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CreateSurveyRcds.cc
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5 
8 
13 
17 
22 #include "CLHEP/Random/RandGauss.h"
23 
24 // Database
27 
29  : theParameterSet( cfg )
30 {
31  m_inputGeom = cfg.getUntrackedParameter< std::string > ("inputGeom");
32  m_inputSimpleMis = cfg.getUntrackedParameter< double > ("simpleMis");
33  m_generatedRandom = cfg.getUntrackedParameter< bool > ("generatedRandom");
34  m_generatedSimple = cfg.getUntrackedParameter< bool > ("generatedSimple");
35 }
36 
38 
39  //Retrieve tracker topology from geometry
41  setup.get<IdealGeometryRecord>().get(tTopoHandle);
42  const TrackerTopology* const tTopo = tTopoHandle.product();
43 
45  setup.get<IdealGeometryRecord>().get(geom);
47 
48  //take geometry from DB or randomly generate geometry
49  if (m_inputGeom == "sqlite"){
50  //build the tracker
53 
54  setup.get<TrackerAlignmentRcd>().get(alignments);
55  setup.get<TrackerAlignmentErrorExtendedRcd>().get(alignmentErrors);
56 
57  //apply the latest alignments
58  GeometryAligner aligner;
59  aligner.applyAlignments<TrackerGeometry>( &(*tracker), &(*alignments), &(*alignmentErrors), AlignTransform() );
60 
61  }
62 
63 
64  addComponent(new AlignableTracker( tracker, tTopo ) );
65 
66  Alignable* ali = detector();
67  if(m_inputGeom == "generated"){
68  setGeometry( ali );
69  }
70 
71  setSurveyErrors( ali );
72 
73 }
74 
76 {
77 
78  const align::Alignables& comp = ali->components();
79  unsigned int nComp = comp.size();
80  //move then do for lower level object
81  //for issue of det vs detunit
82  bool usecomps = true;
83  if ((ali->alignableObjectId()==2)&&(nComp>=1)) usecomps = false;
84  for (unsigned int i = 0; i < nComp; ++i){
85  if (usecomps) setGeometry(comp[i]);
86  }
87  DetId id( ali->id() );
88  int subdetlevel = id.subdetId();
89  int level = ali->alignableObjectId();
90 
91  //for random misalignment
92  if (m_generatedRandom){
93  if (subdetlevel > 0){
94  AlgebraicVector value = getStructureErrors(level, subdetlevel);
95 
96  double value0 = CLHEP::RandGauss::shoot(0,value[0]);
97  double value1 = CLHEP::RandGauss::shoot(0,value[1]);
98  double value2 = CLHEP::RandGauss::shoot(0,value[2]);
99  double value3 = CLHEP::RandGauss::shoot(0,value[3]);
100  double value4 = CLHEP::RandGauss::shoot(0,value[4]);
101  double value5 = CLHEP::RandGauss::shoot(0,value[5]);
102 
103  //move/rotate the surface
104  align::LocalVector diffR(value0,value1,value2);
105  align::Scalar diffWx = value3;
106  align::Scalar diffWy = value4;
107  align::Scalar diffWz = value5;
108  ali->move(ali->surface().toGlobal(diffR));
109  ali->rotateAroundLocalX(diffWx);
110  ali->rotateAroundLocalY(diffWy);
111  ali->rotateAroundLocalZ(diffWz);
112  }
113  }
114 
115  // for simple misalignments
116  if (m_generatedSimple){
117  if ((level == 2)||((level == 1)&&(ali->mother()->alignableObjectId() != 2))){
118 
119  const double constMis = m_inputSimpleMis;
120  const double dAngle = constMis/ali->surface().length();
121  //std::cout << "Shift: " << constMis << ", Rot: " << dAngle << std::endl;
122  double value0 = CLHEP::RandGauss::shoot(0, constMis);
123  double value1 = CLHEP::RandGauss::shoot(0, constMis);
124  double value2 = CLHEP::RandGauss::shoot(0, constMis);
125  double value3 = CLHEP::RandGauss::shoot(0, dAngle);
126  double value4 = CLHEP::RandGauss::shoot(0, dAngle);
127  double value5 = CLHEP::RandGauss::shoot(0, dAngle);
128 
129  align::LocalVector diffR(value0,value1,value2);
130  ali->move(ali->surface().toGlobal(diffR));
131  align::Scalar diffWx = value3;
132  align::Scalar diffWy = value4;
133  align::Scalar diffWz = value5;
134  ali->rotateAroundLocalX(diffWx);
135  ali->rotateAroundLocalY(diffWy);
136  ali->rotateAroundLocalZ(diffWz);
137  }
138  }
139 
140 }
141 
143 
144  const align::Alignables& comp = ali->components();
145  unsigned int nComp = comp.size();
146  //move then do for lower level object
147  //for issue of det vs detunit
148  for (unsigned int i = 0; i < nComp; ++i){
149  setSurveyErrors(comp[i]);
150  }
151 
152  DetId id( ali->id() );
153  int subdetlevel = id.subdetId();
154  int level = ali->alignableObjectId();
155 
156  AlgebraicVector error = getStructureErrors(level, subdetlevel);
157 
158  double error0 = error[0];
159  double error1 = error[1];
160  double error2 = error[2];
161  double error3 = error[3];
162  double error4 = error[4];
163  double error5 = error[5];
164 
165  // ----------------INFLATING ERRORS----------------------
166  // inflating sensitive coordinates in each subdetector
167  // tib
168  if ((level <= 2)&&(subdetlevel == 3)){
169  error0 = 0.01; error5 = 0.001;
170  if ((level==2)&&(nComp == 2)){
171  error1 = 0.01;
172  }
173  }
174  // tid
175  if ((level <= 2)&&(subdetlevel == 4)){
176  error0=0.01; error1=0.01; error2=0.01; error3=0.001; error4=0.001; error5=0.001;
177  //error0=0.01; error1=0.002; error2=0.002; error3=0.0002; error4=0.0002; error5=0.001;
178  //if ((level == 2)&&(nComp == 2)){
179  // error1 = 0.01;
180  //}
181  }
182  if ((level == 23)&&(subdetlevel == 4)){ //Ring is a Disk
183  error0=0.02; error1=0.02; error2=0.03; error3=0.0002; error4=0.0002; error5=0.0002;
184  }
185  if ((level == 22)&&(subdetlevel == 4)){ //Side of a Ring
186  error0=0.01; error1=0.01; error2=0.01; error3=0.0002; error4=0.0002; error5=0.0002;
187  }
188  // tob
189  if ((level <= 2)&&(subdetlevel == 5)){
190  //error0 = 0.015; error1 = 0.015; error2 = 0.05; error3 = 0.001; error4 = 0.001; error5 = 0.001;
191  error0 = 0.015; error1 = 0.003; error2 = 0.003; error3 = 0.0002; error4 = 0.0002; error5 = 0.001;
192  if ((level == 2)&&(nComp == 2)){
193  error1 = 0.015;
194  }
195  }
196  if ((level == 27)&&(subdetlevel == 5)){ //Rod in a Layer
197  error0=0.02; error1=0.02; error2=0.03; error3=0.001; error4=0.001; error5=0.001;
198  }
199  // tec
200  if ((level <= 2)&&(subdetlevel == 6)){
201  error0 = 0.02; error5 = 0.0005;
202  if ((level==2)&&(nComp == 2)){
203  error1 = 0.02;
204  }
205  }
206  if ((level == 34)&&(subdetlevel == 6)){ //Side on a Disk
207  error0=0.01; error1=0.01; error2=0.02; error3=0.00005; error4=0.00005; error5=0.00005;
208  }
209  if ((level == 33)&&(subdetlevel == 6)){ //Petal on a Side of a Disk
210  error0=0.01; error1=0.01; error2=0.02; error3=0.0001; error4=0.0001; error5=0.0001;
211  }
212  if ((level == 32)&&(subdetlevel == 6)){ //Ring on a Petal
213  error0=0.007; error1=0.007; error2=0.015; error3=0.00015; error4=0.00015; error5=0.00015;
214  }
215  // ----------------INFLATING ERRORS----------------------
216 
217  //create the error matrix
218  align::ErrorMatrix error_Matrix;
219  double * errorData = error_Matrix.Array();
220  errorData[0] = error0*error0; errorData[2] = error1*error1; errorData[5] = error2*error2;
221  errorData[9] = error3*error3; errorData[14] = error4*error4; errorData[20] = error5*error5;
222  errorData[1] = 0.0;
223  errorData[3] = 0.0; errorData[4] = 0.0;
224  errorData[6] = 0.0; errorData[7] = 0.0; errorData[8] = 0.0;
225  errorData[10] = 0.0; errorData[11] = 0.0; errorData[12] = 0.0; errorData[13] = 0.0;
226  errorData[15] = 0.0; errorData[16] = 0.0; errorData[17] = 0.0; errorData[18] = 0.0; errorData[19] = 0.0;
227 
228 
229  ali->setSurvey( new SurveyDet(ali->surface(), error_Matrix ) );
230 
231 }
232 
233 //-------------------------------------------------------
234 // DEFAULT VALUES FOR THE ASSEMBLY PRECISION
235 //-------------------------------------------------------
237 {
238  AlgebraicVector deltaRW(6);
239  deltaRW(1)=0.0; deltaRW(2)=0.0; deltaRW(3)=0.0; deltaRW(4)=0.0; deltaRW(5)=0.0; deltaRW(6)=0.0;
240  //PIXEL
241  if ((level == 37)&&(subdetlevel == 1)){
242  deltaRW(1)=0.3; deltaRW(2)=0.3; deltaRW(3)=0.3; deltaRW(4)=0.0017; deltaRW(5)=0.0017; deltaRW(6)=0.0017;
243  }
244  //STRIP
245  if ((level == 38)&&(subdetlevel == 3)){
246  deltaRW(1)=0.3; deltaRW(2)=0.3; deltaRW(3)=0.3; deltaRW(4)=0.0004; deltaRW(5)=0.0004; deltaRW(6)=0.0004;
247  }
248  //TRACKER
249  if ((level == 39)&&(subdetlevel == 1)){
250  deltaRW(1)=0.0; deltaRW(2)=0.0; deltaRW(3)=0.0; deltaRW(4)=0.0; deltaRW(5)=0.0; deltaRW(6)=0.0;
251  }
252  //TPB
253  if ((level == 7)&&(subdetlevel == 1)){
254  deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.003; deltaRW(5)=0.003; deltaRW(6)=0.003;
255  }
256  if ((level == 6)&&(subdetlevel == 1)){
257  deltaRW(1)=0.05; deltaRW(2)=0.05; deltaRW(3)=0.05; deltaRW(4)=0.0008; deltaRW(5)=0.0008; deltaRW(6)=0.0008;
258  }
259  if ((level == 5)&&(subdetlevel == 1)){
260  deltaRW(1)=0.02; deltaRW(2)=0.02; deltaRW(3)=0.02; deltaRW(4)=0.0004; deltaRW(5)=0.0004; deltaRW(6)=0.0004;
261  }
262  if ((level == 4)&&(subdetlevel == 1)){
263  deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.005; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
264  }
265  if ((level == 2)&&(subdetlevel == 1)){
266  deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.003; deltaRW(4)=0.001; deltaRW(5)=0.001; deltaRW(6)=0.001;
267  }
268  if ((level == 1)&&(subdetlevel == 1)){
269  deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.003; deltaRW(4)=0.001; deltaRW(5)=0.001; deltaRW(6)=0.001;
270  }
271  //TPE
272  if ((level == 13)&&(subdetlevel == 2)){
273  deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.0017; deltaRW(5)=0.0017; deltaRW(6)=0.0017;
274  }
275  if ((level == 12)&&(subdetlevel == 2)){
276  deltaRW(1)=0.05; deltaRW(2)=0.05; deltaRW(3)=0.05; deltaRW(4)=0.0004; deltaRW(5)=0.0004; deltaRW(6)=0.0004;
277  }
278  if ((level == 11)&&(subdetlevel == 2)){
279  deltaRW(1)=0.02; deltaRW(2)=0.02; deltaRW(3)=0.02; deltaRW(4)=0.001; deltaRW(5)=0.001; deltaRW(6)=0.001;
280  }
281  if ((level == 10)&&(subdetlevel == 2)){
282  deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.01; deltaRW(4)=0.001; deltaRW(5)=0.001; deltaRW(6)=0.001;
283  }
284  if ((level == 9)&&(subdetlevel == 2)){
285  deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.005; deltaRW(4)=0.002; deltaRW(5)=0.002; deltaRW(6)=0.002;
286  }
287  if ((level == 2)&&(subdetlevel == 2)){
288  deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.003; deltaRW(4)=0.001; deltaRW(5)=0.001; deltaRW(6)=0.001;
289  }
290  if ((level == 1)&&(subdetlevel == 2)){
291  deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.003; deltaRW(4)=0.001; deltaRW(5)=0.001; deltaRW(6)=0.001;
292  }
293  //TIB
294  if ((level == 20)&&(subdetlevel == 3)){
295  deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.0017; deltaRW(5)=0.0017; deltaRW(6)=0.0017;
296  }
297  if ((level == 19)&&(subdetlevel == 3)){
298  deltaRW(1)=0.1; deltaRW(2)=0.1; deltaRW(3)=0.1; deltaRW(4)=0.0008; deltaRW(5)=0.0008; deltaRW(6)=0.0008;
299  }
300  if ((level == 18)&&(subdetlevel == 3)){
301  deltaRW(1)=0.04; deltaRW(2)=0.04; deltaRW(3)=0.02; deltaRW(4)=0.0006; deltaRW(5)=0.0006; deltaRW(6)=0.0006;
302  }
303  if ((level == 17)&&(subdetlevel == 3)){
304  deltaRW(1)=0.03; deltaRW(2)=0.03; deltaRW(3)=0.015; deltaRW(4)=0.0004; deltaRW(5)=0.0004; deltaRW(6)=0.0004;
305  }
306  if ((level == 16)&&(subdetlevel == 3)){
307  deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.01; deltaRW(4)=0.0004; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
308  }
309  if ((level == 15)&&(subdetlevel == 3)){
310  deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.01; deltaRW(4)=0.0004; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
311  }
312  if ((level == 2)&&(subdetlevel == 3)){
313  deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.005; deltaRW(4)=0.001; deltaRW(5)=0.0005; deltaRW(6)=0.0005;
314  }
315  if ((level == 1)&&(subdetlevel == 3)){
316  deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.005; deltaRW(4)=0.001; deltaRW(5)=0.0005; deltaRW(6)=0.0005;
317  }
318  //TID
319  if ((level == 25)&&(subdetlevel == 4)){
320  deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.0013; deltaRW(5)=0.0013; deltaRW(6)=0.0013;
321  }
322  if ((level == 24)&&(subdetlevel == 4)){
323  deltaRW(1)=0.05; deltaRW(2)=0.05; deltaRW(3)=0.05; deltaRW(4)=0.0004; deltaRW(5)=0.0004; deltaRW(6)=0.0004;
324  }
325  if ((level == 23)&&(subdetlevel == 4)){
326  deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.01; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
327  }
328  if ((level == 22)&&(subdetlevel == 4)){
329  deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.005; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
330  }
331  if ((level == 2)&&(subdetlevel == 4)){
332  deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.005; deltaRW(4)=0.0005; deltaRW(5)=0.0005; deltaRW(6)=0.0005;
333  }
334  if ((level == 1)&&(subdetlevel == 4)){
335  deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.005; deltaRW(4)=0.0005; deltaRW(5)=0.0005; deltaRW(6)=0.0005;
336  }
337  //TOB
338  if ((level == 30)&&(subdetlevel == 5)){
339  deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.0008; deltaRW(5)=0.0008; deltaRW(6)=0.0008;
340  }
341  if ((level == 29)&&(subdetlevel == 5)){
342  deltaRW(1)=0.014; deltaRW(2)=0.014; deltaRW(3)=0.05; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
343  }
344  if ((level == 28)&&(subdetlevel == 5)){
345  deltaRW(1)=0.02; deltaRW(2)=0.02; deltaRW(3)=0.02; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
346  }
347  if ((level == 27)&&(subdetlevel == 5)){
348  deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.02; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
349  }
350  if ((level == 2)&&(subdetlevel == 5)){
351  deltaRW(1)=0.003; deltaRW(2)=0.003; deltaRW(3)=0.01; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
352  }
353  if ((level == 1)&&(subdetlevel == 5)){
354  deltaRW(1)=0.003; deltaRW(2)=0.003; deltaRW(3)=0.01; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
355  }
356  //TEC
357  if ((level == 36)&&(subdetlevel == 6)){
358  deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.0008; deltaRW(5)=0.0008; deltaRW(6)=0.0008;
359  }
360  if ((level == 35)&&(subdetlevel == 6)){
361  deltaRW(1)=0.05; deltaRW(2)=0.05; deltaRW(3)=0.05; deltaRW(4)=0.0003; deltaRW(5)=0.0003; deltaRW(6)=0.0003;
362  }
363  if ((level == 34)&&(subdetlevel == 6)){
364  deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.02; deltaRW(4)=0.00005; deltaRW(5)=0.00005; deltaRW(6)=0.00005;
365  }
366  if ((level == 33)&&(subdetlevel == 6)){
367  deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.02; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
368  }
369  if ((level == 32)&&(subdetlevel == 6)){
370  deltaRW(1)=0.007; deltaRW(2)=0.007; deltaRW(3)=0.015; deltaRW(4)=0.00015; deltaRW(5)=0.00015; deltaRW(6)=0.00015;
371  }
372  if ((level == 2)&&(subdetlevel == 6)){
373  deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.005; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
374  }
375  if ((level == 1)&&(subdetlevel == 6)){
376  deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.005; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
377  }
378 
379  return deltaRW;
380 }
381 //-------------------------------------------------------
382 // DEFAULT VALUES FOR THE PRECISION OF THE SURVEY
383 //-------------------------------------------------------
385 {
386  AlgebraicVector deltaRW(6);
387  deltaRW(1)=0.0; deltaRW(2)=0.0; deltaRW(3)=0.0; deltaRW(4)=0.0; deltaRW(5)=0.0; deltaRW(6)=0.0;
388  //PIXEL
389  if ((level == 37)&&(subdetlevel == 1)){ //Pixel Detector in Tracker
390  deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.0017; deltaRW(5)=0.0017; deltaRW(6)=0.0017;
391  }
392  //STRIP
393  if ((level == 38)&&(subdetlevel == 3)){ //Strip Tracker in Tracker
394  deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.0004; deltaRW(5)=0.0004; deltaRW(6)=0.0004;
395  }
396  //TRACKER
397  if ((level == 39)&&(subdetlevel == 1)){ //Tracker
398  deltaRW(1)=0.0; deltaRW(2)=0.0; deltaRW(3)=0.0; deltaRW(4)=0.0; deltaRW(5)=0.0; deltaRW(6)=0.0;
399  }
400  //TPB
401  if ((level == 7)&&(subdetlevel == 1)){ //Barrel Pixel in Pixel
402  deltaRW(1)=0.05; deltaRW(2)=0.05; deltaRW(3)=0.1; deltaRW(4)=0.0008; deltaRW(5)=0.0008; deltaRW(6)=0.0008;
403  }
404  if ((level == 6)&&(subdetlevel == 1)){ //HalfBarrel in Barrel Pixel
405  deltaRW(1)=0.015; deltaRW(2)=0.015; deltaRW(3)=0.03; deltaRW(4)=0.0003; deltaRW(5)=0.0003; deltaRW(6)=0.0003;
406  }
407  if ((level == 5)&&(subdetlevel == 1)){ //HalfShell in HalfBarrel
408  deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.01; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
409  }
410  if ((level == 4)&&(subdetlevel == 1)){ //Ladder in HalfShell
411  deltaRW(1)=0.001; deltaRW(2)=0.001; deltaRW(3)=0.002; deltaRW(4)=0.00005; deltaRW(5)=0.00005; deltaRW(6)=0.00005;
412  }
413  if ((level == 2)&&(subdetlevel == 1)){ //Det in Ladder
414  deltaRW(1)=0.0005; deltaRW(2)=0.001; deltaRW(3)=0.001; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
415  }
416  if ((level == 1)&&(subdetlevel == 1)){ //DetUnit in Ladder
417  deltaRW(1)=0.0005; deltaRW(2)=0.001; deltaRW(3)=0.001; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
418  }
419  //TPE
420  if ((level == 13)&&(subdetlevel == 2)){ //Forward Pixel in Pixel
421  deltaRW(1)=0.05; deltaRW(2)=0.05; deltaRW(3)=0.1; deltaRW(4)=0.0004; deltaRW(5)=0.0004; deltaRW(6)=0.0004;
422  }
423  if ((level == 12)&&(subdetlevel == 2)){ //HalfCylinder in Forward Pixel
424  deltaRW(1)=0.015; deltaRW(2)=0.015; deltaRW(3)=0.03; deltaRW(4)=0.00015; deltaRW(5)=0.00015; deltaRW(6)=0.00015;
425  }
426  if ((level == 11)&&(subdetlevel == 2)){ //HalfDisk in HalfCylinder
427  deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.01; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
428  }
429  if ((level == 10)&&(subdetlevel == 2)){ //Blade in HalfDisk
430  deltaRW(1)=0.001; deltaRW(2)=0.001; deltaRW(3)=0.002; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
431  }
432  if ((level == 9)&&(subdetlevel == 2)){ //Panel in Blade
433  deltaRW(1)=0.001; deltaRW(2)=0.0008; deltaRW(3)=0.0006; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
434  }
435  if ((level == 2)&&(subdetlevel == 2)){ //Det in Panel
436  deltaRW(1)=0.0005; deltaRW(2)=0.0004; deltaRW(3)=0.0006; deltaRW(4)=0.0001; deltaRW(5)=0.0003; deltaRW(6)=0.0001;
437  }
438  if ((level == 1)&&(subdetlevel == 2)){ //DetUnit in Panel
439  deltaRW(1)=0.0005; deltaRW(2)=0.0004; deltaRW(3)=0.0006; deltaRW(4)=0.0001; deltaRW(5)=0.0003; deltaRW(6)=0.0001;
440  }
441  //TIB
442  if ((level == 20)&&(subdetlevel == 3)){ //TIB in Strip Tracker
443  deltaRW(1)=0.08; deltaRW(2)=0.08; deltaRW(3)=0.04; deltaRW(4)=0.0017; deltaRW(5)=0.0017; deltaRW(6)=0.0017;
444  }
445  if ((level == 19)&&(subdetlevel == 3)){ //HalfBarrel in TIB
446  deltaRW(1)=0.04; deltaRW(2)=0.04; deltaRW(3)=0.02; deltaRW(4)=0.0003; deltaRW(5)=0.0003; deltaRW(6)=0.0003;
447  }
448  if ((level == 18)&&(subdetlevel == 3)){ //Layer in HalfBarrel
449  deltaRW(1)=0.02; deltaRW(2)=0.02; deltaRW(3)=0.01; deltaRW(4)=0.0006; deltaRW(5)=0.0006; deltaRW(6)=0.0006;
450  }
451  if ((level == 17)&&(subdetlevel == 3)){ //HalfShell in Layer
452  deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.005; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
453  }
454  if ((level == 16)&&(subdetlevel == 3)){ //Surface in a HalfShell
455  deltaRW(1)=0.004; deltaRW(2)=0.004; deltaRW(3)=0.008; deltaRW(4)=0.0002; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
456  }
457  if ((level == 15)&&(subdetlevel == 3)){ //String in a Surface
458  deltaRW(1)=0.004; deltaRW(2)=0.004; deltaRW(3)=0.008; deltaRW(4)=0.0002; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
459  }
460  if ((level == 2)&&(subdetlevel == 3)){ //Det in a String
461  deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.004; deltaRW(4)=0.0004; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
462  }
463  if ((level == 1)&&(subdetlevel == 3)){ //DetUnit in a String
464  deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.004; deltaRW(4)=0.0004; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
465  }
466  //TID
467  if ((level == 25)&&(subdetlevel == 4)){ //TID in Strip Tracker
468  deltaRW(1)=0.05; deltaRW(2)=0.05; deltaRW(3)=0.1; deltaRW(4)=0.0003; deltaRW(5)=0.0003; deltaRW(6)=0.0003;
469  }
470  if ((level == 24)&&(subdetlevel == 4)){ //Disk in a TID
471  deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.02; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
472  }
473  if ((level == 23)&&(subdetlevel == 4)){ //Ring is a Disk
474  deltaRW(1)=0.004; deltaRW(2)=0.004; deltaRW(3)=0.005; deltaRW(4)=0.00004; deltaRW(5)=0.00004; deltaRW(6)=0.00004;
475  }
476  if ((level == 22)&&(subdetlevel == 4)){ //Side of a Ring
477  deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.002; deltaRW(4)=0.00004; deltaRW(5)=0.00004; deltaRW(6)=0.00004;
478  }
479  if ((level == 2)&&(subdetlevel == 4)){ //Det in a Side
480  deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.002; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
481  }
482  if ((level == 1)&&(subdetlevel == 4)){ //DetUnit is a Side
483  deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.002; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
484  }
485  //TOB
486  if ((level == 30)&&(subdetlevel == 5)){ // TOB in Strip Tracker
487  deltaRW(1)=0.06; deltaRW(2)=0.06; deltaRW(3)=0.06; deltaRW(4)=0.00025; deltaRW(5)=0.00025; deltaRW(6)=0.00025;
488  }
489  if ((level == 29)&&(subdetlevel == 5)){ //HalfBarrel in the TOB
490  deltaRW(1)=0.014; deltaRW(2)=0.014; deltaRW(3)=0.05; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
491  }
492  if ((level == 28)&&(subdetlevel == 5)){ //Layer in a HalfBarrel
493  deltaRW(1)=0.02; deltaRW(2)=0.02; deltaRW(3)=0.02; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
494  }
495  if ((level == 27)&&(subdetlevel == 5)){ //Rod in a Layer
496  deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.02; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
497  }
498  if ((level == 2)&&(subdetlevel == 5)){ //Det in a Rod
499  deltaRW(1)=0.003; deltaRW(2)=0.003; deltaRW(3)=0.01; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
500  }
501  if ((level == 1)&&(subdetlevel == 5)){ //DetUnit in a Rod
502  deltaRW(1)=0.003; deltaRW(2)=0.003; deltaRW(3)=0.01; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
503  }
504  //TEC
505  if ((level == 36)&&(subdetlevel == 6)){ //TEC in the Strip Tracker
506  deltaRW(1)=0.06; deltaRW(2)=0.06; deltaRW(3)=0.1; deltaRW(4)=0.0003; deltaRW(5)=0.0003; deltaRW(6)=0.0003;
507  }
508  if ((level == 35)&&(subdetlevel == 6)){ //Disk in the TEC
509  deltaRW(1)=0.015; deltaRW(2)=0.015; deltaRW(3)=0.03; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
510  }
511  if ((level == 34)&&(subdetlevel == 6)){ //Side on a Disk
512  deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.02; deltaRW(4)=0.00005; deltaRW(5)=0.00005; deltaRW(6)=0.00005;
513  }
514  if ((level == 33)&&(subdetlevel == 6)){ //Petal on a Side of a Disk
515  deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.02; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
516  }
517  if ((level == 32)&&(subdetlevel == 6)){ //Ring on a Petal
518  deltaRW(1)=0.007; deltaRW(2)=0.007; deltaRW(3)=0.015; deltaRW(4)=0.00015; deltaRW(5)=0.00015; deltaRW(6)=0.00015;
519  }
520  if ((level == 2)&&(subdetlevel == 6)){ //Det on a Ring
521  deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.005; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
522  }
523  if ((level == 1)&&(subdetlevel == 6)){ // DetUnit on a Ring
524  deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.005; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
525  }
526 
527  return deltaRW;
528 
529 
530 }
531 
532 // Plug in to framework
533 
535 
void setSurveyErrors(Alignable *)
module which creates/inserts the survey errors
align::ID id() const
Return the ID of Alignable, i.e. DetId of &#39;first&#39; component GeomDet(Unit).
Definition: Alignable.h:180
T getUntrackedParameter(std::string const &, T const &) const
int i
Definition: DBlmapReader.cc:9
tuple cfg
Definition: looper.py:259
virtual void rotateAroundLocalZ(Scalar radians)
Rotation around local z-axis.
Definition: Alignable.cc:187
double Scalar
Definition: Definitions.h:27
Class to update a given geometry with a set of alignments.
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
TrackerGeometry * build(const GeometricDet *gd, const edm::ParameterSet &pSet)
GlobalVector diffR(const GlobalVectors &current, const GlobalVectors &nominal)
Definition: Utilities.cc:166
virtual void move(const GlobalVector &displacement)=0
Movement with respect to the global reference frame.
static void addComponent(Alignable *)
virtual Alignables components() const =0
Return vector of all direct components.
edm::ESHandle< Alignments > alignments
void setGeometry(Alignable *)
module which modifies the geometry
AlgebraicVector getStructureErrors(int, int)
default values for survey uncertainty
virtual StructureType alignableObjectId() const =0
Return the alignable type identifier.
static Alignable * detector()
Get alignable detector as read from input.
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event(this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past
int subdetId() const
get the contents of the subdetector field (not cast into any detector&#39;s numbering enum) ...
Definition: DetId.h:37
const AlignableSurface & surface() const
Return the Surface (global position and orientation) of the object.
Definition: Alignable.h:126
std::string m_inputGeom
Definition: DetId.h:18
void applyAlignments(C *geometry, const Alignments *alignments, const AlignmentErrorsExtended *alignmentErrors, const AlignTransform &globalCoordinates)
CLHEP::HepVector AlgebraicVector
align::Scalar length() const
const edm::ParameterSet theParameterSet
void setSurvey(const SurveyDet *)
Set survey info.
Definition: Alignable.cc:277
const T & get() const
Definition: EventSetup.h:55
T const * product() const
Definition: ESHandle.h:86
virtual void rotateAroundLocalY(Scalar radians)
Rotation around local y-axis.
Definition: Alignable.cc:161
std::vector< Alignable * > Alignables
Definition: Utilities.h:28
virtual void analyze(const edm::Event &, const edm::EventSetup &)
Do nothing for each event.
CreateSurveyRcds(const edm::ParameterSet &)
virtual void rotateAroundLocalX(Scalar radians)
Rotation around local x-axis.
Definition: Alignable.cc:135
align::GlobalPoints toGlobal(const align::LocalPoints &) const
Return in global coord given a set of local points.
tuple level
Definition: testEve_cfg.py:34
math::Error< 6 >::type ErrorMatrix
Definition: Definitions.h:39
AlgebraicVector getStructurePlacements(int, int)
default values for assembly precision
Alignable * mother() const
Return pointer to container alignable (if any)
Definition: Alignable.h:85
void setup(std::vector< TH2F > &depth, std::string name, std::string units="")