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DTTracoChip.cc
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1 //-------------------------------------------------------------
2 //
3 // Class: DTTracoChip
4 //
5 // Description: Implementation of TRACO
6 // trigger algorithm
7 //
8 //
9 // Author List:
10 // SV 4/II/2003
11 // Modifications:
12 // 22/VI/04 SV : last trigger code update
13 // 16/I/07 SV : new DTConfig update
14 // 3/IV/07 SV : setTracoAcceptance moved from card to chip
15 // 30/10/09 SV : lut parameters from DB are used in code
16 // 110208 SV : TRACO hardware bug included
17 //------------------------------------------------------------
18 
19 //-----------------------
20 // This Class's Header --
21 //-----------------------
23 
24 //-------------------------------
25 // Collaborating Class Headers --
26 //-------------------------------
34 
35 //---------------
36 // C++ Headers --
37 //---------------
38 #include <iostream>
39 #include <cmath>
40 #include <algorithm>
41 #include <string>
42 
43 //----------------
44 // Constructors --
45 //----------------
46 
48  _card(card), _config(conf) {
49 
50  _geom = _card->geom();
51 
52  // n=traco number 1,2,...
53  if(config()->debug()==4){
54  std::cout << "DTTracoChip constructor called for TRACO number " << n << std::endl;
55  }
56 
57  // set acceptances from CMSSW geometry
59 
60  // reserve the appropriate amount of space for vectors
61  int i=0;
65  _tracotrig[i].reserve(2);
66  }
67 
68  // the identifier
69  DTChamberId sid = _geom->statId();
70  _id = DTTracoId(sid,n);
71 
72  // Flags for LTS
73  _bxlts.zero();
74  for(int is=0;is<DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1;is++){
75  _flag[is].zero();
76  }
77 
78  // debugging
79  if(config()->debug()==4){
80  std::cout << "CMS position:" << CMSPosition() << std::endl;
81  std::cout << " psiRad=" << psiRad() << " KRad=" << KRad() << std::endl;
82  }
83 
84  //init traco parameters from traco config file
85  _krad = config()->KRAD();
86  _btic=config()->BTIC();
87 
88  //offset from geometry (x1-x3 FE view): converted from cm to ST units (0.9999 for rounding)
89  _ibtioff=static_cast<int>(config()->BTIC()/(_geom->cellPitch())*(_geom->phiSLOffset()/0.9999));
90 
91  // 091030 SV lut parameters from DB
92  // SV 08/12/12 : added flag for computing luts from DB parameters
93  if( _card->lutFromDBFlag()==1 )
94  {
95  //int board = int( (n-1)/4 );
96  //int traco = int(fmod( double(n-1),4.));
97  // 110208 SV for TRACO hardware bug included SL_shift
98  // SL shift
99  float xBTI1_3 = _geom->localPosition( DTBtiId(DTSuperLayerId(sid.wheel(),sid.station(),sid.sector(),3),1) ).x();
100  float xBTI1_1 = _geom->localPosition( DTBtiId(DTSuperLayerId(sid.wheel(),sid.station(),sid.sector(),1),1) ).x();
101  float SL_shift = xBTI1_3 - xBTI1_1;
102 
103  _lutsCCB = new Lut(_card->config_luts(),n,SL_shift);
104  _luts = 0;
105  }
106  else
107  //this is always the case with new DTConfig SV 15/I/2007
108  //if( config()->trigSetupGeom()==0 ){
109  {
110  _luts = 0;
111  _lutsCCB = 0;
112  }
113 /*
114  //SV 21/V/03 for testbeam purpose: parameters from hardware setup
115  if(config()->trigSetupGeom()==1){
116  //init traco parameters
117  _dd=config()->DD();
118  _krad=config()->KRAD();
119  _btic=config()->BTIC();
120  _ibtioff=config()->IBTIOFF();
121 
122  //const char* testfile = "traco"; //FIXTB
123  std::string testfile = "traco_";
124  int it = number() - 4 - 1;
125  if(it<10)
126  testfile += it+'0';
127  if(it>9){
128  testfile += int(float(it)/10.0) + '0'; //add decimal char
129  testfile += int(fmod(float(it),float(10))) + '0'; //add unit char
130  }
131 
132  //const char* name = testfile;
133  if(config()->debug()==4)
134  std::cout << "Loading " << testfile << " luts for traco " << number() << std::endl;
135  _luts = new DTTracoLUTs(testfile);
136  _luts->reset();
137  _luts->load();
138  if(config()->debug()==4)
139  _luts->print();
140  }//end hardware setup
141 
142  //TB 2004 setup : luts from minicrate ccb equations
143  if(config()->trigSetupGeom()==2){
144  int board = int( (n-1)/4 );
145  int traco = fmod( double(n-1),4. );
146  _lutsCCB = new Lut(sid.station(),board,traco);
147  // 091030 SV this constructur is obsolete now, use setForTestBeam instead
148  }//end TB2004
149 */
150 }
151 
152 
154  _geom(traco._geom), _id(traco._id), _card(traco._card), _luts(traco._luts) {
155  int i=0;
158  std::vector<DTTracoCand>::const_iterator p;
159  for(p=traco._innerCand[i].begin();p<traco._innerCand[i].end();p++) {
160  _innerCand[i].push_back(*p);
161  }
162  _outerCand[i].reserve(3*DTConfigTraco::NBTITC);
163  for(p=traco._outerCand[i].begin();p<traco._outerCand[i].end();p++) {
164  _outerCand[i].push_back(*p);
165  }
166  _tracotrig[i].reserve(2);
167  std::vector<DTTracoTrig*>::const_iterator p1;
168  for(p1=traco._tracotrig[i].begin();p1<traco._tracotrig[i].end();p1++) {
169  _tracotrig[i].push_back(*p1);
170  }
171  }
172  _bxlts = traco._bxlts;
173  for(int is=0;is<DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1;is++){
174  _flag[is] = traco._flag[is];
175  }
176 
177 }
178 
179 
180 //--------------
181 // Destructor --
182 //--------------
184  clear();
185  /*
186  if(config()->trigSetupGeom()==1){
187  _luts->reset();
188  delete _luts;
189  }
190 
191  if(config()->trigSetupGeom()==2)
192  delete _lutsCCB;
193  */
194 
195  if( _card->lutFromDBFlag()==1 )
196  delete _lutsCCB;
197 
198 }
199 
200 //--------------
201 // Operations --
202 //--------------
203 
206  if(this != &traco){
207  _geom = traco._geom;
208  _id = traco._id;
209  _card = traco._card;
210  int i=0;
213  std::vector<DTTracoCand>::const_iterator p;
214  for(p=traco._innerCand[i].begin();p<traco._innerCand[i].end();p++) {
215  _innerCand[i].push_back(*p);
216  }
217  _outerCand[i].reserve(3*DTConfigTraco::NBTITC);
218  for(p=traco._outerCand[i].begin();p<traco._outerCand[i].end();p++) {
219  _outerCand[i].push_back(*p);
220  }
221  _tracotrig[i].reserve(2);
222  std::vector<DTTracoTrig*>::const_iterator p1;
223  for(p1=traco._tracotrig[i].begin();p1<traco._tracotrig[i].end();p1++) {
224  _tracotrig[i].push_back(*p1);
225  }
226  }
227  _bxlts = traco._bxlts;
228  for(int is=0;is<DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1;is++){
229  _flag[is] = traco._flag[is];
230  }
231  }
232  return *this;
233 }
234 
235 
236 void
238 
239  std::vector<DTTracoTrig*>::iterator p1;
240  for(int is=0;is<DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1;is++){
241  for(p1=_tracotrig[is].begin();p1<_tracotrig[is].end();p1++){
242  delete (*p1);
243  }
244  _tracotrig[is].clear();
245  _innerCand[is].clear();
246  _outerCand[is].clear();
247  _flag[is].zero();
248  }
249  _bxlts.zero();
250 }
251 
252 
253 
254 void
256 
257  // Debugging...
258  if(config()->debug()>1){
259  std::cout << "DTTracoChip::run: Processing TRACO " << _id.traco() << std::endl;
260  }
261  // End debugging
262 
263  int maxtc = static_cast<int>(ceil( float(geom()->nCell(1)) / float(DTConfigTraco::NBTITC) ));
264 
265  if( _id.traco()<1 || _id.traco()>maxtc ) {
266  if(config()->debug()==4)
267  std::cout << "DTTracoChip::run: wrong TRACO number " << _id.traco() << std::endl;
268  return;
269  }
270 
271  // Loop on step
272  for(int is=DTConfigTraco::NSTEPF; is<=DTConfigTraco::NSTEPL;is++) {
273  if(config()->debug()>1){
274  std::cout << "\n STEP: " << is << std::endl;
275  std::cout << " ================" << std::endl;
276  }
277 
278  // skip if no cand. at this step
281  continue;
282 
283  // Debugging...
284  if(config()->debug()==4){
285  std::cout << " --> " << _innerCand[is-DTConfigTraco::NSTEPF].size()+
287  std::cout << " candidates " << std::endl;
288  }
289  // End debugging
290 
291  // Multiple trigger detection between consecutive TRACO's
292  setFlag(is);
293 
294  //check if there is a H in bx for LVALIDIFH flag
295  if(config()->LVALIDIFH()){
296  for(unsigned int e=0; e<_innerCand[is-DTConfigTraco::NSTEPF].size(); e++) {
297  if(_innerCand[is-DTConfigTraco::NSTEPF][e].BtiTrig()->code()==8){
299  break;
300  }
301  }
302  for(unsigned int e=0; e<_outerCand[is-DTConfigTraco::NSTEPF].size(); e++) {
303  if(_outerCand[is-DTConfigTraco::NSTEPF][e].BtiTrig()->code()==8){
305  break;
306  }
307  }
308  }
309 
310  // Loop over first/second tracks
311  //for(int itk=0; itk < DTConfigTraco::NMAXCAND; itk++){
312  // FIX this hardcoded 2!!
313  for(int itk=0; itk < 2; itk++){
314 
315  // Get the best inner and outer segments
316  if(config()->debug()==4)
317  std::cout << "Inner:" << std::endl;
319  if(config()->debug()==4)
320  std::cout << "Outer:" << std::endl;
322 
323  //debug
324  if(config()->debug()>1){
325  if(inner || outer)
326  std::cout<<"Best candidates for track " << itk+1 << " are:"<<std::endl;
327  if(inner){
328  std::cout<<"inner->";
329  inner->print();
330  }
331  if(outer){
332  std::cout<<"outer->";
333  outer->print();
334  }
335  }
336 
337  // Skip to next step if no suitable candidates found
338  if(inner==0&&outer==0)
339  break;
340 
341  // suppression of LTRIG on BTI close to selected HTRIG
342  // SV 24/IX/03 : AND suppression of LTRIG close to H in adiacent Traco
343  // SV 31/III/03 : test : only if htprf is off--> NO, it's worse
344  // if( config()->prefHtrig(0) && config()->prefHtrig(1) ){
345  if(inner){
347  }
348  if(outer){
350  }
351  //}
352 
353  // set candidates unusable by further steps
354  if(inner)inner->setUsed();
355  if(outer)outer->setUsed();
356  // Create a new TRACO trigger with preview for TS
357  DTTracoTrig* tct = setPV(itk,inner,outer);
358 
359  // skip if no TRACO trigger has been created with this trigger
360  if(!tct) break; // something nasty happened. Go to next step
361 
362  // try a correlation between segments
363  int stored = 0;
364  if(inner && outer) {
365  stored = storeCorr(tct,inner,outer,itk);
366  }
367 
368  if (!stored) {
369  // No suitable candidate found or no correlation possible
370  // Fill single trigger
371  stored = storeUncorr(tct,inner,outer,itk);
372  }
373 
374  // if trigger has been filled store it in TRACO, otherway delete it
375  if (stored) {
376  addTrig(is,tct);
377  } else {
378  delete tct;
379  //break;-> II track is computed even if no I track found...
380  }
381 
382  } // end loop on first/second track
383 
384  // Inhibit second track at previous bunch crossing
385  if(config()->debug()==4)
386  std::cout<<"Checking overlap I-II track..." <<std::endl;
388  && (_tracotrig[is-DTConfigTraco::NSTEPF])[0]->isFirst() ) { //I track at bx
389  if(nTrig(is-1)>0) { //there is a track at bx-1
390  if( !(trigger(is-1,1)->isFirst()) || //trig 1 is II track
391  ( nTrig(is-1)==2 && !(trigger(is-1,2)->isFirst()) )) { //trig 2 is II track
392  raiseOverlap(is);
393  if(config()->debug()==4){
394  std::cout << "II track at step " << std::hex << is-1 <<std::dec << "marked rej."<< std::endl;
395  std::cout << "I track overlap flag at step " << std::hex << is << std::dec << " setted" << std::endl;
396  }
397  }
398  }
399  }
400  //debug...
401  for(int isd=0;isd<=DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1;isd++)
402  if(config()->debug()==4){
403  std::cout << "overlap flag step = " << isd+DTConfigTraco::NSTEPF <<
404  " " << _flag[isd].element(1) << std::endl;
405  }
406  // debugging...
407  if(config()->debug()>0){
408  if(nTrig(is)>0) {
409  for(int cc=1;cc<=nTrig(is);cc++){
410  trigger(is,cc)->print();
411  }
412  }
413  }// end debugging
414  }// end loop on step
415 }
416 
417 
418 void
420  _flag[step-DTConfigTraco::NSTEPF].set(1); //overlap flag raised
421  _flag[step-DTConfigTraco::NSTEPF-1].set(2); //mark II rej.
422 }
423 
424 
425 void
426 DTTracoChip::setFlag(int step, int ext) {
427 
428  if(ext==0){
429  //this is the original: flags from card
430  DTTracoChip* prevTraco = _card->getTRACO(_id.traco()-1);
431  if(prevTraco!=0){
432  if(prevTraco->edgeBTI(step,1,2))
433  _flag[step-DTConfigTraco::NSTEPF].set(3);
434  if(prevTraco->edgeBTI(step,2,2))
435  _flag[step-DTConfigTraco::NSTEPF].set(5);
436  }
437  DTTracoChip* nextTraco = _card->getTRACO(_id.traco()+1);
438  if(nextTraco!=0){
439  if(nextTraco->edgeBTI(step,1,1))
440  _flag[step-DTConfigTraco::NSTEPF].set(4);
441  if(nextTraco->edgeBTI(step,2,1))
442  _flag[step-DTConfigTraco::NSTEPF].set(6);
443  }
444  }
445  else{
446  //SV III/03: flags from input EXT: only for testing purpose
447  for(int i=0;i<6;i++){
448  int ibit = ext >> i;
449  if(ibit & 0x01) // bit i+1 -> flag 3,4,5,6 : IL,IR,OL,OR
450  _flag[step-DTConfigTraco::NSTEPF].set(i+1 + 2);
451  }
452  }
453 
454  //debug:
455  if(config()->debug()==4){
456  std::cout << "Flags set for bx=" << step << std::endl;
457  std::cout << _flag[step-DTConfigTraco::NSTEPF].element(1)<< " ";
458  std::cout << _flag[step-DTConfigTraco::NSTEPF].element(2)<< " ";
459  std::cout << _flag[step-DTConfigTraco::NSTEPF].element(3)<< " ";
460  std::cout << _flag[step-DTConfigTraco::NSTEPF].element(4)<< " ";
461  std::cout << _flag[step-DTConfigTraco::NSTEPF].element(5)<< " ";
462  std::cout << _flag[step-DTConfigTraco::NSTEPF].element(6)<< " ";
463  std::cout << _flag[step-DTConfigTraco::NSTEPF].element(7)<< " ";
464  std::cout << _flag[step-DTConfigTraco::NSTEPF].element(8)<< " ";
465  std::cout << _flag[step-DTConfigTraco::NSTEPF].element(9)<< " "<<std::endl;
466  } //end debugging
467 }
468 
469 
471 DTTracoChip::bestCand(int itk, std::vector<DTTracoCand> & tclist) {
472 
473  // Return if no candidates
474  if(tclist.size()<1) return 0;
475 
476  // stl function: sort in Ktc ascending or descending order according
477  // to user request comparing by default with user-defined <
478  // NB don't reverse if candidates are two with same K
479  stable_sort( tclist.begin(),tclist.end() ); //0=K ascending, 1=K descending
480  if(config()->sortKascend(itk) &&
481  !(tclist.size()==2 && tclist[0].K()==tclist[1].K()) ) {
482  reverse( tclist.begin(),tclist.end() );
483  if(config()->debug()==4)
484  std::cout << "Reversing order of sorted candidate list..." << std::endl;
485  }
486 
487  /*
488  if(!config()->sortKascend(itk)){
489  stable_sort( tclist.begin(),tclist.end(),DTTracoCand::closer );
490  } else {
491  stable_sort( tclist.begin(),tclist.end(),DTTracoCand::wider );
492  }
493  */
494 
495  // debugging...
496  if(config()->debug()==4){
497  std::cout << "DTTracoChip::findBest - Looking for track number " << itk+1 << std::endl ;
498  std::cout << "Sorted std::vector of usable track candidates is:" << std::endl;
499  int i = 1;
500  for(std::vector<DTTracoCand>::iterator p=tclist.begin();p<tclist.end();p++){
501  if((*p).usable()){
502  std::cout << " DTTracoChip Candidate # " << i++;
503  (*p).print();
504  }
505  }
506  std::cout << "--------------------------------------------------" << std::endl;
507  }
508  // end debugging
509 
510  // return the best candidate
511  int i=0;
512  DTTracoCand* bestltrig = 0;
513  std::vector<DTTracoCand>::iterator p;
514  for ( p = tclist.begin(); p < tclist.end(); ++p ) {
515  i++;
516  // candidate must be usable and not suppressed by LTS
517  if(AdjBtiLTSuppressed(&(*p)))
518  if(config()->debug()==4)
519  std::cout << "Candidate # " << i << " supp. because next to H in adiacent Tracos" << std::endl;
520  if ( (*p).usable() && !AdjBtiLTSuppressed(&(*p)) ) {
521  // check if preference to HTRIG is set and return first trigger
522  if( !config()->prefHtrig(itk) ) return &(*p);
523  if( (*p).BtiTrig()->code()==8 ) return &(*p);
524  if( bestltrig==0 ) bestltrig=&(*p);
525  }
526  }
527  return bestltrig;
528 
529 }
530 
531 void
532 DTTracoChip::DoAdjBtiLts(DTTracoCand* candidate, std::vector<DTTracoCand> & tclist) {
533  // If requested, do suppression of LTRIG on BTI close to selected HTRIG in same traco
534  //if(!(config()->adjBtiLts()) && candidate->BtiTrig()->code()==8) {
535  // SV this is done always, not parametrized !!
536  if(candidate->BtiTrig()->code()==8) {
537  std::vector<DTTracoCand>::iterator p;
538  for(p=tclist.begin();p<tclist.end();p++){
539  if( (*p).BtiTrig()->code()<8 &&
540  abs( (*p).BtiTrig()->btiNumber() -
541  candidate->BtiTrig()->btiNumber() ) < 2 ) {
542  (*p).setUsed();
543  if(config()->debug()==4){
544  std::cout << "Candidate :";
545  (*p).print();
546  std::cout << "Suppressed because adiacent to H trig" <<std::endl;
547  } // end debug
548  } // end if
549  } // end candidate loop
550  } // end if H
551 }
552 
553 int
555  // If requested, do suppression of LTRIG on adjacent BTI -> obsolete!
556  //if(!(config()->adjBtiLts()) && candidate->BtiTrig()->code()<8) {
557  //SV: Ltrig always suppressed in hardware if Htrig in adj traco!
558  if(candidate->BtiTrig()->code()<8) {
559  if( _flag[candidate->step()-DTConfigTraco::NSTEPF].element(3) &&
560  candidate->position()==1 ) return 1;
561  if( _flag[candidate->step()-DTConfigTraco::NSTEPF].element(4) &&
562  candidate->position()==DTConfigTraco::NBTITC ) return 1;
563  if( _flag[candidate->step()-DTConfigTraco::NSTEPF].element(5) &&
564  candidate->position()== DTConfigTraco::NBTITC+1) return 1;
565  if( _flag[candidate->step()-DTConfigTraco::NSTEPF].element(6) &&
566  candidate->position()==DTConfigTraco::NBTITC*4 ) return 1;
567  }
568  //}
569  return 0;
570 }
571 
574 
575  // debugging...
576  if(config()->debug()==4){
577  std::cout << "DTTracoChip::setPV called for candidates : " << std::endl;
578  if(inner)inner->print();
579  if(outer)outer->print();
580  std::cout << "--------------------------------------------------" << std::endl;
581  }
582  //end debugging
583 
584  // first or second track. This is tricky:
585  // itk=0 menas first track ==> first= true=1
586  // itk=1 menas second track ==> first=false=0
587  int first = (itk==0) ? 1 : 0;
588 
589  //preview selector: the same as priority selector I !!
590  // select which of the inner/outer segments should be used
591 
592  DTTracoCand* candidate=0;
593  if(inner!=0&&outer!=0) {
594 // if(config()->prefHtrig(itk)){
595 // ---> BUG! selection is ALWAYS for H trigs
596 // ---> fixed by Sara Vanini 25/III/03
597  if(inner->BtiTrig()->code()==8 && outer->BtiTrig()->code()<8 ){
598  candidate=inner;
599  } else if(inner->BtiTrig()->code()<8 && outer->BtiTrig()->code()==8){
600  candidate=outer;
601  } else { //for same quality tracks, pref. to in/out selection
602  if(!config()->prefInner(itk)) {
603  candidate=inner;
604  } else {
605  candidate=outer;
606  }
607  }
608 // } //end if(config()->prefHtrig...
609 /*
610  else {
611  if(!config()->prefInner(itk)) {
612  candidate=inner;
613  } else {
614  candidate=outer;
615  }
616  }
617 */
618  } else if(inner==0&&outer!=0) {
619  candidate=outer;
620  } else if(inner!=0&&outer==0) {
621  candidate=inner;
622  } else {
623  return 0; // no candidates
624  }
625 
626  // create new trigger with this candidate
627  DTTracoTrig* tct = new DTTracoTrig(this, candidate->step());
628  // store preview for TS
629  int cod = candidate->BtiTrig()->code();
630  if(candidate->BtiTrig()->btiSL()==1) cod *= 10;
631  // k output is 5 bits!!! SV
632  int K=candidate->K();
633  if(K>31)
634  K-=32;
635  int ioflag = 0;
636  if(candidate->position()>4)
637  ioflag = 1;
638  tct->setPV(first, cod, K, ioflag); // this is already BTI_K-KRAD
639 
640  if(config()->debug()==4){
641  std::cout << "Selected candidate stored for preview is: ";
642  candidate->print();
643  }
644  return tct;
645 }
646 
647 int
649 
650  // Bunch crossing
651  int is = tctrig->step();
652 
653  // Debugging...
654  if(config()->debug()==4){
655  std::cout << "DTTracoChip::storeCorr called with candidates: " << std::endl;
656  if(inner)inner->print();
657  if(outer)outer->print();
658  std::cout << "--------------------------------------------------" << std::endl;
659  }
660  // End debugging
661 
662  //old orca shift definition
663  float shift = 0.;
664  //if( config()->trigSetupGeom()!=1 )
665  shift = (int)( _geom->distSL()/_geom->cellH() + 0.5 );
666  //else
667  //shift = DD();
668 
669  int kcor = 9999;
670  int xcor = 0;
671  int icor = 0;
672 
673  // Check correlation only if --> this cuts LL follow by H in next 4 bx
674  // SV 1/IV/04 BUG FIX: this cuts LL preview also, traco outputs preview when LTS cut!!!
675  //if( !config()->TcBxLts() || // BX LTS is not enabled or
676  // !_bxlts.element(is) || // no HTRIG in next 4 BX or
677  // inner->BtiTrig()->code()==8 || // inner track is HTRIG or
678  // outer->BtiTrig()->code()==8 ){ // outer track is HTRIG
679  //otherwise in and out trig are L, and necessary one is suppressed for LTS
680 
681  int xq1 = inner->X();
682  int xq2 = outer->X();
683  xcor = (xq2+xq1)/2;
684  kcor = (xq1-xq2)+512;
685  int kq1 = int(shift/2.) * (inner->BtiTrig()->K()-BTIC()) + 512;
686  int kq2 = int(shift/2.) * (outer->BtiTrig()->K()-BTIC()) + 512;
687  //int kd1 = abs(kcor/16-kq1/16);
688  //int kd2 = abs(kcor/16-kq2/16);
689  int kd1 = abs(kcor/16-kq1/16);
690  int kd2 = abs(kcor/16-kq2/16);
691 
692  icor = kd1<=config()->TcKToll(tkn) &&
693  kd2<=config()->TcKToll(tkn) &&
694  xcor>0;
695 
696  // Debugging...
697  if(config()->debug()==4){
698  std::cout << "*************************************************************";
699  std::cout << std::endl;
700  std::cout << " shift = " << shift;
701  std::cout << " xq1 = " << xq1;
702  std::cout << " xq2 = " << xq2;
703  std::cout << " xcor = " << xcor;
704  std::cout << " kcor = " << kcor;
705  std::cout << " kq1 = " << kq1;
706  std::cout << " kq2 = " << kq2;
707  std::cout << " kd1 = " << kd1;
708  std::cout << " kd2 = " << kd2;
709  std::cout << " icor = " << icor;
710  std::cout << std::endl;
711  std::cout << "*************************************************************";
712  std::cout << std::endl;
713  }// End debugging
714 
715  //}//end if TcBxLts....
716 
717  if(icor){
718  // correlation was successfull
719  // set the preview correlation bit. It isn't reset if outside ang. window
720  tctrig->setPVCorr(1);
721  // set K and X
722  tctrig->setK(kcor - 512);
723  //std::cout<<"Set K " << kcor << " instead of " << kcor-512 << std::endl;
724  //tctrig->setK(kcor);
725  tctrig->setX(xcor);
726  // set codes
727  tctrig->setCodeIn( inner->BtiTrig()->code());
728  tctrig->setCodeOut(outer->BtiTrig()->code());
729  // set position mask
730  //tctrig->setPosIn(inner->position());
731  //tctrig->setPosOut(outer->position());
732  //SV number of bti instead of position...
733  tctrig->setPosIn( inner->BtiTrig()->btiNumber() );
734  tctrig->setPosOut( outer->BtiTrig()->btiNumber() );
735  //SV store also equation: pattern numbers are 1-32
736  tctrig->setEqIn( inner->BtiTrig()->eq() + 1 );
737  tctrig->setEqOut( outer->BtiTrig()->eq() + 1 );
738 
739  // calculate psi, psi_r and Delta(psi_r)
740  calculateAngles(tctrig);
741  // check angular window for LL --> fixed by SV 27/III/03 --> NO, for all!
742  //if( (tctrig->qdec()==4) && !insideAngWindow(tctrig)) {
743  if( !insideAngWindow(tctrig) ) {
744  // reset codes, K, X and angles
745  tctrig->resetVar() ;
746  }
747  //SV 1/IV/04 BUG FIX: check LTS after angle cut...
748  else if( tctrig->qdec()==4 && // cut only LL
749  config()->TcBxLts() ){ // BX LTS is enabled or
750  // reset codes, K, X and angles
751  if(tkn==0 && _bxlts.element(is) ) // I track : there is H -4,+1
752  tctrig->resetVar() ;
753  if(tkn==1 && _bxlts.element(is+1) ) // II track : there is H -4,+1 1 bx later
754  tctrig->resetVar() ;
755  }
756  else {
757  // set links to BTI triggers
758  tctrig->addDTBtiTrig(inner->BtiTrig());
759  tctrig->addDTBtiTrig(outer->BtiTrig());
760  }
761 
762  // Debugging...
763  if(config()->debug()>1){
764  std::cout << "*************************************************************";
765  std::cout << std::endl;
766  std::cout << " Correlation was successfull: ";
767  std::cout << std::endl;
768  std::cout << " Code = " << tctrig->code();
769  std::cout << " K = " << tctrig->K();
770  std::cout << " X = " << tctrig->X();
771  std::cout << std::endl;
772  std::cout << "*************************************************************";
773  std::cout << std::endl;
774  }
775  // End debugging
776 
777  } else {
778 
779  // Debugging...
780  if(config()->debug()>1){
781  std::cout << "*************************************************************";
782  std::cout << std::endl;
783  std::cout << " No correlation possible ";
784  std::cout << std::endl;
785  std::cout << "*************************************************************";
786  std::cout << std::endl;
787  }
788  // End debugging
789 
790  }
791 
792  return icor;
793 }
794 
795 int
797 
798  // Bunch crossing
799  int is = tctrig->step();
800 
801  // Debugging...
802  if(config()->debug()==4){
803  std::cout << "DTTracoChip::storeUncorr called with candidates: " << std::endl;
804  if(inner)inner->print();
805  if(outer)outer->print();
806  std::cout << "--------------------------------------------------" << std::endl;
807  }
808 
809  // End debugging
810  // priority selector
811  // select which of the inner/outer segments should be used
812  // allow re-use of other segment according to configuration
813  DTTracoCand* candidate=0;
814  if(inner!=0&&outer!=0) {
815 // if(config()->prefHtrig(tkn)){
816 // --> BUG: selector I preference is ALWAYS for H trig
817 // fixed by Sara Vanini - 25/III/03
818  if(inner->BtiTrig()->code()==8 && outer->BtiTrig()->code()<8 ){
819  candidate=inner;
820  //if(config()->TcReuse(1)) outer->setUnused(); // reusable
821  } else if(inner->BtiTrig()->code()<8 && outer->BtiTrig()->code()==8){
822  candidate=outer;
823  //if(config()->TcReuse(0)) inner->setUnused(); // reusable
824  } else { //for the same quality triggers:
825  if(!config()->prefInner(tkn)) {
826  candidate=inner;
827  //if(config()->TcReuse(1)) outer->setUnused(); // reusable
828  } else {
829  candidate=outer;
830  //if(config()->TcReuse(0)) inner->setUnused(); // reusable
831  }
832  }//end else
833 /*
834  } else {//no Htrig preference
835  if(!config()->prefInner(tkn)) {
836  candidate=inner;
837  if(config()->TcReuse(1)) outer->setUnused(); // reusable
838  } else {
839  candidate=outer;
840  if(config()->TcReuse(0)) inner->setUnused(); // reusable
841  }
842  }
843 */
844  } else if(inner==0&&outer!=0) {
845  candidate=outer;
846  } else if(inner!=0&&outer==0) {
847  candidate=inner;
848  } else {
849  return 0; // no candidates
850  }
851 
852  //SV *** FOR TESTBEAM OR TEST BENCH PURPOSE ***
853  //theta trigger bin present(1) or absent(0)
854  //int thTr = (_flag[is-DTConfigTraco::NSTEPF].element(7)) ?
855  // _flag[is-DTConfigTraco::NSTEPF].element(7):
856  // _flag[is-DTConfigTraco::NSTEPF].element(8);
857 
858  // priority selector II: accept or discard candidate according to masks:
859  // ** LOW TRIGGERS
860  if( candidate->BtiTrig()->code()<8 ) {
861  // first check with LVALIDIFH: if 1, accept low if there is a H in traco at bx
862  if(config()->LVALIDIFH() && _flag[is-DTConfigTraco::NSTEPF].element(9)){
863  if(config()->debug()>1)
864  std::cout << "Low accepted because LVALIDIFH on...." << std::endl;
865  }
866  else {//LVALIDIFH==0 or there isn't H in traco in bx : check theta!
867  //theta check
868  if( !config()->singleLenab(tkn) ) {
869  // LTF: single LTRIG not always en. Check cond.:
870  if( config()->singleLflag(tkn)==1 || //always discarded
871  ( config()->singleLflag(tkn)==2 && !(_card->TSTh()->nHTrig(is)) ) ||
872  ( config()->singleLflag(tkn)==0 && !(_card->TSTh()->nTrig(is)) ) ){
873 // SV --> for TESTS version
874 // config()->singleLflag(tkn)==0 && thTr==0 || //only with theta trig.
875 // config()->singleLflag(tkn)==2 && thTr==0 ){ //only with theta H trig (not hw)
876  if(config()->debug()>1)
877  std::cout << "Single low trigger discarded by preview and "
878  << "priority selector for ltmsk!" <<std::endl;
879  return 0;}
880  // ^-------- trigger is suppressed and will not be stored
881  }//end theta
882 
883  } //end else
884  //REUSE : mark candidates reusable HERE! SV BUG FIX 6IV04
885  if(candidate==inner && config()->TcReuse(1) && outer)
886  outer->setUnused();
887  if(candidate==outer && config()->TcReuse(0) && inner)
888  inner->setUnused();
889 
890  // LTS suppression
891  if(config()->TcBxLts()){
892  if( (tkn==0 && _bxlts.element(is)) // I track : there is H -4,+1
893  ||
894  (tkn==1 && _bxlts.element(is+1)) ){ // II track : there is H -4,+1 1 bx later
895  tctrig->resetVar() ;
896  if(config()->debug()>1)
897  std::cout << "Low trigger suppressed because H in next 4 bx "<<
898  " and LTS flag on...." << std::endl;
899  return 1; // trigger is suppressed but preview will be stored
900  }
901  }//end lts
902 
903 // } //end else
904  } //Low trigs
905 
906  // Preview Htmsk not implemented: awaiting decision
907  // --> implemented in priority selector by SV
908  else { // HTRIG
909  //if(config()->singleHflag(tkn)==1 && thTr==0 ) //this is for testing
910  if( config()->singleHflag(tkn)==1 && !(_card->TSTh()->nTrig(is) ) )
911  return 0;
912  // ^-----trigger is suppressed and will not be stored
913 
914  //mark candidates reusable HERE! SV BUG FIX 6IV04
915  if(candidate==inner && config()->TcReuse(1) && outer)
916  outer->setUnused();
917  if(candidate==outer && config()->TcReuse(0) && inner)
918  inner->setUnused();
919  }
920 
921  // set code, position, K and X
922  float shift;
923  //if(config()->trigSetupGeom()!=1 )
924  shift = (int)( _geom->distSL()/_geom->cellH() + 0.5 );
925  //else
926  //shift = DD(); //SV 19/III/03
927  int kucor = (int)( 0.5*shift * (candidate->BtiTrig()->K()-BTIC()) );
928  tctrig->setK(kucor);
929  tctrig->setX( candidate->X() );
930  // correlation wasn't successfull
931  // set the preview correlation bit.
932  tctrig->setPVCorr(0);
933  if(candidate->BtiTrig()->btiSL()==1){ // inner track
934  tctrig->setCodeIn(candidate->BtiTrig()->code());
935  tctrig->setCodeOut(0);
936  //tctrig->setPosIn(candidate->position());
937  //SV number of bti instead of position...
938  tctrig->setPosIn(candidate->BtiTrig()->btiNumber() );
939  tctrig->setPosOut(0);
940  //SV store also equation
941  tctrig->setEqIn( candidate->BtiTrig()->eq() + 1 );
942  tctrig->setEqOut( 0 );
943  } else { // outer track
944  tctrig->setCodeIn(0);
945  tctrig->setCodeOut(candidate->BtiTrig()->code());
946  tctrig->setPosIn(0);
947  //SV number of bti instead of position...
948  tctrig->setPosOut(candidate->BtiTrig()->btiNumber() );
949  //tctrig->setPosOut(candidate->position());
950  //SV store also equation
951  tctrig->setEqIn( 0 );
952  tctrig->setEqOut( candidate->BtiTrig()->eq() + 1);
953  }
954 
955  // coordinate converter LUT
956  // calculate psi, psi_r and Delta(psi_r)
957  calculateAngles(tctrig);
958  // check angular window only for Low!! --> fixed SV 27/III/03--> NO, for all!
959  //if( candidate->BtiTrig()->code() < 8 && !insideAngWindow(tctrig) ){
960  if( !insideAngWindow(tctrig) ){
961  // reset codes, K, X and angles
962  tctrig->resetVar() ;
963  if(config()->debug()>1)
964  std::cout << "L rejected because outside angular window!" << std::endl;
965  } else {
966  // set links to BTI trigger
967  tctrig->addDTBtiTrig(candidate->BtiTrig());
968  }
969 
970  // Debugging...
971  if(config()->debug()>1){
972  std::cout << "*************************************************************";
973  std::cout << std::endl;
974  std::cout << " Single trigger stored: ";
975  std::cout << std::endl;
976  std::cout << " Code = " << tctrig->code();
977  std::cout << " K = " << tctrig->K();
978  std::cout << " X = " << tctrig->X();
979  std::cout << std::endl;
980  std::cout << "*************************************************************";
981  std::cout << std::endl;
982  }
983  // End debugging
984 
985  return 1;
986 
987 }
988 
989 void
990 DTTracoChip::add_btiT(int step, int pos, const DTBtiTrigData* btitrig) {
991 
992  if(pos<1 || pos>4*DTConfigTraco::NBTITC) {
993  std::cout << "DTTracoChip::add_btiT: wrong position: " << pos;
994  std::cout << "trigger not added!" << std::endl;
995  return;
996  }
997  if(step<DTConfigTraco::NSTEPF||step>DTConfigTraco::NSTEPL){
998  std::cout << "DTTracoChip::add_btiT: step out of range: " << step;
999  std::cout << "trigger not added!" << std::endl;
1000  return;
1001  }
1002 
1003  if(!config()->usedBti(pos)) {
1004  if(config()->debug()==4){
1005  std::cout << "DTTracoChip::add_btiT: position: " << pos;
1006  std::cout << "has disconnected bti" << std::endl;
1007  }
1008  return;
1009  }
1010 
1011 
1012  // 091103 SV: acceptances are taken from geometry if useAcceptParam()=false
1013  // otherwise cuts based on LL,LH,CL,CH,RL,RH taken from configuration are applied in TracoCard::loadTraco
1014  if(_card->useAcceptParamFlag()==false) {
1015  // check K inside acceptance
1016  if(btitrig->K()<_PSIMIN[pos-1] || btitrig->K()>_PSIMAX[pos-1] ) {
1017  if(config()->debug()>1){
1018  std::cout << "In TRACO num. " << number() << " BTI trig. in pos " << pos << " outside K acceptance (";
1019  std::cout << _PSIMIN[pos-1] << "-->";
1020  std::cout << _PSIMAX[pos-1] << ") - Not added" << std::endl;
1021  }
1022  return;
1023  }
1024  }
1025 
1026  // Store trigger candidate
1027  if(pos<=DTConfigTraco::NBTITC){
1028  _innerCand[step-DTConfigTraco::NSTEPF].push_back(
1029  DTTracoCand(this,btitrig,pos,step));
1030  } else {
1031  _outerCand[step-DTConfigTraco::NSTEPF].push_back(
1032  DTTracoCand(this,btitrig,pos,step));
1033  }
1034 
1035  // Fill array for BX LTS
1036  if(btitrig->code()==8){
1037  for(int is=step-4;is<step;is++){ // set flag for 4 previous BX
1038  if(is>0&&is<=DTConfigTraco::NSTEPL) _bxlts.set(is);
1039  }
1040  //SV 1/IV/04 BUG FIX
1041  _bxlts.set(step+1);
1042  // Debugging
1043  if(config()->debug()==4)
1044  for(int is=0;is<DTConfigTraco::NSTEPL;is++)
1045  std::cout<<"_bxlts["<<is<<"]="<<_bxlts.element(is)<<std::endl;
1046  }
1047 
1048  // Debugging
1049  if(config()->debug()>1){
1050  std::cout << "BTI Trigger added at step " << step;
1051  std::cout << " to TRACO " << _id.traco() << " at position " << pos << std::endl;
1052  btitrig->print();
1053  } // End debugging
1054 
1055 }
1056 
1057 
1058 void
1060  if(step<DTConfigTraco::NSTEPF||step>DTConfigTraco::NSTEPL){
1061  std::cout << "DTTracoChip::addTrig: step out of range: " << step;
1062  std::cout << " trigger not added!" << std::endl;
1063  return;
1064  }
1065  _tracotrig[step-DTConfigTraco::NSTEPF].push_back(tctrig);
1066 
1067  // Debugging...
1068 
1069  if(config()->debug()==4){
1070  std::cout << "DTTracoChip::addTrig: adding trigger:"<< std::endl;
1071  tctrig->print();
1072  }
1073  // End debugging
1074 
1075 }
1076 
1077 int
1079  if(step<DTConfigTraco::NSTEPF||step>DTConfigTraco::NSTEPL){
1080  std::cout << "DTTracoChip::nTrig: step out of range: " << step;
1081  std::cout << " 0 returned!" << std::endl;
1082  return 0;
1083  }
1084  return _tracotrig[step-DTConfigTraco::NSTEPF].size();
1085 }
1086 
1087 DTTracoTrig*
1088 DTTracoChip::trigger(int step, unsigned n) const {
1089  if(step<DTConfigTraco::NSTEPF||step>DTConfigTraco::NSTEPL){
1090  std::cout << "DTTracoChip::trigger: step out of range: " << step;
1091  std::cout << " empty pointer returned!" << std::endl;
1092  return 0;
1093  }
1094  if(n<1 || n>_tracotrig[step-DTConfigTraco::NSTEPF].size()) {
1095  std::cout << "DTTracoChip::trigger: requested trigger doesn't exist: " << n;
1096  std::cout << " empty pointer returned!" << std::endl;
1097  return 0;
1098  }
1099  std::vector<DTTracoTrig*>::const_iterator p =
1100  _tracotrig[step-DTConfigTraco::NSTEPF].begin()+n-1;
1101  return *p;
1102 }
1103 
1105 DTTracoChip::triggerData(int step, unsigned n) const {
1106  if(step<DTConfigTraco::NSTEPF||step>DTConfigTraco::NSTEPL){
1107  std::cout << "DTTracoChip::triggerData: step out of range: " << step;
1108  std::cout << " dummy trigger returned!" << std::endl;
1109  return DTTracoTrigData();
1110  }
1111  if(n<1 || n>_tracotrig[step-DTConfigTraco::NSTEPF].size()) {
1112  std::cout << "DTTracoChip::trigger: requested trigger doesn't exist: " << n;
1113  std::cout << " dummy trigger returned!" << std::endl;
1114  return DTTracoTrigData();
1115  }
1116  std::vector<DTTracoTrig*>::const_iterator p =
1117  _tracotrig[step-DTConfigTraco::NSTEPF].begin()+n-1;
1118  return (*p)->data();
1119 }
1120 
1121 float
1122 DTTracoChip::psiRad(int sl) const {
1123 /*
1124  // Radial angle of correlator center in mrad in CMS frame
1125  LocalPoint p = localPosition();
1126  float x = p.x();
1127  float y = p.y();
1128  float z = p.z();
1129  if (sl==1) {
1130  z -= 0.5 * _geom->distSL();
1131  } else if (sl==3) {
1132  z += 0.5 * _geom->distSL();
1133  }
1134  float fpsir = _geom->stat()->toGlobal(LocalPoint(x,y,z)).phi()-
1135  _geom->phiCh();
1136  if(fpsir<-M_PI)fpsir+=M_PI*2;
1137  if(fpsir>M_PI)fpsir-=M_PI*2;
1138  return fpsir*1000;
1139 */
1140  return 0.0;
1141 }
1142 
1143 int
1145  // K parameter of the radial angle of correlator center
1146  //float distp2 = (int)(2*_geom->cellH()*config()->ST()/_geom->cellPitch());
1147  //return -(int)(tan(psiRad(sl)/1000)*distp2); // sign is reverted!!!
1148  //return _krad;
1149 
1150  //SV V/03: for harware bug in traco....
1151  int KRad=0;
1152  return KRad;
1153 
1154 }
1155 
1156 int
1158  // return 1 if II track use is allow
1159  // return 0 if II track has been rejected
1160  if(step<DTConfigTraco::NSTEPF||step>DTConfigTraco::NSTEPL){
1161  std::cout << "DTTracoChip::useSecondTrack: step out of range: " << step;
1162  std::cout << " 0 returned!" << std::endl;
1163  return 0;
1164  }
1165  return !(_flag[step-DTConfigTraco::NSTEPF].element(2));
1166 }
1167 
1168 int
1169 DTTracoChip::edgeBTI(int step, int io, int lr) const {
1170  if(step<DTConfigTraco::NSTEPF||step>DTConfigTraco::NSTEPL){
1171  std::cout << "DTTracoChip::edgeBTI: step out of range: " << step;
1172  std::cout << " 0 returned!" << std::endl;
1173  return 0;
1174  }
1175  //
1176  // inner supl ==> io=1; outer supl ==> io=2 |21 | | 22|
1177  // right edge ==> rl=1; left edge ==> rl=2 |11 12|
1178  //
1179  std::vector<DTTracoCand>::const_iterator p;
1180  if(io==1){
1181  if(_innerCand[step-DTConfigTraco::NSTEPF].size()>0) {
1182  // SV 24/IX/03 fix: only HTRIG accepted
1183  for(p=_innerCand[step-DTConfigTraco::NSTEPF].begin();
1184  p<_innerCand[step-DTConfigTraco::NSTEPF].end(); p++){
1185  if(lr==1 && (*p).position()==1 && (*p).BtiTrig()->code()==8 )
1186  return 1;
1187  if(lr==2 && (*p).position()==DTConfigTraco::NBTITC && (*p).BtiTrig()->code()==8 )
1188  return 1;
1189  }
1190  }
1191  } else {
1192  if(_outerCand[step-DTConfigTraco::NSTEPF].size()>0) {
1193  for(p=_outerCand[step-DTConfigTraco::NSTEPF].begin();
1194  p<_outerCand[step-DTConfigTraco::NSTEPF].end(); p++){
1195  //SV: is the following correct???FIX if using _card to set _flag
1196  //if(lr==1 && (*p).position()==DTConfigTraco::NBTITC+1)return 1; //or pos=8??
1197  //if(lr==2 && (*p).position()==DTConfigTraco::NBTITC*4)return 1; //or pos=13??
1198  //SV 24/IX/03 fix
1199  if(lr==1 && (*p).position()==DTConfigTraco::NBTITC*3+1 && (*p).BtiTrig()->code()==8 )
1200  return 1;
1201  if(lr==2 && (*p).position()==DTConfigTraco::NBTITC*2 && (*p).BtiTrig()->code()==8 )
1202  return 1;
1203  }
1204  }
1205  }
1206  return 0;
1207 }
1208 
1209 void
1211 
1212  int ipsi=0;
1213  int iphir=0;
1214  int idpsir=0;
1215 /* obsolete
1216  //TB 2004 luts formula from minicrate CCB
1217  if( config()->trigSetupGeom()==2 ){
1218  ipsi = _lutsCCB->get_k( (tct->K()+511) );
1219 
1220  int flag = 0;
1221  int qual=tct->data().qdec();
1222  if(qual==3 || qual==1) //case 0:outer
1223  flag=0;
1224  if(qual==2 || qual==0) //case 1:inner
1225  flag=1;
1226  if(qual==6 || qual==5 || qual==4) //case 2:correlated
1227  flag=2;
1228 
1229  iphir = _lutsCCB->get_x( (tct->X()+512*flag) );
1230 
1231  idpsir = ipsi - iphir/8;
1232  }
1233 
1234  //TB 2003 luts data format
1235  if( config()->trigSetupGeom()==1 ){
1236  //compute bending angles of traco output with lookup tables
1237  //SV TB2003: first trigger board isn't connected;
1238  ipsi = _luts->getPsi(tct->K());
1239  int flag = 0;
1240  int qual=tct->data().qdec();
1241  if(qual==3 || qual==1) //case 0:outer
1242  flag=0;
1243  if(qual==2 || qual==0) //case 1:inner
1244  flag=1;
1245  if(qual==6 || qual==5 || qual==4) //case 2:correlated
1246  flag=2;
1247  iphir = _luts->getPhiRad( tct->X(), flag);
1248  idpsir = _luts->getBendAng( tct->X(), tct->K(), flag);
1249  }
1250  */
1251 
1252  // 091030 SV angles computed from DB lut parameters
1253  if( _card->lutFromDBFlag()==1 )
1254  {
1255  ipsi = _lutsCCB->get_k( (tct->K()+512) );
1256 
1257  int flag = 0;
1258  int qual=tct->data().qdec();
1259  if(qual==3 || qual==1) //case 0:outer
1260  flag=0;
1261  if(qual==2 || qual==0) //case 1:inner
1262  flag=1;
1263  if(qual==6 || qual==5 || qual==4) //case 2:correlated
1264  flag=2;
1265 
1266  iphir = _lutsCCB->get_x( (tct->X()+512*flag) );
1267 
1268  idpsir = ipsi - iphir/8;
1269  }
1270  else
1271  // compute angles from CMSSW geometry
1272  //if( config()->trigSetupGeom()==0 )
1273  {
1274  DTTracoTrigData td = tct->data();
1275  // psi
1276  // float fpsi = atan( (float)(tct->K()) * _geom->cellPitch() /
1277  // (_geom->distSL() * config()->ST()) );
1278  float fpsi = atan( _card->localDirection(&td).x() / // e.g. x>0 and
1279  _card->localDirection(&td).z() ); // z<0 => fpsi<0
1280 
1281  // Change sign in case of wheel<0 or wheel==0 and station == 1,4,5,8,9,12
1282  int mywh = tct->ChamberId().wheel();
1283  if (mywh<0 ||
1284  (mywh==0 && (tct->ChamberId().sector()%4)<2))
1285  fpsi = -fpsi;
1286 
1288  if(fpsi<=0)
1289  fpsi-=1.0;
1290  ipsi = (int)fpsi;
1291  // if outside range set to lower edge
1292  if( ipsi>= DTConfigTraco::RESOLPSI || ipsi< -DTConfigTraco::RESOLPSI )
1294 
1295 
1296  // psi_r
1297  float fpsir = _card->CMSPosition(&td).phi()-_geom->phiCh();
1298 
1299  if(fpsir<-M_PI)
1300  fpsir+=M_PI*2;
1301  if(fpsir>M_PI)
1302  fpsir-=M_PI*2;
1303  fpsir*=DTConfigTraco::RESOLPSIR;
1304  if(fpsir<=0)
1305  fpsir-=1.0;
1306  iphir = (int)fpsir;
1307  // if outside range set to lower edge
1308  if( iphir>= DTConfigTraco::RESOLPSIR/2 || iphir <-DTConfigTraco::RESOLPSIR/2 )
1309  iphir=-DTConfigTraco::RESOLPSIR/2;
1310 
1311  // Delta(psi_r)
1312  int dpsir = (iphir*DTConfigTraco::RESOLPSI) / DTConfigTraco::RESOLPSIR;
1313  idpsir = ipsi-dpsir;
1314  // if outside range set to lower edge
1315  if(idpsir>= DTConfigTraco::RESOLPSI || idpsir <-DTConfigTraco::RESOLPSI )
1316  idpsir=-DTConfigTraco::RESOLPSI;
1317  }
1318 
1319  tct->setAngles(ipsi,iphir,idpsir);
1320 
1321  // debugging
1322  if(config()->debug()==4){
1323  std::cout << "DTTracoChip::calculateAngles :" << std::endl;
1324  tct->print();
1325  std::cout << std::dec << "K = " << tct->K() << " X = " << tct->X();
1326  std::cout << " ipsi = " << ipsi << " iphir = " << iphir;
1327  std::cout << " idpsir = " << idpsir << std::endl;
1328  if( _card->lutFromDBFlag()==1 )
1329  std::cout << "Angles are calculated from LUT parameters from DB!" << std::endl;
1330  }// end debugging
1331 
1332 }
1333 
1334 int
1336  // check angular window for every station type
1337  // return 1 for accept, 0 for reject
1338  // abs value of bending angle is 9 bits
1339 
1340  BitArray<10> bendAng;
1341  bendAng.assign(0,10,tctrig->DeltaPsiR());
1342  //bendAng.print();
1343  if(bendAng.element(9)) //negativo!
1344  bendAng.twoComplement();
1345  int bendAngINT = bendAng.read(0,9);
1346  //std::cout<<"abs bend angle int ="<< bendAngINT <<std::endl;
1347 
1348  if( config()->BendingAngleCut()!= -1 &&
1349  bendAngINT > 2*(config()->BendingAngleCut())) {
1350  int absBendAng = tctrig->DeltaPsiR() & 0x1FF;
1351  if(config()->debug()==4)
1352  std::cout << "Attention: abs(bendAng)=" << absBendAng << " > "
1353  << 2*config()->BendingAngleCut() <<"!! reject trigger"<<std::endl;
1354  return 0;
1355  }
1356  return 1;
1357 }
1358 
1359 
1360 void
1362 {
1363  // Set K acceptances of DTTracoChip MT ports: Ktraco = Xinner - Xouter
1364  float h = _geom->cellH();
1365  float pitch = _geom->cellPitch();
1366  float distsl = _geom->distSL();
1367  float K0 = config()->BTIC();
1368  float shiftSL = _geom->phiSLOffset() / pitch * K0;
1369 
1370  // mt ports from orca geometry: this is always the case with new DTConfig
1371  //if(config_traco(tracoid)->trigSetupGeom() != 1){
1372  {
1373  // Master Plane
1374  int i = 0;
1375  for(i=0;i<DTConfig::NBTITC;i++){
1376  float Xin_min = (i + DTConfig::NBTITC) * K0 + shiftSL;
1377  float Xin_max = Xin_min + K0;
1378  float Xout_min = 0;
1379  float Xout_max = 3 * DTConfig::NBTITC * K0;
1380  _PSIMAX[i] = int( 2.*h/distsl * (Xin_max - Xout_min) + K0 + 1.01 );
1381  _PSIMIN[i] = int( 2.*h/distsl * (Xin_min - Xout_max) + K0 );
1382  }
1383 
1384  // Slave Plane
1385  for(i=0;i<3*DTConfig::NBTITC;i++){
1386  float Xin_min = (DTConfig::NBTITC) * K0 + shiftSL;
1387  float Xin_max = 2. * DTConfig::NBTITC * K0 + shiftSL;
1388  float Xout_min = i * K0;
1389  float Xout_max = Xout_min + K0;
1390  _PSIMAX[DTConfig::NBTITC+i] = int( 2.*h/distsl * (Xin_max - Xout_min) + K0 + 1.01 );
1391  _PSIMIN[DTConfig::NBTITC+i] = int( 2.*h/distsl * (Xin_min - Xout_max) + K0 );
1392  }
1393  }
1394 
1395 
1396  // debugging
1397  if(config()->debug()==4){
1398  //if(wheel()==2&&station()==3&&sector()==1){ // only 1 chamber
1399  std::cout << "Acceptance of mt ports for offset (cell unit) "
1400  << _geom->phiSLOffset() / pitch << std::endl;
1401  for(int i=0;i<4*DTConfig::NBTITC;i++){
1402  std::cout << "Port " << i+1 << " : ";
1403  std::cout << _PSIMIN[i] << " --> " << _PSIMAX[i] << std::endl;
1404  }
1405  //}
1406  }// end debugging
1407 
1408 }
1409 
1410 
1411 
void setPosIn(int pos)
Set position of segments, inner.
Definition: DTTracoTrig.h:87
int _PSIMAX[4 *DTConfig::NBTITC]
Definition: DTTracoChip.h:219
DTTSTheta * TSTh() const
Return TSTheta.
Definition: DTTracoCard.h:79
GlobalPoint CMSPosition() const
Position in CMS frame.
Definition: DTTracoChip.h:152
DTChamberId ChamberId() const
Return chamber identifier.
Definition: DTTracoTrig.h:138
std::vector< DTTracoTrig * > _tracotrig[DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1]
Definition: DTTracoChip.h:206
int i
Definition: DBlmapReader.cc:9
GlobalPoint CMSPosition(const DTTrigData *trig) const
CMS position in chamber of a trigger-data object.
DTTrigGeom * geom() const
Associated geometry.
DTTracoTrigData data() const
Return the data part.
Definition: DTTracoTrig.h:153
DTConfigTraco * config() const
Configuration set.
Definition: DTTracoChip.h:115
void run()
Run TRACO algorithm.
Definition: DTTracoChip.cc:255
DTTrigGeom * geom() const
Return trigger geometry.
Definition: DTTracoChip.h:97
int nHTrig(int step)
Return number of DTBtiChip fired with a HTRIG (used by DTTracoChip)
Definition: DTTSTheta.cc:243
float phiCh() const
Rotation angle of chamber (deg)
Definition: DTTrigGeom.h:72
int insideAngWindow(DTTracoTrig *) const
Check if a trigger is inside the angular acceptance window.
float cellPitch() const
Width of a cell (cm) i.e. distance between ywo wires.
Definition: DTTrigGeom.h:78
int AdjBtiLTSuppressed(DTTracoCand *candidate)
Do suppression of LTRIG on adjacent TRACO.
Definition: DTTracoChip.cc:554
int eq() const
Return triggering equation.
FWCore Framework interface EventSetupRecordImplementation h
Helper function to determine trigger accepts.
void setX(int x)
Set trigger X parameter.
Definition: DTTracoTrig.h:112
void setK(int k)
Set trigger K parameter.
Definition: DTTracoTrig.h:107
Lut * _lutsCCB
Definition: DTTracoChip.h:224
void calculateAngles(DTTracoTrig *)
Calculate trigger angles.
void setFlag(int step, int ext=0)
Set flags for multiple trigger detection between cons. TRACO&#39;s.
Definition: DTTracoChip.cc:426
void addTrig(int step, DTTracoTrig *)
Add a TRACO trigger.
void setTracoAcceptances()
Compute traco chip acceptances.
DTTracoLUTs * _luts
Definition: DTTracoChip.h:222
int BTIC() const
BTIC parameter.
Definition: DTTracoChip.h:125
void resetVar()
Reset all variables but preview.
Definition: DTTracoTrig.h:122
DTTracoId _id
Definition: DTTracoChip.h:190
void zero()
Definition: BitArray.h:216
DTSuperLayerId
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
isFirst
Definition: cuy.py:417
int KRAD() const
KRAD traco parameter.
Definition: DTConfigTraco.h:70
static const int NSTEPF
Definition: DTConfig.h:36
int prefHtrig(int i) const
Preference to HTRIG on first/second tracks: F(S)HTPRF.
int KRad() const
K par of the radial angle of corr center referred to plane sl.
int K() const
Return K-KRAD.
Definition: DTTracoCand.h:79
int LVALIDIFH() const
Flag for Low validation parameter.
int get_k(int addr) const
Definition: Lut.cc:109
bool lutFromDBFlag()
Return lut computation option (DB/geometry)
Definition: DTTracoCard.h:114
int get_x(int addr) const
Definition: Lut.cc:123
int singleLenab(int i) const
Single LTRIG accept enabling on first/second tracks LTF.
void add_btiT(int step, int pos, const DTBtiTrigData *btitrig)
Add a BTI trigger to the TRACO.
Definition: DTTracoChip.cc:990
DTTracoChip * getTRACO(int n) const
Returns the required DTTracoChip. Return 0 if it doesn&#39;t exist.
Definition: DTTracoCard.cc:307
void setCodeIn(int code)
Set trigger code, inner segment.
Definition: DTTracoTrig.h:77
void setPosOut(int pos)
Set position of segments, outer.
Definition: DTTracoTrig.h:92
~DTTracoChip()
Destructor.
Definition: DTTracoChip.cc:183
int traco() const
Returns the traco.
Definition: DTTracoId.h:70
int BTIC() const
BTIC traco parameter: must be equal to Btis ST parameter.
Definition: DTConfigTraco.h:73
DTTracoCand * bestCand(int itk, std::vector< DTTracoCand > &tclist)
Get the best inner/outer candidate.
Definition: DTTracoChip.cc:471
int step() const
Return step.
Definition: DTTracoTrig.h:163
int step() const
Return Bunch crossing.
Definition: DTTracoCand.h:73
float distSL() const
Distance between the phi view superlayers (cms)
Definition: DTTrigGeom.h:81
void setCodeOut(int code)
Set trigger code, outer segment.
Definition: DTTracoTrig.h:82
float cellH() const
Height of a cell (cm)
Definition: DTTrigGeom.h:75
T z() const
Definition: PV3DBase.h:64
int BendingAngleCut() const
Bending angle cut for all stations and triggers : KPRGCOM.
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
void raiseOverlap(int step)
raise overlap flag
Definition: DTTracoChip.cc:419
int number() const
Return TRACO number.
Definition: DTTracoChip.h:91
unsigned read(const int p, const int n) const
Definition: BitArray.h:275
std::vector< DTTracoCand > _outerCand[DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1]
Definition: DTTracoChip.h:203
int storeUncorr(DTTracoTrig *tctrig, DTTracoCand *inner, DTTracoCand *outer, int tkn)
Store uncorrelated trigger.
Definition: DTTracoChip.cc:796
void setEqOut(int eq)
Set bti trigger equation of segments, outer.
Definition: DTTracoTrig.h:102
const DTBtiTrigData * BtiTrig() const
Return associated BTI trigger.
Definition: DTTracoCand.h:70
std::vector< DTTracoCand > _innerCand[DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1]
Definition: DTTracoChip.h:202
static const int NSTEPL
Constants: first and last step to start trigger finding.
Definition: DTConfig.h:36
DTTracoTrig * trigger(int step, unsigned n) const
Return the requested trigger.
int btiNumber() const
Return parent BTI number.
void addDTBtiTrig(const DTBtiTrigData *btitrig)
Add a BTI trigger to the list.
Definition: DTTracoTrig.h:62
void setAngles(int psi, int psir, int dpsir)
Set trigger angles.
Definition: DTTracoTrig.h:117
#define M_PI
int TcBxLts() const
Suppr. of LTRIG in 4 BX before HTRIG: LTS.
DTTracoChip(DTTracoCard *card, int n, DTConfigTraco *config)
Constructor.
Definition: DTTracoChip.cc:47
int edgeBTI(int step, int io, int lr) const
flags for HTRIG in edge BTI
BitArray< 32 > _flag[DTConfigTraco::NSTEPL-DTConfigTraco::NSTEPF+1]
Definition: DTTracoChip.h:215
DTTracoChip & operator=(const DTTracoChip &traco)
Assignment operator.
Definition: DTTracoChip.cc:205
#define debug
Definition: HDRShower.cc:19
static const int RESOLPSIR
Costant: resulution for psiR (phi)
Definition: DTConfigTraco.h:46
int TcKToll(int i) const
K tollerance for correlation in TRACO: F(S)PRGCOMP.
int prefInner(int i) const
Preference to inner on first/second tracks: F(S)SLMSK.
float phiSLOffset()
Superlayer offset in chamber front-end frame, in cm.
Definition: DTTrigGeom.cc:71
DTChamberId statId() const
Identifier of the associated chamber.
Definition: DTTrigGeom.h:55
int qdec() const
Return the trigger code in new format.
Definition: DTTracoTrig.h:243
int element(const int pos) const
Definition: BitArray.h:210
int btiSL() const
Return parent BTI superlayer.
void clear()
Clear.
Definition: DTTracoChip.cc:237
BitArray< DTConfigTraco::NSTEPL+2 > _bxlts
Definition: DTTracoChip.h:209
bool useAcceptParamFlag()
Return acceptance flag.
Definition: DTTracoCard.h:111
void DoAdjBtiLts(DTTracoCand *candidate, std::vector< DTTracoCand > &tclist)
Do suppression of LTRIG on BTI close to selected HTRIG.
Definition: DTTracoChip.cc:532
BitArray< N > twoComplement() const
Definition: BitArray.h:500
int K() const
Return trigger K parameter.
void assign(const int p, const int n, const int val)
Definition: BitArray.h:239
int storeCorr(DTTracoTrig *tctrig, DTTracoCand *inner, DTTracoCand *outer, int tkn)
Check correlation and store correlated trigger.
Definition: DTTracoChip.cc:648
void setPVCorr(int ic)
Set trigger preview correlation bit.
Definition: DTTracoTrig.h:72
DTTracoTrigData triggerData(int step, unsigned n) const
Return the data part of the requested trigger.
int qdec() const
Return the trigger code in new format.
void print() const
Print.
Definition: DTTracoTrig.h:143
LocalPoint localPosition(const DTBtiId) const
Local position in chamber of a BTI.
Definition: DTTrigGeom.cc:523
void print() const
Print.
void setUsed()
set candidate used (unusable)
Definition: DTTracoCand.h:58
#define begin
Definition: vmac.h:30
double p1[4]
Definition: TauolaWrapper.h:89
int X() const
Return trigger X parameter.
Definition: DTTracoTrig.h:223
int sector() const
Definition: DTChamberId.h:61
const DTConfigLUTs * config_luts() const
Return LUTS config for this chamber (=minicrate)
Definition: DTTracoCard.h:108
void setEqIn(int eq)
Set bti trigger equation of segments, inner.
Definition: DTTracoTrig.h:97
int singleLflag(int i) const
Single LTRIG enabling on first/second tracks: F(S)LTMSK.
Definition: DTConfigTraco.h:95
int _PSIMIN[4 *DTConfig::NBTITC]
Definition: DTTracoChip.h:218
static unsigned int const shift
DTTracoCard * _card
Definition: DTTracoChip.h:192
tuple cout
Definition: gather_cfg.py:145
int useSecondTrack(int step) const
a flag for a usable second track
void setUnused()
set candidate unused (usable)
Definition: DTTracoCand.h:61
static const int NBTITC
Definition: DTConfig.h:38
int station() const
Return the station number.
Definition: DTChamberId.h:51
void setPV(int first, int code, int K, int io)
Set trigger preview parameters.
Definition: DTTracoTrig.h:67
float psiRad(int sl=0) const
Radial angle of correlator center in mrad referred to plane sl.
int TcReuse(int i) const
Recycling of TRACO cand. in inner/outer SL : REUSEI/REUSEO.
Definition: DTConfigTraco.h:79
int wheel() const
Return the wheel number.
Definition: DTChamberId.h:45
T x() const
Definition: PV3DBase.h:62
static const int RESOLPSI
Costants: esolution for psi and DeltaPsiR (phi_B)
Definition: DTConfigTraco.h:44
int X() const
Return local X coordinate.
Definition: DTTracoCand.h:82
DTTrigGeom * _geom
Definition: DTTracoChip.h:189
int debug() const
Debug flag.
Definition: DTConfigTraco.h:67
int position() const
Return position inside TRACO.
Definition: DTTracoCand.h:76
int sortKascend(int i) const
Ascend. order for K sorting first/second tracks: F(S)HISM.
void set(const int i)
Definition: BitArray.h:230
tuple size
Write out results.
void setPV(int step, int ntrk, int code, int K)
Set the preview values for a TRACO trigger.
LocalVector localDirection(const DTTrigData *) const
NEWGEO Local direction in chamber of a trigger-data object.
Definition: DTTracoCard.cc:429
int code() const
Return trigger code.
Definition: DTTracoTrig.h:168
int K() const
Return trigger K parameter.
Definition: DTTracoTrig.h:218
int DeltaPsiR() const
Return DeltaPsiR.
Definition: DTTracoTrig.h:238
Definition: Lut.h:32
void print() const
Print candidate.
Definition: DTTracoCand.cc:122
int nTrig(int step) const
Return the number of trigger candidates.
int nTrig(int step)
Return number of DTBtiChip fired (used by DTTracoChip)
Definition: DTTSTheta.cc:232
int code() const
Return trigger code.