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HcalLogicalMap.cc
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5 
6 #include <string>
7 #include <cstring>
8 #include <iostream>
9 #include <fstream>
10 #include <sstream>
11 #include <stdio.h>
12 #include <time.h>
13 
14 using namespace std;
15 
16 HcalLogicalMap::HcalLogicalMap(const HcalTopology* topo,std::vector<HBHEHFLogicalMapEntry>& HBHEHFEntries,
17  std::vector<HOHXLogicalMapEntry>& HOHXEntries,
18  std::vector<CALIBLogicalMapEntry>& CALIBEntries,
19  std::vector<ZDCLogicalMapEntry>& ZDCEntries,
20  std::vector<HTLogicalMapEntry>& HTEntries,
21  std::vector<uint32_t>& LinearIndex2Entry,
22  std::vector<uint32_t>& HbHash2Entry,
23  std::vector<uint32_t>& HeHash2Entry,
24  std::vector<uint32_t>& HfHash2Entry,
25  std::vector<uint32_t>& HtHash2Entry,
26  std::vector<uint32_t>& HoHash2Entry,
27  std::vector<uint32_t>& HxCalibHash2Entry,
28  std::vector<uint32_t>& ZdcHash2Entry) : topo_(topo)
29 
30 {
31  HBHEHFEntries_.resize(HBHEHFEntries.size());
32  HOHXEntries_.resize(HOHXEntries.size());
33  CALIBEntries_.resize(CALIBEntries.size());
34  ZDCEntries_.resize(ZDCEntries.size());
35  HTEntries_.resize(HTEntries.size());
36 
37  LinearIndex2Entry_.resize(LinearIndex2Entry.size());
38  HbHash2Entry_.resize(HbHash2Entry.size());
39  HeHash2Entry_.resize(HeHash2Entry.size());
40  HfHash2Entry_.resize(HfHash2Entry.size());
41  HtHash2Entry_.resize(HtHash2Entry.size());
42  HoHash2Entry_.resize(HoHash2Entry.size());
43  HxCalibHash2Entry_.resize(HxCalibHash2Entry.size());
44  ZdcHash2Entry_.resize(ZdcHash2Entry.size());
45 
46  copy(HBHEHFEntries.begin(),HBHEHFEntries.end(),HBHEHFEntries_.begin());
47  copy(HOHXEntries.begin(),HOHXEntries.end(),HOHXEntries_.begin());
48  copy(CALIBEntries.begin(),CALIBEntries.end(),CALIBEntries_.begin());
49  copy(ZDCEntries.begin(),ZDCEntries.end(),ZDCEntries_.begin());
50  copy(HTEntries.begin(),HTEntries.end(),HTEntries_.begin());
51  copy(LinearIndex2Entry.begin(),LinearIndex2Entry.end(),LinearIndex2Entry_.begin());
52  copy(HbHash2Entry.begin(),HbHash2Entry.end(),HbHash2Entry_.begin());
53  copy(HeHash2Entry.begin(),HeHash2Entry.end(),HeHash2Entry_.begin());
54  copy(HfHash2Entry.begin(),HfHash2Entry.end(),HfHash2Entry_.begin());
55  copy(HtHash2Entry.begin(),HtHash2Entry.end(),HtHash2Entry_.begin());
56  copy(HoHash2Entry.begin(),HoHash2Entry.end(),HoHash2Entry_.begin());
57  copy(HxCalibHash2Entry.begin(),HxCalibHash2Entry.end(),HxCalibHash2Entry_.begin());
58  copy(ZdcHash2Entry.begin(),ZdcHash2Entry.end(),ZdcHash2Entry_.begin());
59 }
60 
62 {
63 }
64 
65 uint32_t HcalLogicalMap::makeEntryNumber(bool isvalid, int vectorid, int entry)
66 {
67  uint32_t answer=0;
68  answer|=isvalid;
69  answer|=(vectorid&0x3)<<1;
70  answer|=entry<<3;
71  return answer;
72 }
73 
74 void HcalLogicalMap::printMap( unsigned int mapIOV ){
75  using namespace std;
76 
77  static FILE* HBEFmap;
78  static FILE* HOXmap;
79  static FILE* CALIBmap;
80  static FILE* ZDCmap;
81  static FILE* HTmap;
82 
83  char tempbuff[30];
84 
85  stringstream mystream;
86  string HBEFmapstr, HOXmapstr, CALIBmapstr, ZDCmapstr, HTmapstr;
87  string date;
88  string IOVlabel;
89 
90  time_t myTime;
91  time(&myTime);
92 
93  strftime(tempbuff,128,"%d.%b.%Y",localtime(&myTime) );
94  mystream<<tempbuff;
95  date= mystream.str();
96 
97  mystream.str("");
98  if (mapIOV==1) IOVlabel = "A";
99  else if (mapIOV==2) IOVlabel = "B";
100  else if (mapIOV==3) IOVlabel = "C";
101  else if (mapIOV==4) IOVlabel = "D";
102  else IOVlabel = "E";
103 
104  HBEFmapstr = "./HCALmapHBEF_"+IOVlabel+".txt";
105  HOXmapstr = "./HCALmapHO_"+IOVlabel+".txt";
106  CALIBmapstr = "./HCALmapCALIB_"+IOVlabel+".txt";
107  ZDCmapstr = "./ZDCmap_"+IOVlabel+".txt";
108  HTmapstr = "./HCALmapHT_"+IOVlabel+".txt";
109 
110 // HBEFmapstr = "./HCALmapHBEF_"+date+".txt";
111 // HOXmapstr = "./HCALmapHO_"+date+"_"+IOVlabel+".txt";
112 // CALIBmapstr = "./HCALmapCALIB_"+date+".txt";
113 // ZDCmapstr = "./ZDCmap_"+date+".txt";
114 // HTmapstr = "./HCALmapHT_"+date+".txt";
115 
116  HBEFmap = fopen(HBEFmapstr.c_str(),"w");
117  HOXmap = fopen(HOXmapstr.c_str(),"w");
118  CALIBmap = fopen(CALIBmapstr.c_str(),"w");
119  ZDCmap = fopen(ZDCmapstr.c_str(),"w");
120  HTmap = fopen(HTmapstr.c_str(),"w");
121  /**********************/
122 
123  if(HBEFmap) {
124  fprintf(HBEFmap,"## file created %s ##\n",date.c_str());
125  printHBEFMap(HBEFmap);
126  }
127  else cout <<HBEFmapstr<<" not found!"<<endl;
128 
129  if(HOXmap) {
130  fprintf(HOXmap,"## file created %s ##\n",date.c_str());
131  printHOXMap(HOXmap);
132  }
133  else cout <<HOXmapstr<<" not found!"<<endl;
134 
135  if(CALIBmap) {
136  fprintf(CALIBmap,"## file created %s ##\n",date.c_str());
137  printCalibMap(CALIBmap);
138  }
139  else cout <<CALIBmapstr<<" not found!"<<endl;
140 
141  if(ZDCmap) {
142  fprintf(ZDCmap,"## file created %s ##\n",date.c_str());
143  printZDCMap(ZDCmap);
144  }
145  else cout <<ZDCmapstr<<" not found!"<<endl;
146 
147  if(HTmap) {
148  fprintf(HTmap,"## file created %s ##\n",date.c_str());
149  printHTMap(HTmap);
150  }
151  else cout <<HTmapstr<<" not found!"<<endl;
152 
153 }
154 
155 /**************/
157 {
158  HcalElectronicsMap* theemap = new HcalElectronicsMap();
159 
160  for (std::vector<HBHEHFLogicalMapEntry>::iterator it = HBHEHFEntries_.begin(); it!=HBHEHFEntries_.end(); ++it) {
161  theemap->mapEId2chId( it->getHcalElectronicsId(), it->getDetId() );}
162  for (std::vector<HOHXLogicalMapEntry>::iterator it = HOHXEntries_.begin(); it!=HOHXEntries_.end(); ++it) {
163  theemap->mapEId2chId( it->getHcalElectronicsId(), it->getDetId() );}
164  for (std::vector<CALIBLogicalMapEntry>::iterator it = CALIBEntries_.begin(); it!=CALIBEntries_.end(); ++it) {
165  theemap->mapEId2chId( it->getHcalElectronicsId(), it->getDetId() );}
166  for (std::vector<ZDCLogicalMapEntry>::iterator it = ZDCEntries_.begin(); it!=ZDCEntries_.end(); ++it) {
167  theemap->mapEId2chId( it->getHcalElectronicsId(), it->getDetId() );}
168  for (std::vector<HTLogicalMapEntry>::iterator it = HTEntries_.begin(); it!=HTEntries_.end(); ++it) {
169  theemap->mapEId2tId( it->getHcalTrigElectronicsId(), it->getDetId() );}
170  theemap->sort();
171  return *theemap;
172 }
173 /**************/
174 
175 void HcalLogicalMap::printHBEFMap(FILE* hbefmapfile){
176  int titlecounter = 0;
177 
178  for (std::vector<HBHEHFLogicalMapEntry>::iterator it = HBHEHFEntries_.begin(); it!=HBHEHFEntries_.end(); ++it) {
179  titlecounter = titlecounter % 21;
180  if (titlecounter == 0){
181  fprintf(hbefmapfile,"# side eta phi dphi depth det rbx wedge rm pixel qie adc");
182  fprintf(hbefmapfile," rm_fi fi_ch crate htr fpga htr_fi dcc_sl spigo dcc slb slbin slbin2");
183  fprintf(hbefmapfile," slnam rctcra rctcar rctcon rctnam fedid\n");
184  }
185  titlecounter++;
186  fprintf(hbefmapfile,"%s",it->printLMapLine());
187  }
188 }
189 
190 void HcalLogicalMap::printHOXMap(FILE* hoxmapfile){
191 
192  int titlecounter = 0;
193 
194  for (std::vector<HOHXLogicalMapEntry>::iterator it = HOHXEntries_.begin(); it!=HOHXEntries_.end(); ++it) {
195  titlecounter = titlecounter % 21;
196  if (titlecounter == 0){
197  fprintf(hoxmapfile,"# side eta phi dphi depth det rbx sector rm pixel qie adc");
198  fprintf(hoxmapfile," rm_fi fi_ch let_code crate htr fpga htr_fi dcc_sl spigo dcc fedid\n");
199  }
200  titlecounter++;
201  fprintf(hoxmapfile,"%s",it->printLMapLine());
202  }
203 }
204 
205 void HcalLogicalMap::printCalibMap(FILE* calibmapfile){
206 
207  int titlecounter = 0;
208 
209  for (std::vector<CALIBLogicalMapEntry>::iterator it = CALIBEntries_.begin(); it!=CALIBEntries_.end(); ++it) {
210  titlecounter = titlecounter % 21;
211  if (titlecounter == 0){
212  fprintf(calibmapfile,"# side eta phi dphi det rbx sector rm rm_fi ");
213  fprintf(calibmapfile," fi_ch crate htr fpga htr_fi dcc_sl spigo dcc fedid ch_type name\n");
214  }
215  titlecounter++;
216  fprintf(calibmapfile,"%s",it->printLMapLine());
217  }
218 }
219 
220 void HcalLogicalMap::printZDCMap(FILE* zdcmapfile){
221 
222  int titlecounter = 0;
223 
224  for (std::vector<ZDCLogicalMapEntry>::iterator it = ZDCEntries_.begin(); it!=ZDCEntries_.end(); ++it) {
225  titlecounter = titlecounter % 21;
226  if (titlecounter == 0){
227  fprintf(zdcmapfile,"# side x y dx depth det det_ch cable rm qie ");
228  fprintf(zdcmapfile," adc rm_fi fi_ch crate htr fpga htr_fi dcc_sl spigo dcc fedid\n");
229  }
230  titlecounter++;
231  fprintf(zdcmapfile,"%s",it->printLMapLine());
232  }
233 }
234 
235 void HcalLogicalMap::printHTMap(FILE* htmapfile){
236 
237  int titlecounter = 0;
238 
239  for (std::vector<HTLogicalMapEntry>::iterator it = HTEntries_.begin(); it!=HTEntries_.end(); ++it) {
240  titlecounter = titlecounter % 21;
241  if (titlecounter == 0){
242  fprintf(htmapfile,"# side eta phi dphi depth det wedge crate");
243  fprintf(htmapfile," htr fpga dcc_sl spigo dcc slb slbin slbin2 nDat ");
244  fprintf(htmapfile," slnam rctcra rctcar rctcon rctnam fedid\n");
245  }
246  titlecounter++;
247  fprintf(htmapfile,"%s",it->printLMapLine());
248  }
249 }
250 
251 
253 {
254  const uint32_t entry=LinearIndex2Entry_.at(eid.linearIndex());
255  if ( !(entry&0x1) ) return DetId(0);
256  if ( ((entry>>1)&0x3)==0) return HBHEHFEntries_.at(entry>>3).getDetId();
257  if ( ((entry>>1)&0x3)==1) return HOHXEntries_.at(entry>>3).getDetId();
258  if ( ((entry>>1)&0x3)==2) return CALIBEntries_.at(entry>>3).getDetId();
259  if ( ((entry>>1)&0x3)==3) return ZDCEntries_.at(entry>>3).getDetId();
260  return DetId(0);
261 }
262 
264 {
265  const HcalGenericDetId hgdi(did);
266 
269  const int hashedId=topo_->detId2denseIdHB(did);
270  const uint32_t entry=HbHash2Entry_.at(hashedId)-1;
271  return HBHEHFEntries_.at(entry).getHcalFrontEndId();
272  }
273  else if (hgsd==HcalGenericDetId::HcalGenEndcap) {
274  const int hashedId=topo_->detId2denseIdHE(did);
275  const uint32_t entry=HeHash2Entry_.at(hashedId)-1;
276  return HBHEHFEntries_.at(entry).getHcalFrontEndId();
277  }
278  else if (hgsd==HcalGenericDetId::HcalGenForward) {
279  const int hashedId=topo_->detId2denseIdHF(did);
280  const uint32_t entry=HfHash2Entry_.at(hashedId)-1;
281  return HBHEHFEntries_.at(entry).getHcalFrontEndId();
282  }
283  else if (hgsd==HcalGenericDetId::HcalGenOuter) {
284  const int hashedId=topo_->detId2denseIdHO(did);
285  const uint32_t entry=HoHash2Entry_.at(hashedId)-1;
286  return HOHXEntries_.at(entry).getHcalFrontEndId();
287  }
288  else if (hgsd==HcalGenericDetId::HcalGenCalibration) {
289  HcalCalibDetId hcid(did);
291  const int hashedId=topo_->detId2denseIdCALIB(did);
292  const uint32_t entry=HxCalibHash2Entry_.at(hashedId)-1;
293  return HOHXEntries_.at(entry).getHcalFrontEndId();
294  }
295  else if (hcid.calibFlavor()==HcalCalibDetId::CalibrationBox) {
296  const int hashedId=topo_->detId2denseIdCALIB(did);
297  const uint32_t entry=HxCalibHash2Entry_.at(hashedId)-1;
298  return CALIBEntries_.at(entry).getHcalFrontEndId();
299  }
300  }
301  return HcalFrontEndId(0);
302 }
303 
305  int HBHEHF_EID_pass=0;
306  int HBHEHF_EID_fail=0;
307  int HOHX_EID_pass=0;
308  int HOHX_EID_fail=0;
309  int CALIB_EID_pass=0;
310  int CALIB_EID_fail=0;
311  int ZDC_EID_pass=0;
312  int ZDC_EID_fail=0;
313 
314  int HBHEHF_FEID_pass=0;
315  int HBHEHF_FEID_fail=0;
316  int HOHX_FEID_pass=0;
317  int HOHX_FEID_fail=0;
318  int CALIB_FEID_pass=0;
319  int CALIB_FEID_fail=0;
320 
321  cout << "\nRunning the id function checker..." << endl;
322 
323  for (std::vector<HBHEHFLogicalMapEntry>::iterator it = HBHEHFEntries_.begin(); it!=HBHEHFEntries_.end(); ++it) {
324  const HcalElectronicsId heid=it->getHcalElectronicsId();
325  const DetId did0=it->getDetId();
326  const DetId did1=getDetId(heid);
327  if (did0==did1) HBHEHF_EID_pass++;
328  else HBHEHF_EID_fail++;
329 
330  const HcalFrontEndId hfeid0=it->getHcalFrontEndId();
331  const HcalFrontEndId hfeid1=getHcalFrontEndId(did0);
332  if (hfeid0==hfeid1) HBHEHF_FEID_pass++;
333  else HBHEHF_FEID_fail++;
334  }
335  for (std::vector<HOHXLogicalMapEntry>::iterator it = HOHXEntries_.begin(); it!=HOHXEntries_.end(); ++it) {
336  const HcalElectronicsId heid=it->getHcalElectronicsId();
337  const DetId did0=it->getDetId();
338  const DetId did1=getDetId(heid);
339  if (did0==did1) HOHX_EID_pass++;
340  else HOHX_EID_fail++;
341 
342  const HcalFrontEndId hfeid0=it->getHcalFrontEndId();
343  const HcalFrontEndId hfeid1=getHcalFrontEndId(did0);
344  if (hfeid0==hfeid1) HOHX_FEID_pass++;
345  else HOHX_FEID_fail++;
346  }
347  for (std::vector<CALIBLogicalMapEntry>::iterator it = CALIBEntries_.begin(); it!=CALIBEntries_.end(); ++it) {
348  const HcalElectronicsId heid=it->getHcalElectronicsId();
349  const DetId did0=it->getDetId();
350  const DetId did1=getDetId(heid);
351  if (did0==did1) CALIB_EID_pass++;
352  else CALIB_EID_fail++;
353 
354  const HcalFrontEndId hfeid0=it->getHcalFrontEndId();
355  const HcalFrontEndId hfeid1=getHcalFrontEndId(did0);
356  if (hfeid0==hfeid1) CALIB_FEID_pass++;
357  else CALIB_FEID_fail++;
358  }
359  for (std::vector<ZDCLogicalMapEntry>::iterator it = ZDCEntries_.begin(); it!=ZDCEntries_.end(); ++it) {
360  const HcalElectronicsId heid=it->getHcalElectronicsId();
361  const DetId did0=it->getDetId();
362  const DetId did1=getDetId(heid);
363  if (did0==did1) ZDC_EID_pass++;
364  else ZDC_EID_fail++;
365  }
366 
367  cout << "Checking detIds from electronics ids..." << endl;
368  cout << "HBHEHF EID (pass,fail) = (" << HBHEHF_EID_pass << "," << HBHEHF_EID_fail << ")" << endl;
369  cout << "HOHX EID (pass,fail) = (" << HOHX_EID_pass << "," << HOHX_EID_fail << ")" << endl;
370  cout << "CALIB EID (pass,fail) = (" << CALIB_EID_pass << "," << CALIB_EID_fail << ")" << endl;
371  cout << "ZDC EID (pass,fail) = (" << ZDC_EID_pass << "," << ZDC_EID_fail << ")" << endl;
372  cout << endl;
373  cout << "Checking frontEndIds from electronics ids..." << endl;
374  cout << "HBHEHF FEID (pass,fail) = (" << HBHEHF_FEID_pass << "," << HBHEHF_FEID_fail << ")" << endl;
375  cout << "HOHX FEID (pass,fail) = (" << HOHX_FEID_pass << "," << HOHX_FEID_fail << ")" << endl;
376  cout << "CALIB FEID (pass,fail) = (" << CALIB_FEID_pass << "," << CALIB_FEID_fail << ")" << endl;
377 }
378 
379 
381  std::vector<int> HB_Hashes_; // index 0
382  std::vector<int> HE_Hashes_; // index 1
383  std::vector<int> HF_Hashes_; // index 2
384  std::vector<int> HO_Hashes_; // index 3
385  std::vector<int> CALIBHX_Hashes_;// index 4
386  std::vector<int> ZDC_Hashes_; // index 5
387  std::vector<int> HT_Hashes_; // index 6
388 
389  int numfails[7] = {0,0,0,0,0,0,0};
390  int numpass[7] = {0,0,0,0,0,0,0};
391  int numnotdense[7] = {0,0,0,0,0,0,0};
392 
393  cout << "\nRunning the hash checker for detIds..." << endl;
394  for (std::vector<HBHEHFLogicalMapEntry>::iterator it = HBHEHFEntries_.begin(); it!=HBHEHFEntries_.end(); ++it) {
395  if (it->getDetId().subdetId()==HcalBarrel) {
396  HB_Hashes_.push_back(topo_->detId2denseIdHB(it->getDetId()));
397  }
398  else if (it->getDetId().subdetId()==HcalEndcap) {
399  HE_Hashes_.push_back(topo_->detId2denseIdHE(it->getDetId()));
400  }
401  else if (it->getDetId().subdetId()==HcalForward) {
402  HF_Hashes_.push_back(topo_->detId2denseIdHF(it->getDetId()));
403  }
404  }
405  for (std::vector<HOHXLogicalMapEntry>::iterator it = HOHXEntries_.begin(); it!=HOHXEntries_.end(); ++it) {
406  if (HcalGenericDetId(it->getDetId().rawId()).isHcalCalibDetId() ) {
407  CALIBHX_Hashes_.push_back(topo_->detId2denseIdCALIB(it->getDetId()));
408  }
409  else {
410  HO_Hashes_.push_back(topo_->detId2denseIdHO(it->getDetId()));
411  }
412  }
413  for (std::vector<CALIBLogicalMapEntry>::iterator it = CALIBEntries_.begin(); it!=CALIBEntries_.end(); ++it) {
414  CALIBHX_Hashes_.push_back(topo_->detId2denseIdCALIB(it->getDetId()));
415  }
416  for (std::vector<ZDCLogicalMapEntry>::iterator it = ZDCEntries_.begin(); it!=ZDCEntries_.end(); ++it) {
417  ZDC_Hashes_.push_back(HcalZDCDetId(it->getDetId()).denseIndex());
418  }
419  for (std::vector<HTLogicalMapEntry>::iterator it = HTEntries_.begin(); it!=HTEntries_.end(); ++it) {
420  HT_Hashes_.push_back(topo_->detId2denseIdHT(it->getDetId()));
421  }
422 
423  sort(HB_Hashes_.begin() , HB_Hashes_.end());
424  sort(HE_Hashes_.begin() , HE_Hashes_.end());
425  sort(HF_Hashes_.begin() , HF_Hashes_.end());
426  sort(HO_Hashes_.begin() , HO_Hashes_.end());
427  sort(CALIBHX_Hashes_.begin(), CALIBHX_Hashes_.end());
428  sort(ZDC_Hashes_.begin() , ZDC_Hashes_.end());
429  sort(HT_Hashes_.begin() , HT_Hashes_.end());
430 
431  for(unsigned int i = 0; i<HB_Hashes_.size()-1; i++) {
432  int diff = HB_Hashes_.at(i+1)-HB_Hashes_.at(i);
433  if (diff==0) numfails[0]++;
434  else if (diff>1) numnotdense[0]++;
435  else numpass[0]++;
436  }
437  for(unsigned int i = 0; i<HE_Hashes_.size()-1; i++) {
438  int diff = HE_Hashes_.at(i+1)-HE_Hashes_.at(i);
439  if (diff==0) numfails[1]++;
440  else if (diff>1) numnotdense[1]++;
441  else numpass[1]++;
442  }
443  for(unsigned int i = 0; i<HF_Hashes_.size()-1; i++) {
444  int diff = HF_Hashes_.at(i+1)-HF_Hashes_.at(i);
445  if (diff==0) numfails[2]++;
446  else if (diff>1) numnotdense[2]++;
447  else numpass[2]++;
448  }
449  for(unsigned int i = 0; i<HO_Hashes_.size()-1; i++) {
450  int diff = HO_Hashes_.at(i+1)-HO_Hashes_.at(i);
451  if (diff==0) numfails[3]++;
452  else if (diff>1) numnotdense[3]++;
453  else numpass[3]++;
454  }
455  for(unsigned int i = 0; i<CALIBHX_Hashes_.size()-1; i++) {
456  int diff = CALIBHX_Hashes_.at(i+1)-CALIBHX_Hashes_.at(i);
457  if (diff==0) numfails[4]++;
458  else if (diff>1) numnotdense[4]++;
459  else numpass[4]++;
460  }
461  for(unsigned int i = 0; i<ZDC_Hashes_.size()-1; i++) {
462  int diff = ZDC_Hashes_.at(i+1)-ZDC_Hashes_.at(i);
463  if (diff==0) numfails[5]++;
464  else if (diff>1) numnotdense[5]++;
465  else numpass[5]++;
466  }
467  for(unsigned int i = 0; i<HT_Hashes_.size()-1; i++) {
468  int diff = HT_Hashes_.at(i+1)-HT_Hashes_.at(i);
469  if (diff==0) numfails[6]++;
470  else if (diff>1) numnotdense[6]++;
471  else numpass[6]++;
472  }
473  cout << "HB HashIds (pass, collisions, non-dense) = (" << numpass[0] << "," << numfails[0] << "," << numnotdense[0] << ")" << endl;
474  cout << "HE HashIds (pass, collisions, non-dense) = (" << numpass[1] << "," << numfails[1] << "," << numnotdense[1] << ")" << endl;
475  cout << "HF HashIds (pass, collisions, non-dense) = (" << numpass[2] << "," << numfails[2] << "," << numnotdense[2] << ")" << endl;
476  cout << "HO HashIds (pass, collisions, non-dense) = (" << numpass[3] << "," << numfails[3] << "," << numnotdense[3] << ")" << endl;
477  cout << "CALIB/HX HashIds (pass, collisions, non-dense) = (" << numpass[4] << "," << numfails[4] << "," << numnotdense[4] << ")" << endl;
478  cout << "ZDC HashIds (pass, collisions, non-dense) = (" << numpass[5] << "," << numfails[5] << "," << numnotdense[5] << ")" << endl;
479  cout << "HT HashIds (pass, collisions, non-dense) = (" << numpass[6] << "," << numfails[6] << "," << numnotdense[6] << ")" << endl;
480 }
481 
483  std::vector<int> Electronics_Hashes_;
484 
485  int numfails = 0;
486  int numpass = 0;
487  int numnotdense = 0;
488 
489  cout << "\nRunning the hash checker for electronics Ids..." << endl;
490  for (std::vector<HBHEHFLogicalMapEntry>::iterator it = HBHEHFEntries_.begin(); it!=HBHEHFEntries_.end(); ++it) {
491  Electronics_Hashes_.push_back((it->getHcalElectronicsId()).linearIndex());
492  }
493  for (std::vector<ZDCLogicalMapEntry>::iterator it = ZDCEntries_.begin(); it!=ZDCEntries_.end(); ++it) {
494  Electronics_Hashes_.push_back((it->getHcalElectronicsId()).linearIndex());
495  }
496  for (std::vector<CALIBLogicalMapEntry>::iterator it = CALIBEntries_.begin(); it!=CALIBEntries_.end(); ++it) {
497  Electronics_Hashes_.push_back((it->getHcalElectronicsId()).linearIndex());
498  }
499  for (std::vector<HOHXLogicalMapEntry>::iterator it = HOHXEntries_.begin(); it!=HOHXEntries_.end(); ++it) {
500  Electronics_Hashes_.push_back((it->getHcalElectronicsId()).linearIndex());
501  }
502  for (std::vector<HTLogicalMapEntry>::iterator it = HTEntries_.begin(); it!=HTEntries_.end(); ++it) {
503  Electronics_Hashes_.push_back((it->getHcalTrigElectronicsId()).linearIndex());
504  }
505 
506  sort(Electronics_Hashes_.begin() , Electronics_Hashes_.end());
507 
508  for(unsigned int i = 0; i<Electronics_Hashes_.size()-1; i++) {
509  int diff = Electronics_Hashes_.at(i+1)-Electronics_Hashes_.at(i);
510  if (diff==0) numfails++;
511  else if (diff>1) numnotdense++;
512  else numpass++;
513  }
514  cout << "Electronics Id linearIndex (pass, collisions, nondense) = (" << numpass << "," << numfails << "," << numnotdense << ")" << endl;
515 }
516 
CalibDetType calibFlavor() const
get the flavor of this calibration detid
static uint32_t makeEntryNumber(bool, int, int)
void printCalibMap(FILE *calibmapfile)
std::vector< uint32_t > HeHash2Entry_
void printHTMap(FILE *htmapfile)
unsigned int detId2denseIdHT(const DetId &id) const
return a linear packed id from HT
unsigned int detId2denseIdHF(const DetId &id) const
return a linear packed id from HF
std::vector< HBHEHFLogicalMapEntry > HBHEHFEntries_
void printHOXMap(FILE *hoxmapfile)
void printZDCMap(FILE *zdcmapfile)
unsigned int detId2denseIdHB(const DetId &id) const
return a linear packed id from HB
std::vector< uint32_t > HbHash2Entry_
bool mapEId2tId(HcalElectronicsId fElectronicsId, HcalTrigTowerDetId fTriggerId)
std::vector< uint32_t > LinearIndex2Entry_
std::vector< uint32_t > HoHash2Entry_
std::vector< uint32_t > ZdcHash2Entry_
const HcalTopology * topo_
HcalElectronicsMap generateHcalElectronicsMap()
void checkElectronicsHashIds()
std::vector< HTLogicalMapEntry > HTEntries_
void printMap(unsigned int mapIOV)
bool mapEId2chId(HcalElectronicsId fElectronicsId, DetId fId)
const HcalFrontEndId getHcalFrontEndId(const DetId &)
Definition: DetId.h:18
std::vector< HOHXLogicalMapEntry > HOHXEntries_
void printHBEFMap(FILE *hbefmapfile)
std::vector< uint32_t > HtHash2Entry_
std::vector< CALIBLogicalMapEntry > CALIBEntries_
const DetId getDetId(const HcalElectronicsId &)
std::vector< ZDCLogicalMapEntry > ZDCEntries_
std::vector< uint32_t > HxCalibHash2Entry_
int linearIndex() const
get a fast, compact, unique index for linear lookups
unsigned int detId2denseIdHO(const DetId &id) const
return a linear packed id from HO
unsigned int detId2denseIdHE(const DetId &id) const
return a linear packed id from HE
HcalGenericSubdetector genericSubdet() const
std::vector< uint32_t > HfHash2Entry_
unsigned int detId2denseIdCALIB(const DetId &id) const
return a linear packed id from CALIB
Readout chain identification for Hcal.
answer
Definition: submit.py:44
HcalLogicalMap(const HcalTopology *, std::vector< HBHEHFLogicalMapEntry > &, std::vector< HOHXLogicalMapEntry > &, std::vector< CALIBLogicalMapEntry > &, std::vector< ZDCLogicalMapEntry > &, std::vector< HTLogicalMapEntry > &, std::vector< uint32_t > &, std::vector< uint32_t > &, std::vector< uint32_t > &, std::vector< uint32_t > &, std::vector< uint32_t > &, std::vector< uint32_t > &, std::vector< uint32_t > &, std::vector< uint32_t > &)