/[PAMELA software]/PamelaLevel2/inc/PamLevel2.h
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Contents of /PamelaLevel2/inc/PamLevel2.h

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Revision 1.31 - (show annotations) (download)
Wed Nov 14 11:14:27 2007 UTC (17 years ago) by pam-fi
Branch: MAIN
Changes since 1.30: +1 -4 lines
File MIME type: text/plain
implemented track sorting with GP hits

1
2
3 /**
4 * \file PamLevel2.h
5 * \author Elena Vannuccini
6 */
7 #ifndef pamlevel2_h
8 #define pamlevel2_h
9
10 #include <TRefArray.h>
11
12 #include <TrkStruct.h>
13 #include <TrkParams.h>
14 #include <TrkLevel0.h>
15 #include <TrkLevel1.h>
16 #include <TrkLevel2.h>
17 #include <TrkHough.h>
18 #include <CaloLevel0.h>
19 #include <CaloLevel1.h>
20 #include <CaloLevel2.h>
21 #include <ToFLevel2.h>
22 #include <TrigLevel2.h>
23 #include <S4Level2.h>
24 #include <NDLevel2.h>
25 #include <AcLevel2.h>
26 #include <OrbitalInfo.h>
27 #include <RunInfo.h>
28 #include <GLTables.h>
29
30
31 #include <TTree.h>
32 #include <TFriendElement.h>
33 #include <TChain.h>
34 #include <TChainElement.h>
35 #include <TFile.h>
36 #include <TList.h>
37 #include <TKey.h>
38 #include <TSystemFile.h>
39 #include <TSystemDirectory.h>
40 #include <TSQLServer.h>
41
42 #include <stdlib.h>
43 #include <iostream>
44 #include <iomanip>
45 using namespace std;
46
47 #define NCLONES 10
48
49 using namespace std;
50
51
52 /////////////////////////////////////////////////////////////////////////////
53 /////////////////////////////////////////////////////////////////////////////
54 /////////////////////////////////////////////////////////////////////////////
55 /////////////////////////////////////////////////////////////////////////////
56 /**
57 * \brief Class to describe GP output (to be moved to PamelaDigitizer)
58 *
59 */
60
61 class GPamela : public TObject {
62
63 private:
64
65 public:
66
67 // Declaration of leave types
68 Int_t Irun;
69 Int_t Ievnt;
70 Int_t Ipa;
71 Float_t X0;
72 Float_t Y0;
73 Float_t Z0;
74 Float_t Theta;
75 Float_t Phi;
76 Float_t P0;
77 Int_t Nthtof;
78 UChar_t Ipltof[100]; //[Nthtof]
79 UChar_t Ipaddle[100]; //[Nthtof]
80 UChar_t Ipartof[100]; //[Nthtof]
81 Float_t Xintof[100]; //[Nthtof]
82 Float_t Yintof[100]; //[Nthtof]
83 Float_t Zintof[100]; //[Nthtof]
84 Float_t Xouttof[100]; //[Nthtof]
85 Float_t Youttof[100]; //[Nthtof]
86 Float_t Zouttof[100]; //[Nthtof]
87 Float_t Ereltof[100]; //[Nthtof]
88 Float_t Timetof[100]; //[Nthtof]
89 Float_t Pathtof[100]; //[Nthtof]
90 Float_t P0tof[100]; //[Nthtof]
91 Int_t Nthcat;
92 UChar_t Iparcat[50]; //[Nthcat]
93 UChar_t Icat[50]; //[Nthcat]
94 Float_t Xincat[50]; //[Nthcat]
95 Float_t Yincat[50]; //[Nthcat]
96 Float_t Zincat[50]; //[Nthcat]
97 Float_t Xoutcat[50]; //[Nthcat]
98 Float_t Youtcat[50]; //[Nthcat]
99 Float_t Zoutcat[50]; //[Nthcat]
100 Float_t Erelcat[50]; //[Nthcat]
101 Float_t Timecat[50]; //[Nthcat]
102 Float_t Pathcat[50]; //[Nthcat]
103 Float_t P0cat[50]; //[Nthcat]
104 Int_t Nthcas;
105 UChar_t Iparcas[50]; //[Nthcas]
106 UChar_t Icas[50]; //[Nthcas]
107 Float_t Xincas[50]; //[Nthcas]
108 Float_t Yincas[50]; //[Nthcas]
109 Float_t Zincas[50]; //[Nthcas]
110 Float_t Xoutcas[50]; //[Nthcas]
111 Float_t Youtcas[50]; //[Nthcas]
112 Float_t Zoutcas[50]; //[Nthcas]
113 Float_t Erelcas[50]; //[Nthcas]
114 Float_t Timecas[50]; //[Nthcas]
115 Float_t Pathcas[50]; //[Nthcas]
116 Float_t P0cas[50]; //[Nthcas]
117 Int_t Nthspe;
118 UChar_t Iparspe[100]; //[Nthspe]
119 UChar_t Itrpb[100]; //[Nthspe]
120 UChar_t Itrsl[100]; //[Nthspe]
121 UChar_t Itspa[100]; //[Nthspe]
122 Float_t Xinspe[100]; //[Nthspe]
123 Float_t Yinspe[100]; //[Nthspe]
124 Float_t Zinspe[100]; //[Nthspe]
125 Float_t Xoutspe[100]; //[Nthspe]
126 Float_t Youtspe[100]; //[Nthspe]
127 Float_t Zoutspe[100]; //[Nthspe]
128 Float_t Xavspe[100]; //[Nthspe]
129 Float_t Yavspe[100]; //[Nthspe]
130 Float_t Zavspe[100]; //[Nthspe]
131 Float_t Erelspe[100]; //[Nthspe]
132 Float_t Pathspe[100]; //[Nthspe]
133 Float_t P0spe[100]; //[Nthspe]
134 UChar_t Nxmult[100]; //[Nthspe]
135 UChar_t Nymult[100]; //[Nthspe]
136 Int_t Nstrpx;
137 UChar_t Npstripx[1000]; //[Nstrpx]
138 UChar_t Ntstripx[1000]; //[Nstrpx]
139 UShort_t Istripx[1000]; //[Nstrpx]
140 //UInt_t Istripx[1000]; //[Nstrpx]
141 Float_t Qstripx[1000]; //[Nstrpx]
142 Float_t Xstripx[1000]; //[Nstrpx]
143 Int_t Nstrpy;
144 UChar_t Npstripy[1000]; //[Nstrpy]
145 UChar_t Ntstripy[1000]; //[Nstrpy]
146 UShort_t Istripy[1000]; //[Nstrpy]
147 //UInt_t Istripy[1000]; //[Nstrpy]
148 Float_t Qstripy[1000]; //[Nstrpy]
149 Float_t Ystripy[1000]; //[Nstrpy]
150 Int_t Nthcali;
151 UChar_t Icaplane[4224]; //[Nthcali]
152 UChar_t Icastrip[4224]; //[Nthcali]
153 Int_t Icamod[4224]; //[Nthcali]
154 Float_t Enestrip[4224]; //[Nthcali]
155 Int_t Nthcal;
156 UChar_t Icapl[1000]; //[Nthcal]
157 UChar_t Icasi[1000]; //[Nthcal]
158 UChar_t Icast[1000]; //[Nthcal]
159 Float_t Xincal[1000]; //[Nthcal]
160 Float_t Yincal[1000]; //[Nthcal]
161 Float_t Zincal[1000]; //[Nthcal]
162 Float_t Erelcal[1000]; //[Nthcal]
163 Int_t Nthnd;
164 UChar_t Itubend[200]; //[Nthnd]
165 UChar_t Iparnd[200]; //[Nthnd]
166 Float_t Xinnd[200]; //[Nthnd]
167 Float_t Yinnd[200]; //[Nthnd]
168 Float_t Zinnd[200]; //[Nthnd]
169 Float_t Xoutnd[200]; //[Nthnd]
170 Float_t Youtnd[200]; //[Nthnd]
171 Float_t Zoutnd[200]; //[Nthnd]
172 Float_t Erelnd[200]; //[Nthnd]
173 Float_t Timend[200]; //[Nthnd]
174 Float_t Pathnd[200]; //[Nthnd]
175 Float_t P0nd[200]; //[Nthnd]
176 Int_t Nthcard;
177 UChar_t Iparcard[100]; //[Nthcard]
178 UChar_t Icard[100]; //[Nthcard]
179 Float_t Xincard[100]; //[Nthcard]
180 Float_t Yincard[100]; //[Nthcard]
181 Float_t Zincard[100]; //[Nthcard]
182 Float_t Xoutcard[100]; //[Nthcard]
183 Float_t Youtcard[100]; //[Nthcard]
184 Float_t Zoutcard[100]; //[Nthcard]
185 Float_t Erelcard[100]; //[Nthcard]
186 Float_t Timecard[100]; //[Nthcard]
187 Float_t Pathcard[100]; //[Nthcard]
188 Float_t P0card[100]; //[Nthcard]
189
190 GPamela(){ Clear(); };
191 // ~GPamela(){ Delete(); };
192 ~GPamela(){ Clear(); };
193
194 void Clear();
195 void Delete();
196 void SetBranchAddress( TChain* );
197 void SetBranchAddress( TTree* t){ SetBranchAddress( (TChain*)t );};
198
199 GPamela* GetGPamela(){return this;};
200
201 ClassDef(GPamela,1);
202
203 };
204 /////////////////////////////////////////////////////////////////////////////
205 /////////////////////////////////////////////////////////////////////////////
206 /////////////////////////////////////////////////////////////////////////////
207 /////////////////////////////////////////////////////////////////////////////
208
209
210
211 /**
212 * \brief Class to describe particle tracks in the apparatus, including tracker and track-related variables from other detectors (calorimeter and TOF).
213 *
214 * This class inherites from TrkTrack, CaloTrkVar ecc...
215 *
216 */
217 //class PamTrack : public TrkTrack, public CaloTrkVar, public ToFTrkVar {
218 class PamTrack : public TObject {
219
220 private:
221
222 TrkTrack* trk_track;
223 CaloTrkVar* calo_track;
224 ToFTrkVar* tof_track;
225 Int_t pscore;
226 Int_t iscore;
227 bool candeleteobj;
228
229 // TClonesArray *Cluster; ///< clusters (if stored)
230
231 public:
232
233 PamTrack();
234 PamTrack(TrkTrack* , CaloTrkVar* , ToFTrkVar* );
235 PamTrack(const PamTrack&);
236 ~PamTrack(){ Delete(); };
237
238 void Clear();
239 void Clear(Option_t *option){Clear();};
240 void Delete();
241
242 Bool_t IsSolved(){if ((pscore-iscore)>0) return true; return false;};
243 Int_t GetScore(){return (pscore-iscore);};
244 Int_t GetPScore(){return (pscore);};
245 Int_t GetIScore(){return (iscore);};
246 void SetPScore(Int_t p){pscore=p;};
247 void SetIScore(Int_t i){iscore=i;};
248
249 TrkTrack* GetTrkTrack(){return trk_track;};
250 CaloTrkVar* GetCaloTrack(){return calo_track;};
251 ToFTrkVar* GetToFTrack(){return tof_track;};
252
253 ClassDef(PamTrack,1);
254 };
255
256 /**
257 * \brief Class to describe PAMELA LEVEL2 data.
258 *
259 * This class inherites from TrkLevel2, CaloLevel2 ecc... and it overrides the TrkLevel2:GetTrack(int it) and TrkLevel2:GetTrackImage(int it) methods.
260 * This allows to solve the tracker ambiguity (that is, to choose between track images) by using also information from other detectors.
261 */
262
263 //class PamLevel2 : public CaloLevel2, public CaloLevel1, public ToFLevel2, public TrkLevel2, public TrkLevel1, public TrkHough, public TrigLevel2, public S4Level2, public NDLevel2, public AcLevel2, public OrbitalInfo {
264 class PamLevel2 : public TObject {
265
266 private:
267
268 // ------------------------------
269 // variables to retrieve run info
270 // ------------------------------
271 Long64_t irun; //current run entry, relative to the TChain
272 Long64_t irunt; //current run entry, relative to the TTree in the TChain
273 Long64_t runfirstentry; //first entry of run, relative to the TChain
274 Long64_t runlastentry; //last entry of run, relative to the TChain
275 Long64_t irunentry; //position of current entry, relative to the run
276 TChain* run_tree;
277 TTree* run_tree_clone;
278 TChain* sel_tree;
279 TTree* sel_tree_clone;
280
281 // -------------------------------------------
282 // variables to store total live and dead time
283 // -------------------------------------------
284 ULong64_t totdltime[3];// 0=live 1=dead 2=n.events
285
286 // ---------------------------------
287 // variables to retrieve level0 info
288 // ---------------------------------
289 TFile* l0_file;
290 TTree* l0_tree;
291 Int_t iroot;
292 Int_t prevshift; // to remember if any shift is needed to synchronize l0 and l2 data instead of calculating any time
293 Int_t maxshift; // EMILIANO maximum discrepancy between L2 and L0 data (the bigger the better concering synch but the processing speed drops) default = 10
294 // --------------------------------------------
295 // variables to store Level0 info (if required)
296 // --------------------------------------------
297 EventHeader* h0_obj;
298 TrkLevel0* trk0_obj;
299 CaloLevel0* calo0_obj;
300
301 // ---------------------------
302 // variables to connect the DB
303 // ---------------------------
304 TSQLServer* dbc;
305 TString host;
306 TString user;
307 TString psw;
308
309 // ---------------------------------------------
310 // variables to retrieve and clone level1-2 info
311 // ---------------------------------------------
312 TChain* pam_tree;
313 TTree* pam_tree_clone[NCLONES];
314
315 // --------------------------------------------
316 // variables to store Level1-2 info
317 // --------------------------------------------
318 TrkLevel1* trk1_obj;
319 TrkLevel2* trk2_obj;
320 TrkHough* trkh_obj;
321 CaloLevel1* calo1_obj;
322 CaloLevel2* calo2_obj;
323 ToFLevel2* tof_obj;
324 TrigLevel2* trig_obj;
325 S4Level2* s4_obj;
326 NDLevel2* nd_obj;
327 AcLevel2* ac_obj;
328 OrbitalInfo* orb_obj;
329 GL_RUN* run_obj;
330 SoftInfo* soft_obj; // Emiliano
331
332 // --------------------------------------------
333 // variables to handle GP
334 // --------------------------------------------
335 GPamela* gp_obj;
336
337 // -----------------------------------
338 // variables to sort the track
339 // -----------------------------------
340 TClonesArray *tsorted;
341 TClonesArray *timage;
342 PamTrack *track; //store the last required
343 TString howtosort;
344 Float_t sortthr;
345
346 // --------------------------------------
347 // flags to load level0-1-2 trees/braches
348 // --------------------------------------
349 Bool_t CAL2; //level2 branch
350 Bool_t CAL1; //level1 branch
351 Bool_t CAL0; //yoda
352
353 Bool_t TRK2; //level2 branch
354 Bool_t TRK1; //level1 branch
355 Bool_t TRKh; //hough branch
356 Bool_t TRK0; //yoda
357
358 Bool_t TOF;
359 Bool_t TOF0;
360
361 Bool_t TRG;
362 Bool_t S4;
363 Bool_t ND;
364 Bool_t AC;
365 Bool_t ORB;
366
367 Bool_t GP; //GP simulation tree
368
369 // -----------
370 // other flags
371 // -----------
372 Bool_t RUN; // RunInfo tree
373 Bool_t ISGP; // GP simulation (...sort of patch, to skip OBT check, since OrbitalInfo is sometime missing)
374 Int_t SELLI; // tree of selected events (there is a selection list)
375
376 void Initialize();
377
378
379 public:
380
381 PamLevel2(TString ddir,TString list,TString detlist);
382 PamLevel2(TString ddir,TString list);
383 PamLevel2();
384 ~PamLevel2(){Delete();};
385
386 void Clear();
387 void Reset();
388 void Delete();
389
390
391 // =============================================
392 // methods needed to read/write Level0-1-2 trees
393 // =============================================
394 void SetWhichTrees(TString);
395 void GetWhichTrees(TFile*);
396
397 TTree* GetPamTree(TFile*,TString);
398 TTree* GetPamTree(TFile* f){return GetPamTree(f,"");};
399
400 TList* GetListOfLevel2Files(TString, TString);
401 Bool_t CheckLevel2File(TString);
402 TChain* GetPamTree(TList*,TString);
403 TChain* GetPamTree(TString ddir,TString list,TString detlist){ return GetPamTree(GetListOfLevel2Files(ddir,list),detlist); };
404 TChain* GetPamTree(TString ddir,TString list){ return GetPamTree(GetListOfLevel2Files(ddir,list),""); };
405 TChain* AddFriend(TString);
406
407 TTree* GetRunTree(TFile*);
408 TChain* GetRunTree(TList*);
409 TChain* GetRunTree(TString ddir,TString list){ return GetRunTree(GetListOfLevel2Files(ddir,list)); };
410 Bool_t UpdateRunInfo(Long64_t);//{ return UpdateRunInfo(run_tree,iev); };
411 Bool_t UpdateRunInfo(TTree *,Long64_t);
412 Bool_t UpdateRunInfo(TChain *,Long64_t);
413
414 void CreateCloneTrees0(TChain *fChain, TFile* file);
415 void CreateCloneTrees(TFile* file);
416 void CreateCloneTrees(){CreateCloneTrees(NULL);};
417 void FillCloneTrees();
418 TTree *GetCloneTree(TString);
419 void WriteCloneTrees();
420
421 void SetBranchAddress(TTree *);
422 void SetBranchAddress(TChain *);
423
424 // Int_t GetEntry(Int_t);
425 Int_t GetEntry(Long64_t);
426 Int_t GetYodaEntry();
427
428 void SetMaxShift(Int_t sh){ maxshift = sh; return;}; // EMILIANO method to change the maxshift variable
429
430 Long64_t GetEntries(){return pam_tree->GetEntries();};
431 TChain* GetPamTree(){return pam_tree;};
432 TChain* GetRunTree(){return run_tree;};
433 TTree* GetYodaTree();
434
435 TFile* GetYodaFile(){return l0_file;}; // can be useful to know the name of level0 file we are using or similar things
436
437 // =============
438 // DB connection
439 // =============
440 void SetDBHost(TString str){host=str;};
441 void SetDBUser(TString str){user=str;};
442 void SetDBPsw(TString str){psw=str;};
443 TSQLServer* GetSQLServer(){return dbc;};
444 Bool_t SetDBConnection();
445
446 // ========================================================
447 // methods needed to retrieve subdetector general variables
448 // ========================================================
449 void* GetPointerTo(const char*);
450 EventHeader *GetEventHeader() { return h0_obj; };
451
452 /* TrkLevel0 *GetTrkLevel0() { return trk0_obj; }; */
453 /* CaloLevel0 *GetCaloLevel0() { return calo0_obj; }; */
454 TrkLevel0 *GetTrkLevel0();
455 CaloLevel0 *GetCaloLevel0();
456
457
458 TrkLevel1 *GetTrkLevel1() { return trk1_obj; };
459 TrkLevel2 *GetTrkLevel2() { return trk2_obj; };
460 TrkHough *GetTrkHough() { return trkh_obj; };
461 CaloLevel1 *GetCaloLevel1() { return calo1_obj;};
462 CaloLevel2 *GetCaloLevel2() { return calo2_obj;};
463 ToFLevel2 *GetToFLevel2() { return tof_obj; };
464 TrigLevel2 *GetTrigLevel2() { return trig_obj; };
465 S4Level2 *GetS4Level2() { return s4_obj; };
466 NDLevel2 *GetNDLevel2() { return nd_obj; };
467 AcLevel2 *GetAcLevel2() { return ac_obj; };
468 OrbitalInfo *GetOrbitalInfo(){ return orb_obj; };
469 GL_RUN *GetRunInfo() { return run_obj; };
470 SoftInfo *GetSoftInfo() { return soft_obj; }; // Emiliano
471 GPamela *GetGPamela() { return gp_obj; };
472
473 // ==============================================
474 // methods to retrieve subdetectors stored tracks
475 // ==============================================
476 TrkTrack* GetTrkStoredTrack(int seqno){return trk2_obj->TrkLevel2::GetStoredTrack(seqno); };
477 CaloTrkVar* GetCaloStoredTrack(int);
478 ToFTrkVar* GetToFStoredTrack(int);
479 //
480 PamTrack* GetPamTrackAlong(TrkTrack*);
481 // PamTrack* GetPamTrackAlong(CaloTrkVar*); //se serve
482 // PamTrack* GetPamTrackAlong(ToFTrkVar*); //se serve
483
484 // =================================
485 // methods to retrieve pamela tracks
486 // =================================
487 PamTrack* GetStoredTrack(Int_t);
488 //
489 void SortTracks(TString); //assign value to variable sorted_tracks
490 void SortTracks(); //assign value to variable sorted_tracks
491 // TRefArray* GetTracks(); //return sorted_tracks
492 TClonesArray* GetTracks(); //return sorted_tracks
493 PamTrack* GetTrack(int);
494 PamTrack* GetTrackImage(int);
495 void SetSortingMethod(TString how){ howtosort = how; return;};
496 TString GetSortingMethod(){return howtosort;};
497 void SetNucleiSortingThreshold(Float_t nucleithr){ sortthr = nucleithr; return;};
498 Float_t GetNucleiSortingThreshold(){ return sortthr;};
499
500 // =================================
501 // other methods
502 // =================================
503 // Int_t ntrk(){ return trk2_obj->TrkLevel2::ntrk(); };
504
505 // -----
506 // flags methods
507 // -----
508 Bool_t IsCAL2(){return CAL2;}; //level2 branch
509 Bool_t IsCAL1(){return CAL1;}; //level1 branch
510 Bool_t IsCAL0(){return CAL0;}; //yoda
511
512 Bool_t IsTRK2(){return TRK2;}; //level2 branch
513 Bool_t IsTRK1(){return TRK1;}; //level1 branch
514 Bool_t IsTRKh(){return TRKh;}; //hough branch
515 Bool_t IsTRK0(){return TRK0;}; //yoda
516
517 Bool_t IsTOF(){return TOF;};
518 Bool_t IsTOF0(){return TOF0;};
519
520 Bool_t IsTRG(){return TRG;};
521 Bool_t IsS4(){return S4;};
522 Bool_t IsND(){return ND;};
523 Bool_t IsAC(){return AC;};
524 Bool_t IsORB(){return ORB;};
525
526 Bool_t IsRUN(){return RUN;};
527
528 Bool_t IsGood();
529
530 Int_t IsSELLI(){return SELLI;}; //trees of selected events (there is a selection list)
531
532 Bool_t IsGP(){return ISGP;};
533
534 void SetGP(Bool_t tt){ISGP=tt;};
535
536
537 ClassDef(PamLevel2,1);
538 };
539
540 //===============================================================================================
541 //
542 //
543 //
544 //
545 //===============================================================================================
546
547
548 #endif
549

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