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List of all members | Public Member Functions | Private Member Functions | Static Private Member Functions | Private Attributes
L1MuBMMuonSorter Class Reference

#include <L1MuBMMuonSorter.h>

Inheritance diagram for L1MuBMMuonSorter:
L1AbstractProcessor

Public Member Functions

 L1MuBMMuonSorter (const L1MuBMTrackFinder &)
 constructor More...
 
int numberOfTracks () const
 return number of found muon candidates after sorter More...
 
void print () const
 print results after sorting More...
 
void reset () override
 reset Muon Sorter More...
 
void run () override
 run Muon Sorter More...
 
const L1MuBMTracktrack (int id) const
 return pointer to a muon candidate More...
 
const std::vector< const L1MuBMTrack * > & tracks () const
 return vector of muon candidates More...
 
 ~L1MuBMMuonSorter () override
 destructor More...
 
- Public Member Functions inherited from L1AbstractProcessor
virtual void run (const edm::EventSetup &c)
 
virtual void run (const edm::EventSetup &c)
 
virtual ~L1AbstractProcessor ()
 destructor More...
 
virtual ~L1AbstractProcessor ()
 destructor More...
 

Private Member Functions

void runCOL (std::vector< L1MuBMTrack * > &) const
 run the Cancel Out Logic of the muon sorter More...
 

Static Private Member Functions

static int neighbour (const L1MuBMSecProcId &spid1, const L1MuBMSecProcId &spid2)
 find out if two Sector Processors are neighbours More...
 

Private Attributes

const L1MuBMTrackFinderm_tf
 
std::vector< const L1MuBMTrack * > m_TrackCands
 

Detailed Description

BM Muon Sorter:

The BM Muon Sorter receives 2 muon candidates from each of the 12 Wedge Sorters and sorts out the 4 best (highest pt, highest quality) muons

N. Neumeister CERN EP

Definition at line 45 of file L1MuBMMuonSorter.h.

Constructor & Destructor Documentation

L1MuBMMuonSorter::L1MuBMMuonSorter ( const L1MuBMTrackFinder tf)

constructor

Definition at line 49 of file L1MuBMMuonSorter.cc.

References m_TrackCands.

49  :
50  m_tf(tf), m_TrackCands() {
51 
52  m_TrackCands.reserve(4);
53 
54 }
const L1MuBMTrackFinder & m_tf
std::vector< const L1MuBMTrack * > m_TrackCands
L1MuBMMuonSorter::~L1MuBMMuonSorter ( )
override

destructor

Definition at line 61 of file L1MuBMMuonSorter.cc.

61  {
62 
63 }

Member Function Documentation

int L1MuBMMuonSorter::neighbour ( const L1MuBMSecProcId spid1,
const L1MuBMSecProcId spid2 
)
staticprivate

find out if two Sector Processors are neighbours

Definition at line 299 of file L1MuBMMuonSorter.cc.

References funct::abs(), L1MuBMSecProcId::sector(), ecaldqm::topology(), and L1MuBMSecProcId::wheel().

Referenced by runCOL(), and tracks().

300  {
301 
302  // definition of valid topologies:
303 
304  // E T A
305  // -----------------
306  // +
307  // --- ---
308  // | | 2 | | 2 |
309  // P | |___| |___|
310  // | --- --- --- ---
311  // H | | 1 | | 1 | | 1 | | 1 |
312  // | |___| |___| |___| |___|
313  // I | --- ---
314  // | | 2 | | 2 |
315  // |___| |___|
316  // -
317  // result: 1 2 3 4 5 6 otherwise : -1
318 
319  int topology = -1;
320 
321  int sector1 = spid1.sector();
322  int wheel1 = spid1.wheel();
323 
324  int sector2 = spid2.sector();
325  int wheel2 = spid2.wheel();
326 
327  int sectordiff = (sector2 - sector1)%12;
328  if ( sectordiff >= 6 ) sectordiff -= 12;
329  if ( sectordiff < -6 ) sectordiff += 12;
330 
331  if ( abs(sectordiff) == 1 ) {
332 
333  if ( wheel1 == wheel2 ) topology = (sectordiff > 0) ? 1 : 2;
334  if ( wheel1 == +1 && wheel2 == -1 ) topology = (sectordiff > 0) ? 5 : 6;
335  if ( ( wheel1 == -2 && wheel2 == -3 ) ||
336  ( wheel1 == -1 && wheel2 == -2 ) ||
337  ( wheel1 == +1 && wheel2 == +2 ) ||
338  ( wheel1 == +2 && wheel2 == +3 ) ) topology = (sectordiff > 0) ? 3 : 4;
339 
340  }
341 
342  return topology;
343 
344 }
CaloTopology const * topology(0)
int sector() const
return sector number
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
int wheel() const
return wheel number
int L1MuBMMuonSorter::numberOfTracks ( ) const
inline

return number of found muon candidates after sorter

Definition at line 65 of file L1MuBMMuonSorter.h.

References m_TrackCands.

Referenced by print().

65 { return m_TrackCands.size(); }
std::vector< const L1MuBMTrack * > m_TrackCands
void L1MuBMMuonSorter::print ( void  ) const

print results after sorting

Definition at line 146 of file L1MuBMMuonSorter.cc.

References gather_cfg::cout, m_TrackCands, and numberOfTracks().

146  {
147 
148  cout << endl;
149  cout << "Muon candidates found by the barrel MTTF : "
150  << numberOfTracks() << endl;
151  vector<const L1MuBMTrack*>::const_iterator iter = m_TrackCands.begin();
152  while ( iter != m_TrackCands.end() ) {
153  if ( *iter ) cout << *(*iter) << endl;
154  iter++;
155  }
156  cout << endl;
157 
158 }
int numberOfTracks() const
return number of found muon candidates after sorter
std::vector< const L1MuBMTrack * > m_TrackCands
void L1MuBMMuonSorter::reset ( void  )
overridevirtual

reset Muon Sorter

Implements L1AbstractProcessor.

Definition at line 132 of file L1MuBMMuonSorter.cc.

References m_TrackCands.

Referenced by L1MuBMTrackFinder::reset().

132  {
133 
134  m_TrackCands.clear();
135  vector<const L1MuBMTrack*>::iterator iter;
136  for ( iter = m_TrackCands.begin(); iter != m_TrackCands.end(); iter++ ) {
137  *iter = nullptr;
138  }
139 
140 }
std::vector< const L1MuBMTrack * > m_TrackCands
void L1MuBMMuonSorter::run ( )
overridevirtual

run Muon Sorter

Reimplemented from L1AbstractProcessor.

Definition at line 73 of file L1MuBMMuonSorter.cc.

References gather_cfg::cout, L1MuBMTFConfig::Debug(), m_tf, m_TrackCands, runCOL(), L1MuBMWedgeSorter::tracks(), and L1MuBMTrackFinder::ws().

73  {
74 
75  // get track candidates from Wedge Sorters
76  vector<L1MuBMTrack*> mycands;
77  mycands.reserve(24);
78 
79  for ( int wedge = 0; wedge < 12; wedge++ ) {
80  vector<const L1MuBMTrack*> wscand = m_tf.ws(wedge)->tracks();
81  vector<const L1MuBMTrack*>::iterator iter = wscand.begin();
82  while ( iter != wscand.end() ) {
83  if ( *iter && !(*iter)->empty() )
84  mycands.push_back(const_cast<L1MuBMTrack*>(*iter) );
85  iter++;
86  }
87  }
88 
89  // print input data
90  if ( L1MuBMTFConfig::Debug(4) ) {
91  cout << "BM Muon Sorter input: "
92  << mycands.size() << endl;
93  vector<L1MuBMTrack*>::const_iterator iter;
94  for ( iter = mycands.begin(); iter != mycands.end(); iter++ ) {
95  if (*iter ) (*iter)->print();
96  }
97  }
98 
99  // run Cancel Out Logic
100  runCOL(mycands);
101 
102  // remove disabled candidates
103  vector<L1MuBMTrack*>::iterator it = mycands.begin();
104  while ( it != mycands.end() ) {
105  if ( *it && (*it)->empty() ) {
106  mycands.erase(it);
107  it = mycands.begin(); continue;
108  }
109  it++;
110  }
111 
112  // sort pt and quality
113  stable_sort( mycands.begin(), mycands.end(), L1MuBMTrack::Rank() );
114 
115  // copy the best 4 candidates
116  int number_of_tracks = 0;
117  vector<L1MuBMTrack*>::const_iterator iter1 = mycands.begin();
118  while ( iter1 != mycands.end() ) {
119  if ( *iter1 && number_of_tracks < 4 ) {
120  m_TrackCands.push_back(*iter1);
121  number_of_tracks++;
122  }
123  iter1++;
124  }
125 
126 }
define a rank for muon candidates
Definition: L1MuBMTrack.h:195
void runCOL(std::vector< L1MuBMTrack * > &) const
run the Cancel Out Logic of the muon sorter
const std::vector< const L1MuBMTrack * > & tracks() const
return vector of muon candidates
const L1MuBMWedgeSorter * ws(int id) const
get a pointer to a Wedge Sorter, index [0-11]
const L1MuBMTrackFinder & m_tf
static bool Debug()
std::vector< const L1MuBMTrack * > m_TrackCands
void L1MuBMMuonSorter::runCOL ( std::vector< L1MuBMTrack * > &  cands) const
private

run the Cancel Out Logic of the muon sorter

Definition at line 164 of file L1MuBMMuonSorter.cc.

References funct::abs(), gather_cfg::cout, L1MuBMTFConfig::Debug(), neighbour(), hitfit::phidiff(), hiDetachedQuadStep_cff::pt1, hiDetachedQuadStep_cff::pt2, ecaldqm::topology(), and w2.

Referenced by run(), and tracks().

164  {
165 
166  // compare candidates which were found in nearby sectors and wheels
167  // if 2 candidates have at least one track segment in common
168  // disable the one with lower quality
169  // compare addresses from stations 2, 3 and 4
170 
171  typedef vector<L1MuBMTrack*>::iterator TI;
172  for ( TI iter1 = cands.begin(); iter1 != cands.end(); iter1++ ) {
173  if ( *iter1 == nullptr ) continue;
174  if ( (*iter1)->empty() ) continue;
175  L1MuBMSecProcId sp1 = (*iter1)->spid();
176  int qual1 = (*iter1)->quality();
177  for ( TI iter2 = cands.begin(); iter2 != cands.end(); iter2++ ) {
178  if ( *iter2 == nullptr ) continue;
179  if ( *iter1 == *iter2 ) continue;
180  if ( (*iter2)->empty() ) continue;
181  L1MuBMSecProcId sp2 = (*iter2)->spid();
182  int qual2 = (*iter2)->quality();
183  if (sp1 == sp2 ) continue;
184  int topology = neighbour(sp1,sp2);
185  if ( topology == -1 ) continue;
186  int countTS = 0;
187  for ( int stat = 2; stat <= 4; stat++ ) {
188  int adr1 = (*iter1)->address(stat);
189  int adr2 = (*iter2)->address(stat);
190  if ( adr1 == 15 || adr2 == 15 ) continue;
191  switch ( topology ) {
192  case 1 : {
193  if ( adr1 > 7 ) continue;
194  if ( adr2 > 3 && adr2 < 8 ) continue;
195  int adr_shift = ( adr2 > 7 ) ? -8 : 4;
196  if ( adr1 == adr2+adr_shift ) countTS++;
197  break;
198  }
199  case 2 : {
200  if ( adr2 > 7 ) continue;
201  if ( adr1 > 3 && adr1 < 8 ) continue;
202  int adr_shift = ( adr2 > 3 ) ? -4 : 8;
203  if ( adr1 == adr2+adr_shift ) countTS++;
204  break;
205  }
206  case 3 : {
207  if ( ( adr1 == 6 && adr2 == 0 ) ||
208  ( adr1 == 7 && adr2 == 1 ) ||
209  ( adr1 == 2 && adr2 == 8 ) ||
210  ( adr1 == 3 && adr2 == 9 ) ) countTS++;
211  break;
212  }
213  case 4 : {
214  if ( ( adr1 == 2 && adr2 == 4 ) ||
215  ( adr1 == 3 && adr2 == 5 ) ||
216  ( adr1 == 10 && adr2 == 0 ) ||
217  ( adr1 == 11 && adr2 == 1 ) ) countTS++;
218  break;
219  }
220  case 5 : {
221  if ( ( adr1 == 0 && adr2 == 8 ) ||
222  ( adr1 == 1 && adr2 == 9 ) ||
223  ( adr1 == 4 && adr2 == 0 ) ||
224  ( adr1 == 5 && adr2 == 1 ) ) countTS++;
225  break;
226  }
227  case 6 : {
228  if ( ( adr1 == 0 && adr2 == 4 ) ||
229  ( adr1 == 1 && adr2 == 5 ) ||
230  ( adr1 == 8 && adr2 == 0 ) ||
231  ( adr1 == 9 && adr2 == 1 ) ) countTS++;
232  break;
233  }
234  default : break;
235  }
236  }
237  if ( countTS > 0 ) {
238  if ( qual1 < qual2 ) {
239  if ( L1MuBMTFConfig::Debug(5) ) {
240  cout << "Muon Sorter cancel : "; (*iter1)->print();
241  }
242  (*iter1)->disable();
243  break;
244  }
245  else {
246  if ( L1MuBMTFConfig::Debug(5) ) {
247  cout << "Muon Sorter cancel : "; (*iter2)->print();
248  }
249  (*iter2)->disable();
250  }
251  }
252  }
253  }
254 
255 
256  // if two candidates have exactly the same phi and eta values
257  // remove the one with lower rank
258 
259  for ( TI iter1 = cands.begin(); iter1 != cands.end(); iter1++ ) {
260  if ( *iter1 == nullptr ) continue;
261  if ( (*iter1)->empty() ) continue;
262  int phi1 = (*iter1)->phi();
263  int pt1 = (*iter1)->pt();
264  int qual1 = (*iter1)->quality();
265  for ( TI iter2 = cands.begin(); iter2 != cands.end(); iter2++ ) {
266  if ( *iter2 == nullptr ) continue;
267  if ( *iter1 == *iter2 ) continue;
268  if ( (*iter2)->empty() ) continue;
269  int phi2 = (*iter2)->phi();
270  int pt2 = (*iter2)->pt();
271  int qual2 = (*iter2)->quality();
272  int w1 = (*iter1)->getStartTSphi().wheel();
273  int w2 = (*iter2)->getStartTSphi().wheel();
274  int phidiff = (phi2 - phi1)%144;
275  if ( phidiff >= 72 ) phidiff -= 144;
276  if ( phidiff < -72 ) phidiff += 144;
277  if ( abs(phidiff) < 2 && (w1 == w2) ) {
278  int rank1 = 10 * pt1 + qual1;
279  int rank2 = 10 * pt2 + qual2;
280  if ( L1MuBMTFConfig::Debug(5) ) {
281  cout << "========================================" << endl;
282  cout << " special cancellation : " << endl;
283  (*iter1)->print(); if ( rank1 < rank2 ) cout << "cancelled" << endl;
284  (*iter2)->print(); if ( rank1 >= rank2 ) cout << "cancelled" << endl;
285  cout << "========================================" << endl;
286  }
287  if ( rank1 >= rank2 ) (*iter2)->disable();
288  if ( rank1 < rank2 ) { (*iter1)->disable(); break; }
289  }
290  }
291  }
292 
293 }
common ppss p3p6s2 common epss epspn46 common const1 w2
Definition: inclppp.h:1
CaloTopology const * topology(0)
double phidiff(double phi)
Normalized difference in azimuthal angles to a range between .
Definition: fourvec.cc:230
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
static int neighbour(const L1MuBMSecProcId &spid1, const L1MuBMSecProcId &spid2)
find out if two Sector Processors are neighbours
static bool Debug()
const L1MuBMTrack* L1MuBMMuonSorter::track ( int  id) const
inline

return pointer to a muon candidate

Definition at line 68 of file L1MuBMMuonSorter.h.

References triggerObjects_cff::id, and m_TrackCands.

68 { return m_TrackCands[id]; }
std::vector< const L1MuBMTrack * > m_TrackCands
const std::vector<const L1MuBMTrack*>& L1MuBMMuonSorter::tracks ( void  ) const
inline

return vector of muon candidates

Definition at line 71 of file L1MuBMMuonSorter.h.

References m_TrackCands, neighbour(), and runCOL().

71 { return m_TrackCands; }
std::vector< const L1MuBMTrack * > m_TrackCands

Member Data Documentation

const L1MuBMTrackFinder& L1MuBMMuonSorter::m_tf
private

Definition at line 83 of file L1MuBMMuonSorter.h.

Referenced by run().

std::vector<const L1MuBMTrack*> L1MuBMMuonSorter::m_TrackCands
private

Definition at line 84 of file L1MuBMMuonSorter.h.

Referenced by L1MuBMMuonSorter(), numberOfTracks(), print(), reset(), run(), track(), and tracks().