72 JLimit_t& numberOfEvents = inputFile.getLimit();
75 bool reuse_parameters;
82 JParser<> zap(
"Auxiliary program to re-trigger event data.");
84 zap[
'f'] =
make_field(inputFile,
"input file.");
86 zap[
'n'] =
make_field(numberOfEvents) = JLimit::max();
87 zap[
'a'] =
make_field(detectorFile,
"detector file.");
89 zap[
'U'] =
make_field(reuse_parameters,
"reuse trigger parameters from input file.");
90 zap[
'S'] =
make_field(snapshot,
"use snapshot hits instead of triggered hits.");
96 catch(
const exception &error) {
97 FATAL(error.what() << endl);
112 if (reuse_parameters) {
118 NOTICE(
"Set trigger parameters from input." << endl);
121 FATAL(
"No trigger parameters from input." << endl);
127 if (parameters.disableHighRateVeto) {
129 NOTICE(
"Disabling high-rate veto of all PMTs." << endl);
136 parameters.triggerNB.write.prescale = 1;
139 DEBUG(
"Reset time [ms] " <<
getRTS() * 1e-6 << endl);
140 DEBUG(
"Trigger" << endl << parameters << endl);
144 if (parameters.writeSummary()) {
WARNING(
"Discard writeSummary option during reprocesing of data." << endl); }
145 if (parameters.writeL1()) {
WARNING(
"Discard writeL1 option during reprocesing of data." << endl); }
146 if (parameters.writeL2()) {
WARNING(
"Discard writeL2 option during reprocesing of data." << endl); }
147 if (parameters.writeSN()) {
WARNING(
"Discard writeSN option during reprocesing of data." << endl); }
159 const JBuildL1_t buildL1(parameters);
160 const JBuildL2_t buildL2(parameters.L2);
161 const JBuildL2_t buildSN(parameters.SN);
162 const JBuildL2_t buildNB(parameters.NB);
186 if (scan.getEntries() == 0) {
187 FATAL(
"No summary data." << endl);
195 Long64_t index = scan.find(*evt);
204 DEBUG(timeslice << endl);
206 timesliceRouter.configure(timeslice);
209 JTimeslice_t timesliceL0(timeslice.getDAQChronometer());
210 JTimeslice_t timesliceL1(timeslice.getDAQChronometer());
211 JTimeslice_t timesliceL2(timeslice.getDAQChronometer());
212 JTimeslice_t timesliceSN(timeslice.getDAQChronometer());
213 JTimeslice_t timesliceNB(timeslice.getDAQChronometer());
215 for (JDAQTimeslice::const_iterator super_frame = timeslice.begin(); super_frame != timeslice.end(); ++super_frame) {
217 if (moduleRouter.hasModule(super_frame->getModuleID())) {
221 const JModule& module = moduleRouter.getModule(super_frame->getModuleID());
222 JSuperFrame2D_t& buffer = JSuperFrame2D_t::demultiplex(*super_frame, module);
226 buffer.applyHighRateVeto(parameters.highRateVeto_Hz);
230 timesliceL0.push_back(JSuperFrame1D_t(buffer));
234 if (parameters.triggerNB.enabled) {
236 JSuperFrame2D_t::iterator __end = partition(buffer.begin(), buffer.end(), parameters.triggerNB.pmts);
238 if (buffer.begin() != __end) {
240 timesliceNB.push_back(JSuperFrame1D_t(super_frame->getDAQChronometer(),
241 super_frame->getModuleIdentifier(),
245 JSuperFrame1D_t zbuf;
247 buildL1(buffer.begin(), __end , back_inserter(zbuf));
250 buildNB(buffer.begin() , __end, zbuf, back_inserter(*timesliceNB.rbegin()));
256 timesliceL1.push_back(JSuperFrame1D_t(super_frame->getDAQChronometer(),
257 super_frame->getModuleIdentifier(),
260 buildL1(*timesliceL0.rbegin(), back_inserter(*timesliceL1.rbegin()));
264 timesliceL2.push_back(JSuperFrame1D_t(super_frame->getDAQChronometer(),
265 super_frame->getModuleIdentifier(),
268 buildL2(buffer, *timesliceL1.rbegin(), back_inserter(*timesliceL2.rbegin()));
272 timesliceSN.push_back(JSuperFrame1D_t(super_frame->getDAQChronometer(),
273 super_frame->getModuleIdentifier(),
276 buildSN(buffer, *timesliceL1.rbegin(), back_inserter(*timesliceSN.rbegin()));
283 if (parameters.triggerNB.enabled) {
287 for (JTriggerInput::const_iterator hit = trigger_input.begin(); hit != trigger_input.end(); ++hit) {
289 if (parameters.triggerNB.write()) {
296 parameters.TMaxLocal_ns,
297 parameters.triggerNB.DMax_m,
308 trigger3DMuon (trigger_input, back_inserter(trigger_output));
309 trigger3DShower(trigger_input, back_inserter(trigger_output));
310 triggerMXShower(trigger_input, timesliceL0, back_inserter(trigger_output));
314 DEBUG(
"Number of triggers: " << trigger_output.size() << endl);
316 for (JTriggerOutput::const_iterator event = trigger_output.begin(); event != trigger_output.end(); ++event) {
321 parameters.TMaxLocal_ns,
#define DEBUG(A)
Message macros.
#define make_field(A,...)
macro to convert parameter to JParserTemplateElement object
void merge(const JMatch_t &match)
Merge events.
Router for direct addressing of module data in detector data structure.
Data structure for a composite optical module.
const JPosition3D & getPosition() const
Get position.
Auxiliary class for selection of data type.
Utility class to parse command line options.
Object reading from a list of files.
virtual const pointer_type & next() override
Get next element.
virtual bool hasNext() override
Check availability of next element.
counter_type getCounter() const
Get counter.
Template definition for direct access of elements in ROOT TChain.
1-dimensional frame with time calibrated data from one optical module.
2-dimensional frame with time calibrated data from one optical module.
Time slice with calibrated data.
Auxiliary class to build JDAQEvent for a triggered event.
int getFrameIndex() const
Get frame index.
JTriggerCounter_t getCounter() const
Get trigger counter.
JTimeRange getTimeRange(const Evt &event)
Get time range (i.e. time between earliest and latest hit) of Monte Carlo event.
void load(const std::string &file_name, JDetector &detector)
Load detector from input file.
double getMaximalDistance(const JDetector &detector, const bool option=false)
Get maximal distance between modules in detector.
This name space includes all other name spaces (except KM3NETDAQ, KM3NET and ANTARES).
JTriggerParameters getTriggerParameters(const JMultipleFileScanner_t &file_list)
Get trigger parameters.
KM3NeT DAQ data structures and auxiliaries.
double getFrameTime()
Get frame time duration.
void setDAQLongprint(const bool option)
Set DAQ print option.
double getRTS()
Get TDC dynamic range.
JTriggerMask_t getTriggerMask(const unsigned int bit)
Convert trigger bit to trigger mask.
static const int HIGH_RATE_VETO_DISABLE
Enable (disable) use of high-rate veto test if this status bit is 0 (1);.
Match of two events considering overlap in time.
Empty structure for specification of parser element that is initialised (i.e. does not require input)...
Auxiliary class for ROOT class selection.
void remove()
Remove data type.
Auxiliary class for defining the range of iterations of objects.
Router for fast addressing of hits in KM3NETDAQ::JDAQTimeslice data structure as a function of the op...
