4 bool oneNominalOutOfTime,
6 bool twoLooseOutOfTime,
8 bool oneTightOutOfTime)
9 : isOneNominalInTime_(oneNominalInTime),
10 isOneNominalOutOfTime_(oneNominalOutOfTime),
11 isOneTightInTime_(oneTightInTime),
12 isOneTightOutOfTime_(oneTightOutOfTime),
13 isTwoLooseInTime_(twoLooseInTime),
14 isTwoLooseOutOfTime_(twoLooseOutOfTime),
21 trackFinder_ = trackFinder;
22 processor_ = processor;
24 switch (trackFinder_) {
26 link_ = processor_ + 36;
29 link_ = processor_ + 42;
32 link_ = processor_ + 48;
35 link_ = processor_ + 60;
38 link_ = processor_ + 66;
43 return (isOneNominalInTime_
or isTwoLooseInTime_
or isOneTightInTime_);
bool isTwoLooseInTime() const
RegionalMuonShower(bool oneNominalInTime=false, bool oneNominalOutOfTime=false, bool twoLooseInTime=false, bool twoLooseOutOfTime=false, bool oneTightInTime=false, bool oneTightOutOfTime=false)
bool isOneTightInTime() const
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e< void, edm::EventID const &, edm::Timestamp const & > We also list in braces which AR_WATCH_USING_METHOD_ is used for those or
bool isOneNominalInTime() const
bool operator==(const l1t::RegionalMuonShower &rhs) const
void setTFIdentifiers(int processor, tftype trackFinder)
Set the processor ID, track-finder type. From these two, the link is set.
1.8.14