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ab48128d | 1 | /************************************************************************** |
2 | * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
3 | * * | |
4 | * Author: The ALICE Off-line Project. * | |
5 | * Contributors are mentioned in the code where appropriate. * | |
6 | * * | |
7 | * Permission to use, copy, modify and distribute this software and its * | |
8 | * documentation strictly for non-commercial purposes is hereby granted * | |
9 | * without fee, provided that the above copyright notice appears in all * | |
10 | * copies and that both the copyright notice and this permission notice * | |
11 | * appear in the supporting documentation. The authors make no claims * | |
12 | * about the suitability of this software for any purpose. It is * | |
13 | * provided "as is" without express or implied warranty. * | |
14 | **************************************************************************/ | |
15 | /* $Id$ */ | |
16 | //_________________________________________________________________________ | |
70a93198 | 17 | // Reconstructed Points for the EMCAL |
18 | // A RecPoint is a cluster of digits | |
40164976 | 19 | // |
20 | // | |
d64c959b | 21 | //*-- Author: Yves Schutz (SUBATECH) |
70a93198 | 22 | //*-- Author: Dmitri Peressounko (RRC KI & SUBATECH) |
23 | //*-- Author: Heather Gray (LBL) merged AliEMCALRecPoint and AliEMCALTowerRecPoint 02/04 | |
ab48128d | 24 | |
25 | // --- ROOT system --- | |
9aa6a5f6 | 26 | #include "TPad.h" |
27 | #include "TGraph.h" | |
28 | #include "TPaveText.h" | |
29 | #include "TClonesArray.h" | |
30 | #include "TMath.h" | |
31 | #include "TGeoMatrix.h" | |
32 | #include "TGeoManager.h" | |
33 | #include "TGeoPhysicalNode.h" | |
25bb3dcb | 34 | #include "TRandom.h" |
ab48128d | 35 | |
36 | // --- Standard library --- | |
9aa6a5f6 | 37 | #include <Riostream.h> |
ab48128d | 38 | |
39 | // --- AliRoot header files --- | |
1d59832c | 40 | //#include "AliGenerator.h" |
41 | class AliGenerator; | |
1d59832c | 42 | class AliEMCAL; |
9aa6a5f6 | 43 | #include "AliLog.h" |
44 | #include "AliGeomManager.h" | |
ab48128d | 45 | #include "AliEMCALGeometry.h" |
4635df1f | 46 | #include "AliEMCALHit.h" |
ab48128d | 47 | #include "AliEMCALDigit.h" |
48 | #include "AliEMCALRecPoint.h" | |
40164976 | 49 | #include "AliCaloCalibPedestal.h" |
50 | #include "AliEMCALGeoParams.h" | |
ab48128d | 51 | |
52 | ClassImp(AliEMCALRecPoint) | |
53 | ||
ab48128d | 54 | //____________________________________________________________________________ |
55 | AliEMCALRecPoint::AliEMCALRecPoint() | |
9aa6a5f6 | 56 | : AliCluster(), fGeomPtr(0), |
57 | fAmp(0), fIndexInList(-1), //to be set when the point is already stored | |
25bb3dcb | 58 | fGlobPos(0,0,0),fLocPos(0,0,0), |
9aa6a5f6 | 59 | fMaxDigit(100), fMulDigit(0), fMaxTrack(200), |
60 | fMulTrack(0), fDigitsList(0), fTracksList(0), | |
61 | fClusterType(-1), fCoreEnergy(0), fDispersion(0), | |
62 | fEnergyList(0), fTimeList(0), fAbsIdList(0), | |
0561e246 | 63 | fTime(0.), fNExMax(0), fCoreRadius(10), //HG check this |
9aa6a5f6 | 64 | fDETracksList(0), fMulParent(0), fMaxParent(0), |
65 | fParentsList(0), fDEParentsList(0), fSuperModuleNumber(0), | |
25bb3dcb | 66 | fDigitIndMax(-1), fDistToBadTower(-1), fSharedCluster(kFALSE) |
ab48128d | 67 | { |
68 | // ctor | |
9aa6a5f6 | 69 | fGeomPtr = AliEMCALGeometry::GetInstance(); |
70 | ||
706863b6 | 71 | fLambda[0] = 0; |
72 | fLambda[1] = 0; | |
9aa6a5f6 | 73 | |
ab48128d | 74 | } |
75 | ||
76 | //____________________________________________________________________________ | |
9aa6a5f6 | 77 | AliEMCALRecPoint::AliEMCALRecPoint(const char *) |
78 | : AliCluster(), fGeomPtr(0), | |
79 | fAmp(0), fIndexInList(-1), //to be set when the point is already stored | |
25bb3dcb | 80 | fGlobPos(0,0,0), fLocPos(0,0,0), |
9aa6a5f6 | 81 | fMaxDigit(100), fMulDigit(0), fMaxTrack(1000), fMulTrack(0), |
82 | fDigitsList(new Int_t[fMaxDigit]), fTracksList(new Int_t[fMaxTrack]), | |
83 | fClusterType(-1), fCoreEnergy(0), fDispersion(0), | |
84 | fEnergyList(new Float_t[fMaxDigit]), fTimeList(new Float_t[fMaxDigit]), | |
0561e246 | 85 | fAbsIdList(new Int_t[fMaxDigit]), fTime(-1.), fNExMax(0), fCoreRadius(10), |
9aa6a5f6 | 86 | fDETracksList(new Float_t[fMaxTrack]), fMulParent(0), fMaxParent(1000), |
87 | fParentsList(new Int_t[fMaxParent]), fDEParentsList(new Float_t[fMaxParent]), | |
25bb3dcb | 88 | fSuperModuleNumber(0), fDigitIndMax(-1), fDistToBadTower(-1),fSharedCluster(kFALSE) |
ab48128d | 89 | { |
90 | // ctor | |
af5bdd85 | 91 | for (Int_t i = 0; i < fMaxTrack; i++) |
92 | fDETracksList[i] = 0; | |
94478418 | 93 | for (Int_t i = 0; i < fMaxParent; i++) { |
94 | fParentsList[i] = -1; | |
af5bdd85 | 95 | fDEParentsList[i] = 0; |
94478418 | 96 | } |
18a21c7c | 97 | |
9aa6a5f6 | 98 | fGeomPtr = AliEMCALGeometry::GetInstance(); |
706863b6 | 99 | fLambda[0] = 0; |
100 | fLambda[1] = 0; | |
70a93198 | 101 | } |
18a21c7c | 102 | |
70a93198 | 103 | //____________________________________________________________________________ |
18a21c7c | 104 | AliEMCALRecPoint::AliEMCALRecPoint(const AliEMCALRecPoint & rp) |
9aa6a5f6 | 105 | : AliCluster(rp), fGeomPtr(rp.fGeomPtr), |
106 | fAmp(rp.fAmp), fIndexInList(rp.fIndexInList), | |
25bb3dcb | 107 | fGlobPos(rp.fGlobPos),fLocPos(rp.fLocPos), |
9aa6a5f6 | 108 | fMaxDigit(rp.fMaxDigit), fMulDigit(rp.fMulDigit), |
109 | fMaxTrack(rp.fMaxTrack), fMulTrack(rp.fMaxTrack), | |
110 | fDigitsList(new Int_t[rp.fMaxDigit]), fTracksList(new Int_t[rp.fMaxTrack]), | |
111 | fClusterType(rp.fClusterType), fCoreEnergy(rp.fCoreEnergy), | |
18a21c7c | 112 | fDispersion(rp.fDispersion), |
9aa6a5f6 | 113 | fEnergyList(new Float_t[rp.fMaxDigit]), fTimeList(new Float_t[rp.fMaxDigit]), |
0561e246 | 114 | fAbsIdList(new Int_t[rp.fMaxDigit]), fTime(rp.fTime), fNExMax(rp.fNExMax),fCoreRadius(rp.fCoreRadius), |
9aa6a5f6 | 115 | fDETracksList(new Float_t[rp.fMaxTrack]), fMulParent(rp.fMulParent), |
116 | fMaxParent(rp.fMaxParent), fParentsList(new Int_t[rp.fMaxParent]), | |
117 | fDEParentsList(new Float_t[rp.fMaxParent]), | |
40164976 | 118 | fSuperModuleNumber(rp.fSuperModuleNumber), fDigitIndMax(rp.fDigitIndMax), |
25bb3dcb | 119 | fDistToBadTower(rp.fDistToBadTower), fSharedCluster(rp.fSharedCluster) |
0a4cb131 | 120 | { |
121 | //copy ctor | |
0a4cb131 | 122 | fLambda[0] = rp.fLambda[0]; |
123 | fLambda[1] = rp.fLambda[1]; | |
18a21c7c | 124 | |
0a4cb131 | 125 | for(Int_t i = 0; i < rp.fMulDigit; i++) { |
126 | fEnergyList[i] = rp.fEnergyList[i]; | |
127 | fTimeList[i] = rp.fTimeList[i]; | |
128 | fAbsIdList[i] = rp.fAbsIdList[i]; | |
129 | } | |
9aa6a5f6 | 130 | |
af5bdd85 | 131 | for(Int_t i = 0; i < rp.fMulTrack; i++) fDETracksList[i] = rp.fDETracksList[i]; |
9aa6a5f6 | 132 | |
133 | for(Int_t i = 0; i < rp.fMulParent; i++) { | |
134 | fParentsList[i] = rp.fParentsList[i]; | |
135 | fDEParentsList[i] = rp.fDEParentsList[i]; | |
136 | } | |
0a4cb131 | 137 | |
138 | } | |
139 | //____________________________________________________________________________ | |
70a93198 | 140 | AliEMCALRecPoint::~AliEMCALRecPoint() |
141 | { | |
142 | // dtor | |
143 | if ( fEnergyList ) | |
144 | delete[] fEnergyList ; | |
85c60a8e | 145 | if ( fTimeList ) |
146 | delete[] fTimeList ; | |
e52475ed | 147 | if ( fAbsIdList ) |
148 | delete[] fAbsIdList ; | |
af5bdd85 | 149 | if ( fDETracksList) |
150 | delete[] fDETracksList; | |
87cdc3be | 151 | if ( fParentsList) |
152 | delete[] fParentsList; | |
af5bdd85 | 153 | if ( fDEParentsList) |
154 | delete[] fDEParentsList; | |
25bb3dcb | 155 | |
9aa6a5f6 | 156 | delete [] fDigitsList ; |
157 | delete [] fTracksList ; | |
158 | } | |
159 | ||
160 | //____________________________________________________________________________ | |
161 | AliEMCALRecPoint& AliEMCALRecPoint::operator= (const AliEMCALRecPoint &rp) | |
162 | { | |
37890aaf | 163 | // assignment operator |
164 | ||
9aa6a5f6 | 165 | if(&rp == this) return *this; |
166 | ||
167 | fGeomPtr = rp.fGeomPtr; | |
168 | fAmp = rp.fAmp; | |
169 | fIndexInList = rp.fIndexInList; | |
25bb3dcb | 170 | fGlobPos = rp.fGlobPos; |
171 | fLocPos = rp.fLocPos; | |
9aa6a5f6 | 172 | fMaxDigit = rp.fMaxDigit; |
173 | fMulDigit = rp.fMulDigit; | |
174 | fMaxTrack = rp.fMaxTrack; | |
175 | fMulTrack = rp.fMaxTrack; | |
176 | for(Int_t i = 0; i<fMaxDigit; i++) fDigitsList[i] = rp.fDigitsList[i]; | |
177 | for(Int_t i = 0; i<fMaxTrack; i++) fTracksList[i] = rp.fTracksList[i]; | |
178 | fClusterType = rp.fClusterType; | |
6ce4e2ed | 179 | fCoreEnergy = rp.fCoreEnergy; |
180 | fDispersion = rp.fDispersion; | |
9aa6a5f6 | 181 | for(Int_t i = 0; i<fMaxDigit; i++) { |
182 | fEnergyList[i] = rp.fEnergyList[i]; | |
6ce4e2ed | 183 | fTimeList[i] = rp.fTimeList[i]; |
184 | fAbsIdList[i] = rp.fAbsIdList[i]; | |
9aa6a5f6 | 185 | } |
186 | fTime = rp.fTime; | |
0561e246 | 187 | fNExMax = rp.fNExMax; |
9aa6a5f6 | 188 | fCoreRadius = rp.fCoreRadius; |
189 | for(Int_t i = 0; i < fMaxTrack; i++) fDETracksList[i] = rp.fDETracksList[i]; | |
190 | fMulParent = rp.fMulParent; | |
191 | fMaxParent = rp.fMaxParent; | |
192 | for(Int_t i = 0; i < fMaxParent; i++) { | |
193 | fParentsList[i] = rp.fParentsList[i]; | |
194 | fDEParentsList[i] = rp.fDEParentsList[i]; | |
195 | } | |
196 | fSuperModuleNumber = rp.fSuperModuleNumber; | |
197 | fDigitIndMax = rp.fDigitIndMax; | |
198 | ||
199 | fLambda[0] = rp.fLambda[0]; | |
200 | fLambda[1] = rp.fLambda[1]; | |
40164976 | 201 | |
202 | fDistToBadTower = rp.fDistToBadTower; | |
25bb3dcb | 203 | fSharedCluster = rp.fSharedCluster; |
40164976 | 204 | |
9aa6a5f6 | 205 | return *this; |
206 | ||
70a93198 | 207 | } |
208 | ||
209 | //____________________________________________________________________________ | |
6ce4e2ed | 210 | void AliEMCALRecPoint::AddDigit(AliEMCALDigit & digit, Float_t energy, Bool_t shared) |
70a93198 | 211 | { |
212 | // Adds a digit to the RecPoint | |
213 | // and accumulates the total amplitude and the multiplicity | |
214 | ||
215 | if(fEnergyList == 0) | |
216 | fEnergyList = new Float_t[fMaxDigit]; | |
85c60a8e | 217 | if(fTimeList == 0) |
218 | fTimeList = new Float_t[fMaxDigit]; | |
e52475ed | 219 | if(fAbsIdList == 0) { |
220 | fAbsIdList = new Int_t[fMaxDigit]; | |
e52475ed | 221 | } |
70a93198 | 222 | |
223 | if ( fMulDigit >= fMaxDigit ) { // increase the size of the lists | |
224 | fMaxDigit*=2 ; | |
6ce4e2ed | 225 | Int_t * tempo = new Int_t[fMaxDigit]; |
226 | Float_t * tempoE = new Float_t[fMaxDigit]; | |
227 | Float_t * tempoT = new Float_t[fMaxDigit]; | |
228 | Int_t * tempoId = new Int_t[fMaxDigit]; | |
70a93198 | 229 | |
230 | Int_t index ; | |
231 | for ( index = 0 ; index < fMulDigit ; index++ ){ | |
e52475ed | 232 | tempo[index] = fDigitsList[index] ; |
233 | tempoE[index] = fEnergyList[index] ; | |
85c60a8e | 234 | tempoT[index] = fTimeList[index] ; |
e52475ed | 235 | tempoId[index] = fAbsIdList[index] ; |
70a93198 | 236 | } |
237 | ||
94478418 | 238 | delete [] fDigitsList ; |
70a93198 | 239 | delete [] fEnergyList ; |
85c60a8e | 240 | delete [] fTimeList ; |
e52475ed | 241 | delete [] fAbsIdList ; |
e52475ed | 242 | |
94478418 | 243 | fDigitsList = tempo; |
244 | fEnergyList = tempoE; | |
6ce4e2ed | 245 | fTimeList = tempoT; |
246 | fAbsIdList = tempoId; | |
70a93198 | 247 | } // if |
248 | ||
249 | fDigitsList[fMulDigit] = digit.GetIndexInList() ; | |
6ce4e2ed | 250 | fEnergyList[fMulDigit] = energy ; |
94478418 | 251 | fTimeList[fMulDigit] = digit.GetTimeR() ; |
e52475ed | 252 | fAbsIdList[fMulDigit] = digit.GetId(); |
70a93198 | 253 | fMulDigit++ ; |
6ce4e2ed | 254 | fAmp += energy ; |
25bb3dcb | 255 | |
256 | if(shared) fSharedCluster = kTRUE; | |
257 | ||
258 | //GCB, May-2010, setting moved to EvalAll method, set the super module number for the largest energy digit position. | |
9aa6a5f6 | 259 | //JLK 10-Oct-2007 this hasn't been filled before because it was in |
260 | //the wrong place in previous versions. | |
261 | //Now we evaluate it only if the supermodulenumber for this recpoint | |
262 | //has not yet been set (or is the 0th one) | |
25bb3dcb | 263 | //if(fSuperModuleNumber == 0) |
264 | //fSuperModuleNumber = fGeomPtr->GetSuperModuleNumber(digit.GetId()); | |
9aa6a5f6 | 265 | |
70a93198 | 266 | } |
267 | //____________________________________________________________________________ | |
268 | Bool_t AliEMCALRecPoint::AreNeighbours(AliEMCALDigit * digit1, AliEMCALDigit * digit2 ) const | |
269 | { | |
270 | // Tells if (true) or not (false) two digits are neighbours | |
271 | // A neighbour is defined as being two digits which share a corner | |
25bb3dcb | 272 | // ONLY USED IN CASE OF UNFOLDING |
273 | ||
47583f1b | 274 | Bool_t areNeighbours = kFALSE ; |
275 | Int_t nSupMod=0, nModule=0, nIphi=0, nIeta=0; | |
276 | Int_t nSupMod1=0, nModule1=0, nIphi1=0, nIeta1=0; | |
277 | Int_t relid1[2] , relid2[2] ; // ieta, iphi | |
278 | Int_t rowdiff=0, coldiff=0; | |
70a93198 | 279 | |
e52475ed | 280 | areNeighbours = kFALSE ; |
281 | ||
2bb3725c | 282 | fGeomPtr->GetCellIndex(digit1->GetId(), nSupMod,nModule,nIphi,nIeta); |
283 | fGeomPtr->GetCellPhiEtaIndexInSModule(nSupMod,nModule,nIphi,nIeta, relid1[0],relid1[1]); | |
e52475ed | 284 | |
2bb3725c | 285 | fGeomPtr->GetCellIndex(digit2->GetId(), nSupMod1,nModule1,nIphi1,nIeta1); |
286 | fGeomPtr->GetCellPhiEtaIndexInSModule(nSupMod1,nModule1,nIphi1,nIeta1, relid2[0],relid2[1]); | |
70a93198 | 287 | |
25bb3dcb | 288 | // In case of a shared cluster, index of SM in C side, columns start at 48 and ends at 48*2-1 |
289 | // C Side impair SM, nSupMod%2=1; A side pair SM nSupMod%2=0 | |
290 | if(fSharedCluster){ | |
291 | if(nSupMod1%2) relid1[1]+=AliEMCALGeoParams::fgkEMCALCols; | |
292 | else relid2[1]+=AliEMCALGeoParams::fgkEMCALCols; | |
293 | } | |
294 | ||
e52475ed | 295 | rowdiff = TMath::Abs( relid1[0] - relid2[0] ) ; |
296 | coldiff = TMath::Abs( relid1[1] - relid2[1] ) ; | |
70a93198 | 297 | |
298 | if (( coldiff <= 1 ) && ( rowdiff <= 1 ) && (coldiff + rowdiff > 0)) | |
e52475ed | 299 | areNeighbours = kTRUE ; |
ab48128d | 300 | |
70a93198 | 301 | return areNeighbours; |
302 | } | |
303 | ||
304 | //____________________________________________________________________________ | |
305 | Int_t AliEMCALRecPoint::Compare(const TObject * obj) const | |
306 | { | |
307 | // Compares two RecPoints according to their position in the EMCAL modules | |
308 | ||
25bb3dcb | 309 | Float_t delta = 1 ; //Width of "Sorting row". |
310 | ||
53e430a3 | 311 | Int_t rv = 2 ; |
70a93198 | 312 | |
313 | AliEMCALRecPoint * clu = (AliEMCALRecPoint *)obj ; | |
314 | ||
315 | TVector3 locpos1; | |
316 | GetLocalPosition(locpos1); | |
317 | TVector3 locpos2; | |
318 | clu->GetLocalPosition(locpos2); | |
319 | ||
9848d950 | 320 | Int_t rowdif = (Int_t)(TMath::Ceil(locpos1.X()/delta)-TMath::Ceil(locpos2.X()/delta)) ; |
70a93198 | 321 | if (rowdif> 0) |
322 | rv = 1 ; | |
323 | else if(rowdif < 0) | |
324 | rv = -1 ; | |
325 | else if(locpos1.Y()>locpos2.Y()) | |
326 | rv = -1 ; | |
327 | else | |
328 | rv = 1 ; | |
329 | ||
330 | return rv ; | |
ab48128d | 331 | } |
332 | ||
25bb3dcb | 333 | // GCB, May-2010, Method not used, just comment it but remove? |
ab48128d | 334 | //____________________________________________________________________________ |
25bb3dcb | 335 | //Int_t AliEMCALRecPoint::DistancetoPrimitive(Int_t px, Int_t py) |
336 | //{ | |
337 | // // Compute distance from point px,py to a AliEMCALRecPoint considered as a Tmarker | |
338 | // // Compute the closest distance of approach from point px,py to this marker. | |
339 | // // The distance is computed in pixels units. | |
340 | // // HG Still need to update -> Not sure what this should achieve | |
341 | // | |
342 | // TVector3 pos(0.,0.,0.) ; | |
343 | // GetLocalPosition(pos) ; | |
344 | // Float_t x = pos.X() ; | |
345 | // Float_t y = pos.Y() ; | |
346 | // const Int_t kMaxDiff = 10; | |
347 | // Int_t pxm = gPad->XtoAbsPixel(x); | |
348 | // Int_t pym = gPad->YtoAbsPixel(y); | |
349 | // Int_t dist = (px-pxm)*(px-pxm) + (py-pym)*(py-pym); | |
350 | // | |
351 | // if (dist > kMaxDiff) return 9999; | |
352 | // return dist; | |
353 | //} | |
ab48128d | 354 | |
355 | //___________________________________________________________________________ | |
356 | void AliEMCALRecPoint::Draw(Option_t *option) | |
357 | { | |
358 | // Draw this AliEMCALRecPoint with its current attributes | |
359 | ||
360 | AppendPad(option); | |
361 | } | |
362 | ||
25bb3dcb | 363 | // GCB, May-2010, Method not used, just comment it but remove? |
ab48128d | 364 | //______________________________________________________________________________ |
25bb3dcb | 365 | //void AliEMCALRecPoint::ExecuteEvent(Int_t /*event*/, Int_t, Int_t) |
366 | //{ | |
367 | // // Execute action corresponding to one event | |
368 | // // This member function is called when a AliEMCALRecPoint is clicked with the locator | |
369 | // // | |
370 | // // If Left button is clicked on AliEMCALRecPoint, the digits are switched on | |
371 | // // and switched off when the mouse button is released. | |
372 | // | |
373 | // // static Int_t pxold, pyold; | |
374 | // | |
375 | // /* static TGraph * digitgraph = 0 ; | |
376 | // static TPaveText* clustertext = 0 ; | |
377 | // | |
378 | // if (!gPad->IsEditable()) return; | |
379 | // | |
380 | // switch (event) { | |
381 | // | |
382 | // | |
383 | // case kButton1Down:{ | |
384 | // AliEMCALDigit * digit ; | |
385 | // | |
386 | // Int_t iDigit; | |
387 | // Int_t relid[2] ; | |
388 | // | |
389 | // const Int_t kMulDigit=AliEMCALRecPoint::GetDigitsMultiplicity() ; | |
390 | // Float_t * xi = new Float_t [kMulDigit] ; | |
391 | // Float_t * zi = new Float_t [kMulDigit] ; | |
392 | // | |
393 | // for(iDigit = 0; iDigit < kMulDigit; iDigit++) { | |
394 | // Fatal("AliEMCALRecPoint::ExecuteEvent", " -> Something wrong with the code"); | |
395 | // digit = 0 ; //dynamic_cast<AliEMCALDigit *>((fDigitsList)[iDigit]); | |
396 | // fGeomPtr->AbsToRelNumbering(digit->GetId(), relid) ; | |
397 | // fGeomPtr->PosInAlice(relid, xi[iDigit], zi[iDigit]) ; | |
398 | // } | |
399 | // | |
400 | // if (!digitgraph) { | |
401 | // digitgraph = new TGraph(fMulDigit,xi,zi); | |
402 | // digitgraph-> SetMarkerStyle(5) ; | |
403 | // digitgraph-> SetMarkerSize(1.) ; | |
404 | // digitgraph-> SetMarkerColor(1) ; | |
405 | // digitgraph-> Draw("P") ; | |
406 | // } | |
407 | // if (!clustertext) { | |
408 | // | |
409 | // TVector3 pos(0.,0.,0.) ; | |
410 | // GetLocalPosition(pos) ; | |
411 | // clustertext = new TPaveText(pos.X()-10,pos.Z()+10,pos.X()+50,pos.Z()+35,"") ; | |
412 | // Text_t line1[40] ; | |
413 | // Text_t line2[40] ; | |
414 | // sprintf(line1,"Energy=%1.2f GeV",GetEnergy()) ; | |
415 | // sprintf(line2,"%d Digits",GetDigitsMultiplicity()) ; | |
416 | // clustertext ->AddText(line1) ; | |
417 | // clustertext ->AddText(line2) ; | |
418 | // clustertext ->Draw(""); | |
419 | // } | |
420 | // gPad->Update() ; | |
421 | // Print("") ; | |
422 | // delete[] xi ; | |
423 | // delete[] zi ; | |
424 | // } | |
425 | // | |
426 | //break; | |
427 | // | |
428 | // case kButton1Up: | |
429 | // if (digitgraph) { | |
430 | // delete digitgraph ; | |
431 | // digitgraph = 0 ; | |
432 | // } | |
433 | // if (clustertext) { | |
434 | // delete clustertext ; | |
435 | // clustertext = 0 ; | |
436 | // } | |
437 | // | |
438 | // break; | |
439 | // | |
440 | // }*/ | |
441 | //} | |
ab48128d | 442 | |
70a93198 | 443 | //____________________________________________________________________________ |
0d0d6b98 | 444 | void AliEMCALRecPoint::EvalAll(Float_t logWeight,TClonesArray * digits, const Bool_t justClusters) |
70a93198 | 445 | { |
25bb3dcb | 446 | // Evaluates cluster parameters |
447 | ||
448 | // First calculate the index of digit with maximum amplitude and get | |
449 | // the supermodule number where it sits. | |
6ce4e2ed | 450 | |
25bb3dcb | 451 | fDigitIndMax = GetMaximalEnergyIndex(); |
452 | fSuperModuleNumber = fGeomPtr->GetSuperModuleNumber(GetAbsIdMaxDigit()); | |
453 | ||
454 | //Evaluate global and local position | |
455 | EvalGlobalPosition(logWeight, digits) ; | |
70a93198 | 456 | EvalLocalPosition(logWeight, digits) ; |
25bb3dcb | 457 | |
458 | //Evaluate shower parameters | |
70a93198 | 459 | EvalElipsAxis(logWeight, digits) ; |
460 | EvalDispersion(logWeight, digits) ; | |
25bb3dcb | 461 | |
4635df1f | 462 | //EvalCoreEnergy(logWeight, digits); |
70a93198 | 463 | EvalTime(digits) ; |
87cdc3be | 464 | EvalPrimaries(digits) ; |
465 | EvalParents(digits); | |
40164976 | 466 | |
9aa6a5f6 | 467 | //Called last because it sets the global position of the cluster? |
0d0d6b98 | 468 | //Do not call it when recalculating clusters out of standard reconstruction |
92d9f317 | 469 | if(!justClusters){ |
92d9f317 | 470 | EvalLocal2TrackingCSTransform(); |
471 | } | |
9aa6a5f6 | 472 | |
70a93198 | 473 | } |
474 | ||
475 | //____________________________________________________________________________ | |
476 | void AliEMCALRecPoint::EvalDispersion(Float_t logWeight, TClonesArray * digits) | |
477 | { | |
478 | // Calculates the dispersion of the shower at the origin of the RecPoint | |
1d46d1f6 | 479 | // in cell units - Nov 16,2006 |
70a93198 | 480 | |
1d46d1f6 | 481 | Double_t d = 0., wtot = 0., w = 0.; |
af5bdd85 | 482 | Int_t iDigit=0, nstat=0; |
53e430a3 | 483 | AliEMCALDigit * digit=0; |
25bb3dcb | 484 | |
1d46d1f6 | 485 | // Calculates the dispersion in cell units |
486 | Double_t etai, phii, etaMean=0.0, phiMean=0.0; | |
2bb3725c | 487 | int nSupMod=0, nModule=0, nIphi=0, nIeta=0; |
1d46d1f6 | 488 | int iphi=0, ieta=0; |
489 | // Calculate mean values | |
70a93198 | 490 | for(iDigit=0; iDigit < fMulDigit; iDigit++) { |
491 | digit = (AliEMCALDigit *) digits->At(fDigitsList[iDigit]) ; | |
1963b290 | 492 | |
1d46d1f6 | 493 | if (fAmp>0 && fEnergyList[iDigit]>0) { |
2bb3725c | 494 | fGeomPtr->GetCellIndex(digit->GetId(), nSupMod,nModule,nIphi,nIeta); |
495 | fGeomPtr->GetCellPhiEtaIndexInSModule(nSupMod,nModule,nIphi,nIeta, iphi,ieta); | |
25bb3dcb | 496 | |
497 | // In case of a shared cluster, index of SM in C side, columns start at 48 and ends at 48*2 | |
498 | // C Side impair SM, nSupMod%2=1; A side pair SM nSupMod%2=0 | |
499 | if(fSharedCluster && nSupMod%2) ieta+=AliEMCALGeoParams::fgkEMCALCols; | |
500 | ||
1d46d1f6 | 501 | etai=(Double_t)ieta; |
502 | phii=(Double_t)iphi; | |
503 | w = TMath::Max(0.,logWeight+TMath::Log(fEnergyList[iDigit]/fAmp ) ) ; | |
504 | ||
505 | if(w>0.0) { | |
506 | phiMean += phii*w; | |
507 | etaMean += etai*w; | |
508 | wtot += w; | |
509 | } | |
510 | } | |
511 | } | |
512 | if (wtot>0) { | |
513 | phiMean /= wtot ; | |
514 | etaMean /= wtot ; | |
515 | } else AliError(Form("Wrong weight %f\n", wtot)); | |
70a93198 | 516 | |
1d46d1f6 | 517 | // Calculate dispersion |
518 | for(iDigit=0; iDigit < fMulDigit; iDigit++) { | |
519 | digit = (AliEMCALDigit *) digits->At(fDigitsList[iDigit]) ; | |
520 | ||
521 | if (fAmp>0 && fEnergyList[iDigit]>0) { | |
2bb3725c | 522 | fGeomPtr->GetCellIndex(digit->GetId(), nSupMod,nModule,nIphi,nIeta); |
523 | fGeomPtr->GetCellPhiEtaIndexInSModule(nSupMod,nModule,nIphi,nIeta, iphi,ieta); | |
25bb3dcb | 524 | |
525 | // In case of a shared cluster, index of SM in C side, columns start at 48 and ends at 48*2 | |
526 | // C Side impair SM, nSupMod%2=1; A side pair SM, nSupMod%2=0 | |
527 | if(fSharedCluster && nSupMod%2) ieta+=AliEMCALGeoParams::fgkEMCALCols; | |
528 | ||
1d46d1f6 | 529 | etai=(Double_t)ieta; |
530 | phii=(Double_t)iphi; | |
531 | w = TMath::Max(0.,logWeight+TMath::Log(fEnergyList[iDigit]/fAmp ) ) ; | |
532 | ||
533 | if(w>0.0) { | |
534 | nstat++; | |
535 | d += w*((etai-etaMean)*(etai-etaMean)+(phii-phiMean)*(phii-phiMean)); | |
e52475ed | 536 | } |
537 | } | |
ab48128d | 538 | } |
70a93198 | 539 | |
e52475ed | 540 | if ( wtot > 0 && nstat>1) d /= wtot ; |
541 | else d = 0. ; | |
70a93198 | 542 | |
543 | fDispersion = TMath::Sqrt(d) ; | |
25bb3dcb | 544 | //printf("AliEMCALRecPoint::EvalDispersion() : Dispersion %f \n",fDispersion); |
ab48128d | 545 | } |
70a93198 | 546 | |
40164976 | 547 | //____________________________________________________________________________ |
548 | void AliEMCALRecPoint::EvalDistanceToBadChannels(AliCaloCalibPedestal* caloped) | |
549 | { | |
73a654fc | 550 | //For each EMC rec. point set the distance to the nearest bad channel. |
551 | //AliInfo(Form("%d bad channel(s) found.\n", caloped->GetDeadTowerCount())); | |
2ebdefe6 | 552 | //It is done in cell units and not in global or local position as before (Sept 2010) |
73a654fc | 553 | |
554 | if(!caloped->GetDeadTowerCount()) return; | |
555 | ||
556 | //Get channels map of the supermodule where the cluster is. | |
557 | TH2D* hMap = caloped->GetDeadMap(fSuperModuleNumber); | |
558 | ||
2ebdefe6 | 559 | Int_t dRrow, dReta; |
73a654fc | 560 | Float_t minDist = 10000.; |
561 | Float_t dist = 0.; | |
2ebdefe6 | 562 | Int_t nSupMod, nModule; |
563 | Int_t nIphi, nIeta; | |
564 | Int_t iphi, ieta; | |
565 | fDigitIndMax = GetMaximalEnergyIndex(); | |
566 | fGeomPtr->GetCellIndex(fAbsIdList[fDigitIndMax], nSupMod,nModule,nIphi,nIeta); | |
567 | fGeomPtr->GetCellPhiEtaIndexInSModule(nSupMod,nModule,nIphi,nIeta, iphi,ieta); | |
568 | ||
569 | // TVector3 dR; | |
570 | // TVector3 cellpos; | |
571 | // Float_t minDist = 100000; | |
572 | // Float_t dist = 0; | |
573 | // Int_t absId = -1; | |
574 | ||
575 | //Loop on tower status map | |
73a654fc | 576 | for(Int_t irow = 0; irow < AliEMCALGeoParams::fgkEMCALRows; irow++){ |
577 | for(Int_t icol = 0; icol < AliEMCALGeoParams::fgkEMCALCols; icol++){ | |
578 | //Check if tower is bad. | |
579 | if(hMap->GetBinContent(icol,irow)==AliCaloCalibPedestal::kAlive) continue; | |
2ebdefe6 | 580 | //printf("AliEMCALRecPoint::EvalDistanceToBadChannels() - Bad channel in SM %d, col %d, row %d\n",iSM,icol, irow); |
73a654fc | 581 | |
2ebdefe6 | 582 | dRrow=TMath::Abs(irow-iphi); |
583 | dReta=TMath::Abs(icol-ieta); | |
584 | dist=TMath::Sqrt(dRrow*dRrow+dReta*dReta); | |
73a654fc | 585 | if(dist < minDist) minDist = dist; |
2ebdefe6 | 586 | |
587 | // //Tower is bad, get the absId of the index. | |
588 | // absId = fGeomPtr->GetAbsCellIdFromCellIndexes(fSuperModuleNumber, irow, icol); | |
589 | // | |
590 | // //Get the position of this tower. | |
591 | // | |
592 | // //Calculate the distance in local coordinates | |
593 | // //fGeomPtr->RelPosCellInSModule(absId,cellpos); | |
594 | // //Calculate distance between this tower and cluster, set if is smaller than previous. | |
595 | // //dR = cellpos-fLocPos; | |
596 | // | |
597 | // //Calculate the distance in global coordinates | |
598 | // fGeomPtr->GetGlobal(absId,cellpos); | |
599 | // //Calculate distance between this tower and cluster, set if it is smaller than previous. | |
600 | // dR = cellpos-fGlobPos; | |
601 | // | |
602 | // dist = dR.Mag(); | |
603 | // if(dist < minDist) minDist = dist; | |
604 | ||
73a654fc | 605 | } |
606 | } | |
2ebdefe6 | 607 | |
73a654fc | 608 | //In case the cluster is shared by 2 SuperModules, need to check the map of the second Super Module |
609 | if (fSharedCluster) { | |
610 | TH2D* hMap2 = 0; | |
611 | Int_t nSupMod2 = -1; | |
2ebdefe6 | 612 | |
73a654fc | 613 | //The only possible combinations are (0,1), (2,3) ... (10,11) |
614 | if(fSuperModuleNumber%2) nSupMod2 = fSuperModuleNumber-1; | |
615 | else nSupMod2 = fSuperModuleNumber+1; | |
616 | hMap2 = caloped->GetDeadMap(nSupMod2); | |
617 | ||
618 | //Loop on tower status map of second super module | |
619 | for(Int_t irow = 0; irow < AliEMCALGeoParams::fgkEMCALRows; irow++){ | |
620 | for(Int_t icol = 0; icol < AliEMCALGeoParams::fgkEMCALCols; icol++){ | |
621 | //Check if tower is bad. | |
622 | if(hMap2->GetBinContent(icol,irow)==AliCaloCalibPedestal::kAlive) continue; | |
623 | //printf("AliEMCALRecPoint::EvalDistanceToBadChannels() - Bad channel in SM %d, col %d, row %d\n",iSM,icol, irow); | |
2ebdefe6 | 624 | dRrow=TMath::Abs(irow-iphi); |
73a654fc | 625 | |
2ebdefe6 | 626 | if(fSuperModuleNumber%2) { |
73a654fc | 627 | dReta=TMath::Abs(icol-(AliEMCALGeoParams::fgkEMCALCols+ieta)); |
628 | } | |
629 | else { | |
630 | dReta=TMath::Abs(AliEMCALGeoParams::fgkEMCALCols+icol-ieta); | |
631 | } | |
2ebdefe6 | 632 | |
73a654fc | 633 | dist=TMath::Sqrt(dRrow*dRrow+dReta*dReta); |
2ebdefe6 | 634 | if(dist < minDist) minDist = dist; |
635 | ||
636 | // | |
637 | // //Tower is bad, get the absId of the index. | |
638 | // absId = fGeomPtr->GetAbsCellIdFromCellIndexes(nSupMod2, irow, icol); | |
639 | // | |
640 | // //Get the position of this tower. | |
641 | // | |
642 | // //Calculate the distance in global coordinates | |
643 | // fGeomPtr->GetGlobal(absId,cellpos); | |
644 | // //Calculate distance between this tower and cluster, set if it is smaller than previous. | |
645 | // dR = cellpos-fGlobPos; | |
646 | // | |
647 | // dist = dR.Mag(); | |
648 | // if(dist < minDist) minDist = dist; | |
73a654fc | 649 | } |
650 | } | |
651 | ||
652 | }// shared cluster in 2 SuperModules | |
653 | ||
654 | fDistToBadTower = minDist; | |
655 | //printf("AliEMCALRecPoint::EvalDistanceToBadChannel() - Distance to Bad is %f cm, shared cluster? %d \n",fDistToBadTower,fSharedCluster); | |
40164976 | 656 | } |
657 | ||
658 | ||
ab48128d | 659 | //____________________________________________________________________________ |
70a93198 | 660 | void AliEMCALRecPoint::EvalLocalPosition(Float_t logWeight, TClonesArray * digits) |
88cb7938 | 661 | { |
73a654fc | 662 | // Calculates the center of gravity in the local EMCAL-module coordinates |
663 | // Info("Print", " logWeight %f : cluster energy %f ", logWeight, fAmp); // for testing | |
664 | ||
665 | AliEMCALDigit * digit=0; | |
666 | Int_t i=0, nstat=0; | |
667 | ||
668 | Double_t dist = TmaxInCm(Double_t(fAmp)); | |
669 | //Int_t idMax = GetAbsIdMaxDigit();// idMax is not used at all in RelPosCellInSModule, why use it? | |
670 | ||
671 | Double_t clXYZ[3]={0.,0.,0.}, clRmsXYZ[3]={0.,0.,0.}, xyzi[3], wtot=0., w=0.; | |
672 | ||
673 | //printf(" dist : %f e : %f \n", dist, fAmp); | |
674 | for(Int_t iDigit=0; iDigit<fMulDigit; iDigit++) { | |
675 | digit = dynamic_cast<AliEMCALDigit *>(digits->At(fDigitsList[iDigit])) ; | |
676 | ||
2ebdefe6 | 677 | if(!digit) { |
678 | AliError("No Digit!!"); | |
679 | continue; | |
680 | } | |
681 | ||
73a654fc | 682 | //fGeomPtr->RelPosCellInSModule(digit->GetId(), idMax, dist, xyzi[0], xyzi[1], xyzi[2]); |
683 | fGeomPtr->RelPosCellInSModule(digit->GetId(), dist, xyzi[0], xyzi[1], xyzi[2]); | |
684 | ||
685 | //Temporal patch, due to mapping problem, need to swap "y" in one of the 2 SM, although no effect in position calculation. GCB 05/2010 | |
686 | if(fSharedCluster && fSuperModuleNumber != fGeomPtr->GetSuperModuleNumber(digit->GetId())) xyzi[1]*=-1; | |
687 | ||
688 | //printf("EvalLocalPosition Cell: Id %i, SM %i : dist %f Local x,y,z %f %f %f \n", | |
689 | // digit->GetId(), fGeomPtr->GetSuperModuleNumber(digit->GetId()), dist, xyzi[0], xyzi[1], xyzi[2]); | |
690 | ||
691 | if(logWeight > 0.0) w = TMath::Max( 0., logWeight + TMath::Log( fEnergyList[iDigit] / fAmp )); | |
692 | else w = fEnergyList[iDigit]; // just energy | |
693 | ||
694 | if(w>0.0) { | |
695 | wtot += w ; | |
696 | nstat++; | |
697 | for(i=0; i<3; i++ ) { | |
698 | clXYZ[i] += (w*xyzi[i]); | |
699 | clRmsXYZ[i] += (w*xyzi[i]*xyzi[i]); | |
700 | } | |
701 | } | |
702 | } | |
703 | // cout << " wtot " << wtot << endl; | |
704 | if ( wtot > 0 ) { | |
705 | // xRMS = TMath::Sqrt(x2m - xMean*xMean); | |
706 | for(i=0; i<3; i++ ) { | |
707 | clXYZ[i] /= wtot; | |
708 | if(nstat>1) { | |
709 | clRmsXYZ[i] /= (wtot*wtot); | |
710 | clRmsXYZ[i] = clRmsXYZ[i] - clXYZ[i]*clXYZ[i]; | |
711 | if(clRmsXYZ[i] > 0.0) { | |
712 | clRmsXYZ[i] = TMath::Sqrt(clRmsXYZ[i]); | |
713 | } else clRmsXYZ[i] = 0; | |
714 | } else clRmsXYZ[i] = 0; | |
715 | } | |
716 | } else { | |
717 | for(i=0; i<3; i++ ) { | |
718 | clXYZ[i] = clRmsXYZ[i] = -1.; | |
719 | } | |
720 | } | |
721 | // clRmsXYZ[i] ?? | |
722 | ||
723 | // // Cluster of one single digit, smear the position to avoid discrete position | |
724 | // // smear x and z with +- 3 cm to uniform (avoid discrete effects). Tower size is approx 6 cm. | |
725 | // // Rndm generates a number in ]0,1] | |
726 | // if (fMulDigit==1) { | |
727 | // clXYZ[0] += fGeomPtr->GetPhiTileSize()*(0.5 - gRandom->Rndm()); | |
728 | // clXYZ[2] += fGeomPtr->GetEtaTileSize()*(0.5 - gRandom->Rndm()); | |
729 | // } | |
730 | ||
731 | //Set position in local vector | |
732 | fLocPos.SetX(clXYZ[0]); | |
733 | fLocPos.SetY(clXYZ[1]); | |
734 | fLocPos.SetZ(clXYZ[2]); | |
735 | ||
736 | if (gDebug==2) | |
737 | printf("EvalLocalPosition Cluster: Local (x,y,z) = (%f,%f,%f) \n", fLocPos.X(), fLocPos.Y(), fLocPos.Z()) ; | |
738 | ||
25bb3dcb | 739 | } |
740 | ||
741 | ||
742 | //____________________________________________________________________________ | |
743 | void AliEMCALRecPoint::EvalGlobalPosition(Float_t logWeight, TClonesArray * digits) | |
744 | { | |
745 | // Calculates the center of gravity in the global ALICE coordinates | |
e52475ed | 746 | // Info("Print", " logWeight %f : cluster energy %f ", logWeight, fAmp); // for testing |
70a93198 | 747 | |
53e430a3 | 748 | AliEMCALDigit * digit=0; |
25bb3dcb | 749 | Int_t i=0, nstat=0; |
750 | ||
47583f1b | 751 | Double_t dist = TmaxInCm(Double_t(fAmp)); |
25bb3dcb | 752 | //Int_t idMax = GetAbsIdMaxDigit();// idMax is not used at all in RelPosCellInSModule, why use it? |
753 | ||
754 | Double_t clXYZ[3]={0.,0.,0.}, clRmsXYZ[3]={0.,0.,0.}, lxyzi[3], xyzi[3], wtot=0., w=0.; | |
70a93198 | 755 | |
1ae500a2 | 756 | //printf(" dist : %f e : %f \n", dist, fAmp); |
e52475ed | 757 | for(Int_t iDigit=0; iDigit<fMulDigit; iDigit++) { |
70a93198 | 758 | digit = dynamic_cast<AliEMCALDigit *>(digits->At(fDigitsList[iDigit])) ; |
e52475ed | 759 | |
2ebdefe6 | 760 | if(!digit) { |
761 | AliError("No Digit!!"); | |
762 | continue; | |
763 | } | |
764 | ||
25bb3dcb | 765 | //Get the local coordinates of the cell |
766 | //fGeomPtr->RelPosCellInSModule(digit->GetId(), idMax, dist, lxyzi[0], lxyzi[1], lxyzi[2]); | |
767 | fGeomPtr->RelPosCellInSModule(digit->GetId(), dist, lxyzi[0], lxyzi[1], lxyzi[2]); | |
768 | ||
769 | //Now get the global coordinate | |
770 | fGeomPtr->GetGlobal(lxyzi,xyzi, fGeomPtr->GetSuperModuleNumber(digit->GetId())); | |
771 | //TVector3 pos(xyzi[0], xyzi[1], xyzi[2]); | |
772 | //printf("EvalGlobalPosition Cell: Id %i, SM %i : dist %f Local (x,y,z) = (%f %f %f), eta %f, phi%f \n", | |
773 | // digit->GetId(), fGeomPtr->GetSuperModuleNumber(digit->GetId()),dist, xyzi[0], xyzi[1], xyzi[2],pos.Eta(),pos.Phi()*TMath::RadToDeg()); | |
774 | ||
af5bdd85 | 775 | if(logWeight > 0.0) w = TMath::Max( 0., logWeight + TMath::Log( fEnergyList[iDigit] / fAmp )); |
776 | else w = fEnergyList[iDigit]; // just energy | |
ab48128d | 777 | |
e52475ed | 778 | if(w>0.0) { |
779 | wtot += w ; | |
780 | nstat++; | |
781 | for(i=0; i<3; i++ ) { | |
782 | clXYZ[i] += (w*xyzi[i]); | |
783 | clRmsXYZ[i] += (w*xyzi[i]*xyzi[i]); | |
784 | } | |
785 | } | |
786 | } | |
787 | // cout << " wtot " << wtot << endl; | |
70a93198 | 788 | if ( wtot > 0 ) { |
e52475ed | 789 | // xRMS = TMath::Sqrt(x2m - xMean*xMean); |
790 | for(i=0; i<3; i++ ) { | |
791 | clXYZ[i] /= wtot; | |
792 | if(nstat>1) { | |
793 | clRmsXYZ[i] /= (wtot*wtot); | |
794 | clRmsXYZ[i] = clRmsXYZ[i] - clXYZ[i]*clXYZ[i]; | |
795 | if(clRmsXYZ[i] > 0.0) { | |
796 | clRmsXYZ[i] = TMath::Sqrt(clRmsXYZ[i]); | |
797 | } else clRmsXYZ[i] = 0; | |
798 | } else clRmsXYZ[i] = 0; | |
799 | } | |
70a93198 | 800 | } else { |
e52475ed | 801 | for(i=0; i<3; i++ ) { |
802 | clXYZ[i] = clRmsXYZ[i] = -1.; | |
803 | } | |
70a93198 | 804 | } |
e52475ed | 805 | // clRmsXYZ[i] ?? |
25bb3dcb | 806 | |
807 | // // Cluster of one single digit, smear the position to avoid discrete position | |
808 | // // smear x and z with +- 3 cm to uniform (avoid discrete effects). Tower size is approx 6 cm. | |
809 | // // Rndm generates a number in ]0,1] | |
810 | // if (fMulDigit==1) { | |
811 | // clXYZ[0] += fGeomPtr->GetPhiTileSize()*(0.5 - gRandom->Rndm()); | |
812 | // clXYZ[2] += fGeomPtr->GetEtaTileSize()*(0.5 - gRandom->Rndm()); | |
813 | // } | |
814 | ||
815 | //Set position in global vector | |
816 | fGlobPos.SetX(clXYZ[0]); | |
817 | fGlobPos.SetY(clXYZ[1]); | |
818 | fGlobPos.SetZ(clXYZ[2]); | |
819 | ||
820 | if (gDebug==2) | |
821 | printf("EvalGlobalPosition Cluster: (x ,y ,z) = (%f,%f,%f), eta %f,phi %f\n", | |
822 | fGlobPos.X(), fGlobPos.Y(), fGlobPos.Z(),fGlobPos.Eta(),fGlobPos.Phi()*TMath::RadToDeg()) ; | |
ab48128d | 823 | } |
824 | ||
1ae500a2 | 825 | //____________________________________________________________________________ |
826 | void AliEMCALRecPoint::EvalLocalPositionFit(Double_t deff, Double_t logWeight, | |
827 | Double_t phiSlope, TClonesArray * digits) | |
828 | { | |
47583f1b | 829 | // Evaluates local position of clusters in SM |
830 | ||
831 | Double_t ycorr=0; | |
832 | AliEMCALDigit *digit=0; | |
25bb3dcb | 833 | Int_t i=0, nstat=0; |
1ae500a2 | 834 | Double_t clXYZ[3]={0.,0.,0.}, clRmsXYZ[3]={0.,0.,0.}, xyzi[3], wtot=0., w=0.; |
835 | ||
47583f1b | 836 | Double_t dist = TmaxInCm(Double_t(fAmp)); |
25bb3dcb | 837 | //Int_t idMax = GetAbsIdMaxDigit();// idMax is not used at all in RelPosCellInSModule, why use it? |
838 | ||
1ae500a2 | 839 | for(Int_t iDigit=0; iDigit<digits->GetEntries(); iDigit++) { |
840 | digit = dynamic_cast<AliEMCALDigit *>(digits->At(fDigitsList[iDigit])) ; | |
a51e676d | 841 | if(digit){ |
842 | dist = deff; | |
843 | //fGeomPtr->RelPosCellInSModule(digit->GetId(), idMax, dist, xyzi[0], xyzi[1], xyzi[2]); | |
844 | fGeomPtr->RelPosCellInSModule(digit->GetId(), dist, xyzi[0], xyzi[1], xyzi[2]); | |
845 | ||
846 | if(logWeight > 0.0) w = TMath::Max( 0., logWeight + TMath::Log( fEnergyList[iDigit] / fAmp )); | |
847 | else w = fEnergyList[iDigit]; // just energy | |
848 | ||
849 | if(w>0.0) { | |
850 | wtot += w ; | |
851 | nstat++; | |
852 | for(i=0; i<3; i++ ) { | |
853 | clXYZ[i] += (w*xyzi[i]); | |
854 | clRmsXYZ[i] += (w*xyzi[i]*xyzi[i]); | |
855 | } | |
1ae500a2 | 856 | } |
a51e676d | 857 | }else AliError("Digit null"); |
858 | }//loop | |
1ae500a2 | 859 | // cout << " wtot " << wtot << endl; |
860 | if ( wtot > 0 ) { | |
861 | // xRMS = TMath::Sqrt(x2m - xMean*xMean); | |
862 | for(i=0; i<3; i++ ) { | |
863 | clXYZ[i] /= wtot; | |
864 | if(nstat>1) { | |
865 | clRmsXYZ[i] /= (wtot*wtot); | |
866 | clRmsXYZ[i] = clRmsXYZ[i] - clXYZ[i]*clXYZ[i]; | |
867 | if(clRmsXYZ[i] > 0.0) { | |
868 | clRmsXYZ[i] = TMath::Sqrt(clRmsXYZ[i]); | |
869 | } else clRmsXYZ[i] = 0; | |
870 | } else clRmsXYZ[i] = 0; | |
871 | } | |
872 | } else { | |
873 | for(i=0; i<3; i++ ) { | |
874 | clXYZ[i] = clRmsXYZ[i] = -1.; | |
875 | } | |
876 | } | |
877 | // clRmsXYZ[i] ?? | |
878 | if(phiSlope != 0.0 && logWeight > 0.0 && wtot) { | |
879 | // Correction in phi direction (y - coords here); Aug 16; | |
880 | // May be put to global level or seperate method | |
881 | ycorr = clXYZ[1] * (1. + phiSlope); | |
882 | //printf(" y %f : ycorr %f : slope %f \n", clXYZ[1], ycorr, phiSlope); | |
883 | clXYZ[1] = ycorr; | |
884 | } | |
25bb3dcb | 885 | |
1ae500a2 | 886 | fLocPos.SetX(clXYZ[0]); |
887 | fLocPos.SetY(clXYZ[1]); | |
888 | fLocPos.SetZ(clXYZ[2]); | |
889 | ||
890 | // if (gDebug==2) | |
891 | // printf("EvalLocalPosition: eta,phi,r = %f,%f,%f", fLocPos.X(), fLocPos.Y(), fLocPos.Z()) ; | |
1ae500a2 | 892 | } |
893 | ||
9aa6a5f6 | 894 | //_____________________________________________________________________________ |
1ae500a2 | 895 | Bool_t AliEMCALRecPoint::EvalLocalPosition2(TClonesArray * digits, TArrayD &ed) |
896 | { | |
897 | // Evaluated local position of rec.point using digits | |
898 | // and parametrisation of w0 and deff | |
899 | //printf(" <I> AliEMCALRecPoint::EvalLocalPosition2() \n"); | |
900 | return AliEMCALRecPoint::EvalLocalPositionFromDigits(digits, ed, fLocPos); | |
901 | } | |
902 | ||
9aa6a5f6 | 903 | //_____________________________________________________________________________ |
1ae500a2 | 904 | Bool_t AliEMCALRecPoint::EvalLocalPositionFromDigits(TClonesArray *digits, TArrayD &ed, TVector3 &locPos) |
905 | { | |
906 | // Used when digits should be recalibrated | |
47583f1b | 907 | Double_t deff=0, w0=0, esum=0; |
908 | Int_t iDigit=0; | |
909 | // AliEMCALDigit *digit; | |
1ae500a2 | 910 | |
911 | if(ed.GetSize() && (digits->GetEntries()!=ed.GetSize())) return kFALSE; | |
912 | ||
913 | // Calculate sum energy of digits | |
914 | esum = 0.0; | |
915 | for(iDigit=0; iDigit<ed.GetSize(); iDigit++) esum += ed[iDigit]; | |
916 | ||
917 | GetDeffW0(esum, deff, w0); | |
918 | ||
919 | return EvalLocalPositionFromDigits(esum, deff, w0, digits, ed, locPos); | |
920 | } | |
921 | ||
9aa6a5f6 | 922 | //_____________________________________________________________________________ |
923 | Bool_t AliEMCALRecPoint::EvalLocalPositionFromDigits(const Double_t esum, const Double_t deff, const Double_t w0, TClonesArray *digits, TArrayD &ed, TVector3 &locPos) | |
1ae500a2 | 924 | { |
40164976 | 925 | //Evaluate position of digits in supermodule. |
47583f1b | 926 | AliEMCALDigit *digit=0; |
1ae500a2 | 927 | |
25bb3dcb | 928 | Int_t i=0, nstat=0; |
1ae500a2 | 929 | Double_t clXYZ[3]={0.,0.,0.}, xyzi[3], wtot=0., w=0.; |
25bb3dcb | 930 | //Int_t idMax = GetAbsIdMaxDigit();// idMax is not used at all in RelPosCellInSModule, why use it? |
931 | ||
9aa6a5f6 | 932 | // Get pointer to EMCAL geometry |
933 | // (can't use fGeomPtr in static method) | |
934 | AliEMCALGeometry* geo = AliEMCALGeometry::GetInstance(); | |
935 | ||
1ae500a2 | 936 | for(Int_t iDigit=0; iDigit<digits->GetEntries(); iDigit++) { |
937 | digit = dynamic_cast<AliEMCALDigit *>(digits->At(iDigit)); | |
a51e676d | 938 | if(digit){ |
939 | //geo->RelPosCellInSModule(digit->GetId(), idMax, deff, xyzi[0], xyzi[1], xyzi[2]); | |
940 | geo->RelPosCellInSModule(digit->GetId(), deff, xyzi[0], xyzi[1], xyzi[2]); | |
941 | ||
942 | if(w0 > 0.0) w = TMath::Max( 0., w0 + TMath::Log(ed[iDigit] / esum)); | |
943 | else w = ed[iDigit]; // just energy | |
944 | ||
945 | if(w>0.0) { | |
946 | wtot += w ; | |
947 | nstat++; | |
948 | for(i=0; i<3; i++ ) { | |
949 | clXYZ[i] += (w*xyzi[i]); | |
950 | } | |
1ae500a2 | 951 | } |
a51e676d | 952 | }else AliError("Digit null"); |
953 | }//loop | |
1ae500a2 | 954 | // cout << " wtot " << wtot << endl; |
955 | if (wtot > 0) { | |
956 | for(i=0; i<3; i++ ) { | |
957 | clXYZ[i] /= wtot; | |
958 | } | |
959 | locPos.SetX(clXYZ[0]); | |
960 | locPos.SetY(clXYZ[1]); | |
961 | locPos.SetZ(clXYZ[2]); | |
962 | return kTRUE; | |
963 | } else { | |
964 | return kFALSE; | |
965 | } | |
966 | ||
967 | } | |
968 | ||
9aa6a5f6 | 969 | //_____________________________________________________________________________ |
1ae500a2 | 970 | void AliEMCALRecPoint::GetDeffW0(const Double_t esum , Double_t &deff, Double_t &w0) |
971 | { | |
972 | // | |
973 | // Aug 31, 2001 | |
974 | // Applied for simulation data with threshold 3 adc | |
975 | // Calculate efective distance (deff) and weigh parameter (w0) | |
976 | // for coordinate calculation; 0.5 GeV < esum <100 GeV. | |
977 | // Look to: http://rhic.physics.wayne.edu/~pavlinov/ALICE/SHISHKEBAB/RES/CALIB/GEOMCORR/deffandW0VaEgamma_2.gif | |
978 | // | |
47583f1b | 979 | Double_t e=0.0; |
37890aaf | 980 | const Double_t kdp0=9.25147, kdp1=1.16700; // Hard coded now |
981 | const Double_t kwp0=4.83713, kwp1=-2.77970e-01, kwp2 = 4.41116; | |
1ae500a2 | 982 | |
983 | // No extrapolation here | |
984 | e = esum<0.5?0.5:esum; | |
985 | e = e>100.?100.:e; | |
986 | ||
37890aaf | 987 | deff = kdp0 + kdp1*TMath::Log(e); |
988 | w0 = kwp0 / (1. + TMath::Exp(kwp1*(e+kwp2))); | |
1ae500a2 | 989 | //printf("<I> AliEMCALRecPoint::GetDeffW0 esum %5.2f : deff %5.2f : w0 %5.2f \n", esum, deff, w0); |
990 | } | |
e52475ed | 991 | |
70a93198 | 992 | //______________________________________________________________________________ |
993 | void AliEMCALRecPoint::EvalCoreEnergy(Float_t logWeight, TClonesArray * digits) | |
994 | { | |
995 | // This function calculates energy in the core, | |
4635df1f | 996 | // i.e. within a radius rad = fCoreEnergy around the center. Beyond this radius |
70a93198 | 997 | // in accordance with shower profile the energy deposition |
998 | // should be less than 2% | |
1d46d1f6 | 999 | // Unfinished - Nov 15,2006 |
1000 | // Distance is calculate in (phi,eta) units | |
70a93198 | 1001 | |
53e430a3 | 1002 | AliEMCALDigit * digit = 0 ; |
5dee926e | 1003 | |
53e430a3 | 1004 | Int_t iDigit=0; |
70a93198 | 1005 | |
e52475ed | 1006 | if (!fLocPos.Mag()) { |
70a93198 | 1007 | EvalLocalPosition(logWeight, digits); |
1008 | } | |
1009 | ||
1d46d1f6 | 1010 | Double_t phiPoint = fLocPos.Phi(), etaPoint = fLocPos.Eta(); |
1011 | Double_t eta, phi, distance; | |
70a93198 | 1012 | for(iDigit=0; iDigit < fMulDigit; iDigit++) { |
1013 | digit = (AliEMCALDigit *) ( digits->At(fDigitsList[iDigit]) ) ; | |
4635df1f | 1014 | |
1d46d1f6 | 1015 | eta = phi = 0.0; |
1016 | fGeomPtr->EtaPhiFromIndex(digit->GetId(),eta, phi) ; | |
1017 | phi = phi * TMath::DegToRad(); | |
70a93198 | 1018 | |
1d46d1f6 | 1019 | distance = TMath::Sqrt((eta-etaPoint)*(eta-etaPoint)+(phi-phiPoint)*(phi-phiPoint)); |
70a93198 | 1020 | if(distance < fCoreRadius) |
1021 | fCoreEnergy += fEnergyList[iDigit] ; | |
1022 | } | |
1023 | ||
1024 | } | |
ab48128d | 1025 | //____________________________________________________________________________ |
70a93198 | 1026 | void AliEMCALRecPoint::EvalElipsAxis(Float_t logWeight,TClonesArray * digits) |
ab48128d | 1027 | { |
70a93198 | 1028 | // Calculates the axis of the shower ellipsoid in eta and phi |
1d46d1f6 | 1029 | // in cell units |
ab48128d | 1030 | |
47583f1b | 1031 | TString gn(fGeomPtr->GetName()); |
1d46d1f6 | 1032 | |
1033 | Double_t wtot = 0.; | |
70a93198 | 1034 | Double_t x = 0.; |
1035 | Double_t z = 0.; | |
1036 | Double_t dxx = 0.; | |
1037 | Double_t dzz = 0.; | |
1038 | Double_t dxz = 0.; | |
ab48128d | 1039 | |
1d46d1f6 | 1040 | AliEMCALDigit * digit = 0; |
25bb3dcb | 1041 | |
53e430a3 | 1042 | Double_t etai =0, phii=0, w=0; |
2bb3725c | 1043 | int nSupMod=0, nModule=0, nIphi=0, nIeta=0; |
1d46d1f6 | 1044 | int iphi=0, ieta=0; |
1045 | for(Int_t iDigit=0; iDigit<fMulDigit; iDigit++) { | |
70a93198 | 1046 | digit = (AliEMCALDigit *) digits->At(fDigitsList[iDigit]) ; |
1d46d1f6 | 1047 | etai = phii = 0.; |
1d46d1f6 | 1048 | // Nov 15,2006 - use cell numbers as coordinates |
1049 | // Copied for shish-kebab geometry, ieta,iphi is cast as double as eta,phi | |
1050 | // We can use the eta,phi(or coordinates) of cell | |
dc77cc84 | 1051 | nSupMod = nModule = nIphi = nIeta = iphi = ieta = 0; |
1d46d1f6 | 1052 | |
dc77cc84 | 1053 | fGeomPtr->GetCellIndex(digit->GetId(), nSupMod,nModule,nIphi,nIeta); |
1054 | fGeomPtr->GetCellPhiEtaIndexInSModule(nSupMod,nModule,nIphi,nIeta, iphi,ieta); | |
25bb3dcb | 1055 | |
1056 | // In case of a shared cluster, index of SM in C side, columns start at 48 and ends at 48*2 | |
1057 | // C Side impair SM, nSupMod%2=1; A side pair SM, nSupMod%2=0 | |
1058 | if(fSharedCluster && nSupMod%2) ieta+=AliEMCALGeoParams::fgkEMCALCols; | |
1059 | ||
dc77cc84 | 1060 | etai=(Double_t)ieta; |
1061 | phii=(Double_t)iphi; | |
25bb3dcb | 1062 | |
1d46d1f6 | 1063 | w = TMath::Max(0.,logWeight+TMath::Log(fEnergyList[iDigit]/fAmp ) ) ; |
1064 | // fAmp summed amplitude of digits, i.e. energy of recpoint | |
1065 | // Gives smaller value of lambda than log weight | |
1066 | // w = fEnergyList[iDigit] / fAmp; // Nov 16, 2006 - try just energy | |
ff1e7e2f | 1067 | |
70a93198 | 1068 | dxx += w * etai * etai ; |
1069 | x += w * etai ; | |
1070 | dzz += w * phii * phii ; | |
1071 | z += w * phii ; | |
1963b290 | 1072 | |
ff1e7e2f | 1073 | dxz += w * etai * phii ; |
1963b290 | 1074 | |
70a93198 | 1075 | wtot += w ; |
1076 | } | |
ff1e7e2f | 1077 | |
70a93198 | 1078 | if ( wtot > 0 ) { |
1079 | dxx /= wtot ; | |
1080 | x /= wtot ; | |
1081 | dxx -= x * x ; | |
1082 | dzz /= wtot ; | |
1083 | z /= wtot ; | |
1084 | dzz -= z * z ; | |
1085 | dxz /= wtot ; | |
1086 | dxz -= x * z ; | |
ab48128d | 1087 | |
70a93198 | 1088 | fLambda[0] = 0.5 * (dxx + dzz) + TMath::Sqrt( 0.25 * (dxx - dzz) * (dxx - dzz) + dxz * dxz ) ; |
1089 | if(fLambda[0] > 0) | |
1090 | fLambda[0] = TMath::Sqrt(fLambda[0]) ; | |
1091 | else | |
1092 | fLambda[0] = 0; | |
1093 | ||
1094 | fLambda[1] = 0.5 * (dxx + dzz) - TMath::Sqrt( 0.25 * (dxx - dzz) * (dxx - dzz) + dxz * dxz ) ; | |
ff1e7e2f | 1095 | |
70a93198 | 1096 | if(fLambda[1] > 0) //To avoid exception if numerical errors lead to negative lambda. |
1097 | fLambda[1] = TMath::Sqrt(fLambda[1]) ; | |
1098 | else | |
1099 | fLambda[1]= 0. ; | |
1100 | } else { | |
1101 | fLambda[0]= 0. ; | |
1102 | fLambda[1]= 0. ; | |
ab48128d | 1103 | } |
ff1e7e2f | 1104 | |
25bb3dcb | 1105 | //printf("AliEMCALRecPoint::EvalElipsAxis() lambdas = %f,%f \n", fLambda[0],fLambda[1]) ; |
ff1e7e2f | 1106 | |
ab48128d | 1107 | } |
1108 | ||
1109 | //______________________________________________________________________________ | |
1110 | void AliEMCALRecPoint::EvalPrimaries(TClonesArray * digits) | |
1111 | { | |
af5bdd85 | 1112 | // Constructs the list of primary particles (tracks) which |
1113 | // have contributed to this RecPoint and calculate deposited energy | |
1114 | // for each track | |
73a654fc | 1115 | |
53e430a3 | 1116 | AliEMCALDigit * digit =0; |
af5bdd85 | 1117 | Int_t * primArray = new Int_t[fMaxTrack] ; |
7f3091e7 | 1118 | memset(primArray,-1,sizeof(Int_t)*fMaxTrack); |
af5bdd85 | 1119 | Float_t * dEPrimArray = new Float_t[fMaxTrack] ; |
7f3091e7 | 1120 | memset(dEPrimArray,-1,sizeof(Int_t)*fMaxTrack); |
2ebdefe6 | 1121 | |
ab48128d | 1122 | Int_t index ; |
1123 | for ( index = 0 ; index < GetDigitsMultiplicity() ; index++ ) { // all digits | |
1124 | digit = dynamic_cast<AliEMCALDigit *>(digits->At( fDigitsList[index] )) ; | |
2ebdefe6 | 1125 | if(!digit) { |
1126 | AliError("No Digit!!"); | |
1127 | continue; | |
1128 | } | |
1129 | ||
ab48128d | 1130 | Int_t nprimaries = digit->GetNprimary() ; |
5c0368b8 | 1131 | if ( nprimaries == 0 ) continue ; |
ab48128d | 1132 | Int_t jndex ; |
1133 | for ( jndex = 0 ; jndex < nprimaries ; jndex++ ) { // all primaries in digit | |
1134 | if ( fMulTrack > fMaxTrack ) { | |
2ebdefe6 | 1135 | fMulTrack = fMaxTrack ; |
1136 | Error("EvalPrimaries", "increase fMaxTrack ") ; | |
1137 | break ; | |
ab48128d | 1138 | } |
af5bdd85 | 1139 | Int_t newPrimary = digit->GetPrimary(jndex+1); |
1140 | Float_t dEPrimary = digit->GetDEPrimary(jndex+1); | |
ab48128d | 1141 | Int_t kndex ; |
1142 | Bool_t already = kFALSE ; | |
1143 | for ( kndex = 0 ; kndex < fMulTrack ; kndex++ ) { //check if not already stored | |
2ebdefe6 | 1144 | if ( newPrimary == primArray[kndex] ){ |
1145 | already = kTRUE ; | |
1146 | dEPrimArray[kndex] += dEPrimary; | |
1147 | break ; | |
1148 | } | |
ab48128d | 1149 | } // end of check |
5c0368b8 | 1150 | if ( !already && (fMulTrack < fMaxTrack)) { // store it |
2ebdefe6 | 1151 | primArray[fMulTrack] = newPrimary ; |
1152 | dEPrimArray[fMulTrack] = dEPrimary ; | |
1153 | fMulTrack++ ; | |
ab48128d | 1154 | } // store it |
1155 | } // all primaries in digit | |
ab48128d | 1156 | } // all digits |
2ebdefe6 | 1157 | |
af5bdd85 | 1158 | Int_t *sortIdx = new Int_t[fMulTrack]; |
1159 | TMath::Sort(fMulTrack,dEPrimArray,sortIdx); | |
1160 | for(index = 0; index < fMulTrack; index++) { | |
1161 | fTracksList[index] = primArray[sortIdx[index]] ; | |
1162 | fDETracksList[index] = dEPrimArray[sortIdx[index]] ; | |
1163 | } | |
1164 | delete [] sortIdx; | |
1165 | delete [] primArray ; | |
1166 | delete [] dEPrimArray ; | |
2ebdefe6 | 1167 | |
ab48128d | 1168 | } |
7ee5c5be | 1169 | |
87cdc3be | 1170 | //______________________________________________________________________________ |
1171 | void AliEMCALRecPoint::EvalParents(TClonesArray * digits) | |
1172 | { | |
1173 | // Constructs the list of parent particles (tracks) which have contributed to this RecPoint | |
73a654fc | 1174 | |
53e430a3 | 1175 | AliEMCALDigit * digit=0 ; |
af5bdd85 | 1176 | Int_t * parentArray = new Int_t[fMaxTrack] ; |
7f3091e7 | 1177 | memset(parentArray,-1,sizeof(Int_t)*fMaxTrack); |
af5bdd85 | 1178 | Float_t * dEParentArray = new Float_t[fMaxTrack] ; |
7f3091e7 | 1179 | memset(dEParentArray,-1,sizeof(Int_t)*fMaxTrack); |
2ebdefe6 | 1180 | |
87cdc3be | 1181 | Int_t index ; |
1182 | for ( index = 0 ; index < GetDigitsMultiplicity() ; index++ ) { // all digits | |
94478418 | 1183 | if (fDigitsList[index] >= digits->GetEntries() || fDigitsList[index] < 0) |
2ebdefe6 | 1184 | AliError(Form("Trying to get invalid digit %d (idx in WriteRecPoint %d)",fDigitsList[index],index)); |
87cdc3be | 1185 | digit = dynamic_cast<AliEMCALDigit *>(digits->At( fDigitsList[index] )) ; |
2ebdefe6 | 1186 | if(!digit) { |
1187 | AliError("No Digit!!"); | |
1188 | continue; | |
1189 | } | |
1190 | ||
87cdc3be | 1191 | Int_t nparents = digit->GetNiparent() ; |
5c0368b8 | 1192 | if ( nparents == 0 ) continue ; |
2ebdefe6 | 1193 | |
87cdc3be | 1194 | Int_t jndex ; |
1195 | for ( jndex = 0 ; jndex < nparents ; jndex++ ) { // all primaries in digit | |
1196 | if ( fMulParent > fMaxParent ) { | |
2ebdefe6 | 1197 | fMulTrack = - 1 ; |
1198 | Error("EvalParents", "increase fMaxParent") ; | |
1199 | break ; | |
87cdc3be | 1200 | } |
af5bdd85 | 1201 | Int_t newParent = digit->GetIparent(jndex+1) ; |
1202 | Float_t newdEParent = digit->GetDEParent(jndex+1) ; | |
87cdc3be | 1203 | Int_t kndex ; |
1204 | Bool_t already = kFALSE ; | |
f1d429fd | 1205 | for ( kndex = 0 ; kndex < fMulParent ; kndex++ ) { //check if not already stored |
2ebdefe6 | 1206 | if ( newParent == parentArray[kndex] ){ |
1207 | dEParentArray[kndex] += newdEParent; | |
1208 | already = kTRUE ; | |
1209 | break ; | |
1210 | } | |
87cdc3be | 1211 | } // end of check |
94478418 | 1212 | if ( !already && (fMulParent < fMaxParent)) { // store it |
2ebdefe6 | 1213 | parentArray[fMulParent] = newParent ; |
1214 | dEParentArray[fMulParent] = newdEParent ; | |
1215 | fMulParent++ ; | |
87cdc3be | 1216 | } // store it |
1217 | } // all parents in digit | |
87cdc3be | 1218 | } // all digits |
2ebdefe6 | 1219 | |
27e2a47c | 1220 | if (fMulParent>0) { |
af5bdd85 | 1221 | Int_t *sortIdx = new Int_t[fMulParent]; |
1222 | TMath::Sort(fMulParent,dEParentArray,sortIdx); | |
1223 | for(index = 0; index < fMulParent; index++) { | |
1224 | fParentsList[index] = parentArray[sortIdx[index]] ; | |
1225 | fDEParentsList[index] = dEParentArray[sortIdx[index]] ; | |
1226 | } | |
1227 | delete [] sortIdx; | |
27e2a47c | 1228 | } |
2ebdefe6 | 1229 | |
af5bdd85 | 1230 | delete [] parentArray; |
1231 | delete [] dEParentArray; | |
87cdc3be | 1232 | } |
1233 | ||
70a93198 | 1234 | //____________________________________________________________________________ |
1235 | void AliEMCALRecPoint::GetLocalPosition(TVector3 & lpos) const | |
1236 | { | |
9aa6a5f6 | 1237 | // returns the position of the cluster in the local reference system |
1238 | // of the sub-detector | |
70a93198 | 1239 | |
9aa6a5f6 | 1240 | lpos = fLocPos; |
70a93198 | 1241 | } |
1242 | ||
ab48128d | 1243 | //____________________________________________________________________________ |
1244 | void AliEMCALRecPoint::GetGlobalPosition(TVector3 & gpos) const | |
1245 | { | |
1246 | // returns the position of the cluster in the global reference system of ALICE | |
70a93198 | 1247 | // These are now the Cartesian X, Y and Z |
e52475ed | 1248 | // cout<<" geom "<<geom<<endl; |
25bb3dcb | 1249 | // fGeomPtr->GetGlobal(fLocPos, gpos, fSuperModuleNumber); |
1250 | gpos = fGlobPos; | |
1251 | ||
9aa6a5f6 | 1252 | } |
1253 | ||
1254 | //____________________________________________________________________________ | |
7cfcebd3 | 1255 | //void AliEMCALRecPoint::GetGlobalPosition(TVector3 & gpos, TMatrixF & gmat) const |
1256 | //{ | |
1257 | // // returns the position of the cluster in the global reference system of ALICE | |
1258 | // // These are now the Cartesian X, Y and Z | |
1259 | // // cout<<" geom "<<geom<<endl; | |
1260 | // | |
1261 | // //To be implemented | |
1262 | // fGeomPtr->GetGlobalEMCAL(this, gpos, gmat); | |
1263 | // | |
1264 | //} | |
9aa6a5f6 | 1265 | |
1266 | //_____________________________________________________________________________ | |
1267 | void AliEMCALRecPoint::EvalLocal2TrackingCSTransform() | |
1268 | { | |
1269 | //Evaluates local to "tracking" c.s. transformation (B.P.). | |
1270 | //All evaluations should be completed before calling for this | |
1271 | //function. | |
1272 | //See ALICE PPR Chapter 5 p.18 for "tracking" c.s. definition, | |
1273 | //or just ask Jouri Belikov. :) | |
1274 | ||
1275 | SetVolumeId(AliGeomManager::LayerToVolUID(AliGeomManager::kEMCAL,GetSuperModuleNumber())); | |
1276 | ||
1277 | const TGeoHMatrix* tr2loc = GetTracking2LocalMatrix(); | |
1278 | if(!tr2loc) AliFatal(Form("No Tracking2LocalMatrix found.")); | |
1279 | ||
1280 | Double_t lxyz[3] = {fLocPos.X(),fLocPos.Y(),fLocPos.Z()}; | |
1281 | Double_t txyz[3] = {0,0,0}; | |
1282 | ||
1283 | tr2loc->MasterToLocal(lxyz,txyz); | |
1284 | SetX(txyz[0]); SetY(txyz[1]); SetZ(txyz[2]); | |
1285 | ||
1286 | if(AliLog::GetGlobalDebugLevel()>0) { | |
73a654fc | 1287 | TVector3 gpos; //TMatrixF gmat; |
7cfcebd3 | 1288 | //GetGlobalPosition(gpos,gmat); //Not doing anythin special, replace by next line. |
73a654fc | 1289 | fGeomPtr->GetGlobal(fLocPos, gpos, GetSuperModuleNumber()); |
1290 | ||
9aa6a5f6 | 1291 | Float_t gxyz[3]; |
1292 | GetGlobalXYZ(gxyz); | |
1293 | AliInfo(Form("lCS-->(%.3f,%.3f,%.3f), tCS-->(%.3f,%.3f,%.3f), gCS-->(%.3f,%.3f,%.3f), gCScalc-\ | |
1294 | ->(%.3f,%.3f,%.3f), supermodule %d", | |
1295 | fLocPos.X(),fLocPos.Y(),fLocPos.Z(), | |
1296 | GetX(),GetY(),GetZ(), | |
1297 | gpos.X(),gpos.Y(),gpos.Z(), | |
1298 | gxyz[0],gxyz[1],gxyz[2],GetSuperModuleNumber())); | |
1299 | } | |
1300 | ||
70a93198 | 1301 | } |
1302 | ||
1303 | //____________________________________________________________________________ | |
1304 | Float_t AliEMCALRecPoint::GetMaximalEnergy(void) const | |
1305 | { | |
1306 | // Finds the maximum energy in the cluster | |
ab48128d | 1307 | |
70a93198 | 1308 | Float_t menergy = 0. ; |
1309 | ||
1310 | Int_t iDigit; | |
70a93198 | 1311 | for(iDigit=0; iDigit<fMulDigit; iDigit++) { |
1312 | ||
1313 | if(fEnergyList[iDigit] > menergy) | |
1314 | menergy = fEnergyList[iDigit] ; | |
1315 | } | |
1316 | return menergy ; | |
ab48128d | 1317 | } |
1318 | ||
25bb3dcb | 1319 | //____________________________________________________________________________ |
1320 | Int_t AliEMCALRecPoint::GetMaximalEnergyIndex(void) const | |
1321 | { | |
1322 | // Finds the maximum energy in the cluster | |
1323 | ||
1324 | Float_t menergy = 0. ; | |
44fe3410 | 1325 | Int_t mid = 0 ; |
25bb3dcb | 1326 | Int_t iDigit; |
1327 | ||
1328 | for(iDigit=0; iDigit<fMulDigit; iDigit++) { | |
1329 | ||
1330 | if(fEnergyList[iDigit] > menergy){ | |
1331 | menergy = fEnergyList[iDigit] ; | |
1332 | mid = iDigit ; | |
1333 | } | |
1334 | }//loop on cluster digits | |
1335 | ||
1336 | return mid ; | |
1337 | } | |
1338 | ||
1339 | ||
aad8e277 | 1340 | //____________________________________________________________________________ |
70a93198 | 1341 | Int_t AliEMCALRecPoint::GetMultiplicityAtLevel(Float_t H) const |
aad8e277 | 1342 | { |
70a93198 | 1343 | // Calculates the multiplicity of digits with energy larger than H*energy |
1344 | ||
1345 | Int_t multipl = 0 ; | |
1346 | Int_t iDigit ; | |
1347 | for(iDigit=0; iDigit<fMulDigit; iDigit++) { | |
1348 | ||
1349 | if(fEnergyList[iDigit] > H * fAmp) | |
1350 | multipl++ ; | |
1351 | } | |
1352 | return multipl ; | |
1353 | } | |
1354 | ||
1355 | //____________________________________________________________________________ | |
1356 | Int_t AliEMCALRecPoint::GetNumberOfLocalMax(AliEMCALDigit ** maxAt, Float_t * maxAtEnergy, | |
1357 | Float_t locMaxCut,TClonesArray * digits) const | |
1358 | { | |
1359 | // Calculates the number of local maxima in the cluster using fLocalMaxCut as the minimum | |
1360 | // energy difference between two local maxima | |
1361 | ||
53e430a3 | 1362 | AliEMCALDigit * digit = 0; |
1363 | AliEMCALDigit * digitN = 0; | |
70a93198 | 1364 | |
53e430a3 | 1365 | Int_t iDigitN = 0 ; |
1366 | Int_t iDigit = 0 ; | |
70a93198 | 1367 | |
1368 | for(iDigit = 0; iDigit < fMulDigit; iDigit++) | |
1369 | maxAt[iDigit] = (AliEMCALDigit*) digits->At(fDigitsList[iDigit]) ; | |
1370 | ||
1371 | for(iDigit = 0 ; iDigit < fMulDigit; iDigit++) { | |
1372 | if(maxAt[iDigit]) { | |
1373 | digit = maxAt[iDigit] ; | |
1374 | ||
1375 | for(iDigitN = 0; iDigitN < fMulDigit; iDigitN++) { | |
53e430a3 | 1376 | digitN = (AliEMCALDigit *) digits->At(fDigitsList[iDigitN]) ; |
70a93198 | 1377 | |
1378 | if ( AreNeighbours(digit, digitN) ) { | |
1379 | if (fEnergyList[iDigit] > fEnergyList[iDigitN] ) { | |
1380 | maxAt[iDigitN] = 0 ; | |
1381 | // but may be digit too is not local max ? | |
1382 | if(fEnergyList[iDigit] < fEnergyList[iDigitN] + locMaxCut) | |
1383 | maxAt[iDigit] = 0 ; | |
1384 | } | |
1385 | else { | |
1386 | maxAt[iDigit] = 0 ; | |
1387 | // but may be digitN too is not local max ? | |
1388 | if(fEnergyList[iDigit] > fEnergyList[iDigitN] - locMaxCut) | |
1389 | maxAt[iDigitN] = 0 ; | |
1390 | } | |
1391 | } // if Areneighbours | |
1392 | } // while digitN | |
1393 | } // slot not empty | |
1394 | } // while digit | |
1395 | ||
1396 | iDigitN = 0 ; | |
1397 | for(iDigit = 0; iDigit < fMulDigit; iDigit++) { | |
1398 | if(maxAt[iDigit] ){ | |
1399 | maxAt[iDigitN] = maxAt[iDigit] ; | |
1400 | maxAtEnergy[iDigitN] = fEnergyList[iDigit] ; | |
1401 | iDigitN++ ; | |
1402 | } | |
1403 | } | |
1404 | return iDigitN ; | |
1405 | } | |
4635df1f | 1406 | |
1407 | //____________________________________________________________________________ | |
1408 | Int_t AliEMCALRecPoint::GetPrimaryIndex() const | |
1409 | { | |
1410 | // Get the primary track index in TreeK which deposits the most energy | |
af5bdd85 | 1411 | // in Digits which forms RecPoint. |
4635df1f | 1412 | |
af5bdd85 | 1413 | if (fMulTrack) |
1414 | return fTracksList[0]; | |
1415 | return -12345; | |
4635df1f | 1416 | } |
1417 | ||
70a93198 | 1418 | //____________________________________________________________________________ |
1419 | void AliEMCALRecPoint::EvalTime(TClonesArray * digits){ | |
1420 | // time is set to the time of the digit with the maximum energy | |
1421 | ||
53e430a3 | 1422 | Float_t maxE = 0; |
1423 | Int_t maxAt = 0; | |
70a93198 | 1424 | for(Int_t idig=0; idig < fMulDigit; idig++){ |
1425 | if(fEnergyList[idig] > maxE){ | |
53e430a3 | 1426 | maxE = fEnergyList[idig] ; |
70a93198 | 1427 | maxAt = idig; |
1428 | } | |
1429 | } | |
1430 | fTime = ((AliEMCALDigit*) digits->At(fDigitsList[maxAt]))->GetTime() ; | |
aad8e277 | 1431 | |
aad8e277 | 1432 | } |
ab48128d | 1433 | |
1434 | //______________________________________________________________________________ | |
1435 | void AliEMCALRecPoint::Paint(Option_t *) | |
1436 | { | |
1437 | // Paint this ALiRecPoint as a TMarker with its current attributes | |
1438 | ||
1439 | TVector3 pos(0.,0.,0.) ; | |
1440 | GetLocalPosition(pos) ; | |
1441 | Coord_t x = pos.X() ; | |
1442 | Coord_t y = pos.Z() ; | |
1443 | Color_t markercolor = 1 ; | |
53e430a3 | 1444 | Size_t markersize = 1.; |
ab48128d | 1445 | Style_t markerstyle = 5 ; |
1446 | ||
1447 | if (!gPad->IsBatch()) { | |
1448 | gVirtualX->SetMarkerColor(markercolor) ; | |
1449 | gVirtualX->SetMarkerSize (markersize) ; | |
1450 | gVirtualX->SetMarkerStyle(markerstyle) ; | |
1451 | } | |
1452 | gPad->SetAttMarkerPS(markercolor,markerstyle,markersize) ; | |
1453 | gPad->PaintPolyMarker(1,&x,&y,"") ; | |
1454 | } | |
70a93198 | 1455 | |
9aa6a5f6 | 1456 | //_____________________________________________________________________ |
1ae500a2 | 1457 | Double_t AliEMCALRecPoint::TmaxInCm(const Double_t e , const Int_t key) |
1458 | { | |
9aa6a5f6 | 1459 | // e energy in GeV) |
1ae500a2 | 1460 | // key = 0(gamma, default) |
1461 | // != 0(electron) | |
47583f1b | 1462 | const Double_t ca = 4.82; // shower max parameter - first guess; ca=TMath::Log(1000./8.07) |
47583f1b | 1463 | Double_t tmax = 0.; // position of electromagnetic shower max in cm |
1ae500a2 | 1464 | |
171d2441 | 1465 | Double_t x0 = 1.31; // radiation lenght (cm) |
1466 | //If old geometry in use | |
1467 | if(!((fGeomPtr->GetEMCGeometry()->GetGeoName()).Contains("V1"))) x0 = 1.28; | |
1468 | ||
1ae500a2 | 1469 | if(e>0.1) { |
1470 | tmax = TMath::Log(e) + ca; | |
1471 | if (key==0) tmax += 0.5; | |
1472 | else tmax -= 0.5; | |
37890aaf | 1473 | tmax *= x0; // convert to cm |
1ae500a2 | 1474 | } |
1475 | return tmax; | |
1476 | } | |
1477 | ||
70a93198 | 1478 | //______________________________________________________________________________ |
1479 | Float_t AliEMCALRecPoint::EtaToTheta(Float_t arg) const | |
1480 | { | |
1481 | //Converts Theta (Radians) to Eta(Radians) | |
1482 | return (2.*TMath::ATan(TMath::Exp(-arg))); | |
1483 | } | |
1484 | ||
1485 | //______________________________________________________________________________ | |
1486 | Float_t AliEMCALRecPoint::ThetaToEta(Float_t arg) const | |
1487 | { | |
1488 | //Converts Eta (Radians) to Theta(Radians) | |
1489 | return (-1 * TMath::Log(TMath::Tan(0.5 * arg))); | |
1490 | } | |
261b1065 | 1491 | |
1492 | //____________________________________________________________________________ | |
e1a51e6e | 1493 | void AliEMCALRecPoint::Print(Option_t *opt) const |
261b1065 | 1494 | { |
1495 | // Print the list of digits belonging to the cluster | |
e1a51e6e | 1496 | if(strlen(opt)==0) return; |
261b1065 | 1497 | TString message ; |
4800667c | 1498 | message = "AliEMCALRecPoint:\n" ; |
261b1065 | 1499 | message += " digits # = " ; |
d8c2bd69 | 1500 | AliInfo(message.Data()) ; |
261b1065 | 1501 | |
1502 | Int_t iDigit; | |
1503 | for(iDigit=0; iDigit<fMulDigit; iDigit++) | |
1504 | printf(" %d ", fDigitsList[iDigit] ) ; | |
e52475ed | 1505 | printf("\n"); |
1506 | ||
d8c2bd69 | 1507 | AliInfo(" Energies = ") ; |
261b1065 | 1508 | for(iDigit=0; iDigit<fMulDigit; iDigit++) |
1509 | printf(" %f ", fEnergyList[iDigit] ) ; | |
e52475ed | 1510 | printf("\n"); |
1511 | ||
d8c2bd69 | 1512 | AliInfo("\n Abs Ids = ") ; |
e52475ed | 1513 | for(iDigit=0; iDigit<fMulDigit; iDigit++) |
1514 | printf(" %i ", fAbsIdList[iDigit] ) ; | |
1515 | printf("\n"); | |
1516 | ||
d8c2bd69 | 1517 | AliInfo(" Primaries ") ; |
261b1065 | 1518 | for(iDigit = 0;iDigit < fMulTrack; iDigit++) |
1519 | printf(" %d ", fTracksList[iDigit]) ; | |
e52475ed | 1520 | |
1521 | printf("\n Local x %6.2f y %7.2f z %7.1f \n", fLocPos[0], fLocPos[1], fLocPos[2]); | |
1522 | ||
85c60a8e | 1523 | message = " ClusterType = %d" ; |
1524 | message += " Multiplicity = %d" ; | |
261b1065 | 1525 | message += " Cluster Energy = %f" ; |
1526 | message += " Core energy = %f" ; | |
1527 | message += " Core radius = %f" ; | |
1528 | message += " Number of primaries %d" ; | |
1529 | message += " Stored at position %d" ; | |
d8c2bd69 | 1530 | AliInfo(Form(message.Data(), fClusterType, fMulDigit, fAmp, fCoreEnergy, fCoreRadius, fMulTrack, GetIndexInList()) ) ; |
261b1065 | 1531 | } |
1d46d1f6 | 1532 | |
9aa6a5f6 | 1533 | //___________________________________________________________ |
1d46d1f6 | 1534 | Double_t AliEMCALRecPoint::GetPointEnergy() const |
1535 | { | |
37890aaf | 1536 | //Returns energy .... |
47583f1b | 1537 | Double_t e=0.0; |
1d46d1f6 | 1538 | for(int ic=0; ic<GetMultiplicity(); ic++) e += double(fEnergyList[ic]); |
1539 | return e; | |
1540 | } |