Fixes for Coverity warnings (M. van Leeuwen)
[u/mrichter/AliRoot.git] / ITS / AliITSv11Hybrid.cxx
CommitLineData
108bd0fe 1/**************************************************************************
e9ae6a14 2 * Copyright(c) 2007-2009, ALICE Experiment at CERN, All rights reserved. *
108bd0fe 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
7ab0715c 16
cc8a4c78 17/* $Id$ */
7ab0715c 18
19
8f8273a4 20//========================================================================
21//
22// Geometry of the Inner Tracking System
b0c0f648 23// ---------------------------------------
8f8273a4 24// This geometry is a mix between the old geometry (originally coded
25// in AliITSvPPRasymmFMD) and the new TGeo geometry (v11).
26// The flags which indicate whether the old or the new part is used
27// is set in AliITSInitGeometry.cxx
28//
29// Ludovic Gaudichet (gaudichet@to.infn.it)
30//
31//========================================================================
32
33
012f0f4c 34
54c9a3d9 35// $Log: AliITSv11Hybrid.cxx,v $
36// Revision 1.14 2008/01/10 11:14:13 masera
37// SPD/SDD thermal shield and SPD cones updated (M. Sitta)
38//
a275e8ba 39// Revision 1.13 2007/12/20 16:58:46 masera
40// bug fixes for SPD1 and SDD1 (A. Dainese)
41//
3bc3f729 42// Revision 1.12 2007/12/17 14:48:23 masera
43// Thermal shield between SPD and SDD (M. Sitta)
44//
b0c0f648 45// Revision 1.11 2007/11/22 08:32:48 masera
46// Second thermal shield updated in agreement with the installed one. Correction concerning the chemical composition of Rohacell (M.Sitta)
47//
074b8e6f 48// Revision 1.10 2007/11/19 17:01:26 masera
49// SSD ladder supports + endcaps systems (E. Cattaruzza)
50//
e5bf64ae 51// Revision 1.9 2007/10/21 19:22:53 masera
52// Coding conventions
53//
7ab0715c 54// Revision 1.8 2007/10/21 18:59:10 masera
55// SPD new geometry added to Hybrid V11
56//
dbfc6ce6 57// Revision 1.7 2007/08/24 14:32:57 hristov
58// Introduction of SPD half-stave volumes, cleaning and new code (in relation to new SPD geometry) in AliITSv11Hybrid (Ludovic)
59//
8f8273a4 60// Revision 1.6 2007/07/27 08:12:39 morsch
61// Write all track references into the same branch.
62//
e6add757 63// Revision 1.5 2007/06/28 10:17:25 masera
64// Introduction of the new SSD geometry in simulation (AliITSv11Hybrid) and suppression of overlaps between old and new parts
65//
bf210566 66// Revision 1.4 2007/05/09 20:40:41 masera
67// Bug fix (V11Hybrid geometry)
68//
75473741 69// Revision 1.3 2007/05/08 16:57:42 masera
70// Updates concerning the geometry: versioning system, new V11hybrid version, bug fixes (B.Nilsend and L. Gaudichet
71//
108bd0fe 72
108bd0fe 73#include <TClonesArray.h>
f7a1cc68 74#include <TGeoGlobalMagField.h>
7dd2cbe4 75#include <TGeoManager.h>
108bd0fe 76#include <TGeoMatrix.h>
77#include <TGeoPhysicalNode.h>
108bd0fe 78#include <TGeoVolume.h>
b0c0f648 79#include <TGeoXtru.h>
7dd2cbe4 80#include <TLorentzVector.h>
81#include <TString.h>
108bd0fe 82#include <TVirtualMC.h>
83
84#include "AliITS.h"
85#include "AliITSDetTypeSim.h"
108bd0fe 86#include "AliITShit.h"
108bd0fe 87#include "AliITSCalibrationSDD.h"
108bd0fe 88#include "AliITSsegmentationSDD.h"
89#include "AliITSsegmentationSPD.h"
90#include "AliITSsegmentationSSD.h"
91#include "AliITSv11Hybrid.h"
92#include "AliLog.h"
93#include "AliMC.h"
94#include "AliMagF.h"
95#include "AliRun.h"
96#include "AliTrackReference.h"
97#include "AliITSInitGeometry.h"
8f8273a4 98#include "AliITSv11GeometrySPD.h"
108bd0fe 99#include "AliITSv11GeometrySDD.h"
bf210566 100#include "AliITSv11GeometrySSD.h"
a275e8ba 101#include "AliITSv11GeometrySupport.h"
b2e5530c 102#include "AliGeomManager.h"
108bd0fe 103
104
108bd0fe 105ClassImp(AliITSv11Hybrid)
106
107//______________________________________________________________________
108AliITSv11Hybrid::AliITSv11Hybrid():
108bd0fe 109 fByThick(kTRUE),
110 fMajorVersion(IsVersion()),
111 fMinorVersion(-1),
112 fDet1(0),
113 fDet2(0),
114 fChip1(0),
115 fChip2(0),
116 fRails(0),
117 fFluid(0),
118 fIDMother(0),
012f0f4c 119 fInitGeom((AliITSVersion_t)fMajorVersion,fMinorVersion),
8f8273a4 120 fSPDgeom(0),
bf210566 121 fSDDgeom(0),
a275e8ba 122 fSSDgeom(0),
123 fSupgeom(0)
108bd0fe 124 {
012f0f4c 125 // Standard default constructor
108bd0fe 126 // Inputs:
127 // none.
128 // Outputs:
129 // none.
130 // Return:
131 // none.
108bd0fe 132}
8f8273a4 133
134//______________________________________________________________________
135AliITSv11Hybrid::AliITSv11Hybrid(const char *title)
136 : AliITS("ITS", title),
8f8273a4 137 fByThick(kTRUE),
138 fMajorVersion(IsVersion()),
139 fMinorVersion(1),
140 fDet1(200.0),
141 fDet2(200.0),
142 fChip1(150.0),
143 fChip2(150.0),
144 fRails(0),
145 fFluid(1),
146 fIDMother(0),
147 fInitGeom((AliITSVersion_t)fMajorVersion,fMinorVersion),
148 fSPDgeom(0),
149 fSDDgeom(0),
a275e8ba 150 fSSDgeom(0),
151 fSupgeom(0)
152{
8f8273a4 153 // Standard constructor for the v11Hybrid geometry.
154 // Inputs:
155 // const char * title Arbitrary title
156 // Outputs:
157 // none.
158 // Return:
159 // none.
160 Int_t i;
161
162 fSPDgeom = new AliITSv11GeometrySPD();
163 fSDDgeom = new AliITSv11GeometrySDD(0);
164 fSSDgeom = new AliITSv11GeometrySSD();
a275e8ba 165 fSupgeom = new AliITSv11GeometrySupport();
8f8273a4 166
167 fIdN = 6;
168 fIdName = new TString[fIdN];
169
170 if (AliITSInitGeometry::SPDIsTGeoNative()) {
dbfc6ce6 171 fIdName[0] = fSPDgeom->GetSenstiveVolumeName1();
172 fIdName[1] = fSPDgeom->GetSenstiveVolumeName2();
8f8273a4 173 } else {
174 fIdName[0] = "ITS1";
175 fIdName[1] = "ITS2";
176 }
177
178 if (AliITSInitGeometry::SDDIsTGeoNative()) {
179 fIdName[2] = fSDDgeom->GetSenstiveVolumeName3();
180 fIdName[3] = fSDDgeom->GetSenstiveVolumeName4();
181 } else {
182 fIdName[2] = "ITS3";
183 fIdName[3] = "ITS4";
184 }
185
186 if (AliITSInitGeometry::SSDIsTGeoNative()) {
187 fIdName[4] = fSSDgeom->GetSenstiveVolumeName5();
188 fIdName[5] = fSSDgeom->GetSenstiveVolumeName6();
189 } else {
190 fIdName[4] = "ITS5";
191 fIdName[5] = "ITS6";
192 }
193
194 fIdSens = new Int_t[fIdN];
195 for(i=0;i<fIdN;i++) fIdSens[i] = 0;
196 SetThicknessDet1();
197 SetThicknessDet2();
198 SetThicknessChip1();
199 SetThicknessChip2();
200 SetDensityServicesByThickness();
201
8f8273a4 202}
203
108bd0fe 204//______________________________________________________________________
205AliITSv11Hybrid::AliITSv11Hybrid(const char *name, const char *title)
206 : AliITS("ITS", title),
108bd0fe 207 fByThick(kTRUE),
208 fMajorVersion(IsVersion()),
8f8273a4 209 fMinorVersion(1),
210 fDet1(200.0),
211 fDet2(200.0),
212 fChip1(150.0),
213 fChip2(150.0),
108bd0fe 214 fRails(0),
8f8273a4 215 fFluid(1),
108bd0fe 216 fIDMother(0),
012f0f4c 217 fInitGeom((AliITSVersion_t)fMajorVersion,fMinorVersion),
8f8273a4 218 fSPDgeom(0),
bf210566 219 fSDDgeom(0),
a275e8ba 220 fSSDgeom(0),
221 fSupgeom(0)
222{
012f0f4c 223 // Standard constructor for the v11Hybrid geometry.
108bd0fe 224 // Inputs:
225 // const char * name Ignored, set to "ITS"
226 // const char * title Arbitrary title
227 // Outputs:
228 // none.
229 // Return:
230 // none.
231 Int_t i;
bf210566 232
8f8273a4 233 fSPDgeom = new AliITSv11GeometrySPD();
bf210566 234 fSDDgeom = new AliITSv11GeometrySDD(0);
235 fSSDgeom = new AliITSv11GeometrySSD();
a275e8ba 236 fSupgeom = new AliITSv11GeometrySupport();
108bd0fe 237
238 fIdN = 6;
239 fIdName = new TString[fIdN];
8f8273a4 240
241 (void) name; // removes warning message
242
243 if (AliITSInitGeometry::SPDIsTGeoNative()) {
dbfc6ce6 244 fIdName[0] = fSPDgeom->GetSenstiveVolumeName1();
245 fIdName[1] = fSPDgeom->GetSenstiveVolumeName2();
8f8273a4 246 } else {
247 fIdName[0] = "ITS1";
248 fIdName[1] = "ITS2";
249 }
250
108bd0fe 251 if (AliITSInitGeometry::SDDIsTGeoNative()) {
252 fIdName[2] = fSDDgeom->GetSenstiveVolumeName3();
253 fIdName[3] = fSDDgeom->GetSenstiveVolumeName4();
254 } else {
255 fIdName[2] = "ITS3";
256 fIdName[3] = "ITS4";
257 }
bf210566 258
259 if (AliITSInitGeometry::SSDIsTGeoNative()) {
260 fIdName[4] = fSSDgeom->GetSenstiveVolumeName5();
261 fIdName[5] = fSSDgeom->GetSenstiveVolumeName6();
262 } else {
263 fIdName[4] = "ITS5";
264 fIdName[5] = "ITS6";
265 }
108bd0fe 266
108bd0fe 267 fIdSens = new Int_t[fIdN];
268 for(i=0;i<fIdN;i++) fIdSens[i] = 0;
269 SetThicknessDet1();
270 SetThicknessDet2();
271 SetThicknessChip1();
272 SetThicknessChip2();
273 SetDensityServicesByThickness();
274
108bd0fe 275}
8f8273a4 276
108bd0fe 277//______________________________________________________________________
278AliITSv11Hybrid::~AliITSv11Hybrid() {
279 // Standard destructor
280 // Inputs:
281 // none.
282 // Outputs:
283 // none.
284 // Return:
285 // none.
8f8273a4 286 delete fSPDgeom;
108bd0fe 287 delete fSDDgeom;
bf210566 288 delete fSSDgeom;
a275e8ba 289 delete fSupgeom;
108bd0fe 290}
291
292//______________________________________________________________________
b2e5530c 293void AliITSv11Hybrid::SetT2Lmatrix(Int_t uid, Double_t yShift,
bf210566 294 Bool_t yFlip, Bool_t yRot180)
108bd0fe 295 const {
296
297 //
298 // Creates the TGeo Local to Tracking transformation matrix
299 // and sends it to the corresponding TGeoPNEntry
300 //
301 // This function is used in AddAlignableVolumes()
302
b2e5530c 303 TGeoPNEntry *alignableEntry = gGeoManager->GetAlignableEntryByUID(uid);
304 TGeoHMatrix* globMatrix = alignableEntry->GetGlobalOrig();
108bd0fe 305
306 Double_t *gtrans = globMatrix->GetTranslation(), rotMatrix[9];
307 memcpy(&rotMatrix[0], globMatrix->GetRotationMatrix(), 9*sizeof(Double_t));
bf210566 308 Double_t al = TMath::ATan2(rotMatrix[1],rotMatrix[0]);
333c948a 309 if (yRot180) {
bf210566 310 al = TMath::ATan2(rotMatrix[1],-rotMatrix[0]);
333c948a 311 }
9c656462 312 Double_t xShift = gtrans[0]*TMath::Cos(al)+gtrans[1]*TMath::Sin(al);
313 Double_t zShift = -gtrans[2];
108bd0fe 314
315 TGeoHMatrix *matLtoT = new TGeoHMatrix;
9c656462 316 matLtoT->SetDx( xShift ); // translation
108bd0fe 317 matLtoT->SetDy( yShift );
9c656462 318 matLtoT->SetDz( zShift );
108bd0fe 319 rotMatrix[0]= 0; rotMatrix[1]= 1; rotMatrix[2]= 0; // + rotation
320 rotMatrix[3]= 1; rotMatrix[4]= 0; rotMatrix[5]= 0;
321 rotMatrix[6]= 0; rotMatrix[7]= 0; rotMatrix[8]=-1;
333c948a 322 if (yFlip) rotMatrix[3] = -1; // flipping in y (for SPD1)
0fcbd059 323 if (yFlip) rotMatrix[1] = -1; // flipping in y (for SPD1)
333c948a 324
325 if (yRot180) { // rotation of pi around the axis perpendicular to the wafer
9c656462 326 if (yFlip) matLtoT->SetDx( -xShift ); // flipping in y (for SPD1)
333c948a 327 matLtoT->SetDy( -yShift );
9c656462 328 matLtoT->SetDz( -zShift );
329 rotMatrix[8]=1;
333c948a 330 rotMatrix[3] = -1;
8f8273a4 331 if (yFlip) rotMatrix[3] = 1; // flipping in y (for SPD1)
333c948a 332 }
108bd0fe 333
334 TGeoRotation rot;
335 rot.SetMatrix(rotMatrix);
336 matLtoT->MultiplyLeft(&rot);
337 TGeoHMatrix *matTtoL = new TGeoHMatrix(matLtoT->Inverse());
338 delete matLtoT;
339 alignableEntry->SetMatrix(matTtoL);
340}
bf210566 341
108bd0fe 342//______________________________________________________________________
54c9a3d9 343void AliITSv11Hybrid::AddAlignableVolumes() const{
108bd0fe 344 // Creates entries for alignable volumes associating the symbolic volume
345 // name with the corresponding volume path.
346 //
347 // Records in the alignable entries the transformation matrices converting
348 // TGeo local coordinates (in the RS of alignable volumes) to the tracking
349 // system
350 // For this, this function has to run before the misalignment because we
351 // are using the ideal positions in the AliITSgeom object.
54c9a3d9 352 // Inputs:
353 // none.
354 // Outputs:
355 // none.
356 // Return:
357 // none.
108bd0fe 358
359 AliInfo("Add ITS alignable volumes");
360
361 if (!gGeoManager) {
362 AliFatal("TGeoManager doesn't exist !");
363 return;
364 }
365
b2e5530c 366 AliGeomManager::ELayerID layerId;
367 Int_t modUID, modnum;
368
108bd0fe 369 if( !gGeoManager->SetAlignableEntry("ITS","ALIC_1/ITSV_1") )
54c9a3d9 370 AliFatal(Form("Unable to set alignable entry ! %s :: %s",
371 "ITS","ALIC_1/ITSV_1"));
108bd0fe 372
108bd0fe 373 TString strSPD = "ITS/SPD";
374 TString strSDD = "ITS/SDD";
375 TString strSSD = "ITS/SSD";
376 TString strStave = "/Stave";
8f8273a4 377 TString strHalfStave = "/HalfStave";
108bd0fe 378 TString strLadder = "/Ladder";
379 TString strSector = "/Sector";
380 TString strSensor = "/Sensor";
381 TString strEntryName1;
382 TString strEntryName2;
383 TString strEntryName3;
8f8273a4 384 TString strEntryName4;
108bd0fe 385
8f8273a4 386 //===== SPD layers =====
b2e5530c 387
8f8273a4 388 if (AliITSInitGeometry::SPDIsTGeoNative()) { // new SPD geometry
389
54c9a3d9 390 TString str0 = "ALIC_1/ITSV_1/ITSSPD_1/ITSSPDCarbonFiberSectorV_";
391 TString str1 = "/ITSSPDSensitiveVirtualvolumeM0_1/ITSSPDlay1-Stave_";
392 TString str1Bis = "/ITSSPDhalf-Stave";
8f8273a4 393 TString str1Tierce = "_1";
54c9a3d9 394 TString str2 = "/ITSSPDlay1-Ladder_";
108bd0fe 395
396 TString sector;
397 TString stave;
8f8273a4 398 TString halfStave;
108bd0fe 399 TString module;
400
b2e5530c 401 layerId = AliGeomManager::kSPD1;
402 modnum = 0;
403
8f8273a4 404 for(Int_t cSect = 0; cSect<10; cSect++) {
108bd0fe 405
406 sector = str0;
8f8273a4 407 sector += cSect+1; // this is one full sector
108bd0fe 408 strEntryName1 = strSPD;
409 strEntryName1 += 0;
410 strEntryName1 += strSector;
8f8273a4 411 strEntryName1 += cSect;
108bd0fe 412 if(!gGeoManager->SetAlignableEntry(strEntryName1.Data(),sector.Data()))
54c9a3d9 413 AliFatal(Form("New lay 1: Unable to set alignable entry 1! %s::%s",
414 strEntryName1.Data(),sector.Data()));
415
8f8273a4 416 for(Int_t cStave=0; cStave<2; cStave++) {
108bd0fe 417
418 stave = sector;
419 stave += str1;
54c9a3d9 420 stave += cStave+1;
108bd0fe 421 strEntryName2 = strEntryName1;
422 strEntryName2 += strStave;
8f8273a4 423 strEntryName2 += cStave;
424
425 for(Int_t cHS=0; cHS<2; cHS++) {
426
427 halfStave = stave;
428 halfStave += str1Bis;
429 halfStave += cHS;
430 halfStave += str1Tierce;
431 strEntryName3 = strEntryName2;
432 strEntryName3 += strHalfStave;
433 strEntryName3 += cHS;
108bd0fe 434
54c9a3d9 435 if(!gGeoManager->SetAlignableEntry(strEntryName3.Data(),
436 halfStave.Data()))
437 AliFatal(Form("New lay 1: Unable to set alignable entry 3! %s::%s",
438 strEntryName3.Data(),halfStave.Data()));
8f8273a4 439
440 for(Int_t cLad=0; cLad<2; cLad++) {
108bd0fe 441
b2e5530c 442 modUID = AliGeomManager::LayerToVolUID(layerId,modnum++);
8f8273a4 443 module = halfStave;
444 module += str2;
54c9a3d9 445 module += cLad+cHS*2+1;
8f8273a4 446 strEntryName4 = strEntryName3;
447 strEntryName4 += strLadder;
448 strEntryName4 += cLad+cHS*2;
b2e5530c 449 if(!gGeoManager->SetAlignableEntry(strEntryName4.Data(),module.Data(),modUID))
54c9a3d9 450 AliFatal(Form("New lay 1: Unable to set alignable entry 4! %s::%s",
451 strEntryName4.Data(),module.Data()));
452
b2e5530c 453 SetT2Lmatrix(modUID, 0.0081, kTRUE, kTRUE);
54c9a3d9 454 // 0.0081 is the shift between the centers of alignable
455 // and sensitive volumes. It is directly extracted from
456 // the new SPD geometry
457 } // end for cLad
458 } // end for cHS
459 } // end for cStave
460 } // end for cSect
461
b2e5530c 462 layerId = AliGeomManager::kSPD2;
463 modnum = 0;
54c9a3d9 464 str1 = "/ITSSPDSensitiveVirtualvolumeM0_1/ITSSPDlay2-Stave_";
465 str2 = "/ITSSPDlay2-Ladder_";
8f8273a4 466
467 for(Int_t cSect = 0; cSect<10; cSect++) {
468
469 sector = str0;
470 sector += cSect+1; // this is one full sector
471 strEntryName1 = strSPD;
472 strEntryName1 += 1;
473 strEntryName1 += strSector;
474 strEntryName1 += cSect;
475
476 for(Int_t cStave=0; cStave<4; cStave++) {
477
478 stave = sector;
479 stave += str1;
54c9a3d9 480 stave += cStave+1;
8f8273a4 481 strEntryName2 = strEntryName1;
482 strEntryName2 += strStave;
483 strEntryName2 += cStave;
484
485 for(Int_t cHS=0; cHS<2; cHS++) {
486
487 halfStave = stave;
488 halfStave += str1Bis;
489 halfStave += cHS;
490 halfStave += str1Tierce;
108bd0fe 491 strEntryName3 = strEntryName2;
8f8273a4 492 strEntryName3 += strHalfStave;
493 strEntryName3 += cHS;
494
54c9a3d9 495 if(!gGeoManager->SetAlignableEntry(strEntryName3.Data(),
496 halfStave.Data()))
497 AliFatal(Form("New lay 2: Unable to set alignable entry 3! %s::%s",
498 strEntryName3.Data(),halfStave.Data()));
108bd0fe 499
8f8273a4 500 for(Int_t cLad=0; cLad<2; cLad++) {
54c9a3d9 501
b2e5530c 502 modUID = AliGeomManager::LayerToVolUID(layerId,modnum++);
8f8273a4 503 module = halfStave;
504 module += str2;
54c9a3d9 505 module += cLad+cHS*2 +1;
8f8273a4 506 strEntryName4 = strEntryName3;
507 strEntryName4 += strLadder;
508 strEntryName4 += cLad+cHS*2;
b2e5530c 509 if(!gGeoManager->SetAlignableEntry(strEntryName4.Data(),module.Data(),modUID))
54c9a3d9 510 AliFatal(Form("New lay 2: Unable to set alignable entry 4! %s::%s",
511 strEntryName4.Data(),module.Data()));
8f8273a4 512
b2e5530c 513 SetT2Lmatrix(modUID, -0.0081, kFALSE);
54c9a3d9 514 } // end for cLad
515 } // end for cHS
516 } // end for cStave
517 } // cSect
108bd0fe 518
8f8273a4 519 } else { // else old SPD geometry
520
108bd0fe 521 TString str0 = "ALIC_1/ITSV_1/ITSD_1/IT12_1/I12B_";
8f8273a4 522 TString str1 = "/I10B_";
523 TString str1Bis = "/L1H-STAVE";
524 TString str1Tierce = "_1";
525 TString str2 = "/I107_";
108bd0fe 526
527 TString sector;
528 TString stave;
8f8273a4 529 TString halfStave;
108bd0fe 530 TString module;
531
b2e5530c 532 layerId = AliGeomManager::kSPD1;
533 modnum = 0;
534
8f8273a4 535 for(Int_t cSect = 0; cSect<10; cSect++) {
108bd0fe 536
537 sector = str0;
8f8273a4 538 sector += cSect+1; // this is one full sector
108bd0fe 539 strEntryName1 = strSPD;
8f8273a4 540 strEntryName1 += 0;
108bd0fe 541 strEntryName1 += strSector;
8f8273a4 542 strEntryName1 += cSect;
108bd0fe 543 if(!gGeoManager->SetAlignableEntry(strEntryName1.Data(),sector.Data()))
54c9a3d9 544 AliFatal(Form("Old lay1: Unable to set alignable entry 1! %s::%s",
545 strEntryName1.Data(),sector.Data()));
546
8f8273a4 547 for(Int_t cStave = 0; cStave<2; cStave++) {
54c9a3d9 548
108bd0fe 549 stave = sector;
550 stave += str1;
8f8273a4 551 stave += cStave+1;
108bd0fe 552 strEntryName2 = strEntryName1;
553 strEntryName2 += strStave;
8f8273a4 554 strEntryName2 += cStave;
54c9a3d9 555 // this is a stave
556 //printf("%s == %s\n",strEntryName2.Data(),stave.Data());
108bd0fe 557
8f8273a4 558 for(Int_t cHS=0; cHS<2; cHS++) {
559
560 halfStave = stave;
561 halfStave += str1Bis;
562 halfStave += cHS;
563 halfStave += str1Tierce;
108bd0fe 564 strEntryName3 = strEntryName2;
8f8273a4 565 strEntryName3 += strHalfStave;
566 strEntryName3 += cHS;
54c9a3d9 567 // this is a half-stave
568 //printf("%s == %s\n",strEntryName3.Data(),halfStave.Data());
569 if(!gGeoManager->SetAlignableEntry(strEntryName3.Data(),
570 halfStave.Data()))
571 AliFatal(Form("Old lay 1: Unable to set alignable entry 3! %s::%s",
572 strEntryName3.Data(),halfStave.Data()));
108bd0fe 573
8f8273a4 574 for(Int_t cLadder = 0; cLadder<2; cLadder++) {
575
b2e5530c 576 modUID = AliGeomManager::LayerToVolUID(layerId,modnum++);
8f8273a4 577 module = halfStave;
578 module += str2;
579 module += cLadder+cHS*2+1;
580 strEntryName4 = strEntryName3;
581 strEntryName4 += strLadder;
582 strEntryName4 += cLadder+cHS*2;
583 //printf("%s == %s\n",strEntryName4.Data(),module.Data());
b2e5530c 584 if(!gGeoManager->SetAlignableEntry(strEntryName4.Data(),module.Data(),modUID))
54c9a3d9 585 AliFatal(Form("Old lay 1: Unable to set alignable entry 4! %s::%s",
b2e5530c 586 strEntryName4.Data(),module.Data()));
8f8273a4 587
b2e5530c 588 SetT2Lmatrix(modUID, -fChip1*0.0001/2., kTRUE);
54c9a3d9 589 } // end for cLadder
590 } // end for cHS
591 } // end for cStave
592 } // end for cSect
8f8273a4 593
b2e5530c 594 layerId = AliGeomManager::kSPD2;
595 modnum = 0;
596
8f8273a4 597 str1Bis = "/L2H-STAVE";
598 str1 = "/I20B_";
599 str2 = "/I1D7_";
600
601 for(Int_t cSect = 0; cSect<10; cSect++) {
602
603 sector = str0;
604 sector += cSect+1; // this is one full sector
605 strEntryName1 = strSPD;
606 strEntryName1 += 1;
607 strEntryName1 += strSector;
608 strEntryName1 += cSect;
54c9a3d9 609 //if(!gGeoManager->SetAlignableEntry(strEntryName1.Data(),sector.Data()))
610 // AliFatal(Form("Unable to set alignable entry!!");
611 // we don't need the previous lines because the whole sector is
612 // already define with first layer ...
613
8f8273a4 614 for(Int_t cStave =0; cStave<4; cStave++) {
615
616 stave = sector;
617 stave += str1;
618 stave += cStave+1;
619 strEntryName2 = strEntryName1;
620 strEntryName2 += strStave;
621 strEntryName2 += cStave;
622
623 for(Int_t cHS=0; cHS<2; cHS++) {
624
625 halfStave = stave;
626 halfStave += str1Bis;
627 halfStave += cHS;
628 halfStave += str1Tierce;
629 strEntryName3 = strEntryName2;
630 strEntryName3 += strHalfStave;
631 strEntryName3 += cHS;
54c9a3d9 632 // this is a half-stave
633 //printf("%s == %s\n",strEntryName3.Data(),halfStave.Data());
634 if(!gGeoManager->SetAlignableEntry(strEntryName3.Data(),
635 halfStave.Data()))
636 AliFatal(Form("Old lay 2: Unable to set alignable entry 3! %s::%s",
637 strEntryName3.Data(),halfStave.Data()));
8f8273a4 638
639 for(Int_t cLad =0; cLad<2; cLad++) {
54c9a3d9 640
b2e5530c 641 modUID = AliGeomManager::LayerToVolUID(layerId,modnum++);
8f8273a4 642 module = halfStave;
643 module += str2;
644 module += cLad+cHS*2+1;
645 strEntryName4 = strEntryName3;
646 strEntryName4 += strLadder;
647 strEntryName4 += cLad+cHS*2;
648 //printf("%s == %s\n",strEntryName4.Data(),module.Data());
b2e5530c 649 if(!gGeoManager->SetAlignableEntry(strEntryName4.Data(),module.Data(),modUID))
54c9a3d9 650 AliFatal(Form("Old lay2: Unable to set alignable entry 4! %s::%s",
651 strEntryName4.Data(),module.Data()));
8f8273a4 652
b2e5530c 653 SetT2Lmatrix(modUID, -fChip2*0.0001/2., kFALSE);
54c9a3d9 654 } // end for cLad
655 } // end for cHS
656 } // end for cStave
657 } // end for cSect
658 } // end if AliITSInitGeometry::SPSIsTGeoNative().
108bd0fe 659
660 //===== SDD layers =====
108bd0fe 661 if (AliITSInitGeometry::SDDIsTGeoNative()) { // new SDD geometry
662
b2e5530c 663 layerId = AliGeomManager::kSDD1;
664 modnum = 0;
108bd0fe 665 TString str0 = "/ALIC_1/ITSV_1/ITSsddLayer3_1/ITSsddLadd_"; // SDD layer1
666 TString str1 = "/ITSsddSensor3_";
108bd0fe 667 TString ladder;
3e49380a 668 TString sensor;
108bd0fe 669
670 for(Int_t c1 = 0; c1<14; c1++) {
671
672 ladder = str0;
673 ladder += c1; // the set of wafers from one ladder
674 strEntryName1 = strSDD;
675 strEntryName1 += 2;
676 strEntryName1 +=strLadder;
677 strEntryName1 += c1;
678 //printf("%s == %s\n",strEntryName1.Data(),ladder.Data());
679 if(!gGeoManager->SetAlignableEntry(strEntryName1.Data(),ladder.Data()))
54c9a3d9 680 AliFatal(Form("Unable to set alignable entry 1! %s :: %s",
681 strEntryName1.Data(),ladder.Data()));
108bd0fe 682
683 for(Int_t c2 =0; c2<6; c2++) {
684
b2e5530c 685 modUID = AliGeomManager::LayerToVolUID(layerId,modnum++);
3e49380a 686 sensor = ladder;
687 sensor += str1;
688 sensor += c2;
108bd0fe 689 strEntryName2 = strEntryName1;
690 strEntryName2 += strSensor;
691 strEntryName2 += c2;
692 //printf("%s == %s\n",strEntryName2.Data(),wafer.Data());
3e49380a 693 if(!gGeoManager->SetAlignableEntry(strEntryName2.Data(),sensor.Data(),modUID))
54c9a3d9 694 AliFatal(Form("Unable to set alignable entry 2! %s :: %s",
3e49380a 695 strEntryName2.Data(),sensor.Data()));
108bd0fe 696
b2e5530c 697 SetT2Lmatrix(modUID, 0, kFALSE, c2>=3);
108bd0fe 698 }
699 }
700
b2e5530c 701 layerId = AliGeomManager::kSDD2;
702 modnum = 0;
108bd0fe 703 str0 = "/ALIC_1/ITSV_1/ITSsddLayer4_1/ITSsddLadd_"; // SDD layer2
704 str1 = "/ITSsddSensor4_";
108bd0fe 705
706 for(Int_t c1 = 0; c1<22; c1++) {
707
708 ladder = str0;
709 ladder += c1; // the set of wafers from one ladder
710 strEntryName1 = strSDD;
711 strEntryName1 += 3;
712 strEntryName1 += strLadder;
713 strEntryName1 += c1;
714 //printf("%s == %s\n",strEntryName1.Data(),ladder.Data());
715 if(!gGeoManager->SetAlignableEntry(strEntryName1.Data(),ladder.Data()))
54c9a3d9 716 AliFatal(Form("Unable to set alignable entry 1! %s :: %s",
717 strEntryName1.Data(),ladder.Data()));
108bd0fe 718
719 for(Int_t c2 =0; c2<8; c2++) {
720
b2e5530c 721 modUID = AliGeomManager::LayerToVolUID(layerId,modnum++);
3e49380a 722 sensor = ladder;
723 sensor += str1;
724 sensor += c2;
108bd0fe 725 strEntryName2 = strEntryName1;
726 strEntryName2 += strSensor;
727 strEntryName2 += c2;
728 //printf("%s == %s\n",strEntryName2.Data(),wafer.Data());
3e49380a 729 if(!gGeoManager->SetAlignableEntry(strEntryName2.Data(),sensor.Data(),modUID))
54c9a3d9 730 AliFatal(Form("Unable to set alignable entry 2! %s :: %s",
3e49380a 731 strEntryName2.Data(),sensor.Data()));
108bd0fe 732
b2e5530c 733 SetT2Lmatrix(modUID, 0, kFALSE, c2>=4);
108bd0fe 734 }
735 }
736
bf210566 737 } else { // else old SDD geometry
108bd0fe 738
b2e5530c 739 layerId = AliGeomManager::kSDD1;
740 modnum = 0;
741
108bd0fe 742 TString str0 = "ALIC_1/ITSV_1/ITSD_1/IT34_1/I004_";
743 TString str1 = "/I302_";
744
745 TString ladder;
746 TString wafer;
747
748 for(Int_t c1 = 1; c1<=14; c1++){
749
750 ladder = str0;
751 ladder += c1; // the set of wafers from one ladder
752 strEntryName1 = strSDD;
753 strEntryName1 += 2;
754 strEntryName1 +=strLadder;
755 strEntryName1 += (c1-1);
756 if(!gGeoManager->SetAlignableEntry(strEntryName1.Data(),ladder.Data()))
54c9a3d9 757 AliFatal(Form("Unable to set alignable entry 1! %s :: %s",
758 strEntryName1.Data(),ladder.Data()));
108bd0fe 759
760 for(Int_t c2 =1; c2<=6; c2++){
761
b2e5530c 762 modUID = AliGeomManager::LayerToVolUID(layerId,modnum++);
108bd0fe 763 wafer = ladder;
764 wafer += str1;
765 wafer += c2; // one wafer
766 strEntryName2 = strEntryName1;
767 strEntryName2 += strSensor;
768 strEntryName2 += (c2-1);
b2e5530c 769 if(!gGeoManager->SetAlignableEntry(strEntryName2.Data(),wafer.Data(),modUID))
54c9a3d9 770 AliFatal(Form("Unable to set alignable entry 2! %s :: %s",
771 strEntryName2.Data(),wafer.Data()));
108bd0fe 772
b2e5530c 773 SetT2Lmatrix(modUID, 0, kFALSE);
108bd0fe 774 }
775 }
776
b2e5530c 777 layerId = AliGeomManager::kSDD2;
778 modnum = 0;
108bd0fe 779 str0 = "ALIC_1/ITSV_1/ITSD_1/IT34_1/I005_";
780 str1 = "/I402_";
781
782 for(Int_t c1 = 1; c1<=22; c1++){
783
784 ladder = str0;
785 ladder += c1; // the set of wafers from one ladder
786 strEntryName1 = strSDD;
787 strEntryName1 += 3;
788 strEntryName1 +=strLadder;
789 strEntryName1 += (c1-1);
790 if(!gGeoManager->SetAlignableEntry(strEntryName1.Data(),ladder.Data()))
54c9a3d9 791 AliFatal(Form("Unable to set alignable entry 1! %s :: %s",
792 strEntryName1.Data(),ladder.Data()));
108bd0fe 793
794 for(Int_t c2 =1; c2<=8; c2++){
795
b2e5530c 796 modUID = AliGeomManager::LayerToVolUID(layerId,modnum++);
108bd0fe 797 wafer = ladder;
798 wafer += str1;
799 wafer += c2; // one wafer
800 strEntryName2 = strEntryName1;
801 strEntryName2 += strSensor;
802 strEntryName2 += (c2-1);
b2e5530c 803 if(!gGeoManager->SetAlignableEntry(strEntryName2.Data(),wafer.Data(),modUID))
54c9a3d9 804 AliFatal(Form("Unable to set alignable entry 2! %s,%s",
805 strEntryName2.Data(),wafer.Data()));
108bd0fe 806
b2e5530c 807 SetT2Lmatrix(modUID, 0, kFALSE);
108bd0fe 808 }
809 }
108bd0fe 810 } // end SDD
811
8f8273a4 812 //===== SSD layers =====
bf210566 813 if (AliITSInitGeometry::SSDIsTGeoNative()) { // new SSD geometry
814
b2e5530c 815 layerId = AliGeomManager::kSSD1;
816 modnum = 0;
54c9a3d9 817 TString str0 = "/ALIC_1/ITSV_1/ITSssdLayer5_1/ITSssdLay5Ladd_";//SSD layer1
ef9451a3 818 TString str1 = "/ITSssdSensor5_";
bf210566 819 TString str2 = "";
820 TString ladder;
821 TString wafer;
822
823 for(Int_t c1 = 0; c1<34; c1++) {
824
825 ladder = str0;
826 ladder += c1; // the set of wafers from one ladder
827 strEntryName1 = strSSD;
828 strEntryName1 += 4;
829 strEntryName1 += strLadder;
830 strEntryName1 += c1;
831 //printf("%s == %s\n",strEntryName1.Data(),ladder.Data());
832 if(!gGeoManager->SetAlignableEntry(strEntryName1.Data(),ladder.Data()))
54c9a3d9 833 AliFatal(Form("Unable to set alignable entry 1! %s :: %s",
834 strEntryName1.Data(),ladder.Data()));
bf210566 835
836 for(Int_t c2 =0; c2<22; c2++) {
837
b2e5530c 838 modUID = AliGeomManager::LayerToVolUID(layerId,modnum++);
bf210566 839 wafer = ladder;
840 wafer += str1;
841 wafer += c2;
842 //wafer += str2; // one wafer
843 strEntryName2 = strEntryName1;
844 strEntryName2 += strSensor;
845 strEntryName2 += c2;
846 //printf("%s == %s\n",strEntryName2.Data(),wafer.Data());
b2e5530c 847 if(!gGeoManager->SetAlignableEntry(strEntryName2.Data(),wafer.Data(),modUID))
54c9a3d9 848 AliFatal(Form("Unable to set alignable entry 2! %s :: %s",
849 strEntryName2.Data(),wafer.Data()));
bf210566 850
b2e5530c 851 SetT2Lmatrix(modUID, 0, kFALSE, kFALSE);
bf210566 852 }
853 }
854
b2e5530c 855 layerId = AliGeomManager::kSSD2;
856 modnum = 0;
bf210566 857 str0 = "/ALIC_1/ITSV_1/ITSssdLayer6_1/ITSssdLay6Ladd_"; // SSD layer2
ef9451a3 858 str1 = "/ITSssdSensor6_";
bf210566 859 str2 = "";
860
861 for(Int_t c1 = 0; c1<38; c1++) {
862
863 ladder = str0;
864 ladder += c1; // the set of wafers from one ladder
865 strEntryName1 = strSSD;
866 strEntryName1 += 5;
867 strEntryName1 += strLadder;
868 strEntryName1 += c1;
869 //printf("%s == %s\n",strEntryName1.Data(),ladder.Data());
870 if(!gGeoManager->SetAlignableEntry(strEntryName1.Data(),ladder.Data()))
54c9a3d9 871 AliFatal(Form("Unable to set alignable entry 1! %s :: %s",
872 strEntryName1.Data(),ladder.Data()));
bf210566 873
874 for(Int_t c2 =0; c2<25; c2++) {
875
b2e5530c 876 modUID = AliGeomManager::LayerToVolUID(layerId,modnum++);
bf210566 877 wafer = ladder;
878 wafer += str1;
879 wafer += c2;
880 //wafer += str2; // one wafer
881 strEntryName2 = strEntryName1;
882 strEntryName2 += strSensor;
883 strEntryName2 += c2;
884 //printf("%s == %s\n",strEntryName2.Data(),wafer.Data());
b2e5530c 885 if(!gGeoManager->SetAlignableEntry(strEntryName2.Data(),wafer.Data(),modUID))
54c9a3d9 886 AliFatal(Form("Unable to set alignable entry 2! %s :: %s",
887 strEntryName2.Data(),wafer.Data()));
bf210566 888
b2e5530c 889 SetT2Lmatrix(modUID, 0, kFALSE, kFALSE);
bf210566 890 }
891 }
892
893 } else { // else old SSD geometry
b2e5530c 894
895 layerId = AliGeomManager::kSSD1;
896 modnum = 0;
108bd0fe 897 TString str0 = "ALIC_1/ITSV_1/ITSD_1/IT56_1/I565_";
898 TString str1 = "/I562_";
108bd0fe 899 TString ladder;
900 TString wafer;
901
902 for(Int_t c1 = 1; c1<=34; c1++){
bf210566 903
108bd0fe 904 ladder = str0;
905 ladder += c1; // the set of wafers from one ladder
906 strEntryName1 = strSSD;
907 strEntryName1 += 4;
908 strEntryName1 +=strLadder;
909 strEntryName1 += (c1-1);
910 if(!gGeoManager->SetAlignableEntry(strEntryName1.Data(),ladder.Data()))
54c9a3d9 911 AliFatal(Form("Unable to set alignable entry 1! %s :: %s",
912 strEntryName1.Data(),ladder.Data()));
913
108bd0fe 914 for(Int_t c2 = 1; c2<=22; c2++){
bf210566 915
b2e5530c 916 modUID = AliGeomManager::LayerToVolUID(layerId,modnum++);
108bd0fe 917 wafer = ladder;
918 wafer += str1;
919 wafer += c2; // one wafer
920 strEntryName2 = strEntryName1;
921 strEntryName2 += strSensor;
922 strEntryName2 += (c2-1);
b2e5530c 923 if(!gGeoManager->SetAlignableEntry(strEntryName2.Data(),wafer.Data(),modUID))
54c9a3d9 924 AliFatal(Form("Unable to set alignable entry 2! %s :: %s",
925 strEntryName2.Data(),wafer.Data()));
926
b2e5530c 927 SetT2Lmatrix(modUID, 0, kFALSE);
108bd0fe 928 }
929 }
bf210566 930
b2e5530c 931 layerId = AliGeomManager::kSSD2;
932 modnum = 0;
bf210566 933 str0 = "ALIC_1/ITSV_1/ITSD_1/IT56_1/I569_";
934 str1 = "/I566_";
935
108bd0fe 936 for(Int_t c1 = 1; c1<=38; c1++){
bf210566 937
108bd0fe 938 ladder = str0;
939 ladder += c1; // the set of wafers from one ladder
940 strEntryName1 = strSSD;
941 strEntryName1 += 5;
942 strEntryName1 +=strLadder;
943 strEntryName1 += (c1-1);
944 if(!gGeoManager->SetAlignableEntry(strEntryName1.Data(),ladder.Data()))
54c9a3d9 945 AliFatal(Form("Unable to set alignable entry 1! %s :: %s",
946 strEntryName1.Data(),ladder.Data()));
947
108bd0fe 948 for(Int_t c2 = 1; c2<=25; c2++){
bf210566 949
b2e5530c 950 modUID = AliGeomManager::LayerToVolUID(layerId,modnum++);
108bd0fe 951 wafer = ladder;
952 wafer += str1;
953 wafer += c2; // one wafer
954 strEntryName2 = strEntryName1;
955 strEntryName2 += strSensor;
956 strEntryName2 += (c2-1);
b2e5530c 957 if(!gGeoManager->SetAlignableEntry(strEntryName2.Data(),wafer.Data(),modUID))
54c9a3d9 958 AliFatal(Form("Unable to set alignable entry 2! %s :: %s",
959 strEntryName2.Data(),wafer.Data()));
960
b2e5530c 961 SetT2Lmatrix(modUID, 0, kFALSE);
108bd0fe 962 }
963 }
bf210566 964 } // end SSD geometry
108bd0fe 965}
bf210566 966
108bd0fe 967//______________________________________________________________________
108bd0fe 968void AliITSv11Hybrid::CreateGeometry() {
969
333c948a 970 // Create the geometry and insert it in ALIC
971 // It calls first the CreateOldGeometry() routine which add the
972 // pieces coming from the old v10 geometry. Then the pieces from
973 // the new geometry are inserting in the mother volume ITSV.
974
108bd0fe 975 TGeoManager *geoManager = gGeoManager;
976
977 CreateOldGeometry();
108bd0fe 978
1c5895a3 979 TGeoVolume *vITSV = geoManager->GetVolume("ITSV");
980 TGeoVolume *vITSS = geoManager->GetVolume("ITSS");
bf210566 981
982
012f0f4c 983 const Char_t *cvsDate="$Date$";
984 const Char_t *cvsRevision="$Revision$";
7ab0715c 985 const Int_t kLength=100;
986 Char_t vstrng[kLength];
987 if(fInitGeom.WriteVersionString(vstrng,kLength,(AliITSVersion_t)IsVersion(),
1c5895a3 988 fMinorVersion,cvsDate,cvsRevision)) {
989 vITSV->SetTitle(vstrng);
990 vITSS->SetTitle(vstrng);
991 }
012f0f4c 992
8f8273a4 993 if (AliITSInitGeometry::SPDIsTGeoNative()) {
1c5895a3 994 fSPDgeom->SPDSector(vITSV);
8f8273a4 995 }
996
108bd0fe 997 if (AliITSInitGeometry::SDDIsTGeoNative()) {
1c5895a3 998 fSDDgeom->Layer3(vITSV);
999 fSDDgeom->Layer4(vITSV);
1000 fSDDgeom->ForwardLayer3(vITSV);
1001 fSDDgeom->ForwardLayer4(vITSV);
bf210566 1002 }
cc8a4c78 1003
bf210566 1004 if (AliITSInitGeometry::SSDIsTGeoNative()) {
1c5895a3 1005 fSSDgeom->Layer5(vITSV);
1006 fSSDgeom->Layer6(vITSV);
1007 fSSDgeom->LadderSupportLayer5(vITSV);
1008 fSSDgeom->LadderSupportLayer6(vITSV);
1009 fSSDgeom->EndCapSupportSystemLayer6(vITSV);
1010 fSSDgeom->EndCapSupportSystemLayer5(vITSV);
108bd0fe 1011 }
b0c0f648 1012
1013 if (AliITSInitGeometry::SPDshieldIsTGeoNative())
1c5895a3 1014 fSupgeom->SPDCone(vITSV);
7d6c23de 1015
1016 if (AliITSInitGeometry::SDDconeIsTGeoNative())
1c5895a3 1017 fSupgeom->SDDCone(vITSV);
3a299c65 1018
1019 if (AliITSInitGeometry::SSDconeIsTGeoNative())
1c5895a3 1020 fSupgeom->SSDCone(vITSV);
cc8a4c78 1021
1022 if (AliITSInitGeometry::ServicesAreTGeoNative()) {
1c5895a3 1023 fSDDgeom->SDDCables(vITSV);
1024 fSSDgeom->SSDCables(vITSV);
1025 fSupgeom->ServicesCableSupport(vITSS);
cc8a4c78 1026 }
f0a991bf 1027
1028 if (AliITSInitGeometry::SupportIsTGeoNative()) {
1029 fSupgeom->ITSTPCSupports(vITSS);
1030 }
108bd0fe 1031}
1032
1033//______________________________________________________________________
1034void AliITSv11Hybrid::CreateOldGeometry(){
333c948a 1035 // This routine defines and creates some pieces of the geometry
1036 // of version 10 (AliITSvPPRasymmFMD)
108bd0fe 1037
1038 //Begin_Html
1039 /*
1040 <img src="picts/ITS/ITS_full_vPPRasymm.jpg">
1041 </pre>
1042 <br clear=left>
1043 <font size=+2 color=red>
1044 <p>This shows the full ITS geometry.
1045 </font>
1046 <img src="picts/ITS/ITS_SPD_Barrel_vPPRasymm.jpg">
1047 </pre>
1048 < br clear=left>
1049 <font size=+2 color=red>
1050 <p>This shows the full SPD Barrel of the ITS geometry.
1051 </font>
1052 <img src="picts/ITS/ITS_SDD_Barrel_vPPRasymm.jpg">
1053 </pre>
1054 <br clear=left>
1055 <font size=+2 color=red>
1056 <p>This shows the full SDD Barrel of the ITS geometry.
1057 </font>
1058 <img src="picts/ITS/ITS_SSD_Barrel_vPPRasymm.jpg">
1059 </pre>
1060 <br clear=left>
1061 <font size=+2 color=red>
1062 <p>This shows the full SSD Barrel of the ITS geometry.
1063 </font>
1064 */
1065 //End_Html
1066 //INNER RADII OF THE SILICON LAYERS
1067 // Float_t rl[6] = { 3.8095,7.,15.,24.,38.1,43.5765 };
7ab0715c 1068 //THICKNESSES OF LAYERS (in % radiation kLength)
108bd0fe 1069 Float_t drl[6] = { 1.03,1.03,0.94,0.95,0.91,0.87 };
1070 //HALF LENGTHS OF LAYERS
1071 // Float_t dzl[6] = { 14.35,14.35,25.1,32.1,49.405,55.27 };
1072 //LENGTHS OF END-LADDER BOXES (ALL INCLUDED)
1073 // Float_t dzb[6] = { 12.4,12.4,13.5,15.,7.5,7.5 };
1074 //THICKNESSES OF END-LADDER BOXES (ALL INCLUDED)
1075 // Float_t drb[6] = { rl[1]-rl[0],0.2,5.,5.,4.,4. };
1076
1077
1078 Float_t dits[100], rlim, zmax;
1079 // Float_t zpos;
1080 // Float_t pcits[50]
1081 Float_t ztpc;
1082 Int_t idrotm[1999], i;
1083 Float_t dgh[100];
1084
1085 // Define some variables for SPD
1086
1087 Float_t dits1[3], di101[3], di107[3], di10b[3], di106[3];// for layer 1
1088 //Float_t di103[3], di10a[3], di102[3]; // for layer 1
1089 Float_t dits2[3], di1d1[3], di1d7[3], di20b[3], di1d6[3];// for layer 2
1090 //Float_t di1d3[3], di20a[3], di1d2[3]; // for layer 2
1091 Float_t di108[3];
1092 //Float_t di104[3]; // for both layers
1093
1094 Float_t ddet1=200.; // total detector thickness on layer 1 (micron)
1095 Float_t dchip1=200.; // total chip thickness on layer 1 (micron)
1096
1097 Float_t ddet2=200.; // total detector thickness on layer 2 (micron)
1098 Float_t dchip2=200.; // total chip thickness on layer 2 (micron)
1099
1100 Float_t dbus=300.; // total bus thickness on both layers (micron)
1101
1102 ddet1 = GetThicknessDet1();
1103 ddet2 = GetThicknessDet2();
1104 dchip1 = GetThicknessChip1();
1105 dchip2 = GetThicknessChip2();
1106
1107 if(ddet1 < 100. || ddet1 > 300.) {
1108 AliWarning("The detector thickness for layer 1 is outside ");
1109 AliWarning("the range of [100,300] microns. The default value of 200 microns ");
1110 AliWarning("will be used.");
1111 ddet1=200.;
1112 } // end if
1113
1114 if(ddet2 < 100. || ddet2 > 300.) {
1115 AliWarning("The detector thickness for layer 2 is outside ");
1116 AliWarning("the range of [100,300] microns. The default value of 200 microns ");
1117 AliWarning("will be used.");
1118 ddet2=200.;
1119 }// end if
1120
1121 if(dchip1 < 100. || dchip1 > 300.) {
1122 AliWarning("The chip thickness for layer 1 is outside");
1123 AliWarning("the range of [100,300] microns. The default value of 200 microns");
1124 AliWarning("will be used.");
1125 dchip1=200.;
1126 }// end if
1127
1128 if(dchip2 < 100. || dchip2 > 300.) {
1129 AliWarning("The chip thickness for layer 2 is outside");
1130 AliWarning("the range of [100,300] microns. The default value of 200 microns");
1131 AliWarning("will be used");
1132 dchip2=200.;
1133 }// end if
1134
1135 Int_t rails = 1; // flag for rails (1 --> rails in; 0 --> rails out)
1136
1137 Int_t fluid = 1; // flag for the cooling fluid (1 --> water; 0 --> freon)
1138 // This option is maintained for SDD and SSD only
1139 // For SPD the cooling liquid is C4F10
1140 rails = GetRails();
1141
1142 fluid = GetCoolingFluid();
1143
1144 if(rails != 0 && rails != 1) {
1145 AliWarning("The switch for rails is not set neither");
1146 AliWarning("to 0 (rails out) nor to 1 (rails in). The default value of");
1147 AliWarning("1 (rails in) will be used");
1148 rails=1;
1149 }// end if
1150
1151
1152 AliDebug(1,Form("Detector thickness on layer 1 is set to %f microns",ddet1));
1153 AliDebug(1,Form("Chip thickness on layer 1 is set to %f microns",dchip1));
1154 AliDebug(1,Form("Detector thickness on layer 2 is set to %f microns",ddet2));
1155 AliDebug(1,Form("Chip thickness on layer 2 is set to %f microns",dchip2));
1156 if(rails == 0 ) {
1157 AliDebug(1,"Rails are out.");
1158 } else {
1159 AliDebug(1,"Rails are in.");
1160 }// end if
1161
1162 ddet1 = ddet1*0.0001/2.; // conversion from tot length in um to half in cm
1163 ddet2 = ddet2*0.0001/2.; // conversion from tot length in um to half in cm
1164 dchip1 = dchip1*0.0001/2.;// conversion from tot length in um to half in cm
1165 dchip2 = dchip2*0.0001/2.;// conversion from tot length in um to half in cm
1166 dbus = dbus*0.0001/2.; // conversion from tot length in um to half in cm
1167
1168 Float_t deltax, deltay;
1169
1170 //Int_t thickness = fMinorVersion/10;
1171 //Int_t option = fMinorVersion - 10*thickness;
1172
1173
1174 // Define some variables for SDD
1175
1176 Float_t sin30, cos30;
1177
1178 // SDD electronics+services main volumes
1179 Float_t iI018dits[3], iI024dits[3], iI047dits[3], iI048dits[3];
1180
1181 // SDD detector ladder
1182
1183 Float_t iI302dits[3], iI402dits[3], iI004dits[3], iI005dits[3];
1184 Float_t ySDDsep = 0.20;
1185 Float_t ySDD;
1186 Int_t iSDD;
1187 Float_t zSDDlay3[6] = { 18.55, 10.95, 3.70, -3.70,-11.20,-18.35};
1188 Float_t zSDDlay4[8] = { 25.75, 18.60, 11.00, 3.70, -3.70,-11.20,
1189 -18.45,-26.05};
1190
1191 // ladder foot and end-ladder (frame and cooling)
1192 Float_t iI028dits[3], iI420dits[3], iI421dits[3], iI422dits[6], iI423dits[3];
1193 Float_t iI424dits[3], xI424, yI424;
1194 Float_t iI425dits[3];
1195 Int_t indI425;
1196 Float_t iI029dits[4], iI030dits[4], iI031dits[3], iI032dits[3];
1197
1198 // SDD ladder frame and cooling
1199 Float_t iSDDCoolPipe[3] = {1.7000, -0.5500, 0.0000};
1200 Float_t iI035dits[3], iI037dits[3], iI038dits[3];
1201 Float_t iI039dits[3], xI039, yI039;
1202 Float_t iI041dits[5];
1203
1204 // SDD hybrid, chips and capacitors
1205 Float_t iI050dits[3], xI050, yI050;
1206 Float_t iI052dits[3], xI052, yI052;
1207 Float_t iI042dits[3], xI042, yI042;
1208 Float_t xI042space = 0.17;
1209 Float_t iI043dits[3], xI043, yI043;
1210 Float_t xI043space = 0.17;
1211 Float_t zchip, zChipSpace;
1212 Float_t iI051dits[3], xI051, yI051, zI051, yI051space, xcap;
1213 Int_t ichip, icap;
1214
1215 // SDD microcables
1216 Float_t iI044dits[4], xI044, yI044, volI044;
1217 Float_t xHV, yHV, zHV, xLV, yLV, zLV;
1218 Char_t nameHV[5], nameLV[5];
1219
1220
1221 // Define media off-set
1222
1223 Int_t *idtmed = fIdtmed->GetArray()-199;
1224
1225
1226 // Rotation matrices
1227
1228 // SPD - option 'b' (this is the default)
1229
1230 //if (option == 2) {
1231 if (! AliITSInitGeometry::SPDIsTGeoNative()) {
1232 AliMatrix(idrotm[201],90.0,0.0,90.0,90.0,0.0,0.0);
1233 AliMatrix(idrotm[202],90.0,90.0,90.0,0.0,0.0,0.0);
1234 AliMatrix(idrotm[203],90.0,350.0,90.0,260.0,0.0,0.0);
1235 AliMatrix(idrotm[204],90.0,170.0,90.0,80.0,0.0,0.0);
1236 AliMatrix(idrotm[205],90.0,10.0,90.0,100.0,0.0,0.0);
1237 AliMatrix(idrotm[206],90.0,190.0,90.0,280.0,0.0,0.0);
1238 AliMatrix(idrotm[207],90.0,342.0,90.0,72.0,0.0,0.0);
1239 AliMatrix(idrotm[208],90.0,156.999893,90.0,246.999893,0.0,0.0);
1240 AliMatrix(idrotm[209],90.0,147.999802,90.0,237.999893,0.0,0.0);
1241 AliMatrix(idrotm[210],90.0,138.999802,90.0,228.999802,0.0,0.0);
1242 AliMatrix(idrotm[211],90.0,129.999802,90.0,219.999802,0.0,0.0);
1243 AliMatrix(idrotm[212],90.0,36.7896,90.0,126.789597,0.0,0.0);
1244 AliMatrix(idrotm[213],90.0,343.579712,90.0,73.579697,0.0,0.0);
1245 AliMatrix(idrotm[214],90.0,95.413696,90.0,185.413696,0.0,0.0);
1246 AliMatrix(idrotm[215],90.0,5.4141,90.0,95.414101,0.0,0.0);
1247 AliMatrix(idrotm[216],90.0,318.296906,90.0,48.296902,0.0,0.0);
1248 AliMatrix(idrotm[217],90.0,67.000099,90.0,157.000107,0.0,0.0);
1249 AliMatrix(idrotm[218],90.0,337.003998,90.0,67.003998,0.0,0.0);
1250 AliMatrix(idrotm[219],90.0,247.000305,90.0,337.000305,0.0,0.0);
1251 AliMatrix(idrotm[220],90.0,305.633514,90.0,35.633499,0.0,0.0);
1252
1253 AliMatrix(idrotm[221],90.0,58.000198,90.0,148.000198,0.0,0.0);
1254 AliMatrix(idrotm[222],90.0,327.997101,90.0,57.997101,0.0,0.0);
1255 AliMatrix(idrotm[223],90.0,237.994202,90.0,327.994202,0.0,0.0);
1256 AliMatrix(idrotm[224],90.0,296.627502,90.0,26.627399,0.0,0.0);
1257 AliMatrix(idrotm[225],90.0,48.994099,90.0,138.994095,0.0,0.0);
1258 AliMatrix(idrotm[226],90.0,318.990997,90.0,48.991001,0.0,0.0);
1259 AliMatrix(idrotm[227],90.0,228.988205,90.0,318.98819,0.0,0.0);
1260 AliMatrix(idrotm[228],90.0,287.621399,90.0,17.621401,0.0,0.0);
1261 AliMatrix(idrotm[229],90.0,39.988098,90.0,129.988098,0.0,0.0);
1262 AliMatrix(idrotm[230],90.0,309.984985,90.0,39.985001,0.0,0.0);
1263 AliMatrix(idrotm[231],90.0,327.2612,90.0,57.2612,0.0,0.0);
1264 AliMatrix(idrotm[232],90.0,237.261398,90.0,327.261414,0.0,0.0);
1265 AliMatrix(idrotm[233],90.0,252.000504,90.0,342.000488,0.0,0.0);
1266 AliMatrix(idrotm[234],90.0,71.9991,90.0,161.9991,0.0,0.0);
1267 AliMatrix(idrotm[235],90.0,270.0,90.0,0.0,0.0,0.0);
1268 AliMatrix(idrotm[236],90.0,180.013702,90.0,270.013702,0.0,0.0);
1269 AliMatrix(idrotm[237],90.0,90.0,90.0,180.0,0.0,0.0);
1270 AliMatrix(idrotm[238],90.0,180.0,90.0,270.0,0.0,0.0);
1271 AliMatrix(idrotm[239],90.0,162.0,90.0,252.0,0.0,0.0);
1272 AliMatrix(idrotm[240],90.0,310.0,90.0,40.0,0.0,0.0);
1273 AliMatrix(idrotm[241],90.0,319.0,90.0,49.0,0.0,0.0);
1274 AliMatrix(idrotm[242],90.0,328.0,90.0,58.0,0.0,0.0);
1275 AliMatrix(idrotm[243],90.0,337.0,90.0,67.0,0.0,0.0);
1276 AliMatrix(idrotm[244],90.0,216.0,90.0,306.0,0.0,0.0);
1277 AliMatrix(idrotm[245],90.0,36.0,90.0,126.0,0.0,0.0);
1278 AliMatrix(idrotm[246],90.0,108.0,90.0,198.0,0.0,0.0);
1279 AliMatrix(idrotm[247],90.0,144.0,90.0,234.0,0.0,0.0);
1280 AliMatrix(idrotm[248],90.0,288.0,90.0,18.0,0.0,0.0);
1281 AliMatrix(idrotm[249],90.0,324.0,90.0,54.0,0.0,0.0);
1282 AliMatrix(idrotm[1003],90.0,73.5,90.0,163.5,0.0,0.0);
1283 AliMatrix(idrotm[1011],90.0,342.0,90.0,72.0,0.0,0.0);
1284 AliMatrix(idrotm[1039],90.0,72.0,90.0,162.0,0.0,0.0);
1285 AliMatrix(idrotm[1043],90.0,66.91,90.0,156.91,0.0,0.0);
1286 AliMatrix(idrotm[1065],90.0,144.0,90.0,234.0,0.0,0.0);
1287 AliMatrix(idrotm[1078],90.0,180.0,90.0,270.0,0.0,0.0);
1288 AliMatrix(idrotm[1088],90.0,57.41,90.0,147.41,0.0,0.0);
1289 AliMatrix(idrotm[1089],90.0,333.0,90.0,63.0,0.0,0.0);
1290 AliMatrix(idrotm[1090],90.0,351.0,90.0,81.0,0.0,0.0);
1291 AliMatrix(idrotm[1091],90.0,216.0,90.0,306.0,0.0,0.0);
1292 AliMatrix(idrotm[1092],90.0,27.0,90.0,117.0,0.0,0.0);
1293 AliMatrix(idrotm[1093],90.0,18.0,90.0,108.0,0.0,0.0);
1294 AliMatrix(idrotm[1094],90.0,9.0,90.0,99.0,0.0,0.0);
1295 AliMatrix(idrotm[1104],90.0,252.0,90.0,342.0,0.0,0.0);
1296 AliMatrix(idrotm[1106],90.0,36.0,90.0,126.0,0.0,0.0);
1297 AliMatrix(idrotm[1107],90.0,108.0,90.0,198.0,0.0,0.0);
1298 AliMatrix(idrotm[1108],90.0,324.0,90.0,54.0,180.0,0.0);
1299 AliMatrix(idrotm[1109],90.0,0.0,90.0,90.0,180.0,0.0);
1300 AliMatrix(idrotm[1110],90.0,36.0,90.0,126.0,180.0,0.0);
1301 AliMatrix(idrotm[1111],90.0,72.0,90.0,162.0,180.0,0.0);
1302 AliMatrix(idrotm[1112],90.0,108.0,90.0,198.0,180.0,0.0);
1303 AliMatrix(idrotm[1113],90.0,144.0,90.0,234.0,180.0,0.0);
1304 AliMatrix(idrotm[1114],90.0,180.0,90.0,270.0,180.0,0.0);
1305 AliMatrix(idrotm[1115],90.0,216.0,90.0,306.0,180.0,0.0);
1306 AliMatrix(idrotm[1116],90.0,252.0,90.0,342.0,180.0,0.0);
1307 AliMatrix(idrotm[1117],90.0,288.0,90.0,18.0,0.0,0.0);
1308 AliMatrix(idrotm[1118],90.0,288.0,90.0,18.0,180.0,0.0);
1309 AliMatrix(idrotm[1130],90.0,324.0,90.0,54.0,0.0,0.0);
1310 }// end if option==2
1311
1312 // SDD
1313 if (! AliITSInitGeometry::SDDIsTGeoNative()) {
1314 AliMatrix(idrotm[301],0.0,0.0,90.0,90.0,90.0,180.0);
1315 AliMatrix(idrotm[302],0.0,0.0,90.0,90.0,90.0,0.0);
1316 AliMatrix(idrotm[303],180.0,0.0,90.0,90.0,90.0,0.0);
1317 AliMatrix(idrotm[304],180.0,0.0,90.0,90.0,90.0,180.0);
1318 AliMatrix(idrotm[305],90.0,347.14,90.0,77.14,0.0,0.0);
1319 AliMatrix(idrotm[306],90.0,321.43,90.0,51.43,0.0,0.0);
1320 AliMatrix(idrotm[307],90.0,295.71,90.0,25.71,0.0,0.0);
1321 AliMatrix(idrotm[308],90.0,244.29,90.0,334.29,0.0,0.0);
1322 AliMatrix(idrotm[309],90.0,218.57,90.0,308.57,0.0,0.0);
1323 AliMatrix(idrotm[310],90.0,167.14,90.0,257.14,0.0,0.0);
1324 AliMatrix(idrotm[311],90.0,141.43,90.0,231.43,0.0,0.0);
1325 AliMatrix(idrotm[312],90.0,0.0,0.0,0.0,90.0,270.0);
1326 AliMatrix(idrotm[313],90.0,115.71,90.0,205.71,0.0,0.0);
1327 AliMatrix(idrotm[314],90.0,335.45,90.0,65.45,0.0,0.0);
1328 AliMatrix(idrotm[315],90.0,319.09,90.0,49.09,0.0,0.0);
1329 AliMatrix(idrotm[316],90.0,302.73,90.0,32.73,0.0,0.0);
1330 AliMatrix(idrotm[317],90.0,286.36,90.0,16.36,0.0,0.0);
1331 AliMatrix(idrotm[318],90.0,270.0,90.0,360.0,0.0,0.0);
1332 AliMatrix(idrotm[319],90.0,253.64,90.0,343.64,0.0,0.0);
1333 AliMatrix(idrotm[320],90.0,237.27,90.0,327.27,0.0,0.0);
1334 AliMatrix(idrotm[321],90.0,12.86,90.0,102.86,0.0,0.0);
1335 AliMatrix(idrotm[322],90.0,220.91,90.0,310.91,0.0,0.0);
1336 AliMatrix(idrotm[323],90.0,204.55,90.0,294.55,0.0,0.0);
1337 AliMatrix(idrotm[324],90.0,188.18,90.0,278.18,0.0,0.0);
1338 AliMatrix(idrotm[325],90.0,171.82,90.0,261.82,0.0,0.0);
1339 AliMatrix(idrotm[326],90.0,155.45,90.0,245.45,0.0,0.0);
1340 AliMatrix(idrotm[327],90.0,139.09,90.0,229.09,0.0,0.0);
1341 AliMatrix(idrotm[328],90.0,122.73,90.0,212.73,0.0,0.0);
1342 AliMatrix(idrotm[329],90.0,106.36,90.0,196.36,0.0,0.0);
1343 AliMatrix(idrotm[330],90.0,73.64,90.0,163.64,0.0,0.0);
1344 AliMatrix(idrotm[331],90.0,40.91,90.0,130.91,0.0,0.0);
1345 AliMatrix(idrotm[332],90.0,24.55,90.0,114.55,0.0,0.0);
1346 AliMatrix(idrotm[333],90.0,38.57,90.0,128.57,0.0,0.0);
1347 AliMatrix(idrotm[334],90.0,351.82,90.0,81.82,0.0,0.0);
1348 AliMatrix(idrotm[335],90.0,8.18,90.0,98.18,0.0,0.0);
1349 AliMatrix(idrotm[336],90.0,64.29,90.0,154.29,0.0,0.0);
1350 AliMatrix(idrotm[337],111.0,300.0,21.0,300.0,90.0,30.0);
1351 AliMatrix(idrotm[338],69.0,240.0,159.0,240.0,90.0,150.0);
1352 AliMatrix(idrotm[339],111.0,240.0,21.0,240.0,90.0,150.0);
1353 AliMatrix(idrotm[340],69.0,300.0,159.0,300.0,90.0,30.0);
1354 AliMatrix(idrotm[341],128.0,0.0,38.0,0.0,90.0,270.0);
1355 AliMatrix(idrotm[342],90.0,240.0,180.0,0.0,90.0,330.);
1356 AliMatrix(idrotm[343],90.0,120.0,180.0,0.0,90.0,210.0);
1357 AliMatrix(idrotm[344],90.0,0.0,180.0,0.0,90.0,90.0);
1358 AliMatrix(idrotm[345],90.0,180.0,90.0,90.0,0.0,0.0);
1359 AliMatrix(idrotm[346],90.0,300.0,90.0,30.0,0.0,0.0);
1360 AliMatrix(idrotm[347],90.0,240.0,90.0,150.0,0.0,0.0);
1361 AliMatrix(idrotm[348],90.0,180.0,0.0,0.0,90.0,270.0);
1362 AliMatrix(idrotm[349],90.0,235.0,90.0,145.0,0.0,0.0);
1363 AliMatrix(idrotm[350],90.0,90.0,90.0,180.0,0.0,0.0);
1364 AliMatrix(idrotm[351],90.0,305.0,90.0,35.0,0.0,0.0);
1365 AliMatrix(idrotm[352],0.0,0.0,90.0,0.0,90.0,90.0);
1366 AliMatrix(idrotm[353],90.0,60.0,90.0,150.0,0.0,0.0);
1367 AliMatrix(idrotm[354],90.0,120.0,90.0,30.0,0.0,0.0);
1368 AliMatrix(idrotm[355],90.0,180.0,90.0,90.0,180.0,0.0);
1369 AliMatrix(idrotm[356],90.0,270.0,90.0,0.0,0.0,0.0);
1370 AliMatrix(idrotm[366],90.0,57.27,90.0,147.27,0.0,0.0);
1371 AliMatrix(idrotm[386],90.0,192.86,90.0,282.86,0.0,0.0);
1372 }
1373
1374 // SSD
1375 if (! AliITSInitGeometry::SSDIsTGeoNative()) {
1376 AliMatrix(idrotm[501],90.0,148.24,90.0,238.24,0.0,0.0);
1377 AliMatrix(idrotm[503],90.0,137.65,90.0,227.65,0.0,0.0);
1378 AliMatrix(idrotm[504],90.0,127.06,90.0,217.06,0.0,0.0);
1379 AliMatrix(idrotm[505],90.0,116.47,90.0,206.47,0.0,0.0);
1380 AliMatrix(idrotm[506],90.0,105.88,90.0,195.88,0.0,0.0);
1381 AliMatrix(idrotm[507],90.0,95.29,90.0,185.29,0.0,0.0);
1382 AliMatrix(idrotm[508],90.0,84.71,90.0,174.71,0.0,0.0);
1383 AliMatrix(idrotm[509],90.0,74.12,90.0,164.12,0.0,0.0);
1384 AliMatrix(idrotm[510],90.0,63.53,90.0,153.53,0.0,0.0);
1385 AliMatrix(idrotm[511],90.0,52.94,90.0,142.94,0.0,0.0);
1386 AliMatrix(idrotm[512],90.0,42.35,90.0,132.35,0.0,0.0);
1387 AliMatrix(idrotm[513],90.0,31.76,90.0,121.76,0.0,0.0);
1388 AliMatrix(idrotm[514],90.0,10.59,90.0,100.59,0.0,0.0);
1389 AliMatrix(idrotm[515],90.0,349.41,90.0,79.41,0.0,0.0);
1390 AliMatrix(idrotm[516],90.0,338.82,90.0,68.82,0.0,0.0);
1391 AliMatrix(idrotm[517],90.0,328.24,90.0,58.24,0.0,0.0);
1392 AliMatrix(idrotm[518],90.0,317.65,90.0,47.65,0.0,0.0);
1393 AliMatrix(idrotm[519],90.0,307.06,90.0,37.06,0.0,0.0);
1394 AliMatrix(idrotm[520],90.0,296.47,90.0,26.47,0.0,0.0);
1395 AliMatrix(idrotm[521],90.0,285.88,90.0,15.88,0.0,0.0);
1396 AliMatrix(idrotm[522],90.0,275.29,90.0,5.29,0.0,0.0);
1397 AliMatrix(idrotm[523],90.0,264.71,90.0,354.71,0.0,0.0);
1398 AliMatrix(idrotm[524],90.0,254.12,90.0,344.12,0.0,0.0);
1399 AliMatrix(idrotm[525],90.0,243.53,90.0,333.53,0.0,0.0);
1400 AliMatrix(idrotm[526],90.0,232.94,90.0,322.94,0.0,0.0);
1401 AliMatrix(idrotm[527],90.0,222.35,90.0,312.35,0.0,0.0);
1402 AliMatrix(idrotm[528],90.0,211.76,90.0,301.76,0.0,0.0);
1403 AliMatrix(idrotm[529],90.0,190.59,90.0,280.59,0.0,0.0);
1404 AliMatrix(idrotm[530],90.0,169.41,90.0,259.41,0.0,0.0);
1405 AliMatrix(idrotm[531],90.0,158.82,90.0,248.82,0.0,0.0);
1406 AliMatrix(idrotm[532],90.0,360.0,90.0,90.0,0.0,0.0);
1407 AliMatrix(idrotm[533],90.0,180.0,90.0,270.0,0.0,0.0);
1408 AliMatrix(idrotm[534],90.0,189.47,90.0,279.47,0.0,0.0);
1409 AliMatrix(idrotm[535],90.0,198.95,90.0,288.95,0.0,0.0);
1410 AliMatrix(idrotm[537],90.0,217.89,90.0,307.89,0.0,0.0);
1411 AliMatrix(idrotm[538],90.0,227.37,90.0,317.37,0.0,0.0);
1412 AliMatrix(idrotm[539],90.0,236.84,90.0,326.84,0.0,0.0);
1413 AliMatrix(idrotm[540],90.0,246.32,90.0,336.32,0.0,0.0);
1414 AliMatrix(idrotm[541],90.0,255.79,90.0,345.79,0.0,0.0);
1415 AliMatrix(idrotm[542],90.0,265.26,90.0,355.26,0.0,0.0);
1416 AliMatrix(idrotm[543],90.0,274.74,90.0,4.74,0.0,0.0);
1417 AliMatrix(idrotm[544],90.0,284.21,90.0,14.21,0.0,0.0);
1418 AliMatrix(idrotm[545],90.0,293.68,90.0,23.68,0.0,0.0);
1419 AliMatrix(idrotm[546],90.0,303.16,90.0,33.16,0.0,0.0);
1420 AliMatrix(idrotm[547],90.0,312.63,90.0,42.63,0.0,0.0);
1421 AliMatrix(idrotm[548],90.0,322.11,90.0,52.11,0.0,0.0);
1422 AliMatrix(idrotm[549],90.0,331.58,90.0,61.58,0.0,0.0);
1423 AliMatrix(idrotm[550],90.0,341.05,90.0,71.05,0.0,0.0);
1424 AliMatrix(idrotm[551],90.0,350.53,90.0,80.53,0.0,0.0);
1425 AliMatrix(idrotm[552],90.0,9.47,90.0,99.47,0.0,0.0);
1426 AliMatrix(idrotm[553],90.0,18.95,90.0,108.95,0.0,0.0);
1427 AliMatrix(idrotm[555],90.0,37.89,90.0,127.89,0.0,0.0);
1428 AliMatrix(idrotm[556],90.0,47.37,90.0,137.37,0.0,0.0);
1429 AliMatrix(idrotm[557],90.0,56.84,90.0,146.84,0.0,0.0);
1430 AliMatrix(idrotm[558],90.0,66.32,90.0,156.32,0.0,0.0);
1431 AliMatrix(idrotm[559],90.0,75.79,90.0,165.79,0.0,0.0);
1432 AliMatrix(idrotm[560],90.0,85.26,90.0,175.26,0.0,0.0);
1433 AliMatrix(idrotm[561],90.0,94.74,90.0,184.74,0.0,0.0);
1434 AliMatrix(idrotm[562],90.0,104.21,90.0,194.21,0.0,0.0);
1435 AliMatrix(idrotm[563],90.0,113.68,90.0,203.68,0.0,0.0);
1436 AliMatrix(idrotm[564],90.0,123.16,90.0,213.16,0.0,0.0);
1437 AliMatrix(idrotm[565],90.0,132.63,90.0,222.63,0.0,0.0);
1438 AliMatrix(idrotm[566],90.0,142.11,90.0,232.11,0.0,0.0);
1439 AliMatrix(idrotm[567],90.0,151.58,90.0,241.58,0.0,0.0);
1440 AliMatrix(idrotm[568],90.0,161.05,90.0,251.05,0.0,0.0);
1441 AliMatrix(idrotm[569],90.0,170.53,90.0,260.53,0.0,0.0);
1442 AliMatrix(idrotm[570],90.0,180.0,90.0,90.0,180.0,0.0);
1443 AliMatrix(idrotm[571],90.0,0.0,0.0,0.0,90.0,270.0);
1444 AliMatrix(idrotm[572],90.0,180.0,0.0,0.0,90.0,270.0);
1445 AliMatrix(idrotm[573],90.0,180.0,90.0,90.0,0.0,0.0);
1446 AliMatrix(idrotm[575],90.0,120.0,180.0,0.0,90.0,210.0);
1447 AliMatrix(idrotm[576],65.71,300.0,90.0,30.0,24.29,120.0);
1448 AliMatrix(idrotm[577],114.29,300.0,90.0,30.0,155.71,120.0);
1449 AliMatrix(idrotm[579],65.71,240.0,90.0,150.0,24.29,60.0);
1450 AliMatrix(idrotm[580],114.29,240.0,90.0,150.0,155.71,60.0);
1451 AliMatrix(idrotm[581],90.0,240.0,180.0,0.0,90.0,330.0);
1452 AliMatrix(idrotm[583],90.0,0.0,180.0,0.0,90.0,90.0);
1453 AliMatrix(idrotm[584],90.0,180.0,180.0,0.0,90.0,90.0);
1454 AliMatrix(idrotm[586],180.0,0.0,90.0,90.0,90.0,0.0);
1455 AliMatrix(idrotm[618],90.0,201.18,90.0,291.18,0.0,0.0);
1456 AliMatrix(idrotm[620],90.0,28.42,90.0,118.42,0.0,0.0);
1457 AliMatrix(idrotm[623],90.0,208.42,90.0,298.42,0.0,0.0);
1458 AliMatrix(idrotm[633],132.46,0.0,90.0,90.0,42.46,360.0);
1459 AliMatrix(idrotm[653],90.0,21.18,90.0,111.18,0.0,0.0);
1460 }
1461
1462 // SDD cone
1463 if (! AliITSInitGeometry::SDDconeIsTGeoNative()) {
1464 AliMatrix(idrotm[846],90.0,300.0,90.0,30.0,0.0,0.0);
1465 AliMatrix(idrotm[851],90.0,305.0,90.0,35.0,0.0,0.0);
1466 AliMatrix(idrotm[853],90.0,60.0,90.0,150.0,0.0,0.0);
1467 AliMatrix(idrotm[856],90.0,0.0,90.0,90.0,180.0,0.0);
1468 AliMatrix(idrotm[857],90.0,5.0,90.0,95.0,180.0,0.0);
1469 AliMatrix(idrotm[858],90.0,65.0,90.0,155.0,180.0,0.0);
1470 AliMatrix(idrotm[859],90.0,305.0,90.0,35.0,180.0,0.0);
1471 AliMatrix(idrotm[860],90.0,245.0,90.0,335.0,180.0,0.0);
1472 AliMatrix(idrotm[861],90.0,185.0,90.0,275.0,180.0,0.0);
1473 AliMatrix(idrotm[862],90.0,125.0,90.0,215.0,180.0,0.0);
1474 AliMatrix(idrotm[863],90.0,257.5,90.0,347.5,180.0,0.0);
1475 AliMatrix(idrotm[864],90.0,227.5,90.0,317.5,180.0,0.0);
1476 AliMatrix(idrotm[865],90.0,197.5,90.0,287.5,180.0,0.0);
1477 AliMatrix(idrotm[867],90.0,167.5,90.0,257.5,180.0,0.0);
1478 AliMatrix(idrotm[868],90.0,287.5,90.0,17.5,0.0,0.0);
1479 AliMatrix(idrotm[869],90.0,137.5,90.0,227.5,180.0,0.0);
1480 AliMatrix(idrotm[870],90.0,107.5,90.0,197.5,180.0,0.0);
1481 AliMatrix(idrotm[871],90.0,77.5,90.0,167.5,180.0,0.0);
1482 AliMatrix(idrotm[872],90.0,47.5,90.0,137.5,180.0,0.0);
1483 AliMatrix(idrotm[873],90.0,17.5,90.0,107.5,180.0,0.0);
1484 AliMatrix(idrotm[874],90.0,347.5,90.0,77.5,180.0,0.0);
1485 AliMatrix(idrotm[875],90.0,317.5,90.0,47.5,180.0,0.0);
1486 AliMatrix(idrotm[876],90.0,287.5,90.0,17.5,180.0,0.0);
1487 AliMatrix(idrotm[877],90.0,185.0,90.0,275.0,0.0,0.0);
1488 AliMatrix(idrotm[878],90.0,180.0,90.0,270.0,0.0,0.0);
1489 AliMatrix(idrotm[879],90.0,125.0,90.0,215.0,0.0,0.0);
1490 AliMatrix(idrotm[880],90.0,65.0,90.0,155.0,0.0,0.0);
1491 AliMatrix(idrotm[881],90.0,5.0,90.0,95.0,0.0,0.0);
1492 AliMatrix(idrotm[882],90.0,245.0,90.0,335.0,0.0,0.0);
1493 AliMatrix(idrotm[883],90.0,47.5,90.0,137.5,0.0,0.0);
1494 AliMatrix(idrotm[884],90.0,77.5,90.0,167.5,0.0,0.0);
1495 AliMatrix(idrotm[885],90.0,107.5,90.0,197.5,0.0,0.0);
1496 AliMatrix(idrotm[887],90.0,137.5,90.0,227.5,0.0,0.0);
1497 AliMatrix(idrotm[888],90.0,167.5,90.0,257.5,0.0,0.0);
1498 AliMatrix(idrotm[889],90.0,197.5,90.0,287.5,0.0,0.0);
1499 AliMatrix(idrotm[890],90.0,227.5,90.0,317.5,0.0,0.0);
1500 AliMatrix(idrotm[891],90.0,347.5,90.0,77.5,0.0,0.0);
1501 AliMatrix(idrotm[892],90.0,317.5,90.0,47.5,0.0,0.0);
1502 AliMatrix(idrotm[893],90.0,257.5,90.0,347.5,0.0,0.0);
1503 AliMatrix(idrotm[894],90.0,270.0,0.0,0.0,90.0,180.0);
1504 AliMatrix(idrotm[895],90.0,286.36,0.0,0.0,90.0,196.36);
1505 AliMatrix(idrotm[896],90.0,302.73,0.0,0.0,90.0,212.73);
1506 AliMatrix(idrotm[897],90.0,319.09,0.0,0.0,90.0,229.09);
1507 AliMatrix(idrotm[898],90.0,17.5,90.0,107.5,0.0,0.0);
1508 AliMatrix(idrotm[899],90.0,335.45,0.0,0.0,90.0,245.45);
1509 AliMatrix(idrotm[900],90.0,351.82,0.0,0.0,90.0,261.82);
1510 AliMatrix(idrotm[901],90.0,8.18,0.0,0.0,90.0,278.18);
1511 AliMatrix(idrotm[902],90.0,24.55,0.0,0.0,90.0,294.55);
1512 AliMatrix(idrotm[903],90.0,40.91,0.0,0.0,90.0,310.91);
1513 AliMatrix(idrotm[904],90.0,57.27,0.0,0.0,90.0,327.27);
1514 AliMatrix(idrotm[905],90.0,73.64,0.0,0.0,90.0,343.64);
1515 AliMatrix(idrotm[906],90.0,90.0,0.0,0.0,90.0,360.0);
1516 AliMatrix(idrotm[907],90.0,106.36,0.0,0.0,90.0,16.36);
1517 AliMatrix(idrotm[908],90.0,122.73,0.0,0.0,90.0,32.73);
1518 AliMatrix(idrotm[909],90.0,139.09,0.0,0.0,90.0,49.09);
1519 AliMatrix(idrotm[910],90.0,155.45,0.0,0.0,90.0,65.45);
1520 AliMatrix(idrotm[911],90.0,171.82,0.0,0.0,90.0,81.82);
1521 AliMatrix(idrotm[912],90.0,188.18,0.0,0.0,90.0,98.18);
1522 AliMatrix(idrotm[913],90.0,204.55,0.0,0.0,90.0,114.55);
1523 AliMatrix(idrotm[914],90.0,220.91,0.0,0.0,90.0,130.91);
1524 AliMatrix(idrotm[915],90.0,237.27,0.0,0.0,90.0,147.27);
1525 AliMatrix(idrotm[916],90.0,253.64,0.0,0.0,90.0,163.64);
1526 AliMatrix(idrotm[917],90.0,295.71,0.0,0.0,90.0,205.71);
1527 AliMatrix(idrotm[918],90.0,321.43,0.0,0.0,90.0,231.43);
1528 AliMatrix(idrotm[919],90.0,347.14,0.0,0.0,90.0,257.14);
1529 AliMatrix(idrotm[920],90.0,12.86,0.0,0.0,90.0,282.86);
1530 AliMatrix(idrotm[921],90.0,38.57,0.0,0.0,90.0,308.57);
1531 AliMatrix(idrotm[922],90.0,64.29,0.0,0.0,90.0,334.29);
1532 AliMatrix(idrotm[923],90.0,115.71,0.0,0.0,90.0,25.71);
1533 AliMatrix(idrotm[924],90.0,141.43,0.0,0.0,90.0,51.43);
1534 AliMatrix(idrotm[925],90.0,167.14,0.0,0.0,90.0,77.14);
1535 AliMatrix(idrotm[926],90.0,192.86,0.0,0.0,90.0,102.86);
1536 AliMatrix(idrotm[927],90.0,218.57,0.0,0.0,90.0,128.57);
1537 AliMatrix(idrotm[928],90.0,244.29,0.0,0.0,90.0,154.29);
1538 AliMatrix(idrotm[929],90.0,120.0,90.0,210.0,0.0,0.0);
1539 AliMatrix(idrotm[930],90.0,240.0,90.0,330.0,0.0,0.0);
1540 AliMatrix(idrotm[931],90.0,60.0,90.0,150.0,180.0,0.0);
1541 AliMatrix(idrotm[932],90.0,120.0,90.0,210.0,180.0,0.0);
1542 AliMatrix(idrotm[933],90.0,180.0,90.0,270.0,180.0,0.0);
1543 AliMatrix(idrotm[934],90.0,240.0,90.0,330.0,180.0,0.0);
1544 AliMatrix(idrotm[935],90.0,300.0,90.0,30.0,180.0,0.0);
1545 }
1546
1547 // SSD cone
1548 if (! AliITSInitGeometry::SSDconeIsTGeoNative()) {
1549 AliMatrix(idrotm[701],90.0,0.0,90.0,90.0,180.0,0.0);
1550 AliMatrix(idrotm[702],90.0,347.5,90.0,77.5,180.0,0.0);
1551 AliMatrix(idrotm[703],90.0,17.5,90.0,107.5,180.0,0.0);
1552 AliMatrix(idrotm[704],90.0,47.5,90.0,137.5,180.0,0.0);
1553 AliMatrix(idrotm[705],90.0,77.5,90.0,167.5,180.0,0.0);
1554 AliMatrix(idrotm[706],90.0,107.5,90.0,197.5,180.0,0.0);
1555 AliMatrix(idrotm[707],90.0,137.5,90.0,227.5,180.0,0.0);
1556 AliMatrix(idrotm[708],90.0,167.5,90.0,257.5,180.0,0.0);
1557 AliMatrix(idrotm[709],90.0,197.5,90.0,287.5,180.0,0.0);
1558 AliMatrix(idrotm[710],90.0,227.5,90.0,317.5,180.0,0.0);
1559 AliMatrix(idrotm[711],90.0,257.5,90.0,347.5,180.0,0.0);
1560 AliMatrix(idrotm[712],90.0,287.5,90.0,17.5,180.0,0.0);
1561 AliMatrix(idrotm[713],90.0,317.5,90.0,47.5,180.0,0.0);
1562 AliMatrix(idrotm[714],90.0,328.4,90.0,58.4,180.0,0.0);
1563 AliMatrix(idrotm[715],90.0,28.4,90.0,118.4,180.0,0.0);
1564 AliMatrix(idrotm[716],90.0,88.4,90.0,178.4,180.0,0.0);
1565 AliMatrix(idrotm[717],90.0,148.4,90.0,238.4,180.0,0.0);
1566 AliMatrix(idrotm[718],90.0,208.4,90.0,298.4,180.0,0.0);
1567 AliMatrix(idrotm[719],90.0,268.4,90.0,358.4,180.0,0.0);
1568 AliMatrix(idrotm[720],90.0,28.4,90.0,118.4,0.0,0.0);
1569 AliMatrix(idrotm[721],90.0,88.4,90.0,178.4,0.0,0.0);
1570 AliMatrix(idrotm[722],90.0,148.4,90.0,238.4,0.0,0.0);
1571 AliMatrix(idrotm[723],90.0,208.4,90.0,298.4,0.0,0.0);
1572 AliMatrix(idrotm[724],90.0,268.4,90.0,358.4,0.0,0.0);
1573 AliMatrix(idrotm[725],90.0,328.4,90.0,58.4,0.0,0.0);
1574 AliMatrix(idrotm[726],90.0,77.5,90.0,167.5,0.0,0.0);
1575 AliMatrix(idrotm[727],90.0,107.5,90.0,197.5,0.0,0.0);
1576 AliMatrix(idrotm[728],90.0,137.5,90.0,227.5,0.0,0.0);
1577 AliMatrix(idrotm[729],90.0,167.5,90.0,257.5,0.0,0.0);
1578 AliMatrix(idrotm[730],90.0,227.5,90.0,317.5,0.0,0.0);
1579 AliMatrix(idrotm[731],90.0,257.5,90.0,347.5,0.0,0.0);
1580 AliMatrix(idrotm[732],90.0,317.5,90.0,47.5,0.0,0.0);
1581 AliMatrix(idrotm[733],90.0,197.5,90.0,287.5,0.0,0.0);
1582 AliMatrix(idrotm[734],90.0,347.5,90.0,77.5,0.0,0.0);
1583 AliMatrix(idrotm[735],90.0,47.5,90.0,137.5,0.0,0.0);
1584 AliMatrix(idrotm[768],90.0,287.5,90.0,17.5,0.0,0.0);
1585 AliMatrix(idrotm[798],90.0,17.5,90.0,107.5,0.0,0.0);
1586 }
1587
1588 // Services
1589 AliMatrix(idrotm[200], 90., 0., 90., 90., 180., 0.);
1590
1591 // New reference frame: z---> -z; x ---> -x; y ---> y
1592 AliMatrix(idrotm[199], 90.,180., 90.,90., 180.,0.);
1593
1594 // CONVERT INTO CM (RL(SI)=9.36 CM)
1595 for (i = 0; i < 6; ++i) {
1596 drl[i] = drl[i] / 100. * 9.36;
1597 } // end for i
1598
1599 // FIELD CAGE HALF LENGTH
1600 rlim = 50.;
1601 zmax = 74.;
1602 ztpc = 284.;
1603 // --- Define ghost volume containing the whole ITS (including services)
1604 // and fill it with air
1605 dgh[0] = 0.;
1606 dgh[1] = 360.;
1607 dgh[2] = 16.;
1608 dgh[3] = -ztpc-5.-0.1;
1609 dgh[4] = 46;
1610 dgh[5] = 85.;
1611 dgh[6] = -ztpc;
1612 dgh[7] = 46;
1613 dgh[8] = 85.;
1614 dgh[9] = -ztpc;
1615 dgh[10] = 46;
1616 dgh[11] = rlim+7.5;
1617 dgh[12] = -97.5;
1618 dgh[13] = 46;
1619 dgh[14] = rlim+7.5;
1620 dgh[15] = -zmax;
1621 dgh[16] = 46;
1622 dgh[17] = rlim+7.5;
1623 dgh[18] = -48;
1624 dgh[19] = 6;
1625 dgh[20] = rlim+7.5;
1626 dgh[21] = -28.6;
1627 dgh[22] = 6;
1628 dgh[23] = rlim+7.5;
1629 dgh[24] = -27.6;
1630 dgh[25] = 3.295;
1631 dgh[26] = rlim+7.5;
1632 dgh[27] = 27.6;
1633 dgh[28] = 3.295;
1634 dgh[29] = rlim+7.5;
1635 dgh[30] = 28.6;
1636 dgh[31] = 6;
1637 dgh[32] = rlim+7.5;
1638 dgh[33] = 48;
1639 dgh[34] = 6;
1640 dgh[35] = rlim+7.5;
1641 dgh[36] = zmax;
1642 dgh[37] = 46;
1643 dgh[38] = rlim+7.5;
1644 dgh[39] = 97.5;
1645 dgh[40] = 46;
1646 dgh[41] = rlim+7.5;
1647 dgh[42] = ztpc;
1648 dgh[43] = 62;
1649 dgh[44] = 62+4.;
1650 dgh[45] = ztpc;
1651 dgh[46] = 62;
1652 dgh[47] = 85.;
1653 dgh[48] = ztpc+4.+0.1;
1654 dgh[49] = 62.0;//62.4;
1655 dgh[50] = 85.;
cc8a4c78 1656// gMC->Gsvolu("ITSV", "PCON", idtmed[205], dgh, 51);
4737b5bb 1657 new TGeoVolumeAssembly("ITSV");
1c5895a3 1658 new TGeoVolumeAssembly("ITSS");
cc8a4c78 1659
108bd0fe 1660 // --- Place the ghost volume in its mother volume (ALIC) and make it
1661 // invisible
1662 // gMC->Gspos("ITSV", 1, "ALIC", 0., 0., 0., 0, "ONLY");
1663 //gMC->Gspos("ITSV", 1, "ALIC", 0., 0., 0., idrotm[199], "MANY");
8c05a508 1664 //gGeoManager->SetVolumeAttribute("ITSV", "SEEN", 0);
108bd0fe 1665
1666 //gMC->Gspos("ITSV", 1, "ALIC", 0., 0., 0., 0, "MANY"); //=== LG
1667 gMC->Gspos("ITSV", 1, "ALIC", 0., 0., 0., 0, "ONLY"); //=== LG
1c5895a3 1668 gMC->Gspos("ITSS", 1, "ALIC", 0., 0., 0., 0, "ONLY"); //=== MS
108bd0fe 1669
1670
1671 // --- Define ghost volume containing the six layers and fill it with air
1672
1673// dgh[0] = 0.;
1674// dgh[1] = 360.;
1675// dgh[2] = 8.;
1676// dgh[3] = -zmax;
1677// dgh[4] = 46.;
1678// dgh[5] = rlim;
1679// dgh[6] = -47.5;
1680// dgh[7] = 6.005;
1681// dgh[8] = rlim;
1682// dgh[9] = -28.5;
1683// dgh[10] = 6.005;
1684// dgh[11] = rlim;
1685// dgh[12] = -27.5;
1686// dgh[13] = 3.3;
1687// dgh[14] = rlim;
1688// dgh[15] = 27.5;
1689// dgh[16] = 3.3;
1690// dgh[17] = rlim;
1691// dgh[18] = 28.5;
1692// dgh[19] = 6.005;
1693// dgh[20] = rlim;
1694// dgh[21] = 47.5;
1695// dgh[22] = 6.005;
1696// dgh[23] = rlim;
1697// dgh[24] = zmax;
1698// dgh[25] = 46.;
1699// dgh[26] = rlim;
1700// gMC->Gsvolu("ITSD", "PCON", idtmed[205], dgh, 27);
1701
1702 // --- Place the ghost volume in its mother volume (ITSV) and make it
1703 // invisible
1704 //gMC->Gspos("ITSD", 1, "ITSV", 0., 0., 0., 0, "ONLY");
8c05a508 1705 //gGeoManager->SetVolumeAttribute("ITSD", "SEEN", 0);
108bd0fe 1706
1707 //======================================================================
1708 // Let's make ITSD an assembly, because we can then add the new geometry
1709 // inside this volume without belonging to it.
1710 //
1711 // The 180° rotation (which was done for switching from the old
1712 // coordinate system to the new one) is applied on ITSD, not ITSV,
1713 // because ITSV will also contain the new geometry.
1714 // LG
1715 //======================================================================
1716
1717 //TGeoVolumeAssembly *dITS = new TGeoVolumeAssembly("ITSD");
40e2e5ea 1718 if (! AliITSInitGeometry::SPDshieldIsTGeoNative() ||
1719 ! AliITSInitGeometry::SPDIsTGeoNative() ||
1720 ! AliITSInitGeometry::SDDIsTGeoNative() ||
1721 ! AliITSInitGeometry::SSDIsTGeoNative() ||
1722 ! AliITSInitGeometry::SDDconeIsTGeoNative() ||
1723 ! AliITSInitGeometry::SSDconeIsTGeoNative() ) {
108bd0fe 1724 new TGeoVolumeAssembly("ITSD");
1725 gMC->Gspos("ITSD", 1, "ITSV", 0., 0., 0., idrotm[199], "ONLY");
40e2e5ea 1726 }
108bd0fe 1727
1728 // --- Define SPD (option 'b') volumes ----------------------------
1729
1730 // SPD - option 'b'
1731 // (this is the default)
1732
1733 //if (option == 2) {
1734 if (! AliITSInitGeometry::SPDIsTGeoNative()) {
1735
1736 dits[0] = 3.7;
1737 dits[1] = 7.75;
1738 dits[2] = 26.1;
1739 gMC->Gsvolu("IT12", "TUBE", idtmed[254], dits, 3);
1740
1741 dits[0] = 3.7;
1742 dits[1] = 7.7;
1743 dits[2] = 24;
1744 dits[3] = 57;
1745 dits[4] = 100;
1746 gMC->Gsvolu("I12B", "TUBS", idtmed[254], dits, 5); // sector
1747
1748 di10b[0] = 0.843;
1749 di10b[1] = ddet1+dchip1+dbus+0.0025;
1750 di10b[2] = 19.344;
1751 gMC->Gsvolu("I10B", "BOX ", idtmed[254], di10b, 3); // mother volume
1752 // on layer 1
1753
1754 di20b[0] = 0.843;
1755 di20b[1] = ddet2+dchip2+dbus+0.0025;
1756 di20b[2] = 19.344;
1757 gMC->Gsvolu("I20B", "BOX ", idtmed[254], di20b, 3); // mother volume
1758 // layer 2
1759
1760 dits[0] = 1.3673;
1761 dits[1] = 0.01;
1762 dits[2] = 24;
1763 gMC->Gsvolu("I123", "BOX ", idtmed[253], dits, 3);
1764
1765 dits[0] = 0.06;
1766 dits[1] = 0.08;
1767 dits[2] = 24;
1768 dits[3] = -36.79;
1769 dits[4] = 21.834;
1770 gMC->Gsvolu("I121", "TUBS", idtmed[253], dits, 5);
1771
1772 dits[0] = 0.1253;
1773 dits[1] = 0.01;
1774 dits[2] = 24;
1775 gMC->Gsvolu("I122", "BOX ", idtmed[253], dits, 3);
1776
1777 dits[0] = 0.04;
1778 dits[1] = 0.06 ;
1779 dits[2] = 24;
1780 dits[3] = 126.79;
1781 dits[4] = 270;
1782 gMC->Gsvolu("I120", "TUBS", idtmed[253], dits, 5);
1783
1784 dits[0] = 0.1134;
1785 dits[1] = 0.01;
1786 dits[2] = 24;
1787 gMC->Gsvolu("I144", "BOX ", idtmed[253], dits, 3);
1788
1789 dits[0] = 0.25;
1790 dits[1] = 0.06;
1791 dits[2] = 24;
1792 gMC->Gsvolu("I113", "BOX ", idtmed[254], dits, 3);
1793
1794 dits[0] = 0.077;
1795 dits[1] = 0.01;
1796 dits[2] = 24;
1797 gMC->Gsvolu("I143", "BOX ", idtmed[253], dits, 3);
1798
1799 dits[0] = 0.04;
1800 dits[1] = 0.06;
1801 dits[2] = 24;
1802 dits[3] = 0;
1803 dits[4] = 90;
1804 gMC->Gsvolu("I142", "TUBS", idtmed[253], dits, 5);
1805
1806 dits[0] = 0.0695;
1807 dits[1] = 0.01;
1808 dits[2] = 24;
1809 gMC->Gsvolu("I141", "BOX ", idtmed[253], dits, 3);
1810
1811 dits[0] = 0.06;
1812 dits[1] = 0.08;
1813 dits[2] = 24;
1814 dits[3] = 0;
1815 dits[4] = 108;
1816 gMC->Gsvolu("I140", "TUBS", idtmed[253], dits, 5);
1817
1818 dits[0] = 0.1835;
1819 dits[1] = 0.01;
1820 dits[2] = 24;
1821 gMC->Gsvolu("I139", "BOX ", idtmed[253], dits, 3);
1822
1823 dits[0] = 0.1894 ;
1824 dits[1] = 0.01;
1825 dits[2] = 24;
1826 gMC->Gsvolu("I138", "BOX ", idtmed[253], dits, 3);
1827
1828 dits[0] = 0.04;
1829 dits[1] = 0.06;
1830 dits[2] = 24;
1831 dits[3] = 0;
1832 dits[4] = 75.261;
1833 gMC->Gsvolu("I137", "TUBS", idtmed[253], dits, 5);
1834
1835 dits[0] = 1.3401;
1836 dits[1] = 0.01;
1837 dits[2] = 24;
1838 gMC->Gsvolu("I136", "BOX ", idtmed[253], dits, 3);
1839
1840 dits[0] = 0.05;
1841 dits[1] = 0.07;
1842 dits[2] = 24;
1843 dits[3] = 0;
1844 dits[4] = 72.739;
1845 gMC->Gsvolu("I135", "TUBS", idtmed[253], dits, 5);
1846
1847 dits[0] = 0.1193;
1848 dits[1] = 0.01;
1849 dits[2] = 24;
1850 gMC->Gsvolu("I134", "BOX ", idtmed[253], dits, 3);
1851
1852 dits[0] = 0.163;
1853 dits[1] = 0.01;
1854 dits[2] = 24;
1855 gMC->Gsvolu("I133", "BOX ", idtmed[253], dits, 3);
1856
1857 dits[0] = 0.04;
1858 dits[1] = 0.06;
1859 dits[2] = 24;
1860 dits[3] = 0;
1861 dits[4] = 157.633;
1862 gMC->Gsvolu("I132", "TUBS", idtmed[253], dits, 5);
1863
1864 dits[0] = 0.2497;
1865 dits[1] = 0.01;
1866 dits[2] = 24;
1867 gMC->Gsvolu("I131", "BOX ", idtmed[253], dits, 3);
1868
1869 dits[0] = 0.06;
1870 dits[1] = 0.08;
1871 dits[2] = 24;
1872 dits[3] = 0;
1873 dits[4] = 148.633;
1874 gMC->Gsvolu("I130", "TUBS", idtmed[253], dits, 5);
1875
1876 dits[0] = 0.292;
1877 dits[1] = 0.01;
1878 dits[2] = 24;
1879 gMC->Gsvolu("I129", "BOX ", idtmed[253], dits, 3);
1880
1881 dits[0] = 0.163;
1882 dits[1] = 0.01;
1883 dits[2] = 24;
1884 gMC->Gsvolu("I128", "BOX ", idtmed[253], dits, 3);
1885
1886 dits[0] = 0.04;
1887 dits[1] = 0.06;
1888 dits[2] = 24;
1889 dits[3] = 0;
1890 dits[4] = 161.297;
1891 gMC->Gsvolu("I126", "TUBS", idtmed[253], dits, 5);
1892
1893 dits[0] = 0.2433;
1894 dits[1] = 0.01;
1895 dits[2] = 24;
1896 gMC->Gsvolu("I125", "BOX ", idtmed[253], dits, 3);
1897
1898 dits[0] = 0.06;
1899 dits[1] = 0.08;
1900 dits[2] = 24;
1901 dits[3] = 0;
1902 dits[4] = 42.883;
1903 gMC->Gsvolu("I124", "TUBS", idtmed[253], dits, 5);
1904
1905 dits[0] = 0.793;
1906 dits[1] = ddet1+dchip1+dbus+0.0025;
1907 dits[2] = 2.5;
1908 gMC->Gsvolu("I105", "BOX ", idtmed[290], dits, 3);
1909
1910 di107[0] = 0.793;
1911 di107[1] = ddet1+dchip1;
1912 di107[2] = 3.536;
1913 gMC->Gsvolu("I107", "BOX ", idtmed[254], di107, 3); // contains det and chip
1914 // layer 1
1915 dits[0] = 0.705;
1916 dits[1] = 0.01;
1917 dits[2] = 2.5;
1918 gMC->Gsvolu("I109", "BOX ", idtmed[275], dits, 3);
1919
1920 di108[0] = 0.705;
1921 di108[1] = dbus;
1922 di108[2] = 14.344;
1923 gMC->Gsvolu("I108", "BOX ", idtmed[275], di108, 3); // bus for both layers
1924
1925 di1d7[0] = 0.7975;
1926 di1d7[1] = ddet2+dchip2;
1927 di1d7[2] = 3.536;
1928 gMC->Gsvolu("I1D7", "BOX ", idtmed[254], di1d7, 3); // contains det and chip
1929 // layer 2
1930 dits[0] = 0.06;
1931 dits[1] = 0.08;
1932 dits[2] = 24;
1933 dits[3] = 0;
1934 dits[4] = 80;
1935 gMC->Gsvolu("I112", "TUBS", idtmed[253], dits, 5);
1936
1937 dits[0] = 0.04;
1938 dits[1] = 0.06;
1939 dits[2] = 24;
1940 dits[3] = 0;
1941 dits[4] = 80;
1942 gMC->Gsvolu("I111", "TUBS", idtmed[253], dits, 5);
1943
1944 dits[0] = 0.15;
1945 dits[1] = 0.0146;
1946 dits[2] = 24;
1947 gMC->Gsvolu("I118", "BOX ", idtmed[273], dits, 3);
1948
1949 dits[0] = 0.1315;
1950 dits[1] = 0.01;
1951 dits[2] = 24;
1952 gMC->Gsvolu("I110", "BOX ", idtmed[253], dits, 3);
1953
1954 dits[0] = 0.025;
1955 dits[1] = 0.035;
1956 dits[2] = 24;
1957 dits[3] = 0;
1958 dits[4] = 180;
1959 gMC->Gsvolu("I114", "TUBS", idtmed[264], dits, 5);
1960
1961 dits[0] = 0;
1962 dits[1] = 0.025;
1963 dits[2] = 24;
1964 dits[3] = 0;
1965 dits[4] = 180;
1966 gMC->Gsvolu("I115", "TUBS", idtmed[211], dits, 5); // set freon as cooling fluid
1967
1968
1969 dits[0] = 0.063;
1970 dits[1] = 0.035;
1971 dits[2] = 24;
1972 gMC->Gsvolu("I116", "BOX ", idtmed[264], dits, 3);
1973
1974 di106[0] = 0.7975;
1975 di106[1] = dchip1;
1976 di106[2] = 0.68;
1977 gMC->Gsvolu("I106", "BOX ", idtmed[201], di106, 3); // chip layer 1
1978
1979 di1d6[0] = 0.7975;
1980 di1d6[1] = dchip2;
1981 di1d6[2] = 0.68;
1982 gMC->Gsvolu("I1D6", "BOX ", idtmed[201], di1d6, 3); // chip layer 2
1983
1984 di101[0] = 0.705;
1985 di101[1] = ddet1;
1986 di101[2] = 3.536;
1987 gMC->Gsvolu("I101", "BOX ", idtmed[250], di101, 3); // contains detector
1988 // layer 1
1989 di1d1[0] = 0.705;
1990 di1d1[1] = ddet2;
1991 di1d1[2] = 3.536;
1992 gMC->Gsvolu("I1D1", "BOX ", idtmed[250], di1d1, 3); // contains detector
1993 // layer 2
1994
1995
1996 dits[0] = 0.063;
1997 dits[1] = 0.025;
1998 dits[2] = 24;
1999 gMC->Gsvolu("I117", "BOX ", idtmed[211], dits, 3); // set freon as cooling fluid
2000
2001
2002 dits1[0] = 0.64;
2003 dits1[1] = ddet1;
2004 dits1[2] = 3.48;
2005 gMC->Gsvolu("ITS1", "BOX ", idtmed[200], dits1, 3); // detector layer 1
2006
2007 dits2[0] = 0.64;
2008 dits2[1] = ddet2;
2009 dits2[2] = 3.48;
2010 gMC->Gsvolu("ITS2", "BOX ", idtmed[200], dits2, 3); // detector layer 2
2011
2012 dits[0] = 3.701;
2013 dits[1] = 7.699;
2014 dits[2] = 4;
2015 dits[3] = 57.1;
2016 dits[4] = 99.9;
2017 gMC->Gsvolu("I650", "TUBS", idtmed[254], dits, 5); // was I150 in old geom.
2018
2019 dits[0] = 3.7;
2020 dits[1] = 7.75;
2021 dits[2] = 0.05;
2022 gMC->Gsvolu("I651", "TUBE", idtmed[296], dits, 3); // services disk
2023
2024 dits[0] = 0;
2025 dits[1] = 0.5;
2026 dits[2] = 1.5;
2027 gMC->Gsvolu("I676", "TUBE", idtmed[274], dits, 3); // was I176 in old geom.
2028
2029 dits[0] = 0;
2030 dits[1] = 0.18;
2031 dits[2] = 0.8;
2032 gMC->Gsvolu("I673", "TUBE", idtmed[274], dits, 3); // was I173 in old geom.
2033
2034 dits[0] = 0;
2035 dits[1] = 0.18;
2036 dits[2] = 3;
2037 gMC->Gsvolu("I671", "TUBE", idtmed[274], dits, 3); // was I171 in old geom.
2038
2039 dits[0] = 0;
2040 dits[1] = 0.075;
2041 dits[2] = 0.8;
2042 gMC->Gsvolu("I669", "TUBE", idtmed[264], dits, 3); // was I169 in old geom.
2043
2044 dits[0] = 3.5;
2045 dits[1] = 5.6;
2046 dits[2] = 0.55;
2047 dits[3] = 0;
2048 dits[4] = 38;
2049 gMC->Gsvolu("I667", "TUBS", idtmed[263], dits, 5); // was I167 in old geom.
2050
2051 dits[0] = 6.6;
2052 dits[1] = 7.6;
2053 dits[2] = 0.5;
2054 dits[3] = 0;
2055 dits[4] = 9;
2056 gMC->Gsvolu("I666", "TUBS", idtmed[263], dits, 5); // was I166 in old geom.
2057
2058 dits[0] = 0.26;
2059 dits[1] = 0.32;
2060 dits[2] = 0.55;
2061 gMC->Gsvolu("I678", "TUBE", idtmed[263], dits, 3); // was I178 in old geom.
2062
2063 dits[0] = 0;
2064 dits[1] = 0.3;
2065 dits[2] = 1.5;
2066 gMC->Gsvolu("I677", "TUBE", idtmed[211], dits, 3); //set freon as cooling fluid
2067 // was I177 in old geom.
2068
2069 dits[0] = 0.07;
2070 dits[1] = 0.125;
2071 dits[2] = 0.3;
2072 gMC->Gsvolu("I675", "TUBE", idtmed[263], dits, 3); // was I175 in old geom.
2073
2074
2075 dits[0] = 0;
2076 dits[1] = 0.1;
2077 dits[2] = 0.8;
2078 gMC->Gsvolu("I674", "TUBE", idtmed[211], dits, 3); //set freon as cooling fluid
2079 // was I174 in old geom.
2080
2081
2082
2083 dits[0] = 0;
2084 dits[1] = 0.1;
2085 dits[2] = 3;
2086 gMC->Gsvolu("I672", "TUBE", idtmed[211], dits, 3); //set freon as cooling fluid
2087 // was I172 in old geom.
2088
2089
2090 dits[0] = 0;
2091 dits[1] = 0.0746;
2092 dits[2] = 0.8;
2093 gMC->Gsvolu("I670", "TUBE", idtmed[211], dits, 3); //set freon as cooling fluid
2094 // was I170 in old geom.
2095
2096 dits[0] = 3.7;
2097 dits[1] = 5.4;
2098 dits[2] = 0.35;
2099 dits[3] = 2;
2100 dits[4] = 36;
2101 gMC->Gsvolu("I668", "TUBS", idtmed[211], dits, 5); //set freon as cooling fluid
2102 // was I168 in old geom.
2103
2104 }
2105
2106 // --- Define SDD volumes ------------------------------------------
2107
108bd0fe 2108 cos30 = cos(30.*3.14159/180.);
2109 sin30 = sin(30.*3.14159/180.);
2110
2111 if (! AliITSInitGeometry::SDDIsTGeoNative()) {
2112
2113 Double_t maxRadius = 28.5;
2114 dits[0] = 0;
2115 dits[1] = 360;
2116 dits[2] = 6;
2117 dits[3] = -34.6;
2118 dits[4] = 23.49;
2119 dits[5] = maxRadius;
2120 dits[6] = -27.35;
2121 dits[7] = 23.49;
2122 dits[8] = maxRadius;
2123 dits[9] = -27.35;
2124 dits[10] = 14.59;
2125 dits[11] = maxRadius;
2126 dits[12] = 27.35;
2127 dits[13] = 14.59;
2128 dits[14] = maxRadius;
2129 dits[15] = 27.35;
2130 dits[16] = 23.49;
2131 dits[17] = maxRadius;
2132 dits[18] = 34.6;
2133 dits[19] = 23.49;
2134 dits[20] = maxRadius;
2135 gMC->Gsvolu("IT34", "PCON", idtmed[209], dits, 21);
2136
2137 // block of the SDD electronics and related ladder frame
2138 iI018dits[0] = 3.2;
2139 iI018dits[1] = 2;
2140 iI018dits[2] = 3.65;
2141 gMC->Gsvolu("I018", "BOX ", idtmed[209], iI018dits, 3);
2142
2143 // block of the SDD end ladder
2144 iI024dits[0] = 3.2;
2145 iI024dits[1] = 2;
2146 iI024dits[2] = 2.725;
2147 gMC->Gsvolu("I024", "BOX ", idtmed[209], iI024dits, 3);
2148
2149 // ladder frame of layer 3 - F.T. March,7-2001
2150 iI047dits[0] = iI018dits[0];
2151 iI047dits[1] = iI018dits[1];
2152 iI047dits[2] = 6*iI018dits[2] + 2*iI024dits[2];
2153 gMC->Gsvolu("I047", "BOX ", idtmed[209], iI047dits, 3);
2154
2155 // ladder frame of layer 4 - F.T. March,7-2001
2156 iI048dits[0] = iI018dits[0];
2157 iI048dits[1] = iI018dits[1];
2158 iI048dits[2] = 8*iI018dits[2] + 2*iI024dits[2];
2159 gMC->Gsvolu("I048", "BOX ", idtmed[209], iI048dits, 3);
2160
2161
2162 // global SDD volume (sensitive + insensitive)
2163 iI302dits[0] = 3.6250;
2164 iI302dits[1] = 0.0150;
2165 iI302dits[2] = 4.3794;
2166 gMC->Gsvolu("I302", "BOX ", idtmed[278], iI302dits, 3);
2167
2168 // Like for I302 - F.T. March,7-2001
2169 iI402dits[0] = 3.6250;
2170 iI402dits[1] = 0.0150;
2171 iI402dits[2] = 4.3794;
2172 gMC->Gsvolu("I402", "BOX ", idtmed[278], iI402dits, 3);
2173
2174 // SDD ladder of layer 3 - F.T. March,7-2001
2175 iI004dits[0] = iI302dits[0]+0.005;
2176 iI004dits[1] = 2*iI302dits[1]+ySDDsep/2.;
2177 iI004dits[2] = TMath::Abs(zSDDlay3[0]);
2178 if (iI004dits[2] < TMath::Abs(zSDDlay3[5])) {
2179 iI004dits[2] = TMath::Abs(zSDDlay3[5]);
2180 }
2181 iI004dits[2] = iI004dits[2] + iI302dits[2];
2182 gMC->Gsvolu("I004", "BOX ", idtmed[209], iI004dits, 3);
2183
2184 // SDD ladder of layer 4 - F.T. March,7-2001
2185 iI005dits[0] = iI402dits[0]+0.005;
2186 iI005dits[1] = 2*iI402dits[1]+ySDDsep/2.;
2187 iI005dits[2] = TMath::Abs(zSDDlay4[0]);
2188 if (iI005dits[2] < TMath::Abs(zSDDlay4[7])) {
2189 iI005dits[2] = TMath::Abs(zSDDlay4[7]);
2190 }
2191 iI005dits[2] = iI005dits[2] + iI402dits[2];
2192 gMC->Gsvolu("I005", "BOX ", idtmed[209], iI005dits, 3);
2193
2194
2195 // -- block of the SDD ladder foot and end ladder
2196
2197 // ladder foot mother volume
2198 iI028dits[0] = 3.0000;
2199 iI028dits[1] = 0.4000;
2200 iI028dits[2] = 0.9000;
2201 gMC->Gsvolu("I028", "BOX ", idtmed[224], iI028dits, 3);
2202
2203 // positioning-box #1 at SDD end-ladder - F.T. March,7-2001
2204 iI420dits[0] = 0.4500;
2205 iI420dits[1] = 0.4000;
2206 iI420dits[2] = 0.4500;
2207 gMC->Gsvolu("I420", "BOX ", idtmed[264], iI420dits, 3);
2208
2209 // positioning-box #2 at SDD end-ladder - F.T. March,7-2001
2210 iI421dits[0] = 0.;
2211 iI421dits[1] = 0.25;
2212 iI421dits[2] = iI420dits[1];
2213 gMC->Gsvolu("I421", "TUBE", idtmed[209], iI421dits, 3);
2214
2215 // reference ruby-sphere at SDD end-ladder - F.T. March,7-2001
2216 iI422dits[0] = 0.0000;
2217 iI422dits[1] = 0.2000;
2218 iI422dits[2] = 0.0000;
2219 iI422dits[3] = 180.00;
2220 iI422dits[4] = 0.0000;
2221 iI422dits[5] = 360.00;
2222 gMC->Gsvolu("I422", "SPHE", idtmed[277], iI422dits, 6);
2223
2224 // support for ruby-sphere (I422) - F.T. March,7-2001
2225 iI423dits[0] = 0.0000;
2226 iI423dits[1] = 0.1000;
2227 iI423dits[2] = (iI420dits[1]-iI422dits[1])/2.;
2228 gMC->Gsvolu("I423", "TUBE", idtmed[264], iI423dits, 3);
2229
2230 // passage for HV microcables - F.T. March,7-2001
2231 iI424dits[0] = 1.5000;
2232 iI424dits[1] = 0.1500;
2233 iI424dits[2] = iI421dits[2];
2234 gMC->Gsvolu("I424", "BOX ", idtmed[209], iI424dits, 3);
2235
2236 // HV microcables segment at the end ladder - F.T. March,7-2001
2237 iI425dits[0] = 1.350000;
2238 iI425dits[1] = 0.015250;
2239 iI425dits[2] = iI024dits[2];
2240 gMC->Gsvolu("I425", "BOX ", idtmed[279], iI425dits, 3);
2241
2242 // lower edge of SDD ladder frame at end-ladder - part 1
2243 dits[0] = 0.2;
2244 dits[1] = 0.1815;
2245 dits[2] = iI024dits[2];
2246 dits[3] = 0.015;
2247 gMC->Gsvolu("I025", "TRD1", idtmed[208], dits, 4);
2248
2249 // lower edge of SDD ladder frame at end-ladder - part 2
2250 dits[0] = 0.183;
2251 dits[1] = 0.165;
2252 dits[2] = iI024dits[2];
2253 dits[3] = 0.015;
2254 gMC->Gsvolu("I026", "TRD1", idtmed[208], dits, 4);
2255
2256 // new: for the 1st top rod of the structure
2257 // at the end-ladder - F.T. March,7-2001
2258 iI029dits[0] = 0.2;
2259 iI029dits[1] = 0.1815;
2260 iI029dits[2] = 1.0100;
2261 iI029dits[3] = 0.015;
2262 gMC->Gsvolu("I029", "TRD1", idtmed[208], iI029dits, 4);
2263
2264 // new: for the 2nd top rod of the structure
2265 // at the end-ladder - F.T. March,7-2001
2266 iI030dits[0] = 0.1830;
2267 iI030dits[1] = 0.1650;
2268 iI030dits[2] = 1.0100;
2269 iI030dits[3] = 0.0150;
2270 gMC->Gsvolu("I030", "TRD1", idtmed[208], iI030dits, 4);
2271
2272 // inox cooling tubes for the end ladder - F.T. March,7-2001
2273 iI031dits[0] = 0.093;
2274 iI031dits[1] = 0.1;
2275 iI031dits[2] = iI024dits[2];
2276 gMC->Gsvolu("I031", "TUBE", idtmed[264], iI031dits, 3);
2277
2278 if (fluid == 1) {
2279 // cooling water for the end ladder - F.T. March,7-2001
2280 iI032dits[0] = 0;
2281 iI032dits[1] = iI031dits[0];
2282 iI032dits[2] = iI024dits[2];
2283 gMC->Gsvolu("I032", "TUBE", idtmed[211], iI032dits, 3);
2284 } else {
2285 // cooling freon for the end ladder - R.B. March,21-2001
2286 iI032dits[0] = 0;
2287 iI032dits[1] = iI031dits[0];
2288 iI032dits[2] = iI024dits[2];
2289 gMC->Gsvolu("I032", "TUBE", idtmed[212], iI032dits, 3);
2290 }
2291
2292 // -- block of the SDD ladder frame holding the electronics
2293
2294 // edge of the ladder frame - part 1
2295 dits[0] = 0.2;
2296 dits[1] = 0.182;
2297 dits[2] = 3.65;
2298 dits[3] = 0.015;
2299 gMC->Gsvolu("I019", "TRD1", idtmed[208], dits, 4);
2300
2301 // edge of the ladder frame - part 2
2302 dits[0] = 0.183;
2303 dits[1] = 0.165;
2304 dits[2] = 3.65;
2305 dits[3] = 0.015;
2306 gMC->Gsvolu("I020", "TRD1", idtmed[208], dits, 4);
2307
2308 // inclined segments of the ladder frame
2309 dits[0] = 2.23;
2310 dits[1] = 2.1;
2311 dits[2] = 0.05;
2312 dits[3] = 0.03;
2313 gMC->Gsvolu("I021", "TRD1", idtmed[208], dits, 4);
2314
2315 // horiz.segments of the ladders, normal to ladder edges
2316 dits[0] = 2.1;
2317 dits[1] = 2;
2318 dits[2] = 0.06;
2319 dits[3] = 0.04;
2320 gMC->Gsvolu("I022", "TRD1", idtmed[208], dits, 4);
2321
2322 // horiz.segments of the ladders, at 45 deg. to ladder edges
2323 dits[0] = 2.615;
2324 dits[1] = 2.465;
2325 dits[2] = 0.06;
2326 dits[3] = 0.04;
2327 gMC->Gsvolu("I023", "TRD1", idtmed[208], dits, 4);
2328
2329 // supports of the ceramic pins holding the detectors
2330 dits[0] = 0.3;
2331 dits[1] = 0.05;
2332 dits[2] = 0.15;
2333 gMC->Gsvolu("I033", "BOX ", idtmed[208], dits, 3);
2334
2335 // ceramic pins holding the detectors
2336 dits[0] = 0;
2337 dits[1] = 0.05;
2338 dits[2] = 0.225;
2339 gMC->Gsvolu("I034", "TUBE", idtmed[277], dits, 3);
2340
2341 // holders of cooling tubes
2342 iI035dits[0] = 0.1;
2343 iI035dits[1] = 0.15;
2344 iI035dits[2] = 0.2;
2345 gMC->Gsvolu("I035", "TUBE", idtmed[208], iI035dits, 3);
2346
2347 // top holders of microcables
2348 dits[0] = 0.2;
2349 dits[1] = 0.01;
2350 dits[2] = 0.05;
2351 gMC->Gsvolu("I036", "BOX ", idtmed[208], dits, 3);
2352
2353 // inox cooling tubes - F.T. March,7-2001
2354 iI037dits[0] = 0.093;
2355 iI037dits[1] = 0.1;
2356 iI037dits[2] = iI018dits[2];
2357 gMC->Gsvolu("I037", "TUBE", idtmed[264], iI037dits, 3);
2358
2359 if (fluid == 1) {
2360 // cooling water - F.T. March,7-2001
2361 iI038dits[0] = 0;
2362 iI038dits[1] = iI037dits[0];
2363 iI038dits[2] = iI018dits[2];
2364 gMC->Gsvolu("I038", "TUBE", idtmed[211], iI038dits, 3);
2365 } else {
2366 // cooling freon - R.B. March,21-2001
2367 iI038dits[0] = 0;
2368 iI038dits[1] = iI037dits[0];
2369 iI038dits[2] = iI018dits[2];
2370 gMC->Gsvolu("I038", "TUBE", idtmed[212], iI038dits, 3);
2371 }
2372 // -- block of the SDD electronics (heat bridge, chips, hybrid, anode microcable)
2373
2374 // SDD heat bridge - F.T. March,7-2001
2375 iI039dits[0] = 1.1000;
2376 iI039dits[1] = 0.0087;
2377 iI039dits[2] = 3.2500;
2378 gMC->Gsvolu("I039", "BOX ", idtmed[268], iI039dits, 3);
2379
2380 // SDD clip part 1
2381 dits[0] = 0.25;
2382 dits[1] = 0.01;
2383 dits[2] = iI039dits[2];
2384 gMC->Gsvolu("I040", "BOX ", idtmed[268], dits, 3);
2385
2386 // SDD clip part 2
2387 iI041dits[0] = 0.1;
2388 iI041dits[1] = 0.12;
2389 iI041dits[2] = iI039dits[2];
2390 iI041dits[3] = 90;
2391 iI041dits[4] = 320;
2392 gMC->Gsvolu("I041", "TUBS", idtmed[268], iI041dits, 5);
2393
2394
2395 // SDD PASCAL - F.T. March,7-2001
2396 iI042dits[0] = 0.5000;
2397 iI042dits[1] = 0.0175;
2398 iI042dits[2] = 0.5000;
2399 gMC->Gsvolu("I042", "BOX ", idtmed[206], iI042dits, 3);
2400
2401 // SDD AMBRA - F.T. March,7-2001
2402 iI043dits[0] = 0.3500;
2403 iI043dits[1] = 0.0175;
2404 iI043dits[2] = 0.5000;
2405 gMC->Gsvolu("I043", "BOX ", idtmed[206], iI043dits, 3);
2406
2407 // SDD capacitors - F.T. March,7-2001
2408 iI051dits[0] = 0.1400;
2409 iI051dits[1] = 0.0350;
2410 iI051dits[2] = 0.0625;
2411 gMC->Gsvolu("I051", "BOX ", idtmed[276], iI051dits, 3);
2412
2413 // SDD hybrid circuit - F.T. March,7-2001
2414 iI052dits[0] = 1.725000;
2415 iI052dits[1] = 0.003743;
2416 iI052dits[2] = iI039dits[2];
2417 gMC->Gsvolu("I052", "BOX ", idtmed[281], iI052dits, 3);
2418
2419 // SDD anode microcable : changed - F.T. March,7-2001
2420 iI044dits[0] = iI018dits[2];
2421 iI044dits[1] = iI039dits[2];
2422 iI044dits[2] = 0.00084;
2423 iI044dits[3] = (15.189149/(iI044dits[0]+iI044dits[1]))/2;
2424 gMC->Gsvolu("I044", "TRD1", idtmed[282], iI044dits, 4);
2425 volI044 = ((2*iI044dits[0] + 2*iI044dits[1]) * 2*iI044dits[2])/2 * 2*iI044dits[3];
2426
2427 // SDD electronics box - F.T. March,7-2001
2428 iI050dits[1] = iI039dits[1]+iI052dits[1]+iI051dits[1]+iI044dits[2];
2429 iI050dits[0] = iI018dits[1]/cos(30.*3.14159/180.)-iI050dits[1]*sin(30.*3.14159/180.);
2430 iI050dits[2] = iI018dits[2];
2431 gMC->Gsvolu("I050", "BOX ", idtmed[209], iI050dits, 3);
2432
2433 // SDD sensitive volume
2434 dits[0] = 3.50850;
2435 dits[1] = 0.01499; // not 0.015 because it is included into I302 which is 0.015
2436 dits[2] = 3.76320;
2437 gMC->Gsvolu("ITS3", "BOX ", idtmed[200], dits, 3);
2438
2439 // Like for ITS3 - F.T. March,7-2001
2440 dits[0] = 3.50850;
2441 dits[1] = 0.01499; // not 0.015 because it is included into I402 which is 0.015
2442 dits[2] = 3.76320;
2443 gMC->Gsvolu("ITS4", "BOX ", idtmed[200], dits, 3);
2444 }
2445
2446 // --- Define SSD volumes ------------------------------------------
2447
2448 if (! AliITSInitGeometry::SSDIsTGeoNative()) {
2449 dits[0] = 0;
2450 dits[1] = 360;
2451 dits[2] = 6;
2452 dits[3] = -57.45;
2453 dits[4] = 43.6;
2454 dits[5] = 48;
2455 dits[6] = -49.15;
2456 dits[7] = 43.6;
2457 dits[8] = 48;
2458 dits[9] = -49.15;
2459 dits[10] = 36.9;
2460 dits[11] = 48;
2461 dits[12] = 50.55;
2462 dits[13] = 36.9;
2463 dits[14] = 48;
2464 dits[15] = 50.55;
2465 dits[16] = 43.6;
2466 dits[17] = 48;
2467 dits[18] = 57.45;
2468 dits[19] = 43.6;
2469 dits[20] = 48;
2470 //gMC->Gsvolu("IT56", "PCON", idtmed[220], dits, 21); // SSD air
2471 gMC->Gsvolu("IT56", "PCON", idtmed[204], dits, 21); // air
2472
2473 dits[0] = 3.4;
2474 dits[1] = 1.955;
2475 dits[2] = 56.5;
2476 gMC->Gsvolu("I570", "BOX ", idtmed[204], dits, 3);
2477
2478 dits[0] = 3.75;
2479 dits[1] = 0.045;
2480 dits[2] = 50.975;
2481 gMC->Gsvolu("I569", "BOX ", idtmed[204], dits, 3);
2482
2483 dits[0] = 3.4;
2484 dits[1] = 1.955;
2485 dits[2] = 47;
2486 gMC->Gsvolu("I571", "BOX ", idtmed[204], dits, 3);
2487
2488 dits[0] = 3.75;
2489 dits[1] = 0.045;
2490 dits[2] = 43.3;
2491 gMC->Gsvolu("I565", "BOX ", idtmed[204], dits, 3);
2492
2493 dits[0] = 3.4;
2494 dits[1] = 1.955;
2495 dits[2] = 3.15;
2496 gMC->Gsvolu("I553", "BOX ", idtmed[204], dits, 3);
2497
2498 dits[0] = 3.405;
2499 dits[1] = 1.955;
2500 dits[2] = 1.955;
2501 gMC->Gsvolu("I523", "BOX ", idtmed[204], dits, 3);
2502
2503 dits[0] = 3.75;
2504 dits[1] = 0.015;
2505 dits[2] = 2.1;
2506 gMC->Gsvolu("I566", "BOX ", idtmed[206], dits, 3);
2507
2508 dits[0] = 3.4;
2509 dits[1] = 1.955;
2510 dits[2] = 3.15;
2511 gMC->Gsvolu("I544", "BOX ", idtmed[204], dits, 3);
2512
2513 dits[0] = 3.41;
2514 dits[1] = 1.955;
2515 dits[2] = 1.955;
2516 gMC->Gsvolu("I516", "BOX ", idtmed[204], dits, 3);
2517
2518 dits[0] = 3.75;
2519 dits[1] = 0.015;
2520 dits[2] = 2.1;
2521 gMC->Gsvolu("I562", "BOX ", idtmed[206], dits, 3);
2522
2523 if (fluid == 1) {
2524 dits[0] = 0;
2525 dits[1] = 0.07;
2526 dits[2] = 3.15;
2527 gMC->Gsvolu("I559", "TUBE", idtmed[211], dits, 3); // set water as cooling fluid
2528 } else {
2529 dits[0] = 0;
2530 dits[1] = 0.07;
2531 dits[2] = 3.15;
2532 gMC->Gsvolu("I559", "TUBE", idtmed[212], dits, 3); // set freon as cooling fluid
2533 }
2534
2535 dits[0] = 0.07;
2536 dits[1] = 0.1;
2537 dits[2] = 3.15;
2538 gMC->Gsvolu("I560", "TUBE", idtmed[210], dits, 3);
2539
2540 dits[0] = 0.225;
2541 dits[1] = 0.195;
2542 dits[2] = 3.15;
2543 dits[3] = 0.025;
2544 gMC->Gsvolu("I558", "TRD1", idtmed[203], dits, 4);
2545
2546 dits[0] = 0.25;
2547 dits[1] = 0.22;
2548 dits[2] = 3.15;
2549 dits[3] = 0.025;
2550 gMC->Gsvolu("I557", "TRD1", idtmed[203], dits, 4);
2551
2552 dits[0] = 2.17;
2553 dits[1] = 0.035;
2554 dits[2] = 0.05;
2555 gMC->Gsvolu("I556", "BOX ", idtmed[203], dits, 3);
2556
2557 dits[0] = 2 ;
2558 dits[1] = 0.035;
2559 dits[2] = 0.05;
2560 gMC->Gsvolu("I554", "BOX ", idtmed[203], dits, 3);
2561
2562 dits[0] = 2.675;
2563 dits[1] = 0.035;
2564 dits[2] = 0.05;
2565 gMC->Gsvolu("I555", "BOX ", idtmed[203], dits, 3);
2566
2567 dits[0] = 0.3;
2568 dits[1] = 0.15;
2569 dits[2] = 0.15;
2570 gMC->Gsvolu("I561", "BOX ", idtmed[203], dits, 3);
2571
2572 dits[0] = 0.025;
2573 dits[1] = 0.025;
2574 dits[2] = 0.05;
2575 gMC->Gsvolu("I519", "BOX ", idtmed[214], dits, 3);
2576
2577 dits[0] = 0.304;
2578 dits[1] = 0.0275;
2579 dits[2] = 0.432;
2580 gMC->Gsvolu("I521", "BOX ", idtmed[206], dits, 3);
2581
2582 dits[0] = 0.16;
2583 dits[1] = 0.08;
2584 dits[2] = 0.08;
2585 gMC->Gsvolu("I520", "BOX ", idtmed[214], dits, 3);
2586
2587 dits[0] = 3.4;
2588 dits[1] = 0.015;
2589 dits[2] = 0.525;
2590 gMC->Gsvolu("I518", "BOX ", idtmed[203], dits, 3);
2591
2592 dits[0] = 0.15;
2593 dits[1] = 0.105;
2594 dits[2] = 0.29;
2595 dits[3] = 0.08;
2596 gMC->Gsvolu("I522", "TRD1", idtmed[203], dits, 4);
2597
2598 dits[0] = 0.07;
2599 dits[1] = 0.1;
2600 dits[2] = 1.955;
2601 gMC->Gsvolu("I542", "TUBE", idtmed[210], dits, 3);
2602
2603 if (fluid == 1) {
2604 dits[0] = 0;
2605 dits[1] = 0.07;
2606 dits[2] = 1.955;
2607 gMC->Gsvolu("I541", "TUBE", idtmed[211], dits, 3); // set water as cooling fluid
2608 } else {
2609 dits[0] = 0;
2610 dits[1] = 0.07;
2611 dits[2] = 1.955;
2612 gMC->Gsvolu("I541", "TUBE", idtmed[212], dits, 3); // set freon as cooling fluid
2613 }
2614
2615 dits[0] = 0.3;
2616 dits[1] = 0.15;
2617 dits[2] = 0.15;
2618 gMC->Gsvolu("I543", "BOX ", idtmed[203], dits, 3);
2619
2620 dits[0] = 0.25;
2621 dits[1] = 0.22;
2622 dits[2] = 1.955;
2623 dits[3] = 0.025;
2624 gMC->Gsvolu("I537", "TRD1", idtmed[203], dits, 4);
2625
2626 dits[0] = 0.225;
2627 dits[1] = 0.195;
2628 dits[2] = 1.955;
2629 dits[4] = 0.025;
2630 gMC->Gsvolu("I538", "TRD1", idtmed[203], dits, 4);
2631
2632 dits[0] = 2.17;
2633 dits[1] = 0.035;
2634 dits[2] = 0.05;
2635 gMC->Gsvolu("I536", "BOX ", idtmed[203], dits, 3);
2636
2637 dits[0] = 2.675;
2638 dits[1] = 0.035;
2639 dits[2] = 0.05;
2640 gMC->Gsvolu("I535", "BOX ", idtmed[203], dits, 3);
2641
2642 dits[0] = 2;
2643 dits[1] = 0.035;
2644 dits[2] = 0.05;
2645 gMC->Gsvolu("I534", "BOX ", idtmed[203], dits, 3);
2646
2647 dits[0] = 0;
2648 dits[1] = 0.05;
2649 dits[2] = 0.17;
2650 gMC->Gsvolu("I540", "TUBE", idtmed[203], dits, 3);
2651
2652 dits[0] = 0;
2653 dits[1] = 0.05;
2654 dits[2] = 0.205;
2655 gMC->Gsvolu("I539", "TUBE", idtmed[203], dits, 3);
2656
2657 dits[0] = 3.65;
2658 dits[1] = 0.015;
2659 dits[2] = 2;
2660 gMC->Gsvolu("ITS6", "BOX ", idtmed[200], dits, 3);
2661
2662 if (fluid == 1) {
2663 dits[0] = 0;
2664 dits[1] = 0.07;
2665 dits[2] = 3.15;
2666 gMC->Gsvolu("I550", "TUBE", idtmed[211], dits, 3); // set water as cooling fluid
2667 } else {
2668 dits[0] = 0;
2669 dits[1] = 0.07;
2670 dits[2] = 3.15;
2671 gMC->Gsvolu("I550", "TUBE", idtmed[212], dits, 3); // set freon as cooling fluid
2672 }
2673
2674 dits[0] = 0.07;
2675 dits[1] = 0.1;
2676 dits[2] = 3.15;
2677 gMC->Gsvolu("I551", "TUBE", idtmed[210], dits, 3);
2678
2679 dits[0] = 0.225;
2680 dits[1] = 0.195;
2681 dits[2] = 3.15;
2682 dits[3] = 0.025;
2683 gMC->Gsvolu("I549", "TRD1", idtmed[203], dits, 4);
2684
2685 dits[0] = 0.25;
2686 dits[1] = 0.22;
2687 dits[2] = 3.15;
2688 dits[3] = 0.025;
2689 gMC->Gsvolu("I548", "TRD1", idtmed[203], dits, 4);
2690
2691 dits[0] = 2.17;
2692 dits[1] = 0.035;
2693 dits[2] = 0.05;
2694 gMC->Gsvolu("I547", "BOX ", idtmed[203], dits, 3);
2695
2696 dits[0] = 2;
2697 dits[1] = 0.035;
2698 dits[2] = 0.05;
2699 gMC->Gsvolu("I545", "BOX ", idtmed[203], dits, 3);
2700
2701 dits[0] = 2.675;
2702 dits[1] = 0.035;
2703 dits[2] = 0.05;
2704 gMC->Gsvolu("I546", "BOX ", idtmed[203], dits, 3);
2705
2706 dits[0] = 0.3;
2707 dits[1] = 0.15;
2708 dits[2] = 0.15;
2709 gMC->Gsvolu("I552", "BOX ", idtmed[203], dits, 3);
2710
2711 dits[0] = 0.304;
2712 dits[1] = 0.0275;
2713 dits[2] = 0.4322;
2714 gMC->Gsvolu("I515", "BOX ", idtmed[206], dits, 3);
2715
2716 dits[0] = 0.025;
2717 dits[1] = 0.025;
2718 dits[2] = 0.05;
2719 gMC->Gsvolu("I513", "BOX ", idtmed[214], dits, 3);
2720
2721 dits[0] = 0.16;
2722 dits[1] = 0.08;
2723 dits[2] = 0.08;
2724 gMC->Gsvolu("I514", "BOX ", idtmed[214], dits, 3);
2725
2726 dits[0] = 3.4;
2727 dits[1] = 0.015;
2728 dits[2] = 0.525;
2729 gMC->Gsvolu("I512", "BOX ", idtmed[203], dits, 3);
2730
2731 dits[0] = 0.225;
2732 dits[1] = 0.195;
2733 dits[2] = 1.955;
2734 dits[3] = 0.025;
2735 gMC->Gsvolu("I528", "TRD1", idtmed[203], dits, 4);
2736
2737 dits[0] = 0.25;
2738 dits[1] = 0.22;
2739 dits[2] = 1.955;
2740 dits[3] = 0.025;
2741 gMC->Gsvolu("I527", "TRD1", idtmed[203], dits, 4);
2742
2743 dits[0] = 2.17;
2744 dits[1] = 0.035;
2745 dits[2] = 0.05;
2746 gMC->Gsvolu("I526", "BOX ", idtmed[203], dits, 3);
2747
2748 dits[0] = 2.675;
2749 dits[1] = 0.035;
2750 dits[2] = 0.05;
2751 gMC->Gsvolu("I525", "BOX ", idtmed[203], dits, 3);
2752
2753 dits[0] = 2;
2754 dits[1] = 0.035;
2755 dits[2] = 0.05;
2756 gMC->Gsvolu("I524", "BOX ", idtmed[203], dits, 3);
2757
2758 dits[0] = 0;
2759 dits[1] = 0.05;
2760 dits[2] = 0.205;
2761 gMC->Gsvolu("I529", "TUBE", idtmed[203], dits, 3);
2762
2763 dits[0] = 0;
2764 dits[1] = 0.05;
2765 dits[2] = 0.17;
2766 gMC->Gsvolu("I530", "TUBE", idtmed[203], dits, 3);
2767
2768 dits[0] = 0.15;
2769 dits[1] = 0.105;
2770 dits[2] = 0.29;
2771 dits[3] = 0.08;
2772 gMC->Gsvolu("I517", "TRD1", idtmed[203], dits, 4);
2773
2774 if (fluid == 1) {
2775 dits[0] = 0;
2776 dits[1] = 0.07;
2777 dits[2] = 1.955;
2778 gMC->Gsvolu("I531", "TUBE", idtmed[211], dits, 3); // set water as cooling fluid
2779 } else {
2780 dits[0] = 0;
2781 dits[1] = 0.07;
2782 dits[2] = 1.955;
2783 gMC->Gsvolu("I531", "TUBE", idtmed[212], dits, 3); // set freon as cooling fluid
2784 }
2785
2786 dits[0] = 0.07;
2787 dits[1] = 0.1;
2788 dits[2] = 1.955;
2789 gMC->Gsvolu("I532", "TUBE", idtmed[210], dits, 3);
2790
2791 dits[0] = 0.3;
2792 dits[1] = 0.15;
2793 dits[2] = 0.15;
2794 gMC->Gsvolu("I533", "BOX ", idtmed[203], dits, 3);
2795
2796 dits[0] = 3.65;
2797 dits[1] = 0.015;
2798 dits[2] = 2;
2799 gMC->Gsvolu("ITS5", "BOX ", idtmed[200], dits, 3);
2800 }
2801
2802
2803 // --- Define volumes of shield of SPD ----------------
2804
2805 if (! AliITSInitGeometry::SPDshieldIsTGeoNative()) {
2806 dits[0] = 8.37;
2807 dits[1] = 9.93;
2808 dits[2] = 25;
2809 gMC->Gsvolu("IC01", "TUBE", idtmed[289], dits, 3);
2810
2811 dits[0] = 8.3;
2812 dits[1] = 9.995;
2813 dits[2] = 17.5/2.;
2814 gMC->Gsvolu("IC02", "TUBE", idtmed[289], dits, 3);
2815 }
2816
2817 Double_t s1,s2,b1,b2;
2818
2819 if (! AliITSInitGeometry::SDDconeIsTGeoNative()) {
2820
2821 // --- Define volume of first cylinder between SPD and SDD --------------
2822 dits[0] = (21.-0.128)/2.;
2823 dits[1] = 21./2.;
2824 dits[2] = 39.4;
2825 gMC->Gsvolu("ICY1", "TUBE", idtmed[208], dits, 3);
2826
074b8e6f 2827 // --- Define volumes of second cylinder between SDD and SSD ------------
2828 // --- (from B. Giraudo plots - M.S. 20 Nov 2007)
2829 dits[0] = 59.5/2. - 0.06;
108bd0fe 2830 dits[1] = 59.5/2.;
074b8e6f 2831 dits[2] = 102/2.; // was 57
108bd0fe 2832 gMC->Gsvolu("ICY2", "TUBE", idtmed[208], dits, 3);
2833
074b8e6f 2834 dits[1] = dits[0];
2835 dits[0] = dits[1] - 0.5;
2836 gMC->Gsvolu("ICY3", "TUBE", idtmed[267], dits, 3);
2837
2838 dits[1] = dits[0];
2839 dits[0] = dits[1] - 0.06;
2840 gMC->Gsvolu("ICY4", "TUBE", idtmed[208], dits, 3);
2841
108bd0fe 2842 // --- Define volumes of SDD cone ----------------------------------
2843
2844 dits[0] = 0;
2845 dits[1] = 360;
2846 dits[2] = 12;
bf210566 2847 //
108bd0fe 2848 dits[3] = -59.7;
2849 dits[4] = 27;
2850 dits[5] = 28.6;
bf210566 2851
108bd0fe 2852 dits[6] = -42.7;
2853 dits[7] = 10;
2854 dits[8] = 28.6;
bf210566 2855
2856 // dits[9] = -34.65;
2857 dits[9] = -33.55;
108bd0fe 2858 dits[10] = 10;
2859 dits[11] = 28.6;
bf210566 2860
2861 // dits[12] = -34.65;
2862 dits[12] = -33.55;
108bd0fe 2863 dits[13] = 10;
2864 dits[14] = 23.495;
bf210566 2865
2866 //dits[15] = -23.7;
2867 dits[15] = -26.2;
108bd0fe 2868 dits[16] = 10;
2869 dits[17] = 23.495;
bf210566 2870
2871 //dits[18] = -23.7;
2872 dits[18] = -26.2;
108bd0fe 2873 dits[19] = 10;
2874 dits[20] = 14.595;
bf210566 2875
2876 //dits[21] = 23.7;
2877 dits[21] = 26.2;
108bd0fe 2878 dits[22] = 10;
2879 dits[23] = 14.595;
bf210566 2880
2881 //dits[24] = 23.7;
2882 dits[24] = 26.2;
108bd0fe 2883 dits[25] = 10;
2884 dits[26] = 23.495;
bf210566 2885
2886// dits[27] = 34.65;
2887 dits[27] = 33.55;
108bd0fe 2888 dits[28] = 10;
2889 dits[29] = 23.495;
bf210566 2890
2891// dits[30] = 34.65;
2892 dits[30] = 33.55;
108bd0fe 2893 dits[31] = 10;
2894 dits[32] = 28.6;
bf210566 2895
108bd0fe 2896 dits[33] = 42.7;
2897 dits[34] = 10;
2898 dits[35] = 28.6;
bf210566 2899
108bd0fe 2900 dits[36] = 59.7;
2901 dits[37] = 27.2637;
bf210566 2902 dits[38] = 28.6;
2903
2904 if (! AliITSInitGeometry::SDDIsTGeoNative()) {
2905 dits[9] = -34.65;
2906 dits[12] = -34.65;
2907 dits[15] = -23.7;
2908 dits[18] = -23.7;
2909 dits[21] = 23.7;
2910 dits[24] = 23.7;
2911 dits[27] = 34.65;
2912 dits[30] = 34.65;
2913 }
108bd0fe 2914 gMC->Gsvolu("IS02", "PCON", idtmed[204], dits, 39);
2915
2916 dits[0] = 0;
2917 dits[1] = 360;
2918 dits[2] = 6;
2919 dits[3] = 38.65;
2920 dits[4] = 10.75;
2921 dits[5] = 12.25;
2922 dits[6] = 40.15;
2923 dits[7] = 10.75;
2924 dits[8] = 13.96;
2925 dits[9] = 40.15;
2926 dits[10] = 12.46;
2927 dits[11] = 13.96;
2928 dits[12] = 55.75;
2929 dits[13] = 27;
2930 dits[14] = 28.5;
2931 dits[15] = 55.75;
2932 dits[16] = 27;
2933 dits[17] = 28.5;
2934 dits[18] = 57.25;
2935 dits[19] = 27;
2936 dits[20] = 28.5;
2937// gMC->Gsvolu("I093", "PCON", idtmed[272], dits, 21); // SDD cone
2938 gMC->Gsvolu("I093", "PCON", idtmed[287], dits, 21); // SDD cone
2939
2940 // Redefined to make adding material for cables easier (FMD geometry)
2941 s1 = (dits[13]-dits[10])/(dits[12]-dits[9]); // Slope of conical section
2942 s2 = (dits[14]-dits[11])/(dits[12]-dits[9]); // Slope of conical section
2943 b1 = dits[13] - s1*dits[12]; // inside cone axis intersept
2944 b2 = dits[14] - s2*dits[12]; // outside cone axis intersept
2945 dits[0] = 0; //dits[0] = 0;
2946 dits[1] = 50; //dits[1] = 50;
2947 dits[2] = 4; //dits[2] = 3;
2948
2949 dits[4] = 14.0; //dits[4] = 14; // r inner
2950 dits[5] = dits[4]; //dits[5] = 18.75; // r outer
2951 dits[3] = (dits[4]-b2)/s2; //dits[3] = 39; // Z
2952
2953 dits[7] = dits[4]; //dits[7] = 14; // r inner
2954 dits[6] = (dits[7]-b1)/s1; //dits[6] = 46.7-3; // Z
2955 dits[8] = s2*dits[6]+b2; //dits[8] = 18.75; // r outer
2956
2957 dits[11] = 18.75; //dits[11] = 18.75; // r outer
2958 dits[9] = (dits[11]-b2)/s2; //dits[9] = 51.45-3; // Z
2959 dits[10] = s1*dits[9]+b1; //dits[10] = 18.75; // r inner
2960
2961 dits[13] = dits[11]; // r inner
2962 dits[14] = dits[11]; // r outer
2963 dits[12] = (dits[13]-b1)/s1; // Z
2964// gMC->Gsvolu("I099", "PCON", idtmed[204], dits, 12); // SDD 3 cone hole
2965 gMC->Gsvolu("I099", "PCON", idtmed[285], dits, 15); // SDD 3 cone hole
2966
2967 dits[0] = 0; //dits[0] = 0;
2968 dits[1] = 25; //dits[1] = 25;
2969 dits[2] = 4; //dits[2] = 3;
2970
2971 dits[4] = 23.4; //dits[4] = 23.4; // r inner
2972 dits[5] = dits[4]; //dits[5] = 26.4; // r outer
2973 dits[3] = (dits[4]-b2)/s2; //dits[3] = 49; // Z
2974
2975 dits[7] = dits[4]; //dits[7] = 23.4; // r inner
2976 dits[6] = (dits[7]-b1)/s1; //dits[6] = 56.1-3; // Z
2977 dits[8] = s2*dits[6]+b2; //dits[8] = 26.4; // r outer
2978
2979 dits[11] = 26.4; //dits[11] = 26.4; // r outer
2980 dits[9] = (dits[11]-b2)/s2; //dits[9] = 59.1-3; // Z
2981 dits[10] = s1*dits[9]+b1; //dits[10] = 26.4; // r inner
2982
2983 dits[13] = dits[11]; // r inner
2984 dits[14] = dits[11]; // r outer
2985 dits[12] = (dits[13]-b1)/s1; // Z
2986// gMC->Gsvolu("I200", "PCON", idtmed[204], dits, 12); // SDD 4 cone hole
2987 gMC->Gsvolu("I200", "PCON", idtmed[285], dits, 15); // SDD 4 cone hole
2988 //Begin_Html
2989 /*
2990 <img src="http://www.Physics.ohio-state.edu/~nilsen/ITS/ITS_FMD_PMD_Geom.eps">
2991 </pre>
2992 <br clear=left>
2993 <font size=+2 color=blue>
2994 <p>SDD Support cone with other forward detectors. Shown in
2995 brown are a posible cabling layout.
2996 </font>
2997 */
2998 //End_Html
2999 dits[0] = 10.0;
3000 dits[1] = 10.5;
3001 dits[2] = 0.25;
3002 gMC->Gsvolu("I090", "TUBE", idtmed[224], dits, 3); // SDD cylinder flange
3003
3004 dits[0] = 21.95;
3005 dits[1] = 22.95;
3006 dits[2] = 1;
3007 gMC->Gsvolu("I098", "TUBE", idtmed[283], dits, 3); // ladder support on layer 4
3008
3009 dits[0] = 13.1;
3010 dits[1] = 14.1;
3011 dits[2] = 1;
3012 gMC->Gsvolu("I097", "TUBE", idtmed[283], dits, 3); // ladder support on layer 3
3013
3014 dits[0] = 1;
3015 dits[1] = 1;
3016 dits[2] = 7.74;
3017 gMC->Gsvolu("I202", "BOX ", idtmed[272], dits, 3);
3018
bf210566 3019 if (AliITSInitGeometry::SDDIsTGeoNative())
3020 dits[0] = 0.9;
3021 else
3022 dits[0] = 1;
108bd0fe 3023 dits[1] = 1;
3024 dits[2] = 9.14;
3025 gMC->Gsvolu("I203", "BOX ", idtmed[272], dits, 3);
3026
3027 dits[0] = 21.95;
3028 dits[1] = 22.95;
3029 dits[2] = 1;
3030 gMC->Gsvolu("I095", "TUBE", idtmed[224], dits, 3);
3031
3032 dits[0] = 3;
3033 dits[1] = 2.7;
3034 dits[2] = 1;
3035 dits[3] = 0.63;
3036 gMC->Gsvolu("I096", "TRD1", idtmed[264], dits, 4);
3037
3038 dits[0] = 13.1;
3039 dits[1] = 14.1;
3040 dits[2] = 1;
3041 gMC->Gsvolu("I094", "TUBE", idtmed[224], dits, 3);
3042 }
3043
3044 if (! AliITSInitGeometry::SSDconeIsTGeoNative()) {
3045 // --- Define volumes of SSD cone ----------------------------------
3046
3047 dits[0] = 0;
3048 dits[1] = 360;
3049 dits[2] = 12;
bf210566 3050
108bd0fe 3051 dits[3] = -zmax;
bf210566 3052 dits[4] = 46;
3053 dits[5] = 49.25;
3054
108bd0fe 3055 dits[6] = -61.2;
3056 dits[7] = 28.7;
bf210566 3057 dits[8] = 49.25;
3058
108bd0fe 3059 dits[9] = -57.5;
3060 dits[10] = 28.7;
bf210566 3061 dits[11] = 49.25;
3062
108bd0fe 3063 dits[12] = -57.5;
3064 dits[13] = 28.7;
3065 dits[14] = 43.5;
bf210566 3066
3067 //dits[15] = -49.2;
3068 dits[15] = -53.4-0.75;
108bd0fe 3069 dits[16] = 28.7;
3070 dits[17] = 43.5;
bf210566 3071
3072 //dits[18] = -49.2;
3073 dits[18] = -53.4-0.75;
108bd0fe 3074 dits[19] = 28.7;
3075 dits[20] = 36.85;
bf210566 3076
3077 //dits[21] = 50.6;
3078 dits[21] = 53.4+0.75;
108bd0fe 3079 dits[22] = 28.7;
3080 dits[23] = 36.85;
bf210566 3081
3082 dits[24] = 53.4+0.75;
3083 //dits[24] = 50.6;
108bd0fe 3084 dits[25] = 28.7;
3085 dits[26] = 43.5;
bf210566 3086
108bd0fe 3087 dits[27] = 57.5;
3088 dits[28] = 28.7;
3089 dits[29] = 43.5;
bf210566 3090
108bd0fe 3091 dits[30] = 57.5;
3092 dits[31] = 28.7;
bf210566 3093 dits[32] = 49.25;
3094
108bd0fe 3095 dits[33] = 61.2;
3096 dits[34] = 28.7;
3097 dits[35] = 49.25;
3098 dits[36] = zmax;
3099 dits[37] = 46;
bf210566 3100 dits[38] = 49.25;
3101
3102 if (! AliITSInitGeometry::SSDIsTGeoNative()) {
3103 dits[15] = -49.2;
3104 dits[18] = -49.2;
3105 dits[21] = 50.6;
3106 dits[24] = 50.6;
3107 }
3108
108bd0fe 3109 gMC->Gsvolu("IS01", "PCON", idtmed[204], dits, 39); // SSD cone mother volume
3110
3111 dits[0] = 0;
3112 dits[1] = 360;
3113 dits[2] = 6;
3114 dits[3] = -zmax;
3115 dits[4] = 47.75;
3116 dits[5] = 49.25;
3117 dits[6] = -zmax+2.;
3118 dits[7] = 47.75;
3119 dits[8] = 49.25;
3120 dits[9] = -71.2819;
3121 dits[10] = 46.75;
3122 dits[11] = 49.0319;
3123 dits[12] = -57.25; // was 58.5
3124 dits[13] = 32.9681;
3125 dits[14] = 34.75;
3126 dits[15] = -57.25; // was 58.5
3127 dits[16] = 30;
3128 dits[17] = 34.75;
3129 dits[18] = -55.75; // was 57
3130 dits[19] = 30;
3131 dits[20] = 32.25; // was 31.5
3132// gMC->Gsvolu("I212", "PCON", idtmed[272], dits, 21); // SSD cone
3133 gMC->Gsvolu("I212", "PCON", idtmed[288], dits, 21); // SSD cone
3134
3135 s1 = (dits[10]-dits[13])/(dits[9]-dits[12]); // Slope of conical section
3136 s2 = (dits[11]-dits[14])/(dits[9]-dits[12]); // Slope of conical section
3137 b1 = dits[13] - s1*dits[12]; // inside cone axis intersept
3138 b2 = dits[14] - s2*dits[12]; // outside cone axis intersept
3139 dits[0] = 0;
3140 dits[1] = 25;
3141 dits[2] = 4; //dits[2] = 5;
3142
3143 dits[4] = 45.50; //dits[4] = 45.5; // r inner
3144 dits[5] = dits[4]; //dits[5] = 45.5; // r outer
3145 dits[3] = (dits[4] - b1)/s1; //dits[3] = -zmax+3; // z
3146
3147 dits[8] = dits[4]; //dits[8] = 45.5; // r outer
3148 dits[6] = (dits[8] - b2)/s2; //dits[6] = -69.7+3;; // z
3149 dits[7] = s1*dits[6] + b1; //dits[7] = 37; // r inner
3150
3151 dits[10] = 37.00; //dits[10] = 37; // r inner
3152 dits[9] = (dits[10]-b1)/s1; //dits[9] = -68.5+3;; // z
3153 dits[11] = s2*dits[9]+b2; //dits[11] = 45.5; // r outer
3154
3155 dits[13] = dits[10]; //dits[13] = 37; // r inner
3156 dits[14] = dits[13]; //dits[14] = 45.5; // r outer
3157 dits[12] = (dits[14] - b2)/s2; //dits[12] = -68.5+4.8;; // z
3158// gMC->Gsvolu("I215", "PCON", idtmed[204], dits, 18); // SSD cone hole
3159 gMC->Gsvolu("I215", "PCON", idtmed[286], dits, 15); // SSD cone hole
3160 //Begin_Html
3161 /*
3162 <img src="http://www.Physics.ohio-state.edu/~nilsen/ITS/ITS_FMD_PMD_Geom.eps">
3163 </pre>
3164 <br clear=left>
3165 <font size=+2 color=blue>
3166 <p>SSD Support cone with other forward detectors. Shown in
3167 brown are a posible cabling layout.
3168 </font>
3169 */
3170 //End_Html
3171
3172 dits[0] = 28.75;
3173 dits[1] = 29.75;
3174 dits[2] = 0.5;
3175 gMC->Gsvolu("I211", "TUBE", idtmed[224], dits, 3); // SSD cylinder flange
3176
3177 dits[0] = 35.8;
3178 dits[1] = 36.8;
3179 dits[2] = 1;
3180 gMC->Gsvolu("I217", "TUBE", idtmed[283], dits, 3); // ladder support on layer 5
3181
3182 dits[0] = 41.4;
3183 dits[1] = 42.4;
3184 dits[2] = 1;
3185 gMC->Gsvolu("I219", "TUBE", idtmed[283], dits, 3); // ladder support on layer 6
3186
3187 dits[0] = 42.05+5.;
3188 dits[1] = 42.55+5.;
3189 dits[2] = 1.25;
3190 gMC->Gsvolu("I214", "TUBE", idtmed[224], dits, 3); // layer 6 electronic support
3191 // this will change after PPR
3192 dits[0] = 37.05+5.;
3193 dits[1] = 37.55+5.;
3194 dits[2] = 1.25;
3195 gMC->Gsvolu("I213", "TUBE", idtmed[224], dits, 3); // layer 5 electronic support
3196 // this will change after PPR
3197
3198 dits[0] = 0;
3199 dits[1] = 3.2;
3200 dits[2] = 9;
3201 dits[3] = -14;
3202 dits[4] = 30.5;
3203 dits[5] = 33.5;
3204 dits[6] = -9.85;
3205 dits[7] = 30.5;
3206 dits[8] = 33.5;
3207 dits[9] = -9.85;
3208 dits[10] = 30.5;
3209 dits[11] = 43.45;
3210 dits[12] = -7.85;
3211 dits[13] = 30.5;
3212 dits[14] = 43.45;
3213 dits[15] = -7.85;
3214 dits[16] = 30.5;
3215 dits[17] = 36.5;
3216 dits[18] = -7;
3217 dits[19] = 30.5;
3218 dits[20] = 36.5;
3219 dits[21] = -4;
3220 dits[22] = 33.0173;
3221 dits[23] = 36.5;
3222 dits[24] = -4;
3223 dits[25] = 33.0173;
3224 dits[26] = 36.80;
3225 dits[27] = -2;
3226 dits[28] = 34.6955;
3227 dits[29] = 36.80;
3228 gMC->Gsvolu("I216", "PCON", idtmed[272], dits, 30); // supports (1-6) of the ladders
3229 }
3230
3231
3232 // --- Place SPD (option 'b') volumes into their mother volume IT12
3233
3234 // SPD - option 'b'
3235 // (this is the default)
3236
3237 //if (option == 2) {
3238 if (! AliITSInitGeometry::SPDIsTGeoNative()) {
3239
8f8273a4 3240 gMC->Gspos("I12B",1,"IT12",0.0,0.0,0.0,0,"ONLY");
3241 gMC->Gspos("I12B",8,"IT12",0.0,0.0,0.0,idrotm[233],"ONLY");
3242 gMC->Gspos("I12B",7,"IT12",0.0,0.0,0.0,idrotm[244],"ONLY");
3243 gMC->Gspos("I12B",6,"IT12",0.0,0.0,0.0,idrotm[236],"ONLY");
3244 gMC->Gspos("I12B",2,"IT12",0.0,0.0,0.0,idrotm[245],"ONLY");
3245 gMC->Gspos("I12B",3,"IT12",0.0,0.0,0.0,idrotm[234],"ONLY");
3246 gMC->Gspos("I12B",4,"IT12",0.0,0.0,0.0,idrotm[246],"ONLY");
3247 gMC->Gspos("I12B",5,"IT12",0.0,0.0,0.0,idrotm[247],"ONLY");
3248 gMC->Gspos("I12B",9,"IT12",0.0,0.0,0.0,idrotm[248],"ONLY");
3249 gMC->Gspos("I12B",10,"IT12",0.0,0.0,0.0,idrotm[249],"ONLY");
108bd0fe 3250 deltax=((ddet1-0.01/2.)+(dchip1-0.015/2.))*TMath::Cos(270.*TMath::Pi()/180.); // see definition of idrotm[238]
3251 deltay=((ddet1-0.01/2.)+(dchip1-0.015/2.))*TMath::Sin(270.*TMath::Pi()/180.); // see definition of idrotm[238]
3252 gMC->Gspos("I10B",2,"I12B",0.203+deltax,3.8206+deltay,0.0,idrotm[238],"ONLY");
3253 deltax=((ddet1-0.01/2.)+(dchip1-0.015/2.))*TMath::Cos(252.*TMath::Pi()/180.); // see definition of idrotm[239]
3254 deltay=((ddet1-0.01/2.)+(dchip1-0.015/2.))*TMath::Sin(252.*TMath::Pi()/180.); // see definition of idrotm[239]
3255 gMC->Gspos("I10B",1,"I12B",1.4531+deltax,3.8152+deltay,0.0,idrotm[239],"ONLY");
3256 deltax=((ddet2-0.01/2.)+(dchip2-0.015/2.))*TMath::Cos(40.*TMath::Pi()/180.); // see definition of idrotm[240]
3257 deltay=((ddet2-0.01/2.)+(dchip2-0.015/2.))*TMath::Sin(40.*TMath::Pi()/180.); // see definition of idrotm[240]
3258 gMC->Gspos("I20B",1,"I12B",3.0174+deltax,6.5143+deltay,0.0,idrotm[240],"ONLY");
3259 deltax=((ddet2-0.01/2.)+(dchip2-0.015/2.))*TMath::Cos(49.*TMath::Pi()/180.); // see definition of idrotm[241]
3260 deltay=((ddet2-0.01/2.)+(dchip2-0.015/2.))*TMath::Sin(49.*TMath::Pi()/180.); // see definition of idrotm[241]
3261 gMC->Gspos("I20B",2,"I12B",1.9612+deltax,6.9062+deltay,0.0,idrotm[241],"ONLY");
3262 deltax=((ddet2-0.01/2.)+(dchip2-0.015/2.))*TMath::Cos(58.*TMath::Pi()/180.); // see definition of idrotm[242]
3263 deltay=((ddet2-0.01/2.)+(dchip2-0.015/2.))*TMath::Sin(58.*TMath::Pi()/180.); // see definition of idrotm[242]
3264 gMC->Gspos("I20B",3,"I12B",0.8567+deltax,7.1279+deltay,0.0,idrotm[242],"ONLY");
3265 deltax=((ddet2-0.01/2.)+(dchip2-0.015/2.))*TMath::Cos(67.*TMath::Pi()/180.); // see definition of idrotm[243]
3266 deltay=((ddet2-0.01/2.)+(dchip2-0.015/2.))*TMath::Sin(67.*TMath::Pi()/180.); // see definition of idrotm[243]
3267 gMC->Gspos("I20B",4,"I12B",-0.2689+deltax,7.1742+deltay,0.0,idrotm[243],"ONLY");
3268 gMC->Gspos("I123",1,"I12B",-0.2978,5.5196,0.0,idrotm[214],"ONLY");
3269 gMC->Gspos("I121",1,"I12B",-0.2385,4.1518,0.0,idrotm[213],"ONLY");
3270 gMC->Gspos("I122",1,"I12B",-0.2968,4.0207,0.0,idrotm[212],"ONLY");
3271 gMC->Gspos("I120",1,"I12B",-0.3672,3.9056,0.0,0,"ONLY");
3272 gMC->Gspos("I144",1,"I12B",-0.2538,3.8556,0.0,0,"ONLY");
3273 gMC->Gspos("I113",3,"I12B",0.1095,3.9056,0.0,0,"ONLY");
3274 gMC->Gspos("I143",1,"I12B",0.4365,3.8556,0.0,idrotm[236],"ONLY");
3275 gMC->Gspos("I142",1,"I12B",0.5136,3.9056,0.0,idrotm[235],"ONLY");
3276 gMC->Gspos("I141",1,"I12B",0.5636,3.9752,0.0,idrotm[237],"ONLY");
3277 gMC->Gspos("I140",1,"I12B",0.6336,4.0447,0.0,idrotm[234],"ONLY");
3278 gMC->Gspos("I139",1,"I12B",0.8297,4.0545,0.0,idrotm[207],"ONLY");
3279 gMC->Gspos("I113",5,"I12B",1.2575,3.9681,0.0,idrotm[207],"ONLY");
3280 gMC->Gspos("I138",1,"I12B",1.66,3.7848,0.0,idrotm[207],"ONLY");
3281 gMC->Gspos("I137",1,"I12B",1.8556,3.7738,0.0,idrotm[233],"ONLY");
3282 gMC->Gspos("I136",1,"I12B",2.6224,4.874,0.0,idrotm[232],"ONLY");
3283 gMC->Gspos("I135",1,"I12B",3.2967,6.0337,0.0,idrotm[231],"ONLY");
3284 gMC->Gspos("I134",1,"I12B",3.266,6.1636,0.0,idrotm[230],"ONLY");
3285 gMC->Gspos("I113",1,"I12B",2.9903,6.4144,0.0,idrotm[211],"ONLY");
3286 gMC->Gspos("I133",3,"I12B",2.7631,6.7627,0.0,idrotm[230],"ONLY");
3287 gMC->Gspos("I132",3,"I12B",2.62,6.8555,0.0,idrotm[229],"ONLY");
3288 gMC->Gspos("I131",3,"I12B",2.648,6.6023,0.0,idrotm[228],"ONLY");
3289 gMC->Gspos("I130",3,"I12B",2.6569,6.3431,0.0,idrotm[227],"ONLY");
3290 gMC->Gspos("I129",3,"I12B",2.3906,6.4819,0.0,idrotm[226],"ONLY");
3291 gMC->Gspos("I113",2,"I12B",1.9488,6.7998,0.0,idrotm[210],"ONLY");
3292 gMC->Gspos("I133",2,"I12B",1.6699,7.1085,0.0,idrotm[226],"ONLY");
3293 gMC->Gspos("I132",2,"I12B",1.5142,7.1777,0.0,idrotm[225],"ONLY");
3294 gMC->Gspos("I131",2,"I12B",1.5814,6.932,0.0,idrotm[224],"ONLY");
3295 gMC->Gspos("I130",2,"I12B",1.6308,6.6774,0.0,idrotm[223],"ONLY");
3296 gMC->Gspos("I129",2,"I12B",1.346,6.7728,0.0,idrotm[222],"ONLY");
3297 gMC->Gspos("I113",6,"I12B",0.8599,7.0176,0.0,idrotm[209],"ONLY");
3298 gMC->Gspos("I133",1,"I12B",0.5362,7.2789,0.0,idrotm[222],"ONLY");
3299 gMC->Gspos("I132",1,"I12B",0.3715,7.3228,0.0,idrotm[221],"ONLY");
3300 gMC->Gspos("I131",1,"I12B",0.4763,7.0907,0.0,idrotm[220],"ONLY");
3301 gMC->Gspos("I130",1,"I12B",0.5649,6.8469,0.0,idrotm[219],"ONLY");
3302 gMC->Gspos("I129",1,"I12B",0.2688,6.8966,0.0,idrotm[218],"ONLY");
3303 gMC->Gspos("I113",4,"I12B",-0.2497,7.0624,0.0,idrotm[208],"ONLY");
3304 gMC->Gspos("I128",1,"I12B",-0.6103,7.2698,0.0,idrotm[218],"ONLY");
3305 gMC->Gspos("I126",1,"I12B",-0.7799,7.2874,0.0,idrotm[217],"ONLY");
3306 gMC->Gspos("I125",1,"I12B",-0.6315,7.0883,0.0,idrotm[216],"ONLY");
3307 gMC->Gspos("I124",1,"I12B",-0.4965,6.8742,0.0,idrotm[215],"ONLY");
3308 gMC->Gspos("I105",3,"I10B",-0.05,-0.01,-16.844,idrotm[201],"ONLY");
3309 gMC->Gspos("I105",4,"I10B",-0.05,-0.01,16.844,0,"ONLY");
8f8273a4 3310
3311 // Insertion of half-stave level in old SPD1
3312 gGeoManager->MakeVolumeAssembly("L1H-STAVE0");
3313 gGeoManager->MakeVolumeAssembly("L1H-STAVE1");
3314 gMC->Gspos("L1H-STAVE0",1,"I10B",0,0,0,0,"ONLY");
3315 gMC->Gspos("L1H-STAVE1",1,"I10B",0,0,0,0,"ONLY");
3316 gMC->Gspos("I107",1,"L1H-STAVE0",-0.0455,-di10b[1]+di107[1],10.708,0,"ONLY");
3317 gMC->Gspos("I107",2,"L1H-STAVE0",-0.0455,-di10b[1]+di107[1],3.536,0,"ONLY");
3318 gMC->Gspos("I107",3,"L1H-STAVE1",-0.0455,-di10b[1]+di107[1],-3.536,0,"ONLY");
3319 gMC->Gspos("I107",4,"L1H-STAVE1",-0.0455,-di10b[1]+di107[1],-10.708,0,"ONLY");
3320 // gMC->Gspos("I107",2,"I10B",-0.0455,-di10b[1]+di107[1],3.536,0,"ONLY");
3321 // gMC->Gspos("I107",1,"I10B",-0.0455,-di10b[1]+di107[1],10.708,0,"ONLY");
3322 // gMC->Gspos("I107",4,"I10B",-0.0455,-di10b[1]+di107[1],-10.708,0,"ONLY");
3323 // gMC->Gspos("I107",3,"I10B",-0.0455,-di10b[1]+di107[1],-3.536,0,"ONLY");
3324
3325 // Insertion of half-stave level in old SPD2
3326 gGeoManager->MakeVolumeAssembly("L2H-STAVE0");
3327 gGeoManager->MakeVolumeAssembly("L2H-STAVE1");
3328 gMC->Gspos("L2H-STAVE0",1,"I20B",0,0,0,0,"ONLY");
3329 gMC->Gspos("L2H-STAVE1",1,"I20B",0,0,0,0,"ONLY");
3330 gMC->Gspos("I1D7",1,"L2H-STAVE0",-0.0455,-di20b[1]+di1d7[1],10.708,0,"ONLY");
3331 gMC->Gspos("I1D7",2,"L2H-STAVE0",-0.0455,-di20b[1]+di1d7[1],3.536,0,"ONLY");
3332 gMC->Gspos("I1D7",3,"L2H-STAVE1",-0.0455,-di20b[1]+di1d7[1],-3.536,0,"ONLY");
3333 gMC->Gspos("I1D7",4,"L2H-STAVE1",-0.0455,-di20b[1]+di1d7[1],-10.708,0,"ONLY");
3334// gMC->Gspos("I1D7",2,"I20B",-0.0455,-di20b[1]+di1d7[1],3.536,0,"ONLY");
3335// gMC->Gspos("I1D7",1,"I20B",-0.0455,-di20b[1]+di1d7[1],10.708,0,"ONLY");
3336// gMC->Gspos("I1D7",4,"I20B",-0.0455,-di20b[1]+di1d7[1],-10.708,0,"ONLY");
3337// gMC->Gspos("I1D7",3,"I20B",-0.0455,-di20b[1]+di1d7[1],-3.536,0,"ONLY");
3338
108bd0fe 3339 gMC->Gspos("I109",1,"I10B",-0.138,0.015,-16.844,idrotm[201],"ONLY");
3340 gMC->Gspos("I109",2,"I10B",-0.138,0.015,16.844,0,"ONLY");
3341 gMC->Gspos("I108",1,"I10B",-0.138,-di10b[1]+2.*di107[1]+di108[1],0.0,0,"ONLY");
3342 gMC->Gspos("I105",1,"I20B",-0.05,-0.01,-16.844,idrotm[201],"ONLY");
3343 gMC->Gspos("I105",2,"I20B",-0.05,-0.01,16.844,0,"ONLY");
108bd0fe 3344 gMC->Gspos("I109",3,"I20B",-0.138,0.015,-16.844,idrotm[201],"ONLY");
3345 gMC->Gspos("I109",4,"I20B",-0.138,0.015,16.844,0,"ONLY");
3346 gMC->Gspos("I108",2,"I20B",-0.138,-di20b[1]+2.*di1d7[1]+di108[1],0.0,0,"ONLY");
3347 gMC->Gspos("I112",2,"I113",0.25,0.02,0.0,idrotm[206],"ONLY");
3348 gMC->Gspos("I111",2,"I113",0.1318,-0.0008,0.0,idrotm[205],"ONLY");
3349 gMC->Gspos("I118",1,"I113",0.0,-0.0454,0.0,0,"ONLY");
3350 gMC->Gspos("I110",1,"I113",0.0,0.0492,0.0,0,"ONLY");
3351 gMC->Gspos("I114",1,"I113",0.063,0.0042,0.0,idrotm[202],"ONLY");
3352 gMC->Gspos("I115",1,"I113",0.063,0.0042,0.0,idrotm[202],"ONLY");
3353 gMC->Gspos("I115",2,"I113",-0.063,0.0042,0.0,idrotm[237],"ONLY");
3354 gMC->Gspos("I114",2,"I113",-0.063,0.0042,0.0,idrotm[237],"ONLY");
3355 gMC->Gspos("I116",1,"I113",0.0,0.0042,0.0,0,"ONLY");
3356 gMC->Gspos("I111",1,"I113",-0.1318,-0.0008,0.0,idrotm[204],"ONLY");
3357 gMC->Gspos("I112",1,"I113",-0.25,0.02,0.0,idrotm[203],"ONLY");
3358 gMC->Gspos("I106",1,"I107",0.0,-ddet1,-1.4,0,"ONLY");
3359 gMC->Gspos("I106",2,"I107",0.0,-ddet1,0.0,0,"ONLY");
3360 gMC->Gspos("I106",3,"I107",0.0,-ddet1,1.4,0,"ONLY");
3361 gMC->Gspos("I106",4,"I107",0.0,-ddet1,2.8,0,"ONLY");
3362 gMC->Gspos("I106",5,"I107",0.0,-ddet1,-2.8,0,"ONLY");
3363 gMC->Gspos("I101",1,"I107",0.0,dchip1,0.0,0,"ONLY");
3364 gMC->Gspos("I1D6",1,"I1D7",0.0,-ddet2,-1.4,0,"ONLY");
3365 gMC->Gspos("I1D6",2,"I1D7",0.0,-ddet2,0.0,0,"ONLY");
3366 gMC->Gspos("I1D6",3,"I1D7",0.0,-ddet2,1.4,0,"ONLY");
3367 gMC->Gspos("I1D6",4,"I1D7",0.0,-ddet2,2.8,0,"ONLY");
3368 gMC->Gspos("I1D6",5,"I1D7",0.0,-ddet2,-2.8,0,"ONLY");
3369 gMC->Gspos("I1D1",1,"I1D7",0.0,dchip2,0.0,0,"ONLY");
3370 gMC->Gspos("I117",1,"I116",0.0,0.0,0.0,0,"ONLY");
3371 gMC->Gspos("ITS1",1,"I101",0.0,0.0,0.0,0,"ONLY");
3372 gMC->Gspos("ITS2",1,"I1D1",0.0,0.0,0.0,0,"ONLY");
3373 gMC->Gspos("I651",1,"IT12",0.0,0.0,26.05,0,"ONLY");
8f8273a4 3374 gMC->Gspos("I651",2,"IT12",0.0,0.0,-26.05,0,"ONLY");
3375
3376 gMC->Gspos("I650",16,"IT12",0.0,0.0,22.0,idrotm[1104],"ONLY");
3377 gMC->Gspos("I650",20,"IT12",0.0,0.0,22.0,idrotm[1130],"ONLY");
3378 gMC->Gspos("I650",18,"IT12",0.0,0.0,22.0,idrotm[1117],"ONLY");
3379 gMC->Gspos("I650",1,"IT12",0.0,0.0,22.0,0,"ONLY");
3380 gMC->Gspos("I650",4,"IT12",0.0,0.0,22.0,idrotm[1106],"ONLY");
3381 gMC->Gspos("I650",6,"IT12",0.0,0.0,22.0,idrotm[1039],"ONLY");
3382 gMC->Gspos("I650",8,"IT12",0.0,0.0,22.0,idrotm[1107],"ONLY");
3383 gMC->Gspos("I650",10,"IT12",0.0,0.0,22.0,idrotm[1065],"ONLY");
3384 gMC->Gspos("I650",12,"IT12",0.0,0.0,22.0,idrotm[1078],"ONLY");
3385 gMC->Gspos("I650",14,"IT12",0.0,0.0,22.0,idrotm[1091],"ONLY");
3386 gMC->Gspos("I650",19,"IT12",0.0,0.0,-22.0,idrotm[1108],"ONLY");
3387 gMC->Gspos("I650",2,"IT12",0.0,0.0,-22.0,idrotm[1109],"ONLY");
3388 gMC->Gspos("I650",3,"IT12",0.0,0.0,-22.0,idrotm[1110],"ONLY");
3389 gMC->Gspos("I650",5,"IT12",0.0,0.0,-22.0,idrotm[1111],"ONLY");
3390 gMC->Gspos("I650",7,"IT12",0.0,0.0,-22.0,idrotm[1112],"ONLY");
3391 gMC->Gspos("I650",9,"IT12",0.0,0.0,-22.0,idrotm[1113],"ONLY");
3392 gMC->Gspos("I650",11,"IT12",0.0,0.0,-22.0,idrotm[1114],"ONLY");
3393 gMC->Gspos("I650",13,"IT12",0.0,0.0,-22.0,idrotm[1115],"ONLY");
3394 gMC->Gspos("I650",15,"IT12",0.0,0.0,-22.0,idrotm[1116],"ONLY");
3395 gMC->Gspos("I650",17,"IT12",0.0,0.0,-22.0,idrotm[1118],"ONLY");
3396 gMC->Gspos("I666",1,"I650",0.0,0.0,0.25,idrotm[1003],"ONLY");
3397
108bd0fe 3398 gMC->Gspos("I667",1,"I650",0.1102,0.9945,0.45,idrotm[1088],"ONLY");
3399 gMC->Gspos("I669",3,"I650",0.1883,4.0372,-3.2,0,"ONLY");
3400 gMC->Gspos("I671",3,"I650",0.1883,4.0372,0.6,0,"ONLY");
3401 gMC->Gspos("I669",2,"I650",1.3343,4.0609,-3.2,0,"ONLY");
3402 gMC->Gspos("I671",2,"I650",1.3343,4.0609,0.6,0,"ONLY");
3403 gMC->Gspos("I669",6,"I650",2.9567,6.1959,-3.2,idrotm[1089],"ONLY");
3404 gMC->Gspos("I671",6,"I650",2.9567,6.1959,0.6,idrotm[1089],"ONLY");
3405 gMC->Gspos("I669",5,"I650",1.9511,6.5822,-3.2,idrotm[1011],"ONLY");
3406 gMC->Gspos("I671",5,"I650",1.9511,6.5822,0.6,idrotm[1011],"ONLY");
3407 gMC->Gspos("I669",4,"I650",0.8974,6.8064,-3.2,idrotm[1090],"ONLY");
3408 gMC->Gspos("I671",4,"I650",0.8974,6.8064,0.6,idrotm[1090],"ONLY");
3409 gMC->Gspos("I669",1,"I650",-0.1784,6.863,-3.2,0,"ONLY");
3410 gMC->Gspos("I671",1,"I650",-0.1784,6.863,0.6,0,"ONLY");
3411 gMC->Gspos("I673",1,"I650",0.2173,4.8037,1.8,0,"ONLY");
3412 gMC->Gspos("I673",6,"I650",1.5093,4.5605,1.8,0,"ONLY");
3413 gMC->Gspos("I673",4,"I650",-0.173,6.2531,1.8,idrotm[1092],"ONLY");
3414 gMC->Gspos("I673",3,"I650",0.8073,6.2032,1.8,idrotm[1093],"ONLY");
3415 gMC->Gspos("I673",2,"I650",1.7678,6.0005,1.8,idrotm[1094],"ONLY");
3416 gMC->Gspos("I673",5,"I650",2.6847,5.6501,1.8,0,"ONLY");
3417 gMC->Gspos("I676",2,"I650",1.7618,5.2269,2.5,0,"ONLY");
3418 gMC->Gspos("I676",1,"I650",0.4018,5.5869,2.5,0,"ONLY");
3419 gMC->Gspos("I668",1,"I667",0.0,0.0,0.0,0,"ONLY");
3420 gMC->Gspos("I670",1,"I669",0.0,0.0,0.0,0,"ONLY");
3421 gMC->Gspos("I672",1,"I671",0.0,0.0,0.0,0,"ONLY");
3422 gMC->Gspos("I674",1,"I673",0.0,0.0,0.0,0,"MANY");
3423 gMC->Gspos("I675",1,"I673",0.0,0.0,-0.5,0,"ONLY");
8f8273a4 3424 gMC->Gspos("I677",1,"I676",0.0,0.0,0.0,0,"ONLY");
108bd0fe 3425 gMC->Gspos("I678",1,"I676",0.0,0.0,-0.95,0,"ONLY");
3426 }
3427
3428 // --- Place SDD volumes into their mother volume IT34
3429
3430 // -- position SDD detectors of ladder 3 / layer 3
3431 if (! AliITSInitGeometry::SDDIsTGeoNative()) {
3432
3433 gMC->Gspos("ITS3", 1,"I302", 0.0, 0.0, 0.0, 0, "ONLY");
3434 ySDD = ySDDsep/2.+iI302dits[1];
3435 for (iSDD=0; iSDD<6; iSDD++) {
3436 gMC->Gspos("I302", iSDD+1, "I004", 0.0, ySDD, zSDDlay3[iSDD], 0, "ONLY");
3437 ySDD = -ySDD;
3438 }
3439
3440 gMC->Gspos("I004", 1,"IT34", -3.2777, 14.3607, 0.0, idrotm[321],"ONLY");
3441 gMC->Gspos("I004", 2,"IT34", -9.5581, 11.9855, 0.0, idrotm[333],"ONLY");
3442 gMC->Gspos("I004", 3,"IT34",-13.2713, 6.3911, 0.0, idrotm[336],"ONLY");
3443 gMC->Gspos("I004", 4,"IT34",-15.33, 0.0, 0.0, idrotm[350],"ONLY");
3444 gMC->Gspos("I004", 5,"IT34",-13.2713, -6.3911, 0.0, idrotm[313],"ONLY");
3445 gMC->Gspos("I004", 6,"IT34", -9.5581, -11.9855, 0.0, idrotm[311],"ONLY");
3446 gMC->Gspos("I004", 7,"IT34", -3.2777, -14.3607, 0.0, idrotm[310],"ONLY");
3447 gMC->Gspos("I004", 8,"IT34", 3.4112, -14.9456, 0.0, idrotm[386],"ONLY");
3448 gMC->Gspos("I004", 9,"IT34", 9.184, -11.5164, 0.0, idrotm[309],"ONLY");
3449 gMC->Gspos("I004",10,"IT34", 13.8119, -6.6514, 0.0, idrotm[308],"ONLY");
3450 gMC->Gspos("I004",11,"IT34", 14.73, 0.0, 0.0, idrotm[356],"ONLY");