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#include "DataFormats/GeometryVector/interface/Basic2DVector.h"#include "DataFormats/GeometryVector/interface/Theta.h"#include "DataFormats/GeometryVector/interface/Phi.h"#include "DataFormats/GeometryVector/interface/PreciseFloatType.h"#include "DataFormats/GeometryVector/interface/CoordinateSets.h"#include "DataFormats/Math/interface/SSEVec.h"#include <iosfwd>#include <cmath>#include "Basic3DVectorLD.h"Go to the source code of this file.
Classes | |
| class | Basic3DVector< T > |
Namespaces | |
| namespace | detailsBasic3DVector |
| namespace | geometryDetails |
Typedefs | |
| typedef Basic3DVector< double > | Basic3DVectorD |
| typedef Basic3DVector< float > | Basic3DVectorF |
| typedef Geom::Cylindrical2Cartesian< T > | Cylindrical |
| typedef Spherical | Polar |
| typedef T | ScalarType |
| typedef Geom::Spherical2Cartesian< T > | Spherical |
Functions | |
| float | detailsBasic3DVector::__attribute__ ((always_inline)) __attribute__((pure)) eta(float x |
| template<typename T > | |
| class Basic3DVector | __attribute__ ((aligned(16))) |
| T | barePhi () const |
| T | bareTheta () const |
| template<class OtherPoint > | |
| Basic3DVector (const OtherPoint &p) | |
| template<class U > | |
| Basic3DVector (mathSSE::Vec4< U > const &iv) | |
| Basic3DVector () | |
| Basic3DVector (const T &x, const T &y, const T &z) | |
| construct from cartesian coordinates | |
| Basic3DVector (const Basic3DVector &p) | |
| Copy constructor from same type. Should not be needed but for gcc bug 12685. | |
| template<typename U > | |
| Basic3DVector (const Geom::Theta< U > &theta, const Geom::Phi< U > &phi, const T &r) | |
| template<class U > | |
| Basic3DVector (const Basic3DVector< U > &p) | |
| Copy constructor and implicit conversion from Basic3DVector of different precision. | |
| Basic3DVector (const Basic2DVector< T > &p) | |
| constructor from 2D vector (X and Y from 2D vector, z set to zero) | |
| Basic3DVector | cross (const Basic3DVector &lh) const |
| Vector product, or "cross" product, with a vector of same type. | |
| template<class U > | |
| Basic3DVector< typename PreciseFloatType< T, U >::Type > | cross (const Basic3DVector< U > &lh) const |
| T | dot (const Basic3DVector &rh) const |
| Scalar product, or "dot" product, with a vector of same type. | |
| template<class U > | |
| PreciseFloatType< T, U >::Type | dot (const Basic3DVector< U > &lh) const |
| T | eta () const |
| T | mag () const |
| The vector magnitude. Equivalent to sqrt(vec.mag2()) | |
| T | mag2 () const |
| The vector magnitude squared. Equivalent to vec.dot(vec) | |
| template<class T > | |
| Basic3DVector< T > | operator* (const Basic3DVector< T > &v, T t) |
| template<class T > | |
| T | operator* (const Basic3DVector< T > &v1, const Basic3DVector< T > &v2) |
| scalar product of vectors of same precision | |
| template<class T , class U > | |
| PreciseFloatType< T, U >::Type | operator* (const Basic3DVector< T > &v1, const Basic3DVector< U > &v2) |
| scalar product of vectors of different precision | |
| template<class T > | |
| Basic3DVector< T > | operator* (T t, const Basic3DVector< T > &v) |
| Same as operator*( Vector, Scalar) | |
| template<class T , typename S > | |
| Basic3DVector< T > | operator* (const Basic3DVector< T > &v, S t) |
| template<class T , typename S > | |
| Basic3DVector< T > | operator* (S t, const Basic3DVector< T > &v) |
| Basic3DVector & | operator*= (T t) |
| Scaling by a scalar value (multiplication) | |
| template<class T > | |
| Basic3DVector< T > | operator+ (const Basic3DVector< T > &a, const Basic3DVector< T > &b) |
| vector sum and subtraction of vectors of possibly different precision | |
| template<class T , class U > | |
| Basic3DVector< typename PreciseFloatType< T, U >::Type > | operator+ (const Basic3DVector< T > &a, const Basic3DVector< U > &b) |
| template<class U > | |
| Basic3DVector & | operator+= (const Basic3DVector< U > &p) |
| template<class T > | |
| Basic3DVector< T > | operator- (const Basic3DVector< T > &a, const Basic3DVector< T > &b) |
| template<class T , class U > | |
| Basic3DVector< typename PreciseFloatType< T, U >::Type > | operator- (const Basic3DVector< T > &a, const Basic3DVector< U > &b) |
| Basic3DVector | operator- () const |
| Unary minus, returns a vector with components (-x(),-y(),-z()) | |
| template<class U > | |
| Basic3DVector & | operator-= (const Basic3DVector< U > &p) |
| template<class T , typename S > | |
| Basic3DVector< T > | operator/ (const Basic3DVector< T > &v, S s) |
| Basic3DVector & | operator/= (T t) |
| Scaling by a scalar value (division) | |
| template<class T > | |
| std::ostream & | operator<< (std::ostream &s, const Basic3DVector< T > &v) |
| simple text output to standard streams | |
| bool | operator== (const Basic3DVector &rh) const |
| T | perp () const |
| Magnitude of transverse component. | |
| T | perp2 () const |
| Squared magnitude of transverse component. | |
| Geom::Phi< T > | phi () const |
| std::ostream & | geometryDetails::print3D (std::ostream &s, double x, double y, double z) |
| float float float z float | detailsBasic3DVector::t (z/std::sqrt(x *x+y *y)) |
| Geom::Theta< T > | theta () const |
| T | transverse () const |
| Another name for perp() | |
| Basic3DVector | unit () const |
| T | x () const |
| Cartesian x coordinate. | |
| Basic2DVector< T > | xy () const |
| T | y () const |
| Cartesian y coordinate. | |
| T | z () const |
| Cartesian z coordinate. | |
Variables | |
| mathSSE::Vec4< T > | v |
| float float | detailsBasic3DVector::y |
| typedef Basic3DVector<double> Basic3DVectorD |
Definition at line 304 of file newBasic3DVector.h.
| typedef Basic3DVector<float> Basic3DVectorF |
Definition at line 303 of file newBasic3DVector.h.
| typedef Geom::Cylindrical2Cartesian<T> Cylindrical |
Definition at line 219 of file newBasic3DVector.h.
Definition at line 221 of file newBasic3DVector.h.
| typedef T ScalarType |
Definition at line 218 of file newBasic3DVector.h.
| typedef Geom::Spherical2Cartesian<T> Spherical |
Definition at line 220 of file newBasic3DVector.h.
| class Basic3DVector __attribute__ | ( | (aligned(16)) | ) |
| T __attribute__::barePhi | ( | ) | const |
Azimuthal angle. The value is returned in radians, in the range (-pi,pi]. Same precision as the system atan2(x,y) function. The return type is Geom::Phi<T>, see it's documentation.
Definition at line 311 of file newBasic3DVector.h.
| T __attribute__::bareTheta | ( | ) | const |
Polar angle. The value is returned in radians, in the range [0,pi] Same precision as the system atan2(x,y) function. The return type is Geom::Phi<T>, see it's documentation.
Definition at line 318 of file newBasic3DVector.h.
| __attribute__::Basic3DVector | ( | const OtherPoint & | p | ) | [explicit] |
Explicit constructor from other (possibly unrelated) vector classes The only constraint on the argument type is that it has methods x(), y() and z(), and that these methods return a type convertible to T. Examples of use are
construction from a Basic3DVector with different precision
construction from a Hep3Vector
construction from a coordinate system converter
Definition at line 253 of file newBasic3DVector.h.
{
| __attribute__::Basic3DVector | ( | mathSSE::Vec4< U > const & | iv | ) |
Definition at line 259 of file newBasic3DVector.h.
| __attribute__::Basic3DVector | ( | ) |
default constructor uses default constructor of T to initialize the components. For built-in floating-point types this means initialization to zero??? (force init to 0)
Definition at line 227 of file newBasic3DVector.h.
{
| __attribute__::Basic3DVector | ( | const Basic3DVector & | p | ) |
Copy constructor from same type. Should not be needed but for gcc bug 12685.
Definition at line 230 of file newBasic3DVector.h.
{
| __attribute__::Basic3DVector | ( | const Geom::Theta< U > & | theta, |
| const Geom::Phi< U > & | phi, | ||
| const T & | r | ||
| ) |
Deprecated construct from polar coordinates, use
Basic3DVector<T>( Basic3DVector<T>::Polar( theta, phi, r)) instead.
Definition at line 270 of file newBasic3DVector.h.
| __attribute__::Basic3DVector | ( | const Basic3DVector< U > & | p | ) |
Copy constructor and implicit conversion from Basic3DVector of different precision.
Definition at line 235 of file newBasic3DVector.h.
{
| __attribute__::Basic3DVector | ( | const Basic2DVector< T > & | p | ) |
constructor from 2D vector (X and Y from 2D vector, z set to zero)
Definition at line 240 of file newBasic3DVector.h.
| Basic3DVector __attribute__::cross | ( | const Basic3DVector & | lh | ) | const |
Vector product, or "cross" product, with a vector of same type.
Definition at line 387 of file newBasic3DVector.h.
| Basic3DVector<typename PreciseFloatType<T,U>::Type> __attribute__::cross | ( | const Basic3DVector< U > & | lh | ) | const |
Vector (or cross) product with a vector of different precision. The product is computed without loss of precision. The type of the returned vector is the more precise of the types of the two vectors.
Definition at line 399 of file newBasic3DVector.h.
| T __attribute__::dot | ( | const Basic3DVector & | rh | ) | const |
Scalar product, or "dot" product, with a vector of same type.
Definition at line 371 of file newBasic3DVector.h.
| PreciseFloatType<T,U>::Type __attribute__::dot | ( | const Basic3DVector< U > & | lh | ) | const |
Scalar (or dot) product with a vector of different precision. The product is computed without loss of precision. The type of the returned scalar is the more precise of the scalar types of the two vectors.
Definition at line 381 of file newBasic3DVector.h.
| T __attribute__::eta | ( | ) | const |
Pseudorapidity. Does not check for zero transverse component; in this case the behavior is as for divide-by zero, i.e. system-dependent.
Definition at line 326 of file newBasic3DVector.h.
| T __attribute__::mag | ( | ) | const |
The vector magnitude. Equivalent to sqrt(vec.mag2())
Definition at line 296 of file newBasic3DVector.h.
{
| T __attribute__::mag2 | ( | ) | const |
The vector magnitude squared. Equivalent to vec.dot(vec)
Definition at line 293 of file newBasic3DVector.h.
{
| Basic3DVector<T> operator* | ( | const Basic3DVector< T > & | v, |
| T | t | ||
| ) | [inline] |
Multiplication by scalar, does not change the precision of the vector. The return type is the same as the type of the vector argument.
Definition at line 272 of file newBasic3DVector.h.
References matplotRender::t, and Basic3DVector< T >::v.
| T operator* | ( | const Basic3DVector< T > & | v1, |
| const Basic3DVector< T > & | v2 | ||
| ) | [inline] |
scalar product of vectors of same precision
Definition at line 257 of file newBasic3DVector.h.
References Basic3DVector< T >::dot().
{
return v1.dot(v2);
}
| PreciseFloatType<T,U>::Type operator* | ( | const Basic3DVector< T > & | v1, |
| const Basic3DVector< U > & | v2 | ||
| ) | [inline] |
scalar product of vectors of different precision
Definition at line 263 of file newBasic3DVector.h.
References Basic3DVector< T >::dot().
{
return v1.dot(v2);
}
| Basic3DVector<T> operator* | ( | T | t, |
| const Basic3DVector< T > & | v | ||
| ) | [inline] |
Same as operator*( Vector, Scalar)
Definition at line 278 of file newBasic3DVector.h.
References matplotRender::t, and Basic3DVector< T >::v.
| Basic3DVector<T> operator* | ( | const Basic3DVector< T > & | v, |
| S | t | ||
| ) | [inline] |
Definition at line 288 of file newBasic3DVector.h.
| Basic3DVector<T> operator* | ( | S | t, |
| const Basic3DVector< T > & | v | ||
| ) | [inline] |
Definition at line 283 of file newBasic3DVector.h.
| Basic3DVector& __attribute__::operator*= | ( | T | t | ) |
Scaling by a scalar value (multiplication)
Definition at line 358 of file newBasic3DVector.h.
| Basic3DVector<T> operator+ | ( | const Basic3DVector< T > & | a, |
| const Basic3DVector< T > & | b | ||
| ) | [inline] |
vector sum and subtraction of vectors of possibly different precision
Definition at line 232 of file newBasic3DVector.h.
References Basic3DVector< T >::v.
| Basic3DVector<typename PreciseFloatType<T,U>::Type> operator+ | ( | const Basic3DVector< T > & | a, |
| const Basic3DVector< U > & | b | ||
| ) | [inline] |
Definition at line 243 of file newBasic3DVector.h.
References Basic3DVector< T >::v.
{
typedef Basic3DVector<typename PreciseFloatType<T,U>::Type> RT;
return RT(a).v+RT(b).v;
}
| Basic3DVector& __attribute__::operator+= | ( | const Basic3DVector< U > & | p | ) |
Operator += with a Basic3DVector of possibly different precision.
Definition at line 341 of file newBasic3DVector.h.
| Basic3DVector<T> operator- | ( | const Basic3DVector< T > & | a, |
| const Basic3DVector< T > & | b | ||
| ) | [inline] |
Definition at line 237 of file newBasic3DVector.h.
References Basic3DVector< T >::v.
| Basic3DVector<typename PreciseFloatType<T,U>::Type> operator- | ( | const Basic3DVector< T > & | a, |
| const Basic3DVector< U > & | b | ||
| ) | [inline] |
Definition at line 250 of file newBasic3DVector.h.
References Basic3DVector< T >::v.
{
typedef Basic3DVector<typename PreciseFloatType<T,U>::Type> RT;
return RT(a).v-RT(b).v;
}
| Basic3DVector __attribute__::operator- | ( | ) | const |
Unary minus, returns a vector with components (-x(),-y(),-z())
Definition at line 355 of file newBasic3DVector.h.
| Basic3DVector& __attribute__::operator-= | ( | const Basic3DVector< U > & | p | ) |
Operator -= with a Basic3DVector of possibly different precision.
Definition at line 349 of file newBasic3DVector.h.
| Basic3DVector<T> operator/ | ( | const Basic3DVector< T > & | v, |
| S | s | ||
| ) | [inline] |
Division by scalar, does not change the precision of the vector. The return type is the same as the type of the vector argument.
Definition at line 297 of file newBasic3DVector.h.
References asciidump::s, and matplotRender::t.
| Basic3DVector& __attribute__::operator/= | ( | T | t | ) |
Scaling by a scalar value (division)
Definition at line 364 of file newBasic3DVector.h.
| std::ostream& operator<< | ( | std::ostream & | s, |
| const Basic3DVector< T > & | v | ||
| ) | [inline] |
simple text output to standard streams
Definition at line 224 of file newBasic3DVector.h.
References geometryDetails::print3D(), asciidump::s, and v.
{
return geometryDetails::print3D(s, v.x(),v.y(), v.z());
}
| bool __attribute__::operator== | ( | const Basic3DVector & | rh | ) | const |
Definition at line 288 of file newBasic3DVector.h.
References matplotRender::t.
| T __attribute__::perp | ( | ) | const |
Magnitude of transverse component.
Definition at line 302 of file newBasic3DVector.h.
| T __attribute__::perp2 | ( | ) | const |
Squared magnitude of transverse component.
Definition at line 299 of file newBasic3DVector.h.
Definition at line 312 of file newBasic3DVector.h.
| Geom::Theta<T> __attribute__::theta | ( | ) | const |
Definition at line 319 of file newBasic3DVector.h.
| T __attribute__::transverse | ( | ) | const |
Another name for perp()
Definition at line 305 of file newBasic3DVector.h.
| Basic3DVector __attribute__::unit | ( | ) | const |
Unit vector parallel to this. If mag() is zero, a zero vector is returned.
Definition at line 331 of file newBasic3DVector.h.
| T __attribute__::x | ( | ) | const |
| Basic2DVector<T> __attribute__::xy | ( | ) | const |
Definition at line 285 of file newBasic3DVector.h.
{
| T __attribute__::y | ( | ) | const |
| T __attribute__::z | ( | ) | const |
Cartesian z coordinate.
Definition at line 283 of file newBasic3DVector.h.
References matplotRender::t.
{
Definition at line 405 of file newBasic3DVector.h.
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>::insert(), edm::JobHeaderInserter::insert(), BinningPointByMap::insert(), edm::detail::ThreadSafeRegistry< KEY, T, E >::insertMapped(), LinearGridInterpolator3D::interpolate(), EcalTB07DaqFormatter::interpretRawData(), EcalTBDaqFormatter::interpretRawData(), OAE85lParametrizedMagneticField::inTeslaUnchecked(), TrackerDpgAnalysis::inVertex(), ThirdHitPrediction::isCompatibleWithMultipleScattering(), TrackInformation::isGeneratedSecondary(), PerformancePayloadFromTFormula::isOk(), TrackInformation::isPrimary(), edm::iterateTrieLeaves(), reco::TrackProbabilityTagInfo::jetProbability(), G4SimEvent::load(), FWGeometryTableManager::loadGeometry(), EcalClusterTools::localCovariances(), edm::LoggedErrorsOnlySummary(), edm::LoggedErrorsSummary(), EnergyLossPlain::logTruncate(), EcalElectronicsMapper::makeMapFromVectors(), GlobalMuonTrackMatcher::match_Chi2(), GlobalMuonTrackMatcher::match_dist(), PerformancePayloadFromTable::matches(), EcalClusterTools::matrixDetId(), LocalTrajectoryParameters::mixedFormatVector(), LocalTrajectoryParameters::mixedFormatVector_old(), RKCurvilinearDistance< T, N >::momentum(), Generator::nonBeamEvent2G4(), edm::service::MessageServicePSetValidation::noNonPSetUsage(), DDMapper< KeyType, ValueType >::noSpecifics(), MtvClusterizer1D< T >::operator()(), ESShape::operator()(), LmsModeFinder3d::operator()(), FsmwClusterizer1D< T >::operator()(), ThirdHitRZPrediction< Propagator >::operator()(), HsmModeFinder3d::operator()(), OutermostClusterizer1D< T >::operator()(), PropagationDirectionChooser::operator()(), Fit::operator()(), lhef::JetInput::operator()(), ato< std::vector< T > >::operator()(), operator<<(), edm::AssociationMap< edm::OneToManyWithQualityGeneric< TrackingParticleCollection, edm::View< reco::Track >, double > >::operator[](), EnergyLossPlain::optimal(), reco::TrackExtra::outerStateCovariance(), TrackAssociatorByChi2::parametersAtClosestApproach(), GraphPath< N, E >::paths2(), SymmetryFit::pol2_from_pol2(), SymmetryFit::pol2_from_pol3(), fireworks::prepareTrack(), TiXmlAttribute::Print(), SiPixelPerformanceSummary::print(), PrimaryVertexAnalyzer4PU::printEventSummary(), PrimaryVertexAnalyzer4PU::printPVTrks(), PrimaryVertexAnalyzer::printRecVtxs(), PrimaryVertexAnalyzer4PU::printRecVtxs(), EcalFenixTcpFormat::process(), DDLVector::processElement(), CandOneToManyDeltaRMatcher::produce(), PileUpSimulator::produce(), NTuplingDevice::produce(), OscarProducer::produce(), reco::modules::MatcherBase< C1, C2, M >::produce(), reco::modulesNew::Matcher< C1, C2, S, D >::produce(), TrackCandidateProducer::produce(), reco::modules::CosmicTrackSplitter::produce(), InclusiveVertexFinder::produce(), edm::service::ThreadQueue::produce(), PixelVertexProducer::produce(), PrimaryVertexProducer::produce(), SecondaryVertexProducer::produce(), cms::HITrackVertexMaker::produceTracks(), CSCSegAlgoDF::pruneFromResidual(), CSCSegAlgoShowering::pruneFromResidual(), CSCTFPtMethods::Pt2Stn2010(), CSCTFPtMethods::Pt2Stn2011(), CSCTFPtMethods::Pt3Stn2010(), CSCTFPtMethods::Pt3Stn2011(), edm::TRandomAdaptor::put(), GsfTrackProducerBase::putInEvt(), KfTrackProducerBase::putInEvt(), TrackProducerWithSCAssociation::putInEvt(), TrackAssociatorByPosition::quality(), HICTrajectoryBuilder::qualityFilter(), ThirdHitPredictionFromInvParabola::rangeRPhiSlow(), L1TriggerScalerRead::readData(), HepMCFileReader::ReadStats(), TrackClassifier::reconstructionInformation(), CosmicRegionalSeedGenerator::regions(), edm::EventBuffer::releaseProducerBuffer(), edm::SingleConsumerQ::releaseProducerBuffer(), RawParticle::rotate(), RawParticle::rotateX(), RawParticle::rotateY(), RawParticle::rotateZ(), EcalRecHitWorkerRecover::run(), edm::service::MainThreadMLscribe::runCommand(), TagProbeFitter::saveDistributionsPlot(), TagProbeFitter::saveFitPlot(), EcalClusterTools::scLocalCovariances(), ElectronSeedGenerator::seedsFromRecHits(), ObjectPairCollectionSelector< InputCollection, Selector, StoreContainer, RefAdder >::select(), SortCollectionSelector< InputCollection, Comparator, OutputCollection, StoreContainer, RefAdder >::select(), VariableEventSelector::select(), RPCMonitorLinkSynchro::select(), FWViewContextMenuHandlerGL::select(), FWGeometryTableView::selectView(), edm::StreamerOutputModuleBase::serializeRegistry(), CandCommonVertexFitterBase::set(), PFCandCommonVertexFitterBase::set(), L1MuGMTMatrix< T >::set(), OutputFile::set_current_offset(), OutputFile::set_do_adler(), HcalTB02HistoClass::set_E5x5(), HcalTB02HistoClass::set_E5x5N(), HcalTB02HistoClass::set_E7x7(), HcalTB02HistoClass::set_E7x7N(), HcalTB02HistoClass::set_Eentry(), HcalTB02HistoClass::set_Einit(), HcalTB02HistoClass::set_eta(), HcalTB02HistoClass::set_ETot(), HcalTB02HistoClass::set_ETotN(), OutputFile::set_events(), OutputFile::set_first_event_offset(), OutputFile::set_last_event_offset(), HcalTB02HistoClass::set_Nprim(), HcalTB02HistoClass::set_Ntimesli(), HcalTB02HistoClass::set_NUnit(), HcalTB02HistoClass::set_partType(), HcalTB02HistoClass::set_phi(), OutputFile::set_run(), SiPixelCPEGenericErrorParm::set_version(), HcalTB02HistoClass::set_xE3x3(), HcalTB02HistoClass::set_xE3x3N(), HcalTB02HistoClass::set_xE5x5(), HcalTB02HistoClass::set_xE5x5N(), HcalTB02HistoClass::set_xEentry(), HcalTB02HistoClass::set_xETot(), HcalTB02HistoClass::set_xETotN(), HcalTB02HistoClass::set_xNUnit(), reco::BeamSpot::setBeamWidthX(), reco::BeamSpot::setBeamWidthY(), edm::IndexIntoFile::RunOrLumiIndexes::setBeginEventNumbers(), reco::BeamSpot::setbetaStar(), DCULVRVoltagesDat::setBuffer(), CachingVariable::setCache(), PlotCompareUtility::SetChi2Threshold(), LMFDat::setData(), PlotCompareUtility::SetDataPath(), reco::BeamSpot::setEmittanceX(), reco::BeamSpot::setEmittanceY(), edm::IndexIntoFile::RunOrLumiIndexes::setEndEventNumbers(), TotemTestHistoClass::setEVT(), DCULVRVoltagesDat::setFenix(), DCULVRVoltagesDat::setGOH(), HcalTBEventPosition::setHFtableCoords(), DCULVRVoltagesDat::setINH(), PlotCompareUtility::SetKSThreshold(), DCULVRVoltagesDat::setOCM(), edm::IndexIntoFile::RunOrLumiEntry::setOrderPHIDRun(), PlotCompareUtility::SetPageTitle(), TopologyWorker::setPartList(), objMon< T >::setPath(), objMonData< T >::setPath(), edm::IndexIntoFile::RunOrLumiEntry::setProcessHistoryIDIndex(), PlotCompareUtility::SetStyle(), edm::IllegalParameters::setThrowAnException(), RecoTracktoTP::SetTrackingParticlePCA(), TPtoRecoTrack::SetTrackingParticlePCA(), DCULVRVoltagesDat::setV43_A(), DCULVRVoltagesDat::setV43_D(), AlignmentParameters::setValid(), DCULVRVoltagesDat::setVCC(), LMFPrimVers::setVersion(), SimTrack::setVertexIndex(), DCULVRVoltagesDat::setVFE1_2_3_D(), DCULVRVoltagesDat::setVFE1_A(), DCULVRVoltagesDat::setVFE2_A(), DCULVRVoltagesDat::setVFE3_A(), DCULVRVoltagesDat::setVFE4_5_D(), DCULVRVoltagesDat::setVFE4_A(), DCULVRVoltagesDat::setVFE5_A(), GaussianTail::shoot(), DQMEventMsgBuilder::size(), InitMsgBuilder::size(), EventMsgBuilder::size(), edm::OneToManyWithQualityGeneric< TrackingParticleCollection, edm::View< reco::Track >, double >::sort(), DDCoreToDDXMLOutput::specpar(), DDStreamer::specs_write(), XHistogram::splitSegment(), SplittingConfigurableHisto::SplittingConfigurableHisto(), TrackInformation::storeTrack(), ConversionFastHelix::straightLineStateAtVertex(), FastHelix::straightLineStateAtVertex(), DDI::Specific::stream(), FWViewManagerManager::supportedTypesAndRepresentations(), CkfDebugger::testSeed(), EventShape::thrust(), DDMapper< KeyType, ValueType >::toDouble(), TiXmlBase::ToLower(), DDMapper< KeyType, ValueType >::toString(), reco::TransientTrackFromFTS::track(), edm::OneToMany< JetC, reco::TrackCollection >::transientMap(), edm::OneToOneGeneric< CKey, CVal, index >::transientMap(), edm::OneToManyWithQualityGeneric< TrackingParticleCollection, edm::View< reco::Track >, double >::transientMap(), edm::OneToMany< JetC, reco::TrackCollection >::transientValVector(), edm::OneToManyWithQualityGeneric< TrackingParticleCollection, edm::View< reco::Track >, double >::transientValVector(), global_angular_0::translation(), TangentApproachInRPhi::transverseCoord(), ClosestApproachInRPhi::transverseCoord(), SiTrivialDigitalConverter::truncate(), GraphPath< N, E >::update(), TkAccumulatingSensitiveDetector::updateHit(), CSCSegAlgoDF::updateParameters(), CSCSegAlgoShowering::updateParameters(), CrossingPtBasedLinearizationPointFinder::useAllTracks(), CrossingPtBasedLinearizationPointFinder::useFullMatrix(), edm::OneToManyWithQualityGeneric< TrackingParticleCollection, edm::View< reco::Track >, double >::val(), edm::OneToMany< JetC, reco::TrackCollection >::val(), edm::OneToValue< BasicClusterCollection, float, unsigned short >::val(), L1MuonPixelTrackFitter::valInversePt(), cond::ValueExtractor< Pedestals >::ValueExtractor(), VariableHelper::variable(), LocalTrajectoryParameters::vector(), LocalTrajectoryParameters::vector_old(), CosmicParametersDefinerForTP::vertex(), ParametersDefinerForTP::vertex(), edm::walkTrie(), DCULVRVoltagesDat::writeArrayDB(), and writeProfileData().
1.7.3