BOSS 7.0.5
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TBuilder.cxx
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1//-----------------------------------------------------------------------------
2// $Id: TBuilder.cxx,v 1.26 2012/05/28 05:16:29 maoh Exp $
3//-----------------------------------------------------------------------------
4// Filename : TBuilder.cc
5// Section : Tracking
6// Owner : Yoshi Iwasaki
7// Email : [email protected]
8//-----------------------------------------------------------------------------
9// Description : A class to build a track.
10// See http://bsunsrv1.kek.jp/~yiwasaki/tracking/
11//-----------------------------------------------------------------------------
12
13#include "CLHEP/String/Strings.h"
14#include "TrkReco/TBuilder.h"
15#include "TrkReco/TMDC.h"
16#include "TrkReco/TMDCWire.h"
17#include "TrkReco/TMDCWireHit.h"
18#include "TrkReco/TMLink.h"
19#include "TrkReco/TCircle.h"
20#include "TrkReco/TLine0.h"
21#include "TrkReco/TMLine.h"
22#include "TrkReco/TTrack.h"
23#include "TrkReco/TSegment.h"
24#include "TrkReco/TPoint2D.h"
25#include "TrkReco/TLine2D.h"
26#include "TrkReco/TRobustLineFitter.h"
27#ifdef TRKRECO_DEBUG
28#include "TrkReco/TMDCWireHitMC.h"
29#include "TrkReco/TTrackHEP.h"
30#endif
31#ifdef TRKRECO_WINDOW
32#include "TrkReco/TWindow.h"
33TWindow sz("sz");
34#endif
35
36TBuilder::TBuilder(const std::string & a,
37 float maxSigma,
38 float maxSigmaStereo,
39 float salvageLevel,
40 float szSegmentDistance,
41 float szLinkDistance,
42 unsigned fittingFlag)
43: _name(a),
44 _fitter("TBuilder Fitter"),
45 _maxSigma(maxSigma),
46 _maxSigmaStereo(maxSigmaStereo),
47 _salvageLevel(sqrt(salvageLevel)),
48// _minNCores(3), //20060307
49 _minNCores(2), //liuqg20070312
50 _szSegmentDistance(szSegmentDistance),
51 _szLinkDistance(szLinkDistance) {
52 if (fittingFlag & 1) _fitter.sag(true);
53 if (fittingFlag & 2) _fitter.propagation(true);
54 if (fittingFlag & 4) _fitter.tof(true);
55 if (fittingFlag & 8) _fitter.freeT0(true);
56}
57
59}
60
61void
62TBuilder::dump(const std::string & msg, const std::string & pre) const {
63}
64
65TTrack *
67
68#ifdef TRKRECO_DEBUG
69 std::cout << "... building rphi by segments : # of segments = ";
70 std::cout << list.length() << std::endl;
71 for (unsigned i = 0; i < list.length(); i++)
72 list[i]->dump("hits sort flag", " ");
73#endif
74 //yuany
75 // for (unsigned i = 0; i < list.length(); i++)
76 // list[i]->dump("", " ");
77
78 //...Pick up links...
79 AList<TMLink> links = Links(list);
80 //yuany
81// for(unsigned i=0;i<links.length();i++){
82// cout<<"wire name "<<links[i]->wire()->name()<<endl;
83// }
84
85 //...Main funtion...
86 TTrack * t = buildRphi(links);
87
88 //...Check used segments...
89 if (t) {
90 const AList<TMLink> & usedLinks = t->links();
91 unsigned n = list.length();
92 for (unsigned i = 0; i < n; i++) {
93 TSegment & segment = * list[i];
94 AList<TMLink> used = Links(segment, * t);
95 if (used.length()) {
96 t->segments().append(segment);
97 segment.tracks().append(t);
98 }
99 }
100 }
101
102 return t;
103
104}
105
106TTrack *
108#ifdef TRKRECO_DEBUG
109 std::cout << "... building rphi by links : # of links = ";
110 std::cout << list.length() << std::endl;
111#endif
112
113 //...Classify TMLink's...
114 AList<TMLink> cores;
115 AList<TMLink> nonCores;
116 SeparateCores(list, cores, nonCores);
117
118#ifdef TRKRECO_DEBUG
119 cout<<" ... cores..."<<endl;
120 for(int ii = 0; ii < cores.length(); ++ii) {
121 cout<<"layer: "<<cores[ii]->wire()->layerId()
122 <<" local: "<<cores[ii]->wire()->localId()<<endl;
123 }
124 cout<<" ...noncores..."<<endl;
125 for(int ii = 0; ii < nonCores.length(); ++ii) {
126 cout<<"layer: "<<nonCores[ii]->wire()->layerId()
127 <<" local: "<<nonCores[ii]->wire()->localId()<<endl;
128 }
129#endif
130 //...Check # of links...
131 unsigned nCores = cores.length();
132 if (nCores < _minNCores) {
133#ifdef TRKRECO_DEBUG
134 std::cout << "... building rphi failure : # of cores(=" << nCores;
135 std::cout << ") is less then " << _minNCores << std::endl;
136#endif
137
138 return NULL;
139 }
140
141 //...Make a circle...
142#ifdef TRKRECO_DEBUG
143 std::cout <<"links in list = "<<list.length()<<std::endl;
144 std::cout << "... making a circle : # cores =" << cores.length() << std::endl;
145#endif
146 TCircle c(cores);
147 int err = c.fit();
148 if (err < 0) {
149#ifdef TRKRECO_DEBUG
150 std::cout << "... building rphi failure : circle fit error = ";
151 std::cout << err << std::endl;
152#endif
153 return NULL;
154 }
155// cout<<"radius "<<c.radius()<<" charge "<<c.charge()<<" center "<<c.center()<<endl;
156 //...Make a track...
157 TTrack * t = new TTrack(c);
158// t->dump("hits sort flag", " ");
159 AList<TMLink> bad;
160 err = _fitter.fit(* t);
161 //cout<<"fit 1 done err: "<<err<<endl;
162 // t->dump("hits sort flag", " ");
163 if (err < 0) goto discard;
164 t->refine(bad, _maxSigma * 100.);
165 //cout<<"refine 1 done"<<endl;
166 //t->dump("hits sort flag", " ");
167 err = _fitter.fit(* t);
168 //cout<<"fit 2 done err: "<<err<<endl;
169 //t->dump("hits sort flag", " ");
170 t->refine(bad, _maxSigma * 10.);
171 //cout<<"refine 2 done"<<endl;
172 //t->dump("hits sort flag", " ");
173 err = _fitter.fit(* t);
174 //cout<<"fit 3 done err: "<<err<<endl;
175 //t->dump("hits sort flag", " ");
176 t->refine(bad, _maxSigma);
177 //cout<<"refine 3 done"<<endl;
178 //t->dump("hits sort flag", " ");
179 err = _fitter.fit(* t);
180 //cout<<"fit 4 done err: "<<err<<endl;
181
182 if (err < 0) goto discard;
183#ifdef TRKRECO_DEBUG_DETAIL
184 c.dump("detail", " ccl> ");
185 t->dump("detail", " 1st> ");
186#endif
187
188 //...Try to append non-core hits...
189#ifdef TRKRECO_DEBUG
190 std::cout << "... appending non-core hits : # = " << nonCores.length();
191 std::cout << std::endl;
192#endif
193 t->appendByApproach(nonCores, _salvageLevel);
194#ifdef TRKRECO_DEBUG
195 t->dump("hits sort flag", " ");
196#endif
197// t->dump("hits sort flag", " ");
198 return t;
199
200 //...Something happened...
201discard:
202#ifdef TRKRECO_DEBUG
203 std::cout << "... building rphi failure : helix fit error = ";
204 std::cout << err << std::endl;
205#endif
206 delete t;
207 return NULL;
208}
209
210void
212
213#ifdef TRKRECO_DEBUG
214 std::cout << "... salvaging(TBuilder) : # of given hits=" << hits.length();
215 std::cout << ", salvage level=" << _salvageLevel << std::endl;
216 Dump(hits, "hits sort flag");
217#endif
218
219 unsigned nHits = hits.length();
220 if (nHits == 0) return;
221
222 //...Try to append this hit...
223 t.appendByApproach(hits, _salvageLevel);
224 _fitter.fit(t);
225}
226
227void
229
230#ifdef TRKRECO_DEBUG
231 std::cout << "... salvaging by segments : # of segments = ";
232 std::cout << list.length() << std::endl;
233 for (unsigned i = 0; i < list.length(); i++)
234 list[i]->dump("hits sort flag", " ");
235#endif
236
237 //...Pick up links...
238 AList<TMLink> links;
239 unsigned n = list.length();
240 for (unsigned i = 0; i < n; i++)
241 links.append(list[i]->links());
242
243 salvage(t, links);
244}
245
246TMLine *
248 const AList<TSegment> & list,
249 const AList<TMLink> & lList) const {
250
251 //...Check input...
252 if (list.length() < 2) return NULL;
253
254 //...Check super layer pattern...
255 AList<TSegment> sl[5];
256 AList<TMLink> tl[5];
257 unsigned n = list.length();
258 for (unsigned i = 0; i < n; i ++) {
259 unsigned j = list[i]->superLayerId() / 2;
260 sl[j].append(list[i]);
261 tl[j].append(lList[i]);
262 }
263#ifdef TRKRECO_DEBUG
264 std::cout << " ... initialLine1 : super layer ptn = ";
265 for (unsigned i = 0; i < 5; i++) std::cout << sl[i].length();
266 std::cout << std::endl;
267#endif
268
269 //...Count single segment layer...
270 unsigned nSingle = 0;
271 for (unsigned i = 0; i < 5; i++)
272 if (sl[i].length() == 1) ++nSingle;
273#ifdef TRKRECO_DEBUG
274 std::cout << " ... # of single segment layer = " << nSingle << std::endl;
275#endif
276 if (nSingle < 2) return NULL;
277
278 //...Happy case...
279 AList<TSegment> bestCombination;
280 AList<TMLink> forLine;
281 for (unsigned i = 0; i < 5; i++) {
282 if (sl[i].length() != 1) continue;
283 bestCombination.append(sl[i]);
284 forLine.append(tl[i]);
285 }
286 TMLine & line = * new TMLine(forLine);
287 int err = line.fit();
288 if (err) {
289 delete & line;
290 return NULL;
291 }
292 return & line;
293}
294
295TMLine *
297 const AList<TMLink> & lList) const {
298#ifdef TRKRECO_DEBUG
299 std::cout << " ... initlialLine2 : # of links = " << lList.length();
300 std::cout << std::endl;
301#endif
302
303 //...Static object...
304 static TRobustLineFitter fitter("can you work?");
305 TMLine * line = new TMLine(lList);
306 int err = fitter.fit(* line);
307 if (err) {
308 delete line;
309 return NULL;
310 }
311 return line;
312}
313
314TMLine *
316
317 //...Select good segments in acceptance...
318 AList<TSegment> bad;
319 AList<TMLink> lList;
320 unsigned n = list.length();
321 for (unsigned i = 0; i < n; i++) {
322 TMLink & l = * new TMLink();
323 int err = t.szPosition(* list[i], l);
324 if (err) {
325 bad.append(list[i]);
326 delete & l;
327 continue;
328 }
329
330 const HepPoint3D & p = l.position();
331 if (p.y() > l.wire()->forwardPosition().z() ||
332 p.y() < l.wire()->backwardPosition().z()) {
333 bad.append(list[i]);
334 delete & l;
335 continue;
336 }
337 lList.append(l);
338 }
339 list.remove(bad);
340 n = list.length();
341
342 //...Cal. expected # of super layers...
343 unsigned nAMaxSL = 0;
344 unsigned nAMinSL = 10;
345 const AList<TSegment> & segments = t.segments();
346 unsigned nA = segments.length();
347 for (unsigned i = 0; i < nA; i++) {
348 unsigned sl = segments[i]->superLayerId();
349 if (sl > nAMaxSL) nAMaxSL = sl;
350 if (sl < nAMinSL) nAMinSL = sl;
351 }
352 unsigned nExpected = (nAMaxSL - nAMinSL) / 2;
353#ifdef TRKRECO_DEBUG
354 std::cout << " ... initialLine : axial super layer usage = " << nAMinSL;
355 std::cout << " ~ " << nAMaxSL << std::endl;
356 std::cout << " : expected stereo super layers = ";
357 std::cout << nExpected << std::endl;
358#endif
359
360 TMLine * line = NULL;
361 AList<TSegment> list0 = list;
362 AList<TMLink> lList0 = lList;
363 while (1) {
364 bool last = (NSuperLayers(lList) <= nExpected);
365
366 TMLine * line = initialLine2(t, lList);
367 if (line) {
368 AList<TSegment> tmp = selectStereoSegment(* line, list0, lList0);
369#ifdef TRKRECO_DEBUG
370 std::cout << " ... initialLine2 : # of selected segments = ";
371 std::cout << tmp.length() << std::endl;
372#endif
373 if ((tmp.length() >= nExpected) ||
374 (tmp.length() >= 4) ||
375 last) {
376 list = tmp;
377 return line;
378 }
379 delete line;
380 }
381
382 line = initialLine1(t, list, lList);
383 if (line) {
384 AList<TSegment> tmp = selectStereoSegment(* line, list0, lList0);
385 bool ok = (tmp.length() >= nExpected);
386#ifdef TRKRECO_DEBUG
387 std::cout << " ... initialLine2 : # of selected segments = ";
388 std::cout << tmp.length() << " : ok, last = ";
389 std::cout << ok << ", " << last << std::endl;
390#endif
391 if (ok) {
392 list = tmp;
393 return line;
394 }
395 removeFarSegment(* line, list, lList);
396 delete line;
397 }
398 else {
399 return NULL;
400 }
401 }
402}
403
404TMLine *
406
407 //...Select good segments in acceptance...
408 AList<TSegment> bad;
409 AList<TMLink> lList;
410 unsigned n = list.length();
411 for (unsigned i = 0; i < n; i++) {
412 TMLink & l = * new TMLink();
413 int err = t.szPosition(* list[i], l);
414 if (err) {
415 bad.append(list[i]);
416 delete & l;
417 continue;
418 }
419
420 const HepPoint3D & p = l.position();
421 if (p.y() > l.wire()->forwardPosition().z() ||
422 p.y() < l.wire()->backwardPosition().z()) {
423 bad.append(list[i]);
424 delete & l;
425 continue;
426 }
427 lList.append(l);
428 }
429 list.remove(bad);
430 n = list.length();
431
432 //...Cal. expected # of super layers...
433 unsigned nAMaxSL = 0;
434 unsigned nAMinSL = 10;
435 const AList<TSegment> & segments = t.segments();
436 unsigned nA = segments.length();
437 for (unsigned i = 0; i < nA; i++) {
438 unsigned sl = segments[i]->superLayerId();
439 if (sl > nAMaxSL) nAMaxSL = sl;
440 if (sl < nAMinSL) nAMinSL = sl;
441 }
442 unsigned nExpected = (nAMaxSL - nAMinSL) / 2;
443#ifdef TRKRECO_DEBUG
444 std::cout << " ... initialLine : axial super layer usage = " << nAMinSL;
445 std::cout << " ~ " << nAMaxSL << std::endl;
446 std::cout << " : expected stereo super layers = ";
447 std::cout << nExpected << std::endl;
448#endif
449
450 TMLine * line = NULL;
451 AList<TSegment> list0 = list;
452 AList<TMLink> lList0 = lList;
453 while (1) {
454 TMLine * line = initialLine1(t, list, lList);
455 if (line) {
456 AList<TSegment> tmp = selectStereoSegment(* line, list0, lList0);
457#ifdef TRKRECO_DEBUG
458 std::cout << " ... initialLine1 : # of selected segments = ";
459 std::cout << tmp.length() << std::endl;
460#endif
461 if (tmp.length() >= nExpected) {
462 lList0.remove(line->links());
463 HepAListDeleteAll(lList0);
464 list = tmp;
465 return line;
466 }
467 delete line;
468 }
469
470 line = initialLine2(t, lList);
471 if (line) {
472 AList<TSegment> tmp = selectStereoSegment(* line, list0, lList0);
473 bool ok = (tmp.length() >= nExpected);
474 bool last = (NSuperLayers(lList) <= nExpected);
475#ifdef TRKRECO_DEBUG
476 std::cout << " ... initialLine2 : # of selected segments = ";
477 std::cout << tmp.length() << " : ok, last = ";
478 std::cout << ok << ", " << last << std::endl;
479#endif
480 if (ok || last) {
481 lList0.remove(line->links());
482 HepAListDeleteAll(lList0);
483 list = tmp;
484 return line;
485 }
486 removeFarSegment(* line, list, lList);
487 delete line;
488 }
489 else {
490 HepAListDeleteAll(lList0);
491 return NULL;
492 }
493 }
494}
495
498 const AList<TSegment> & list,
499 const AList<TMLink> & szList) const {
500 AList<TSegment> outList;
501 unsigned n = list.length();
502 for (unsigned i = 0; i < n; i++) {
503 float distance = line.distance(* szList[i]);
504 if (distance < _szSegmentDistance) outList.append(list[i]);
505 }
506 return outList;
507}
508
509void
511 AList<TSegment> & list,
512 AList<TMLink> & szList) const {
513 unsigned n = list.length();
514 float maxDistance = 0.;
515 unsigned maxId = 0;
516 for (unsigned i = 0; i < n; i++) {
517 float distance = line.distance(* szList[i]);
518 if (distance > maxDistance) maxId = i;
519 }
520 list.remove(maxId);
521 szList.remove(maxId);
522}
523
524TTrack *
526 TMLine & line,
527 const AList<TMLink> & list) const {
528#ifdef TRKRECO_DEBUG
529 std::cout << "... building stereo by links : # of links = ";
530 std::cout << list.length() << std::endl;
531#endif
532
533 //...Classify TMLink's...
534 AList<TMLink> cores;
535 AList<TMLink> nonCores;
536 SeparateCores(list, cores, nonCores);
537 //...Check # of links...
538 unsigned nCores = cores.length();
539 if (nCores < _minNCores) {
540#ifdef TRKRECO_DEBUG
541 std::cout << "... stereo building failure : # of cores(=" << nCores;
542 std::cout << ") is less then " << _minNCores << std::endl;
543#endif
544 return NULL;
545 }
546#ifdef TRKRECO_WINDOW
547 sz.appendSz(track, cores, leda_brown);
548#endif
549
550 //...Cal. left and right position...
551 AList<TMLink> forNewLine;
552 for (unsigned i = 0; i < nCores; i++) {
553 TMLink & t = * cores[i];
554 for (unsigned i = 0; i < 2; i++) {
555 TMLink & tt = * new TMLink(t);
556 tt.leftRight(i);
557 int err = track.szPosition(tt);
558 if (err) {
559 delete & tt;
560 }
561 else {
562 if (line.distance(tt) < _szLinkDistance) {
563 tt.link(& t);
564 forNewLine.append(tt);
565 }
566 else {
567 delete & tt;
568 }
569 }
570 }
571 }
572
573 //...Create new line...
574#ifdef TRKRECO_DEBUG
575 std::cout << " ... creating a new line" << std::endl;
576#endif
577 unsigned nNewLine = forNewLine.length();
578 TMLine newLine(forNewLine);
579 static TRobustLineFitter fitter("abc");
580 int err = fitter.fit(newLine);
581 // int err = newLine.fit();
582 if (err < 0) {
583 HepAListDeleteAll(forNewLine);
584#ifdef TRKRECO_DEBUG_DETAIL
585 std::cout << " ... 2nd linear fit failure. nLinks(";
586 std::cout << forNewLine.length() << ")" << std::endl;
587#endif
588 return NULL;
589 }
590
591#ifdef TRKRECO_WINDOW
592 sz.append(newLine, leda_green);
593 sz.wait();
594#endif
595
596#ifdef TRKRECO_DEBUG_DETAIL
597 Dump(forNewLine, "sort hits stereo", " ");
598#endif
599
600 //...Decide left/right...
601 AList<TMLink> toRemove;
602 TMLink * last = NULL;
603 for (unsigned i = 0; i < nNewLine; i++) {
604 if (last == NULL) last = forNewLine[i]->link();
605 else {
606 if (last == forNewLine[i]->link()) {
607 if (newLine.distance(* forNewLine[i - 1]) >
608 newLine.distance(* forNewLine[i]))
609 toRemove.append(forNewLine[i - 1]);
610 else
611 toRemove.append(forNewLine[i]);
612 last = NULL;
613 }
614 else {
615 last = forNewLine[i]->link();
616 }
617 }
618 }
619 forNewLine.remove(toRemove);
620 nNewLine = forNewLine.length();
621
622#ifdef TRKRECO_DEBUG_DETAIL
623 Dump(toRemove, "sort hits stereo", " x ");
624 Dump(forNewLine, "sort hits stereo", " ");
625#endif
626
627 //...3D fit...
628 for (unsigned i = 0; i < nNewLine; i++)
629 track.append(* forNewLine[i]->link());
630 Vector a(5);
631 a = track.helix().a();
632 a[3] = newLine.b();
633 a[4] = track.charge() * newLine.a();
634 track._helix->a(a);
635
636 //...Refine...
637 AList<TMLink> bad;
638 err = _fitter.fit(track);
639 track.refine(bad, _maxSigmaStereo * 100.);
640 err = _fitter.fit(track);
641 track.refine(bad, _maxSigmaStereo * 10.);
642 err = _fitter.fit(track);
643 track.refine(bad, _maxSigmaStereo);
644 err = _fitter.fit(track);
645
646#ifdef TRKRECO_WINDOW
647 sz.text("stereo finished");
648 sz.oneShot(track, leda_blue);
649#endif
650
651 //...Termination...
652 HepAListDeleteAll(toRemove);
653 HepAListDeleteAll(forNewLine);
654 return & track;
655}
656
657TTrack *
658TBuilder::buildStereo(const TTrack & t0, AList<TSegment> & segments) const {
659
660 TTrack & t = * new TTrack(t0);
661
662#ifdef TRKRECO_DEBUG
663 std::cout << "... building stereo by segments : # of segments = ";
664 std::cout << segments.length() << std::endl;
665 for (unsigned i = 0; i < segments.length(); i++)
666 segments[i]->dump("hits sort flag", " ");
667#endif
668#ifdef TRKRECO_WINDOW
669 sz.clear();
670 sz.skip(false);
671 sz.mode(2);
672 sz.appendSz(t, segments, leda_black);
673 AList<TSegment> tmps = segments;
674 std::string s = "# of segments = " + itostring(int(segments.length()));
675#endif
676
677 //...Find initial line...
678 TMLine * line = initialLineOld(t, segments);
679 if (! line) {
680#ifdef TRKRECO_DEBUG
681 std::cout << "... building stereo failure : no initial line found" << std::endl;
682#endif
683#ifdef TRKRECO_WINDOW
684 s = "no initial line found : " + s;
685 sz.text(s);
686 sz.wait();
687#endif
688 return NULL;
689 }
690#ifdef TRKRECO_WINDOW
691 sz.append(* line, leda_red);
692 sz.text(s);
693 sz.wait();
694#endif
695
696 //...Pick up links...
697 AList<TMLink> links;
698 unsigned n = segments.length();
699 for (unsigned i = 0; i < n; i++)
700 links.append(segments[i]->links());
701
702 //...Main funtion...
703 TTrack * ts = buildStereo(t, * line, links);
704
705 //...Check used segments...
706 if (ts) {
707 AList<TMLink> usedLinks = StereoHits(t.links());
708 for (unsigned i = 0; i < n; i++) {
709 TSegment & segment = * segments[i];
710 AList<TMLink> used = Links(segment, t);
711 if (used.length()) {
712 t.segments().append(segment);
713 segment.tracks().append(t);
714 }
715 }
716 }
717
718 HepAListDeleteAll((AList<TMLink> &) line->links());
719 delete line;
720 return ts;
721}
722
724TBuilder::searchInitialLines(unsigned nSuperLayerMax) const {
725#ifdef TRKRECO_DEBUG
726 std::cout << " ... searchInitialLines : # of segments in sl : ";
727 for (unsigned i = 0; i < 5; i++)
728 std::cout << _links[i].length() << ",";
729 std::cout << std::endl
730 << " : max # of super layers="
731 << nSuperLayerMax << std::endl;
732#endif
733
734 AList<TMLine> lines;
735 if (nSuperLayerMax > 5)
736 lines.append(searchLines6());
737 else if (nSuperLayerMax > 4)
738 lines.append(searchLines5());
739 else if (nSuperLayerMax > 3)
740 lines.append(searchLines4());
741 else if (nSuperLayerMax > 2)
742 lines.append(searchLines3());
743 else if (nSuperLayerMax > 1)
744 lines.append(searchLines2());
745// else
746// lines.append(searchLines1());
747
748 lines.sort(SortByB);
749 return lines;
750}
751
754 unsigned n[6];
755 for (unsigned i = 0; i < 6; i++)
756 n[i] = _links[i].length();
757
758 AList<TMLine> lines;
759 for (unsigned i0 = 0; i0 < n[0]; i0++) {
760 for (unsigned i1 = 0; i1 < n[1]; i1++) {
761 for (unsigned i2 = 0; i2 < n[2]; i2++) {
762 for (unsigned i3 = 0; i3 < n[3]; i3++) {
763 for (unsigned i4 = 0; i4 < n[4]; i4++) {
764 for (unsigned i5 = 0; i5 < n[5]; i5++) {
765
766 AList<TMLink> forLine;
767 forLine.append(_links[0][i0]);
768 forLine.append(_links[1][i1]);
769 forLine.append(_links[2][i2]);
770 forLine.append(_links[3][i3]);
771 forLine.append(_links[4][i4]);
772 forLine.append(_links[5][i5]);
773
774 TMLine & line = * new TMLine(forLine);
775 int err = line.fit();
776 if (err) {
777 delete & line;
778 continue;
779 }
780
781 lines.append(line);
782 }
783 }
784 }
785 }
786 }
787 }
788
789#ifdef TRKRECO_DEBUG
790 std::cout << " ... searchLines5 : # of lines found = "
791 << lines.length() << std::endl;
792#endif
793
794 return lines;
795}
796
799 AList<TMLine> lines;
800
801 const AList<TMLink> * l[5];
802 for (unsigned skip = 0; skip < 6; skip++) {
803 if (skip == 0) {
804 l[0] = & _links[1];
805 l[1] = & _links[2];
806 l[2] = & _links[3];
807 l[3] = & _links[4];
808 l[4] = & _links[5];
809 }
810 else if (skip == 1) {
811 l[0] = & _links[0];
812 }
813 else if (skip == 2) {
814 l[1] = & _links[1];
815 }
816 else if (skip == 3) {
817 l[2] = & _links[2];
818 }
819 else if (skip == 4) {
820 l[3] = & _links[3];
821 }
822 else if (skip == 5) {
823 l[4] = & _links[4];
824 }
825
826 unsigned n[5];
827 for (unsigned i = 0; i < 5; i++)
828 n[i] = l[i]->length();
829
830 for (unsigned i0 = 0; i0 < n[0]; i0++) {
831 for (unsigned i1 = 0; i1 < n[1]; i1++) {
832 for (unsigned i2 = 0; i2 < n[2]; i2++) {
833 for (unsigned i3 = 0; i3 < n[3]; i3++) {
834 for (unsigned i4 = 0; i4 < n[4]; i4++) {
835
836 AList<TMLink> forLine;
837 forLine.append((* l[0])[i0]);
838 forLine.append((* l[1])[i1]);
839 forLine.append((* l[2])[i2]);
840 forLine.append((* l[3])[i3]);
841 forLine.append((* l[4])[i4]);
842
843 TMLine & line = * new TMLine(forLine);
844 int err = line.fit();
845 if (err) {
846 delete & line;
847 continue;
848 }
849
850 lines.append(line);
851 }
852 }
853 }
854 }
855 }
856 }
857
858#ifdef TRKRECO_DEBUG
859 std::cout << " ... searchLines5 : # of lines found = "
860 << lines.length() << std::endl;
861#endif
862
863 return lines;
864}
865
868 AList<TMLine> lines;
869
870 const AList<TMLink> * l[4];
871 for (unsigned skip = 0; skip < 15; skip++) {
872 if (skip == 0) {
873 l[0] = & _links[0];
874 l[1] = & _links[1];
875 l[2] = & _links[2];
876 l[3] = & _links[3];
877 }
878 else if (skip == 1) {
879 l[3] = & _links[4];
880 }
881 else if (skip == 2) {
882 l[3] = & _links[5];
883 }
884 else if (skip == 3) {
885 l[2] = & _links[3];
886 l[3] = & _links[4];
887 }
888 else if (skip == 4) {
889 l[3] = & _links[5];
890 }
891 else if (skip == 5) {
892 l[2] = & _links[4];
893 }
894 else if (skip == 6) {
895 l[1] = & _links[2];
896 l[2] = & _links[3];
897 l[3] = & _links[4];
898 }
899 else if (skip == 7) {
900 l[3] = & _links[5];
901 }
902 else if (skip == 8) {
903 l[2] = & _links[4];
904 }
905 else if (skip == 9) {
906 l[1] = & _links[3];
907 }
908 else if (skip == 10) {
909 l[0] = & _links[1];
910 l[1] = & _links[2];
911 l[2] = & _links[3];
912 l[3] = & _links[4];
913 }
914 else if (skip == 11) {
915 l[3] = & _links[5];
916 }
917 else if (skip == 12) {
918 l[2] = & _links[4];
919 }
920 else if (skip == 13) {
921 l[1] = & _links[3];
922 }
923 else if (skip == 14) {
924 l[0] = & _links[2];
925 }
926
927 unsigned n[4];
928 for (unsigned i = 0; i < 4; i++)
929 n[i] = l[i]->length();
930
931 for (unsigned i0 = 0; i0 < n[0]; i0++) {
932 for (unsigned i1 = 0; i1 < n[1]; i1++) {
933 for (unsigned i2 = 0; i2 < n[2]; i2++) {
934 for (unsigned i3 = 0; i3 < n[3]; i3++) {
935 AList<TMLink> forLine;
936 forLine.append((* l[0])[i0]);
937 forLine.append((* l[1])[i1]);
938 forLine.append((* l[2])[i2]);
939 forLine.append((* l[3])[i3]);
940
941 TMLine & line = * new TMLine(forLine);
942 int err = line.fit();
943 if (err) {
944 delete & line;
945 continue;
946 }
947
948 lines.append(line);
949 }
950 }
951 }
952 }
953 }
954
955#ifdef TRKRECO_DEBUG
956 std::cout << " ... searchLines4 : # of lines found = "
957 << lines.length() << std::endl;
958#endif
959
960 return lines;
961}
962
965 AList<TMLine> lines;
966
967 const AList<TMLink> * l[3];
968 for (unsigned skip = 0; skip < 20; skip++) {
969 if (skip == 0) {
970 l[0] = & _links[0];
971 l[1] = & _links[1];
972 l[2] = & _links[2];
973 }
974 else if (skip == 1) {
975 l[2] = & _links[3];
976 }
977 else if (skip == 2) {
978 l[2] = & _links[4];
979 }
980 else if (skip == 3) {
981 l[2] = & _links[5];
982 }
983 else if (skip == 4) {
984 l[1] = & _links[2];
985 }
986 else if (skip == 5) {
987 l[2] = & _links[4];
988 }
989 else if (skip == 6) {
990 l[2] = & _links[3];
991 }
992 else if (skip == 7) {
993 l[1] = & _links[3];
994 l[2] = & _links[4];
995 }
996 else if (skip == 8) {
997 l[2] = & _links[5];
998 }
999 else if (skip == 9) {
1000 l[1] = & _links[4];
1001 }
1002 else if (skip == 10) {
1003 l[0] = & _links[1];
1004 }
1005 else if (skip == 11) {
1006 l[1] = & _links[3];
1007 }
1008 else if (skip == 12) {
1009 l[2] = & _links[4];
1010 }
1011 else if (skip == 13) {
1012 l[1] = & _links[2];
1013 }
1014 else if (skip == 14) {
1015 l[2] = & _links[3];
1016 }
1017 else if (skip == 15) {
1018 l[2] = & _links[5];
1019 }
1020 else if (skip == 16) {
1021 l[0] = & _links[2];
1022 l[1] = & _links[3];
1023 }
1024 else if (skip == 17) {
1025 l[2] = & _links[3];
1026 }
1027 else if (skip == 18) {
1028 l[1] = & _links[4];
1029 l[2] = & _links[5];
1030 }
1031 else if (skip == 19) {
1032 l[0] = & _links[3];
1033 }
1034
1035 unsigned n[3];
1036 for (unsigned i = 0; i < 3; i++)
1037 n[i] = l[i]->length();
1038
1039 for (unsigned i0 = 0; i0 < n[0]; i0++) {
1040 for (unsigned i1 = 0; i1 < n[1]; i1++) {
1041 for (unsigned i2 = 0; i2 < n[2]; i2++) {
1042 AList<TMLink> forLine;
1043 forLine.append((* l[0])[i0]);
1044 forLine.append((* l[1])[i1]);
1045 forLine.append((* l[2])[i2]);
1046
1047 TMLine & line = * new TMLine(forLine);
1048 int err = line.fit();
1049 if (err) {
1050 delete & line;
1051 continue;
1052 }
1053
1054 lines.append(line);
1055 }
1056 }
1057 }
1058 }
1059
1060#ifdef TRKRECO_DEBUG
1061 std::cout << " ... searchLines3 : # of lines found = "
1062 << lines.length() << std::endl;
1063#endif
1064
1065 return lines;
1066}
1067
1070 AList<TMLine> lines;
1071
1072 const AList<TMLink> * l[2];
1073 for (unsigned skip = 0; skip < 15; skip++) {
1074 if (skip == 0) {
1075 l[0] = & _links[0];
1076 l[1] = & _links[1];
1077 }
1078 else if (skip == 1) {
1079 l[1] = & _links[2];
1080 }
1081 else if (skip == 2) {
1082 l[1] = & _links[3];
1083 }
1084 else if (skip == 3) {
1085 l[1] = & _links[4];
1086 }
1087 else if (skip == 4) {
1088 l[1] = & _links[5];
1089 }
1090 else if (skip == 5) {
1091 l[0] = & _links[1];
1092 l[1] = & _links[2];
1093 }
1094 else if (skip == 6) {
1095 l[1] = & _links[3];
1096 }
1097 else if (skip == 7) {
1098 l[1] = & _links[4];
1099 }
1100 else if (skip == 8) {
1101 l[1] = & _links[5];
1102 }
1103 else if (skip == 9) {
1104 l[0] = & _links[2];
1105 l[1] = & _links[3];
1106 }
1107 else if (skip == 10) {
1108 l[1] = & _links[4];
1109 }
1110 else if (skip == 11) {
1111 l[1] = & _links[5];
1112 }
1113 else if (skip == 12) {
1114 l[0] = & _links[3];
1115 l[1] = & _links[4];
1116 }
1117 else if (skip == 13) {
1118 l[1] = & _links[5];
1119 }
1120 else if (skip == 14) {
1121 l[0] = & _links[4];
1122 }
1123
1124 unsigned n[2];
1125 for (unsigned i = 0; i < 2; i++)
1126 n[i] = l[i]->length();
1127
1128 for (unsigned i0 = 0; i0 < n[0]; i0++) {
1129 for (unsigned i1 = 0; i1 < n[1]; i1++) {
1130 AList<TMLink> forLine;
1131 forLine.append((* l[0])[i0]);
1132 forLine.append((* l[1])[i1]);
1133
1134 TMLine & line = * new TMLine(forLine);
1135 int err = line.fit();
1136 if (err) {
1137 delete & line;
1138 continue;
1139 }
1140
1141 lines.append(line);
1142 }
1143 }
1144 }
1145
1146#ifdef TRKRECO_DEBUG
1147 std::cout << " ... searchLines2 : # of lines found = "
1148 << lines.length() << std::endl;
1149#endif
1150
1151 return lines;
1152}
1153
1156 AList<TMLine> lines;
1157
1158 TMLine & line = * new TMLine(_forLine);
1159 int err = line.fit();
1160 if (err) {
1161 delete & line;
1162 }
1163 else {
1164 lines.append(line);
1165 }
1166
1167#ifdef TRKRECO_DEBUG
1168 std::cout << " ... searchLines1 : # of lines found = "
1169 << lines.length() << std::endl;
1170#endif
1171
1172 return lines;
1173}
1174
1175TMLine
1176TBuilder::searchLine(const TMLine & initialLine) const {
1177#ifdef TRKRECO_WINDOW
1178 std::string old = sz.text();
1179#endif
1180
1181 static float _szLinkMaxDistance = 5;
1182
1183 unsigned nLinks = _forLine.length();
1184 TMLine line0 = initialLine;
1185 line0.remove(initialLine.links());
1186#ifdef TRKRECO_DEBUG
1187 line0.fitted(true);
1188#endif
1189 unsigned nGoodLinks0 = 0;
1190 AList<TMLink> targets;
1191 unsigned nLoops = 0;
1192 while (1) {
1193 ++nLoops;
1194
1195 unsigned nGoodLinks = 0;
1196 for (unsigned i = 0; i < nLinks; i++) {
1197 float distance = line0.distance(* _forLine[i]);
1198 if (distance < _szLinkDistance)
1199 targets.append(_forLine[i]);
1200 if (distance < _szLinkMaxDistance) {
1201 ++nGoodLinks;
1202 }
1203 }
1204
1205#ifdef TRKRECO_DEBUG
1206 std::cout << " ... searchLine : # of close hits(last) = " << nGoodLinks0
1207 << ", # of close hits = " << nGoodLinks << std::endl;
1208#endif
1209
1210 //...Check condition...
1211 if (nGoodLinks0 == nGoodLinks) break;
1212
1213 //...Do fit...
1214 TMLine newLine(targets);
1215 static TRobustLineFitter fitter("robust fitter");
1216 int err = fitter.fit(newLine);
1217 if (err) {
1218#ifdef TRKRECO_WINDOW
1219 std::cout << " ... searchLine : failed to fit" << std::endl;
1220 std::string s = "line search failed";
1221 sz.text(s);
1222 sz.wait();
1223#endif
1224 break;
1225 }
1226
1227 //...To protect infinite loop...
1228 if (nLoops > 10) {
1229#ifdef TRKRECO_DEBUG_DETAIL
1230 std::cout << " reached to max # of loops(10) : break";
1231#endif
1232 break;
1233 }
1234
1235#ifdef TRKRECO_WINDOW
1236 std::string ss = ", # of close hits(last) = " + itostring(int(nGoodLinks0))
1237 + ", # of close hits = " + itostring(int(nGoodLinks));
1238 sz.append(line0, leda_brown);
1239 sz.append(newLine, leda_green);
1240 sz.text(old + ", nLoops = " + itostring(int(nLoops)) + ss);
1241 sz.wait();
1242 sz.remove(line0);
1243 sz.remove(newLine);
1244#endif
1245
1246 line0 = newLine;
1247 nGoodLinks0 = nGoodLinks;
1248 targets.removeAll();
1249 }
1250
1251 return line0;
1252}
1253
1254TTrack *
1255TBuilder::build(TTrack & t, const TMLine & l) const {
1256 AList<TMLink> links = l.links();
1257 AList<TMLink> toRemove;
1258 unsigned n = links.length();
1259 for (unsigned i = 1; i < n; i++) {
1260 if (links[i - 1]->link() == links[i]->link()) {
1261 toRemove.append(links[i]);
1262 continue;
1263 }
1264 if (i < 2)
1265 continue;
1266 if (links[i - 2]->link() == links[i]->link())
1267 toRemove.append(links[i]);
1268 }
1269 links.remove(toRemove);
1270
1271 //...Pick up links...
1272 n = links.length();
1273 for (unsigned i = 0; i < n; i++)
1274 t.append(* links[i]->link());
1275
1276 Vector a(5);
1277 a = t.helix().a();
1278 a[3] = l.b();
1279 //a[4] = t.charge() * l.a();//yzhang delete 2012-05-08
1280 // //yzhang add 2012-05-08
1281 if(_fitter.getMagneticFieldPointer() == NULL){
1282 std::cout<<" "<<__FILE__<<" "<<__LINE__<<" Could not get MagneticFieldSvc "<<std::endl;
1283 }
1284 const double Bz = -1000 * _fitter.getMagneticFieldPointer()->getReferField();
1285 if(Bz>0){
1286 a[4] = t.charge() * l.a();//yzhang add 2012-05-08 ???
1287 }else{
1288 a[4] = -1. * t.charge() * l.a();//yzhang add 2012-05-08 ???
1289 }
1290 //zhangy
1291 t._helix->a(a);
1292
1293//#ifdef TRKRECO_WINDOW
1294// TTrack * td = new TTrack(t);
1295// sz.append(* td, leda_green);
1296//#endif
1297#ifdef TRKRECO_DEBUG_DETAIL
1298 static unsigned nTrk = 0;
1299 ++nTrk;
1300// for (unsigned i = 0; i < t.nCores(); i++)
1301// if (t.cores()[i]->wire()->name() == "43=220") {
1302// std::cout << "43=220 removed" << std::endl;
1303// t.remove(* t.cores()[i]);
1304// }
1305 HepVector3D pp;
1306 if (links[0]->hit()->mc())
1307 pp = links[0]->hit()->mc()->hep()->p().vect();
1308 const HepVector3D p0 = pp;
1309// if (nTrk == 1) {
1310// Helix tmph(Point3D(0, 0, 0), p0, +1);
1311// * t._helix = tmph;
1312// }
1313 t.dump("detail", "before fit");
1314 std::cout << "Pdif mag=" << (t.p() - p0).mag() << std::endl;
1315// t.links().removeAll();
1316// for (unsigned i = 0; i < BsCouTab(RECMDC_WIRHIT
1317// }
1318#endif
1319
1320 //...Refine...
1321 AList<TMLink> bad;
1322 int err = _fitter.fit(t);
1323
1324#ifdef TRKRECO_DEBUG_DETAIL
1325 t.dump("detail", "after fit");
1326 std::cout << "Pdif mag=" << (t.p() - p0).mag() << std::endl;
1327#endif
1328
1329 t.refine(bad, _maxSigmaStereo * 100.);
1330 err = _fitter.fit(t);
1331 t.refine(bad, _maxSigmaStereo * 10.);
1332 err = _fitter.fit(t);
1333 t.refine(bad, _maxSigmaStereo);
1334#ifdef TRKRECO_DEBUG_DETAIL
1335// if (nTrk == 2) {
1336// Helix tmph(Point3D(0, 0, 0), p0, +1);
1337// * t._helix = tmph;
1338// std::cout << "initial mom" << p0 << " is set" << std::endl;
1339// }
1340#endif
1341 err = _fitter.fit(t);
1342
1343#ifdef TRKRECO_DEBUG_DETAIL
1344 t.dump("detail"," ");
1345 std::cout << "Pdif mag=" << (t.p() - p0).mag() << std::endl;
1346#endif
1347
1348 //...Termination...
1349 return & t;
1350}
1351
1352bool
1353TBuilder::initializeForStereo(const TTrack & t,
1354 const AList<TSegment> & segments,
1355 const AList<TSegment> & badSegments) const {
1356 _nSuperLayers = 0;
1357 for (unsigned i = 0; i < 5; i++)
1358 _nHits[i] = 0;
1359 //...sz position of segments...
1360 unsigned nSegments = segments.length();
1361// cout<<" used Segments in stereo = "<<nSegments<<endl;
1362 for (unsigned i = 0; i < nSegments; i++) {
1363 TMLink & l = * new TMLink();
1364 int err = t.szPosition(* segments[i], l);
1365 //...Remove if sz can not be calculcated...
1366 if (err) {
1367 delete & l;
1368 continue;
1369 }
1370// _links[l.wire()->superLayerId() / 2].append(l);
1371 if (!_links[l.wire()->axialStereoLayerId()/4].hasMember(l))
1372 _links[l.wire()->axialStereoLayerId()/4].append(l);
1373//? _allLinks.append(segments[i]->links());
1374// _allLinks.append(segments[i]->cores());
1375 for (unsigned j = 0; j < segments[i]->cores().length(); ++j) {
1376 TMLink & cL = * segments[i]->cores()[j];
1377 if(!_allLinks.hasMember(cL)) _allLinks.append(cL);
1378 }
1379 }
1380
1381 //...Count a number of super layers...
1382 for (unsigned i = 0; i < 6; i++) {
1383 if (_links[i].length() > 0) {
1384 ++_nSuperLayers;
1385 }
1386// else {
1387// _allLinks.append(badSegments[i]->links());
1388// #ifdef TRKRECO_DEBUG_DETAIL
1389// std::cout << " ... stereo super layer " << i * 2 + 1
1390// << " has no link,"
1391// << badSegments[i]->links().length() << " (bad) links added"
1392// << std::endl;
1393// badSegments[i]->dump("hits sort flag", " ");
1394// #endif
1395// }
1396 }
1397
1398 //...Append bad links also...
1399 if (badSegments.length()) {
1400 for (unsigned i = 0; i < 6; i++) {
1401 if (badSegments[i]->links().length()) {
1402 _allLinks.append(badSegments[i]->links());
1403#ifdef TRKRECO_DEBUG_DETAIL
1404 std::cout << " ... bad links added for stereo super layer "
1405 << i * 2 + 1 << std::endl;
1406 badSegments[i]->dump("hits sort flag", " ");
1407#endif
1408 }
1409 }
1410 }
1411
1412 //...sz position of links...
1413 unsigned nCores = _allLinks.length();
1414 if (nCores < _minNCores) {
1415#ifdef TRKRECO_DEBUG_DETAIL
1416 std::cout << " ... initializeForStereo : # of cores(=" << nCores
1417 << ") is less then " << _minNCores << std::endl;
1418#endif
1419 return false;
1420 }
1421 for (unsigned j = 0; j < nCores; j++) {
1422 TMLink & link = * _allLinks[j];
1423 for (unsigned i = 0; i < 2; i++) {
1424 TMLink & tt = * new TMLink(link);
1425 unsigned stateR=(link.hit()->state())&WireHitPatternRight;
1426 unsigned stateL=(link.hit()->state())&WireHitPatternLeft;
1427 bool boolR=(stateR==WireHitPatternRight);
1428 bool boolL=(stateL==WireHitPatternLeft);
1429// std::cout<<"zsl TBuilder::initializeForStereo::boolR:"<<boolR<<", boolL:"<<boolL<<endl;
1430
1431 tt.leftRight(i);
1432 int err = t.szPosition(tt);
1433// std::cout<<"zsl TBuilder::initializeForStereo::err:"<<err<<endl;
1434// std::cout<<"----------------------"<<endl;
1435
1436 if (err) {
1437 delete & tt;
1438 continue;
1439 }
1440 tt.link(& link);
1441 _forLine.append(tt);
1442 }
1443 }
1444
1445 //...Count # of axial hits...
1446 unsigned nA = t.cores().length();
1447 for (unsigned i = 0; i < nA; i++)
1448// ++_nHits[t.cores()[i]->wire()->superLayerId() / 2];
1449 ++_nHits[t.cores()[i]->wire()->axialStereoLayerId()/4];
1450
1451#ifdef TRKRECO_DEBUG
1452 std::cout << " ... initializeForStereo : axial super layer usage = ";
1453 for (unsigned i = 0; i < 5; i++)
1454 std::cout << _nHits[i] << ",";
1455 std::cout << std::endl
1456 << " : # of stereo super layers="
1457 << _nSuperLayers << std::endl;
1458#endif
1459
1460 return true;
1461}
1462
1463unsigned
1464TBuilder::stereoQuality(const AList<TMLink> & links) const {
1465 unsigned n[6] = {0, 0, 0, 0, 0, 0};
1466
1467 //...Check superlayers...
1468 unsigned nLinks = links.length();
1469 for (unsigned i = 0; i < nLinks; i++) {
1470 const TMLink & l = * links[i];
1471 if (l.wire()->axial()) continue;
1472// ++n[l.wire()->superLayerId() / 2];
1473// cout<<l.wire()->axialStereoLayerId()<<endl;
1474 ++n[l.wire()->axialStereoLayerId()/4];
1475 }
1476
1477 unsigned nTotal = 0;
1478 unsigned nMissing = 0;
1479 unsigned innermostStereo = 5;
1480 unsigned outermostStereo = 0;
1481 unsigned innermostAxial = 4;
1482 unsigned outermostAxial = 0;
1483 unsigned innerSL = 6;
1484 unsigned outerSL = 0;
1485 for (unsigned i = 0; i < 6; i++) {
1486 if (_links[i].length() > 1) {
1487 if(i > outermostStereo) outermostStereo = i;
1488 if(i < innermostStereo) innermostStereo = i;
1489 }
1490 if (n[i] > 1) ++nTotal;
1491 }
1492 for (unsigned i = 0; i < 5; i++) {
1493 if (_nHits[i] > 1) {
1494 if (i > outermostAxial) outermostAxial = i;
1495 if (i < innermostAxial) innermostAxial = i;
1496 }
1497 }
1498
1499 if(innermostStereo > 1 && innermostAxial < 3) innerSL = 2;
1500 else innerSL = innermostStereo;
1501 if(outermostStereo > 1 && outermostAxial > 2) outerSL = 5;
1502 else outerSL = outermostStereo;
1503
1504 for (unsigned i = 0; i < 6; i++) {
1505 if (_links[i].length() > 0) {
1506//zsl 051014 if ((_nHits[i] > 1) && (_nHits[i + 1] > 1))
1507 if (i <= outerSL && i >= innerSL)
1508 if (n[i] < 2)
1509 ++nMissing;
1510 }
1511 if (n[i] > 1) ++nTotal;
1512 }
1513 unsigned toBeReturn = 0;
1514 if (nMissing <= 1) toBeReturn = 2;
1515 else if (nMissing == 2) toBeReturn = 1;
1516 if (nTotal < 2) toBeReturn = 0;
1517
1518#ifdef TRKRECO_DEBUG
1519 std::cout << " ... stereoQuality : axial ";
1520 for (unsigned i = 0; i < 6; i++)
1521 std::cout << _nHits[i] << ",";
1522 std::cout << std::endl
1523 << " : stereo ";
1524 for (unsigned i = 0; i < 5; i++)
1525 std::cout << n[i] << ",";
1526 std::cout << " : total " << nTotal << " super layers, "
1527 << " : quality=" << toBeReturn << std::endl;
1528#endif
1529
1530 return toBeReturn;
1531}
1532
1533
1534TTrack *
1536 AList<TSegment> & segments,
1537 AList<TSegment> & badSegments) const {
1538
1539#ifdef TRKRECO_DEBUG
1540 std::cout << "... building stereo by segments(new) : # of segments = ";
1541 std::cout << segments.length() << std::endl;
1542 for (unsigned i = 0; i < segments.length(); i++)
1543 segments[i]->dump("hits sort flag", " ");
1544#endif
1545#ifdef TRKRECO_WINDOW
1546 sz.clear();
1547#endif
1548 TTrack * bestCandidate = NULL;
1549 AList< AList<TMLink> > poorSeeds;
1550 bool ok = initializeForStereo(t, segments, badSegments);
1551 unsigned nSuperLayers = _nSuperLayers + 1;
1552// std::cout<<"nSuperLayers in buildStereoNew:"<<_nSuperLayers<<endl;
1553// cout<<"ok of initializeForStereo: "<<ok<<endl;
1554
1555 if (! ok) goto endOfBuilding;
1556 //...Main loop...
1557 while (--nSuperLayers) {
1558
1559 //...Initial line search...
1560 AList<TMLine> initialLines = searchInitialLines(nSuperLayers);
1561#ifdef TRKRECO_WINDOW
1562 sz.clear();
1563 sz.skip(false);
1564 sz.mode(2);
1565 sz.appendSz(t, segments, leda_black);
1566 AList<TSegment> tmps = segments;
1567 std::string s = "# of segments = " + itostring(int(segments.length()));
1568 sz.appendSz(t, _allLinks, leda_black);
1569 sz.append(_forLine, leda_brown);
1570 s = "nSprLyr=" + itostring(int(nSuperLayers)) +
1571 ", # of initial lines = " + itostring(int(initialLines.length()));
1572 for (unsigned i = 0; i < initialLines.length(); i++)
1573 sz.append(* initialLines[i], leda_red);
1574 sz.text(s);
1575 sz.wait();
1576#endif
1577// cout<<"length of initialLines = "<<initialLines.length()<<endl;
1578 if (initialLines.length() == 0) continue;
1579 //...Line loop...
1580 bool found = false;
1581 unsigned nInitialLines = initialLines.length();
1582// cout<<"nInitialLines:"<<nInitialLines<<endl;
1583
1584 for (unsigned i = 0; i < nInitialLines; i++) {
1585
1586 //...Linear fit...
1587 const TMLine & line = * initialLines[i];
1588 TMLine newLine = searchLine(line);
1589
1590 //...Skip if this is a seed of the poor result...
1591 if (poorSeeds.length()) {
1592 bool poorCase = false;
1593 for (unsigned j = 0; j < poorSeeds.length(); j++) {
1594 if (poorSeeds[j]->length() == newLine.links().length()) {
1595 AList<TMLink> tmp = * poorSeeds[j];
1596 tmp.remove(newLine.links());
1597 if (tmp.length() == 0) {
1598#ifdef TRKRECO_DEBUG_DETAIL
1599 std::cout << " ... This is a poor seed :"
1600 << " skipped"
1601 << " : # of poor seeds = "
1602 << poorSeeds.length() << std::endl;
1603#endif
1604 poorCase = true;
1605 break;
1606 }
1607 }
1608 }
1609 if (poorCase) continue;
1610 }
1611
1612 //...Is this a good line...
1613 if (! stereoQuality(newLine.links()))
1614 continue;
1615
1616 //...3D fit...
1617 TTrack * t3d = new TTrack(t);
1618 t3d = build(* t3d, newLine);
1619 if (t3d == NULL) continue;
1620
1621 //...Check quality...
1622 unsigned quality = stereoQuality(t3d->links());
1623// cout<<"point3, quality:"<<quality<<endl;
1624
1625 //...Best case...
1626 if (quality == 2) {
1627#ifdef TRKRECO_WINDOW
1628 sz.text("stereo finished");
1629 sz.oneShot(* t3d, leda_blue);
1630#endif
1631 if (bestCandidate) delete bestCandidate;
1632 bestCandidate = t3d;
1633 found = true;
1634 break;
1635 }
1636
1637 //...Poor case...
1638 AList<TMLink> * tmpL = new AList<TMLink>();
1639 tmpL->append(newLine.links());
1640 poorSeeds.append(tmpL);
1641 if (quality == 0) {
1642#ifdef TRKRECO_WINDOW
1643 sz.text("this candidate discarded");
1644 sz.oneShot(* t3d, leda_black);
1645#endif
1646 delete t3d;
1647 continue;
1648 }
1649
1650 //...Not enough...
1651 if (bestCandidate) {
1652 if (bestCandidate->cores().length() <
1653 t3d->cores().length()) {
1654#ifdef TRKRECO_WINDOW
1655 sz.text("new candidate");
1656 sz.append(* bestCandidate, leda_brown);
1657 sz.oneShot(* t3d, leda_green);
1658 sz.remove(* bestCandidate);
1659#endif
1660 delete bestCandidate;
1661 bestCandidate = t3d;
1662 }
1663 else {
1664#ifdef TRKRECO_WINDOW
1665 sz.text("this candidate discarded");
1666 sz.oneShot(* t3d, leda_black);
1667#endif
1668 delete t3d;
1669 }
1670 }
1671 else {
1672 bestCandidate = t3d;
1673#ifdef TRKRECO_WINDOW
1674 sz.text("new candidate");
1675 sz.oneShot(* bestCandidate, leda_green);
1676 sz.remove(* t3d);
1677#endif
1678 }
1679 }
1680
1681 //...Termination of a loop...
1682 HepAListDeleteAll(initialLines);
1683 if (found) break;
1684 }
1685
1686endOfBuilding:
1687 _allLinks.removeAll();
1688 for (unsigned i = 0; i < 6; i++)
1689 HepAListDeleteAll(_links[i]);
1690 HepAListDeleteAll(_forLine);
1691
1692#ifdef TRKRECO_DEBUG_DETAIL
1693 std::cout << " ... # of poor seeds = " << poorSeeds.length() << std::endl;
1694#endif
1695#ifdef TRKRECO_WINDOW
1696 if (bestCandidate == NULL) {
1697 sz.text("3D failed");
1698 sz.wait();
1699 }
1700#endif
1701
1702 //...Check used segments...
1703 if (bestCandidate) {
1704 AList<TMLink> usedLinks = StereoHits(bestCandidate->links());
1705 for (unsigned i = 0; i < segments.length(); i++) {
1706 TSegment & segment = * segments[i];
1707 AList<TMLink> used = Links(segment, * bestCandidate);
1708 if (used.length()) {
1709 bestCandidate->segments().append(segment);
1710 segment.tracks().append(bestCandidate);
1711 }
1712 }
1713 }
1714
1715 if (poorSeeds.length())
1716 HepAListDeleteAll(poorSeeds);
1717
1718#ifdef TRASA_DEBUG_DETAIL
1719 if (bestCandidate == NULL)
1720 std::cout << "... building stereo(new) failed" << std::endl;
1721 else
1722 std::cout << "... building stereo(new) ok" << std::endl;
1723#endif
1724 return bestCandidate;
1725}
const Int_t n
XmlRpcServer s
Definition: HelloServer.cpp:11
int SortByB(const void *a, const void *b)
Sorter.
Definition: TMLine.cxx:648
AList< TMLink > Links(const TSegment &, const TTrack &)
returns AList of TMLink used for a track.
Definition: TSegment.cxx:963
TTree * t
Definition: binning.cxx:23
const HepVector & a(void) const
returns helix parameters.
virtual double getReferField()=0
TMLine * initialLine(const TTrack &, AList< TSegment > &) const
makes a line.
Definition: TBuilder.cxx:315
AList< TMLine > searchLines5(void) const
Definition: TBuilder.cxx:798
AList< TMLine > searchLines1(void) const
Definition: TBuilder.cxx:1155
TMLine * initialLineOld(const TTrack &, AList< TSegment > &) const
Definition: TBuilder.cxx:405
void removeFarSegment(const TMLine &, AList< TSegment > &, AList< TMLink > &) const
Definition: TBuilder.cxx:510
AList< TMLine > searchLines6(void) const
Definition: TBuilder.cxx:753
TTrack * buildRphi(const AList< TMLink > &) const
builds a r/phi track from TMLinks or from Segments.
Definition: TBuilder.cxx:107
TMLine * initialLine2(const TTrack &, const AList< TMLink > &) const
Definition: TBuilder.cxx:296
virtual ~TBuilder()
Destructor.
Definition: TBuilder.cxx:58
TTrack * build(TTrack &t, const TMLine &l) const
Definition: TBuilder.cxx:1255
void salvage(TTrack &t, AList< TMLink > &hits) const
salvages hits.
Definition: TBuilder.cxx:211
AList< TMLine > searchLines2(void) const
Definition: TBuilder.cxx:1069
TBuilder(const std::string &name, float maxSigma, float maxSigmaStereo, float salvageLevel, float szSegmentDistance, float szLinkDistance, unsigned fittingFlag)
Constructor with salvage level.
Definition: TBuilder.cxx:36
TTrack * buildStereoNew(const TTrack &t, AList< TSegment > &goodSegments, AList< TSegment > &badSegments) const
Definition: TBuilder.cxx:1535
TTrack * buildStereo(const TTrack &t, AList< TSegment > &) const
Definition: TBuilder.cxx:658
AList< TSegment > selectStereoSegment(const TMLine &line, const AList< TSegment > &list, const AList< TMLink > &szList) const
Definition: TBuilder.cxx:497
TMLine * initialLine1(const TTrack &, const AList< TSegment > &, const AList< TMLink > &) const
Definition: TBuilder.cxx:247
void dump(const std::string &message=std::string(""), const std::string &prefix=std::string("")) const
dumps debug information.
Definition: TBuilder.cxx:62
AList< TMLine > searchLines4(void) const
Definition: TBuilder.cxx:867
AList< TMLine > searchInitialLines(unsigned nSuperLayers) const
Definition: TBuilder.cxx:724
AList< TMLine > searchLines3(void) const
Definition: TBuilder.cxx:964
TMLine searchLine(const TMLine &initialLine) const
Definition: TBuilder.cxx:1176
A class to represent a circle in tracking.
void dump(const std::string &message=std::string(""), const std::string &prefix=std::string("")) const
dumps debug information.
Definition: TCircle.cxx:33
bool freeT0(void) const
sets/returns free T0 flag.
bool tof(void) const
sets/returns propagation-delay correction flag.
bool sag(void) const
sets/returns sag correction flag.
IMagneticFieldSvc * getMagneticFieldPointer(void) const
bool propagation(void) const
sets/returns propagation-delay correction flag.
unsigned state(void) const
returns state.
bool axial(void) const
returns true if this wire is in an axial layer.
unsigned axialStereoLayerId(void) const
returns id of axial or stereo id.
const HepPoint3D & forwardPosition(void) const
returns position in forward endplate.
const HepPoint3D & backwardPosition(void) const
returns position in backward endplate.
A class to represent a track in tracking.
double distance(const TMLink &) const
returns distance to a position of TMLink itself. (not to a wire)
double a(void) const
returns coefficient a.
double b(void) const
returns coefficient b.
A class to fit a TTrackBase object to a line.
virtual int fit(TTrackBase &) const
A class to relate TMDCWireHit and TTrack objects.
virtual int fit(void)
fits itself by a default fitter. Error was happened if return value is not zero.
Definition: TTrackBase.cxx:357
virtual void refine(AList< TMLink > &list, double maxSigma)
removes bad points by pull. The bad points are removed from the track, and are returned in 'list'.
Definition: TTrackBase.cxx:170
bool fitted(void) const
returns true if fitted.
void append(TMLink &)
appends a TMLink.
Definition: TTrackBase.cxx:362
const AList< TMLink > & links(unsigned mask=0) const
returns a list of masked TMLinks assigned to this track. 'mask' will be applied if mask is not 0.
Definition: TTrackBase.cxx:297
void remove(TMLink &a)
removes a TMLink.
const AList< TMLink > & cores(unsigned mask=0) const
returns a list of masked TMLinks for fit. 'mask' will be applied if mask is not 0.
Definition: TTrackBase.cxx:317
A class to represent a track in tracking.
AList< TSegment > & segments(void)
returns AList<TSegment>.
const Helix & helix(void) const
returns helix parameter.
int szPosition(TMLink &link) const
calculates arc length and z for a stereo hit.
Definition: TTrack.cxx:3372
double charge(void) const
returns charge.