35 LogTrace(
"DQMOffline|MuonDPG|GEMTnPEfficiencyTask") <<
"[GEMTnPEfficiencyTask]: Constructor" << std::endl;
39 LogTrace(
"DQMOffline|MuonDPG|GEMTnPEfficiencyTask")
40 <<
"[GEMTnPEfficiencyTask]: analyzed " <<
m_nEvents <<
" events" << std::endl;
48 LogTrace(
"DQMOffline|MuonDPG|GEMTnPEfficiencyTask") <<
"[GEMTnPEfficiencyTask]: bookHistograms" << std::endl;
54 iBooker.
book2D(
"GE11_nPassingProbe_Ch_region",
"GE11_nPassingProbe_Ch_region", 2, -1.5, 1.5, 36, 1, 37);
56 iBooker.
book2D(
"GE11_nFailingProbe_Ch_region",
"GE11_nFailingProbe_Ch_region", 2, -1.5, 1.5, 36, 1, 37);
58 iBooker.
book2D(
"GE21_nPassingProbe_Ch_region",
"GE21_nPassingProbe_Ch_region", 2, -1.5, 1.5, 36, 1, 37);
60 iBooker.
book2D(
"GE21_nFailingProbe_Ch_region",
"GE21_nFailingProbe_Ch_region", 2, -1.5, 1.5, 36, 1, 37);
62 iBooker.
book2D(
"GEM_nPassingProbe_Ch_region_GE1",
"GEM_nPassingProbe_Ch_region_GE1", 4, 0, 4, 36, 1, 37);
64 iBooker.
book2D(
"GEM_nFailingProbe_Ch_region_GE1",
"GEM_nFailingProbe_Ch_region_GE1", 4, 0, 4, 36, 1, 37);
66 iBooker.
book2D(
"GEM_nPassingProbe_Ch_region_GE1_NoL",
"GEM_nPassingProbe_Ch_region_GE1_NoL", 2, 0, 2, 36, 1, 37);
68 iBooker.
book2D(
"GEM_nFailingProbe_Ch_region_GE1_NoL",
"GEM_nFailingProbe_Ch_region_GE1_NoL", 2, 0, 2, 36, 1, 37);
70 iBooker.
book2D(
"GE11_nPassingProbe_Ch_ieta",
"GE11_nPassingProbe_Ch_ieta", 8, 1, 9, 36, 1, 37);
72 iBooker.
book2D(
"GE11_nFailingProbe_Ch_ieta",
"GE11_nFailingProbe_Ch_ieta", 8, 1, 9, 36, 1, 37);
74 "GE11_nPassingProbe_Ch_phi",
"GE11_nPassingProbe_Ch_phi", 20, -
TMath::Pi(),
TMath::Pi(), 36, 1, 37);
76 "GE11_nFailingProbe_Ch_phi",
"GE11_nFailingProbe_Ch_phi", 20, -
TMath::Pi(),
TMath::Pi(), 36, 1, 37);
78 iBooker.
book1D(
"GE11_nPassingProbe_allCh_1D",
"GE11_nPassingProbe_allCh_1D", 2, -1.5, 1.5);
80 iBooker.
book1D(
"GE11_nFailingProbe_allCh_1D",
"GE11_nFailingProbe_allCh_1D", 2, -1.5, 1.5);
82 iBooker.
book1D(
"GE11_nPassingProbe_chamber_1D",
"GE11_nPassingProbe_chamber_1D", 36, 1, 37);
84 iBooker.
book1D(
"GE11_nFailingProbe_chamber_1D",
"GE11_nFailingProbe_chamber_1D", 36, 1, 37);
86 iBooker.
book2D(
"GE21_nPassingProbe_Ch_ieta",
"GE21_nPassingProbe_Ch_ieta", 16, 1, 17, 18, 1, 19);
88 iBooker.
book2D(
"GE21_nFailingProbe_Ch_ieta",
"GE21_nFailingProbe_Ch_ieta", 16, 1, 17, 18, 1, 19);
90 "GE21_nPassingProbe_Ch_phi",
"GE21_nPassingProbe_Ch_phi", 20, -
TMath::Pi(),
TMath::Pi(), 18, 1, 19);
92 "GE21_nFailingProbe_Ch_phi",
"GE21_nFailingProbe_Ch_phi", 20, -
TMath::Pi(),
TMath::Pi(), 18, 1, 19);
94 iBooker.
book1D(
"GE21_nPassingProbe_allCh_1D",
"GE21_nPassingProbe_allCh_1D", 2, -1.5, 1.5);
96 iBooker.
book1D(
"GE21_nFailingProbe_allCh_1D",
"GE21_nFailingProbe_allCh_1D", 2, -1.5, 1.5);
98 iBooker.
book1D(
"GE21_nPassingProbe_chamber_1D",
"GE21_nPassingProbe_chamber_1D", 18, 1, 19);
100 iBooker.
book1D(
"GE21_nFailingProbe_chamber_1D",
"GE21_nFailingProbe_chamber_1D", 18, 1, 19);
102 iBooker.
book1D(
"GEM_nPassingProbe_chamber_p1_1D",
"GEM_nPassingProbe_chamber_p1_1D", 36, 1, 37);
104 iBooker.
book1D(
"GEM_nFailingProbe_chamber_p1_1D",
"GEM_nFailingProbe_chamber_p1_1D", 36, 1, 37);
106 iBooker.
book1D(
"GEM_nPassingProbe_chamber_p2_1D",
"GEM_nPassingProbe_chamber_p2_1D", 36, 1, 37);
108 iBooker.
book1D(
"GEM_nFailingProbe_chamber_p2_1D",
"GEM_nFailingProbe_chamber_p2_1D", 36, 1, 37);
110 iBooker.
book1D(
"GEM_nPassingProbe_chamber_n1_1D",
"GEM_nPassingProbe_chamber_n1_1D", 36, 1, 37);
112 iBooker.
book1D(
"GEM_nFailingProbe_chamber_n1_1D",
"GEM_nFailingProbe_chamber_n1_1D", 36, 1, 37);
114 iBooker.
book1D(
"GEM_nPassingProbe_chamber_n2_1D",
"GEM_nPassingProbe_chamber_n2_1D", 36, 1, 37);
116 iBooker.
book1D(
"GEM_nFailingProbe_chamber_n2_1D",
"GEM_nFailingProbe_chamber_n2_1D", 36, 1, 37);
118 MonitorElement* me_GEM_pass_pt_1D = iBooker.
book1D(
"GEM_nPassingProbe_pt_1D",
"GEM_nPassingProbe_pt_1D", 20, 0, 100);
119 MonitorElement* me_GEM_fail_pt_1D = iBooker.
book1D(
"GEM_nFailingProbe_pt_1D",
"GEM_nFailingProbe_pt_1D", 20, 0, 100);
121 iBooker.
book1D(
"GEM_nPassingProbe_eta_1D",
"GEM_nPassingProbe_eta_1D", 24, 0, 2.4);
123 iBooker.
book1D(
"GEM_nFailingProbe_eta_1D",
"GEM_nFailingProbe_eta_1D", 24, 0, 2.4);
130 iBooker.
book1D(
"GEM_nPassingProbe_pt_p1_1D",
"GEM_nPassingProbe_pt_p1_1D", 20, 0, 100);
132 iBooker.
book1D(
"GEM_nFailingProbe_pt_p1_1D",
"GEM_nFailingProbe_pt_p1_1D", 20, 0, 100);
134 iBooker.
book1D(
"GEM_nPassingProbe_eta_p1_1D",
"GEM_nPassingProbe_eta_p1_1D", 24, 0, 2.4);
136 iBooker.
book1D(
"GEM_nFailingProbe_eta_p1_1D",
"GEM_nFailingProbe_eta_p1_1D", 24, 0, 2.4);
142 iBooker.
book1D(
"GEM_nPassingProbe_pt_p2_1D",
"GEM_nPassingProbe_pt_p2_1D", 20, 0, 100);
144 iBooker.
book1D(
"GEM_nFailingProbe_pt_p2_1D",
"GEM_nFailingProbe_pt_p2_1D", 20, 0, 100);
146 iBooker.
book1D(
"GEM_nPassingProbe_eta_p2_1D",
"GEM_nPassingProbe_eta_p2_1D", 24, 0, 2.4);
148 iBooker.
book1D(
"GEM_nFailingProbe_eta_p2_1D",
"GEM_nFailingProbe_eta_p2_1D", 24, 0, 2.4);
154 iBooker.
book1D(
"GEM_nPassingProbe_pt_n1_1D",
"GEM_nPassingProbe_pt_n1_1D", 20, 0, 100);
156 iBooker.
book1D(
"GEM_nFailingProbe_pt_n1_1D",
"GEM_nFailingProbe_pt_n1_1D", 20, 0, 100);
158 iBooker.
book1D(
"GEM_nPassingProbe_eta_n1_1D",
"GEM_nPassingProbe_eta_n1_1D", 24, 0, 2.4);
160 iBooker.
book1D(
"GEM_nFailingProbe_eta_n1_1D",
"GEM_nFailingProbe_eta_n1_1D", 24, 0, 2.4);
166 iBooker.
book1D(
"GEM_nPassingProbe_pt_n2_1D",
"GEM_nPassingProbe_pt_n2_1D", 20, 0, 100);
168 iBooker.
book1D(
"GEM_nFailingProbe_pt_n2_1D",
"GEM_nFailingProbe_pt_n2_1D", 20, 0, 100);
170 iBooker.
book1D(
"GEM_nPassingProbe_eta_n2_1D",
"GEM_nPassingProbe_eta_n2_1D", 24, 0, 2.4);
172 iBooker.
book1D(
"GEM_nFailingProbe_eta_n2_1D",
"GEM_nFailingProbe_eta_n2_1D", 24, 0, 2.4);
179 iBooker.
book1D(
"ME0_nPassingProbe_chamber_1D",
"ME0_nPassingProbe_chamber_1D", 18, 1, 19);
181 iBooker.
book1D(
"ME0_nFailingProbe_chamber_1D",
"ME0_nFailingProbe_chamber_1D", 18, 1, 19);
183 "GEM_nPassingProbe_Ch_region_layer_phase2",
"GEM_nPassingProbe_Ch_region_layer_phase2", 10, 0, 10, 36, 1, 37);
185 "GEM_nFailingProbe_Ch_region_layer_phase2",
"GEM_nFailingProbe_Ch_region_layer_phase2", 10, 0, 10, 36, 1, 37);
189 me_GE11_pass_allCh_1D->
setAxisTitle(
"Number of passing probes", 2);
193 me_GE11_fail_allCh_1D->
setAxisTitle(
"Number of failing probes", 2);
196 me_GE11_pass_chamber_1D->
setAxisTitle(
"Number of passing probes", 2);
198 me_GE11_fail_chamber_1D->
setAxisTitle(
"Number of failing probes", 2);
202 me_GE21_pass_allCh_1D->
setAxisTitle(
"Number of passing probes", 2);
206 me_GE21_fail_allCh_1D->
setAxisTitle(
"Number of failing probes", 2);
209 me_GE21_pass_chamber_1D->
setAxisTitle(
"Number of passing probes", 2);
211 me_GE21_fail_chamber_1D->
setAxisTitle(
"Number of failing probes", 2);
214 me_GEM_pass_chamber_p1_1D->
setAxisTitle(
"Number of passing probes", 2);
216 me_GEM_fail_chamber_p1_1D->
setAxisTitle(
"Number of failing probes", 2);
219 me_GEM_pass_chamber_p2_1D->
setAxisTitle(
"Number of passing probes", 2);
221 me_GEM_fail_chamber_p2_1D->
setAxisTitle(
"Number of failing probes", 2);
224 me_GEM_pass_chamber_n1_1D->
setAxisTitle(
"Number of passing probes", 2);
226 me_GEM_fail_chamber_n1_1D->
setAxisTitle(
"Number of failing probes", 2);
229 me_GEM_pass_chamber_n2_1D->
setAxisTitle(
"Number of passing probes", 2);
231 me_GEM_fail_chamber_n2_1D->
setAxisTitle(
"Number of failing probes", 2);
234 me_GEM_pass_pt_1D->
setAxisTitle(
"Number of passing probes", 2);
236 me_GEM_fail_pt_1D->
setAxisTitle(
"Number of failing probes", 2);
239 me_GEM_pass_eta_1D->
setAxisTitle(
"Number of passing probes", 2);
241 me_GEM_fail_eta_1D->
setAxisTitle(
"Number of failing probes", 2);
244 me_GEM_pass_phi_1D->
setAxisTitle(
"Number of passing probes", 2);
246 me_GEM_fail_phi_1D->
setAxisTitle(
"Number of failing probes", 2);
249 me_GEM_pass_pt_p1_1D->
setAxisTitle(
"Number of passing probes", 2);
251 me_GEM_fail_pt_p1_1D->
setAxisTitle(
"Number of failing probes", 2);
254 me_GEM_pass_eta_p1_1D->
setAxisTitle(
"Number of passing probes", 2);
256 me_GEM_fail_eta_p1_1D->
setAxisTitle(
"Number of failing probes", 2);
259 me_GEM_pass_phi_p1_1D->
setAxisTitle(
"Number of passing probes", 2);
261 me_GEM_fail_phi_p1_1D->
setAxisTitle(
"Number of failing probes", 2);
264 me_GEM_pass_pt_p2_1D->
setAxisTitle(
"Number of passing probes", 2);
266 me_GEM_fail_pt_p2_1D->
setAxisTitle(
"Number of failing probes", 2);
269 me_GEM_pass_eta_p2_1D->
setAxisTitle(
"Number of passing probes", 2);
271 me_GEM_fail_eta_p2_1D->
setAxisTitle(
"Number of failing probes", 2);
274 me_GEM_pass_phi_p2_1D->
setAxisTitle(
"Number of passing probes", 2);
276 me_GEM_fail_phi_p2_1D->
setAxisTitle(
"Number of failing probes", 2);
279 me_GEM_pass_pt_n1_1D->
setAxisTitle(
"Number of passing probes", 2);
281 me_GEM_fail_pt_n1_1D->
setAxisTitle(
"Number of failing probes", 2);
284 me_GEM_pass_eta_n1_1D->
setAxisTitle(
"Number of passing probes", 2);
286 me_GEM_fail_eta_n1_1D->
setAxisTitle(
"Number of failing probes", 2);
289 me_GEM_pass_phi_n1_1D->
setAxisTitle(
"Number of passing probes", 2);
291 me_GEM_fail_phi_n1_1D->
setAxisTitle(
"Number of failing probes", 2);
294 me_GEM_pass_pt_n2_1D->
setAxisTitle(
"Number of passing probes", 2);
296 me_GEM_fail_pt_n2_1D->
setAxisTitle(
"Number of failing probes", 2);
299 me_GEM_pass_eta_n2_1D->
setAxisTitle(
"Number of passing probes", 2);
301 me_GEM_fail_eta_n2_1D->
setAxisTitle(
"Number of failing probes", 2);
304 me_GEM_pass_phi_n2_1D->
setAxisTitle(
"Number of passing probes", 2);
306 me_GEM_fail_phi_n2_1D->
setAxisTitle(
"Number of failing probes", 2);
308 me_GE11_fail_Ch_region->
setBinLabel(1,
"GE-11", 1);
309 me_GE11_fail_Ch_region->
setBinLabel(2,
"GE+11", 1);
310 for (
int i = 1;
i < 37; ++
i) {
314 me_GE11_fail_Ch_region->
setAxisTitle(
"Number of failing probes", 3);
316 me_GE11_pass_Ch_region->
setBinLabel(1,
"GE-11", 1);
317 me_GE11_pass_Ch_region->
setBinLabel(2,
"GE+11", 1);
318 for (
int i = 1;
i < 37; ++
i) {
322 me_GE11_pass_Ch_region->
setAxisTitle(
"Number of passing probes", 3);
324 me_GE21_fail_Ch_region->
setBinLabel(1,
"GE-21", 1);
325 me_GE21_fail_Ch_region->
setBinLabel(2,
"GE+21", 1);
326 for (
int i = 1;
i < 19; ++
i) {
330 me_GE21_fail_Ch_region->
setAxisTitle(
"Number of failing probes", 3);
332 me_GE21_pass_Ch_region->
setBinLabel(1,
"GE-21", 1);
333 me_GE21_pass_Ch_region->
setBinLabel(2,
"GE+21", 1);
334 for (
int i = 1;
i < 19; ++
i) {
338 me_GE21_pass_Ch_region->
setAxisTitle(
"Number of passing probes", 3);
340 me_GEM_fail_Ch_region_GE1->
setBinLabel(1,
"GE-1/1_L2", 1);
341 me_GEM_fail_Ch_region_GE1->
setBinLabel(2,
"GE-1/1_L1", 1);
342 me_GEM_fail_Ch_region_GE1->
setBinLabel(3,
"GE+1/1_L1", 1);
343 me_GEM_fail_Ch_region_GE1->
setBinLabel(4,
"GE+1/1_L2", 1);
344 for (
int i = 1;
i < 37; ++
i) {
348 me_GEM_fail_Ch_region_GE1->
setAxisTitle(
"Number of passing probes", 3);
350 me_GEM_pass_Ch_region_GE1->
setBinLabel(1,
"GE-1/1_L2", 1);
351 me_GEM_pass_Ch_region_GE1->
setBinLabel(2,
"GE-1/1_L1", 1);
352 me_GEM_pass_Ch_region_GE1->
setBinLabel(3,
"GE+1/1_L1", 1);
353 me_GEM_pass_Ch_region_GE1->
setBinLabel(4,
"GE+1/1_L2", 1);
354 for (
int i = 1;
i < 37; ++
i) {
358 me_GEM_pass_Ch_region_GE1->
setAxisTitle(
"Number of passing probes", 3);
360 me_GEM_fail_Ch_region_GE1_NoL->
setBinLabel(1,
"GE-1", 1);
361 me_GEM_fail_Ch_region_GE1_NoL->
setBinLabel(2,
"GE+1", 1);
362 for (
int i = 1;
i < 37; ++
i) {
365 me_GEM_fail_Ch_region_GE1_NoL->
setAxisTitle(
"Chamber", 2);
366 me_GEM_fail_Ch_region_GE1_NoL->
setAxisTitle(
"Number of passing probes", 3);
368 me_GEM_pass_Ch_region_GE1_NoL->
setBinLabel(1,
"GE-1", 1);
369 me_GEM_pass_Ch_region_GE1_NoL->
setBinLabel(2,
"GE+1", 1);
370 for (
int i = 1;
i < 37; ++
i) {
373 me_GEM_pass_Ch_region_GE1_NoL->
setAxisTitle(
"Chamber", 2);
374 me_GEM_pass_Ch_region_GE1_NoL->
setAxisTitle(
"Number of passing probes", 3);
376 for (
int i = 1;
i < 37; ++
i) {
379 for (
int i = 1;
i < 9; ++
i) {
384 me_GE11_fail_Ch_ieta->
setAxisTitle(
"Number of failing probes", 3);
386 for (
int i = 1;
i < 37; ++
i) {
389 for (
int i = 1;
i < 9; ++
i) {
394 me_GE11_pass_Ch_ieta->
setAxisTitle(
"Number of passing probes", 3);
396 for (
int i = 1;
i < 37; ++
i) {
401 me_GE11_fail_Ch_phi->
setAxisTitle(
"Number of failing probes", 3);
403 for (
int i = 1;
i < 37; ++
i) {
408 me_GE11_pass_Ch_phi->
setAxisTitle(
"Number of passing probes", 3);
410 for (
int i = 1;
i < 19; ++
i) {
413 for (
int i = 1;
i < 17; ++
i) {
418 me_GE21_fail_Ch_ieta->
setAxisTitle(
"Number of failing probes", 3);
420 for (
int i = 1;
i < 19; ++
i) {
423 for (
int i = 1;
i < 17; ++
i) {
428 me_GE21_pass_Ch_ieta->
setAxisTitle(
"Number of passing probes", 3);
430 for (
int i = 1;
i < 19; ++
i) {
435 me_GE21_fail_Ch_phi->
setAxisTitle(
"Number of failing probes", 3);
437 for (
int i = 1;
i < 19; ++
i) {
442 me_GE21_pass_Ch_phi->
setAxisTitle(
"Number of passing probes", 3);
444 for (
int i = 1;
i < 19; ++
i) {
448 me_ME0_pass_chamber_1D->
setAxisTitle(
"Number of passing probes", 2);
449 for (
int i = 1;
i < 19; ++
i) {
453 me_ME0_fail_chamber_1D->
setAxisTitle(
"Number of failing probes", 2);
455 me_GEM_fail_Ch_region_layer_phase2->
setBinLabel(1,
"GE-2/1_L2", 1);
456 me_GEM_fail_Ch_region_layer_phase2->
setBinLabel(2,
"GE-2/1_L1", 1);
457 me_GEM_fail_Ch_region_layer_phase2->
setBinLabel(3,
"GE-1/1_L2", 1);
458 me_GEM_fail_Ch_region_layer_phase2->
setBinLabel(4,
"GE-1/1_L1", 1);
459 me_GEM_fail_Ch_region_layer_phase2->
setBinLabel(5,
"GE0-", 1);
460 me_GEM_fail_Ch_region_layer_phase2->
setBinLabel(6,
"GE0+", 1);
461 me_GEM_fail_Ch_region_layer_phase2->
setBinLabel(7,
"GE+1/1_L1", 1);
462 me_GEM_fail_Ch_region_layer_phase2->
setBinLabel(8,
"GE+1/1_L2", 1);
463 me_GEM_fail_Ch_region_layer_phase2->
setBinLabel(9,
"GE+2/1_L1", 1);
464 me_GEM_fail_Ch_region_layer_phase2->
setBinLabel(10,
"GE+2/1_L2", 1);
465 for (
int i = 1;
i < 37; ++
i) {
468 me_GEM_fail_Ch_region_layer_phase2->
setAxisTitle(
"Chamber", 2);
469 me_GEM_fail_Ch_region_layer_phase2->
setAxisTitle(
"Number of passing probes", 3);
471 me_GEM_pass_Ch_region_layer_phase2->
setBinLabel(1,
"GE-2/1_L2", 1);
472 me_GEM_pass_Ch_region_layer_phase2->
setBinLabel(2,
"GE-2/1_L1", 1);
473 me_GEM_pass_Ch_region_layer_phase2->
setBinLabel(3,
"GE-1/1_L2", 1);
474 me_GEM_pass_Ch_region_layer_phase2->
setBinLabel(4,
"GE-1/1_L1", 1);
475 me_GEM_pass_Ch_region_layer_phase2->
setBinLabel(5,
"GE0-", 1);
476 me_GEM_pass_Ch_region_layer_phase2->
setBinLabel(6,
"GE0+", 1);
477 me_GEM_pass_Ch_region_layer_phase2->
setBinLabel(7,
"GE+1/1_L1", 1);
478 me_GEM_pass_Ch_region_layer_phase2->
setBinLabel(8,
"GE+1/1_L2", 1);
479 me_GEM_pass_Ch_region_layer_phase2->
setBinLabel(9,
"GE+2/1_L1", 1);
480 me_GEM_pass_Ch_region_layer_phase2->
setBinLabel(10,
"GE+2/1_L2", 1);
482 for (
int i = 1;
i < 37; ++
i) {
485 me_GEM_pass_Ch_region_layer_phase2->
setAxisTitle(
"Chamber", 2);
486 me_GEM_pass_Ch_region_layer_phase2->
setAxisTitle(
"Number of passing probes", 3);
488 m_histos[
"GE11_nPassingProbe_Ch_region"] = me_GE11_pass_Ch_region;
489 m_histos[
"GE11_nFailingProbe_Ch_region"] = me_GE11_fail_Ch_region;
490 m_histos[
"GE21_nPassingProbe_Ch_region"] = me_GE21_pass_Ch_region;
491 m_histos[
"GE21_nFailingProbe_Ch_region"] = me_GE21_fail_Ch_region;
492 m_histos[
"GEM_nPassingProbe_Ch_region_GE1"] = me_GEM_pass_Ch_region_GE1;
493 m_histos[
"GEM_nFailingProbe_Ch_region_GE1"] = me_GEM_fail_Ch_region_GE1;
494 m_histos[
"GEM_nPassingProbe_Ch_region_GE1_NoL"] = me_GEM_pass_Ch_region_GE1_NoL;
495 m_histos[
"GEM_nFailingProbe_Ch_region_GE1_NoL"] = me_GEM_fail_Ch_region_GE1_NoL;
496 m_histos[
"GE11_nPassingProbe_Ch_ieta"] = me_GE11_pass_Ch_ieta;
497 m_histos[
"GE11_nFailingProbe_Ch_ieta"] = me_GE11_fail_Ch_ieta;
498 m_histos[
"GE11_nPassingProbe_Ch_phi"] = me_GE11_pass_Ch_phi;
499 m_histos[
"GE11_nFailingProbe_Ch_phi"] = me_GE11_fail_Ch_phi;
500 m_histos[
"GE21_nPassingProbe_Ch_ieta"] = me_GE21_pass_Ch_ieta;
501 m_histos[
"GE21_nFailingProbe_Ch_ieta"] = me_GE21_fail_Ch_ieta;
502 m_histos[
"GE21_nPassingProbe_Ch_phi"] = me_GE21_pass_Ch_phi;
503 m_histos[
"GE21_nFailingProbe_Ch_phi"] = me_GE21_fail_Ch_phi;
504 m_histos[
"GE11_nPassingProbe_allCh_1D"] = me_GE11_pass_allCh_1D;
505 m_histos[
"GE11_nFailingProbe_allCh_1D"] = me_GE11_fail_allCh_1D;
506 m_histos[
"GE21_nPassingProbe_allCh_1D"] = me_GE21_pass_allCh_1D;
507 m_histos[
"GE21_nFailingProbe_allCh_1D"] = me_GE21_fail_allCh_1D;
508 m_histos[
"GE11_nPassingProbe_chamber_1D"] = me_GE11_pass_chamber_1D;
509 m_histos[
"GE11_nFailingProbe_chamber_1D"] = me_GE11_fail_chamber_1D;
510 m_histos[
"GE21_nPassingProbe_chamber_1D"] = me_GE21_pass_chamber_1D;
511 m_histos[
"GE21_nFailingProbe_chamber_1D"] = me_GE21_fail_chamber_1D;
512 m_histos[
"GEM_nPassingProbe_chamber_p1_1D"] = me_GEM_pass_chamber_p1_1D;
513 m_histos[
"GEM_nFailingProbe_chamber_p1_1D"] = me_GEM_fail_chamber_p1_1D;
514 m_histos[
"GEM_nPassingProbe_chamber_p2_1D"] = me_GEM_pass_chamber_p2_1D;
515 m_histos[
"GEM_nFailingProbe_chamber_p2_1D"] = me_GEM_fail_chamber_p2_1D;
516 m_histos[
"GEM_nPassingProbe_chamber_n1_1D"] = me_GEM_pass_chamber_n1_1D;
517 m_histos[
"GEM_nFailingProbe_chamber_n1_1D"] = me_GEM_fail_chamber_n1_1D;
518 m_histos[
"GEM_nPassingProbe_chamber_n2_1D"] = me_GEM_pass_chamber_n2_1D;
519 m_histos[
"GEM_nFailingProbe_chamber_n2_1D"] = me_GEM_fail_chamber_n2_1D;
520 m_histos[
"GEM_nPassingProbe_pt_1D"] = me_GEM_pass_pt_1D;
521 m_histos[
"GEM_nFailingProbe_pt_1D"] = me_GEM_fail_pt_1D;
522 m_histos[
"GEM_nPassingProbe_eta_1D"] = me_GEM_pass_eta_1D;
523 m_histos[
"GEM_nFailingProbe_eta_1D"] = me_GEM_fail_eta_1D;
524 m_histos[
"GEM_nPassingProbe_phi_1D"] = me_GEM_pass_phi_1D;
525 m_histos[
"GEM_nFailingProbe_phi_1D"] = me_GEM_fail_phi_1D;
526 m_histos[
"GEM_nPassingProbe_pt_p1_1D"] = me_GEM_pass_pt_p1_1D;
527 m_histos[
"GEM_nFailingProbe_pt_p1_1D"] = me_GEM_fail_pt_p1_1D;
528 m_histos[
"GEM_nPassingProbe_eta_p1_1D"] = me_GEM_pass_eta_p1_1D;
529 m_histos[
"GEM_nFailingProbe_eta_p1_1D"] = me_GEM_fail_eta_p1_1D;
530 m_histos[
"GEM_nPassingProbe_phi_p1_1D"] = me_GEM_pass_phi_p1_1D;
531 m_histos[
"GEM_nFailingProbe_phi_p1_1D"] = me_GEM_fail_phi_p1_1D;
532 m_histos[
"GEM_nPassingProbe_pt_p2_1D"] = me_GEM_pass_pt_p2_1D;
533 m_histos[
"GEM_nFailingProbe_pt_p2_1D"] = me_GEM_fail_pt_p2_1D;
534 m_histos[
"GEM_nPassingProbe_eta_p2_1D"] = me_GEM_pass_eta_p2_1D;
535 m_histos[
"GEM_nFailingProbe_eta_p2_1D"] = me_GEM_fail_eta_p2_1D;
536 m_histos[
"GEM_nPassingProbe_phi_p2_1D"] = me_GEM_pass_phi_p2_1D;
537 m_histos[
"GEM_nFailingProbe_phi_p2_1D"] = me_GEM_fail_phi_p2_1D;
538 m_histos[
"GEM_nPassingProbe_pt_n1_1D"] = me_GEM_pass_pt_n1_1D;
539 m_histos[
"GEM_nFailingProbe_pt_n1_1D"] = me_GEM_fail_pt_n1_1D;
540 m_histos[
"GEM_nPassingProbe_eta_n1_1D"] = me_GEM_pass_eta_n1_1D;
541 m_histos[
"GEM_nFailingProbe_eta_n1_1D"] = me_GEM_fail_eta_n1_1D;
542 m_histos[
"GEM_nPassingProbe_phi_n1_1D"] = me_GEM_pass_phi_n1_1D;
543 m_histos[
"GEM_nFailingProbe_phi_n1_1D"] = me_GEM_fail_phi_n1_1D;
544 m_histos[
"GEM_nPassingProbe_pt_n2_1D"] = me_GEM_pass_pt_n2_1D;
545 m_histos[
"GEM_nFailingProbe_pt_n2_1D"] = me_GEM_fail_pt_n2_1D;
546 m_histos[
"GEM_nPassingProbe_eta_n2_1D"] = me_GEM_pass_eta_n2_1D;
547 m_histos[
"GEM_nFailingProbe_eta_n2_1D"] = me_GEM_fail_eta_n2_1D;
548 m_histos[
"GEM_nPassingProbe_phi_n2_1D"] = me_GEM_pass_phi_n2_1D;
549 m_histos[
"GEM_nFailingProbe_phi_n2_1D"] = me_GEM_fail_phi_n2_1D;
550 m_histos[
"ME0_nPassingProbe_chamber_1D"] = me_ME0_pass_chamber_1D;
551 m_histos[
"ME0_nFailingProbe_chamber_1D"] = me_ME0_fail_chamber_1D;
552 m_histos[
"GEM_nPassingProbe_Ch_region_layer_phase2"] = me_GEM_pass_Ch_region_layer_phase2;
553 m_histos[
"GEM_nFailingProbe_Ch_region_layer_phase2"] = me_GEM_fail_Ch_region_layer_phase2;
557 m_histos[
"GEMseg_dx_ME0"] = iBooker.
book1D(
"GEMseg_dx_ME0",
"GEMseg_dx;probe dx [cm];Events", 100, 0., 20.);
558 m_histos[
"GEMhit_dx_GE1"] = iBooker.
book1D(
"GEMhit_dx_GE1",
"GEMhit_dx;probe dx [cm];Events", 100, 0., 10.);
559 m_histos[
"GEMhit_dx_GE2"] = iBooker.
book1D(
"GEMhit_dx_GE2",
"GEMhit_dx;probe dx [cm];Events", 100, 0., 10.);
561 m_histos[
"GEMseg_x_ME0"] = iBooker.
book1D(
"GEMhit_x_ME0",
"GEMhit_x;probe x [cm];Events", 100, -10., 10.);
562 m_histos[
"GEMhit_x_GE1"] = iBooker.
book1D(
"GEMhit_x_GE1",
"GEMhit_x;probe x [cm];Events", 100, -10., 10.);
563 m_histos[
"GEMhit_x_GE2"] = iBooker.
book1D(
"GEMhit_x_GE2",
"GEMhit_x;probe x [cm];Events", 100, -10., 10.);
564 m_histos[
"Cham_x_ME0"] = iBooker.
book1D(
"Cham_x_ME0",
"Cham_x;probe x [cm];Events", 100, -10., 10.);
565 m_histos[
"Cham_x_GE1"] = iBooker.
book1D(
"Cham_x_GE1",
"Cham_x;probe x [cm];Events", 100, -10., 10.);
566 m_histos[
"Cham_x_GE2"] = iBooker.
book1D(
"Cham_x_GE2",
"Cham_x;probe x [cm];Events", 100, -10., 10.);
576 std::vector<std::vector<int>> probe_coll_GE11_region;
577 std::vector<std::vector<int>> probe_coll_GE11_lay;
578 std::vector<std::vector<int>> probe_coll_GE11_chamber;
579 std::vector<std::vector<float>> probe_coll_GE11_pt;
580 std::vector<std::vector<float>> probe_coll_GE11_eta;
581 std::vector<std::vector<float>> probe_coll_GE11_ieta;
582 std::vector<std::vector<float>> probe_coll_GE11_phi;
583 std::vector<std::vector<int>> probe_coll_GE11_sta;
584 std::vector<std::vector<float>> probe_coll_GE11_dx;
587 std::vector<std::vector<int>> probe_coll_GE21_region;
588 std::vector<std::vector<int>> probe_coll_GE21_lay;
589 std::vector<std::vector<int>> probe_coll_GE21_chamber;
590 std::vector<std::vector<float>> probe_coll_GE21_pt;
591 std::vector<std::vector<float>> probe_coll_GE21_eta;
592 std::vector<std::vector<float>> probe_coll_GE21_ieta;
593 std::vector<std::vector<float>> probe_coll_GE21_phi;
594 std::vector<std::vector<int>> probe_coll_GE21_sta;
595 std::vector<std::vector<float>> probe_coll_GE21_dx;
597 std::vector<uint8_t> probe_coll_GEM_staMatch;
600 std::vector<std::vector<int>> probe_coll_ME0_region;
601 std::vector<std::vector<int>> probe_coll_ME0_roll;
602 std::vector<std::vector<int>> probe_coll_ME0_lay;
603 std::vector<std::vector<int>> probe_coll_ME0_chamber;
604 std::vector<std::vector<float>> probe_coll_ME0_pt;
605 std::vector<std::vector<float>> probe_coll_ME0_eta;
606 std::vector<std::vector<float>> probe_coll_ME0_ieta;
607 std::vector<std::vector<float>> probe_coll_ME0_phi;
608 std::vector<std::vector<int>> probe_coll_ME0_sta;
609 std::vector<std::vector<float>> probe_coll_ME0_dx;
611 std::vector<unsigned> probe_indices;
616 for (
const auto i : probe_indices) {
618 std::vector<int> probe_GE11_region;
619 std::vector<int> probe_GE11_sta;
620 std::vector<int> probe_GE11_lay;
621 std::vector<int> probe_GE11_chamber;
622 std::vector<float> probe_GE11_pt;
623 std::vector<float> probe_GE11_eta;
624 std::vector<float> probe_GE11_ieta;
625 std::vector<float> probe_GE11_phi;
626 std::vector<float> probe_GE11_dx;
628 std::vector<int> probe_GE21_region;
629 std::vector<int> probe_GE21_sta;
630 std::vector<int> probe_GE21_lay;
631 std::vector<int> probe_GE21_chamber;
632 std::vector<float> probe_GE21_pt;
633 std::vector<float> probe_GE21_eta;
634 std::vector<float> probe_GE21_ieta;
635 std::vector<float> probe_GE21_phi;
636 std::vector<float> probe_GE21_dx;
638 uint8_t GEM_stationMatching = 0;
640 std::vector<int> probe_ME0_region;
641 std::vector<int> probe_ME0_roll;
642 std::vector<int> probe_ME0_sta;
643 std::vector<int> probe_ME0_lay;
644 std::vector<int> probe_ME0_chamber;
645 std::vector<float> probe_ME0_pt;
646 std::vector<float> probe_ME0_eta;
647 std::vector<float> probe_ME0_ieta;
648 std::vector<float> probe_ME0_phi;
649 std::vector<float> probe_ME0_dx;
651 bool gem_matched =
false;
653 for (
const auto& chambMatch : (*muons).at(
i).matches()) {
655 bool hit_matched =
false;
660 GEMDetId chId(chambMatch.id.rawId());
662 const int roll = chId.roll();
663 const int region = chId.region();
664 const int station = chId.station();
665 const int layer = chId.layer();
666 const int chamber = chId.chamber();
667 const int ieta = chId.ieta();
668 const float pt = (*muons).at(
i).pt();
669 const float eta = (*muons).at(
i).eta();
670 const float phi = (*muons).at(
i).phi();
671 GEM_stationMatching = GEM_stationMatching | (1 <<
station);
675 double smallestDx = 99999.;
676 double matched_GEMHit_x = 99999.;
678 for (
auto& gemHit : chambMatch.gemHitMatches) {
680 if (
dx < smallestDx) {
682 closest_matchedHit = gemHit;
683 matched_GEMHit_x = gemHit.
x;
689 probe_GE11_region.push_back(
region);
690 probe_GE11_sta.push_back(
station);
691 probe_GE11_lay.push_back(
layer);
692 probe_GE11_chamber.push_back(
chamber);
693 probe_GE11_ieta.push_back(
ieta);
694 probe_GE11_pt.push_back(
pt);
695 probe_GE11_eta.push_back(
eta);
696 probe_GE11_phi.push_back(
phi);
697 probe_GE11_dx.push_back(smallestDx);
701 probe_GE21_region.push_back(
region);
702 probe_GE21_sta.push_back(
station);
703 probe_GE21_lay.push_back(
layer);
704 probe_GE21_chamber.push_back(
chamber);
705 probe_GE21_ieta.push_back(
ieta);
706 probe_GE21_pt.push_back(
pt);
707 probe_GE21_eta.push_back(
eta);
708 probe_GE21_phi.push_back(
phi);
709 probe_GE21_dx.push_back(smallestDx);
714 m_histos.find(
"GEMhit_dx_GE1")->second->Fill(smallestDx);
715 m_histos.find(
"GEMhit_x_GE1")->second->Fill(matched_GEMHit_x);
716 m_histos.find(
"Cham_x_GE1")->second->Fill(chambMatch.x);
719 m_histos.find(
"GEMhit_dx_GE2")->second->Fill(smallestDx);
720 m_histos.find(
"GEMhit_x_GE2")->second->Fill(matched_GEMHit_x);
721 m_histos.find(
"Cham_x_GE2")->second->Fill(chambMatch.x);
728 double smallestDx_seg = 99999.;
730 for (
auto& seg : chambMatch.gemMatches) {
731 float dx_seg =
std::abs(chambMatch.x - seg.x);
732 if (dx_seg < smallestDx_seg) {
733 smallestDx_seg = dx_seg;
734 closest_matchedSegment = seg;
739 probe_ME0_region.push_back(
region);
740 probe_ME0_roll.push_back(
roll);
741 probe_ME0_sta.push_back(
station);
742 probe_ME0_lay.push_back(
layer);
743 probe_ME0_chamber.push_back(
chamber);
744 probe_ME0_ieta.push_back(
ieta);
745 probe_ME0_pt.push_back(
pt);
746 probe_ME0_eta.push_back(
eta);
747 probe_ME0_phi.push_back(
phi);
748 probe_ME0_dx.push_back(smallestDx_seg);
751 m_histos.find(
"GEMseg_dx_ME0")->second->Fill(smallestDx_seg);
752 m_histos.find(
"GEMseg_x_ME0")->second->Fill(closest_matchedSegment.
x);
753 m_histos.find(
"Cham_x_ME0")->second->Fill(chambMatch.x);
763 m_histos.find(
"probeEta")->second->Fill((*muons).at(
i).eta());
764 m_histos.find(
"probePhi")->second->Fill((*muons).at(
i).phi());
765 m_histos.find(
"probeNumberOfMatchedStations")->second->Fill((*muons).at(
i).numberOfMatchedStations());
766 m_histos.find(
"probePt")->second->Fill((*muons).at(
i).pt());
775 probe_coll_GE11_region.push_back(probe_GE11_region);
776 probe_coll_GE11_sta.push_back(probe_GE11_sta);
777 probe_coll_GE11_lay.push_back(probe_GE11_lay);
778 probe_coll_GE11_chamber.push_back(probe_GE11_chamber);
779 probe_coll_GE11_ieta.push_back(probe_GE11_ieta);
780 probe_coll_GE11_pt.push_back(probe_GE11_pt);
781 probe_coll_GE11_eta.push_back(probe_GE11_eta);
782 probe_coll_GE11_phi.push_back(probe_GE11_phi);
783 probe_coll_GE11_dx.push_back(probe_GE11_dx);
785 probe_coll_GEM_staMatch.push_back(GEM_stationMatching);
788 probe_coll_GE21_region.push_back(probe_GE21_region);
789 probe_coll_GE21_sta.push_back(probe_GE21_sta);
790 probe_coll_GE21_lay.push_back(probe_GE21_lay);
791 probe_coll_GE21_chamber.push_back(probe_GE21_chamber);
792 probe_coll_GE21_ieta.push_back(probe_GE21_ieta);
793 probe_coll_GE21_pt.push_back(probe_GE21_pt);
794 probe_coll_GE21_eta.push_back(probe_GE21_eta);
795 probe_coll_GE21_phi.push_back(probe_GE21_phi);
796 probe_coll_GE21_dx.push_back(probe_GE21_dx);
799 probe_coll_ME0_region.push_back(probe_ME0_region);
800 probe_coll_ME0_roll.push_back(probe_ME0_roll);
801 probe_coll_ME0_sta.push_back(probe_ME0_sta);
802 probe_coll_ME0_lay.push_back(probe_ME0_lay);
803 probe_coll_ME0_chamber.push_back(probe_ME0_chamber);
804 probe_coll_ME0_ieta.push_back(probe_ME0_ieta);
805 probe_coll_ME0_pt.push_back(probe_ME0_pt);
806 probe_coll_ME0_eta.push_back(probe_ME0_eta);
807 probe_coll_ME0_phi.push_back(probe_ME0_phi);
808 probe_coll_ME0_dx.push_back(probe_ME0_dx);
813 for (
unsigned i = 0;
i < probe_indices.size(); ++
i) {
817 unsigned nME0_matches = probe_coll_ME0_region.at(
i).size();
818 for (
unsigned j = 0;
j < nME0_matches; ++
j) {
820 int ME0_region = probe_coll_ME0_region.at(
i).at(
j);
824 int ME0_chamber = probe_coll_ME0_chamber.at(
i).at(
j);
826 float ME0_dx = probe_coll_ME0_dx.at(
i).at(
j);
831 m_histos.find(
"ME0_nPassingProbe_chamber_1D")->second->Fill(ME0_chamber);
833 m_histos.find(
"GEM_nPassingProbe_Ch_region_layer_phase2")->second->Fill(4, ME0_chamber);
834 else if (ME0_region > 0)
835 m_histos.find(
"GEM_nPassingProbe_Ch_region_layer_phase2")->second->Fill(5, ME0_chamber);
837 m_histos.find(
"ME0_nFailingProbe_chamber_1D")->second->Fill(ME0_chamber);
839 m_histos.find(
"GEM_nFailingProbe_Ch_region_layer_phase2")->second->Fill(4, ME0_chamber);
840 else if (ME0_region > 0)
841 m_histos.find(
"GEM_nFailingProbe_Ch_region_layer_phase2")->second->Fill(5, ME0_chamber);
847 unsigned nGE11_matches = probe_coll_GE11_region.at(
i).size();
848 for (
unsigned j = 0;
j < nGE11_matches; ++
j) {
850 int GEM_region = probe_coll_GE11_region.at(
i).at(
j);
851 int GEM_sta = probe_coll_GE11_sta.at(
i).at(
j);
852 int GEM_lay = probe_coll_GE11_lay.at(
i).at(
j);
853 int GEM_chamber = probe_coll_GE11_chamber.at(
i).at(
j);
854 int GEM_ieta = probe_coll_GE11_ieta.at(
i).at(
j);
855 float GEM_pt = probe_coll_GE11_pt.at(
i).at(
j);
856 float GEM_dx = probe_coll_GE11_dx.at(
i).at(
j);
857 float GEM_eta = probe_coll_GE11_eta.at(
i).at(
j);
858 float GEM_phi = probe_coll_GE11_phi.at(
i).at(
j);
861 m_histos.find(
"GE11_nPassingProbe_Ch_region")->second->Fill(GEM_region, GEM_chamber);
862 m_histos.find(
"GE11_nPassingProbe_Ch_ieta")->second->Fill(GEM_ieta, GEM_chamber);
863 m_histos.find(
"GE11_nPassingProbe_Ch_phi")->second->Fill(GEM_phi, GEM_chamber);
864 m_histos.find(
"GE11_nPassingProbe_allCh_1D")->second->Fill(GEM_region);
865 m_histos.find(
"GE11_nPassingProbe_chamber_1D")->second->Fill(GEM_chamber);
866 if (GEM_region < 0) {
868 m_histos.find(
"GEM_nPassingProbe_Ch_region_layer_phase2")->second->Fill(2, GEM_chamber);
869 else if (GEM_lay == 1)
870 m_histos.find(
"GEM_nPassingProbe_Ch_region_layer_phase2")->second->Fill(3, GEM_chamber);
872 if (GEM_region > 0) {
874 m_histos.find(
"GEM_nPassingProbe_Ch_region_layer_phase2")->second->Fill(6, GEM_chamber);
875 else if (GEM_lay == 2)
876 m_histos.find(
"GEM_nPassingProbe_Ch_region_layer_phase2")->second->Fill(7, GEM_chamber);
878 if (GEM_region == -1) {
879 m_histos.find(
"GEM_nPassingProbe_Ch_region_GE1_NoL")->second->Fill(0, GEM_chamber);
880 }
else if (GEM_region == 1) {
881 m_histos.find(
"GEM_nPassingProbe_Ch_region_GE1_NoL")->second->Fill(1, GEM_chamber);
884 if (GEM_region == 1 && GEM_lay == 1) {
885 m_histos.find(
"GEM_nPassingProbe_chamber_p1_1D")->second->Fill(GEM_chamber);
886 m_histos.find(
"GEM_nPassingProbe_Ch_region_GE1")->second->Fill(2, GEM_chamber);
887 m_histos.find(
"GEM_nPassingProbe_pt_p1_1D")->second->Fill(GEM_pt);
888 m_histos.find(
"GEM_nPassingProbe_eta_p1_1D")->second->Fill(
abs(GEM_eta));
889 m_histos.find(
"GEM_nPassingProbe_phi_p1_1D")->second->Fill(GEM_phi);
890 }
else if (GEM_region == 1 && GEM_lay == 2) {
891 m_histos.find(
"GEM_nPassingProbe_chamber_p2_1D")->second->Fill(GEM_chamber);
892 m_histos.find(
"GEM_nPassingProbe_Ch_region_GE1")->second->Fill(3, GEM_chamber);
893 m_histos.find(
"GEM_nPassingProbe_pt_p2_1D")->second->Fill(GEM_pt);
894 m_histos.find(
"GEM_nPassingProbe_eta_p2_1D")->second->Fill(
abs(GEM_eta));
895 m_histos.find(
"GEM_nPassingProbe_phi_p2_1D")->second->Fill(GEM_phi);
896 }
else if (GEM_region == -1 && GEM_lay == 1) {
897 m_histos.find(
"GEM_nPassingProbe_chamber_n1_1D")->second->Fill(GEM_chamber);
898 m_histos.find(
"GEM_nPassingProbe_Ch_region_GE1")->second->Fill(1, GEM_chamber);
899 m_histos.find(
"GEM_nPassingProbe_pt_n1_1D")->second->Fill(GEM_pt);
900 m_histos.find(
"GEM_nPassingProbe_eta_n1_1D")->second->Fill(
abs(GEM_eta));
901 m_histos.find(
"GEM_nPassingProbe_phi_n1_1D")->second->Fill(GEM_phi);
902 }
else if (GEM_region == -1 && GEM_lay == 2) {
903 m_histos.find(
"GEM_nPassingProbe_chamber_n2_1D")->second->Fill(GEM_chamber);
904 m_histos.find(
"GEM_nPassingProbe_Ch_region_GE1")->second->Fill(0, GEM_chamber);
905 m_histos.find(
"GEM_nPassingProbe_pt_n2_1D")->second->Fill(GEM_pt);
906 m_histos.find(
"GEM_nPassingProbe_eta_n2_1D")->second->Fill(
abs(GEM_eta));
907 m_histos.find(
"GEM_nPassingProbe_phi_n2_1D")->second->Fill(GEM_phi);
909 m_histos.find(
"GEM_nPassingProbe_pt_1D")->second->Fill(GEM_pt);
910 m_histos.find(
"GEM_nPassingProbe_eta_1D")->second->Fill(
abs(GEM_eta));
911 m_histos.find(
"GEM_nPassingProbe_phi_1D")->second->Fill(GEM_phi);
913 m_histos.find(
"GE11_nFailingProbe_Ch_region")->second->Fill(GEM_region, GEM_chamber);
914 m_histos.find(
"GE11_nFailingProbe_Ch_ieta")->second->Fill(GEM_ieta, GEM_chamber);
915 m_histos.find(
"GE11_nFailingProbe_Ch_phi")->second->Fill(GEM_phi, GEM_chamber);
916 m_histos.find(
"GE11_nFailingProbe_allCh_1D")->second->Fill(GEM_region);
917 m_histos.find(
"GE11_nFailingProbe_chamber_1D")->second->Fill(GEM_chamber);
918 if (GEM_region < 0) {
919 if (GEM_sta == 2 and GEM_lay == 2)
920 m_histos.find(
"GEM_nFailingProbe_Ch_region_layer_phase2")->second->Fill(0, GEM_chamber);
921 else if (GEM_sta == 2 and GEM_lay == 1)
922 m_histos.find(
"GEM_nFailingProbe_Ch_region_layer_phase2")->second->Fill(1, GEM_chamber);
923 else if (GEM_sta == 1 and GEM_lay == 2)
924 m_histos.find(
"GEM_nFailingProbe_Ch_region_layer_phase2")->second->Fill(2, GEM_chamber);
925 else if (GEM_sta == 1 and GEM_lay == 1)
926 m_histos.find(
"GEM_nFailingProbe_Ch_region_layer_phase2")->second->Fill(3, GEM_chamber);
928 if (GEM_region > 0) {
929 if (GEM_sta == 1 and GEM_lay == 1)
930 m_histos.find(
"GEM_nFailingProbe_Ch_region_layer_phase2")->second->Fill(6, GEM_chamber);
931 else if (GEM_sta == 1 and GEM_lay == 2)
932 m_histos.find(
"GEM_nFailingProbe_Ch_region_layer_phase2")->second->Fill(7, GEM_chamber);
933 else if (GEM_sta == 2 and GEM_lay == 1)
934 m_histos.find(
"GEM_nFailingProbe_Ch_region_layer_phase2")->second->Fill(8, GEM_chamber);
935 else if (GEM_sta == 2 and GEM_lay == 2)
936 m_histos.find(
"GEM_nFailingProbe_Ch_region_layer_phase2")->second->Fill(9, GEM_chamber);
938 if (GEM_region == -1) {
939 m_histos.find(
"GEM_nFailingProbe_Ch_region_GE1_NoL")->second->Fill(0, GEM_chamber);
940 }
else if (GEM_region == 1) {
941 m_histos.find(
"GEM_nFailingProbe_Ch_region_GE1_NoL")->second->Fill(1, GEM_chamber);
944 if (GEM_region == 1 && GEM_lay == 1) {
945 m_histos.find(
"GEM_nFailingProbe_chamber_p1_1D")->second->Fill(GEM_chamber);
946 m_histos.find(
"GEM_nFailingProbe_Ch_region_GE1")->second->Fill(2, GEM_chamber);
947 m_histos.find(
"GEM_nFailingProbe_pt_p1_1D")->second->Fill(GEM_pt);
948 m_histos.find(
"GEM_nFailingProbe_eta_p1_1D")->second->Fill(
abs(GEM_eta));
949 m_histos.find(
"GEM_nFailingProbe_phi_p1_1D")->second->Fill(GEM_phi);
950 }
else if (GEM_region == 1 && GEM_lay == 2) {
951 m_histos.find(
"GEM_nFailingProbe_chamber_p2_1D")->second->Fill(GEM_chamber);
952 m_histos.find(
"GEM_nFailingProbe_Ch_region_GE1")->second->Fill(3, GEM_chamber);
953 m_histos.find(
"GEM_nFailingProbe_pt_p2_1D")->second->Fill(GEM_pt);
954 m_histos.find(
"GEM_nFailingProbe_eta_p2_1D")->second->Fill(
abs(GEM_eta));
955 m_histos.find(
"GEM_nFailingProbe_phi_p2_1D")->second->Fill(GEM_phi);
956 }
else if (GEM_region == -1 && GEM_lay == 1) {
957 m_histos.find(
"GEM_nFailingProbe_chamber_n1_1D")->second->Fill(GEM_chamber);
958 m_histos.find(
"GEM_nFailingProbe_Ch_region_GE1")->second->Fill(1, GEM_chamber);
959 m_histos.find(
"GEM_nFailingProbe_pt_n1_1D")->second->Fill(GEM_pt);
960 m_histos.find(
"GEM_nFailingProbe_eta_n1_1D")->second->Fill(
abs(GEM_eta));
961 m_histos.find(
"GEM_nFailingProbe_phi_n1_1D")->second->Fill(GEM_phi);
962 }
else if (GEM_region == -1 && GEM_lay == 2) {
963 m_histos.find(
"GEM_nFailingProbe_chamber_n2_1D")->second->Fill(GEM_chamber);
964 m_histos.find(
"GEM_nFailingProbe_Ch_region_GE1")->second->Fill(0, GEM_chamber);
965 m_histos.find(
"GEM_nFailingProbe_pt_n2_1D")->second->Fill(GEM_pt);
966 m_histos.find(
"GEM_nFailingProbe_eta_n2_1D")->second->Fill(
abs(GEM_eta));
967 m_histos.find(
"GEM_nFailingProbe_phi_n2_1D")->second->Fill(GEM_phi);
969 m_histos.find(
"GEM_nFailingProbe_pt_1D")->second->Fill(GEM_pt);
970 m_histos.find(
"GEM_nFailingProbe_eta_1D")->second->Fill(
abs(GEM_eta));
971 m_histos.find(
"GEM_nFailingProbe_phi_1D")->second->Fill(GEM_phi);
976 unsigned nGE21_matches = probe_coll_GE21_region.at(
i).size();
977 for (
unsigned j = 0;
j < nGE21_matches; ++
j) {
979 int GEM_region = probe_coll_GE21_region.at(
i).at(
j);
980 int GEM_lay = probe_coll_GE21_lay.at(
i).at(
j);
981 int GEM_chamber = probe_coll_GE21_chamber.at(
i).at(
j);
982 float GEM_ieta = probe_coll_GE21_ieta.at(
i).at(
j);
983 float GEM_dx = probe_coll_GE21_dx.at(
i).at(
j);
984 float GEM_phi = probe_coll_GE21_phi.at(
i).at(
j);
988 m_histos.find(
"GE21_nPassingProbe_Ch_region")->second->Fill(GEM_region, GEM_chamber);
989 m_histos.find(
"GE21_nPassingProbe_Ch_ieta")->second->Fill(GEM_ieta, GEM_chamber);
990 m_histos.find(
"GE21_nPassingProbe_Ch_phi")->second->Fill(GEM_phi, GEM_chamber);
991 m_histos.find(
"GE21_nPassingProbe_allCh_1D")->second->Fill(GEM_region);
992 m_histos.find(
"GE21_nPassingProbe_chamber_1D")->second->Fill(GEM_chamber);
993 if (GEM_region < 0) {
995 m_histos.find(
"GEM_nPassingProbe_Ch_region_layer_phase2")->second->Fill(0, GEM_chamber);
996 else if (GEM_lay == 1)
997 m_histos.find(
"GEM_nPassingProbe_Ch_region_layer_phase2")->second->Fill(1, GEM_chamber);
999 if (GEM_region > 0) {
1001 m_histos.find(
"GEM_nPassingProbe_Ch_region_layer_phase2")->second->Fill(8, GEM_chamber);
1002 else if (GEM_lay == 2)
1003 m_histos.find(
"GEM_nPassingProbe_Ch_region_layer_phase2")->second->Fill(9, GEM_chamber);
1006 m_histos.find(
"GE21_nFailingProbe_Ch_region")->second->Fill(GEM_region, GEM_chamber);
1007 m_histos.find(
"GE21_nFailingProbe_Ch_ieta")->second->Fill(GEM_ieta, GEM_chamber);
1008 m_histos.find(
"GE21_nFailingProbe_Ch_phi")->second->Fill(GEM_phi, GEM_chamber);
1009 m_histos.find(
"GE21_nFailingProbe_allCh_1D")->second->Fill(GEM_region);
1010 m_histos.find(
"GE21_nFailingProbe_chamber_1D")->second->Fill(GEM_chamber);
1011 if (GEM_region < 0) {
1013 m_histos.find(
"GEM_nFailingProbe_Ch_region_layer_phase2")->second->Fill(0, GEM_chamber);
1014 else if (GEM_lay == 1)
1015 m_histos.find(
"GEM_nFailingProbe_Ch_region_layer_phase2")->second->Fill(1, GEM_chamber);
1017 if (GEM_region > 0) {
1019 m_histos.find(
"GEM_nFailingProbe_Ch_region_layer_phase2")->second->Fill(8, GEM_chamber);
1020 else if (GEM_lay == 2)
1021 m_histos.find(
"GEM_nFailingProbe_Ch_region_layer_phase2")->second->Fill(9, GEM_chamber);
virtual void setCurrentFolder(std::string const &fullpath)
~GEMTnPEfficiencyTask() override
Destructor.
const edm::EDGetTokenT< reco::MuonCollection > m_muToken
muons
the two sets of parameters below are mutually exclusive, depending if RECO or ALCARECO is used the us...
static std::string to_string(const XMLCh *ch)
std::vector< std::vector< unsigned > > m_probeIndices
const bool m_detailedAnalysis
Abs< T >::type abs(const T &t)
std::map< std::string, MonitorElement * > m_histos
#define DEFINE_FWK_MODULE(type)
void bookHistograms(DQMStore::IBooker &iBooker, edm::Run const &run, edm::EventSetup const &context) override
void analyze(const edm::Event &event, const edm::EventSetup &context) override
Analyze.
virtual void setBinLabel(int bin, const std::string &label, int axis=1)
set bin label for x, y or z axis (axis=1, 2, 3 respectively)
void bookHistograms(DQMStore::IBooker &iBooker, edm::Run const &run, edm::EventSetup const &context) override
void analyze(const edm::Event &event, const edm::EventSetup &context) override
Analyze.
MonitorElement * book2D(TString const &name, TString const &title, int nchX, double lowX, double highX, int nchY, double lowY, double highY, FUNC onbooking=NOOP())
GEMTnPEfficiencyTask(const edm::ParameterSet &config)
Constructor.
std::string topFolder() const override
Return the top folder.
MonitorElement * book1D(TString const &name, TString const &title, int const nchX, double const lowX, double const highX, FUNC onbooking=NOOP())
virtual void setAxisTitle(const std::string &title, int axis=1)
set x-, y- or z-axis title (axis=1, 2, 3 respectively)