source: branches/Mars_IncreaseNsb/mjobs/MJSimulation.cc@ 18752

Last change on this file since 18752 was 18576, checked in by tbretz, 8 years ago
The additional acceptance should be excuted no matter of the setup of corsika; files can start with cer or CER; the source position in the camera is now calculated for convenience and stored in the output
File size: 48.6 KB
Line 
1/* ======================================================================== *\
2!
3! *
4! * This file is part of MARS, the MAGIC Analysis and Reconstruction
5! * Software. It is distributed to you in the hope that it can be a useful
6! * and timesaving tool in analysing Data of imaging Cerenkov telescopes.
7! * It is distributed WITHOUT ANY WARRANTY.
8! *
9! * Permission to use, copy, modify and distribute this software and its
10! * documentation for any purpose is hereby granted without fee,
11! * provided that the above copyright notice appear in all copies and
12! * that both that copyright notice and this permission notice appear
13! * in supporting documentation. It is provided "as is" without express
14! * or implied warranty.
15! *
16!
17!
18! Author(s): Thomas Bretz, 1/2009 <mailto:tbretz@astro.uni-wuerzburg.de>
19!
20! Copyright: MAGIC Software Development, 2000-2009
21!
22!
23\* ======================================================================== */
24
25/////////////////////////////////////////////////////////////////////////////
26//
27// MJSimulation
28//
29//
30// Force reading a corsika file even if the footer (RUNE-section) is missing
31// by setting fForceMode to kTRUE or from the resource file by
32//
33// ForceMode: Yes
34//
35//
36// To switch off the simulation of the camera electronics, use:
37//
38// Camera: Off
39//
40// Note, that the border of the camera and the propertied of the cones
41// are still simulated (simply because it is fast). Furthermore, this
42// switches off the trigger for the output, i.e. all data which deposits
43// at least one photon in at least one pixel is written to the output file.
44//
45//
46// In case of a pedestal or calibration run the artificial trigger can
47// be "switched off" and the cosmics trrigger "switched on" by setting
48// fForceTrigger to kTRUE or from the resource file by
49//
50// ForceTrigger: Yes
51//
52//
53/////////////////////////////////////////////////////////////////////////////
54#include "MJSimulation.h"
55
56#include <TEnv.h>
57#include <TCanvas.h>
58#include <iostream>
59
60// Core
61#include "MLog.h"
62#include "MLogManip.h"
63
64#include "MArgs.h"
65#include "MDirIter.h"
66#include "MParList.h"
67#include "MTaskList.h"
68#include "MEvtLoop.h"
69
70#include "MStatusDisplay.h"
71
72// Tasks
73#include "MCorsikaRead.h"
74#include "MContinue.h"
75#include "MFillH.h"
76#include "MGeomApply.h"
77#include "MParameterCalc.h"
78#include "MSrcPosCalc.h"
79#include "MHillasCalc.h"
80#include "MImgCleanStd.h"
81#include "MWriteRootFile.h"
82#include "MWriteFitsFile.h"
83
84#include "MSimMMCS.h"
85#include "MSimAbsorption.h"
86#include "MSimAtmosphere.h"
87#include "MSimReflector.h"
88#include "MSimPointingPos.h"
89#include "MSimPSF.h"
90#include "MSimGeomCam.h"
91#include "MSimSignalCam.h"
92#include "MSimAPD.h"
93#include "MSimExcessNoise.h"
94#include "MSimCamera.h"
95#include "MSimTrigger.h"
96#include "MSimReadout.h"
97#include "MSimRandomPhotons.h"
98#include "MSimBundlePhotons.h"
99#include "MSimCalibrationSignal.h"
100
101// Histograms
102#include "MBinning.h"
103
104#include "MHn.h"
105#include "MHCamera.h"
106#include "MHCamEvent.h"
107#include "MHPhotonEvent.h"
108
109// Container
110#include "MRawRunHeader.h"
111#include "MParameters.h"
112#include "MReflector.h"
113#include "MParEnv.h"
114#include "MSpline3.h"
115#include "MParSpline.h"
116#include "MGeomCam.h"
117#include "MPedestalCam.h"
118#include "MPedestalPix.h"
119
120ClassImp(MJSimulation);
121
122using namespace std;
123
124// --------------------------------------------------------------------------
125//
126// Default constructor.
127//
128// Sets fRuns to 0, fExtractor to NULL, fDataCheck to kFALSE
129//
130MJSimulation::MJSimulation(const char *name, const char *title)
131 : fForceMode(kFALSE), fCamera(kTRUE), fForceTrigger(kFALSE),
132 fWriteFitsFile(kFALSE), fOperationMode(kModeData), fRunNumber(-1)
133{
134 fName = name ? name : "MJSimulation";
135 fTitle = title ? title : "Standard analysis and reconstruction";
136}
137
138Bool_t MJSimulation::CheckEnvLocal()
139{
140 fForceMode = GetEnv("ForceMode", fForceMode);
141 fForceTrigger = GetEnv("ForceTrigger", fForceTrigger);
142 fCamera = GetEnv("Camera", fCamera);
143
144 return kTRUE;
145}
146
147Bool_t MJSimulation::WriteResult(const MParList &plist, const MSequence &seq, Int_t num)
148{
149 if (fPathOut.IsNull())
150 {
151 *fLog << inf << "No output path specified via SetPathOut - no output written." << endl;
152 return kTRUE;
153 }
154
155 TObjArray cont;
156 cont.Add(const_cast<TEnv*>(GetEnv()));
157 if (seq.IsValid())
158 cont.Add(const_cast<MSequence*>(&seq));
159
160 cont.Add(plist.FindObject("PulseShape"));
161 cont.Add(plist.FindObject("Reflector"));
162 cont.Add(plist.FindObject("MGeomCam"));
163 cont.Add(plist.FindObject("GeomCones"));
164
165 TNamed cmdline("CommandLine", fCommandLine.Data());
166 cont.Add(&cmdline);
167
168 if (fDisplay)
169 {
170 TString title = "-- Ceres";
171 if (seq.IsValid())
172 {
173 title += ": ";
174 title += seq.GetSequence();
175 }
176 title += " --";
177 fDisplay->SetTitle("Ceres", kFALSE);
178
179 cont.Add(fDisplay);
180 }
181
182 const TString name = Form("ceres%08d.root", num);
183 return WriteContainer(cont, name, "RECREATE");
184}
185
186void MJSimulation::SetupHist(MHn &hist) const
187{
188 hist.AddHist("MCorsikaEvtHeader.fTotalEnergy");
189 hist.InitName("Energy");
190 hist.InitTitle("Energy;E [GeV]");
191 hist.SetLog(kTRUE, kTRUE, kFALSE);
192
193 hist.AddHist("MPhotonEvent.GetNumExternal");
194 hist.InitName("Size");
195 hist.InitTitle("Size;S [#]");
196 hist.SetLog(kTRUE, kTRUE, kFALSE);
197
198 /*
199 hist.AddHist("-MCorsikaEvtHeader.fX/100","-MCorsikaEvtHeader.fY/100");
200 hist.SetDrawOption("colz");
201 hist.InitName("Impact;Impact;Impact");
202 hist.InitTitle("Impact;West <--> East [m];South <--> North [m]");
203 hist.SetAutoRange();
204 */
205
206 hist.AddHist("MCorsikaEvtHeader.GetImpact/100");
207 hist.InitName("Impact");
208 hist.InitTitle("Impact;Impact [m]");
209 hist.SetAutoRange();
210
211 hist.AddHist("MCorsikaEvtHeader.fFirstInteractionHeight/100000");
212 hist.InitName("Height");
213 hist.InitTitle("FirstInteractionHeight;h [km]");
214
215 hist.AddHist("(MCorsikaEvtHeader.fAz+MCorsikaRunHeader.fMagneticFieldAz)*TMath::RadToDeg()", "MCorsikaEvtHeader.fZd*TMath::RadToDeg()");
216 hist.InitName("SkyOrigin;Az;Zd");
217 hist.InitTitle("Sky Origin;Az [\\circ];Zd [\\circ]");
218 hist.SetDrawOption("colz");
219 hist.SetAutoRange();
220
221 hist.AddHist("IncidentAngle.fVal");
222 hist.InitName("ViewCone");
223 hist.InitTitle("Incident Angle;\\alpha [\\circ]");
224}
225
226template<class T>
227void MJSimulation::SetupCommonFileStructure(T &write) const
228{
229 // Common run headers
230 write.AddContainer("MMcCorsikaRunHeader", "RunHeaders", kFALSE, 1);
231 write.AddContainer("MCorsikaRunHeader", "RunHeaders", kFALSE, 1);
232 write.AddContainer("MRawRunHeader", "RunHeaders", kTRUE, 1);
233 write.AddContainer("MGeomCam", "RunHeaders", kTRUE, 1);
234 write.AddContainer("MMcRunHeader", "RunHeaders", kTRUE, 1);
235
236 // Common events
237 write.AddContainer("MCorsikaEvtHeader", "Events", kFALSE);
238 write.AddContainer("MRawEvtHeader", "Events");
239 write.AddContainer("MMcEvt", "Events", kFALSE);
240 write.AddContainer("MMcEvtBasic", "Events", kFALSE);
241 write.AddContainer("IncidentAngle", "Events", kFALSE);
242 write.AddContainer("MPointingPos", "Events", kFALSE);
243 write.AddContainer("MSimSourcePos", "Events", kFALSE);
244 write.AddContainer("MSrcPosCam", "Events", kFALSE);
245}
246
247void MJSimulation::SetupHeaderKeys(MWriteFitsFile &write,MRawRunHeader &header) const
248{
249 const MTime now(-1);
250 write.SetHeaderKey("ISMC",true,"Bool if File is Montecarlo File");
251 write.SetHeaderKey("TELESCOP", "FACT", "");
252 write.SetHeaderKey("PACKAGE", "MARS Cheobs", "");
253 write.SetHeaderKey("VERSION", "1.0", "");
254 write.SetHeaderKey("CREATOR", "Ceres", "");
255 write.SetHeaderKey("EXTREL", 1., "");
256 write.SetHeaderKey("COMPILED", __DATE__" " __TIME__, "");
257 write.SetHeaderKey("REVISION", "0", "");
258 write.SetHeaderKey("ORIGIN", "FACT", "");
259 write.SetHeaderKey("DATE", now.GetStringFmt("%Y-%m-%dT%H:%M:%S").Data(), "");
260 write.SetHeaderKey("NIGHT", now.GetNightAsInt(), "");
261 write.SetHeaderKey("TIMESYS", "UTC", "");
262 write.SetHeaderKey("TIMEUNIT", "d", "");
263 write.SetHeaderKey("MJDREF", 40587, "");
264 //write.SetHeaderKey("BLDVER", 1, "");
265 write.SetHeaderKey("RUNID", header.GetRunNumber(), "");
266 write.SetHeaderKey("NBOARD", 40, "");
267 write.SetHeaderKey("NPIX", header.GetNumPixel(), "");
268 write.SetHeaderKey("NROI", header.GetNumSamplesHiGain(), "");
269 write.SetHeaderKey("NROITM", 0, "");
270 write.SetHeaderKey("TMSHIFT", 0, "");
271 write.SetHeaderKey("CAMERA", "MGeomCamFACT", "");
272 write.SetHeaderKey("DAQ", "DRS4", "");
273
274 // FTemme: ADCRANGE and ADC have to be calculated, using the values for
275 // the fadctype.
276// write.SetHeaderKey("ADCRANGE", 2000, "Dynamic range in mV");
277// write.SetHeaderKey("ADC", 12, "Resolution in bits");
278
279 switch(header.GetRunType())
280 {
281 case MRawRunHeader::kRTData|MRawRunHeader::kRTMonteCarlo:
282 write.SetHeaderKey("RUNTYPE", "data", "");
283 break;
284 case MRawRunHeader::kRTPedestal|MRawRunHeader::kRTMonteCarlo:
285 write.SetHeaderKey("RUNTYPE", "pedestal", "");
286 break;
287 case MRawRunHeader::kRTCalibration|MRawRunHeader::kRTMonteCarlo:
288 write.SetHeaderKey("RUNTYPE", "calibration", "");
289 break;
290 }
291// write.SetHeaderKey("ID", 777, "Board 0: Board ID");
292// write.SetHeaderKey("FMVER", 532, "Board 0: Firmware Version");
293// write.SetHeaderKey("DNA", "0", "");
294// write.SetHeaderKey("BOARD", 0, "");
295// write.SetHeaderKey("PRESC", 40, "");
296// write.SetHeaderKey("PHASE", 0, "");
297// write.SetHeaderKey("DAC0", 26500, "");
298// write.SetHeaderKey("DAC1", 0, "");
299// write.SetHeaderKey("DAC2", 0, "");
300// write.SetHeaderKey("DAC3", 0, "");
301// write.SetHeaderKey("DAC4", 28800, "");
302// write.SetHeaderKey("DAC5", 28800, "");
303// write.SetHeaderKey("DAC6", 28800, "");
304// write.SetHeaderKey("DAC7", 28800, "");
305 write.SetHeaderKey("REFCLK", header.GetFreqSampling(), "");
306 write.SetHeaderKey("DRSCALIB", false, "");
307// write.SetHeaderKey("TSTARTI", 0, "");
308// write.SetHeaderKey("TSTARTF", 0., "");
309// write.SetHeaderKey("TSTOPI", 0, "");
310// write.SetHeaderKey("TSTOPF", 0., "");
311// write.SetHeaderKey("DATE-OBS", "1970-01-01T00:00:00", "");
312// write.SetHeaderKey("DATE-END", "1970-01-01T00:00:00", "");
313// write.SetHeaderKey("NTRG", 0, "");
314// write.SetHeaderKey("NTRGPED", 0, "");
315// write.SetHeaderKey("NTRGLPE", 0, "");
316// write.SetHeaderKey("NTRGTIM", 0, "");
317// write.SetHeaderKey("NTRGLPI", 0, "");
318// write.SetHeaderKey("NTRGEXT1", 0, "");
319// write.SetHeaderKey("NTRGEXT2", 0, "");
320// write.SetHeaderKey("NTRGMISC", 0, "");
321}
322
323void MJSimulation::SetupVetoColumns(MWriteFitsFile &write) const
324{
325 write.VetoColumn("MParameterD.fVal");
326 write.VetoColumn("MRawEvtData.fLoGainPixId");
327 write.VetoColumn("MRawEvtData.fLoGainFadcSamples");
328 write.VetoColumn("MRawEvtData.fABFlags");
329 write.VetoColumn("MRawEvtHeader.fNumTrigLvl2");
330 //write.VetoColumn("MRawEvtHeader.fTrigPattern");
331 write.VetoColumn("MRawEvtHeader.fNumLoGainOn");
332}
333
334// Setup the header accordingly to the used operation mode
335void MJSimulation::SetupHeaderOperationMode(MRawRunHeader &header) const
336{
337 switch (fOperationMode)
338 {
339 case kModeData:
340 header.SetRunType(MRawRunHeader::kRTMonteCarlo|MRawRunHeader::kRTData);
341 header.SetRunInfo(0, fRunNumber<0 ? 3 : fRunNumber);
342 break;
343
344 case kModePed:
345 header.SetRunType(MRawRunHeader::kRTMonteCarlo|MRawRunHeader::kRTPedestal);
346 header.SetSourceInfo("Pedestal");
347 header.SetRunInfo(0, fRunNumber<0 ? 1 : fRunNumber);
348 break;
349
350 case kModeCal:
351 header.SetRunType(MRawRunHeader::kRTMonteCarlo|MRawRunHeader::kRTCalibration);
352 header.SetSourceInfo("Calibration");
353 header.SetRunInfo(0, fRunNumber<0 ? 2 : fRunNumber);
354 break;
355
356 case kModePointRun:
357 header.SetRunType(MRawRunHeader::kRTMonteCarlo|MRawRunHeader::kRTPointRun);
358 header.SetRunInfo(0, fRunNumber<0 ? 0 : fRunNumber);
359 break;
360 }
361}
362
363void MJSimulation::CreateBinningObjects(MParList &plist) const
364{
365 MBinning *binse = (MBinning*) plist.FindCreateObj("MBinning","BinningEnergy");
366 binse->SetEdges(120, 1, 1000000,"log");
367 MBinning *binsth = (MBinning*) plist.FindCreateObj("MBinning","BinningThreshold");
368 binsth->SetEdges( 60, 0.9, 900000, "log");
369 MBinning *binsee = (MBinning*) plist.FindCreateObj("MBinning","BinningEnergyEst");
370 binsee->SetEdges( 36, 0.9, 900000, "log");
371 MBinning *binss = (MBinning*) plist.FindCreateObj("MBinning","BinningSize");
372 binss->SetEdges( 100, 1, 10000000, "log");
373 MBinning *binsi = (MBinning*) plist.FindCreateObj("MBinning","BinningImpact");
374 binsi->SetEdges( 32, 0, 800);
375 MBinning *binsh = (MBinning*) plist.FindCreateObj("MBinning","BinningHeight");
376 binsh->SetEdges( 150, 0, 50);
377 MBinning *binsaz = (MBinning*) plist.FindCreateObj("MBinning","BinningAz");
378 binsaz->SetEdges(720, -360, 360);
379 MBinning *binszd = (MBinning*) plist.FindCreateObj("MBinning","BinningZd");
380 binszd->SetEdges( 70, 0, 70);
381 MBinning *binsvc = (MBinning*) plist.FindCreateObj("MBinning","BinningViewCone");
382 binsvc->SetEdges( 35, 0, 7);
383 MBinning *binsel = (MBinning*) plist.FindCreateObj("MBinning","BinningTotLength");
384 binsel->SetEdges(150, 0, 50);
385 MBinning *binsew = (MBinning*) plist.FindCreateObj("MBinning","BinningMedLength");
386 binsew->SetEdges(150, 0, 15);
387 plist.FindCreateObj("MBinning","BinningDistC");
388 plist.FindCreateObj("MBinning","BinningDist");
389 plist.FindCreateObj("MBinning","BinningTrigPos");
390}
391
392Bool_t MJSimulation::Process(const MArgs &args, const MSequence &seq)
393{
394 // --------------------------------------------------------------------------------
395 // --------------------------------------------------------------------------------
396 // Initialization
397 // --------------------------------------------------------------------------------
398 // --------------------------------------------------------------------------------
399
400 // --------------------------------------------------------------------------------
401 // Logging output:
402 // --------------------------------------------------------------------------------
403 // - description of the job itself
404 // - list of the to processed sequence
405 *fLog << inf;
406 fLog->Separator(GetDescriptor());
407
408 if (!CheckEnv())
409 return kFALSE;
410
411 if (seq.IsValid())
412 *fLog << fSequence.GetFileName() << endl;
413 else
414 *fLog << "Input: " << args.GetNumArguments() << "-files" << endl;
415 *fLog << endl;
416
417 MDirIter iter;
418 if (seq.IsValid() && seq.GetRuns(iter, MSequence::kCorsika)<=0)
419 {
420 *fLog << err << "ERROR - Sequence valid but without files." << endl;
421 return kFALSE;
422 }
423 // --------------------------------------------------------------------------------
424 // Setup MParList and MTasklist
425 // --------------------------------------------------------------------------------
426 MParList plist;
427 plist.AddToList(this); // take care of fDisplay!
428 // setup TaskList
429 MTaskList tasks;
430 plist.AddToList(&tasks);
431
432 // --------------------------------------------------------------------------------
433 // --------------------------------------------------------------------------------
434 // Parameter Container Setup
435 // --------------------------------------------------------------------------------
436 // --------------------------------------------------------------------------------
437
438 // --------------------------------------------------------------------------------
439 // Setup container for the reflector, the cones and the camera geometry
440 // --------------------------------------------------------------------------------
441 // FIXME: Allow empty GeomCones!
442 MParEnv env0("Reflector");
443 MParEnv env1("GeomCones");
444 MParEnv env2("MGeomCam");
445 env0.SetClassName("MReflector");
446 env1.SetClassName("MGeomCam");
447 env2.SetClassName("MGeomCam");
448 plist.AddToList(&env0);
449 plist.AddToList(&env1);
450 plist.AddToList(&env2);
451 // --------------------------------------------------------------------------------
452 // Setup container for the "camera array" of the extracted number of photons
453 // --------------------------------------------------------------------------------
454 // from ExtractorRndm
455 plist.FindCreateObj("MPedPhotCam", "MPedPhotFromExtractorRndm");
456 // --------------------------------------------------------------------------------
457 // Setup spline containers for:
458 // --------------------------------------------------------------------------------
459 // - the pulse shape
460 // - the different photon acceptance splines
461 MParSpline shape("PulseShape");
462 MParSpline splinepde("PhotonDetectionEfficiency");
463 MParSpline splinemirror("MirrorReflectivity");
464 MParSpline splinecones("ConesAngularAcceptance");
465 MParSpline splinecones2("ConesTransmission");
466 MParSpline splineAdditionalPhotonAcceptance("AdditionalPhotonAcceptance");
467 plist.AddToList(&shape);
468 plist.AddToList(&splinepde);
469 plist.AddToList(&splinemirror);
470 plist.AddToList(&splinecones);
471 plist.AddToList(&splinecones2);
472 plist.AddToList(&splineAdditionalPhotonAcceptance);
473
474 // --------------------------------------------------------------------------------
475 // Setup container for the MC run header and the Raw run header
476 // --------------------------------------------------------------------------------
477 plist.FindCreateObj("MMcRunHeader");
478
479 MRawRunHeader header;
480 header.SetValidMagicNumber();
481 SetupHeaderOperationMode(header);
482 // FIXME: Move to MSimPointingPos, MSimCalibrationSignal
483 // Can we use this as input for MSimPointingPos?
484 header.SetObservation("On", "MonteCarlo");
485 plist.AddToList(&header);
486
487 // --------------------------------------------------------------------------------
488 // Setup container for the intended pulse position and for the trigger position
489 // --------------------------------------------------------------------------------
490 MParameterD pulpos("IntendedPulsePos");
491 // FIXME: Set a default which could be 1/3 of the digitization window
492 // pulpos.SetVal(40); // [ns]
493 plist.AddToList(&pulpos);
494
495 MParameterD trigger("TriggerPos");
496 trigger.SetVal(0);
497 plist.AddToList(&trigger);
498
499
500 // --------------------------------------------------------------------------------
501 // Setup container for the fix time offset, for residual time spread and for gapd time jitter
502 // --------------------------------------------------------------------------------
503 // Dominik and Sebastian on: fix time offsets
504 MMatrix fix_time_offsets_between_pixels_in_ns(
505 "MFixTimeOffset","titel"
506 );
507 plist.AddToList(&fix_time_offsets_between_pixels_in_ns);
508
509 // Jens Buss on: residual time spread
510 MParameterD resTimeSpread("ResidualTimeSpread");
511 resTimeSpread.SetVal(0.0);
512 plist.AddToList(&resTimeSpread);
513 // Jens Buss on: residual time spread
514 MParameterD gapdTimeJitter("GapdTimeJitter");
515 gapdTimeJitter.SetVal(0.0);
516 plist.AddToList(&gapdTimeJitter);
517
518 // --------------------------------------------------------------------------------
519 // Creation of binning objects and apply default settings
520 // --------------------------------------------------------------------------------
521 CreateBinningObjects(plist);
522
523 // --------------------------------------------------------------------------------
524 // --------------------------------------------------------------------------------
525 // Tasks Setup (Reading, Absorption, Reflector)
526 // --------------------------------------------------------------------------------
527 // --------------------------------------------------------------------------------
528
529 // --------------------------------------------------------------------------------
530 // Corsika read setup
531 // --------------------------------------------------------------------------------
532 MCorsikaRead read;
533 read.SetForceMode(fForceMode);
534
535 if (!seq.IsValid())
536 {
537 for (int i=0; i<args.GetNumArguments(); i++)
538 read.AddFile(args.GetArgumentStr(i));
539 }
540 else
541 read.AddFiles(iter);
542
543 // --------------------------------------------------------------------------------
544 // Precut
545 // --------------------------------------------------------------------------------
546 MContinue precut("", "PreCut");
547 precut.IsInverted();
548 precut.SetAllowEmpty();
549
550 // --------------------------------------------------------------------------------
551 // MSimMMCS (don't know what this is doing) and calculation of the incident angle
552 // --------------------------------------------------------------------------------
553 MSimMMCS simmmcs;
554 const TString sin2 = "sin(MCorsikaEvtHeader.fZd)*sin(MCorsikaRunHeader.fZdMin*TMath::DegToRad())";
555 const TString cos2 = "cos(MCorsikaEvtHeader.fZd)*cos(MCorsikaRunHeader.fZdMin*TMath::DegToRad())";
556 const TString cos = "cos(MCorsikaEvtHeader.fAz-MCorsikaRunHeader.fAzMin*TMath::DegToRad())";
557
558 const TString form = "acos("+sin2+"*"+cos+"+"+cos2+")*TMath::RadToDeg()";
559
560 MParameterCalc calcangle(form, "CalcIncidentAngle");
561 calcangle.SetNameParameter("IncidentAngle");
562
563 // --------------------------------------------------------------------------------
564 // Absorption tasks
565 // --------------------------------------------------------------------------------
566 // - Atmosphere (simatm)
567 // - photon detection efficiency (absapd)
568 // - mirror reflectivity (absmir)
569 // - angular acceptance of winston cones (cones)
570 // - transmission of winston cones (cones2)
571 // - additional photon acceptance (only motivated, not measured) (additionalPhotonAcceptance)
572 MSimAtmosphere simatm;
573 MSimAbsorption absapd("SimPhotonDetectionEfficiency");
574 MSimAbsorption absmir("SimMirrorReflectivity");
575 MSimAbsorption cones("SimConesAngularAcceptance");
576 MSimAbsorption cones2("SimConesTransmission");
577 MSimAbsorption additionalPhotonAcceptance("SimAdditionalPhotonAcceptance");
578 absapd.SetParName("PhotonDetectionEfficiency");
579 absmir.SetParName("MirrorReflectivity");
580 cones.SetParName("ConesAngularAcceptance");
581 cones.SetUseTheta();
582 cones2.SetParName("ConesTransmission");
583 additionalPhotonAcceptance.SetParName("AdditionalPhotonAcceptance");
584 additionalPhotonAcceptance.SetForce(kTRUE);
585
586 // --------------------------------------------------------------------------------
587 // Simulating pointing position and simulating reflector
588 // --------------------------------------------------------------------------------
589 MSimPointingPos pointing;
590 MSrcPosCalc srcposcam;
591
592 MSimReflector reflect;
593 reflect.SetNameGeomCam("GeomCones");
594 reflect.SetNameReflector("Reflector");
595// MSimStarField stars;
596
597 // --------------------------------------------------------------------------------
598 // Continue tasks
599 // --------------------------------------------------------------------------------
600 // - Processing of the current events stops, if there aren't at least two photons (see cont3)
601 MContinue cont1("MPhotonEvent.GetNumPhotons<1", "ContEmpty1");
602 MContinue cont2("MPhotonEvent.GetNumPhotons<1", "ContEmpty2");
603 MContinue cont3("MPhotonEvent.GetNumPhotons<2", "ContEmpty3");
604 cont1.SetAllowEmpty();
605 cont2.SetAllowEmpty();
606 cont3.SetAllowEmpty();
607
608 // --------------------------------------------------------------------------------
609 // --------------------------------------------------------------------------------
610 // Tasks Setup (Cones, SiPM-Simulation, RandomPhotons, Camera, Trigger, DAQ)
611 // --------------------------------------------------------------------------------
612 // --------------------------------------------------------------------------------
613
614 // --------------------------------------------------------------------------------
615 // GeomApply, SimPSF, SimGeomCam, SimCalibrationSignal
616 // --------------------------------------------------------------------------------
617 // - MGeomApply only resizes all MGeomCam parameter container to the actual
618 // number of pixels
619 // - MSimPSF applies an additional smearing of the photons on the camera window
620 // on default it is switched of (set to 0), but can be applied by setting:
621 // MSimPSF.fSigma: <value>
622 // in the config file.
623 // Be aware, that there is also a smearing of the photons implemented in
624 // MSimReflector by setting:
625 // MReflector.SetSigmaPSF: <value>
626 // in the config file. This is at the moment done in the default config file.
627 // - MSimGeomCam identifies which pixel was hit by which photon
628 // - MSimCalibrationSignal is only used for simulated calibration runs
629 MGeomApply apply;
630
631 MSimPSF simpsf;
632
633 MSimGeomCam simgeom;
634 simgeom.SetNameGeomCam("GeomCones");
635
636 MSimCalibrationSignal simcal;
637 simcal.SetNameGeomCam("GeomCones");
638
639 // --------------------------------------------------------------------------------
640 // Simulation of random photons
641 // --------------------------------------------------------------------------------
642 // - be aware that here default values for the nsb rate and for the dark
643 // count rate are set. They will be overwritten if the values are defined
644 // in the config file
645 // - if you want to simulate a specific nsb rate you have to set the filename
646 // in the config file to an empty string and then you can specify the NSB rate:
647 // MSimRandomPhotons.FileNameNSB:
648 // MSimRandomPhotons.FrequencyNSB: 0.0
649
650 // Sky Quality Meter: 21.82M = 2.02e-4cd/m^2
651 // 1cd = 12.566 lm / 4pi sr
652 // FIXME: Simulate photons before cones and QE!
653 MSimRandomPhotons simnsb;
654 simnsb.SetFreq(5.8, 0.004); // ph/m^2/nm/sr/ns NSB, 4MHz dark count rate
655 simnsb.SetNameGeomCam("GeomCones");
656 // FIXME: How do we handle star-light? We need the rate but we also
657 // need to process it through the mirror!
658
659 // --------------------------------------------------------------------------------
660 // Simulation from the SiPM to the DAQ
661 // --------------------------------------------------------------------------------
662 // - MSimAPD simulates the whole behaviour of the SiPMs:
663 // (dead time of cells, crosstalk, afterpulses)
664 // - MSimExcessNoise adds a spread on the weight of each signal in the SiPMs
665 // - MSimBundlePhotons restructured the photon list of MPhotonEvent via a look
666 // up table. At the moment the tasks is skipped, due to the fact that there
667 // is no file name specified in the config file
668 // - MSimSignalCam only fills a SignalCam container for the cherenkov photons
669 // - MSimCamera simulates the behaviour of the camera:
670 // (electronic noise, accoupling, time smearing and offset for the photons,
671 // pulses injected by all photons)
672 // - MSimTrigger simulates the behaviour of the Trigger:
673 // (Adding patch voltages, applying clipping, applying discriminator, applying
674 // time over threshold and a possible trigger logic)
675 // - MContinue conttrig stops the processing of the current event if the trigger
676 // position is negativ (and therefore not valid)
677 // - MSimReadout simulates the behaviour of the readout:
678 // (Digitization and saturation of the ADC)
679 MSimAPD simapd;
680 simapd.SetNameGeomCam("GeomCones");
681
682 MSimExcessNoise simexcnoise;
683 MSimBundlePhotons simsum;
684 MSimSignalCam simsignal;
685 MSimCamera simcam;
686 MSimTrigger simtrig;
687 MContinue conttrig("TriggerPos.fVal<0", "ContTrigger");
688 MSimReadout simdaq;
689
690 // --------------------------------------------------------------------------------
691 // Standard analysis with hillas parameters for the true cherenkov photons
692 // --------------------------------------------------------------------------------
693 // Remove isolated pixels
694 MImgCleanStd clean(0, 0);
695 //clean.SetCleanLvl0(0); // The level above which isolated pixels are kept
696 clean.SetCleanRings(0);
697 clean.SetMethod(MImgCleanStd::kAbsolute);
698
699 //clean.SetNamePedPhotCam("MPedPhotFromExtractorRndm");
700
701 MHillasCalc hcalc;
702 hcalc.Disable(MHillasCalc::kCalcConc);
703
704
705 // --------------------------------------------------------------------------------
706 // Setup of histogram containers and the corresponding fill tasks
707 // --------------------------------------------------------------------------------
708 // Here is no functionality for the simulation, it is only visualization via
709 // showplot
710 MHn mhn1, mhn2, mhn3, mhn4;
711 SetupHist(mhn1);
712 SetupHist(mhn2);
713 SetupHist(mhn3);
714 SetupHist(mhn4);
715
716 MH3 mhtp("TriggerPos.fVal-IntendedPulsePos.fVal-PulseShape.GetWidth");
717 mhtp.SetName("TrigPos");
718 mhtp.SetTitle("Trigger position w.r.t. the first photon hitting a detector");
719
720 MH3 mhew("MPhotonStatistics.fLength");
721 mhew.SetName("TotLength");
722 mhew.SetTitle("Time between first and last photon hitting a detector;L [ns]");
723
724 MH3 mhed("MPhotonStatistics.fTimeMedDev");
725 mhed.SetName("MedLength");
726 mhed.SetTitle("Median deviation (1\\sigma);L [ns]");
727
728 MFillH fillh1(&mhn1, "", "FillCorsika");
729 MFillH fillh2(&mhn2, "", "FillH2");
730 MFillH fillh3(&mhn3, "", "FillH3");
731 MFillH fillh4(&mhn4, "", "FillH4");
732 MFillH filltp(&mhtp, "", "FillTriggerPos");
733 MFillH fillew(&mhew, "", "FillEvtWidth");
734 MFillH filled(&mhed, "", "FillMedDev");
735 fillh1.SetNameTab("Corsika", "Distribution as simulated by Corsika");
736 fillh2.SetNameTab("Detectable", "Distribution of events hit the detector");
737 fillh3.SetNameTab("Triggered", "Distribution of triggered events");
738 fillh4.SetNameTab("Cleaned", "Distribution after cleaning and cuts");
739 filltp.SetNameTab("TrigPos", "TriggerPosition w.r.t the first photon");
740 fillew.SetNameTab("EvtWidth", "Time between first and last photon hitting a detector");
741 filled.SetNameTab("MedDev", "Median deviation of arrival time of photons hitting a detector");
742
743 MHPhotonEvent planeG(1, "HPhotonEventGround"); // Get from MaxImpact
744 MHPhotonEvent plane0(2, "HMirrorPlane0"); // Get from MReflector
745 //MHPhotonEvent plane1(2, "HMirrorPlane1");
746 MHPhotonEvent plane2(2, "HMirrorPlane2");
747 MHPhotonEvent plane3(2, "HMirrorPlane3");
748 MHPhotonEvent plane4(2, "HMirrorPlane4");
749 MHPhotonEvent planeF1(6, "HPhotonEventCamera"); // Get from MGeomCam
750 MHPhotonEvent planeF2(header.IsPointRun()?4:6, "HPhotonEventCones"); // Get from MGeomCam
751
752 plist.AddToList(&planeG);
753 plist.AddToList(&plane0);
754 plist.AddToList(&plane2);
755 plist.AddToList(&plane3);
756 plist.AddToList(&plane4);
757 plist.AddToList(&planeF1);
758 plist.AddToList(&planeF2);
759
760 //MHPSF psf;
761
762 MFillH fillG(&planeG, "MPhotonEvent", "FillGround");
763 MFillH fill0(&plane0, "MirrorPlane0", "FillReflector");
764 //MFillH fill1(&plane1, "MirrorPlane1", "FillCamShadow");
765 MFillH fill2(&plane2, "MirrorPlane2", "FillCandidates");
766 MFillH fill3(&plane3, "MirrorPlane3", "FillReflected");
767 MFillH fill4(&plane4, "MirrorPlane4", "FillFocal");
768 MFillH fillF1(&planeF1, "MPhotonEvent", "FillCamera");
769 MFillH fillF2(&planeF2, "MPhotonEvent", "FillCones");
770 //MFillH fillP(&psf, "MPhotonEvent", "FillPSF");
771
772 fillG.SetNameTab("Ground", "Photon distribution at ground");
773 fill0.SetNameTab("Reflector", "Photon distribution at reflector plane w/o camera shadow");
774 //fill1.SetNameTab("CamShadow", "Photon distribution at reflector plane w/ camera shadow");
775 fill2.SetNameTab("Candidates", "*Can hit* photon distribution at reflector plane w/ camera shadow");
776 fill3.SetNameTab("Reflected", "Photon distribution after reflector projected to reflector plane");
777 fill4.SetNameTab("Focal", "Photon distribution at focal plane");
778 fillF1.SetNameTab("Camera", "Photon distribution which hit the detector");
779 fillF2.SetNameTab("Cones", "Photon distribution after cones");
780 //fillP.SetNameTab("PSF", "Photon distribution after cones for all mirrors");
781
782
783 MHCamEvent evt0a(/*10*/3, "Signal", "Average signal (absolute);;S [ph]");
784 MHCamEvent evt0c(/*10*/3, "MaxSignal", "Maximum signal (absolute);;S [ph]");
785 MHCamEvent evt0d(/*11*/8, "ArrTm", "Time after first photon;;T [ns]");
786 evt0a.SetErrorSpread(kFALSE);
787 evt0c.SetCollectMax();
788
789 MContinue cut("", "Cut");
790
791 MFillH fillx0a(&evt0a, "MSignalCam", "FillAvgSignal");
792 MFillH fillx0c(&evt0c, "MSignalCam", "FillMaxSignal");
793 MFillH fillx0d(&evt0d, "MSignalCam", "FillArrTm");
794 MFillH fillx1("MHHillas", "MHillas", "FillHillas");
795 MFillH fillx3("MHHillasSrc", "MHillasSrc", "FillHillasSrc");
796 MFillH fillx4("MHNewImagePar", "MNewImagePar", "FillNewImagePar");
797 MFillH fillth("MHThreshold", "", "FillThreshold");
798 MFillH fillca("MHCollectionArea", "", "FillTrigArea");
799
800 fillth.SetNameTab("Threshold");
801 fillca.SetNameTab("TrigArea");
802
803 // --------------------------------------------------------------------------------
804 // Formating of the outputfilepath
805 // --------------------------------------------------------------------------------
806 if (!fFileOut.IsNull())
807 {
808 const Ssiz_t dot = fFileOut.Last('.');
809 const Ssiz_t slash = fFileOut.Last('/');
810 if (dot>slash)
811 fFileOut = fFileOut.Remove(dot);
812 }
813 const char *fmt = fFileOut.IsNull() ?
814 Form("s/[cC][eE][rR]([0-9]+)([0-9][0-9][0-9])/%s\\/%08d.$2%%s_MonteCarlo$1.root/", Esc(fPathOut).Data(), header.GetRunNumber()) :
815 Form("%s/%s%%s.root", Esc(fPathOut).Data(), Esc(fFileOut).Data());
816
817 const TString rule1(Form(fmt, fFileOut.IsNull()?"_R":""));
818 const TString rule2(Form(fmt, "_Y"));
819 const TString rule4(Form(fmt, "_I"));
820 TString rule3(Form(fmt, Form("_%c", header.GetRunTypeChar())));
821
822 // --------------------------------------------------------------------------------
823 // Setup of the outputfile tasks
824 // --------------------------------------------------------------------------------
825 MWriteRootFile write4a( 2, rule4, fOverwrite?"RECREATE":"NEW", "Star file");
826 MWriteRootFile write4b( 2, rule4, fOverwrite?"RECREATE":"NEW", "Star file");
827 MWriteRootFile write3b( 2, rule3, fOverwrite?"RECREATE":"NEW", "Camera file");
828 MWriteRootFile write2a( 2, rule2, fOverwrite?"RECREATE":"NEW", "Signal file");
829 MWriteRootFile write2b( 2, rule2, fOverwrite?"RECREATE":"NEW", "Signal file");
830 MWriteRootFile write1a( 2, rule1, fOverwrite?"RECREATE":"NEW", "Reflector file");
831 MWriteRootFile write1b( 2, rule1, fOverwrite?"RECREATE":"NEW", "Reflector file");
832
833 if (fWriteFitsFile)
834 rule3.ReplaceAll(".root", ".fits");
835
836 MWriteFitsFile write3af( 2, rule3, fOverwrite?"RECREATE":"NEW", "Camera file");
837 MWriteRootFile write3ar( 2, rule3, fOverwrite?"RECREATE":"NEW", "Camera file");
838
839 MTask &write3a = fWriteFitsFile ? static_cast<MTask&>(write3af) : static_cast<MTask&>(write3ar);
840
841 //SetupHeaderKeys(write3af,header);
842 SetupVetoColumns(write3af);
843
844 write3af.SetBytesPerSample("Data", 2);
845
846 write1a.SetName("WriteRefData");
847 write1b.SetName("WriteRefMC");
848 write2a.SetName("WriteSigData");
849 write2b.SetName("WriteSigMC");
850 write3a.SetName("WriteCamData");
851 write3b.SetName("WriteCamMC");
852 write4a.SetName("WriteImgData");
853 write4b.SetName("WriteImgMC");
854
855 SetupCommonFileStructure(write1a);
856 SetupCommonFileStructure(write2a);
857 SetupCommonFileStructure(write3ar);
858 SetupCommonFileStructure(write3af);
859 SetupCommonFileStructure(write4a);
860
861 // R: Dedicated file structure
862 write1a.AddContainer("MPhotonEvent", "Events");
863
864 // Y: Dedicated file structure
865 write2a.AddContainer("MPedPhotFromExtractorRndm", "RunHeaders", kTRUE, 1); // FIXME: Needed for the signal files to be display in MARS
866 write2a.AddContainer("MSignalCam", "Events");
867
868 // D: Dedicated file structure
869 write3af.AddContainer("ElectronicNoise", "RunHeaders", kTRUE, 1);
870 write3af.AddContainer("IntendedPulsePos", "RunHeaders", kTRUE, 1);
871 write3af.AddContainer("ResidualTimeSpread", "RunHeaders", kTRUE, 1);
872 write3af.AddContainer("GapdTimeJitter", "RunHeaders", kTRUE, 1);
873 write3af.AddContainer("MRawEvtData", "Events");
874 write3af.AddContainer("MTruePhotonsPerPixelCont", "Events");
875
876 write3ar.AddContainer("ElectronicNoise", "RunHeaders", kTRUE, 1);
877 write3ar.AddContainer("IntendedPulsePos", "RunHeaders", kTRUE, 1);
878 write3ar.AddContainer("MRawEvtData", "Events");
879 // It doesn't make much sene to write this information
880 // to the file because the units are internal units not
881 // related to the output samples
882 // if (header.IsDataRun() || fForceTrigger)
883 // write3a.AddContainer("TriggerPos", "Events");
884
885 // I: Dedicated file structure
886 write4a.AddContainer("MHillas", "Events");
887 write4a.AddContainer("MHillasSrc", "Events");
888 write4a.AddContainer("MImagePar", "Events");
889 write4a.AddContainer("MNewImagePar", "Events");
890
891 // Basic MC data
892 write1b.AddContainer("MMcEvtBasic", "OriginalMC");
893 write2b.AddContainer("MMcEvtBasic", "OriginalMC");
894 write3b.AddContainer("MMcEvtBasic", "OriginalMC");
895 write4b.AddContainer("MMcEvtBasic", "OriginalMC");
896
897
898 // --------------------------------------------------------------------------------
899 // --------------------------------------------------------------------------------
900 // Filling of tasks in tasklist
901 // --------------------------------------------------------------------------------
902 // --------------------------------------------------------------------------------
903
904 if (header.IsDataRun())
905 {
906 tasks.AddToList(&read); // Reading Corsika
907 tasks.AddToList(&precut); // Precut
908 tasks.AddToList(&pointing); // Simulating pointing
909 tasks.AddToList(&srcposcam); // calculate origin in camera
910 tasks.AddToList(&simmmcs); // Simulating MMCS
911 if (!fPathOut.IsNull() && !HasNullOut()) // Write Tasks for corsika infos
912 {
913 //tasks.AddToList(&write1b);
914 tasks.AddToList(&write2b);
915 if (fCamera)
916 tasks.AddToList(&write3b);
917 if (header.IsDataRun())
918 tasks.AddToList(&write4b);
919 }
920 // if (header.IsPointRun())
921 // tasks.AddToList(&stars);
922 if (1)
923 tasks.AddToList(&simatm); // Here because before fillh1 // atmosphere absorption
924 tasks.AddToList(&calcangle); // calculation incident angle
925 tasks.AddToList(&fillh1); // fill histogram task
926 tasks.AddToList(&fillG); // fill histogram task
927 if (!header.IsPointRun())
928 {
929 tasks.AddToList(&absapd); // photon detection efficiency of the apds
930 tasks.AddToList(&absmir); // mirror reflectivity
931 tasks.AddToList(&additionalPhotonAcceptance); // addition photon acceptance
932 if (0)
933 tasks.AddToList(&simatm); // FASTER? // be aware this is 'commented'
934 }
935 tasks.AddToList(&reflect); // Simulation of the reflector
936 if (!header.IsPointRun())
937 {
938 tasks.AddToList(&fill0); // fill histogram task
939 //tasks.AddToList(&fill1);
940 tasks.AddToList(&fill2); // fill histogram task
941 tasks.AddToList(&fill3); // fill histogram task
942 tasks.AddToList(&fill4); // fill histogram task
943 tasks.AddToList(&fillF1); // fill histogram task
944 }
945 tasks.AddToList(&cones); // angular acceptance of winston cones
946 tasks.AddToList(&cones2); // transmission of winston cones
947 //if (header.IsPointRun())
948 // tasks.AddToList(&fillP);
949 tasks.AddToList(&cont1); // continue if at least 2 photons
950 }
951 // -------------------------------
952 tasks.AddToList(&apply); // apply geometry to MGeomCam containers
953 if (header.IsDataRun())
954 {
955 tasks.AddToList(&simpsf); // simulates additional psf (NOT used in default mode)
956 tasks.AddToList(&simgeom); // tag which pixel is hit by which photon
957 tasks.AddToList(&cont2); // continue if at least 2 photons
958 if (!header.IsPointRun())
959 {
960 tasks.AddToList(&fillF2); // fill histogram task
961 tasks.AddToList(&fillh2); // fill histogram task
962 }
963 tasks.AddToList(&cont3); // continue if at least 3 photons
964 }
965 if (fCamera)
966 {
967 if (header.IsPedestalRun() || header.IsCalibrationRun())
968 tasks.AddToList(&simcal); // add calibration signal for calibration runs
969 tasks.AddToList(&simnsb); // simulate nsb and dark counts
970 tasks.AddToList(&simapd); // simulate SiPM behaviour (dead time, crosstalk ...)
971 tasks.AddToList(&simexcnoise); // add excess noise
972 }
973 tasks.AddToList(&simsum); // bundle photons (NOT used in default mode)
974 if (fCamera)
975 {
976 tasks.AddToList(&simcam); // simulate camera behaviour (creates analog signal)
977 if (header.IsDataRun() || fForceTrigger)
978 tasks.AddToList(&simtrig); // simulate trigger
979 tasks.AddToList(&conttrig); // continue if trigger pos is valid
980 tasks.AddToList(&simdaq); // simulate data aquisition
981 }
982 tasks.AddToList(&simsignal); // What do we do if signal<0? // fill MSimSignal container
983 if (!fPathOut.IsNull() && !HasNullOut())
984 {
985 //tasks.AddToList(&write1a);
986 if (!header.IsPedestalRun())
987 tasks.AddToList(&write2a); // outputtask
988 if (fCamera)
989 tasks.AddToList(&write3a); // outputtask (this is the raw data writing tasks)
990 }
991 // -------------------------------
992 if (fCamera)
993 {
994 // FIXME: MHCollectionArea Trigger Area!
995 if (header.IsDataRun())
996 tasks.AddToList(&fillh3); // fill histogram task
997 tasks.AddToList(&filltp); // fill histogram task
998 }
999 if (header.IsDataRun())
1000 {
1001 tasks.AddToList(&fillew); // fill histogram task
1002 tasks.AddToList(&filled); // fill histogram task
1003 }
1004 if (!header.IsPedestalRun())
1005 {
1006 tasks.AddToList(&fillx0a); // fill histogram task
1007 tasks.AddToList(&fillx0c); // fill histogram task
1008 }
1009 if (header.IsDataRun())
1010 {
1011 tasks.AddToList(&clean); // Cleaning for standard analysis
1012 tasks.AddToList(&hcalc); // Hillas parameter calculation
1013 tasks.AddToList(&cut);
1014 tasks.AddToList(&fillx0d); // fill histogram task
1015 tasks.AddToList(&fillx1); // fill histogram task
1016 //tasks.AddToList(&fillx2);
1017 tasks.AddToList(&fillx3); // fill histogram task
1018 tasks.AddToList(&fillx4); // fill histogram task
1019 if (!HasNullOut())
1020 tasks.AddToList(&write4a);
1021 //tasks.AddToList(&fillx5);
1022
1023 tasks.AddToList(&fillh4); // fill histogram task
1024 tasks.AddToList(&fillth); // fill histogram task
1025 tasks.AddToList(&fillca); // fill histogram task
1026 }
1027
1028
1029 // --------------------------------------------------------------------------------
1030 // --------------------------------------------------------------------------------
1031 // Event loop and processing display
1032 // --------------------------------------------------------------------------------
1033 // --------------------------------------------------------------------------------
1034
1035 // --------------------------------------------------------------------------------
1036 // Creation of event loop
1037 // --------------------------------------------------------------------------------
1038 tasks.SetAccelerator(MTask::kAccDontReset|MTask::kAccDontTime);
1039
1040 // Create and setup the eventloop
1041 MEvtLoop evtloop(fName);
1042 evtloop.SetParList(&plist);
1043 evtloop.SetDisplay(fDisplay);
1044 evtloop.SetLogStream(&gLog);
1045 if (!SetupEnv(evtloop))
1046 return kFALSE;
1047
1048 // FIXME: If pedestal file given use the values from this file
1049
1050
1051 // --------------------------------------------------------------------------------
1052 // Preparation of the graphicalk display which is shown while processing
1053 // --------------------------------------------------------------------------------
1054
1055 MGeomCam *cam = static_cast<MGeomCam*>(env2.GetCont());
1056
1057
1058 MBinning *binsd = (MBinning*) plist.FindObject("BinningDistC");
1059 MBinning *binsd0 = (MBinning*) plist.FindObject("BinningDist");
1060 MBinning *binstr = (MBinning*) plist.FindObject("BinningTrigPos");
1061 if (binstr->IsDefault())
1062 binstr->SetEdgesLin(150, -shape.GetWidth(),
1063 header.GetFreqSampling()/1000.*header.GetNumSamples()+shape.GetWidth());
1064
1065 if (binsd->IsDefault() && cam)
1066 binsd->SetEdgesLin(100, 0, cam->GetMaxRadius()*cam->GetConvMm2Deg());
1067
1068 if (binsd0->IsDefault() && cam)
1069 binsd0->SetEdgesLin(100, 0, cam->GetMaxRadius()*cam->GetConvMm2Deg());
1070
1071
1072 header.Print();
1073
1074 // FIXME: Display acceptance curves!
1075
1076 if (fDisplay)
1077 {
1078 TCanvas &c = fDisplay->AddTab("Info");
1079 c.Divide(2,2);
1080
1081 c.cd(1);
1082 gPad->SetBorderMode(0);
1083 gPad->SetFrameBorderMode(0);
1084 gPad->SetGridx();
1085 gPad->SetGridy();
1086 gROOT->SetSelectedPad(0);
1087 shape.DrawClone()->SetBit(kCanDelete);
1088
1089 if (env0.GetCont() && (header.IsDataRun() || header.IsPointRun()))
1090 {
1091 c.cd(3);
1092 gPad->SetBorderMode(0);
1093 gPad->SetFrameBorderMode(0);
1094 gPad->SetGridx();
1095 gPad->SetGridy();
1096 gROOT->SetSelectedPad(0);
1097 static_cast<MReflector*>(env0.GetCont())->DrawClone("line")->SetBit(kCanDelete);
1098 }
1099
1100 if (fCamera)
1101 {
1102 if (env1.GetCont())
1103 {
1104 c.cd(2);
1105 gPad->SetBorderMode(0);
1106 gPad->SetFrameBorderMode(0);
1107 gPad->SetGridx();
1108 gPad->SetGridy();
1109 gROOT->SetSelectedPad(0);
1110 MHCamera *c = new MHCamera(static_cast<MGeomCam&>(*env1.GetCont()));
1111 c->SetStats(kFALSE);
1112 c->SetBit(MHCamera::kNoLegend);
1113 c->SetBit(kCanDelete);
1114 c->Draw();
1115 }
1116
1117 if (cam)
1118 {
1119 c.cd(4);
1120 gPad->SetBorderMode(0);
1121 gPad->SetFrameBorderMode(0);
1122 gPad->SetGridx();
1123 gPad->SetGridy();
1124 gROOT->SetSelectedPad(0);
1125 MHCamera *c = new MHCamera(*cam);
1126 c->SetStats(kFALSE);
1127 c->SetBit(MHCamera::kNoLegend);
1128 c->SetBit(kCanDelete);
1129 c->Draw();
1130 }
1131 }
1132
1133 TCanvas &d = fDisplay->AddTab("Info2");
1134 d.Divide(2,3);
1135
1136 d.cd(1);
1137 gPad->SetBorderMode(0);
1138 gPad->SetFrameBorderMode(0);
1139 gPad->SetGridx();
1140 gPad->SetGridy();
1141 gROOT->SetSelectedPad(0);
1142 splinepde.DrawClone()->SetBit(kCanDelete);
1143
1144 d.cd(3);
1145 gPad->SetBorderMode(0);
1146 gPad->SetFrameBorderMode(0);
1147 gPad->SetGridx();
1148 gPad->SetGridy();
1149 gROOT->SetSelectedPad(0);
1150 splinecones2.DrawClone()->SetBit(kCanDelete);
1151
1152 d.cd(5);
1153 gPad->SetBorderMode(0);
1154 gPad->SetFrameBorderMode(0);
1155 gPad->SetGridx();
1156 gPad->SetGridy();
1157 gROOT->SetSelectedPad(0);
1158 splinemirror.DrawClone()->SetBit(kCanDelete);
1159
1160 d.cd(2);
1161 gPad->SetBorderMode(0);
1162 gPad->SetFrameBorderMode(0);
1163 gPad->SetGridx();
1164 gPad->SetGridy();
1165 gROOT->SetSelectedPad(0);
1166 splinecones.DrawClone()->SetBit(kCanDelete);
1167 //splinecones2.DrawClone("same")->SetBit(kCanDelete);
1168
1169 d.cd(6);
1170 gPad->SetBorderMode(0);
1171 gPad->SetFrameBorderMode(0);
1172 gPad->SetGridx();
1173 gPad->SetGridy();
1174 gROOT->SetSelectedPad(0);
1175 MParSpline *all = (MParSpline*)splinepde.DrawClone();
1176 //all->SetTitle("Combined acceptance");
1177 all->SetBit(kCanDelete);
1178 if (splinemirror.GetSpline())
1179 all->Multiply(*splinemirror.GetSpline());
1180 if (splinecones2.GetSpline())
1181 all->Multiply(*splinecones2.GetSpline());
1182 }
1183
1184 // --------------------------------------------------------------------------------
1185 // Perform event loop
1186 // --------------------------------------------------------------------------------
1187
1188 // Execute first analysis
1189 if (!evtloop.Eventloop(fMaxEvents))
1190 {
1191 gLog << err << GetDescriptor() << ": Failed." << endl;
1192 return kFALSE;
1193 }
1194
1195 //-------------------------------------------
1196 // FIXME: Display Spline in tab
1197 // FIXME: Display Reflector in tab
1198 // FIXME: Display Routing(?) in tab
1199 // FIXME: Display Camera(s) in tab
1200 //-------------------------------------------
1201
1202 if (!WriteResult(plist, seq, header.GetRunNumber()))
1203 return kFALSE;
1204
1205 *fLog << all << GetDescriptor() << ": Done." << endl << endl << endl;;
1206
1207 return kTRUE;
1208}
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