40 metname_ =
"InterChannelSynchDBValidation";
41 LogVerbatim(metname_) <<
"[DTt0DBValidation] Constructor called!";
45 dbe_->setCurrentFolder(
"DT/DtCalib/InterChannelSynchDBValidation");
51 t0TestName_ =
"t0DifferenceInRange";
54 outputMEsInRootFile_ =
false;
55 if( pset.
exists(
"OutputFileName") ){
56 outputMEsInRootFile_ =
true;
67 metname_ =
"InterChannelSynchDBValidation";
68 LogVerbatim(metname_) <<
"[DTt0DBValidation] Parameters initialization";
72 tZeroRefMap_ = &*t0_Ref;
73 LogVerbatim(metname_) <<
"[DTt0DBValidation] reference T0 version: " << t0_Ref->
version();
78 LogVerbatim(metname_) <<
"[DTt0DBValidation] T0 to validate version: " << t0->
version();
83 wheelSummary_[
wheel]->Reset();
100 int channelId =
tzero->channelId;
101 if ( channelId == 0 )
continue;
107 LogTrace(metname_)<<
"Ref Wire: " << wireId <<endl
108 <<
" T0 mean (TDC counts): " << t0mean
109 <<
" T0_rms (TDC counts): " << t0rms;
111 t0RefMap_[wireId].push_back(t0mean);
112 t0RefMap_[wireId].push_back(t0rms);
126 int channelId =
tzero->channelId;
127 if ( channelId == 0 )
continue;
133 LogTrace(metname_)<<
"Wire: " << wireId <<endl
134 <<
" T0 mean (TDC counts): " << t0mean
135 <<
" T0_rms (TDC counts): " << t0rms;
137 t0Map_[wireId].push_back(t0mean);
138 t0Map_[wireId].push_back(t0rms);
141 double difference = 0;
142 for(
map<
DTWireId, vector<float> >::const_iterator theMap = t0RefMap_.begin();
143 theMap != t0RefMap_.end();
145 if(t0Map_.find((*theMap).first) != t0Map_.end()) {
148 difference = t0Map_[(*theMap).first][0]-(*theMap).second[0];
151 DTLayerId layerId = (*theMap).first.layerId();
152 if(t0DiffHistos_.find(layerId) == t0DiffHistos_.end()) {
153 const DTTopology& dtTopo = dtGeom_->layer(layerId)->specificTopology();
159 LogTrace(metname_)<<
"Filling the histo for wire: "<<(*theMap).first
160 <<
" difference: "<<difference;
161 t0DiffHistos_[layerId]->Fill((*theMap).first.wire(),difference);
171 string testCriterionName = t0TestName_;
172 for(map<DTLayerId, MonitorElement*>::const_iterator hDiff = t0DiffHistos_.begin();
173 hDiff != t0DiffHistos_.end();
176 const QReport * theDiffQReport = (*hDiff).second->getQReport(testCriterionName);
178 int xBin = ((*hDiff).first.station()-1)*12+(*hDiff).first.layer()+4*((*hDiff).first.superlayer()-1);
179 if( (*hDiff).first.station()==4 && (*hDiff).first.superlayer()==3 )
180 xBin = ((*hDiff).first.station()-1)*12+(*hDiff).first.layer()+4*((*hDiff).first.superlayer()-2);
182 int qReportStatus = theDiffQReport->
getStatus()/100;
183 wheelSummary_[(*hDiff).first.wheel()]->setBinContent(xBin,(*hDiff).first.sector(),qReportStatus);
186 <<
" ------- " << theDiffQReport->
getStatus()
187 <<
" ------- " << setprecision(3) << theDiffQReport->
getQTresult();
188 vector<dqm::me_util::Channel> badChannels = theDiffQReport->
getBadChannels();
189 for (vector<dqm::me_util::Channel>::iterator channel = badChannels.begin();
190 channel != badChannels.end(); channel++) {
191 LogVerbatim(metname_) <<
"layer: " << (*hDiff).first <<
" Bad channel: " 192 << (*channel).getBin() <<
" Contents : " 193 << (*channel).getContents();
205 if(outputMEsInRootFile_)
dbe_->save(outputFileName_);
211 LogTrace(metname_)<<
" Booking histos for L: " << lId;
218 stringstream layer; layer << lId.
layer();
222 "_St" + station.str() +
223 "_Sec" + sector.str() +
224 "_SL" + superLayer.str()+
227 dbe_->setCurrentFolder(
"DT/DtCalib/InterChannelSynchDBValidation/Wheel" + wheel.str() +
228 "/Station" + station.str() +
229 "/Sector" + sector.str() +
230 "/SuperLayer" +superLayer.str());
233 hDifference =
dbe_->book1D(
"T0Difference"+lHistoName,
"difference between the two t0 values",lastWire-firstWire+1, firstWire-0.5, lastWire+0.5);
235 t0DiffHistos_[lId] = hDifference;
240 dbe_->setCurrentFolder(
"DT/DtCalib/InterChannelSynchDBValidation");
241 stringstream wh; wh <<
wheel;
242 wheelSummary_[
wheel]=
dbe_->book2D(
"SummaryWrongT0_W"+wh.str(),
"W"+wh.str()+
": summary of wrong t0 differences",44,1,45,14,1,15);
243 wheelSummary_[
wheel]->setBinLabel(1,
"M1L1",1);
244 wheelSummary_[
wheel]->setBinLabel(2,
"M1L2",1);
245 wheelSummary_[
wheel]->setBinLabel(3,
"M1L3",1);
246 wheelSummary_[
wheel]->setBinLabel(4,
"M1L4",1);
247 wheelSummary_[
wheel]->setBinLabel(5,
"M1L5",1);
248 wheelSummary_[
wheel]->setBinLabel(6,
"M1L6",1);
249 wheelSummary_[
wheel]->setBinLabel(7,
"M1L7",1);
250 wheelSummary_[
wheel]->setBinLabel(8,
"M1L8",1);
251 wheelSummary_[
wheel]->setBinLabel(9,
"M1L9",1);
252 wheelSummary_[
wheel]->setBinLabel(10,
"M1L10",1);
253 wheelSummary_[
wheel]->setBinLabel(11,
"M1L11",1);
254 wheelSummary_[
wheel]->setBinLabel(12,
"M1L12",1);
255 wheelSummary_[
wheel]->setBinLabel(13,
"M2L1",1);
256 wheelSummary_[
wheel]->setBinLabel(14,
"M2L2",1);
257 wheelSummary_[
wheel]->setBinLabel(15,
"M2L3",1);
258 wheelSummary_[
wheel]->setBinLabel(16,
"M2L4",1);
259 wheelSummary_[
wheel]->setBinLabel(17,
"M2L5",1);
260 wheelSummary_[
wheel]->setBinLabel(18,
"M2L6",1);
261 wheelSummary_[
wheel]->setBinLabel(19,
"M2L7",1);
262 wheelSummary_[
wheel]->setBinLabel(20,
"M2L8",1);
263 wheelSummary_[
wheel]->setBinLabel(21,
"M2L9",1);
264 wheelSummary_[
wheel]->setBinLabel(22,
"M2L10",1);
265 wheelSummary_[
wheel]->setBinLabel(23,
"M2L11",1);
266 wheelSummary_[
wheel]->setBinLabel(24,
"M2L12",1);
267 wheelSummary_[
wheel]->setBinLabel(25,
"M3L1",1);
268 wheelSummary_[
wheel]->setBinLabel(26,
"M3L2",1);
269 wheelSummary_[
wheel]->setBinLabel(27,
"M3L3",1);
270 wheelSummary_[
wheel]->setBinLabel(28,
"M3L4",1);
271 wheelSummary_[
wheel]->setBinLabel(29,
"M3L5",1);
272 wheelSummary_[
wheel]->setBinLabel(30,
"M3L6",1);
273 wheelSummary_[
wheel]->setBinLabel(31,
"M3L7",1);
274 wheelSummary_[
wheel]->setBinLabel(32,
"M3L8",1);
275 wheelSummary_[
wheel]->setBinLabel(33,
"M3L9",1);
276 wheelSummary_[
wheel]->setBinLabel(34,
"M3L10",1);
277 wheelSummary_[
wheel]->setBinLabel(35,
"M3L11",1);
278 wheelSummary_[
wheel]->setBinLabel(36,
"M3L12",1);
279 wheelSummary_[
wheel]->setBinLabel(37,
"M4L1",1);
280 wheelSummary_[
wheel]->setBinLabel(38,
"M4L2",1);
281 wheelSummary_[
wheel]->setBinLabel(39,
"M4L3",1);
282 wheelSummary_[
wheel]->setBinLabel(40,
"M4L4",1);
283 wheelSummary_[
wheel]->setBinLabel(41,
"M4L5",1);
284 wheelSummary_[
wheel]->setBinLabel(42,
"M4L6",1);
285 wheelSummary_[
wheel]->setBinLabel(43,
"M4L7",1);
286 wheelSummary_[
wheel]->setBinLabel(44,
"M4L8",1);
T getParameter(std::string const &) const
DTChamberId chamberId() const
Return the corresponding ChamberId.
virtual ~DTt0DBValidation()
Destructor.
bool exists(std::string const ¶meterName) const
checks if a parameter exists
def setup(process, global_tag, zero_tesla=False)
int layer() const
Return the layer number.
DTSuperLayerId superlayerId() const
Return the corresponding SuperLayerId.
std::vector< DTT0Data >::const_iterator const_iterator
Access methods to data.
const std::string & getMessage(void) const
get message attached to test
void beginRun(const edm::Run &run, const edm::EventSetup &setup)
Operations.
int firstChannel() const
Returns the wire number of the first wire.
int lastChannel() const
Returns the wire number of the last wire.
DTt0DBValidation(const edm::ParameterSet &pset)
Constructor.
int getStatus(void) const
get test status (see Core/interface/QTestStatus.h)
const std::vector< DQMChannel > & getBadChannels(void) const
int superlayer() const
Return the superlayer number (deprecated method name)
float getQTresult(void) const
get test result i.e. prob value
void bookHistos(DTLayerId lId, int firstWire, int lastWire)
static const double tzero[3]
void endRun(edm::Run const &, edm::EventSetup const &)
const std::string & version() const
access version
int station() const
Return the station number.
int wheel() const
Return the wheel number.