13 const SelectorWrapper<int>
StandardSelector::STATUS = SelectorWrapper<int>([](ConstGenParticlePtr p)->
int{
return p->status();});
14 const SelectorWrapper<int>
StandardSelector::PDG_ID = SelectorWrapper<int>([](ConstGenParticlePtr p)->
int{
return p->pdg_id();});
15 const SelectorWrapper<double>
StandardSelector::PT = SelectorWrapper<double>([](ConstGenParticlePtr p)->
double{
return p->momentum().pt();});
16 const SelectorWrapper<double>
StandardSelector::ENERGY = SelectorWrapper<double>([](ConstGenParticlePtr p)->
double{
return p->momentum().e();});
17 const SelectorWrapper<double>
StandardSelector::RAPIDITY = SelectorWrapper<double>([](ConstGenParticlePtr p)->
double{
return p->momentum().rap();});
18 const SelectorWrapper<double>
StandardSelector::ETA = SelectorWrapper<double>([](ConstGenParticlePtr p)->
double{
return p->momentum().eta();});
19 const SelectorWrapper<double>
StandardSelector::PHI = SelectorWrapper<double>([](ConstGenParticlePtr p)->
double{
return p->momentum().phi();});
20 const SelectorWrapper<double>
StandardSelector::ET = SelectorWrapper<double>([](ConstGenParticlePtr p)->
double{
return p->momentum().e() * (p->momentum().pt() / p->momentum().p3mod());});
21 const SelectorWrapper<double>
StandardSelector::MASS = SelectorWrapper<double>([](ConstGenParticlePtr p)->
double{
return p->momentum().m();});
31 AttributeFeature Selector::ATTRIBUTE(
const std::string &
name) {
return AttributeFeature(name);}
static const SelectorWrapper< double > MASS
Mass.
static const SelectorWrapper< double > ET
Transverse energy.
static const SelectorWrapper< double > PT
Transverse momentum.
static const SelectorWrapper< int > PDG_ID
PDG ID.
definition of /b Selector class
static const SelectorWrapper< double > RAPIDITY
Rapidity.
std::shared_ptr< const Selector > ConstSelectorPtr
Declaration of ConstSelectorPtr.
static const SelectorWrapper< double > ETA
Pseudorapidity.
static const SelectorWrapper< double > PHI
Azimuthal angle.
Annotation for function names.
Selector is an interface to "standard" Features that are valid for both integral and floating point c...
static const SelectorWrapper< int > STATUS
Status.
Feature< Feature_type > abs(const Feature< Feature_type > &input)
Obtain the absolute value of a Feature. This works as you'd expect. If foo is a valid Feature...
static const SelectorWrapper< double > ENERGY
Energy.