CMS 3D CMS Logo

 All Classes Namespaces Files Functions Variables Typedefs Enumerations Enumerator Properties Friends Macros Pages
PileupInformation.cc
Go to the documentation of this file.
1 // File: PileupInformation.cc
2 // Description: adds pileup information object to event
3 // Author: Mike Hildreth
4 //
5 // Adds a vector of PileupSummaryInfo objects to the event.
6 // One for each bunch crossing.
7 //
8 //--------------------------------------------
9 
12 
16 
19 
21 {
22  // Initialize global parameters
23 
24  pTcut_1_ = 0.1;
25  pTcut_2_ = 0.5; // defaults
26  distanceCut_ = config.getParameter<double>("vertexDistanceCut");
27  volumeRadius_ = config.getParameter<double>("volumeRadius");
28  volumeZ_ = config.getParameter<double>("volumeZ");
29  pTcut_1_ = config.getParameter<double>("pTcut_1");
30  pTcut_2_ = config.getParameter<double>("pTcut_2");
31 
32  PileupInfoLabel_ = config.getParameter<std::string>("PileupMixingLabel");
33 
34  trackingTruth_ = config.getParameter<std::string>("TrackingParticlesLabel");
35 
36  simHitLabel_ = config.getParameter<std::string>("simHitLabel");
37 
38  MessageCategory_ = "PileupInformation";
39 
40  edm::LogInfo (MessageCategory_) << "Setting up PileupInformation";
41  edm::LogInfo (MessageCategory_) << "Vertex distance cut set to " << distanceCut_ << " mm";
42  edm::LogInfo (MessageCategory_) << "Volume radius set to " << volumeRadius_ << " mm";
43  edm::LogInfo (MessageCategory_) << "Volume Z set to " << volumeZ_ << " mm";
44  edm::LogInfo (MessageCategory_) << "Lower pT Threshold set to " << pTcut_1_ << " GeV";
45  edm::LogInfo (MessageCategory_) << "Upper pT Threshold set to " << pTcut_2_ << " GeV";
46 
47 
48  produces< std::vector<PileupSummaryInfo> >();
49  //produces<PileupSummaryInfo>();
50 }
51 
52 
54 {
55 
56  std::auto_ptr<std::vector<PileupSummaryInfo> > PSIVector(new std::vector<PileupSummaryInfo>);
57 
58  edm::Handle< PileupMixingContent > MixingPileup; // Get True pileup information from MixingModule
59  event.getByLabel(PileupInfoLabel_, MixingPileup);
60 
61  std::vector<int> BunchCrossings;
62  std::vector<int> Interactions_Xing;
63  std::vector<float> TrueInteractions_Xing;
64 
65  const PileupMixingContent* MixInfo = MixingPileup.product();
66 
67  if(MixInfo) { // extract information - way easier than counting vertices
68 
69  const std::vector<int> bunchCrossing = MixInfo->getMix_bunchCrossing();
70  const std::vector<int> interactions = MixInfo->getMix_Ninteractions();
71  const std::vector<float> TrueInteractions = MixInfo->getMix_TrueInteractions();
72 
73 
74  for(int ib=0; ib<(int)bunchCrossing.size(); ++ib){
75  // std::cout << " bcr, nint " << bunchCrossing[ib] << " " << interactions[ib] << std::endl;
76  BunchCrossings.push_back(bunchCrossing[ib]);
77  Interactions_Xing.push_back(interactions[ib]);
78  TrueInteractions_Xing.push_back(TrueInteractions[ib]);
79  }
80  }
81  else{ //If no Mixing Truth, work with SimVertices (probably should throw an exception, but...)
82 
83  // Collect all the simvertex from the crossing frame
85  if( event.getByLabel("mix", simHitLabel_, cfSimVertexes) ) {
86 
87  // Create a mix collection from one simvertex collection
88  simVertexes_ = std::auto_ptr<MixCollection<SimVertex> >( new MixCollection<SimVertex>(cfSimVertexes.product()) );
89 
90  int index = 0;
91  // Solution to the problem of not having vertexId
92  // bool FirstL = true;
93  EncodedEventIdToIndex vertexId;
94  EncodedEventId oldEventId;
95  int oldBX = -1000;
96 
97  std::vector<int> BunchCrossings2;
98  std::list<int> Interactions_Xing2;
99 
100 
101  // Loop for finding repeated vertexId (vertexId problem hack)
102  for (MixCollection<SimVertex>::MixItr iterator = simVertexes_->begin(); iterator != simVertexes_->end(); ++iterator, ++index)
103  {
104  // std::cout << " SimVtx eventid, vertexid " << iterator->eventId().event() << " " << iterator->eventId().bunchCrossing() << std::endl;
105  if (!index || iterator->eventId() != oldEventId)
106  {
107  if(iterator->eventId().bunchCrossing()==0 && iterator->eventId().event()==0){
108  continue;
109  }
110  if(iterator->eventId().bunchCrossing() != oldBX) {
111  BunchCrossings2.push_back(iterator->eventId().bunchCrossing());
112  Interactions_Xing2.push_back(iterator->eventId().event());
113  oldBX = iterator->eventId().bunchCrossing();
114  }
115  else { Interactions_Xing2.pop_back();
116  Interactions_Xing2.push_back(iterator->eventId().event());
117  }
118 
119 
120  oldEventId = iterator->eventId();
121  continue;
122  }
123 
124  }
125 
126  std::vector<int>::iterator viter;
127  std::list<int>::iterator liter = Interactions_Xing2.begin();
128 
129  for(viter = BunchCrossings2.begin(); viter != BunchCrossings2.end(); ++viter, ++liter){
130  //std::cout << " bcr, nint from VTX " << (*viter) << " " << (*liter) << std::endl;
131  BunchCrossings.push_back((*viter));
132  Interactions_Xing.push_back((*liter));
133  TrueInteractions_Xing.push_back(-1.); // no idea what the true number is
134  }
135 
136  } // end of "did we find vertices?"
137  } // end of look at SimVertices
138 
139 
140  //Now, get information on valid particles that look like they could be in the tracking volume
141 
142 
143  zpositions.clear();
144  sumpT_lowpT.clear();
145  sumpT_highpT.clear();
146  ntrks_lowpT.clear();
147  ntrks_highpT.clear();
148  event_index_.clear();
149 
150  int lastEvent = 0; // zero is the true MC hard-scatter event
151 
152  // int lastBunchCrossing = 0; // 0 is the true bunch crossing, should always come first.
153 
156 
157  bool HaveTrackingParticles = false;
158 
159  TrackingVertexCollection::const_iterator iVtx;
160  TrackingVertexCollection::const_iterator iVtxTest;
161  TrackingParticleCollection::const_iterator iTrackTest;
162 
163 
164  if(event.getByLabel(trackingTruth_, mergedPH) && event.getByLabel(trackingTruth_, mergedVH)) {
165 
166  HaveTrackingParticles = true;
167 
168  iVtxTest = mergedVH->begin();
169  iTrackTest = mergedPH->begin();
170  }
171 
172  int nminb_vtx = 0;
173  // bool First = true;
174  // bool flag_new = false;
175 
176  std::vector<int>::iterator BXIter;
177  std::vector<int>::iterator InteractionsIter = Interactions_Xing.begin();
178  std::vector<float>::iterator TInteractionsIter = TrueInteractions_Xing.begin();
179 
180  // loop over the bunch crossings and interactions we have extracted
181 
182  for( BXIter = BunchCrossings.begin(); BXIter != BunchCrossings.end(); ++BXIter, ++InteractionsIter, ++TInteractionsIter) {
183 
184  //std::cout << "looking for BX: " << (*BXIter) << std::endl;
185 
186  if(HaveTrackingParticles) { // leave open the option of not producing TrackingParticles and just keeping # interactions
187 
188  for (iVtx = iVtxTest; iVtx != mergedVH->end(); ++iVtx) {
189 
190  if(iVtx->eventId().bunchCrossing() == (*BXIter) ) { // found first vertex in this bunch crossing
191 
192  if(iVtx->eventId().event() != lastEvent) {
193 
194  //std::cout << "BX,event " << iVtx->eventId().bunchCrossing() << " " << iVtx->eventId().event() << std::endl;
195 
196  float zpos = 0.;
197  zpos = iVtx->position().z();
198  zpositions.push_back(zpos); //save z position of each vertex
199  sumpT_lowpT.push_back(0.);
200  sumpT_highpT.push_back(0.);
201  ntrks_lowpT.push_back(0);
202  ntrks_highpT.push_back(0);
203 
204  lastEvent = iVtx->eventId().event();
205  iVtxTest = --iVtx; // just for security
206 
207  // turns out events aren't sequential... save map of indices
208 
209  event_index_.insert(myindex::value_type(lastEvent,nminb_vtx));
210 
211  ++nminb_vtx;
212 
213  continue;
214  }
215  }
216  }
217 
218  // next loop over tracks to get information
219 
220  for (TrackingParticleCollection::const_iterator iTrack = iTrackTest; iTrack != mergedPH->end(); ++iTrack)
221  {
222  bool FoundTrk = false;
223 
224  float zpos=0.;
225 
226  if(iTrack->eventId().bunchCrossing() == (*BXIter) && iTrack->eventId().event() > 0 )
227  {
228  FoundTrk = true;
229  int correct_index = event_index_[iTrack->eventId().event()];
230 
231  //std::cout << " track index, correct index " << iTrack->eventId().event() << " " << correct_index << std::endl;
232 
233  zpos = zpositions[correct_index];
234  if(iTrack->matchedHit()>0) {
235  if(fabs(iTrack->parentVertex()->position().z()-zpos)<0.1) { //make sure track really comes from this vertex
236  //std::cout << *iTrack << std::endl;
237  float Tpx = iTrack->p4().px();
238  float Tpy = iTrack->p4().py();
239  float TpT = sqrt(Tpx*Tpx + Tpy*Tpy);
240  if( TpT>pTcut_1_ ) {
241  sumpT_lowpT[correct_index]+=TpT;
242  ++ntrks_lowpT[correct_index];
243  }
244  if( TpT>pTcut_2_ ){
245  sumpT_highpT[correct_index]+=TpT;
246  ++ntrks_highpT[correct_index];
247  }
248  }
249  }
250  }
251  else{
252  if(FoundTrk) {
253 
254  iTrackTest = --iTrack; // reset so we can start over next time
255  --iTrackTest; // just to be sure
256  break;
257  }
258 
259  }
260 
261  } // end of track loop
262 
263  } // end of check that we have TrackingParticles to begin with...
264 
265 
266  // now that we have all of the track information for a given bunch crossing,
267  // make PileupSummary for this one and move on
268 
269  // std::cout << "Making PSI for bunch " << lastBunchCrossing << std::endl;
270 
271  if(!HaveTrackingParticles) { // stick in one value so we don't have empty vectors
272 
273  zpositions.push_back(-999.);
274  sumpT_lowpT.push_back(0.);
275  sumpT_highpT.push_back(0.);
276  ntrks_lowpT.push_back(0);
277  ntrks_highpT.push_back(0);
278 
279  }
280 
282  (*InteractionsIter),
283  zpositions,
284  sumpT_lowpT,
285  sumpT_highpT,
286  ntrks_lowpT,
287  ntrks_highpT,
288  (*BXIter),
289  (*TInteractionsIter)
290  );
291 
292  //std::cout << " " << std::endl;
293  //std::cout << "Adding Bunch Crossing, nint " << (*BXIter) << " " << (*InteractionsIter) << std::endl;
294 
295  //for(int iv = 0; iv<(*InteractionsIter); ++iv){
296 
297  // std::cout << "Z position " << zpositions[iv] << std::endl;
298  // std::cout << "ntrks_lowpT " << ntrks_lowpT[iv] << std::endl;
299  // std::cout << "sumpT_lowpT " << sumpT_lowpT[iv] << std::endl;
300  // std::cout << "ntrks_highpT " << ntrks_highpT[iv] << std::endl;
301  // std::cout << "sumpT_highpT " << sumpT_highpT[iv] << std::endl;
302  //}
303 
304  PSIVector->push_back(PSI_bunch);
305 
306  // if(HaveTrackingParticles) lastBunchCrossing = iVtx->eventId().bunchCrossing();
307 
308  event_index_.clear();
309  zpositions.clear();
310  sumpT_lowpT.clear();
311  sumpT_highpT.clear();
312  ntrks_lowpT.clear();
313  ntrks_highpT.clear();
314  nminb_vtx = 0;
315  lastEvent=0;
316 
317 
318  } // end of loop over bunch crossings
319 
320  // put our vector of PileupSummaryInfo objects into the event.
321 
322  event.put(PSIVector);
323 
324 
325 }
326 
327 
T getParameter(std::string const &) const
int ib
Definition: cuy.py:660
std::string MessageCategory_
const std::vector< float > & getMix_TrueInteractions() const
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
const std::vector< int > & getMix_bunchCrossing() const
std::map< EncodedEventId, unsigned int > EncodedEventIdToIndex
PileupInformation(const edm::ParameterSet &)
void produce(edm::Event &, const edm::EventSetup &)
const std::vector< int > & getMix_Ninteractions() const
T sqrt(T t)
Definition: SSEVec.h:48
int bunchCrossing() const
get the detector field from this detid
edm::InputTag PileupInfoLabel_
std::vector< float > sumpT_highpT
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event(this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past
Container::value_type value_type
std::vector< float > zpositions
bool getByLabel(InputTag const &tag, Handle< PROD > &result) const
Definition: Event.h:390
std::auto_ptr< MixCollection< SimVertex > > simVertexes_
std::vector< int > ntrks_lowpT
T const * product() const
Definition: Handle.h:81
std::vector< float > sumpT_lowpT
edm::InputTag trackingTruth_
std::vector< int > ntrks_highpT
std::string simHitLabel_
void setup(std::vector< TH2F > &depth, std::string name, std::string units="")