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ME0RecHitsValidation.cc
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2 #include <TMath.h>
3 
5  InputTagToken_ = consumes<edm::PSimHitContainer>(cfg.getParameter<edm::InputTag>("simInputLabel"));
6  InputTagToken_RecHit = consumes<ME0RecHitCollection>(cfg.getParameter<edm::InputTag>("recHitInputLabel"));
7 }
8 
10  edm::Run const &Run,
11  edm::EventSetup const &iSetup) {
12  LogDebug("MuonME0RecHitsValidation") << "Info : Loading Geometry information\n";
13  ibooker.setCurrentFolder("MuonME0RecHitsV/ME0RecHitsTask");
14 
15  unsigned int nregion = 2;
16 
17  edm::LogInfo("MuonME0RecHitsValidation") << "+++ Info : # of region : " << nregion << std::endl;
18 
19  LogDebug("MuonME0RecHitsValidation") << "+++ Info : finish to get geometry information from ES.\n";
20 
21  for (unsigned int region_num = 0; region_num < nregion; region_num++) {
22  me0_rh_zr[region_num] = BookHistZR(ibooker, "me0_rh_tot", "Digi", region_num);
23  for (unsigned int layer_num = 0; layer_num < 6; layer_num++) {
24  me0_rh_xy[region_num][layer_num] = BookHistXY(ibooker, "me0_rh", "RecHit", region_num, layer_num);
25 
26  std::string histo_name_DeltaX =
27  std::string("me0_rh_DeltaX_r") + regionLabel[region_num] + "_l" + layerLabel[layer_num];
28  std::string histo_name_DeltaY =
29  std::string("me0_rh_DeltaY_r") + regionLabel[region_num] + "_l" + layerLabel[layer_num];
30  std::string histo_label_DeltaX = "RecHit Delta X : region" + regionLabel[region_num] + " layer " +
31  layerLabel[layer_num] + " " + " ; x_{SimHit} - x_{RecHit} ; entries";
32  std::string histo_label_DeltaY = "RecHit Delta Y : region" + regionLabel[region_num] + " layer " +
33  layerLabel[layer_num] + " " + " ; y_{SimHit} - y_{RecHit} ; entries";
34 
35  me0_rh_DeltaX[region_num][layer_num] =
36  ibooker.book1D(histo_name_DeltaX.c_str(), histo_label_DeltaX.c_str(), 100, -10, 10);
37  me0_rh_DeltaY[region_num][layer_num] =
38  ibooker.book1D(histo_name_DeltaY.c_str(), histo_label_DeltaY.c_str(), 100, -10, 10);
39 
40  std::string histo_name_PullX =
41  std::string("me0_rh_PullX_r") + regionLabel[region_num] + "_l" + layerLabel[layer_num];
42  std::string histo_name_PullY =
43  std::string("me0_rh_PullY_r") + regionLabel[region_num] + "_l" + layerLabel[layer_num];
44  std::string histo_label_PullX = "RecHit Pull X : region" + regionLabel[region_num] + " layer " +
45  layerLabel[layer_num] + " " +
46  " ; #frac{x_{SimHit} - x_{RecHit}}{#sigma_{x,RecHit}} ; entries";
47  std::string histo_label_PullY = "RecHit Pull Y : region" + regionLabel[region_num] + " layer " +
48  layerLabel[layer_num] + " " +
49  " ; #frac{y_{SimHit} - y_{RecHit}}{#sigma_{y,RecHit}} ; entries";
50 
51  me0_rh_PullX[region_num][layer_num] =
52  ibooker.book1D(histo_name_PullX.c_str(), histo_label_DeltaX.c_str(), 100, -10, 10);
53  me0_rh_PullY[region_num][layer_num] =
54  ibooker.book1D(histo_name_PullY.c_str(), histo_label_DeltaY.c_str(), 100, -10, 10);
55  }
56  }
57 }
58 
60 
62  const ME0Geometry *ME0Geometry_ = &iSetup.getData(geomToken_);
63 
65  e.getByToken(InputTagToken_, ME0Hits);
66 
68  e.getByToken(InputTagToken_RecHit, ME0RecHits);
69 
70  if (!ME0Hits.isValid() | !ME0RecHits.isValid()) {
71  edm::LogError("ME0RecHitsValidation") << "Cannot get ME0Hits/ME0RecHits by Token simInputTagToken";
72  return;
73  }
74 
75  for (auto hits = ME0Hits->begin(); hits != ME0Hits->end(); hits++) {
76  const ME0DetId id(hits->detUnitId());
77  Int_t sh_region = id.region();
78  Int_t sh_layer = id.layer();
79  Int_t sh_station = 0;
80  Int_t sh_chamber = id.chamber();
81  Int_t sh_roll = id.roll();
82 
83  // Int_t even_odd = id.chamber()%2;
84  if (ME0Geometry_->idToDet(hits->detUnitId()) == nullptr) {
85  edm::LogInfo("ME0RecHitsValidation") << "simHit did not matched with GEMGeometry." << std::endl;
86  continue;
87  }
88 
89  const LocalPoint hitLP(hits->localPosition());
90 
91  for (ME0RecHitCollection::const_iterator recHit = ME0RecHits->begin(); recHit != ME0RecHits->end(); ++recHit) {
92  Float_t x = recHit->localPosition().x();
93  Float_t xErr = recHit->localPositionError().xx();
94  Float_t y = recHit->localPosition().y();
95  Float_t yErr = recHit->localPositionError().yy();
96  // Float_t detId = (Short_t) (*recHit).me0Id();
97  Float_t bx = 0;
98  Float_t clusterSize = 0;
99  Float_t firstClusterStrip = 0;
100 
101  ME0DetId id((*recHit).me0Id());
102 
103  Short_t region = (Short_t)id.region();
104  Short_t station = 0;
105  Short_t layer = (Short_t)id.layer();
106  Short_t chamber = (Short_t)id.chamber();
107  Short_t roll = (Short_t)id.roll();
108 
109  LocalPoint rhLP = recHit->localPosition();
110  GlobalPoint rhGP = ME0Geometry_->idToDet((*recHit).me0Id())->surface().toGlobal(rhLP);
111 
112  Float_t globalR = rhGP.perp();
113  Float_t globalX = rhGP.x();
114  Float_t globalY = rhGP.y();
115  Float_t globalZ = rhGP.z();
116 
117  Float_t x_sim = hitLP.x();
118  Float_t y_sim = hitLP.y();
119  Float_t pullX = (x_sim - x) / sqrt(xErr);
120  Float_t pullY = (y_sim - y) / sqrt(yErr);
121 
122  if (bx != 0)
123  continue;
124 
125  std::vector<int> stripsFired;
126  for (int i = firstClusterStrip; i < (firstClusterStrip + clusterSize); i++) {
127  stripsFired.push_back(i);
128  }
129 
130  const bool cond1(sh_region == region and sh_layer == layer and sh_station == station);
131  const bool cond2(sh_chamber == chamber and sh_roll == roll);
132  const bool cond3(
133  (std::find(stripsFired.begin(), stripsFired.end(), (firstClusterStrip + 1)) != stripsFired.end()) or
134  clusterSize == 0);
135 
136  int region_num = 0;
137  if (region == -1)
138  region_num = 0;
139  else if (region == 1)
140  region_num = 1;
141  int layer_num = layer - 1;
142 
143  if (cond1 and cond2 and cond3) {
144  me0_rh_xy[region_num][layer_num]->Fill(globalX, globalY);
145  me0_rh_zr[region_num]->Fill(globalZ, globalR);
146 
147  me0_rh_DeltaX[region_num][layer_num]->Fill(x_sim - x);
148  me0_rh_DeltaY[region_num][layer_num]->Fill(y_sim - y);
149  me0_rh_PullX[region_num][layer_num]->Fill(pullX);
150  me0_rh_PullY[region_num][layer_num]->Fill(pullY);
151  }
152  }
153  }
154 }
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