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PixelCalibConfiguration.cc
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1 //
2 // This class is a first attempt at writing a configuration
3 // object that will perform a calibration loop.
4 //
5 //
6 //
7 
11 //#include "PixelUtilities/PixelTestStandUtilities/include/PixelTimer.h"
12 #include <fstream>
13 #include <iostream>
14 #include <ios>
15 #include <cassert>
16 #include <cstdlib>
17 #include <algorithm>
18 
19 using namespace pos;
20 using namespace std;
21 
22 #define BPIX
23 
24 PixelCalibConfiguration::PixelCalibConfiguration(std::vector<std::vector<std::string> >& tableMat)
25  : PixelCalibBase(), PixelConfigBase("", "", "") {
26  std::string mthn = "[PixelCalibConfiguration::PixelCalibConfiguration()]\t ";
27  std::map<std::string, int> colM;
28  std::vector<std::string> colNames;
43  colNames.push_back("CONFIG_KEY");
44  colNames.push_back("KEY_TYPE");
45  colNames.push_back("KEY_ALIAS");
46  colNames.push_back("VERSION");
47  colNames.push_back("KIND_OF_COND");
48  colNames.push_back("CALIB_TYPE");
49  colNames.push_back("CALIB_OBJ_DATA_FILE");
50  colNames.push_back("CALIB_OBJ_DATA_CLOB");
51 
52  for (unsigned int c = 0; c < tableMat[0].size(); c++) {
53  for (unsigned int n = 0; n < colNames.size(); n++) {
54  if (tableMat[0][c] == colNames[n]) {
55  colM[colNames[n]] = c;
56  break;
57  }
58  }
59  } //end for
60  for (unsigned int n = 0; n < colNames.size(); n++) {
61  if (colM.find(colNames[n]) == colM.end()) {
62  std::cerr << mthn << "Couldn't find in the database the column with name " << colNames[n] << std::endl;
63  assert(0);
64  }
65  }
66 
67  _bufferData = true;
68 
69  std::istringstream in;
70  in.str(tableMat[1][colM["CALIB_OBJ_DATA_CLOB"]]);
71 
73 
74  in >> tmp;
75 
76  if (tmp == "Mode:") {
77  in >> mode_;
78  // std::cout << __LINE__ << "]\t" << mthn << "mode=" << mode_ << std::endl;
79  in >> tmp;
80  } else {
81  mode_ = "FEDChannelOffsetPixel";
82  std::cout << __LINE__ << "]\t" << mthn << "mode not set, is this an old file? " << std::endl;
83  assert(0);
84  }
85 
86  singleROC_ = false;
87 
88  if (tmp == "SingleROC") {
89  singleROC_ = true;
90  in >> tmp;
91  }
92 
93  // Read in parameters, if any.
94  if (tmp == "Parameters:") {
95  in >> tmp;
96  while (tmp != "Rows:") {
97  assert(!in.eof());
98  std::string paramName = tmp;
99  in >> tmp; // tmp contains the parameter value
100  parameters_[paramName] = tmp;
101  in >> tmp; // tmp contains the next parameter's name, or "Rows:"
102  }
103  }
104 
105  assert(tmp == "Rows:");
106 
107  in >> tmp;
108 
109  std::vector<unsigned int> rows;
110  while (tmp != "Cols:") {
111  if (tmp == "|") {
112  rows_.push_back(rows);
113  rows.clear();
114  } else {
115  if (tmp != "*") {
116  rows.push_back(atoi(tmp.c_str()));
117  }
118  }
119  in >> tmp;
120  }
121  rows_.push_back(rows);
122  rows.clear();
123 
124  in >> tmp;
125 
126  std::vector<unsigned int> cols;
127  while ((tmp != "VcalLow:") && (tmp != "VcalHigh:") && (tmp != "Vcal:") && (tmp != "VcalHigh") && (tmp != "VcalLow")) {
128  if (tmp == "|") {
129  cols_.push_back(cols);
130  cols.clear();
131  } else {
132  if (tmp != "*") {
133  cols.push_back(atoi(tmp.c_str()));
134  }
135  }
136  in >> tmp;
137  }
138  cols_.push_back(cols);
139  cols.clear();
140 
141  highVCalRange_ = true;
142 
143  if (tmp == "VcalLow") {
144  highVCalRange_ = false;
145  in >> tmp;
146  }
147 
148  if (tmp == "VcalHigh") {
149  highVCalRange_ = true;
150  in >> tmp;
151  }
152 
153  if (tmp == "VcalLow:") {
154  highVCalRange_ = false;
155  }
156 
157  if ((tmp == "VcalLow:") || (tmp == "VcalHigh:") || (tmp == "Vcal:")) {
158  unsigned int first, last, step;
159  in >> first >> last >> step;
160  unsigned int index = 1;
161  if (!dacs_.empty()) {
162  index = dacs_.back().index() * dacs_.back().getNPoints();
163  }
164  in >> tmp;
165  bool mix = false;
166  if (tmp == "mix") {
167  mix = true;
168  in >> tmp;
169  }
171  dacs_.push_back(dacrange);
172  } else {
173  //in >> tmp;
174  while (tmp == "Scan:" || tmp == "ScanValues:") {
175  if (tmp == "ScanValues:") {
176  std::string dacname;
177  in >> dacname;
178  vector<unsigned int> values;
179  int val;
180  in >> val;
181  while (val != -1) {
182  values.push_back(val);
183  in >> val;
184  }
185  unsigned int index = 1;
186  if (!dacs_.empty()) {
187  index = dacs_.back().index() * dacs_.back().getNPoints();
188  }
189  PixelDACScanRange dacrange(dacname, values, index, false);
190  dacs_.push_back(dacrange);
191  in >> tmp;
192  } else {
193  std::string dacname;
194  in >> dacname;
195  unsigned int first, last, step;
196  in >> first >> last >> step;
197  unsigned int index = 1;
198  if (!dacs_.empty()) {
199  index = dacs_.back().index() * dacs_.back().getNPoints();
200  }
201  in >> tmp;
202  bool mix = false;
203  if (tmp == "mix") {
204  mix = true;
205  in >> tmp;
206  }
207  PixelDACScanRange dacrange(dacname, first, last, step, index, mix);
208  dacs_.push_back(dacrange);
209  }
210  }
211 
212  while ((tmp == "Set:") || (tmp == "SetRelative:")) {
213  string name;
214  in >> name;
215  int val;
216  in >> val;
217  unsigned int index = 1;
218  if (!dacs_.empty())
219  index = dacs_.back().index() * dacs_.back().getNPoints();
220  PixelDACScanRange dacrange(name, val, val, 1, index, false);
221  if (tmp == "SetRelative:") {
222  dacrange.setRelative();
223  }
224  dacs_.push_back(dacrange);
225  in >> tmp;
226  }
227  }
228 
229  assert(tmp == "Repeat:");
230 
231  in >> ntrigger_;
232 
233  in >> tmp;
234 
235  usesROCList_ = false;
236  bool buildROCListNow = false;
237  if (tmp == "Rocs:") {
238  buildROCListNow = true;
239  usesROCList_ = true;
240  } else {
241  assert(tmp == "ToCalibrate:");
242  buildROCListNow = false;
243  }
244 
245  while (!in.eof()) {
246  tmp = "";
247  in >> tmp;
248 
249  // added by F.Blekman to be able to deal with POS245 style calib.dat files in CMSSW
250  // these files use the syntax:
251  // Rocs:
252  // all
253 
254  if (tmp == "all" || tmp == "+" || tmp == "-") {
255  buildROCListNow = false;
256  }
257  // end of addition by F.B.
258 
259  if (tmp.empty())
260  continue;
261  rocListInstructions_.push_back(tmp);
262  }
263 
264  rocAndModuleListsBuilt_ = false;
265  if (buildROCListNow) {
266  std::set<PixelROCName> rocSet;
267  for (std::vector<std::string>::iterator rocListInstructions_itr = rocListInstructions_.begin();
268  rocListInstructions_itr != rocListInstructions_.end();
269  ++rocListInstructions_itr) {
270  PixelROCName rocname(*rocListInstructions_itr);
271  rocSet.insert(rocname);
272  }
274  }
275 
277 
278  // Added by Dario as a temporary patch for Debbie (this will disappear in the future)
279  calibFileContent_ = in.str();
280  // End of temporary patch
281 
282  return;
283 }
284 
286  std::string mthn = "[PixelCalibConfiguration::PixelCalibConfiguration()]\t ";
287 
288  _bufferData = true;
289 
290  std::ifstream in(filename.c_str());
291 
292  if (!in.good()) {
293  std::cout << __LINE__ << "]\t" << mthn << "Could not open:" << filename << std::endl;
294  assert(0);
295  } else {
296  std::cout << __LINE__ << "]\t" << mthn << "Opened:" << filename << std::endl;
297  }
298 
300 
301  in >> tmp;
302 
303  if (tmp == "Mode:") {
304  in >> mode_;
305  std::cout << __LINE__ << "]\t" << mthn << "PixelCalibConfiguration mode=" << mode_ << std::endl;
306  in >> tmp;
307  } else {
308  mode_ = "FEDChannelOffsetPixel";
309  std::cout << __LINE__ << "]\t" << mthn << "PixelCalibConfiguration mode not set, is this an old file? " << __LINE__
310  << "]\t" << std::endl;
311  assert(0);
312  }
313 
314  singleROC_ = false;
315 
316  if (tmp == "SingleROC") {
317  singleROC_ = true;
318  in >> tmp;
319  }
320 
321  // Read in parameters, if any.
322  if (tmp == "Parameters:") {
323  in >> tmp;
324  while (tmp != "Rows:") {
325  assert(!in.eof());
326  std::string paramName = tmp;
327  in >> tmp; // tmp contains the parameter value
328  parameters_[paramName] = tmp;
329  in >> tmp; // tmp contains the next parameter's name, or "Rows:"
330  }
331  }
332 
333  assert(tmp == "Rows:");
334 
335  in >> tmp;
336 
337  std::vector<unsigned int> rows;
338  while (tmp != "Cols:") {
339  if (tmp == "|") {
340  rows_.push_back(rows);
341  rows.clear();
342  } else {
343  if (tmp != "*") {
344  rows.push_back(atoi(tmp.c_str()));
345  }
346  }
347  in >> tmp;
348  }
349  rows_.push_back(rows);
350  rows.clear();
351 
352  in >> tmp;
353 
354  std::vector<unsigned int> cols;
355  while ((tmp != "VcalLow:") && (tmp != "VcalHigh:") && (tmp != "Vcal:") && (tmp != "VcalHigh") && (tmp != "VcalLow")) {
356  if (tmp == "|") {
357  cols_.push_back(cols);
358  cols.clear();
359  } else {
360  if (tmp != "*") {
361  cols.push_back(atoi(tmp.c_str()));
362  }
363  }
364  in >> tmp;
365  }
366  cols_.push_back(cols);
367  cols.clear();
368 
369  highVCalRange_ = true;
370 
371  if (tmp == "VcalLow") {
372  highVCalRange_ = false;
373  in >> tmp;
374  }
375 
376  if (tmp == "VcalHigh") {
377  highVCalRange_ = true;
378  in >> tmp;
379  }
380 
381  if (tmp == "VcalLow:") {
382  highVCalRange_ = false;
383  }
384 
385  if ((tmp == "VcalLow:") || (tmp == "VcalHigh:") || (tmp == "Vcal:")) {
386  unsigned int first, last, step;
387  in >> first >> last >> step;
388  unsigned int index = 1;
389  if (!dacs_.empty()) {
390  index = dacs_.back().index() * dacs_.back().getNPoints();
391  }
392  in >> tmp;
393  bool mix = false;
394  if (tmp == "mix") {
395  mix = true;
396  in >> tmp;
397  }
399  dacs_.push_back(dacrange);
400  } else {
401  //in >> tmp;
402  while (tmp == "Scan:" || tmp == "ScanValues:") {
403  if (tmp == "ScanValues:") {
404  std::string dacname;
405  in >> dacname;
406  vector<unsigned int> values;
407  int val;
408  in >> val;
409  while (val != -1) {
410  values.push_back(val);
411  in >> val;
412  }
413  unsigned int index = 1;
414  if (!dacs_.empty()) {
415  index = dacs_.back().index() * dacs_.back().getNPoints();
416  }
417  PixelDACScanRange dacrange(dacname, values, index, false);
418  dacs_.push_back(dacrange);
419  in >> tmp;
420  } else {
421  std::string dacname;
422  in >> dacname;
423  unsigned int first, last, step;
424  in >> first >> last >> step;
425  unsigned int index = 1;
426  if (!dacs_.empty()) {
427  index = dacs_.back().index() * dacs_.back().getNPoints();
428  }
429  in >> tmp;
430  bool mix = false;
431  if (tmp == "mix") {
432  mix = true;
433  in >> tmp;
434  }
435  PixelDACScanRange dacrange(dacname, first, last, step, index, mix);
436  dacs_.push_back(dacrange);
437  }
438  }
439 
440  while ((tmp == "Set:") || (tmp == "SetRelative:")) {
441  string name;
442  in >> name;
443  int val;
444  in >> val;
445  unsigned int absval = std::abs(val);
446  unsigned int index = 1;
447  if (!dacs_.empty())
448  index = dacs_.back().index() * dacs_.back().getNPoints();
449  PixelDACScanRange dacrange(name, absval, absval, 1, index, false);
450  if (tmp == "SetRelative:") {
451  dacrange.setRelative();
452  if (val < 0) {
453  dacrange.setNegative();
454  }
455  }
456  dacs_.push_back(dacrange);
457  in >> tmp;
458  }
459  }
460 
461  assert(tmp == "Repeat:");
462 
463  in >> ntrigger_;
464 
465  in >> tmp;
466 
467  usesROCList_ = false;
468  bool buildROCListNow = false;
469  if (tmp == "Rocs:") {
470  buildROCListNow = true;
471  usesROCList_ = true;
472  } else {
473  assert(tmp == "ToCalibrate:");
474  buildROCListNow = false;
475  }
476 
477  while (!in.eof()) {
478  tmp = "";
479  in >> tmp;
480 
481  // added by F.Blekman to be able to deal with POS245 style calib.dat files in CMSSW
482  // these files use the syntax:
483  // Rocs:
484  // all
485 
486  if (tmp == "all" || tmp == "+" || tmp == "-") {
487  buildROCListNow = false;
488  }
489  // end of addition by F.B.
490 
491  if (tmp.empty())
492  continue;
493  rocListInstructions_.push_back(tmp);
494  }
495 
496  in.close();
497 
498  rocAndModuleListsBuilt_ = false;
499  if (buildROCListNow) {
500  std::set<PixelROCName> rocSet;
501  for (std::vector<std::string>::iterator rocListInstructions_itr = rocListInstructions_.begin();
502  rocListInstructions_itr != rocListInstructions_.end();
503  ++rocListInstructions_itr) {
504  PixelROCName rocname(*rocListInstructions_itr);
505  rocSet.insert(rocname);
506  }
508  }
509 
511 
512  // Added by Dario as a temporary patch for Debbie (this will disappear in the future)
513  std::ifstream inTmp(filename.c_str());
514  calibFileContent_ = "";
515  while (!inTmp.eof()) {
516  std::string tmpString;
517  getline(inTmp, tmpString);
518  calibFileContent_ += tmpString + "\n";
519  //cout << __LINE__ << "]\t" << "[PixelCalibConfiguration::~PixelCalibConfiguration()]\t\t" << calibFileContent_ << endl ;
520  }
521  inTmp.close();
522  // End of temporary patch
523 
524  return;
525 }
526 
528 
530  const PixelDetectorConfig* detconfig) {
531  assert(translation != nullptr);
532  assert(detconfig != nullptr);
533 
536  return;
537  }
538 
539  // Build the ROC set from the instructions.
540  std::set<PixelROCName> rocSet;
541  bool addNext = true;
542  const map<PixelROCName, PixelROCStatus>& iroclist = detconfig->getROCsList();
543  for (std::vector<std::string>::iterator rocListInstructions_itr = rocListInstructions_.begin();
544  rocListInstructions_itr != rocListInstructions_.end();
545  ++rocListInstructions_itr) {
546  std::string instruction = *rocListInstructions_itr;
547 
548  if (instruction == "+") {
549  addNext = true;
550  continue;
551  }
552  if (instruction == "-") {
553  addNext = false;
554  continue;
555  }
556 
557  if (instruction == "all") {
558  if (addNext) // add all ROCs in the configuration
559  {
560  const std::vector<PixelModuleName>& moduleList = detconfig->getModuleList();
561  for (std::vector<PixelModuleName>::const_iterator moduleList_itr = moduleList.begin();
562  moduleList_itr != moduleList.end();
563  ++moduleList_itr) {
564  std::vector<PixelROCName> ROCsOnThisModule = translation->getROCsFromModule(*moduleList_itr);
565  for (std::vector<PixelROCName>::const_iterator ROCsOnThisModule_itr = ROCsOnThisModule.begin();
566  ROCsOnThisModule_itr != ROCsOnThisModule.end();
567  ++ROCsOnThisModule_itr) {
568  map<PixelROCName, PixelROCStatus>::const_iterator it = iroclist.find(*ROCsOnThisModule_itr);
569  assert(it != iroclist.end());
570  PixelROCStatus istatus = it->second;
571  if (!istatus.get(PixelROCStatus::noAnalogSignal))
572  rocSet.insert(*ROCsOnThisModule_itr);
573  }
574  }
575  } else // remove all ROCs
576  {
577  rocSet.clear();
578  }
579  addNext = true;
580  continue;
581  }
582 
583  // Assume it's a ROC or module name.
584  PixelModuleName modulename(instruction);
585 
586  // Skip if this module (or the module this ROC is on) isn't in the detector config.
587  if (!(detconfig->containsModule(modulename))) {
588  addNext = true;
589  continue;
590  }
591 
592  if (modulename.modulename() == instruction) // it's a module
593  {
594  std::vector<PixelROCName> ROCsOnThisModule = translation->getROCsFromModule(modulename);
595  for (std::vector<PixelROCName>::iterator ROCsOnThisModule_itr = ROCsOnThisModule.begin();
596  ROCsOnThisModule_itr != ROCsOnThisModule.end();
597  ++ROCsOnThisModule_itr) {
598  if (addNext) {
599  map<PixelROCName, PixelROCStatus>::const_iterator it = iroclist.find(*ROCsOnThisModule_itr);
600  assert(it != iroclist.end());
601  PixelROCStatus istatus = it->second;
602  if (!istatus.get(PixelROCStatus::noAnalogSignal))
603  rocSet.insert(*ROCsOnThisModule_itr);
604  } else
605  rocSet.erase(*ROCsOnThisModule_itr);
606  }
607  addNext = true;
608  continue;
609  } else // it's a ROC
610  {
611  PixelROCName rocname(instruction);
612  if (addNext) {
613  // Only add this ROC if it's in the configuration.
614  bool foundIt = false;
615  std::list<const PixelROCName*> allROCs = translation->getROCs();
616  for (std::list<const PixelROCName*>::iterator allROCs_itr = allROCs.begin(); allROCs_itr != allROCs.end();
617  ++allROCs_itr) {
618  if ((*(*allROCs_itr)) == rocname) {
619  foundIt = true;
620  break;
621  }
622  }
623  if (foundIt) {
624  map<PixelROCName, PixelROCStatus>::const_iterator it = iroclist.find(rocname);
625  assert(it != iroclist.end());
626  PixelROCStatus istatus = it->second;
627  if (!istatus.get(PixelROCStatus::noAnalogSignal))
628  rocSet.insert(rocname);
629  }
630  } else {
631  rocSet.erase(rocname);
632  }
633  addNext = true;
634  continue;
635  }
636 
637  // should never get here
638  assert(0);
639  }
640  // done building ROC set
641 
643 
645 }
646 
647 void PixelCalibConfiguration::buildROCAndModuleListsFromROCSet(const std::set<PixelROCName>& rocSet) {
649 
650  std::string mthn = "[PixelCalibConfiguration::buildROCAndModuleListsFromROCSet()] ";
651  // Build the ROC list from the ROC set.
652  for (std::set<PixelROCName>::iterator rocSet_itr = rocSet.begin(); rocSet_itr != rocSet.end(); ++rocSet_itr) {
653  rocs_.push_back(*rocSet_itr);
654  }
655 
656  //t.stop();
657  //cout << "buildROCAndModuleListsFromROCSet 1 time="<<t.tottime()<<endl;
658  //t.start();
659 
660  // Build the module set from the ROC set.
661  std::map<PixelModuleName, unsigned int> countROC;
662  for (std::set<PixelROCName>::iterator rocSet_itr = rocSet.begin(); rocSet_itr != rocSet.end(); ++rocSet_itr) {
663  //t1.start();
664  PixelModuleName modulename(*rocSet_itr);
665  //t1.stop();
666  //t2.start();
667  modules_.insert(modulename);
668  countROC[modulename]++;
669  //t2.stop();
670  }
671 
672  //t.stop();
673  //cout << "buildROCAndModuleListsFromROCSet 2 time="<<t.tottime()<<endl;
674  //cout << "buildROCAndModuleListsFromROCSet t1="<<t1.tottime()<<endl;
675  //cout << "buildROCAndModuleListsFromROCSet t2="<<t2.tottime()<<endl;
676  //t.start();
677 
678  // Test printout.
679  /*cout << "\nROC list:\n";
680  for ( std::vector<PixelROCName>::iterator rocs_itr = rocs_.begin();
681  rocs_itr != rocs_.end();
682  rocs_itr++ ){
683  cout << rocs_itr->rocname() << "\n";
684  } cout << "\nModule list:\n";
685  for ( std::set<PixelModuleName>::iterator modules_itr = modules_.begin(); modules_itr != modules_.end(); modules_itr++ )
686  {
687  cout << modules_itr->modulename() << "\n";
688  }
689  cout << "\n";*/
690 
691  // Determine max ROCs on a module for singleROC mode.
692  nROC_ = 1;
693  if (singleROC_) {
694  unsigned maxROCs = 0;
695  for (std::map<PixelModuleName, unsigned int>::iterator imodule = countROC.begin(); imodule != countROC.end();
696  ++imodule) {
697  if (imodule->second > maxROCs)
698  maxROCs = imodule->second;
699  }
700  nROC_ = maxROCs;
701 
702  std::cout << __LINE__ << "]\t" << mthn << "Max ROCs on a module=" << nROC_ << std::endl;
703  }
704 
705  for (unsigned int irocs = 0; irocs < rocs_.size(); irocs++) {
706  old_irows.push_back(-1);
707  old_icols.push_back(-1);
708  }
709 
711 }
712 
716  assert(aNameTranslation != nullptr);
717 
718  // Build the channel list.
719  assert(channels_.empty());
720  for (std::vector<PixelROCName>::const_iterator rocs_itr = rocs_.begin(); rocs_itr != rocs_.end(); ++rocs_itr) {
721  channels_.insert(aNameTranslation->getChannelForROC(*rocs_itr));
722  }
723 
724  // Build the maps from ROC to ROC number.
725 
727 
728  std::set<PixelROCName> tempROCs;
729 
730  for (std::vector<PixelROCName>::const_iterator it = rocs_.begin(); it != rocs_.end(); ++it) {
731  tempROCs.insert(*it);
732  }
733 
734  for (std::set<PixelChannel>::const_iterator channels_itr = channels_.begin(); channels_itr != channels_.end();
735  ++channels_itr) {
736  std::vector<PixelROCName> rocsOnChannel = aNameTranslation->getROCsFromChannel(*channels_itr);
737 
738  std::set<PixelROCName> foundROCs;
739 
740  for (std::vector<PixelROCName>::const_iterator rocsOnChannel_itr = rocsOnChannel.begin();
741  rocsOnChannel_itr != rocsOnChannel.end();
742  ++rocsOnChannel_itr) {
743  if (tempROCs.find(*rocsOnChannel_itr) != tempROCs.end()) {
744  ROCNumberOnChannelAmongThoseCalibrated_[*rocsOnChannel_itr] = foundROCs.size();
745  foundROCs.insert(*rocsOnChannel_itr);
746  }
747  }
748 
749  for (std::set<PixelROCName>::const_iterator foundROCs_itr = foundROCs.begin(); foundROCs_itr != foundROCs.end();
750  ++foundROCs_itr) {
751  numROCsCalibratedOnChannel_[*foundROCs_itr] = foundROCs.size();
752  }
753  }
754 
756 }
757 
759  for (unsigned int i = 0; i < dacs_.size(); i++) {
760  if (dac == dacs_[i].name())
761  return i;
762  }
763 
764  std::cout << __LINE__ << "]\t[PixelCalibConfiguration::iScan()]\t\t could not find dac=" << dac << std::endl;
765 
766  assert(0);
767 
768  return 0;
769 }
770 
771 unsigned int PixelCalibConfiguration::scanROC(unsigned int state) const {
772  assert(state < nConfigurations());
773 
774  unsigned int i_ROC = state / (cols_.size() * rows_.size() * nScanPoints());
775 
776  return i_ROC;
777 }
778 
779 unsigned int PixelCalibConfiguration::scanValue(unsigned int iscan,
780  unsigned int state,
781  unsigned int ROCNumber,
782  unsigned int ROCsOnChannel) const {
783  unsigned int i_threshold = scanCounter(iscan, state);
784 
785  // Spread the DAC values on the different ROCs uniformly across the scan range.
786  if (dacs_[iscan].mixValuesAcrossROCs())
787  i_threshold = (i_threshold + (nScanPoints(iscan) * ROCNumber) / ROCsOnChannel) % nScanPoints(iscan);
788 
789  unsigned int threshold = dacs_[iscan].value(i_threshold);
790 
791  //assert(threshold==dacs_[iscan].first()+i_threshold*dacs_[iscan].step());
792 
793  return threshold;
794 }
795 
797  if (!singleROC_)
798  return true;
800 }
801 
802 unsigned int PixelCalibConfiguration::scanValue(unsigned int iscan, unsigned int state, PixelROCName roc) const {
803  unsigned int ROCNumber = ROCNumberOnChannelAmongThoseCalibrated(roc);
804  unsigned int ROCsOnChannel = numROCsCalibratedOnChannel(roc);
805 
806  return scanValue(iscan, state, ROCNumber, ROCsOnChannel);
807 }
808 
811  std::map<PixelROCName, unsigned int>::const_iterator foundROC = ROCNumberOnChannelAmongThoseCalibrated_.find(roc);
813  return foundROC->second;
814 }
815 
818  std::map<PixelROCName, unsigned int>::const_iterator foundROC = numROCsCalibratedOnChannel_.find(roc);
819  assert(foundROC != numROCsCalibratedOnChannel_.end());
820  return foundROC->second;
821 }
822 
823 unsigned int PixelCalibConfiguration::scanCounter(unsigned int iscan, unsigned int state) const {
824  assert(state < nConfigurations());
825 
826  unsigned int i_scan = state % nScanPoints();
827 
828  for (unsigned int i = 0; i < iscan; i++) {
829  i_scan /= nScanPoints(i);
830  }
831 
832  unsigned int i_threshold = i_scan % nScanPoints(iscan);
833 
834  return i_threshold;
835 }
836 
837 unsigned int PixelCalibConfiguration::rowCounter(unsigned int state) const {
838  unsigned int i_row =
839  (state - scanROC(state) * cols_.size() * rows_.size() * nScanPoints()) / (cols_.size() * nScanPoints());
840  assert(i_row < rows_.size());
841  return i_row;
842 }
843 
844 unsigned int PixelCalibConfiguration::colCounter(unsigned int state) const {
845  unsigned int i_col = (state - scanROC(state) * cols_.size() * rows_.size() * nScanPoints() -
846  rowCounter(state) * cols_.size() * nScanPoints()) /
847  (nScanPoints());
848  assert(i_col < cols_.size());
849  return i_col;
850 }
851 
852 void PixelCalibConfiguration::nextFECState(std::map<unsigned int, PixelFECConfigInterface*>& pixelFECs,
853  PixelDetectorConfig* detconfig,
854  PixelNameTranslation* trans,
855  std::map<pos::PixelModuleName, pos::PixelMaskBase*>* masks,
856  std::map<pos::PixelModuleName, pos::PixelTrimBase*>* trims,
857  std::map<pos::PixelModuleName, pos::PixelDACSettings*>* dacs,
858 
859  unsigned int state) const {
860  std::string mthn = "[PixelCalibConfiguration::nextFECState()]\t\t ";
861  std::string modeName = parameterValue("ScanMode");
862 
863  int mode = -1;
864 
865  if (modeName == "maskAllPixel")
866  mode = 0;
867  if (modeName == "useAllPixel" || modeName.empty())
868  mode = 1;
869  if (modeName == "default")
870  mode = 2;
871 
872  static bool first = true;
873 
874  if (first) {
875  cout << __LINE__ << "]\t" << mthn << "mode=" << mode << endl;
876  first = false;
877  }
878 
879  if (mode == -1) {
880  cout << __LINE__ << "]\t" << mthn << "ScanMode=" << modeName << " not understood." << endl;
881  ::abort();
882  }
883 
884  if (rocInfo_.empty()) {
885  //here we will do some initialization...
886  for (unsigned int i = 0; i < rocs_.size(); i++) {
887  const PixelHdwAddress* hdwadd = trans->getHdwAddress(rocs_[i]);
888  PixelROCInfo rocInfo;
889  rocInfo.use_ = true;
890  //FIXME This is very inefficient
891  PixelModuleName module(rocs_[i].rocname());
892 
893  std::map<pos::PixelModuleName, pos::PixelMaskBase*>::const_iterator foundMask = masks->find(module);
894  if (foundMask == masks->end()) {
895  rocInfo.use_ = false;
896  rocInfo_.push_back(rocInfo);
897  continue;
898  }
899 
900  rocInfo.hdwadd_ = hdwadd;
901  rocInfo.trims_ = (*trims)[module]->getTrimBits(rocs_[i]);
902  rocInfo.masks_ = (*masks)[module]->getMaskBits(rocs_[i]);
903 
904 #ifdef BPIX
905  const PixelChannel channel = trans->getChannelForROC(rocs_[i]);
906  string tbmChannel = channel.TBMChannelString();
907  //cout<<" tbm channel "<<tbmChannel<<endl;
908  rocInfo.tbmChannel_ = tbmChannel;
909 #endif
910 
911  std::map<std::string, unsigned int> defaultDACValues;
912  (*dacs)[PixelModuleName(rocs_[i].rocname())]->getDACSettings(rocs_[i])->getDACs(defaultDACValues);
913 
914  for (std::vector<PixelDACScanRange>::const_iterator dacs_itr = dacs_.begin(); dacs_itr != dacs_.end();
915  ++dacs_itr) {
916  std::map<std::string, unsigned int>::const_iterator foundThisDAC = defaultDACValues.find(dacs_itr->name());
917  assert(foundThisDAC != defaultDACValues.end());
918 
919  pair<unsigned int, unsigned int> dacchannelAndValue(dacs_itr->dacchannel(), foundThisDAC->second);
920 
921  rocInfo.defaultDACs_.push_back(dacchannelAndValue);
922  }
923  rocInfo_.push_back(rocInfo);
924  }
925  }
926 
927  assert(rocs_.size() == rocInfo_.size());
928 
929  bool changedWBC = false;
930 
931  //std::map<unsigned int, PixelFECConfigInterface*>::iterator iPixelFEC=pixelFECs.begin();
932  //for(;iPixelFEC!=pixelFECs.end();++iPixelFEC){
933  //iPixelFEC->second->fecDebug(1);
934  //}
935 
936  //unsigned long version=0;
937  //pixelFEC->getversion(&version);
938  //std::cout<<"mfec firmware version:"<<version<<std::endl;
939 
941 
942  assert(state < nConfigurations());
943 
944  // Which set of rows we're on.
945  unsigned int i_row = rowCounter(state);
946 
947  // Which set of columns we're on.
948  unsigned int i_col = colCounter(state);
949 
950  // Whether we're beginning a new scan over the DACs after changing which ROC or which pixel pattern.
951  unsigned int first_scan = true;
952  for (unsigned int i = 0; i < dacs_.size(); i++) {
953  if (scanCounter(i, state) != 0)
954  first_scan = false;
955  }
956 
957  // Disable all pixels at the beginning.
958  if (state == 0 && (mode == 0 || mode == 1)) {
959  for (unsigned int i = 0; i < rocs_.size(); i++) {
960  if (!rocInfo_[i].use_)
961  continue;
962 
963  PixelHdwAddress theROC = *rocInfo_[i].hdwadd_;
964  PixelROCTrimBits* rocTrims = rocInfo_[i].trims_;
965 
966  //Turn off all pixels
967  disablePixels(pixelFECs[theROC.fecnumber()], rocTrims, theROC);
968  }
969 
970  // reset
971  //cout<<"finish init"<<endl;
972  //sleep(1);
973  //pixelFEC->injectrstroc(7,1);
974  // or do pixelFEC->rocreset(theROC.mfec(),
975  // theROC.mfecchannel(),
976  // 14, //FIXME hardcode for Channel A
977  // theROC.hubaddress());
978  }
979 
980  // When a scan is complete for a given ROC or pixel pattern, reset the DACs to default values and disable the previously-enabled pixels.
981  if (first_scan && state != 0 && mode != 2) {
982  unsigned int previousState = state - 1;
983 
984  unsigned int i_row_previous = rowCounter(previousState);
985 
986  unsigned int i_col_previous = colCounter(previousState);
987 
988  for (unsigned int i = 0; i < rocs_.size(); i++) {
989  if (!rocInfo_[i].use_)
990  continue;
991 
992  PixelHdwAddress theROC = *rocInfo_[i].hdwadd_;
993 
994  if (!scanningROCForState(rocs_[i], previousState))
995  continue;
996 
997  // Set the DACs back to their default values when we're done with a scan.
998  for (unsigned int j = 0; j < dacs_.size(); j++) {
999  //Try to not reprogram DACs as often..
1000  if (state != 0) {
1001  if (scanCounter(dacs_[j].name(), state) == scanCounter(dacs_[j].name(), state - 1)) {
1002  continue;
1003  }
1004  }
1005 
1006  pixelFECs[theROC.fecnumber()]->progdac(theROC.mfec(),
1007  theROC.mfecchannel(),
1008  theROC.hubaddress(),
1009  theROC.portaddress(),
1010  theROC.rocid(),
1011  rocInfo_[i].defaultDACs_[j].first,
1012  rocInfo_[i].defaultDACs_[j].second,
1013  _bufferData);
1014 
1015  if (dacs_[j].dacchannel() == k_DACAddress_WBC) {
1016  changedWBC = true;
1017  //cout << "Changed WBC 1"<<endl;
1018  }
1019  }
1020 
1021  PixelROCTrimBits* rocTrims = rocInfo_[i].trims_;
1022 
1023  disablePixels(pixelFECs[theROC.fecnumber()], i_row_previous, i_col_previous, rocTrims, theROC);
1024  }
1025  }
1026 
1027  // Set each ROC with the new settings for this state.
1028  for (unsigned int i = 0; i < rocs_.size(); i++) {
1029  if (!rocInfo_[i].use_)
1030  continue;
1031 
1032  PixelHdwAddress theROC = *rocInfo_[i].hdwadd_;
1033 
1034  // Skip this ROC if we're in SingleROC mode and we're not on this ROC number.
1035  if (!scanningROCForState(rocs_[i], state))
1036  continue;
1037 
1038  // std::cout << "Will call progdac for vcal:"<< vcal << std::endl;
1039 
1040  // Program all the DAC values.
1041  for (unsigned int ii = 0; ii < dacs_.size(); ii++) {
1042  //Try to not reprogram DACs as often..
1043  if (state != 0) {
1044  if (scanCounter(dacs_[ii].name(), state) == scanCounter(dacs_[ii].name(), state - 1)) {
1045  continue;
1046  }
1047  }
1048 
1049  int dacvalue = scanValue(ii, state, rocs_[i]);
1050 
1051  //cout << "dacname ii:"<<dacs_[ii].name()<<" "<<ii<<endl;
1052 
1053  if (dacs_[ii].relative()) {
1054  //We have to find the default DAC setting so that we can
1055  //add the offset as we are in relative mode.
1056 
1057  if (dacs_[ii].negative())
1058  dacvalue = -dacvalue;
1059 
1060  dacvalue += rocInfo_[i].defaultDACs_[ii].second;
1061  //cout << "[PixelCalibConfiguration::nextFECState] ROC="<<rocs_[i]
1062  // << " dac="<<dacs_[ii].name()<<" new value="<<dacvalue<<endl;
1063  }
1064 
1065  pixelFECs[theROC.fecnumber()]->progdac(theROC.mfec(),
1066  theROC.mfecchannel(),
1067  theROC.hubaddress(),
1068  theROC.portaddress(),
1069  theROC.rocid(),
1070  rocInfo_[i].defaultDACs_[ii].first,
1071  dacvalue,
1072  _bufferData);
1073 
1074  if (dacs_[ii].dacchannel() == k_DACAddress_WBC) {
1075  changedWBC = true;
1076  //cout << "Changed WBC 2"<<endl;
1077  }
1078  }
1079 
1080  // At the beginning of a scan, set the pixel pattern.
1081  if (first_scan) {
1082  // Set masks and trims.
1083  if (mode != 2) {
1084  PixelROCMaskBits* rocMasks = rocInfo_[i].masks_;
1085  PixelROCTrimBits* rocTrims = rocInfo_[i].trims_;
1086 
1087  if (mode == 1)
1088  rocMasks = nullptr;
1089 
1090  //std::cout << "Will enable pixels!" <<std::endl;
1091  enablePixels(pixelFECs[theROC.fecnumber()], i_row, i_col, rocMasks, rocTrims, theROC);
1092  }
1093 
1094  // Set high or low Vcal range.
1095 
1096  if (state == 0) {
1097  PixelModuleName module(rocs_[i].rocname());
1098 
1099  unsigned int roccontrolword = (*dacs)[module]->getDACSettings(rocs_[i])->getControlRegister();
1100 
1101  //range is controlled here by one bit, but rest must match config
1102  //bit 0 on/off= 20/40 MHz speed; bit 1 on/off=disabled/enable; bit 3=Vcal range
1103 
1104  if (highVCalRange_)
1105  roccontrolword |= 0x4; //turn range bit on
1106  else
1107  roccontrolword &= 0xfb; //turn range bit off
1108 
1109  pixelFECs[theROC.fecnumber()]->progdac(theROC.mfec(),
1110  theROC.mfecchannel(),
1111  theROC.hubaddress(),
1112  theROC.portaddress(),
1113  theROC.rocid(),
1114  0xfd,
1115  roccontrolword,
1116  _bufferData);
1117  }
1118 
1119  // Clear all pixels before setting the pixel pattern.
1120  pixelFECs[theROC.fecnumber()]->clrcal(
1121  theROC.mfec(), theROC.mfecchannel(), theROC.hubaddress(), theROC.portaddress(), theROC.rocid(), _bufferData);
1122 
1123  // Program the pixel pattern.
1124  unsigned int nrow = rows_[i_row].size();
1125  unsigned int ncol = cols_[i_col].size();
1126  unsigned int nmax = std::max(nrow, ncol);
1127  if (nrow == 0 || ncol == 0)
1128  nmax = 0;
1129  for (unsigned int n = 0; n < nmax; n++) {
1130  unsigned int irow = n;
1131  unsigned int icol = n;
1132  if (irow >= nrow)
1133  irow = nrow - 1;
1134  if (icol >= ncol)
1135  icol = ncol - 1;
1136  unsigned int row = rows_[i_row][irow];
1137  unsigned int col = cols_[i_col][icol];
1138 
1139  pixelFECs[theROC.fecnumber()]->calpix(theROC.mfec(),
1140  theROC.mfecchannel(),
1141  theROC.hubaddress(),
1142  theROC.portaddress(),
1143  theROC.rocid(),
1144  col,
1145  row,
1146  1,
1147  _bufferData);
1148  }
1149 
1150  } // end of instructions for the beginning of a scan
1151  } // end of loop over ROCs
1152 
1153  if (_bufferData) {
1154  std::map<unsigned int, PixelFECConfigInterface*>::iterator iPixelFEC = pixelFECs.begin();
1155  for (; iPixelFEC != pixelFECs.end(); ++iPixelFEC) {
1156  iPixelFEC->second->qbufsend();
1157  }
1158  }
1159 
1160  if (changedWBC) {
1161  for (unsigned int i = 0; i < rocs_.size(); i++) {
1162  if (!rocInfo_[i].use_)
1163  continue;
1164 
1165  PixelHdwAddress theROC = *rocInfo_[i].hdwadd_;
1166 
1167  int tbmRegister = 14; // define for TBM-A
1168 #ifdef BPIX
1169  string tbmChannel = rocInfo_[i].tbmChannel_; // get TBM channel
1170  if (tbmChannel == "B")
1171  tbmRegister = 15; // for TBM=B
1172 #endif
1173 
1174  pixelFECs[theROC.fecnumber()]->rocreset(theROC.mfec(), theROC.mfecchannel(), tbmRegister, theROC.hubaddress());
1175  } // for rocs
1176  }
1177 
1178  return;
1179 }
1180 
1181 // FIXME This code breaks if it is called more than once with different crate numbers!
1182 std::vector<std::pair<unsigned int, std::vector<unsigned int> > >& PixelCalibConfiguration::fedCardsAndChannels(
1183  unsigned int crate,
1184  PixelNameTranslation* translation,
1185  PixelFEDConfig* fedconfig,
1186  PixelDetectorConfig* detconfig) const {
1188 
1189  assert(!rocs_.empty());
1190 
1191  for (unsigned int i = 0; i < rocs_.size(); i++) {
1192  PixelModuleName module(rocs_[i].rocname());
1193  if (!detconfig->containsModule(module))
1194  continue;
1195  const PixelHdwAddress* hdw = translation->getHdwAddress(rocs_[i]);
1196  assert(hdw != nullptr);
1197  //std::cout << "ROC, fednumber:"<<rocs_[i]<<" "<<hdw->fednumber()
1198  // << std::endl;
1199  //first check if fed associated with the roc is in the right crate
1200  if (fedconfig->crateFromFEDNumber(hdw->fednumber()) != crate)
1201  continue;
1202  //next look if we have already found fed number
1203  unsigned int index = fedCardsAndChannels_.size();
1204  for (unsigned int j = 0; j < fedCardsAndChannels_.size(); j++) {
1205  if (fedCardsAndChannels_[j].first == hdw->fednumber()) {
1206  index = j;
1207  break;
1208  }
1209  }
1210  //If we didn't find the fedcard we will create it
1211  if (index == fedCardsAndChannels_.size()) {
1212  std::vector<unsigned int> tmp;
1213  tmp.push_back(hdw->fedchannel());
1214  std::pair<unsigned int, std::vector<unsigned int> > tmp2(hdw->fednumber(), tmp);
1215  fedCardsAndChannels_.push_back(tmp2);
1216  continue;
1217  }
1218  //Now look and see if the channel has been added
1219  std::vector<unsigned int>& channels = fedCardsAndChannels_[index].second;
1220  bool found = false;
1221  for (unsigned int k = 0; k < channels.size(); k++) {
1222  if (channels[k] == hdw->fedchannel()) {
1223  found = true;
1224  break;
1225  }
1226  }
1227  if (found)
1228  continue;
1229  channels.push_back(hdw->fedchannel());
1230  }
1231 
1232  return fedCardsAndChannels_;
1233 }
1234 
1235 std::map<unsigned int, std::set<unsigned int> > PixelCalibConfiguration::getFEDsAndChannels(
1236  PixelNameTranslation* translation) {
1238 
1239  std::map<unsigned int, std::set<unsigned int> > fedsChannels;
1240  assert(!rocs_.empty());
1241  std::vector<PixelROCName>::iterator iroc = rocs_.begin();
1242 
1243  for (; iroc != rocs_.end(); ++iroc) {
1244  const PixelHdwAddress* roc_hdwaddress = translation->getHdwAddress(*iroc);
1245  unsigned int fednumber = roc_hdwaddress->fednumber();
1246  unsigned int fedchannel = roc_hdwaddress->fedchannel();
1247  fedsChannels[fednumber].insert(fedchannel);
1248  }
1249 
1250  return fedsChannels;
1251 }
1252 
1253 std::set<unsigned int> PixelCalibConfiguration::getFEDCrates(const PixelNameTranslation* translation,
1254  const PixelFEDConfig* fedconfig) const {
1256 
1257  std::set<unsigned int> fedcrates;
1258  assert(!modules_.empty());
1259  std::set<PixelModuleName>::iterator imodule = modules_.begin();
1260 
1261  for (; imodule != modules_.end(); ++imodule) {
1262  std::set<PixelChannel> channelsOnThisModule = translation->getChannelsOnModule(*imodule);
1263  for (std::set<PixelChannel>::const_iterator channelsOnThisModule_itr = channelsOnThisModule.begin();
1264  channelsOnThisModule_itr != channelsOnThisModule.end();
1265  ++channelsOnThisModule_itr) {
1266  const PixelHdwAddress& channel_hdwaddress = translation->getHdwAddress(*channelsOnThisModule_itr);
1267  unsigned int fednumber = channel_hdwaddress.fednumber();
1268  fedcrates.insert(fedconfig->crateFromFEDNumber(fednumber));
1269  }
1270  }
1271 
1272  return fedcrates;
1273 }
1274 
1275 std::set<unsigned int> PixelCalibConfiguration::getFECCrates(const PixelNameTranslation* translation,
1276  const PixelFECConfig* fecconfig) const {
1278 
1279  std::set<unsigned int> feccrates;
1280  assert(!modules_.empty());
1281  std::set<PixelModuleName>::iterator imodule = modules_.begin();
1282 
1283  for (; imodule != modules_.end(); ++imodule) {
1284  std::set<PixelChannel> channelsOnThisModule = translation->getChannelsOnModule(*imodule);
1285  for (std::set<PixelChannel>::const_iterator channelsOnThisModule_itr = channelsOnThisModule.begin();
1286  channelsOnThisModule_itr != channelsOnThisModule.end();
1287  ++channelsOnThisModule_itr) {
1288  const PixelHdwAddress& channel_hdwaddress = translation->getHdwAddress(*channelsOnThisModule_itr);
1289  unsigned int fecnumber = channel_hdwaddress.fecnumber();
1290  feccrates.insert(fecconfig->crateFromFECNumber(fecnumber));
1291  }
1292  }
1293 
1294  return feccrates;
1295 }
1296 
1298  const PixelPortcardMap* portcardmap,
1299  const std::map<std::string, PixelPortCardConfig*>& mapNamePortCard,
1300  const PixelTKFECConfig* tkfecconfig) const {
1302 
1303  std::set<unsigned int> tkfeccrates;
1304  assert(!modules_.empty());
1305  std::set<PixelModuleName>::iterator imodule = modules_.begin();
1306 
1307  for (; imodule != modules_.end(); ++imodule) {
1308  // implement this by module --(PixelPortcardMap)-> port card(s) --(PixelPortCardConfig)-> FEC # --(PixelFECConfig theTKFECConfiguration_)-> crate
1309  const std::set<std::string> portCards = portcardmap->portcards(*imodule);
1310  for (std::set<std::string>::const_iterator portCards_itr = portCards.begin(); portCards_itr != portCards.end();
1311  ++portCards_itr) {
1312  const std::string portcardname = *portCards_itr;
1313  std::map<std::string, PixelPortCardConfig*>::const_iterator portcardconfig_itr =
1314  mapNamePortCard.find(portcardname);
1315  assert(portcardconfig_itr != mapNamePortCard.end());
1316  PixelPortCardConfig* portcardconfig = portcardconfig_itr->second;
1317  std::string TKFECID = portcardconfig->getTKFECID();
1318  tkfeccrates.insert(tkfecconfig->crateFromTKFECID(TKFECID));
1319  }
1320  }
1321 
1322  return tkfeccrates;
1323 }
1324 
1325 std::ostream& pos::operator<<(std::ostream& s, const PixelCalibConfiguration& calib) {
1326  if (!calib.parameters_.empty()) {
1327  s << "Parameters:" << std::endl;
1328  for (std::map<std::string, std::string>::const_iterator paramItr = calib.parameters_.begin();
1329  paramItr != calib.parameters_.end();
1330  ++paramItr) {
1331  s << paramItr->first << " " << paramItr->second << std::endl;
1332  }
1333  }
1334 
1335  s << "Rows:" << std::endl;
1336  for (unsigned int i = 0; i < calib.rows_.size(); i++) {
1337  for (unsigned int j = 0; j < calib.rows_[i].size(); j++) {
1338  s << calib.rows_[i][j] << " " << std::endl;
1339  }
1340  s << "|" << std::endl;
1341  }
1342 
1343  s << "Cols:" << std::endl;
1344  for (unsigned int i = 0; i < calib.cols_.size(); i++) {
1345  for (unsigned int j = 0; j < calib.cols_[i].size(); j++) {
1346  s << calib.cols_[i][j] << " " << std::endl;
1347  }
1348  s << "|" << std::endl;
1349  }
1350 
1351  s << "Vcal:" << std::endl;
1352 
1353  //s << calib.vcal_<<std::endl;
1354 
1355  s << "Vcthr:" << std::endl;
1356 
1357  s << calib.dacs_[0].first() << " " << calib.dacs_[0].last() << " " << calib.dacs_[0].step() << std::endl;
1358 
1359  s << "CalDel:" << std::endl;
1360 
1361  s << calib.dacs_[1].first() << " " << calib.dacs_[0].last() << " " << calib.dacs_[1].step() << std::endl;
1362 
1363  s << "Repeat:" << std::endl;
1364 
1365  s << calib.ntrigger_ << std::endl;
1366 
1367  return s;
1368 }
1369 
1371  unsigned int irows,
1372  unsigned int icols,
1373  pos::PixelROCMaskBits* masks,
1374  pos::PixelROCTrimBits* trims,
1375  const PixelHdwAddress& theROC) const {
1376  for (unsigned int irow = 0; irow < rows_[irows].size(); irow++) {
1377  for (unsigned int icol = 0; icol < cols_[icols].size(); icol++) {
1378  /* std::cout << "Will turn on pixel col="
1379  <<cols_[icols][icol]
1380  <<" row="<<rows_[irows][irow]<<std::endl;
1381  */
1382  unsigned int bits = trims->trim(cols_[icols][icol], rows_[irows][irow]);
1383 
1384  //if masks==0 always enable pixel
1385  if (masks == nullptr || masks->mask(cols_[icols][icol], rows_[irows][irow]))
1386  bits |= 0x80;
1387 
1388  pixelFEC->progpix(theROC.mfec(),
1389  theROC.mfecchannel(),
1390  theROC.hubaddress(),
1391  theROC.portaddress(),
1392  theROC.rocid(),
1393  cols_[icols][icol],
1394  rows_[irows][irow],
1395  bits,
1396  _bufferData);
1397  }
1398  }
1399 }
1400 
1402  unsigned int irows,
1403  unsigned int icols,
1404  pos::PixelROCTrimBits* trims,
1405  const PixelHdwAddress& theROC) const {
1406  for (unsigned int irow = 0; irow < rows_[irows].size(); irow++) {
1407  for (unsigned int icol = 0; icol < cols_[icols].size(); icol++) {
1408  /* std::cout << "Will turn off pixel col="
1409  <<cols_[old_icols][icol]
1410  <<" row="<<rows_[old_irows][irow]<<std::endl;
1411  */
1412  unsigned int bits = trims->trim(cols_[icols][icol], rows_[irows][irow]);
1413  pixelFEC->progpix(theROC.mfec(),
1414  theROC.mfecchannel(),
1415  theROC.hubaddress(),
1416  theROC.portaddress(),
1417  theROC.rocid(),
1418  cols_[icols][icol],
1419  rows_[irows][irow],
1420  bits,
1421  _bufferData);
1422  }
1423  }
1424 }
1425 
1427  pos::PixelROCTrimBits* trims,
1428  const PixelHdwAddress& theROC) const {
1429  //cout<<" disable ROC "<<theROC.hubaddress()<<" "<<theROC.rocid()<<endl;
1430  //FIXME This should be done with more efficient commands!
1431  for (unsigned int row = 0; row < 80; row++) {
1432  for (unsigned int col = 0; col < 52; col++) {
1433  unsigned int bits = trims->trim(col, row);
1434  pixelFEC->progpix(theROC.mfec(),
1435  theROC.mfecchannel(),
1436  theROC.hubaddress(),
1437  theROC.portaddress(),
1438  theROC.rocid(),
1439  col,
1440  row,
1441  bits,
1442  _bufferData);
1443  }
1444  }
1445 }
1446 
1448  std::map<std::string, std::string>::const_iterator itr = parameters_.find(parameterName);
1449  if (itr == parameters_.end()) // parameterName is not in the list
1450  {
1451  return "";
1452  } else {
1453  return itr->second;
1454  }
1455 }
1456 
1458  //FIXME this is not tested for all the use cases...
1459 
1460  if (!dir.empty())
1461  dir += "/";
1462  std::string filename = dir + "calib.dat";
1463  std::ofstream out(filename.c_str());
1464 
1465  out << "Mode: " << mode_ << endl;
1466  if (singleROC_)
1467  out << "SingleROC" << endl;
1468  if (!parameters_.empty()) {
1469  out << "Parameters:" << endl;
1470  std::map<std::string, std::string>::const_iterator it = parameters_.begin();
1471  for (; it != parameters_.end(); ++it) {
1472  out << it->first << " " << it->second << endl;
1473  }
1474  }
1475  out << "Rows:" << endl;
1476  for (unsigned int i = 0; i < rows_.size(); i++) {
1477  for (unsigned int j = 0; j < rows_[i].size(); j++) {
1478  out << rows_[i][j] << " ";
1479  }
1480  if (i != rows_.size() - 1)
1481  out << "|";
1482  out << endl;
1483  }
1484  out << "Cols:" << endl;
1485  for (unsigned int i = 0; i < cols_.size(); i++) {
1486  for (unsigned int j = 0; j < cols_[i].size(); j++) {
1487  out << cols_[i][j] << " ";
1488  }
1489  if (i != cols_.size() - 1)
1490  out << "|";
1491  out << endl;
1492  }
1493 
1494  if (highVCalRange_) {
1495  out << "VcalHigh" << endl;
1496  } else {
1497  out << "VcalLow" << endl;
1498  }
1499 
1500  for (unsigned int i = 0; i < dacs_.size(); i++) {
1501  if (dacs_[i].uniformSteps()) {
1502  if (dacs_[i].first() != dacs_[i].last()) {
1503  out << "Scan: " << dacs_[i].name() << " ";
1504  out << dacs_[i].first() << " ";
1505  out << dacs_[i].last() << " ";
1506  out << dacs_[i].step() << endl;
1507  } else {
1508  out << "Set: " << dacs_[i].name() << " ";
1509  out << dacs_[i].first() << endl;
1510  }
1511  } else {
1512  out << "ScanValues: " << dacs_[i].name() << " ";
1513  for (unsigned int ival = 0; ival < dacs_[i].getNPoints(); ival++) {
1514  out << dacs_[i].value(ival) << " ";
1515  }
1516  out << " -1" << endl;
1517  }
1518  }
1519 
1520  out << "Repeat:" << endl;
1521  out << ntrigger_ << endl;
1522 
1523  if (usesROCList_) {
1524  out << "Rocs:" << endl;
1525  } else {
1526  out << "ToCalibrate:" << endl;
1527  }
1528  for (unsigned int i = 0; i < rocListInstructions_.size(); i++) {
1529  out << rocListInstructions_[i] << endl;
1530  if (rocListInstructions_[i] == "+" || rocListInstructions_[i] == "-") {
1531  out << " ";
1532  } else {
1533  out << endl;
1534  }
1535  }
1536 
1537  out.close();
1538 }
1539 
1541  unsigned int returnValue = 0;
1542  for (std::vector<std::vector<unsigned int> >::const_iterator rows_itr = rows_.begin(); rows_itr != rows_.end();
1543  ++rows_itr) {
1544  for (std::vector<std::vector<unsigned int> >::const_iterator cols_itr = cols_.begin(); cols_itr != cols_.end();
1545  ++cols_itr) {
1546  unsigned int theSize = rows_itr->size() * cols_itr->size();
1547  returnValue = max(returnValue, theSize);
1548  }
1549  }
1550  return returnValue;
1551 }
1552 
1553 std::set<std::pair<unsigned int, unsigned int> > PixelCalibConfiguration::pixelsWithHits(unsigned int state) const {
1554  std::set<std::pair<unsigned int, unsigned int> > pixels;
1555  // column # row #
1556 
1557  for (std::vector<unsigned int>::const_iterator col_itr = cols_[colCounter(state)].begin();
1558  col_itr != cols_[colCounter(state)].end();
1559  ++col_itr) {
1560  for (std::vector<unsigned int>::const_iterator row_itr = rows_[rowCounter(state)].begin();
1561  row_itr != rows_[rowCounter(state)].end();
1562  ++row_itr) {
1563  pixels.insert(std::pair<unsigned int, unsigned int>(*col_itr, *row_itr));
1564  }
1565  }
1566 
1567  return pixels;
1568 }
1569 
1571  for (unsigned int i = 0; i < numberOfScanVariables(); i++) {
1572  if (scanName(i) == name) {
1573  return true;
1574  }
1575  }
1576  return false;
1577 }
1578 
1579 //=============================================================================================
1581  int version,
1582  std::string path,
1583  std::ofstream* outstream,
1584  std::ofstream* out1stream,
1585  std::ofstream* out2stream) const {
1586  std::string mthn = "[PixelCalibConfiguration::writeXMLHeader()]\t\t ";
1587  std::stringstream maskFullPath;
1588 
1589  writeASCII(path);
1590 
1591  maskFullPath << path << "/PixelCalib_Test_" << PixelTimeFormatter::getmSecTime() << ".xml";
1592  std::cout << __LINE__ << "]\t" << mthn << "Writing to: " << maskFullPath.str() << std::endl;
1593 
1594  outstream->open(maskFullPath.str().c_str());
1595 
1596  *outstream << "<?xml version='1.0' encoding='UTF-8' standalone='yes'?>" << std::endl;
1597  *outstream << "<ROOT xmlns:xsi='http://www.w3.org/2001/XMLSchema-instance'>" << std::endl;
1598  *outstream << "" << std::endl;
1599  *outstream << " <!-- " << mthn << "-->" << std::endl;
1600  *outstream << "" << std::endl;
1601  *outstream << " <HEADER>" << std::endl;
1602  *outstream << " <TYPE>" << std::endl;
1603  *outstream << " <EXTENSION_TABLE_NAME>PIXEL_CALIB_CLOB</EXTENSION_TABLE_NAME>" << std::endl;
1604  *outstream << " <NAME>Calibration Object Clob</NAME>" << std::endl;
1605  *outstream << " </TYPE>" << std::endl;
1606  *outstream << " <RUN>" << std::endl;
1607  *outstream << " <RUN_TYPE>Gain Calibration</RUN_TYPE>" << std::endl;
1608  *outstream << " <RUN_NUMBER>1</RUN_NUMBER>" << std::endl;
1609  *outstream << " <RUN_BEGIN_TIMESTAMP>" << PixelTimeFormatter::getTime() << "</RUN_BEGIN_TIMESTAMP>" << std::endl;
1610  *outstream << " <LOCATION>CERN P5</LOCATION>" << std::endl;
1611  *outstream << " </RUN>" << std::endl;
1612  *outstream << " </HEADER>" << std::endl;
1613  *outstream << "" << std::endl;
1614  *outstream << " <DATA_SET>" << std::endl;
1615  *outstream << "" << std::endl;
1616  *outstream << " <VERSION>" << version << "</VERSION>" << std::endl;
1617  *outstream << " <COMMENT_DESCRIPTION>" << getComment() << "</COMMENT_DESCRIPTION>" << std::endl;
1618  *outstream << " <CREATED_BY_USER>" << getAuthor() << "</CREATED_BY_USER>" << std::endl;
1619  *outstream << "" << std::endl;
1620  *outstream << " <PART>" << std::endl;
1621  *outstream << " <NAME_LABEL>CMS-PIXEL-ROOT</NAME_LABEL>" << std::endl;
1622  *outstream << " <KIND_OF_PART>Detector ROOT</KIND_OF_PART>" << std::endl;
1623  *outstream << " </PART>" << std::endl;
1624 }
1625 
1626 //=============================================================================================
1627 void PixelCalibConfiguration::writeXML(std::ofstream* outstream,
1628  std::ofstream* out1stream,
1629  std::ofstream* out2stream) const {
1630  std::string mthn = "[PixelCalibConfiguration::writeXML()]\t\t ";
1631 
1632  *outstream << " " << std::endl;
1633  *outstream << " <DATA>" << std::endl;
1634  *outstream << " <CALIB_OBJ_DATA_FILE>./calib.dat</CALIB_OBJ_DATA_FILE>" << std::endl;
1635  *outstream << " <CALIB_TYPE>calib</CALIB_TYPE>" << std::endl;
1636  *outstream << " </DATA>" << std::endl;
1637  *outstream << " " << std::endl;
1638 }
1639 
1640 //=============================================================================================
1641 void PixelCalibConfiguration::writeXMLTrailer(std::ofstream* outstream,
1642  std::ofstream* out1stream,
1643  std::ofstream* out2stream) const {
1644  std::string mthn = "[PixelCalibConfiguration::writeXMLTrailer()]\t\t ";
1645 
1646  *outstream << " </DATA_SET>" << std::endl;
1647  *outstream << "</ROOT>" << std::endl;
1648 
1649  outstream->close();
1650  std::cout << __LINE__ << "]\t" << mthn << "Data written " << std::endl;
1651 }
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This is the documentation about PixelFEDConfig...
Definition: PixelFEDConfig.h:27
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Definition: PixelROCName.h:23
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Definition: HltBtagPostValidation_cff.py:31
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Definition: PixelCalibConfiguration.cc:816
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Definition: PixelCalibConfiguration.cc:1641
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Definition: PixelCalibConfiguration.h:247
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Definition: PixelPortcardMap.cc:229
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Definition: PixelChannel.h:31
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const std::map< PixelROCName, PixelROCStatus > & getROCsList() const
Definition: PixelDetectorConfig.h:53
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std::string calibFileContent_
Definition: PixelCalibConfiguration.h:301
pos::PixelCalibConfiguration::buildROCAndModuleListsFromROCSet
void buildROCAndModuleListsFromROCSet(const std::set< PixelROCName > &rocSet)
Definition: PixelCalibConfiguration.cc:647
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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 bits
Definition: EventSelector-behavior.doc:35
pos::PixelROCStatus::noAnalogSignal
Definition: PixelROCStatus.h:26
pos::PixelTKFECConfig
This class specifies which TKFEC boards are used and how they are addressed.
Definition: PixelTKFECConfig.h:27
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Definition: heppy_batch.py:351
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Definition: JetResolutionObject.h:76
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unsigned int trim(unsigned int col, unsigned int row) const
Definition: PixelROCTrimBits.cc:148
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std::map< unsigned int, std::set< unsigned int > > getFEDsAndChannels(PixelNameTranslation *translation)
Definition: PixelCalibConfiguration.cc:1235
pos::PixelCalibConfiguration::getTKFECCrates
std::set< unsigned int > getTKFECCrates(const PixelPortcardMap *portcardmap, const std::map< std::string, PixelPortCardConfig * > &mapNamePortCard, const PixelTKFECConfig *tkfecconfig) const
Definition: PixelCalibConfiguration.cc:1297
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Definition: PixelPortcardMap.h:31
pos::PixelCalibConfiguration::getFECCrates
std::set< unsigned int > getFECCrates(const PixelNameTranslation *translation, const PixelFECConfig *fecconfig) const
Definition: PixelCalibConfiguration.cc:1275
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Definition: PixelCalibConfiguration.h:271
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void disablePixels(PixelFECConfigInterface *pixelFEC, unsigned int irows, unsigned int icols, pos::PixelROCTrimBits *trims, const PixelHdwAddress &theROC) const
Definition: PixelCalibConfiguration.cc:1401
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std::string parameterValue(std::string parameterName) const
Definition: PixelCalibConfiguration.cc:1447
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Definition: ewkTauDQM_cfi.py:14
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std::list< const PixelROCName * > getROCs() const
Definition: PixelNameTranslation.cc:393
pos::PixelCalibConfiguration::scanningROCForState
bool scanningROCForState(PixelROCName roc, unsigned int state) const
Definition: PixelCalibConfiguration.cc:796
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Definition: PixelROCStatus.cc:40
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Definition: PixelDACNames.h:70
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Definition: PixelMapPlotter.py:498
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std::vector< std::pair< unsigned int, std::vector< unsigned int > > > fedCardsAndChannels_
Definition: PixelCalibConfiguration.h:256
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std::set< PixelChannel > getChannelsOnModule(const PixelModuleName &aModule) const
Definition: PixelNameTranslation.cc:503
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unsigned int crateFromFECNumber(unsigned int fecnumber) const
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Definition: PixelROCMaskBits.cc:143
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Definition: Skims_PA_cff.py:17
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This class implements..
Definition: PixelROCStatus.h:20
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std::string mode_
Definition: PixelCalibBase.h:44
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std::string mode() const override
Definition: PixelCalibConfiguration.h:173
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Definition: AlignmentPayloadInspectorHelper.h:46
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Definition: MillePedeFileConverter_cfg.py:31
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Definition: castor_dqm_sourceclient_file_cfg.py:37
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std::vector< PixelROCInfo > rocInfo_
Definition: PixelCalibConfiguration.h:245
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Abs< T >::type abs(const T &t)
Definition: Abs.h:22
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This class specifies which FEC boards are used and how they are addressed.
Definition: PixelFECConfig.h:24
pos::PixelCalibConfiguration::numberOfScanVariables
unsigned int numberOfScanVariables() const
Definition: PixelCalibConfiguration.h:144
pos::PixelCalibConfiguration::getFEDCrates
std::set< unsigned int > getFEDCrates(const PixelNameTranslation *translation, const PixelFEDConfig *fedconfig) const
Definition: PixelCalibConfiguration.cc:1253
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Definition: dqmiolumiharvest.py:66
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const std::string k_DACName_Vcal
Definition: PixelDACNames.h:37
pos::PixelNameTranslation
This is the documentation about PixelNameTranslation...
Definition: PixelNameTranslation.h:41
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Definition: remoteMonitoring_LED_IterMethod_cfg.py:426
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Definition: postprocess-scan-build.py:11
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Definition: crabWrapper.py:19
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Definition: GeneratorMix_cff.py:6
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Definition: BeamSplash_cfg.py:45
PixelCalibConfiguration.h
This class implements the steps that are used in a scan over Threshold and CalDelay.
pos::PixelCalibConfiguration::old_icols
std::vector< int > old_icols
Definition: PixelCalibConfiguration.h:291
pos::PixelCalibConfiguration::moduleList
const std::set< PixelModuleName > & moduleList() const
Definition: PixelCalibConfiguration.h:164
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Definition: cuy.py:590
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#define begin
Definition: vmac.h:32
pos::PixelCalibConfiguration::ROCNumberOnChannelAmongThoseCalibrated
unsigned int ROCNumberOnChannelAmongThoseCalibrated(PixelROCName roc) const
Definition: PixelCalibConfiguration.cc:809
pos::PixelCalibConfiguration::colCounter
unsigned int colCounter(unsigned int state) const
Definition: PixelCalibConfiguration.cc:844
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Definition: DeadROC_duringRun.py:23
pos::PixelROCInfo::use_
bool use_
Definition: PixelCalibConfiguration.h:41
pos::PixelCalibConfiguration::usesROCList_
bool usesROCList_
Definition: PixelCalibConfiguration.h:298
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unsigned int mfec() const
Definition: PixelHdwAddress.h:38
pos::PixelCalibConfiguration::writeXMLHeader
void writeXMLHeader(pos::PixelConfigKey key, int version, std::string path, std::ofstream *out, std::ofstream *out1=nullptr, std::ofstream *out2=nullptr) const override
Definition: PixelCalibConfiguration.cc:1580