TR-T""-\^"number of events [a.u.]"-> o chi2
Data structure for fit of straight line paralel to z-axis.
unsigned int tot
tot value as stored in raw data (int for pyroot)
no fit printf nominal n $STRING awk v X
double getTanThetaC()
Get average tangent of Cherenkov angle of water corresponding to group velocity.
unsigned int channel_id
PMT channel id {0,1, .., 30} local to moduke.
Object reading from a list of files.
const JLimit & getLimit() const
Get limit.
void print(std::ostream &out=std::cout) const
Print track.
$WORKDIR ev_configure_domsimulator txt echo process $DOM_SIMULATOR $i $SOURCE_HOST[$index] csh c(setenv ROOTSYS $ROOTSYS &&source $JPP_DIR/setenv.csh $JPP_DIR &&($DOM_SIMULATOR\-u\$NAME\$\-H\$SERVER\$\-M\$LOGGER\$\-d $DEBUG</dev/null > &/dev/null &))'
static const int NUMBER_OF_PMTS
Total number of PMTs in module.
The Trk class represents a Monte Carlo (MC) particle as well as a reconstructed track/shower.
Auxiliary data structure for floating point format specification.
Wrapper class around ROOT TStyle.
static const int JMUONENERGY
The Evt class respresent a Monte Carlo (MC) event as well as an offline event.
Data structure for size of TCanvas.
1.8.5