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SimpleNavigationSchool.cc
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2 
4 
7 #include "SimpleNavigableLayer.h"
8 #include "SymmetricLayerFinder.h"
9 
13 
16 
18 
19 #include <algorithm>
20 #include <map>
21 #include <cmath>
22 
23 using namespace std;
24 
26  theAllDetLayersInSystem = &theTracker->allLayers();
27  theAllNavigableLayer.resize(theTracker->allLayers().size(), nullptr);
28 
29  // Get barrel layers
30  for (auto i : theTracker->barrelLayers()) {
31  theBarrelLayers.push_back(i);
32  }
33 
34  // get forward layers
35  for (auto i : theTracker->forwardLayers()) {
36  theForwardLayers.push_back(i);
37  }
38 
39  FDLI middle = find_if(theForwardLayers.begin(), theForwardLayers.end(), [](const GeometricSearchDet* a) {
40  return a->position().z() >= 0.0;
41  });
42  theLeftLayers = FDLC(theForwardLayers.begin(), middle);
43  theRightLayers = FDLC(middle, theForwardLayers.end());
44 
45  SymmetricLayerFinder symFinder(theForwardLayers);
46 
47  // only work on positive Z side; negative by mirror symmetry later
48  linkBarrelLayers(symFinder);
49  linkForwardLayers(symFinder);
50  establishInverseRelations();
51 }
52 
54  // free the memory allocated to the SimpleNavigableLayers
55  for (vector<SimpleBarrelNavigableLayer*>::const_iterator ib = theBarrelNLC.begin(); ib != theBarrelNLC.end(); ib++) {
56  delete (*ib);
57  }
58  theBarrelNLC.clear();
59  for (vector<SimpleForwardNavigableLayer*>::const_iterator ifl = theForwardNLC.begin(); ifl != theForwardNLC.end();
60  ifl++) {
61  delete (*ifl);
62  }
63  theForwardNLC.clear();
64 }
65 
68  for (vector<SimpleBarrelNavigableLayer*>::const_iterator ib = theBarrelNLC.begin(); ib != theBarrelNLC.end(); ib++) {
69  result.push_back(*ib);
70  }
71  for (vector<SimpleForwardNavigableLayer*>::const_iterator ifl = theForwardNLC.begin(); ifl != theForwardNLC.end();
72  ifl++) {
73  result.push_back(*ifl);
74  }
75  return result;
76 }
77 
79  // Link barrel layers outwards
80  for (BDLI i = theBarrelLayers.begin(); i != theBarrelLayers.end(); i++) {
81  BDLC reachableBL;
82  FDLC leftFL;
83  FDLC rightFL;
84 
85  //always add next barrel layer first
86  if (i + 1 != theBarrelLayers.end()) {
87  reachableBL.push_back(*(i + 1));
88  }
89 
90  // Add closest reachable forward layer (except for last BarrelLayer)
91  if (i != theBarrelLayers.end() - 1) {
92  linkNextForwardLayer(*i, rightFL);
93  }
94 
95  // Add next BarrelLayer with length larger than the current BL
96  if (i + 2 < theBarrelLayers.end()) {
97  linkNextLargerLayer(i, theBarrelLayers.end(), reachableBL);
98  }
99 
100  theBarrelNLC.push_back(
101  new SimpleBarrelNavigableLayer(*i, reachableBL, symFinder.mirror(rightFL), rightFL, theField, 5.));
102  }
103 }
104 
106  // find first forward layer with larger Z and larger outer radius
107  float length = bl->surface().bounds().length() / 2.;
108  float radius = bl->specificSurface().radius();
109  for (FDLI fli = theRightLayers.begin(); fli != theRightLayers.end(); fli++) {
110  if (length < (**fli).position().z() && radius < (**fli).specificSurface().outerRadius()) {
111  //search if there are any sovrapposition between forward layers
112  for (FDLI fliNext = fli; fliNext != theRightLayers.end(); fliNext++) {
113  if ((**fliNext).position().z() < (**fli).position().z() &&
114  (**fliNext).specificSurface().innerRadius() < (**fli).specificSurface().outerRadius()) {
115  rightFL.push_back(*fliNext);
116  return;
117  }
118  }
119  rightFL.push_back(*fli);
120  return;
121  }
122  }
123 }
124 
126  // compare length of next layer with length of following ones
127  float length = (**(bli + 1)).surface().bounds().length();
128  float epsilon = 0.1;
129 
130  for (BDLI i = bli + 2; i < end; i++) {
131  if (length + epsilon < (**i).surface().bounds().length()) {
132  reachableBL.push_back(*i);
133  return;
134  }
135  }
136 }
137 
139  // handle right side first, groups are only on the right
140  vector<FDLC> groups = splitForwardLayers();
141 
142  LogDebug("TkNavigation") << "SimpleNavigationSchool, Forward groups size = " << groups.size();
143  for (vector<FDLC>::iterator g = groups.begin(); g != groups.end(); g++) {
144  LogDebug("TkNavigation") << "group " << g - groups.begin() << " has " << g->size() << " layers ";
145  }
146 
147  for (vector<FDLC>::iterator group = groups.begin(); group != groups.end(); group++) {
148  for (FDLI i = group->begin(); i != group->end(); i++) {
149  BDLC reachableBL;
150  FDLC reachableFL;
151 
152  // Always connect to next barrel layer first, if exists
153  linkNextBarrelLayer(*i, reachableBL);
154 
155  // Then always connect to next forward layer of "same" size,
156  // and layers of larger inner Radius
157  linkNextLayerInGroup(i, *group, reachableFL);
158 
159  // Then connect to next N fw layers of next size
160  if (group + 1 != groups.end()) {
161  linkOuterGroup(*i, *(group + 1), reachableFL);
162  }
163 
164  // or connect within the group if outer radius increases
165  linkWithinGroup(i, *group, reachableFL);
166 
167  theForwardNLC.push_back(new SimpleForwardNavigableLayer(*i, reachableBL, reachableFL, theField, 5.));
168  theForwardNLC.push_back(new SimpleForwardNavigableLayer(
169  symFinder.mirror(*i), reachableBL, symFinder.mirror(reachableFL), theField, 5.));
170  }
171  }
172 
173  // // now the left side by symmetry
174  // for ( FDLI ileft = theLeftLayers.begin();
175  // ileft != theLeftLayers.end(); ileft++) {
176  // ForwardDetLayer* right = symFinder.mirror( *ileft);
177 
178  // theForwardNLC.push_back( new
179  // SimpleForwardNavigableLayer( *ileft , right->nextBarrelLayers(),
180  // symFinder.mirror(right->nextForwardLayers())));
181  // }
182 }
183 
185  if (fl->position().z() > barrelLength())
186  return;
187 
188  float outerRadius = fl->specificSurface().outerRadius();
189  float zpos = fl->position().z();
190  for (BDLI bli = theBarrelLayers.begin(); bli != theBarrelLayers.end(); bli++) {
191  if (outerRadius < (**bli).specificSurface().radius() && zpos < (**bli).surface().bounds().length() / 2.) {
192  reachableBL.push_back(*bli);
193  return;
194  }
195  }
196 }
197 
199  // Always connect to next forward layer of "same" size, if exists
200  if (fli + 1 != group.end()) {
201  reachableFL.push_back(*(fli + 1));
202  // If that layer has an inner radius larger then the current one
203  // also connect ALL next disks of same radius.
204  float innerRThis = (**fli).specificSurface().innerRadius();
205  float innerRNext = (**(fli + 1)).specificSurface().innerRadius();
206  const float epsilon = 2.f;
207 
208  if (innerRNext > innerRThis + epsilon) {
209  // next disk is smaller, so it doesn't cover fully subsequent ones
210  // of same radius
211 
212  int i = 2;
213  while ((fli + i) != group.end()) {
214  if ((**(fli + i)).specificSurface().innerRadius() < innerRNext + epsilon) {
215  // following disk has not increased in ineer radius
216  reachableFL.push_back(*(fli + i));
217  i++;
218  } else {
219  break;
220  }
221  }
222  }
223  }
224 }
225 
227  // insert N layers with Z grater than fl
228 
229  ConstFDLI first = find_if(group.begin(), group.end(), [fl](const GeometricSearchDet* a) {
230  return a->position().z() >= fl->position().z();
231  });
232  if (first != group.end()) {
233  // Hard-wired constant!!!!!!
234  ConstFDLI last = min(first + 7, group.end());
235 
236  reachableFL.insert(reachableFL.end(), first, last);
237  }
238 }
239 
241  ConstFDLI biggerLayer = outerRadiusIncrease(fl, group);
242  if (biggerLayer != group.end() && biggerLayer != fl + 1) {
243  reachableFL.push_back(*biggerLayer);
244  }
245 }
246 
248  const float epsilon = 5.f;
249  float outerRadius = (**fl).specificSurface().outerRadius();
250  while (++fl != group.end()) {
251  if ((**fl).specificSurface().outerRadius() > outerRadius + epsilon) {
252  return fl;
253  }
254  }
255  return fl;
256 }
257 
258 vector<SimpleNavigationSchool::FDLC> SimpleNavigationSchool::splitForwardLayers() {
259  // only work on positive Z side; negative by mirror symmetry later
260 
261  FDLC myRightLayers(theRightLayers);
262  FDLI begin = myRightLayers.begin();
263  FDLI end = myRightLayers.end();
264 
265  // sort according to inner radius, but keeping the ordering in z!
266  std::stable_sort(begin, end, [](const ForwardDetLayer* a, const ForwardDetLayer* b) {
267  return a->specificSurface().innerRadius() < b->specificSurface().innerRadius();
268  });
269 
270  // partition in cylinders
271  vector<FDLC> result;
272  FDLC current;
273  current.push_back(*begin);
274  for (FDLI i = begin + 1; i != end; i++) {
275 #ifdef EDM_ML_DEBUG
276  LogDebug("TkNavigation") << "(**i).specificSurface().innerRadius() = " << (**i).specificSurface().innerRadius()
277  << endl
278  << "(**(i-1)).specificSurface().outerRadius()) = "
279  << (**(i - 1)).specificSurface().outerRadius();
280  LogDebug("TkNavigation") << "(**i).specificSurface().position().z() = "
281  << (**i).specificSurface().position().z() << endl
282  << "(**(i-1)).specificSurface().position().z() = "
283  << (**(i - 1)).specificSurface().position().z();
284 #endif
285 
286  // if inner radius of i is larger than outer radius of i-1 then split!
287  // FIXME: The solution found for phase2 is a bit dirty, we can do better.
288  // For phase2 we compare the EXTENDED pixel with the TID to get the assignment right!
289  if ((**i).specificSurface().innerRadius() > (**(i - 1)).specificSurface().outerRadius() ||
290  (theTracker->posPixelForwardLayers().back()->specificSurface().position().z() >
291  theTracker->posTidLayers().front()->specificSurface().position().z() &&
292  (**i).specificSurface().position().z() < (**(i - 1)).specificSurface().position().z())) {
293  LogDebug("TkNavigation") << "found break between groups";
294 
295  // sort layers in group along Z
296  std::stable_sort(current.begin(), current.end(), isDetLessZ);
297 
298  result.push_back(current);
299  current.clear();
300  }
301  current.push_back(*i);
302  }
303  result.push_back(current); // save last one too
304 
305  // now sort subsets in Z
306  for (vector<FDLC>::iterator ivec = result.begin(); ivec != result.end(); ivec++) {
307  std::stable_sort(ivec->begin(), ivec->end(), isDetLessZ);
308  }
309 
310  return result;
311 }
312 
314  if (theBarrelLength < 1.) {
315  for (BDLI i = theBarrelLayers.begin(); i != theBarrelLayers.end(); i++) {
316  theBarrelLength = max(theBarrelLength, (**i).surface().bounds().length() / 2.f);
317  }
318 
319  LogDebug("TkNavigation") << "The barrel length is " << theBarrelLength;
320  }
321  return theBarrelLength;
322 }
323 
325  // NavigationSetter setter(*this);
326 
327  setState(navigableLayers());
328 
329  // find for each layer which are the barrel and forward
330  // layers that point to it
331  typedef map<const DetLayer*, vector<const BarrelDetLayer*>, less<const DetLayer*> > BarrelMapType;
332  typedef map<const DetLayer*, vector<const ForwardDetLayer*>, less<const DetLayer*> > ForwardMapType;
333 
334  BarrelMapType reachedBarrelLayersMap;
335  ForwardMapType reachedForwardLayersMap;
336 
337  for (auto bli : theBarrelLayers) {
338  auto reachedLC = nextLayers(*bli, insideOut);
339  for (auto i : reachedLC) {
340  reachedBarrelLayersMap[i].push_back(bli);
341  }
342  }
343 
344  for (auto fli : theForwardLayers) {
345  auto reachedLC = nextLayers(*fli, insideOut);
346  for (auto i : reachedLC) {
347  reachedForwardLayersMap[i].push_back(fli);
348  }
349  }
350 
351  /*
352  vector<DetLayer*> lc = theTracker->allLayers();
353  for ( vector<DetLayer*>::iterator i = lc.begin(); i != lc.end(); i++) {
354  SimpleNavigableLayer* navigableLayer =
355  dynamic_cast<SimpleNavigableLayer*>((**i).navigableLayer());
356  navigableLayer->setInwardLinks( reachedBarrelLayersMap[*i],reachedForwardLayersMap[*i] );
357  }
358  */
359 
360  for (auto nl : theAllNavigableLayer) {
361  if (!nl)
362  continue;
363  auto navigableLayer = static_cast<SimpleNavigableLayer*>(nl);
364  auto dl = nl->detLayer();
365  navigableLayer->setInwardLinks(reachedBarrelLayersMap[dl], reachedForwardLayersMap[dl]);
366  }
367 }
368 
371 
372 #include "NavigationSchoolFactory.h"
SimpleNavigationSchool::FDLI
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Definition: SimpleNavigationSchool.h:37
SimpleBarrelNavigableLayer
Definition: SimpleBarrelNavigableLayer.h:12
SimpleNavigationSchool.h
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SimpleNavigationSchool::linkNextLargerLayer
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Definition: SimpleNavigationSchool.cc:66
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SimpleNavigationSchool::linkNextBarrelLayer
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SimpleNavigationSchool::outerRadiusIncrease
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