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[u/mrichter/AliRoot.git] / ITS / AliITSMisAligner.cxx
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edccc22d 1/**************************************************************************
2 * Copyright(c) 2007-2010, 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
16/* $Id$ */
17
18//========================================================================
19//
20// This class is a helper, producing ITS aligmnent objects.
21// It provides also some useful functions
22// See the parameters of the misalignment at the end of this script.
23//
24// Main author: L. Gaudichet
25// Contact: andrea.dainese@lnl.infn.it
26//
27//========================================================================
28
29#include <TClonesArray.h>
30#include <TMath.h>
31#include <TClass.h>
32#include <TGeoManager.h>
33#include "AliLog.h"
34#include "AliAlignObjParams.h"
35#include "AliITSMisAligner.h"
36#include "AliITSSurveyToAlign.h"
37#include "AliMathBase.h"
38
39ClassImp(AliITSMisAligner)
40
41const Int_t AliITSMisAligner::fgkNLadders[AliITSMisAligner::kNLayers] = {20,40,14,22,34,38};
42const Int_t AliITSMisAligner::fgkNDetectors[AliITSMisAligner::kNLayers] = {4,4,6,8,22,25};
43
44const Double_t kRadToDeg = 180./TMath::Pi();
45
46//________________________________________________________________________
47AliITSMisAligner::AliITSMisAligner():
48 AliMisAligner(),
49 fRnd(),
50 fInd(0),
51 fAlignObjArray(NULL),
52 fStrSPD("ITS/SPD"),
53 fStrSDD("ITS/SDD"),
54 fStrSSD("ITS/SSD"),
55 fStrStave("/Stave"),
56 fStrHalfStave("/HalfStave"),
57 fStrLadder("/Ladder"),
58 fStrSector("/Sector"),
59 fStrSensor("/Sensor"),
60 fUnifSPDSector(kFALSE),
61 fUnifSPDHS(kFALSE),
62 fUnifSDDLadder(kFALSE),
63 fUnifSSDLadder(kFALSE),
64 fUnifSPDLadder(kFALSE),
65 fUnifSDDModule(kFALSE),
66 fUnifSSDModule(kFALSE)
67{
68 //
69 // defaul constructor
70 //
71 fRnd.SetSeed(38217945);
72 fAlignObjArray = new TClonesArray("AliAlignObjParams",4000);
73 for(Int_t ii=0; ii<6; ii++)
74 {
75 fWholeITS[ii]=0.;
76 fSPDSector[ii]=0.;
77 fSPDHB[ii]=0.;
78 fSPDBarrel[ii]=0.;
79 fSPDHS[ii]=0.;
80 fSPDLadder[ii]=0.;
81 fSDDLayer[ii]=0.;
82 fSDDBarrel[ii]=0.;
83 fSDDLadder[ii]=0.;
84 fSDDModule[ii]=0.;
85 fSSDBarrel[ii]=0.;
86 fSSDLayer[ii]=0.;
87 fSSDLadder[ii]=0.;
88 fSSDModule[ii]=0.;
89 fSPDLadderShiftT[ii]=0.;
90 fSPDLadderShiftB[ii]=0.;
91 fSDDLadderShift1[ii]=0.;
92 fSDDLadderShift2[ii]=0.;
edccc22d 93 }
94}
95
edccc22d 96
97//_______________________________________________________________________________________
98TClonesArray* AliITSMisAligner::MakeAlObjsArray() {
99 // Make the array of alignment objects, depending on the misalignment scenario (Zero, Residual, Full)
100 //
101
102 // Setting default values for ideal, residual or full misalignment
103 SetWholeITSMisAlignment();
104 SetSPDMisAlignment();
105 SetSDDMisAlignment();
106 SetSSDMisAlignment();
107
108 // Get array of alignment objects from survey (based on which we build later the SSD objects)
109 AliITSSurveyToAlign* s2a = new AliITSSurveyToAlign();
110 s2a->Run();
111 TClonesArray* surveyArray = dynamic_cast<TClonesArray*> (s2a->GetAlignObjsArray());
112 if(!surveyArray){
113 Printf("SSD survey array was not build! Probably you missed to connect to alien");
114 return 0;
115 }else{
116 Printf("survey array contains %d entries", surveyArray->GetEntriesFast());
117 }
ef0526f3 118 char strtemp[5]="ITS";
119 AddAlignObj(strtemp,fWholeITS[0],fWholeITS[1],fWholeITS[2],fWholeITS[3],fWholeITS[4],fWholeITS[5],"fixed");
edccc22d 120
121 AddSectorAlignObj(1,5,fSPDSector[0],fSPDSector[1],fSPDSector[2],fSPDSector[3],fSPDSector[4],fSPDSector[5],
122 fSPDLadderShiftT[0],fSPDLadderShiftT[1],fSPDLadderShiftT[2],fSPDLadderShiftT[3],fSPDLadderShiftT[4],fSPDLadderShiftT[5],fUnifSPDSector);
123 AddSectorAlignObj(6,10,fSPDSector[0],fSPDSector[1],fSPDSector[2],fSPDSector[3],fSPDSector[4],fSPDSector[5],
124 fSPDLadderShiftB[0],fSPDLadderShiftB[1],fSPDLadderShiftB[2],fSPDLadderShiftB[3],fSPDLadderShiftB[4],fSPDLadderShiftB[5],fUnifSPDSector);
125
126 //=****************************************
127 // misalignment at the level of half-staves (SPD)/ladders (SDD,SSD) :
128 //=****************************************
129 AddAlignObj(0,-1,fSPDHS[0],fSPDHS[1],fSPDHS[2],fSPDHS[3],fSPDHS[4],fSPDHS[5],
130 0,0,0,0,0,0,fUnifSPDHS); // all SPD1 half-staves
131 AddAlignObj(1,-1,fSPDHS[0],fSPDHS[1],fSPDHS[2],fSPDHS[3],fSPDHS[4],fSPDHS[5],
132 0,0,0,0,0,0,fUnifSPDHS); // all SPD2 half-staves
133
134 AddAlignObj(2,-1,fSDDLadder[0],fSDDLadder[1],fSDDLadder[2],fSDDLadder[3],
135 fSDDLadder[4],fSDDLadder[5],fSDDLadderShift1[0],fSDDLadderShift1[1],fSDDLadderShift1[2],fSDDLadderShift1[3],fSDDLadderShift1[4],fSDDLadderShift1[5],fUnifSDDLadder); // all SDD1 ladders
136 AddAlignObj(3,-1,fSDDLadder[0],fSDDLadder[1],fSDDLadder[2],fSDDLadder[3],
137 fSDDLadder[4],fSDDLadder[5],fSDDLadderShift2[0],fSDDLadderShift2[1],fSDDLadderShift2[2],fSDDLadderShift2[3],fSDDLadderShift2[4],fSDDLadderShift2[5],fUnifSDDLadder); // all SDD2 ladders
138
f76750d6 139 // all SSD ladders as from survey, + shift and smearing in the "residual" and "full" case
edccc22d 140 for(Int_t ii=0; ii<surveyArray->GetEntriesFast(); ii++)
141 {
c98634db 142 AliAlignObjParams* aop = static_cast<AliAlignObjParams*> (surveyArray->UncheckedAt(ii));
edccc22d 143 TString sName(aop->GetSymName());
144
f76750d6 145 if(sName.Contains("SSD") && !sName.Contains("Sensor"))
146 {
147
148 if(!(TString(GetMisalType())=="ideal"))
149 {
150 // First we shift all SSD ladders by the same quantity to reproduce a barrel shift
151 ShiftAlignObj(*aop,fSSDBarrel[0],fSSDBarrel[1],fSSDBarrel[2],fSSDBarrel[3],fSSDBarrel[4],fSSDBarrel[5]);
152
153 // Then we smear according to the sigmas given by the misalignment scenario
154 if(sName.Contains("SSD4")){
155 // we correct with the factor 1.13 for the fact that, in the inner SSD layer, z lever arm is 45.135cm instead of 51cm
156 SmearAlignObj(*aop,fSSDLadder[0],fSSDLadder[1],fSSDLadder[2],fSSDLadder[3]*1.13,fSSDLadder[4]*1.13,fSSDLadder[5]);
157 }else if(sName.Contains("SSD5")){
158 SmearAlignObj(*aop,fSSDLadder[0],fSSDLadder[1],fSSDLadder[2],fSSDLadder[3],fSSDLadder[4],fSSDLadder[5]);
159 }
160 }
161
edccc22d 162 new((*fAlignObjArray)[fInd++]) AliAlignObjParams(*aop);
f76750d6 163 aop->ApplyToGeometry(); // this we need to correctly build objects for SSD ladders below
edccc22d 164 }
edccc22d 165 }
166
167 //=****************************************
168 // misalignment at the level of ladders (SPD)/modules (SDD,SSD) :
169 //=****************************************
170 AddAlignObj(0,fSPDLadder[0],fSPDLadder[1],fSPDLadder[2],fSPDLadder[3],fSPDLadder[4],fSPDLadder[5],fUnifSPDLadder);// all SPD1 ladders
171 AddAlignObj(1,fSPDLadder[0],fSPDLadder[1],fSPDLadder[2],fSPDLadder[3],fSPDLadder[4],fSPDLadder[5],fUnifSPDLadder);// all SPD2 ladders
172
173 AddAlignObj(2,fSDDModule[0],fSDDModule[1],fSDDModule[2],fSDDModule[3],fSDDModule[4],fSDDModule[5],fUnifSDDModule);// all SDD1 modules
174 AddAlignObj(3,fSDDModule[0],fSDDModule[1],fSDDModule[2],fSDDModule[3],fSDDModule[4],fSDDModule[5],fUnifSDDModule);// all SDD2 modules
175
176 // all SSD modules
177 for(Int_t ii=0; ii<surveyArray->GetEntriesFast(); ii++)
178 {
c98634db 179 AliAlignObjParams* aop = static_cast<AliAlignObjParams*> (surveyArray->UncheckedAt(ii));
edccc22d 180 TString sName(aop->GetSymName());
181 if(sName.Contains("SSD") && sName.Contains("Sensor"))
182 {
f76750d6 183 if(!(TString(GetMisalType())=="ideal"))
184 SmearAlignObj(*aop,fSSDModule[0],fSSDModule[1],fSSDModule[2],fSSDModule[3],fSSDModule[4],fSSDModule[5]);
edccc22d 185 new((*fAlignObjArray)[fInd++]) AliAlignObjParams(*aop);
186 }
187 }
188
189 return fAlignObjArray;
190}
191
192//_______________________________________________________________________________________
193void AliITSMisAligner::ShiftAlignObj(AliAlignObjParams &alObj, Double_t dx, Double_t dy, Double_t dz, Double_t dpsi, Double_t dtheta, Double_t dphi)
194{
195 //
196 // Shift the parameters of the alignment object passed as first argument by the quantities defined by the arguments
197 //
198 Double_t shifts[3]; Double_t angles[3];
199 alObj.GetPars(shifts, angles);
200 alObj.SetPars(shifts[0]+dx, shifts[1]+dy, shifts[2]+dz, angles[0]+dpsi, angles[1]+dtheta, angles[2]+dphi);
201}
202
203//_______________________________________________________________________________________
204void AliITSMisAligner::SmearAlignObj(AliAlignObjParams &alObj, Double_t sx, Double_t sy, Double_t sz, Double_t spsi, Double_t stheta, Double_t sphi)
205{
206 //
207 // Smear the parameters of the alignment object passed as first argument in the range defined by the subsequent arguments
208 //
209 Double_t shifts[3]; Double_t angles[3];
210 alObj.GetLocalPars(shifts, angles);
211 Double_t x = AliMathBase::TruncatedGaus(shifts[0], sx, 3.*sx);
212 Double_t y = AliMathBase::TruncatedGaus(shifts[1], sy, 3.*sy);
213 Double_t z = AliMathBase::TruncatedGaus(shifts[2], sz, 3.*sz);
214 Double_t psi = AliMathBase::TruncatedGaus(angles[0], spsi, 3.*spsi);
215 Double_t theta = AliMathBase::TruncatedGaus(angles[1], stheta, 3.*stheta);
216 Double_t phi = AliMathBase::TruncatedGaus(angles[2], sphi, 3.*sphi);
217 alObj.SetLocalPars(x, y, z, psi, theta, phi);
218}
219
220//_______________________________________________________________________________________
221void AliITSMisAligner::SetWholeITSMisAlignment()
222{
223 // Set misalignment for the whole ITS for the standar scenarios (zero, residual, full)
224 // To make custom misalignments set directly the misalignments at each level (methods "SetS?D*Pars")
225 //
226 if(TString(GetMisalType())=="ideal")
227 {
228 // overall ITS misalignment according to survey as reported by Werner Riegler (18/07/2008)
229 SetWholeITSPars(-0.12, -0.07, 0.29, 0., 0.03, 0.04);
230 }else if(TString(GetMisalType())=="residual"){
231 // overall ITS misalignment according to survey as reported by Werner Riegler (18/07/2008)
232 // no smearing added (would clash with vertex constraint)
233 SetWholeITSPars(-0.12, -0.07, 0.29, 0., 0.03, 0.04);
234 }else if(TString(GetMisalType())=="full"){
235 // overall ITS misalignment according to survey as reported by Werner Riegler (18/07/2008) plus smearing
236 Double_t sigmatrW = 0.01;
237 Double_t sigmarotW = 0.006;
238 SetWholeITSPars(AliMathBase::TruncatedGaus(-0.12,sigmatrW,3.*sigmatrW),
239 AliMathBase::TruncatedGaus(-0.07,sigmatrW,3.*sigmatrW),
240 AliMathBase::TruncatedGaus(0.29,sigmatrW,3.*sigmatrW),
241 AliMathBase::TruncatedGaus(0.,sigmarotW,3.*sigmarotW),
242 AliMathBase::TruncatedGaus(0.03,sigmarotW,3.*sigmarotW),
243 AliMathBase::TruncatedGaus(0.04,sigmarotW,3.*sigmarotW));
244 }
245}
246
247//_______________________________________________________________________________________
248void AliITSMisAligner::SetSPDMisAlignment()
249{
250 // Set misalignment for SPD alignable volumes for the standar scenarios (zero, residual, full)
251 // To make custom misalignments set directly the misalignments at each level (methods "SetSPD*Pars")
252 //
253 if(TString(GetMisalType())=="ideal")
254 {
255 // misalignment for SPD at all levels equal to zero (identical transformations)
256 SetSPDBarrelSigmas(0., 0., 0., 0., 0., 0.);
257 SetSPDHBSigmas(0., 0., 0., 0., 0., 0.);
258 SetSPDSectorSigmas(0., 0., 0., 0., 0., 0.);
259 SetSPDHSSigmas(0., 0., 0., 0., 0., 0.);
260 SetSPDLadderSigmas(0., 0., 0., 0., 0., 0.);
261 }else if(TString(GetMisalType())=="residual"){
262 // misalignment at the level of SPD barrel and half-barrels left to zero
263 SetSPDBarrelSigmas(0., 0., 0., 0., 0., 0.);
264 SetSPDHBSigmas(0., 0., 0., 0., 0., 0.);
f76750d6 265
edccc22d 266 // misalignment at the level of SPD sectors (source: A.Pepato)
267 SetSPDSectorSigmas( 0.0050/5., // 50 micron (~tangetial, i.e. rphi)
268 0.0100/5., // 100 micron (~radial)
269 0.0100/5., // 100 micron
270 0.0100/30.*kRadToDeg/5., // so as to have 100 micron difference at the two extremes
271 0.0100/30.*kRadToDeg/5., // so as to have 100 micron difference at the two extremes
272 0.0050/1.5*kRadToDeg/5.); // so as to have 50 micron difference at the two extremes
273 fUnifSPDSector=kFALSE;
274
275 // misalignment at the level of half-staves (SPD) (source: S.Moretto)
276 SetSPDHSSigmas( 0.0100/4., // 100 micron
277 0.0020/4., // 20 micron
278 0.0020/4., // 20 micron
279 0.0020/7.*kRadToDeg/4., // so as to have 20 micron difference at the two extremes
280 0.0050/7.*kRadToDeg/4., // so as to have 50 micron difference at the two extremes
281 0.0050/0.7*kRadToDeg/4.);// so as to have 50 micron difference at the two extremes
282 fUnifSPDHS=kFALSE;
f76750d6 283
edccc22d 284 // misalignment at the level of ladders (SPD) (source: R.Santoro)
285 SetSPDLadderSigmas( 0.0010/5., // 10 micron
286 0.0050/5., // 50 micron
287 0.0010/5., // 10 micron
288 0.0001*kRadToDeg/5., // 0.1 mrad
289 0.0001*kRadToDeg/5., // 0.1 mrad
290 0.0001*kRadToDeg/5.);// 0.1 mrad
291 fUnifSPDLadder=kFALSE;
292
293 }else if(TString(GetMisalType())=="full"){
294 // misalignment at the level of SPD barrel (source: A.Pepato)
295 SetSPDBarrelSigmas( 0.1000, // 1 mm (very pessimistic)
296 0.1000, // 1 mm (very pessimistic)
297 0.1000, // 1 mm (very pessimistic)
298 0.0500/30.*kRadToDeg, // so as to have 500 micron difference at the two extremes
299 0.0500/30.*kRadToDeg, // so as to have 500 micron difference at the two extremes
300 0.0500/7.*kRadToDeg); // so as to have 500 micron difference at the two extremes
301
302 // misalignment at the level of SPD half-barrels (source: A.Pepato)
303 SetSPDHBSigmas( 0.0200, // 200 micron
304 0.0200, // 200 micron
305 0.0200, // 200 micron
306 0.0100/30.*kRadToDeg, // so as to have 100 micron difference at the two extremes
307 0.0100/30.*kRadToDeg, // so as to have 100 micron difference at the two extremes
308 0.0100/7.*kRadToDeg); // so as to have 100 micron difference at the two extremes
309
310 // misalignment at the level of SPD sectors (source: A.Pepato)
311 SetSPDSectorSigmas( 0.0050, // 50 micron (~tangetial, i.e. rphi)
312 0.0100, // 100 micron (~radial)
313 0.0100, // 100 micron
314 0.0100/30.*kRadToDeg, // so as to have 100 micron difference at the two extremes
315 0.0100/30.*kRadToDeg, // so as to have 100 micron difference at the two extremes
316 0.0050/1.5*kRadToDeg); // so as to have 50 micron difference at the two extremes
317 fUnifSPDSector=kTRUE;
318
319 // misalignment at the level of half-staves (SPD) (source: S.Moretto)
320 SetSPDHSSigmas( 0.0100, // 100 micron // normal to plane
321 0.0020, // 20 micron
322 0.0020, // 20 micron
323 0.0020/7.*kRadToDeg, // so as to have 20 micron difference at the two extremes
324 0.0050/7.*kRadToDeg, // so as to have 50 micron difference at the two extremes
325 0.0050/0.7*kRadToDeg); // so as to have 50 micron difference at the two extremes
326 fUnifSPDHS=kTRUE;
f76750d6 327
edccc22d 328 // misalignment at the level of ladders (SPD) (source: R.Santoro)
329 SetSPDLadderSigmas( 0.0010, // 10 micron
330 0.0030, // 50 micron
331 0.0010, // 10 micron
332 0.0001*kRadToDeg, // 0.1 mrad
333 0.0001*kRadToDeg, // 0.1 mrad
334 0.0001*kRadToDeg); // 0.1 mrad
335 fUnifSPDLadder=kTRUE;
f76750d6 336
edccc22d 337
338 // misalignment at the level of SPD barrel, half-barrels, and at the level
339 // of SPD sectors
340 Double_t shBtop[6], shBbot[6]; //top and bottom barrel shifts
341 for(Int_t ii=0; ii<6; ii++){
342 shBtop[ii] = AliMathBase::TruncatedGaus(0.,fSPDBarrel[ii]/3,fSPDBarrel[ii]);
343 shBbot[ii] = shBtop[ii];
344 }
345
346 for(Int_t ii=0; ii<6; ii++){
347 shBtop[ii] += AliMathBase::TruncatedGaus(0.,fSPDHB[ii]/3,fSPDHB[ii]);
348 shBbot[ii] += AliMathBase::TruncatedGaus(0.,fSPDHB[ii]/3,fSPDHB[ii]);
349 }
350 SetSPDLadderShiftT(shBtop);
351 SetSPDLadderShiftB(shBbot);
352 }
353}
354
355//_______________________________________________________________________________________
356void AliITSMisAligner::SetSDDMisAlignment()
357{
358 // Set misalignment for SDD alignable volumes for the standar scenarios (zero, residual, full)
359 // To make custom misalignments set directly the misalignments at each level (methods "SetSDD*Pars")
360 //
361 if(TString(GetMisalType())=="ideal")
362 {
363 // misalignment for SDD at all levels equal to zero
364 SetSDDLayerSigmas(0., 0., 0., 0., 0., 0.);
365 SetSDDBarrelSigmas(0., 0., 0., 0., 0., 0.);
366 SetSDDLadderSigmas(0., 0., 0., 0., 0., 0.);
367 SetSDDModuleSigmas(0., 0., 0., 0., 0., 0.);
368 }else if(TString(GetMisalType())=="residual"){
369 // misalignment at the level of SDD and SSD layers(source: B.Giraudo)
370 SetSDDLayerSigmas(0., 0., 0., 0., 0., 0.);
371 SetSDDBarrelSigmas(0., 0., 0., 0., 0., 0.);
f76750d6 372
edccc22d 373 // misalignment at the level of half-staves (SPD) (source: S.Moretto)
374 SetSDDLadderSigmas( 0.0005, // 5 micron
375 0.0005, // 5 micron
376 0.0005, // 5 micron
377 0.00, // ?
378 0.00, // ?
379 0.00); // ?
380 fUnifSDDLadder=kFALSE;
381
382 // misalignment at the level of SDD modules(source: L.Gaudichet)
383 SetSDDModuleSigmas( 0.0045/5., // 45 micron
384 0.0045/5., // 45 micron
385 0.0105/5., // 105 micron
386 0.00, // ?
387 0.00, // ?
388 0.00);// ?
389 fUnifSDDModule=kFALSE;
390
391 }else if(TString(GetMisalType())=="full"){
392 // misalignment at the level of SDD layers(source: B.Giraudo)
393 SetSDDBarrelSigmas( 0.0020, // 20 micron
394 0.0020, // 20 micron
395 0.0020, // 20 micron
396 0.0020/52.*kRadToDeg, // so as to have 20 micron difference at the two extremes
397 0.0020/52.*kRadToDeg, // so as to have 20 micron difference at the two extremes
398 0.0020/20.*kRadToDeg); // so as to have 20 micron difference at the two extremes
399
400 SetSDDLayerSigmas( 0.0010, // 10 micron
401 0.0010, // 10 micron
402 0.0010, // 10 micron
403 0.0010/52.*kRadToDeg, // so as to have 10 micron difference at the two extremes
404 0.0010/52.*kRadToDeg, // so as to have 10 micron difference at the two extremes
405 0.0010/20.*kRadToDeg); // so as to have 10 micron difference at the two extremes
406
407 // misalignment at the level of SDD ladders
408 SetSDDLadderSigmas( 0.0005, // 5 micron
409 0.0005, // 5 micron
410 0.0005, // 5 micron
411 0.00, // ?
412 0.00, // ?
413 0.00);// ?
414 fUnifSDDLadder=kTRUE;
415
416 // misalignment at the level of SDD modules (source: L.Gaudichet)
417 SetSDDModuleSigmas( 0.0045, // 45 micron
418 0.0045, // 45 micron
419 0.0105, // 105 micron
420 0.00, // ?
421 0.00, // ?
422 0.00);// ?
423 fUnifSDDModule=kTRUE;
424 }
425
f76750d6 426 fSDDLadderShift1[0] = GetUnif(-fSDDBarrel[0],fSDDBarrel[0]);
427 fSDDLadderShift1[1] = GetUnif(-fSDDBarrel[1],fSDDBarrel[1]);
428 fSDDLadderShift1[2] = GetUnif(-fSDDBarrel[2],fSDDBarrel[2]);
429 fSDDLadderShift1[3] = GetUnif(-fSDDBarrel[3],fSDDBarrel[3]);
430 fSDDLadderShift1[4] = GetUnif(-fSDDBarrel[4],fSDDBarrel[4]);
431 fSDDLadderShift1[5] = GetUnif(-fSDDBarrel[5],fSDDBarrel[5]);
432
433 for(Int_t ii=0; ii<6; ii++)
434 fSDDLadderShift2[ii] = fSDDLadderShift1[ii];
435
436 // layer SDD1
437 fSDDLadderShift1[0] += GetUnif(-fSDDLayer[0],fSDDLayer[0]);
438 fSDDLadderShift1[1] += GetUnif(-fSDDLayer[1],fSDDLayer[1]);
439 fSDDLadderShift1[2] += GetUnif(-fSDDLayer[2],fSDDLayer[2]);
440 fSDDLadderShift1[3] += GetUnif(-fSDDLayer[3],fSDDLayer[3]);
441 fSDDLadderShift1[4] += GetUnif(-fSDDLayer[4],fSDDLayer[4]);
442 fSDDLadderShift1[5] += GetUnif(-fSDDLayer[5],fSDDLayer[5]);
443
444 // layer SDD2
445 fSDDLadderShift2[0] += GetUnif(-fSDDLayer[0],fSDDLayer[0]);
446 fSDDLadderShift2[1] += GetUnif(-fSDDLayer[1],fSDDLayer[1]);
447 fSDDLadderShift2[2] += GetUnif(-fSDDLayer[2],fSDDLayer[2]);
448 fSDDLadderShift2[3] += GetUnif(-fSDDLayer[3],fSDDLayer[3]);
449 fSDDLadderShift2[4] += GetUnif(-fSDDLayer[4],fSDDLayer[4]);
450 fSDDLadderShift2[5] += GetUnif(-fSDDLayer[5],fSDDLayer[5]);
edccc22d 451
452}
f76750d6 453
edccc22d 454//_______________________________________________________________________________________
455void AliITSMisAligner::SetSSDMisAlignment()
456{
457 // Set misalignment for SSD alignable volumes for the standar scenarios (zero, residual, full)
458 // To make custom misalignments set directly the misalignments at each level (methods "SetSSD*Pars")
459 //
460 if(TString(GetMisalType())=="ideal"){
461
462 // zero misalignment at the level of SSD barrel
463 SetSSDBarrelPars(0.,0.,0.,0.,0.,0.);
464 // zero misalignment at the level of SSD ladders
465 SetSSDLadderSigmas(0.,0.,0.,0.,0.,0.);
466 // zero misalignment at the level of SSD modules
467 SetSSDModuleSigmas(0.,0.,0.,0.,0.,0.);
f76750d6 468
edccc22d 469 }else if(TString(GetMisalType())=="residual"){
470
471 // zero misalignment at the level of SSD barrel
472 SetSSDBarrelPars(0.,0.,0.,0.,0.,0.);
473 // misalignment at the level of SSD ladders (source: M. Van Leeuwen)
474 // values set so that overall maximum displacement (combined effect of shift and rotation
475 // of the ladder) for any point of the ladder cannot exceed 10um in x, 100 um in y, 50um in z
476 SetSSDLadderSigmas( 0.0005, // 5 microns
477 0.0033, // 33 microns
478 0.0050, // 50 microns
479 0.000067*kRadToDeg, // 0.067 mrads
480 0.00001*kRadToDeg, // 0.01 mrads
481 0.001*kRadToDeg); // 1 mrad
482 fUnifSSDLadder=kTRUE;
483
484 // misalignment at the level of SSD modules (source: M. Van Leeuwen)
485 // values set so that overall maximum displacement (combined effect of shift and rotation
486 // of the ladder) for any point of the module cannot exceed 5um in x, 10 um in y, 5um in z
487 SetSSDModuleSigmas( 0.00025, // 2.5 microns
488 0.00034, // 3.4 microns
489 0.0005, // 5 microns
490 0.00017*kRadToDeg, // 0.17 mrads
491 0.000125*kRadToDeg, // 0.125 mrads
492 0.0001*kRadToDeg); // 0.1 mrads
493 fUnifSSDModule=kTRUE;
494
495 }else if(TString(GetMisalType())=="full"){
496 // misalignment at the level of SSD layers (source: B. Giraudo)
497 SetSSDBarrelPars( GetUnif(-0.0020,0.0020), // 20 micron
498 GetUnif(-0.0020,0.0020), // 20 micron
499 GetUnif(-0.0020,0.0020), // 20 micron
500 GetUnif(-0.0020/90.*kRadToDeg,0.0020), // so as to have 20 micron difference at the two extremes
501 GetUnif(-0.0020/90.*kRadToDeg,0.0020), // so as to have 20 micron difference at the two extremes
502 GetUnif(-0.0020/40.*kRadToDeg,0.0020)); // so as to have 20 micron difference at the two extremes
f76750d6 503
edccc22d 504 // misalignment at the level of SSD ladders (source: M. Van Leeuwen)
505 // values set so that overall maximum displacement (combined effect of shift and rotation
506 // of the ladder) for any point of the ladder cannot exceed 20um in x, 100 um in y, 50um in z
507 SetSSDLadderSigmas( 0.0010, // 10 microns
508 0.0033, // 33 microns
509 0.0050, // 50 microns
510 0.000067*kRadToDeg, // 0.067 mrads
511 0.00002*kRadToDeg, // 0.02 mrads
512 0.001*kRadToDeg); // 1 mrad
513 fUnifSSDLadder=kTRUE;
514
515 // misalignment at the level of SSD modules (source: M. Van Leeuwen)
516 // values set so that overall maximum displacement (combined effect of shift and rotation
517 // of the ladder) for any point of the module cannot exceed 5um in x, 10 um in y, 5um in z
518 SetSSDModuleSigmas( 0.00025, // 2.5 microns
519 0.00034, // 3.4 microns
520 0.0005, // 5 microns
521 0.00017*kRadToDeg, // 0.17 mrads
522 0.000125*kRadToDeg, // 0.125 mrads
523 0.0001*kRadToDeg); // 0.1 mrads
524 fUnifSSDModule=kTRUE;
525 }
526
edccc22d 527}
528
529//_______________________________________________________________________________________
530AliCDBMetaData* AliITSMisAligner::GetCDBMetaData() const {
531 // Returns the AliCDBMetaData to be associated with AliCDBEntry which will contain
532 // the array of alignment objects for ITS misalignment
533 // Presently "responsible" and "comment" are filled.
534 //
f76750d6 535 AliCDBMetaData* md = new AliCDBMetaData();
536 md->SetResponsible("A. Dainese, M. Van Leeuwen, R. Grosso");
edccc22d 537
f76750d6 538 if(TString(GetMisalType())=="ideal")
539 md->SetComment(
540 Form("Alignment objects for ITS ideal misalignment. It includes:"
541 "\n survey of whole ITS;"
542 "\n survey of SSD ladders and modules"));
543 if(TString(GetMisalType())=="residual")
544 md->SetComment(
545 Form("Alignment objects for ITS residual misalignment. It includes:"
546 "\n survey of whole ITS;"
547 "\n survey of SSD ladders and modules"));
548 if(TString(GetMisalType())=="full")
549 md->SetComment(
550 Form("Alignment objects for ITS full misalignment. It includes:"
551 "\n survey of whole ITS;"
552 "\n survey of SSD ladders and modules"));
553 return md;
edccc22d 554}
555
edccc22d 556//________________________________________________________________________
f76750d6 557Bool_t AliITSMisAligner::AddAlignObj(char* name,Double_t dx,Double_t dy,Double_t dz,
558 Double_t dpsi,Double_t dtheta,Double_t dphi,const char* distrib) {
559 //
560 // misalignment by symname
561 //
562 Double_t vx=0.,vy=0.,vz=0.,vpsi=0.,vtheta=0.,vphi=0.;
edccc22d 563
f76750d6 564 TString sdistrib(distrib);
edccc22d 565
f76750d6 566 if(sdistrib==TString("gaussian")) {
edccc22d 567 vx = AliMathBase::TruncatedGaus(0.,dx/3.,dx); // mean, sigma, max absolute value
568 vy = AliMathBase::TruncatedGaus(0.,dy/3.,dy);
569 vz = AliMathBase::TruncatedGaus(0.,dz/3.,dz);
f76750d6 570 vpsi = AliMathBase::TruncatedGaus(0.,dpsi/3., dpsi );
edccc22d 571 vtheta = AliMathBase::TruncatedGaus(0.,dtheta/3.,dtheta);
f76750d6 572 vphi = AliMathBase::TruncatedGaus(0.,dphi/3., dphi);
573 }else if(sdistrib==TString("uniform")){
edccc22d 574 vx = fRnd.Uniform(-dx,dx);
575 vy = fRnd.Uniform(-dy,dy);
576 vz = fRnd.Uniform(-dz,dz);
577 vpsi = fRnd.Uniform(-dpsi,dpsi);
578 vtheta = fRnd.Uniform(-dtheta,dtheta);
579 vphi = fRnd.Uniform(-dphi,dphi);
f76750d6 580 }else if(sdistrib==TString("fixed")){
581 vx=dx;
582 vy=dy;
583 vz=dz;
584 vpsi=dpsi;
585 vtheta=dtheta;
586 vphi=dphi;
587 }else{
a5a317a9 588 AliFatal(Form("Invalid string \"%s\" specifying the misalignment type for the volume \"%s\"",sdistrib.Data(),name));
f76750d6 589 }
edccc22d 590
f76750d6 591 new((*fAlignObjArray)[fInd]) AliAlignObjParams(name,0,vx,vy,vz,vpsi,vtheta,vphi,kFALSE);
edccc22d 592
f76750d6 593 AliAlignObjParams* itsalobj = (AliAlignObjParams*) fAlignObjArray->UncheckedAt(fInd);
594 itsalobj->ApplyToGeometry();
edccc22d 595
f76750d6 596 fInd++;
597
598 return kTRUE;
599}
600
601
602//________________________________________________________________________
603Bool_t AliITSMisAligner::AddAlignObj(Int_t lay,Double_t dx,Double_t dy,Double_t dz,
604 Double_t dpsi,Double_t dtheta,Double_t dphi,Bool_t unif) {
605 //
606 // misalignment at the level of sensitive alignable volumes (SPD ladders/ SDD,SSD modules)
607 // done for all ladders/modules of the given layer
608 //
609 lay+=1; // layers are numbered from 1 to 6 in AliGeomManager
610
611 printf("LAYER %d MODULES %d\n",lay,AliGeomManager::LayerSize(lay));
612
613 for (Int_t iModule = 0; iModule < AliGeomManager::LayerSize(lay); iModule++) {
614
615 Double_t vx,vy,vz,vpsi,vtheta,vphi;
616
617 if(!unif) {
618 vx = AliMathBase::TruncatedGaus(0.,dx/3.,dx); // mean, sigma, max absolute value
619 vy = AliMathBase::TruncatedGaus(0.,dy/3.,dy);
620 vz = AliMathBase::TruncatedGaus(0.,dz/3.,dz);
621 vpsi = AliMathBase::TruncatedGaus(0.,dpsi/3.,dpsi);
622 vtheta = AliMathBase::TruncatedGaus(0.,dtheta/3.,dtheta);
623 vphi = AliMathBase::TruncatedGaus(0.,dphi/3.,dphi);
624 } else {
625 vx = fRnd.Uniform(-dx,dx);
626 vy = fRnd.Uniform(-dy,dy);
627 vz = fRnd.Uniform(-dz,dz);
628 vpsi = fRnd.Uniform(-dpsi,dpsi);
629 vtheta = fRnd.Uniform(-dtheta,dtheta);
630 vphi = fRnd.Uniform(-dphi,dphi);
631 }
edccc22d 632
f76750d6 633 UShort_t volid = AliGeomManager::LayerToVolUID(lay,iModule);
634 const char *symname = AliGeomManager::SymName(volid);
635
636 new((*fAlignObjArray)[fInd]) AliAlignObjParams(symname,volid,vx,vy,vz,vpsi,vtheta,vphi,kFALSE);
637 fInd++;
edccc22d 638 }
f76750d6 639
640 return kTRUE;
641}
642
643//________________________________________________________________________
644Bool_t AliITSMisAligner::AddAlignObj(Int_t lay,Int_t ladd,Double_t dx,Double_t dy,Double_t dz,
645 Double_t dpsi,Double_t dtheta,Double_t dphi,
646 Double_t xShift,Double_t yShift,Double_t zShift,
647 Double_t psiShift,Double_t thetaShift,Double_t phiShift,
648 Bool_t unif) {
649 //
650 // misalignment at the level of half-staves/ladders (ladd=-1 means that all ladders are scanned)
651 //
652 Double_t vx,vy,vz,vpsi,vtheta,vphi;
653 Double_t tr[3],rot[3];
654
655 Int_t laddMin = ladd;
656 Int_t laddMax = laddMin+1;
657 if (ladd<0) {
658 laddMin = 0;
659 laddMax = fgkNLadders[lay];
660 }
661
662 for (Int_t iLadd=laddMin; iLadd<laddMax; iLadd++) {
663
664 Int_t nHS = 1;
665 if (lay<2) nHS = 2;
666 for (Int_t iHalfStave=0; iHalfStave<nHS; iHalfStave++) {
667
668 if(!unif) {
669 vx = AliMathBase::TruncatedGaus(0.,dx/3.,dx); // mean, sigma, max absolute value
670 vy = AliMathBase::TruncatedGaus(0.,dy/3.,dy);
671 vz = AliMathBase::TruncatedGaus(0.,dz/3.,dz);
672 vpsi = AliMathBase::TruncatedGaus(0.,dpsi/3.,dpsi);
673 vtheta = AliMathBase::TruncatedGaus(0.,dtheta/3.,dtheta);
674 vphi = AliMathBase::TruncatedGaus(0.,dphi/3.,dphi);
675 } else {
676 vx = fRnd.Uniform(-dx,dx);
677 vy = fRnd.Uniform(-dy,dy);
678 vz = fRnd.Uniform(-dz,dz);
679 vpsi = fRnd.Uniform(-dpsi,dpsi);
680 vtheta = fRnd.Uniform(-dtheta,dtheta);
681 vphi = fRnd.Uniform(-dphi,dphi);
682 }
683
684 TString name(GetHalfStaveLadderSymbName(lay,iLadd,iHalfStave));
685
686 // first apply half-stave / ladder level misalignment
687 AliAlignObjParams aaop(name.Data(),0,vx,vy,vz,vpsi,vtheta,vphi,kFALSE); // set them as local
688 aaop.GetPars(tr,rot); // global
689
690 // then, apply layer-level misalignment (only for SDD and SSD)
691 if(lay>1) {
692 tr[0] += xShift;
693 tr[1] += yShift;
694 tr[2] += zShift;
695 rot[0] += psiShift;
696 rot[1] += thetaShift;
697 rot[2] += phiShift;
698 }
699 new((*fAlignObjArray)[fInd]) AliAlignObjParams(name.Data(),0,tr[0],tr[1],tr[2],rot[0],rot[1],rot[2],kTRUE); // set them as global
700
701 AliAlignObjParams* itsalobj = (AliAlignObjParams*) fAlignObjArray->UncheckedAt(fInd);
702 itsalobj->ApplyToGeometry();
703 fInd++;
704 }
705 }
706
707 return kTRUE;
edccc22d 708}
709
710
711//________________________________________________________________________
712Bool_t AliITSMisAligner::AddSectorAlignObj(Int_t sectMin,Int_t sectMax,
f76750d6 713 Double_t dx,Double_t dy,Double_t dz,
714 Double_t dpsi,Double_t dtheta,Double_t dphi,
715 Double_t xShift,Double_t yShift,Double_t zShift,
716 Double_t psiShift,Double_t thetaShift,Double_t phiShift,Bool_t unif) {
717 //
718 // misalignment at the level of SPD sectors and half-barrels
719 //
edccc22d 720
f76750d6 721 if ((sectMin<1) || (sectMax>10)) return kFALSE;
722 Double_t vx,vy,vz,vpsi,vtheta,vphi;
723 Double_t tr[3],rot[3];
724
725 for (Int_t iSect = sectMin-1; iSect<sectMax; iSect++) {
726
727 // first, apply sector level misalignment
728 if(!unif) {
729 vx = AliMathBase::TruncatedGaus(0.,dx/3.,dx); // mean, sigma, max absolute value
730 vy = AliMathBase::TruncatedGaus(0.,dy/3.,dy);
731 vz = AliMathBase::TruncatedGaus(0.,dz/3.,dz);
732 vpsi = AliMathBase::TruncatedGaus(0.,dpsi/3.,dpsi);
733 vtheta = AliMathBase::TruncatedGaus(0.,dtheta/3.,dtheta);
734 vphi = AliMathBase::TruncatedGaus(0.,dphi/3.,dphi);
735 } else {
736 vx = fRnd.Uniform(-dx,dx);
737 vy = fRnd.Uniform(-dy,dy);
738 vz = fRnd.Uniform(-dz,dz);
739 vpsi = fRnd.Uniform(-dpsi,dpsi);
740 vtheta = fRnd.Uniform(-dtheta,dtheta);
741 vphi = fRnd.Uniform(-dphi,dphi);
742 }
edccc22d 743
f76750d6 744 TString name(GetSymbName(0));
745 name += fStrSector;
746 name += iSect;
edccc22d 747
edccc22d 748
f76750d6 749 AliAlignObjParams aaop(name.Data(),0,vx,vy,vz,vpsi,vtheta,vphi,kFALSE); // set them as local
750 aaop.GetPars(tr,rot); // global
edccc22d 751
f76750d6 752 // then, apply half-barrel level misalignment
753 tr[0] += xShift;
754 tr[1] += yShift;
755 tr[2] += zShift;
756 rot[0] += psiShift;
757 rot[1] += thetaShift;
758 rot[2] += phiShift;
edccc22d 759
f76750d6 760 new((*fAlignObjArray)[fInd]) AliAlignObjParams(name.Data(),0,tr[0],tr[1],tr[2],rot[0],rot[1],rot[2],kTRUE); // set them as global
761
762 AliAlignObjParams* itsalobj = (AliAlignObjParams*) fAlignObjArray->UncheckedAt(fInd);
763 itsalobj->ApplyToGeometry();
764 fInd++;
765 }
766 return kTRUE;
edccc22d 767}
768
769//________________________________________________________________________
770const char* AliITSMisAligner::GetSymbName(Int_t layer) const {
f76750d6 771 //
772 // be careful : SPD0 and SPD1 are not physically separated
773 //
774 TString name;
775 switch (layer) {
776 case 0:
777 case 1: name = fStrSPD; name += layer; break;
778 case 2:
779 case 3: name = fStrSDD; name += layer; break;
780 case 4:
781 case 5: name = fStrSSD; name += layer; break;
782 default: AliFatal("Wrong layer index");
783 }
784 return name.Data();
edccc22d 785}
786
787//________________________________________________________________________
788const char* AliITSMisAligner::GetSymbName(Int_t layer, Int_t ladder, Int_t det) const {
f76750d6 789 //
790 // symname from layer, ladder, detector
791 //
792 TString symname(GetHalfStaveLadderSymbName(layer,ladder,det));
793 if(layer<=2){
794 symname+="Ladder";
795 }else if(layer<=6){
796 symname+="Sensor";
797 }else{
798 AliError("Invalid layer!");
799 return 0;
800 }
801 symname+=det;
802 return symname.Data();
edccc22d 803}
804
805//________________________________________________________________________
806const char* AliITSMisAligner::GetSymbName(Int_t layer,Int_t ladd) const {
f76750d6 807 //
808 // Get logical names at the level of staves / ladders
809 //
810 TString name(GetSymbName(layer));
811 if (layer==0) { // SPD1
812
813 int sector = ladd/2;
814 name += fStrSector;
815 name += sector;
816 int stave = ladd-sector*2;
817 name += fStrStave;
818 name += stave;
819 }
820 else if (layer==1) { // SPD2
821
822 int sector = ladd/4;
823 name += fStrSector;
824 name += sector;
825 int stave = ladd-sector*4;
826 name += fStrStave;
827 name += stave;
828 }
829 else if (layer>=2 && layer<=5) { // SDD and SSD
830 name += fStrLadder;
831 name += ladd;
832 }
833 else {
834 AliFatal("Wrong layer index");
835 }
836 return name.Data();
edccc22d 837}
838
839//________________________________________________________________________
840const char* AliITSMisAligner::GetHalfStaveLadderSymbName(Int_t layer,Int_t ladd,Int_t halfStave) const {
f76750d6 841 //
842 // Get logical names at the level of half-staves (SPD) or ladders (SDD and SSD)
843 //
844 TString name(GetSymbName(layer));
845 if (layer==0) { // SPD1
846
847 int sector = ladd/2;
848 name += fStrSector;
849 name += sector;
850 int stave = ladd-sector*2;
851 name += fStrStave;
852 name += stave;
853 name += fStrHalfStave;
854 name += halfStave;
855 }
856 else if (layer==1) { // SPD2
857
858 int sector = ladd/4;
859 name += fStrSector;
860 name += sector;
861 int stave = ladd-sector*4;
862 name += fStrStave;
863 name += stave;
864 name += fStrHalfStave;
865 name += halfStave;
866 }
867 else if (layer>=2 && layer<=5) { // SDD and SSD
868 name += fStrLadder;
869 name += ladd;
870 }
871 else {
872 AliFatal("Wrong layer index");
873 }
874 return name.Data();
edccc22d 875}
876
877//________________________________________________________________________
878const char* AliITSMisAligner::GetParentSymName(const char* symname) {
f76750d6 879 //
880 // symnane of parent volume
881 //
882 TString parent(symname);
883 // Give the symname of
884 if(parent.BeginsWith('/')) parent.Remove(TString::kLeading,'/');
885 if(parent.EndsWith("/")) parent.Remove(TString::kTrailing,'/');
886
887 if(!parent.CountChar('/')) AliErrorClass("Not a valid symbolic name");
888
889 Int_t layer,level;
890 GetLayerAndLevel(symname,layer,level);
891 if(level==1) return "ITS";
edccc22d 892
edccc22d 893 parent.Remove(parent.Last('/'));
f76750d6 894
895 if((layer==0 || layer==1) && level==2){
896 parent.Remove(parent.Last('/'));
897 parent[7]='0';
898 }
899
900 return parent.Data();
edccc22d 901}
902
903//________________________________________________________________________
904Bool_t AliITSMisAligner::GetLayerAndLevel(const char* symname, Int_t &layer, Int_t &level) {
f76750d6 905 //
906 // given the symbolic name set layer and level
907 //
908 const char* basename[6] = {"ITS/SPD0/Sector","ITS/SPD1/Sector","ITS/SDD2/Ladder","ITS/SDD3/Ladder","ITS/SSD4/Ladder","ITS/SSD5/Ladder"};
909 TString strSym(symname);
910 if(strSym=="ITS"){
911 level=0;
912 layer=-1;
913 return kTRUE;
914 }
915 Int_t i;
916 for(i=0; i<6; i++){
917 if(strSym.BeginsWith(basename[i])) break;
918 }
919
920 if(i>=6){
921 AliErrorClass(Form("%s is not a valid symbolic name for an ITS alignable volume",strSym.Data()));
922 return kFALSE;
923 }
924
925 layer=i;
926 //The part above could be replaced by just
927 // TString seventh = strSym[7];
928 // layer = seventh.Atoi();
929 // if we don't need to check the validity of the symname
930
931 level=1;
932 switch(layer){
933 case 0:
934 case 1:
935 if(strSym.Contains("Stave")) level=2;
936 if(strSym.Contains("Ladder")) level=3;
937 break;
938 case 2:
939 case 3:
940 case 4:
941 case 5:
942 if(strSym.Contains("Sensor")) level=2;
943 }
944
edccc22d 945 return kTRUE;
edccc22d 946}
947
948//________________________________________________________________________
949Int_t AliITSMisAligner::GetNSisters(const char* symname) {
f76750d6 950 //
951 // number of volumes on same level
952 //
953 Int_t layer,level;
954 if(!GetLayerAndLevel(symname,layer,level)) return -1;
955 if(level==0) return -1;
956 if(level==1) return GetNLadders(layer);
957 if(level==2) return GetNDetectors(layer);
958 AliErrorClass(Form("Invalid layer and level"));
959 return -1;
edccc22d 960}
961
962//________________________________________________________________________
963Int_t AliITSMisAligner::GetNDaughters(const char* symname) {
f76750d6 964 //
965 // number of daughter volumes
966 //
967 Int_t layer,level;
968 if(!GetLayerAndLevel(symname,layer,level)) return -1;
969 if(level==0) {
970 Int_t nLadders = 0;
971 for(Int_t lay=0; lay<6; lay++) nLadders += GetNLadders(lay);
972 return nLadders;
973 }
974 if(level==1) return GetNDetectors(layer);
975 if(level==2){
976 AliWarningClass(Form("Volume %s is a sensitive volume and has no alignable dauthers",symname));
977 return -1;
978 }
979 AliErrorClass(Form("Invalid layer and level"));
edccc22d 980 return -1;
edccc22d 981}
982
983/*
984//________________________________________________________________________
985TString AliITSMisAligner::GetSymbName(Int_t layer,Int_t ladd,Int_t mod) const {
986
f76750d6 987// Get logical names at the level of SPD ladders / SDD and SSD modules
988
989Int_t halfStave = mod/2;
990TString name = GetHalfStaveLadderSymbName(layer,ladd,halfStave);
991
992if (layer<2) { // SPD
993name += fStrLadder;
994name += mod;
995}
996else if (layer>=2 && layer<=5) { // SDD and SSD
997name += fStrSensor;
998name += mod;
999}
1000else {
1001AliFatal("Wrong layer index");
1002}
1003return name;
edccc22d 1004}
1005*/