CDF_2008_S7541902 Class Reference

Inheritance diagram for CDF_2008_S7541902:

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Collaboration diagram for CDF_2008_S7541902:

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List of all members.

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Detailed Description

CDF jet pT and multiplicity distributions in W + jets events.

This CDF analysis provides jet pT distributions for 4 jet multiplicity bins as well as the jet multiplicity distribution in W + jets events. e-Print: arXiv:0711.4044 [hep-ex]

Definition at line 20 of file CDF_2008_S7541902.cc.

Public Member Functions
	CDF_2008_S7541902 ()
	Constructor.
virtual bool	isCompatible (const ParticleName &beam1, const ParticleName &beam2) const
	Is this analysis able to run on the supplied pair of beams?
virtual bool	isCompatible (const BeamPair &beams) const
	Is this analysis able to run on the BeamPair beams ?
AnalysisHandler &	handler () const
	Access the controlling AnalysisHandler object.
void	normalize (AIDA::IHistogram1D *&histo, double norm=1.0)
void	scale (AIDA::IHistogram1D *&histo, double scale)
Analysis &	setCrossSection (double xs)
	Set the cross section from the generator.
bool	needsCrossSection () const
	Return true if this analysis needs to know the process cross-section.
Analysis methods
void	init ()
void	analyze (const Event &event)
	Do the analysis.
void	finalize ()
	Finalize.
Metadata
Metadata is used for querying from the command line and also for building web pages and the analysis pages in the Rivet manual.
virtual const AnalysisInfo &	info () const
	Get the actual AnalysisInfo object in which all this metadata is stored.
virtual std::string	name () const
	Get the name of the analysis.
virtual std::string	spiresId () const
	Get a the SPIRES/Inspire ID code for this analysis.
virtual std::vector< std::string >	authors () const
	Names & emails of paper/analysis authors.
virtual std::string	summary () const
	Get a short description of the analysis.
virtual std::string	description () const
	Get a full description of the analysis.
virtual std::string	runInfo () const
	Information about the events needed as input for this analysis.
virtual std::string	experiment () const
	Experiment which performed and published this analysis.
virtual std::string	collider () const
	Collider on which the experiment ran.
virtual const BeamPair	requiredBeams () const
	Return the pair of incoming beams required by this analysis.
virtual const std::vector < std::pair< double, double > > &	energies () const
	Sets of valid beam energy pairs, in GeV.
virtual std::string	year () const
	When the original experimental analysis was published.
virtual std::vector< std::string >	references () const
	Journal, and preprint references.
virtual std::string	status () const
	Whether this analysis is trusted (in any way!).
Run conditions
const ParticlePair &	beams () const
	Incoming beams for this run.
const BeamPair	beamIds () const
	Incoming beam IDs for this run.
double	sqrtS () const
	Centre of mass energy for this run.
Projection "getting" functions
std::set< ConstProjectionPtr >	getProjections () const
	Get the contained projections, including recursion.
template<typename PROJ>
const PROJ &	getProjection (const std::string &name) const
	Get the named projection, specifying return type via a template argument.
const Projection &	getProjection (const std::string &name) const
Projection applying functions
template<typename PROJ>
const PROJ &	applyProjection (const Event &evt, const PROJ &proj) const
	Apply the supplied projection on event.
template<typename PROJ>
const PROJ &	applyProjection (const Event &evt, const Projection &proj) const
	Apply the supplied projection on event.
template<typename PROJ>
const PROJ &	applyProjection (const Event &evt, const std::string &name) const
	Apply the named projection on event.
Protected Member Functions
Log &	getLog () const
	Get a Log object based on the name() property of the calling analysis object.
double	crossSection () const
	Get the process cross-section in pb. Throws if this hasn't been set.
double	crossSectionPerEvent () const
size_t	numEvents () const
double	sumOfWeights () const
Analysis &	setBeams (const ParticleName &beam1, const ParticleName &beam2)
Analysis &	setNeedsCrossSection (bool needed)
	Declare whether this analysis needs to know the process cross-section from the generator.
ProjectionHandler &	getProjHandler () const
	Get a reference to the ProjectionHandler for this thread.
AIDA analysis infrastructure.
AIDA::IAnalysisFactory &	analysisFactory ()
	Access the AIDA analysis factory of the controlling AnalysisHandler object.
AIDA::ITree &	tree ()
	Access the AIDA tree of the controlling AnalysisHandler object.
AIDA::IHistogramFactory &	histogramFactory ()
	Access the AIDA histogram factory of the controlling AnalysisHandler object.
AIDA::IDataPointSetFactory &	datapointsetFactory ()
	Access the AIDA histogram factory of the controlling AnalysisHandler object.
const std::string	histoDir () const
	Get the canonical histogram "directory" path for this analysis.
const std::string	histoPath (const std::string &hname) const
	Get the canonical histogram path for the named histogram in this analysis.
Internal histogram booking (for use by Analysis sub-classes).
const BinEdges &	binEdges (const std::string &hname) const
	Get bin edges for a named histo (using ref AIDA caching).
const BinEdges &	binEdges (size_t datasetId, size_t xAxisId, size_t yAxisId) const
	Get bin edges for a numbered histo (using ref AIDA caching).
BinEdges	logBinEdges (size_t nbins, double lower, double upper)
	Get bin edges with logarithmic widths.
AIDA::IHistogram1D *	bookHistogram1D (const std::string &name, size_t nbins, double lower, double upper, const std::string &title="", const std::string &xtitle="", const std::string &ytitle="")
AIDA::IHistogram1D *	bookHistogram1D (const std::string &name, const std::vector< double > &binedges, const std::string &title="", const std::string &xtitle="", const std::string &ytitle="")
AIDA::IHistogram1D *	bookHistogram1D (const std::string &name, const std::string &title="", const std::string &xtitle="", const std::string &ytitle="")
AIDA::IHistogram1D *	bookHistogram1D (size_t datasetId, size_t xAxisId, size_t yAxisId, const std::string &title="", const std::string &xtitle="", const std::string &ytitle="")
Internal profile histogram booking (for use by Analysis sub-classes).
AIDA::IProfile1D *	bookProfile1D (const std::string &name, size_t nbins, double lower, double upper, const std::string &title="", const std::string &xtitle="", const std::string &ytitle="")
AIDA::IProfile1D *	bookProfile1D (const std::string &name, const std::vector< double > &binedges, const std::string &title="", const std::string &xtitle="", const std::string &ytitle="")
AIDA::IProfile1D *	bookProfile1D (const std::string &name, const std::string &title="", const std::string &xtitle="", const std::string &ytitle="")
AIDA::IProfile1D *	bookProfile1D (size_t datasetId, size_t xAxisId, size_t yAxisId, const std::string &title="", const std::string &xtitle="", const std::string &ytitle="")
Internal data point set booking (for use by Analysis sub-classes).
AIDA::IDataPointSet *	bookDataPointSet (const std::string &name, const std::string &title="", const std::string &xtitle="", const std::string &ytitle="")
AIDA::IDataPointSet *	bookDataPointSet (const std::string &name, size_t npts, double lower, double upper, const std::string &title="", const std::string &xtitle="", const std::string &ytitle="")
AIDA::IDataPointSet *	bookDataPointSet (size_t datasetId, size_t xAxisId, size_t yAxisId, const std::string &title="", const std::string &xtitle="", const std::string &ytitle="")
Projection registration functions
template<typename PROJ>
const PROJ &	addProjection (const PROJ &proj, const std::string &name)
const Projection &	_addProjection (const Projection &proj, const std::string &name)
	Untemplated function to do the work...
Protected Attributes
string	_defaultname
	Name passed to constructor (used to find .info analysis data file, and as a fallback).
shared_ptr< AnalysisInfo >	_info
	Pointer to analysis metadata object.
bool	_allowProjReg
	Flag to forbid projection registration in analyses until the init phase.
Private Attributes
double	_xpoint
Cuts
double	_electronETCut
	Cut on the electron ET:.
double	_electronETACut
	Cut on the electron ETA:.
double	_eTmissCut
	Cut on the missing ET.
double	_mTCut
	Cut on the transverse mass squared.
double	_jetEtCutA
	Cut on the jet ET for differential cross sections.
double	_jetEtCutB
	Cut on the jet ET for jet multiplicity.
double	_jetETA
	Cut on the jet ETA.
Histograms
AIDA::IHistogram1D *	_histJetEt [4]
AIDA::IHistogram1D *	_histJetMultNorm
AIDA::IDataPointSet *	_histJetMultRatio [4]
AIDA::IHistogram1D *	_histJetMult [4]
Friends
class	Projectionhandler

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Constructor & Destructor Documentation

CDF_2008_S7541902

(

)

[inline]

Constructor.

Definition at line 24 of file CDF_2008_S7541902.cc.

References Rivet::ANTIPROTON, Rivet::PROTON, Analysis::setBeams(), and Analysis::setNeedsCrossSection().

      : Analysis("CDF_2008_S7541902"),
        _electronETCut(20.0*GeV), _electronETACut(1.1),
        _eTmissCut(30.0*GeV), _mTCut(20.0*GeV),
        _jetEtCutA(20.0*GeV),  _jetEtCutB(25.0*GeV), _jetETA(2.0),
        _xpoint(1960.)
    {
      setBeams(PROTON, ANTIPROTON);
      setNeedsCrossSection(true);
    }

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Member Function Documentation

void init

(

)

[inline, virtual]

Initialize this analysis object. A concrete class should here book all necessary histograms. An overridden function must make sure it first calls the base class function.

Implements Analysis.

Definition at line 39 of file CDF_2008_S7541902.cc.

References CDF_2008_S7541902::_histJetEt, CDF_2008_S7541902::_histJetMult, CDF_2008_S7541902::_histJetMultNorm, CDF_2008_S7541902::_histJetMultRatio, CDF_2008_S7541902::_xpoint, ProjectionApplier::addProjection(), VetoedFinalState::addVetoOnThisFinalState(), Analysis::bookDataPointSet(), Analysis::bookHistogram1D(), FastJets::CDFJETCLU, Rivet::ELECTRON, Rivet::GeV, Rivet::NU_E, Rivet::NU_EBAR, and Rivet::POSITRON.

                {
      // Set up projections
      // Basic FS
      FinalState fs(-3.6, 3.6);
      addProjection(fs, "FS");
   
      // Create a final state with any e-nu pair with invariant mass 65 -> 95 GeV and ET > 20 (W decay products)
      vector<pair<PdgId,PdgId> > vids;
      vids += make_pair(ELECTRON, NU_EBAR);
      vids += make_pair(POSITRON, NU_E);
      FinalState fs2(-3.6, 3.6, 20*GeV);
      InvMassFinalState invfs(fs2, vids, 65*GeV, 95*GeV);
      addProjection(invfs, "INVFS");
   
      // Make a final state without the W decay products for jet clustering
      VetoedFinalState vfs(fs);
      vfs.addVetoOnThisFinalState(invfs);
      addProjection(vfs, "VFS");
      addProjection(FastJets(vfs, FastJets::CDFJETCLU, 0.4), "Jets");

      // Book histograms
      for (int i = 0 ; i < 4 ; ++i) {
        _histJetEt[i] = bookHistogram1D(i+1, 1, 1);
        _histJetMultRatio[i] = bookDataPointSet(5 , 1, i+1);
        _histJetMult[i]   = bookHistogram1D(i+6, 1, 1);
      }
      _histJetMultNorm = bookHistogram1D("norm", 1, _xpoint, _xpoint+1.);
    }

void analyze

(

const Event &

event

)

[inline, virtual]

Do the analysis.

Implements Analysis.

Definition at line 70 of file CDF_2008_S7541902.cc.

References CDF_2008_S7541902::_electronETACut, CDF_2008_S7541902::_electronETCut, CDF_2008_S7541902::_eTmissCut, CDF_2008_S7541902::_histJetEt, CDF_2008_S7541902::_histJetMult, CDF_2008_S7541902::_histJetMultNorm, CDF_2008_S7541902::_jetETA, CDF_2008_S7541902::_jetEtCutA, CDF_2008_S7541902::_jetEtCutB, CDF_2008_S7541902::_mTCut, CDF_2008_S7541902::_xpoint, Rivet::ELECTRON, FourMomentum::Et(), FourVector::eta(), JetAlg::jetsByEt(), Particle::momentum(), Rivet::NU_E, FinalState::particles(), Particle::pdgId(), FourMomentum::pT(), FourMomentum::px(), FourMomentum::py(), FourMomentum::rapidity(), and vetoEvent.

                                     {
      // Get the W decay products (electron and neutrino)
      const InvMassFinalState& invMassFinalState = applyProjection<InvMassFinalState>(event, "INVFS");
      const ParticleVector&  wDecayProducts = invMassFinalState.particles();
   
      FourMomentum electronP, neutrinoP;
      bool gotElectron(false), gotNeutrino(false);
      foreach (const Particle& p, wDecayProducts) {
        FourMomentum p4 = p.momentum();
        if (p4.Et() > _electronETCut && fabs(p4.eta()) < _electronETACut && abs(p.pdgId()) == ELECTRON) {
          electronP = p4;
          gotElectron = true;
        }
        else if (p4.Et() > _eTmissCut && abs(p.pdgId()) == NU_E) {
          neutrinoP = p4;
          gotNeutrino = true;
        }
      }
   
      // Veto event if the electron or MET cuts fail
      if (!gotElectron || !gotNeutrino) vetoEvent;
   
      // Veto event if the MTR cut fails
      double mT2 = 2.0 * ( electronP.pT()*neutrinoP.pT() - electronP.px()*neutrinoP.px() - electronP.py()*neutrinoP.py() );
      if (sqrt(mT2) < _mTCut ) vetoEvent;
   
      // Get the jets
      const JetAlg& jetProj = applyProjection<FastJets>(event, "Jets");
      Jets theJets = jetProj.jetsByEt(_jetEtCutA);
      size_t njetsA(0), njetsB(0);
      foreach (const Jet& j, theJets) {
        const FourMomentum pj = j.momentum();
        if (fabs(pj.rapidity()) < _jetETA) {
          // Fill differential histograms for top 4 jets with Et > 20
          if (njetsA < 4 && pj.Et() > _jetEtCutA) {
            ++njetsA;
            _histJetEt[njetsA-1]->fill(pj.Et(), event.weight());
          }
          // Count number of jets with Et > 25 (for multiplicity histograms)
          if (pj.Et() > _jetEtCutB) ++njetsB;
        }
      }
   
      // Jet multiplicity
      _histJetMultNorm->fill(_xpoint, event.weight());
      for (size_t i = 1; i <= njetsB; ++i) {
        _histJetMult[i-1]->fill(_xpoint, event.weight());
        if (i == 4) break;
      }
    }

void finalize

(

)

[inline, virtual]

Finalize.

Todo:

Replace with autobooking etc. once YODA in place

Todo:

Replace with autobooking etc. once YODA in place

Implements Analysis.

Definition at line 124 of file CDF_2008_S7541902.cc.

References CDF_2008_S7541902::_histJetEt, CDF_2008_S7541902::_histJetMult, CDF_2008_S7541902::_histJetMultNorm, CDF_2008_S7541902::_histJetMultRatio, CDF_2008_S7541902::_xpoint, Analysis::crossSection(), and Analysis::sumOfWeights().

                    {
      const double xsec = crossSection()/sumOfWeights();
      // Get the x-axis for the ratio plots
      /// @todo Replace with autobooking etc. once YODA in place
      std::vector<double> xval; xval.push_back(_xpoint);
      std::vector<double> xerr; xerr.push_back(.5);
      // Fill the first ratio histogram using the special normalisation histogram for the total cross section
      double ratio1to0 = 0.;
      if (_histJetMultNorm->binHeight(0) > 0.) ratio1to0 = _histJetMult[0]->binHeight(0)/_histJetMultNorm->binHeight(0);
      // Get the fractional error on the ratio histogram
      double frac_err1to0 = 0.;
      if (_histJetMult[0]->binHeight(0) > 0.)  frac_err1to0 = _histJetMult[0]->binError(0)/_histJetMult[0]->binHeight(0);
      if (_histJetMultNorm->binHeight(0) > 0.) {
        frac_err1to0 *= frac_err1to0;
        frac_err1to0 += pow(_histJetMultNorm->binError(0)/_histJetMultNorm->binHeight(0),2.);
        frac_err1to0 = sqrt(frac_err1to0);
      }
   
      /// @todo Replace with autobooking etc. once YODA in place
      vector<double> yval[4]; yval[0].push_back(ratio1to0);
      vector<double> yerr[4]; yerr[0].push_back(ratio1to0*frac_err1to0);
      _histJetMultRatio[0]->setCoordinate(0,xval,xerr);
      _histJetMultRatio[0]->setCoordinate(1,yval[0],yerr[0]);
      for (int i = 0; i < 4; ++i) {
        if (i < 3) {
          float ratio = 0.0;
          if (_histJetMult[i]->binHeight(0) > 0.0) ratio = _histJetMult[i+1]->binHeight(0)/_histJetMult[i]->binHeight(0);
          float frac_err = 0.0;
          if (_histJetMult[i]->binHeight(0) > 0.0) frac_err = _histJetMult[i]->binError(0)/_histJetMult[i]->binHeight(0);
          if (_histJetMult[i+1]->binHeight(0) > 0.0) {
            frac_err *= frac_err;
            frac_err += pow(_histJetMult[i+1]->binError(0)/_histJetMult[i+1]->binHeight(0),2.);
            frac_err = sqrt(frac_err);
          }
          yval[i+1].push_back(ratio);
          yerr[i+1].push_back(ratio*frac_err);
          _histJetMultRatio[i+1]->setCoordinate(0,xval,xerr);
          _histJetMultRatio[i+1]->setCoordinate(1,yval[i+1],yerr[i+1]);
        }
        _histJetEt[i]->scale(xsec);
        _histJetMult[i]->scale(xsec);
      }
      _histJetMultNorm->scale(xsec);
    }

const AnalysisInfo & info

(

)

const [virtual, inherited]

Get the actual AnalysisInfo object in which all this metadata is stored.

Definition at line 125 of file Analysis.cc.

References Analysis::_info.

Referenced by Analysis::energies(), and Analysis::requiredBeams().

                                           {
    assert(_info.get() != 0);
    return *_info;
  }

string name

(

)

const [virtual, inherited]

Get the name of the analysis.

By default this is computed by combining the results of the experiment, year and Spires ID metadata methods and you should only override it if there's a good reason why those won't work.

Implements ProjectionApplier.

Definition at line 130 of file Analysis.cc.

References Analysis::_defaultname, and Analysis::_info.

Referenced by Analysis::_cacheBinEdges(), Analysis::_cacheXAxisData(), Analysis::_makeHistoDir(), AnalysisHandler::analysisNames(), AnalysisHandler::analyze(), Analysis::crossSection(), Analysis::getLog(), Analysis::histoDir(), AnalysisHandler::init(), AnalysisBuilderBase::name(), Analysis::normalize(), HistoHandler::registerAnalysisObject(), AnalysisHandler::removeIncompatibleAnalyses(), and Analysis::scale().

                              {
    if (_info && !_info->name().empty()) return _info->name();
    return _defaultname;
  }

string spiresId

(

)

const [virtual, inherited]

Get a the SPIRES/Inspire ID code for this analysis.

Definition at line 135 of file Analysis.cc.

References Analysis::_info.

                                  {
    if (!_info) return "NONE";
    return _info->spiresId();
  }

vector< string > authors

(

)

const [virtual, inherited]

Names & emails of paper/analysis authors.

Names and email of authors in 'NAME <EMAIL>' format. The first name in the list should be the primary contact person.

Definition at line 140 of file Analysis.cc.

References Analysis::_info.

                                         {
    if (!_info) return std::vector<std::string>();
    return _info->authors();
  }

string summary

(

)

const [virtual, inherited]

Get a short description of the analysis.

Short (one sentence) description used as an index entry. Use description() to provide full descriptive paragraphs of analysis details.

Definition at line 145 of file Analysis.cc.

References Analysis::_info.

                                 {
    if (!_info) return "NONE";
    return _info->summary();
  }

string description

(

)

const [virtual, inherited]

Get a full description of the analysis.

Full textual description of this analysis, what it is useful for, what experimental techniques are applied, etc. Should be treated as a chunk of restructuredText (http://docutils.sourceforge.net/rst.html), with equations to be rendered as LaTeX with amsmath operators.

Definition at line 150 of file Analysis.cc.

References Analysis::_info.

                                     {
    if (!_info) return "NONE";
    return _info->description();
  }

string runInfo

(

)

const [virtual, inherited]

Information about the events needed as input for this analysis.

Event types, energies, kinematic cuts, particles to be considered stable, etc. etc. Should be treated as a restructuredText bullet list (http://docutils.sourceforge.net/rst.html)

Definition at line 155 of file Analysis.cc.

References Analysis::_info.

                                 {
    if (!_info) return "NONE";
    return _info->runInfo();
  }

string experiment

(

)

const [virtual, inherited]

Experiment which performed and published this analysis.

Definition at line 164 of file Analysis.cc.

References Analysis::_info.

                                    {
    if (!_info) return "NONE";
    return _info->experiment();
  }

string collider

(

)

const [virtual, inherited]

Collider on which the experiment ran.

Definition at line 169 of file Analysis.cc.

References Analysis::_info.

                                  {
    if (!_info) return "NONE";
    return _info->collider();
  }

const BeamPair requiredBeams

(

)

const [virtual, inherited]

Return the pair of incoming beams required by this analysis.

Definition at line 189 of file Analysis.cc.

References Analysis::beams(), Analysis::info(), and Rivet::make_pdgid_pair().

Referenced by Analysis::isCompatible().

                                               {
    return make_pdgid_pair(info().beams());
  }

const std::vector< std::pair< double, double > > & energies

(

)

const [virtual, inherited]

Sets of valid beam energy pairs, in GeV.

Definition at line 160 of file Analysis.cc.

References AnalysisInfo::energies(), and Analysis::info().

                                                                     {
    return info().energies();
  }

string year

(

)

const [virtual, inherited]

When the original experimental analysis was published.

When the refereed paper on which this is based was published, according to SPIRES.

Definition at line 174 of file Analysis.cc.

References Analysis::_info.

                              {
    if (!_info) return "NONE";
    return _info->year();
  }

vector< string > references

(

)

const [virtual, inherited]

Journal, and preprint references.

Definition at line 179 of file Analysis.cc.

References Analysis::_info.

                                            {
    if (!_info) return vector<string>();
    return _info->references();
  }

string status

(

)

const [virtual, inherited]

Whether this analysis is trusted (in any way!).

Definition at line 184 of file Analysis.cc.

References Analysis::_info.

Referenced by AnalysisHandler::init().

                                {
    if (!_info) return "UNVALIDATED";
    return _info->status();
  }

const ParticlePair & beams

(

)

const [inherited]

Incoming beams for this run.

Definition at line 79 of file Analysis.cc.

References AnalysisHandler::beams(), and Analysis::handler().

Referenced by OPAL_1998_S3780481::analyze(), DELPHI_2002_069_CONF_603::analyze(), DELPHI_1995_S3137023::analyze(), BELLE_2006_S6265367::analyze(), ALEPH_1996_S3486095::analyze(), Analysis::isCompatible(), and Analysis::requiredBeams().

                                            {
    return handler().beams();
  }

const BeamPair beamIds

(

)

const [inherited]

Incoming beam IDs for this run.

Definition at line 83 of file Analysis.cc.

References AnalysisHandler::beamIds(), and Analysis::handler().

Referenced by UA5_1982_S875503::finalize(), and UA5_1982_S875503::init().

                                         {
    return handler().beamIds();
  }

double sqrtS

(

)

const [inherited]

Centre of mass energy for this run.

Definition at line 75 of file Analysis.cc.

References Analysis::handler(), and AnalysisHandler::sqrtS().

Referenced by UA1_1990_S2044935::analyze(), SFM_1984_S1178091::analyze(), PDG_HADRON_MULTIPLICITIES_RATIOS::analyze(), PDG_HADRON_MULTIPLICITIES::analyze(), CDF_2004_S5839831::analyze(), ALEPH_2004_S5765862::analyze(), UA1_1990_S2044935::finalize(), PDG_HADRON_MULTIPLICITIES_RATIOS::finalize(), PDG_HADRON_MULTIPLICITIES::finalize(), CDF_2004_S5839831::finalize(), CDF_2002_S4796047::finalize(), UA5_1989_S1926373::init(), UA5_1988_S1867512::init(), UA5_1986_S1583476::init(), UA1_1990_S2044935::init(), SFM_1984_S1178091::init(), PDG_HADRON_MULTIPLICITIES_RATIOS::init(), PDG_HADRON_MULTIPLICITIES::init(), OPAL_2004_S6132243::init(), MC_ZJETS::init(), MC_WJETS::init(), MC_PHOTONJETS::init(), MC_JetAnalysis::init(), MC_DIPHOTON::init(), JADE_OPAL_2000_S4300807::init(), CDF_2004_S5839831::init(), CDF_2002_S4796047::init(), CDF_1990_S2089246::init(), CDF_1988_S1865951::init(), and ALEPH_2004_S5765862::init().

                               {
    return handler().sqrtS();
  }

bool isCompatible	(	const ParticleName &	beam1,
		const ParticleName &	beam2
	)			const [virtual, inherited]

Is this analysis able to run on the supplied pair of beams?

Todo:

Need to also check internal consistency of the analysis' beam requirements with those of the projections it uses.

Definition at line 200 of file Analysis.cc.

References Analysis::beams(), Rivet::compatible(), and Analysis::requiredBeams().

Referenced by AnalysisHandler::removeIncompatibleAnalyses().

                                                                                        {
    BeamPair beams(beam1, beam2);
    return compatible(beams, requiredBeams());
    /// @todo Need to also check internal consistency of the analysis'
    /// beam requirements with those of the projections it uses.
  }

bool isCompatible

(

const BeamPair &

beams

)

const [virtual, inherited]

Is this analysis able to run on the BeamPair beams ?

Todo:

Need to also check internal consistency of the analysis' beam requirements with those of the projections it uses.

Definition at line 207 of file Analysis.cc.

References Rivet::compatible(), and Analysis::requiredBeams().

                                                         {
    return compatible(beams, requiredBeams());
    /// @todo Need to also check internal consistency of the analysis'
    /// beam requirements with those of the projections it uses.
  }

AnalysisHandler & handler

(

)

const [inherited]

Access the controlling AnalysisHandler object.

Definition at line 244 of file Analysis.cc.

References Analysis::_analysishandler.

Referenced by Analysis::analysisFactory(), Analysis::beamIds(), Analysis::beams(), Analysis::datapointsetFactory(), Analysis::histoDir(), Analysis::histogramFactory(), Analysis::numEvents(), Analysis::sqrtS(), Analysis::sumOfWeights(), and Analysis::tree().

                                           {
    return *_analysishandler;
  }

void normalize	(	AIDA::IHistogram1D *&	histo,
		double	norm = 1.0
	)			[inherited]

Normalize the given histogram, histo. After this call the histogram will have been transformed to a DataPointSet with the same name and path. It has the same effect as scale(histo, norm/sumOfWeights).

Parameters:

	histo	The histogram to be normalised.
	norm	The new area of the histogram.

Warning:

The old histogram will be deleted, and its pointer set to zero.

Definition at line 487 of file Analysis.cc.

References Log::ERROR, Analysis::getLog(), Analysis::name(), Analysis::scale(), Log::TRACE, Analysis::tree(), and Log::WARN.

Referenced by OPAL_1998_S3780481::finalize(), H1_1994_S2919893::finalize(), ExampleAnalysis::finalize(), DELPHI_2002_069_CONF_603::finalize(), DELPHI_1995_S3137023::finalize(), D0_2009_S8320160::finalize(), D0_2008_S7554427::finalize(), D0_2008_S6879055::finalize(), D0_2007_S7075677::finalize(), D0_2004_S5992206::finalize(), D0_2001_S4674421::finalize(), D0_1996_S3324664::finalize(), D0_1996_S3214044::finalize(), CDF_2007_S7057202::finalize(), CDF_2004_S5839831::finalize(), CDF_2002_S4796047::finalize(), CDF_2001_S4751469::finalize(), CDF_1997_S3541940::finalize(), CDF_1996_S3418421::finalize(), CDF_1996_S3349578::finalize(), CDF_1996_S3108457::finalize(), CDF_1994_S2952106::finalize(), ALEPH_2004_S5765862::finalize(), and ALEPH_1996_S3486095::finalize().

                                                                {
    if (!histo) {
      getLog() << Log::ERROR << "Failed to normalise histo=NULL in analysis "
               << name() << "(norm=" << norm << ")" << endl;
      return;
    }
    const string hpath = tree().findPath(dynamic_cast<const AIDA::IManagedObject&>(*histo));
    getLog() << Log::TRACE << "Normalizing histo " << hpath << " to " << norm << endl;
 
    double oldintg = 0.0;
    int nBins = histo->axis().bins();
    for (int iBin = 0; iBin != nBins; ++iBin) {
      // Leaving out factor of binWidth because AIDA's "height" already includes a width factor.
      oldintg += histo->binHeight(iBin); // * histo->axis().binWidth(iBin);
    }
    if (oldintg == 0.0) {
      getLog() << Log::WARN << "Histo " << hpath << " has null integral during normalisation" << endl;
      return;
    }

    // Scale by the normalisation factor.
    scale(histo, norm/oldintg);
  }

void scale	(	AIDA::IHistogram1D *&	histo,
		double	scale
	)			[inherited]

Multiplicatively scale the given histogram, histo. After this call the histogram will have been transformed to a DataPointSet with the same name and path.

Parameters:

	histo	The histogram to be scaled.
	scale	The factor used to multiply the histogram bin heights.

Warning:

The old histogram will be deleted, and its pointer set to zero.

Definition at line 512 of file Analysis.cc.

References Analysis::datapointsetFactory(), Log::ERROR, Analysis::getLog(), Analysis::name(), Log::TRACE, and Analysis::tree().

Referenced by UA5_1989_S1926373::finalize(), UA5_1986_S1583476::finalize(), UA5_1982_S875503::finalize(), UA1_1990_S2044935::finalize(), STAR_2006_S6870392::finalize(), STAR_2006_S6860818::finalize(), STAR_2006_S6500200::finalize(), SFM_1984_S1178091::finalize(), PDG_HADRON_MULTIPLICITIES_RATIOS::finalize(), PDG_HADRON_MULTIPLICITIES::finalize(), OPAL_2004_S6132243::finalize(), OPAL_1998_S3780481::finalize(), MC_ZJETS::finalize(), MC_WJETS::finalize(), MC_TTBAR::finalize(), MC_PHOTONJETS::finalize(), MC_JetAnalysis::finalize(), MC_DIPHOTON::finalize(), JADE_OPAL_2000_S4300807::finalize(), H1_2000_S4129130::finalize(), H1_1994_S2919893::finalize(), E735_1998_S3905616::finalize(), D0_2010_S8570965::finalize(), D0_2010_S8566488::finalize(), D0_2009_S8349509::finalize(), D0_2009_S8202443::finalize(), D0_2008_S7863608::finalize(), D0_2008_S7719523::finalize(), D0_2008_S7662670::finalize(), D0_2006_S6438750::finalize(), CDF_2009_S8436959::finalize(), CDF_2009_S8383952::finalize(), CDF_2009_S8233977::finalize(), CDF_2008_S8093652::finalize(), CDF_2008_S7828950::finalize(), CDF_2008_S7540469::finalize(), CDF_2006_S6450792::finalize(), CDF_2005_S6080774::finalize(), CDF_2001_S4563131::finalize(), CDF_2001_S4517016::finalize(), CDF_2000_S4266730::finalize(), CDF_2000_S4155203::finalize(), CDF_1998_S3618439::finalize(), CDF_1990_S2089246::finalize(), CDF_1988_S1865951::finalize(), ATLAS_2010_S8591806::finalize(), ALEPH_2004_S5765862::finalize(), ALEPH_1996_S3486095::finalize(), ALEPH_1996_S3196992::finalize(), ALEPH_1991_S2435284::finalize(), and Analysis::normalize().

                                                             {
    if (!histo) {
      getLog() << Log::ERROR << "Failed to scale histo=NULL in analysis "
          << name() << "(scale=" << scale << ")" << endl;
      return;
    }
    const string hpath = tree().findPath(dynamic_cast<const AIDA::IManagedObject&>(*histo));
    getLog() << Log::TRACE << "Scaling histo " << hpath << endl;
 
    vector<double> x, y, ex, ey;
    for (size_t i = 0, N = histo->axis().bins(); i < N; ++i) {
      x.push_back(0.5 * (histo->axis().binLowerEdge(i) + histo->axis().binUpperEdge(i)));
      ex.push_back(histo->axis().binWidth(i)*0.5);

      // "Bin height" is a misnomer in the AIDA spec: width is neglected.
      // We'd like to do this: y.push_back(histo->binHeight(i) * scale);
      y.push_back(histo->binHeight(i)*scale/histo->axis().binWidth(i));

      // "Bin error" is a misnomer in the AIDA spec: width is neglected.
      // We'd like to do this: ey.push_back(histo->binError(i) * scale);
      ey.push_back(histo->binError(i)*scale/(0.5*histo->axis().binWidth(i)));
    }
 
    string title = histo->title();
    string xtitle = histo->xtitle();
    string ytitle = histo->ytitle();

    tree().mkdir("/tmpnormalize");
    tree().mv(hpath, "/tmpnormalize");
 
    AIDA::IDataPointSet* dps = datapointsetFactory().createXY(hpath, title, x, y, ex, ey);
    dps->setXTitle(xtitle);
    dps->setYTitle(ytitle);
 
    tree().rm(tree().findPath(dynamic_cast<AIDA::IManagedObject&>(*histo)));
    tree().rmdir("/tmpnormalize");
 
    // Set histo pointer to null - it can no longer be used.
    histo = 0;
  }

Analysis & setCrossSection

(

double

xs

)

[inherited]

Set the cross section from the generator.

Definition at line 214 of file Analysis.cc.

References Analysis::_crossSection, and Analysis::_gotCrossSection.

Referenced by AnalysisHandler::setCrossSection().

                                               {
    _crossSection = xs;
    _gotCrossSection = true;
    return *this;
  }

bool needsCrossSection

(

)

const [inherited]

Return true if this analysis needs to know the process cross-section.

Definition at line 220 of file Analysis.cc.

References Analysis::_needsCrossSection.

Referenced by AnalysisHandler::needCrossSection().

                                         {
    return _needsCrossSection;
  }

Log & getLog

(

)

const [protected, inherited]

Get a Log object based on the name() property of the calling analysis object.

Reimplemented from ProjectionApplier.

Definition at line 106 of file Analysis.cc.

References Log::getLog(), and Analysis::name().

Referenced by Analysis::_cacheBinEdges(), Analysis::_cacheXAxisData(), CDF_2004_S5839831::_calcTransCones(), CDF_1996_S3349578::_fiveJetAnalysis(), CDF_1996_S3349578::_fourJetAnalysis(), D0_1996_S3214044::_safeMass(), CDF_1997_S3541940::_safeMass(), CDF_1996_S3349578::_safeMass(), CDF_1996_S3349578::_threeJetAnalysis(), ZEUS_2001_S4815815::analyze(), UA5_1986_S1583476::analyze(), UA1_1990_S2044935::analyze(), STAR_2009_UE_HELEN::analyze(), STAR_2008_S7993412::analyze(), STAR_2006_S6870392::analyze(), STAR_2006_S6860818::analyze(), STAR_2006_S6500200::analyze(), SFM_1984_S1178091::analyze(), PDG_HADRON_MULTIPLICITIES_RATIOS::analyze(), PDG_HADRON_MULTIPLICITIES::analyze(), OPAL_1998_S3780481::analyze(), MC_SUSY::analyze(), MC_PHOTONJETUE::analyze(), MC_LEADINGJETS::analyze(), JADE_OPAL_2000_S4300807::analyze(), H1_1994_S2919893::analyze(), ExampleAnalysis::analyze(), DELPHI_2002_069_CONF_603::analyze(), DELPHI_1995_S3137023::analyze(), D0_2009_S8349509::analyze(), D0_2009_S8202443::analyze(), D0_2008_S7863608::analyze(), D0_2008_S7837160::analyze(), D0_2008_S7719523::analyze(), D0_2008_S7662670::analyze(), D0_2008_S7554427::analyze(), D0_2008_S6879055::analyze(), D0_2007_S7075677::analyze(), D0_2006_S6438750::analyze(), D0_2004_S5992206::analyze(), D0_2001_S4674421::analyze(), D0_1998_S3711838::analyze(), CDF_2009_S8383952::analyze(), CDF_2009_S8233977::analyze(), CDF_2008_S8095620::analyze(), CDF_2008_S7782535::analyze(), CDF_2008_S7540469::analyze(), CDF_2008_NOTE_9351::analyze(), CDF_2008_LEADINGJETS::analyze(), CDF_2006_S6653332::analyze(), CDF_2005_S6217184::analyze(), CDF_2004_S5839831::analyze(), CDF_2001_S4751469::analyze(), CDF_2000_S4155203::analyze(), CDF_1994_S2952106::analyze(), CDF_1991_S2313472::analyze(), BELLE_2006_S6265367::analyze(), ALEPH_1996_S3486095::analyze(), ALEPH_1991_S2435284::analyze(), CDF_2009_S8057893::CDF_2009_S8057893::analyze(), UA5_1986_S1583476::finalize(), UA1_1990_S2044935::finalize(), STAR_2006_S6860818::finalize(), STAR_2006_S6500200::finalize(), D0_2001_S4674421::finalize(), CDF_2009_S8233977::finalize(), CDF_2007_S7057202::finalize(), CDF_2006_S6653332::finalize(), ZEUS_2001_S4815815::init(), JADE_OPAL_2000_S4300807::init(), ALEPH_2004_S5765862::init(), Analysis::normalize(), and Analysis::scale().

                              {
    string logname = "Rivet.Analysis." + name();
    return Log::getLog(logname);
  }

double crossSection

(

)

const [protected, inherited]

Get the process cross-section in pb. Throws if this hasn't been set.

Definition at line 229 of file Analysis.cc.

References Analysis::_crossSection, Analysis::_gotCrossSection, and Analysis::name().

Referenced by STAR_2006_S6870392::finalize(), MC_ZJETS::finalize(), MC_WJETS::finalize(), MC_JetAnalysis::finalize(), MC_DIPHOTON::finalize(), D0_2010_S8570965::finalize(), D0_2010_S8566488::finalize(), D0_2008_S7863608::finalize(), D0_2008_S7719523::finalize(), D0_2008_S7662670::finalize(), D0_2006_S6438750::finalize(), CDF_2009_S8436959::finalize(), CDF_2009_S8383952::finalize(), CDF_2009_S8233977::finalize(), CDF_2008_S8093652::finalize(), CDF_2008_S7828950::finalize(), CDF_2008_S7541902::finalize(), CDF_2008_S7540469::finalize(), CDF_2007_S7057202::finalize(), CDF_2006_S6653332::finalize(), CDF_2006_S6450792::finalize(), CDF_2005_S6080774::finalize(), CDF_2001_S4563131::finalize(), CDF_2001_S4517016::finalize(), CDF_2000_S4266730::finalize(), CDF_2000_S4155203::finalize(), and CDF_1998_S3618439::finalize().

                                      {
    if (!_gotCrossSection || _crossSection < 0) {
      string errMsg = "You did not set the cross section for the analysis " + name();
      throw Error(errMsg);
    }
    return _crossSection;
  }

double crossSectionPerEvent

(

)

const [protected, inherited]

Get the process cross-section per generated event in pb. Throws if this hasn't been set.

Definition at line 237 of file Analysis.cc.

References Analysis::_crossSection, and Analysis::sumOfWeights().

Referenced by UA1_1990_S2044935::finalize(), MC_PHOTONJETS::finalize(), D0_2001_S4674421::finalize(), CDF_2007_S7057202::finalize(), and CDF_1988_S1865951::finalize().

                                              {
    const double sumW = sumOfWeights();
    assert(sumW > 0);
    return _crossSection / sumW;
  }

size_t numEvents

(

)

const [protected, inherited]

Get the number of events seen (via the analysis handler). Use in the finalize phase only.

Definition at line 112 of file Analysis.cc.

References Analysis::handler(), and AnalysisHandler::numEvents().

                                   {
    return handler().numEvents();
  }

double sumOfWeights

(

)

const [protected, inherited]

Get the sum of event weights seen (via the analysis handler). Use in the finalize phase only.

Definition at line 117 of file Analysis.cc.

References Analysis::handler(), and AnalysisHandler::sumOfWeights().

Referenced by Analysis::crossSectionPerEvent(), STAR_2006_S6870392::finalize(), STAR_2006_S6860818::finalize(), STAR_2006_S6500200::finalize(), PDG_HADRON_MULTIPLICITIES::finalize(), OPAL_1998_S3780481::finalize(), MC_ZJETS::finalize(), MC_WJETS::finalize(), MC_TTBAR::finalize(), MC_JetAnalysis::finalize(), MC_DIPHOTON::finalize(), JADE_OPAL_2000_S4300807::finalize(), DELPHI_1995_S3137023::finalize(), D0_2010_S8570965::finalize(), D0_2010_S8566488::finalize(), D0_2008_S7863608::finalize(), D0_2008_S7719523::finalize(), D0_2008_S7662670::finalize(), D0_2006_S6438750::finalize(), CDF_2009_S8436959::finalize(), CDF_2009_S8383952::finalize(), CDF_2009_S8233977::finalize(), CDF_2008_S8093652::finalize(), CDF_2008_S7828950::finalize(), CDF_2008_S7541902::finalize(), CDF_2008_S7540469::finalize(), CDF_2006_S6653332::finalize(), CDF_2006_S6450792::finalize(), CDF_2005_S6080774::finalize(), CDF_2001_S4563131::finalize(), CDF_2001_S4517016::finalize(), CDF_2000_S4266730::finalize(), CDF_1998_S3618439::finalize(), ALEPH_2004_S5765862::finalize(), ALEPH_1996_S3486095::finalize(), ALEPH_1996_S3196992::finalize(), and ALEPH_1991_S2435284::finalize().

                                      {
    return handler().sumOfWeights();
  }

IAnalysisFactory & analysisFactory

(

)

[protected, inherited]

Access the AIDA analysis factory of the controlling AnalysisHandler object.

Definition at line 55 of file Analysis.cc.

References AnalysisHandler::analysisFactory(), and Analysis::handler().

                                              {
    return handler().analysisFactory();
  }

ITree & tree

(

)

[protected, inherited]

Access the AIDA tree of the controlling AnalysisHandler object.

Definition at line 60 of file Analysis.cc.

References Analysis::handler(), and AnalysisHandler::tree().

Referenced by Analysis::_makeHistoDir(), Analysis::normalize(), and Analysis::scale().

                        {
    return handler().tree();
  }

IHistogramFactory & histogramFactory

(

)

[protected, inherited]

Access the AIDA histogram factory of the controlling AnalysisHandler object.

Definition at line 65 of file Analysis.cc.

References Analysis::handler(), and AnalysisHandler::histogramFactory().

Referenced by STAR_2006_S6860818::finalize(), STAR_2006_S6500200::finalize(), H1_1995_S3167097::finalize(), D0_2008_S7837160::finalize(), D0_2008_S7719523::finalize(), and D0_2001_S4674421::finalize().

                                                {
    return handler().histogramFactory();
  }

IDataPointSetFactory & datapointsetFactory

(

)

[protected, inherited]

Access the AIDA histogram factory of the controlling AnalysisHandler object.

Definition at line 70 of file Analysis.cc.

References AnalysisHandler::datapointsetFactory(), and Analysis::handler().

Referenced by Analysis::scale().

                                                      {
    return handler().datapointsetFactory();
  }

const string histoDir

(

)

const [protected, inherited]

Get the canonical histogram "directory" path for this analysis.

Definition at line 88 of file Analysis.cc.

References Analysis::handler(), Analysis::name(), and AnalysisHandler::runName().

Referenced by Analysis::_makeHistoDir(), STAR_2006_S6860818::finalize(), STAR_2006_S6500200::finalize(), D0_2008_S7837160::finalize(), D0_2008_S7719523::finalize(), and D0_2001_S4674421::finalize().

                                        {
    string path = "/" + name();
    if (handler().runName().length() > 0) {
      path = "/" + handler().runName() + path;
    }
    while (find_first(path, "//")) {
      replace_all(path, "//", "/");
    }
    return path;
  }

const std::string histoPath

(

const std::string &

hname

)

const [protected, inherited]

Get the canonical histogram path for the named histogram in this analysis.

const BinEdges& binEdges

(

const std::string &

hname

)

const [protected, inherited]

Get bin edges for a named histo (using ref AIDA caching).

Referenced by Analysis::binEdges(), and D0_2008_S7837160::init().

const BinEdges & binEdges	(	size_t	datasetId,
		size_t	xAxisId,
		size_t	yAxisId
	)			const [protected, inherited]

Get bin edges for a numbered histo (using ref AIDA caching).

Definition at line 286 of file Analysis.cc.

References Analysis::binEdges(), and Rivet::makeAxisCode().

                                                                                           {
    const string hname = makeAxisCode(datasetId, xAxisId, yAxisId);
    return binEdges(hname);
  }

BinEdges logBinEdges	(	size_t	nbins,
		double	lower,
		double	upper
	)			[protected, inherited]

Get bin edges with logarithmic widths.

Definition at line 292 of file Analysis.cc.

Referenced by MC_ZJETS::init(), MC_WJETS::init(), MC_PHOTONJETS::init(), MC_JetAnalysis::init(), and MC_DIPHOTON::init().

                                                                         {
    assert(lower>0.0);
    assert(upper>lower);
    double loglower=log10(lower);
    double logupper=log10(upper);
    vector<double> binedges;
    double stepwidth=(logupper-loglower)/double(nbins);
    for (size_t i=0; i<=nbins; ++i) {
      binedges.push_back(pow(10.0, loglower+double(i)*stepwidth));
    }
    return binedges;
  }

AIDA::IHistogram1D* bookHistogram1D	(	const std::string &	name,
		size_t	nbins,
		double	lower,
		double	upper,
		const std::string &	title = "",
		const std::string &	xtitle = "",
		const std::string &	ytitle = ""
	)			[protected, inherited]

Book a 1D histogram with nbins uniformly distributed across the range lower - upper . (NB. this returns a pointer rather than a reference since it will have to be stored in the analysis class - there's no point in forcing users to explicitly get the pointer from a reference before they can use it!)

Referenced by ZEUS_2001_S4815815::init(), UA5_1989_S1926373::init(), UA5_1986_S1583476::init(), UA5_1982_S875503::init(), UA1_1990_S2044935::init(), STAR_2006_S6870392::init(), STAR_2006_S6860818::init(), STAR_2006_S6500200::init(), SFM_1984_S1178091::init(), PDG_HADRON_MULTIPLICITIES_RATIOS::init(), PDG_HADRON_MULTIPLICITIES::init(), OPAL_2004_S6132243::init(), OPAL_1998_S3780481::init(), MC_ZJETS::init(), MC_WJETS::init(), MC_TTBAR::init(), MC_SUSY::init(), MC_PHOTONJETUE::init(), MC_PHOTONJETS::init(), MC_JetAnalysis::init(), MC_DIPHOTON::init(), MC_DIJET::init(), JADE_OPAL_2000_S4300807::init(), H1_2000_S4129130::init(), H1_1995_S3167097::init(), H1_1994_S2919893::init(), ExampleAnalysis::init(), E735_1998_S3905616::init(), DELPHI_2002_069_CONF_603::init(), DELPHI_1995_S3137023::init(), D0_2010_S8570965::init(), D0_2010_S8566488::init(), D0_2009_S8349509::init(), D0_2009_S8320160::init(), D0_2009_S8202443::init(), D0_2008_S7863608::init(), D0_2008_S7837160::init(), D0_2008_S7719523::init(), D0_2008_S7662670::init(), D0_2008_S7554427::init(), D0_2008_S6879055::init(), D0_2007_S7075677::init(), D0_2006_S6438750::init(), D0_2004_S5992206::init(), D0_2001_S4674421::init(), D0_1998_S3711838::init(), D0_1996_S3324664::init(), D0_1996_S3214044::init(), CDF_2009_S8436959::init(), CDF_2009_S8383952::init(), CDF_2009_S8233977::init(), CDF_2008_S8095620::init(), CDF_2008_S8093652::init(), CDF_2008_S7828950::init(), CDF_2008_S7541902::init(), CDF_2008_S7540469::init(), CDF_2007_S7057202::init(), CDF_2006_S6653332::init(), CDF_2006_S6450792::init(), CDF_2005_S6080774::init(), CDF_2004_S5839831::init(), CDF_2002_S4796047::init(), CDF_2001_S4751469::init(), CDF_2001_S4563131::init(), CDF_2001_S4517016::init(), CDF_2000_S4266730::init(), CDF_2000_S4155203::init(), CDF_1998_S3618439::init(), CDF_1997_S3541940::init(), CDF_1996_S3418421::init(), CDF_1996_S3349578::init(), CDF_1996_S3108457::init(), CDF_1994_S2952106::init(), CDF_1991_S2313472::init(), CDF_1990_S2089246::init(), CDF_1988_S1865951::init(), BELLE_2006_S6265367::init(), ATLAS_2010_S8591806::init(), ALEPH_2004_S5765862::init(), ALEPH_1996_S3486095::init(), ALEPH_1996_S3196992::init(), and ALEPH_1991_S2435284::init().

AIDA::IHistogram1D* bookHistogram1D	(	const std::string &	name,
		const std::vector< double > &	binedges,
		const std::string &	title = "",
		const std::string &	xtitle = "",
		const std::string &	ytitle = ""
	)			[protected, inherited]

Book a 1D histogram with non-uniform bins defined by the vector of bin edges binedges . (NB. this returns a pointer rather than a reference since it will have to be stored in the analysis class - there's no point in forcing users to explicitly get the pointer from a reference before they can use it!)

AIDA::IHistogram1D* bookHistogram1D	(	const std::string &	name,
		const std::string &	title = "",
		const std::string &	xtitle = "",
		const std::string &	ytitle = ""
	)			[protected, inherited]

Book a 1D histogram based on the name in the corresponding AIDA file. The binnings will be obtained by reading the bundled AIDA data record file with the same filename as the analysis' name() property.

AIDA::IHistogram1D* bookHistogram1D	(	size_t	datasetId,
		size_t	xAxisId,
		size_t	yAxisId,
		const std::string &	title = "",
		const std::string &	xtitle = "",
		const std::string &	ytitle = ""
	)			[protected, inherited]

Book a 1D histogram based on the paper, dataset and x/y-axis IDs in the corresponding HepData record. The binnings will be obtained by reading the bundled AIDA data record file of the same filename as the analysis' name() property.

AIDA::IProfile1D* bookProfile1D	(	const std::string &	name,
		size_t	nbins,
		double	lower,
		double	upper,
		const std::string &	title = "",
		const std::string &	xtitle = "",
		const std::string &	ytitle = ""
	)			[protected, inherited]

Book a 1D profile histogram with nbins uniformly distributed across the range lower - upper . (NB. this returns a pointer rather than a reference since it will have to be stored in the analysis class - there's no point in forcing users to explicitly get the pointer from a reference before they can use it!)

Referenced by UA5_1988_S1867512::init(), UA1_1990_S2044935::init(), STAR_2009_UE_HELEN::init(), STAR_2008_S7993412::init(), STAR_2006_S6860818::init(), MC_PHOTONJETUE::init(), MC_LEADINGJETS::init(), H1_2000_S4129130::init(), H1_1994_S2919893::init(), DELPHI_2002_069_CONF_603::init(), D0_1996_S3324664::init(), CDF_2009_S8233977::init(), CDF_2008_S7782535::init(), CDF_2008_NOTE_9351::init(), CDF_2008_LEADINGJETS::init(), CDF_2005_S6217184::init(), CDF_2004_S5839831::init(), CDF_2002_S4796047::init(), CDF_2001_S4751469::init(), and ATLAS_2010_S8591806::init().

AIDA::IProfile1D* bookProfile1D	(	const std::string &	name,
		const std::vector< double > &	binedges,
		const std::string &	title = "",
		const std::string &	xtitle = "",
		const std::string &	ytitle = ""
	)			[protected, inherited]

Book a 1D profile histogram with non-uniform bins defined by the vector of bin edges binedges . (NB. this returns a pointer rather than a reference since it will have to be stored in the analysis class - there's no point in forcing users to explicitly get the pointer from a reference before they can use it!)

AIDA::IProfile1D* bookProfile1D	(	const std::string &	name,
		const std::string &	title = "",
		const std::string &	xtitle = "",
		const std::string &	ytitle = ""
	)			[protected, inherited]

Book a 1D profile histogram based on the name in the corresponding AIDA file. The binnings will be obtained by reading the bundled AIDA data record file with the same filename as the analysis' name() property.

AIDA::IProfile1D* bookProfile1D	(	size_t	datasetId,
		size_t	xAxisId,
		size_t	yAxisId,
		const std::string &	title = "",
		const std::string &	xtitle = "",
		const std::string &	ytitle = ""
	)			[protected, inherited]

Book a 1D profile histogram based on the paper, dataset and x/y-axis IDs in the corresponding HepData record. The binnings will be obtained by reading the bundled AIDA data record file of the same filename as the analysis' name() property.

AIDA::IDataPointSet* bookDataPointSet	(	const std::string &	name,
		const std::string &	title = "",
		const std::string &	xtitle = "",
		const std::string &	ytitle = ""
	)			[protected, inherited]

Book a 2-dimensional data point set. (NB. this returns a pointer rather than a reference since it will have to be stored in the analysis class - there's no point in forcing users to explicitly get the pointer from a reference before they can use it!)

Referenced by STAR_2006_S6860818::init(), MC_JetAnalysis::init(), JADE_OPAL_2000_S4300807::init(), CDF_2008_S7782535::init(), CDF_2008_S7541902::init(), CDF_1996_S3418421::init(), and ALEPH_2004_S5765862::init().

AIDA::IDataPointSet* bookDataPointSet	(	const std::string &	name,
		size_t	npts,
		double	lower,
		double	upper,
		const std::string &	title = "",
		const std::string &	xtitle = "",
		const std::string &	ytitle = ""
	)			[protected, inherited]

Book a 2-dimensional data point set with equally spaced points in a range. (NB. this returns a pointer rather than a reference since it will have to be stored in the analysis class - there's no point in forcing users to explicitly get the pointer from a reference before they can use it!)

AIDA::IDataPointSet* bookDataPointSet	(	size_t	datasetId,
		size_t	xAxisId,
		size_t	yAxisId,
		const std::string &	title = "",
		const std::string &	xtitle = "",
		const std::string &	ytitle = ""
	)			[protected, inherited]

Book a 2-dimensional data point set based on the corresponding AIDA data file. The binnings (x-errors) will be obtained by reading the bundled AIDA data record file of the same filename as the analysis' name() property. Book a 2-dimensional data point set based on the paper, dataset and x/y-axis IDs in the corresponding HepData record. The binnings (x-errors) will be obtained by reading the bundled AIDA data record file of the same filename as the analysis' name() property.

Analysis & setBeams	(	const ParticleName &	beam1,
		const ParticleName &	beam2
	)			[protected, inherited]

Set the colliding beam pair.

Deprecated:

Use .info file and AnalysisInfo class instead

Definition at line 193 of file Analysis.cc.

References Analysis::_info.

Referenced by ALEPH_1991_S2435284::ALEPH_1991_S2435284(), ALEPH_1996_S3196992::ALEPH_1996_S3196992(), ALEPH_1996_S3486095::ALEPH_1996_S3486095(), ALEPH_2004_S5765862::ALEPH_2004_S5765862(), BELLE_2006_S6265367::BELLE_2006_S6265367(), CDF_1988_S1865951::CDF_1988_S1865951(), CDF_1990_S2089246::CDF_1990_S2089246(), CDF_1991_S2313472::CDF_1991_S2313472(), CDF_1994_S2952106::CDF_1994_S2952106(), CDF_1996_S3108457::CDF_1996_S3108457(), CDF_1996_S3349578::CDF_1996_S3349578(), CDF_1996_S3418421::CDF_1996_S3418421(), CDF_1997_S3541940::CDF_1997_S3541940(), CDF_1998_S3618439::CDF_1998_S3618439(), CDF_2000_S4155203::CDF_2000_S4155203(), CDF_2000_S4266730::CDF_2000_S4266730(), CDF_2001_S4517016::CDF_2001_S4517016(), CDF_2001_S4563131::CDF_2001_S4563131(), CDF_2001_S4751469::CDF_2001_S4751469(), CDF_2002_S4796047::CDF_2002_S4796047(), CDF_2004_S5839831::CDF_2004_S5839831(), CDF_2005_S6080774::CDF_2005_S6080774(), CDF_2005_S6217184::CDF_2005_S6217184(), CDF_2006_S6450792::CDF_2006_S6450792(), CDF_2006_S6653332::CDF_2006_S6653332(), CDF_2007_S7057202::CDF_2007_S7057202(), CDF_2008_LEADINGJETS::CDF_2008_LEADINGJETS(), CDF_2008_NOTE_9351::CDF_2008_NOTE_9351(), CDF_2008_S7540469::CDF_2008_S7540469(), CDF_2008_S7541902::CDF_2008_S7541902(), CDF_2008_S7782535::CDF_2008_S7782535(), CDF_2008_S7828950::CDF_2008_S7828950(), CDF_2008_S8093652::CDF_2008_S8093652(), CDF_2008_S8095620::CDF_2008_S8095620(), CDF_2009_S8057893::CDF_2009_S8057893::CDF_2009_S8057893(), CDF_2009_S8233977::CDF_2009_S8233977(), CDF_2009_S8383952::CDF_2009_S8383952(), CDF_2009_S8436959::CDF_2009_S8436959(), D0_1996_S3214044::D0_1996_S3214044(), D0_1996_S3324664::D0_1996_S3324664(), D0_1998_S3711838::D0_1998_S3711838(), D0_2001_S4674421::D0_2001_S4674421(), D0_2004_S5992206::D0_2004_S5992206(), D0_2006_S6438750::D0_2006_S6438750(), D0_2007_S7075677::D0_2007_S7075677(), D0_2008_S6879055::D0_2008_S6879055(), D0_2008_S7554427::D0_2008_S7554427(), D0_2008_S7662670::D0_2008_S7662670(), D0_2008_S7719523::D0_2008_S7719523(), D0_2008_S7837160::D0_2008_S7837160(), D0_2008_S7863608::D0_2008_S7863608(), D0_2009_S8202443::D0_2009_S8202443(), D0_2009_S8320160::D0_2009_S8320160(), D0_2009_S8349509::D0_2009_S8349509(), D0_2010_S8566488::D0_2010_S8566488(), D0_2010_S8570965::D0_2010_S8570965(), DELPHI_1995_S3137023::DELPHI_1995_S3137023(), DELPHI_2002_069_CONF_603::DELPHI_2002_069_CONF_603(), E735_1998_S3905616::E735_1998_S3905616(), H1_1994_S2919893::H1_1994_S2919893(), H1_1995_S3167097::H1_1995_S3167097(), H1_2000_S4129130::H1_2000_S4129130(), JADE_OPAL_2000_S4300807::JADE_OPAL_2000_S4300807(), OPAL_1998_S3780481::OPAL_1998_S3780481(), PDG_HADRON_MULTIPLICITIES::PDG_HADRON_MULTIPLICITIES(), PDG_HADRON_MULTIPLICITIES_RATIOS::PDG_HADRON_MULTIPLICITIES_RATIOS(), SFM_1984_S1178091::SFM_1984_S1178091(), STAR_2006_S6500200::STAR_2006_S6500200(), STAR_2006_S6860818::STAR_2006_S6860818(), STAR_2006_S6870392::STAR_2006_S6870392(), STAR_2008_S7993412::STAR_2008_S7993412(), STAR_2009_UE_HELEN::STAR_2009_UE_HELEN(), UA1_1990_S2044935::UA1_1990_S2044935(), UA5_1986_S1583476::UA5_1986_S1583476(), UA5_1988_S1867512::UA5_1988_S1867512(), UA5_1989_S1926373::UA5_1989_S1926373(), and ZEUS_2001_S4815815::ZEUS_2001_S4815815().

                                                                                   {
    assert(_info.get() != 0);
    _info->_beams = make_pair(beam1, beam2);
    return *this;
  }

Analysis & setNeedsCrossSection

(

bool

needed

)

[protected, inherited]

Declare whether this analysis needs to know the process cross-section from the generator.

Definition at line 224 of file Analysis.cc.

References Analysis::_needsCrossSection.

Referenced by ATLAS_2010_S8591806::ATLAS_2010_S8591806(), CDF_1991_S2313472::CDF_1991_S2313472(), CDF_1996_S3108457::CDF_1996_S3108457(), CDF_1998_S3618439::CDF_1998_S3618439(), CDF_2000_S4155203::CDF_2000_S4155203(), CDF_2000_S4266730::CDF_2000_S4266730(), CDF_2001_S4517016::CDF_2001_S4517016(), CDF_2001_S4563131::CDF_2001_S4563131(), CDF_2005_S6080774::CDF_2005_S6080774(), CDF_2006_S6450792::CDF_2006_S6450792(), CDF_2006_S6653332::CDF_2006_S6653332(), CDF_2007_S7057202::CDF_2007_S7057202(), CDF_2008_S7540469::CDF_2008_S7540469(), CDF_2008_S7541902::CDF_2008_S7541902(), CDF_2008_S7828950::CDF_2008_S7828950(), CDF_2008_S8093652::CDF_2008_S8093652(), CDF_2009_S8233977::CDF_2009_S8233977(), CDF_2009_S8383952::CDF_2009_S8383952(), CDF_2009_S8436959::CDF_2009_S8436959(), D0_1996_S3214044::D0_1996_S3214044(), D0_1996_S3324664::D0_1996_S3324664(), D0_1998_S3711838::D0_1998_S3711838(), D0_2001_S4674421::D0_2001_S4674421(), D0_2006_S6438750::D0_2006_S6438750(), D0_2008_S7662670::D0_2008_S7662670(), D0_2008_S7719523::D0_2008_S7719523(), D0_2008_S7863608::D0_2008_S7863608(), D0_2010_S8566488::D0_2010_S8566488(), D0_2010_S8570965::D0_2010_S8570965(), MC_DIPHOTON::MC_DIPHOTON(), MC_JetAnalysis::MC_JetAnalysis(), MC_JETS::MC_JETS(), MC_PHOTONJETS::MC_PHOTONJETS(), MC_WJETS::MC_WJETS(), MC_ZJETS::MC_ZJETS(), STAR_2006_S6870392::STAR_2006_S6870392(), and UA1_1990_S2044935::UA1_1990_S2044935().

                                                      {
    _needsCrossSection = needed;
    return *this;
  }

std::set<ConstProjectionPtr> getProjections

(

)

const [inline, inherited]

Get the contained projections, including recursion.

Definition at line 43 of file ProjectionApplier.hh.

References ProjectionHandler::DEEP, ProjectionHandler::getChildProjections(), and ProjectionApplier::getProjHandler().

Referenced by Projection::beamPairs().

                                                      {
      return getProjHandler().getChildProjections(*this, ProjectionHandler::DEEP);
    }

const PROJ& getProjection

(

const std::string &

name

)

const [inline, inherited]

Get the named projection, specifying return type via a template argument.

Definition at line 50 of file ProjectionApplier.hh.

References ProjectionHandler::getProjection(), and ProjectionApplier::getProjHandler().

Referenced by VetoedFinalState::compare(), Rivet::pcmp(), and Hemispheres::project().

                                                           {
      const Projection& p = getProjHandler().getProjection(*this, name);
      return pcast<PROJ>(p);
    }

const Projection& getProjection

(

const std::string &

name

)

const [inline, inherited]

Get the named projection (non-templated, so returns as a reference to a Projection base class).

Definition at line 58 of file ProjectionApplier.hh.

References ProjectionHandler::getProjection(), and ProjectionApplier::getProjHandler().

                                                                 {
      return getProjHandler().getProjection(*this, name);
    }

const PROJ& applyProjection	(	const Event &	evt,
		const PROJ &	proj
	)			const [inline, inherited]

Apply the supplied projection on event.

Definition at line 68 of file ProjectionApplier.hh.

References ProjectionApplier::_applyProjection().

Referenced by HadronicFinalState::project(), and FinalStateHCM::project().

                                                                          {
      return pcast<PROJ>(_applyProjection(evt, proj));
    }

const PROJ& applyProjection	(	const Event &	evt,
		const Projection &	proj
	)			const [inline, inherited]

Apply the supplied projection on event.

Definition at line 75 of file ProjectionApplier.hh.

References ProjectionApplier::_applyProjection().

                                                                                {
      return pcast<PROJ>(_applyProjection(evt, proj));
    }

const PROJ& applyProjection	(	const Event &	evt,
		const std::string &	name
	)			const [inline, inherited]

Apply the named projection on event.

Definition at line 82 of file ProjectionApplier.hh.

References ProjectionApplier::_applyProjection().

                                                                               {
      return pcast<PROJ>(_applyProjection(evt, name));
    }

ProjectionHandler& getProjHandler

(

)

const [inline, protected, inherited]

Get a reference to the ProjectionHandler for this thread.

Definition at line 95 of file ProjectionApplier.hh.

References ProjectionApplier::_projhandler.

Referenced by ProjectionApplier::_addProjection(), ProjectionApplier::getProjection(), ProjectionApplier::getProjections(), and ProjectionApplier::~ProjectionApplier().

                                              {
      assert(_projhandler);
      return *_projhandler;
    }

const PROJ& addProjection	(	const PROJ &	proj,
		const std::string &	name
	)			[inline, protected, inherited]

Register a contained projection. The type of the argument is used to instantiate a new projection internally: this new object is applied to events rather than the argument object. Hence you are advised to only use locally-scoped Projection objects in your Projection and Analysis constructors, and to avoid polymorphism (e.g. handling ConcreteProjection via a pointer or reference to type Projection) since this will screw up the internal type management.

Definition at line 115 of file ProjectionApplier.hh.

References ProjectionApplier::_addProjection().

Referenced by ZFinder::_init(), WFinder::_init(), VetoedFinalState::addVetoOnThisFinalState(), CDF_2009_S8057893::CDF_2009_S8057893::init(), CentralEtHCM::CentralEtHCM(), ChargedFinalState::ChargedFinalState(), ChargedLeptons::ChargedLeptons(), ClusteredPhotons::ClusteredPhotons(), DISKinematics::DISKinematics(), DISLepton::DISLepton(), FinalState::FinalState(), FinalStateHCM::FinalStateHCM(), FoxWolframMoments::FoxWolframMoments(), HadronicFinalState::HadronicFinalState(), Hemispheres::Hemispheres(), IdentifiedFinalState::IdentifiedFinalState(), ZEUS_2001_S4815815::init(), UA5_1989_S1926373::init(), UA5_1988_S1867512::init(), UA5_1986_S1583476::init(), UA5_1982_S875503::init(), UA1_1990_S2044935::init(), STAR_2009_UE_HELEN::init(), STAR_2008_S7993412::init(), STAR_2006_S6870392::init(), STAR_2006_S6860818::init(), STAR_2006_S6500200::init(), SFM_1984_S1178091::init(), PDG_HADRON_MULTIPLICITIES_RATIOS::init(), PDG_HADRON_MULTIPLICITIES::init(), OPAL_2004_S6132243::init(), OPAL_1998_S3780481::init(), MC_ZJETS::init(), MC_WJETS::init(), MC_TTBAR::init(), MC_SUSY::init(), MC_PHOTONJETUE::init(), MC_PHOTONJETS::init(), MC_LEADINGJETS::init(), MC_JETS::init(), MC_DIPHOTON::init(), MC_DIJET::init(), JADE_OPAL_2000_S4300807::init(), H1_2000_S4129130::init(), H1_1995_S3167097::init(), H1_1994_S2919893::init(), ExampleAnalysis::init(), E735_1998_S3905616::init(), DELPHI_2002_069_CONF_603::init(), DELPHI_1995_S3137023::init(), D0_2010_S8570965::init(), D0_2010_S8566488::init(), D0_2009_S8349509::init(), D0_2009_S8320160::init(), D0_2009_S8202443::init(), D0_2008_S7863608::init(), D0_2008_S7837160::init(), D0_2008_S7719523::init(), D0_2008_S7662670::init(), D0_2008_S7554427::init(), D0_2008_S6879055::init(), D0_2007_S7075677::init(), D0_2006_S6438750::init(), D0_2004_S5992206::init(), D0_2001_S4674421::init(), D0_1998_S3711838::init(), D0_1996_S3324664::init(), D0_1996_S3214044::init(), CDF_2009_S8436959::init(), CDF_2009_S8383952::init(), CDF_2009_S8233977::init(), CDF_2008_S8095620::init(), CDF_2008_S8093652::init(), CDF_2008_S7828950::init(), CDF_2008_S7782535::init(), CDF_2008_S7541902::init(), CDF_2008_S7540469::init(), CDF_2008_NOTE_9351::init(), CDF_2008_LEADINGJETS::init(), CDF_2007_S7057202::init(), CDF_2006_S6653332::init(), CDF_2006_S6450792::init(), CDF_2005_S6217184::init(), CDF_2005_S6080774::init(), CDF_2004_S5839831::init(), CDF_2002_S4796047::init(), CDF_2001_S4751469::init(), CDF_2001_S4563131::init(), CDF_2001_S4517016::init(), CDF_2000_S4266730::init(), CDF_2000_S4155203::init(), CDF_1998_S3618439::init(), CDF_1997_S3541940::init(), CDF_1996_S3418421::init(), CDF_1996_S3349578::init(), CDF_1996_S3108457::init(), CDF_1994_S2952106::init(), CDF_1991_S2313472::init(), CDF_1990_S2089246::init(), CDF_1988_S1865951::init(), BELLE_2006_S6265367::init(), ATLAS_2010_S8591806::init(), ALEPH_2004_S5765862::init(), ALEPH_1996_S3486095::init(), ALEPH_1996_S3196992::init(), ALEPH_1991_S2435284::init(), IsolationProjection::IsolationProjection(), JetAlg::JetAlg(), JetShape::JetShape(), KtJets::KtJets(), LeadingParticlesFinalState::LeadingParticlesFinalState(), LossyFinalState::LossyFinalState(), MergedFinalState::MergedFinalState(), Multiplicity::Multiplicity(), NeutralFinalState::NeutralFinalState(), ParisiTensor::ParisiTensor(), Sphericity::Sphericity(), SVertex::SVertex(), Thrust::Thrust(), TotalVisibleMomentum::TotalVisibleMomentum(), TriggerCDFRun0Run1::TriggerCDFRun0Run1(), TriggerUA5::TriggerUA5(), and VetoedFinalState::VetoedFinalState().

                                                                       {
      const Projection& reg = _addProjection(proj, name);
      return dynamic_cast<const PROJ&>(reg);
    }

const Projection & _addProjection	(	const Projection &	proj,
		const std::string &	name
	)			[protected, inherited]

Untemplated function to do the work...

Definition at line 33 of file ProjectionApplier.cc.

References ProjectionApplier::_allowProjReg, Log::ERROR, ProjectionApplier::getLog(), ProjectionApplier::getProjHandler(), ProjectionApplier::name(), Projection::name(), and ProjectionHandler::registerProjection().

Referenced by ProjectionApplier::addProjection().

                                                                             {
    if (!_allowProjReg) {
      getLog() << Log::ERROR << "Trying to register projection '"
               << proj.name() << "' before init phase in '" << this->name() << "'." << endl;
      exit(2);
    }
    const Projection& reg = getProjHandler().registerProjection(*this, proj, name);
    return reg;
  }

---

Friends And Related Function Documentation

friend class Projectionhandler [friend, inherited]

Definition at line 23 of file ProjectionApplier.hh.

---

Member Data Documentation

double _electronETCut [private]

Cut on the electron ET:.

Definition at line 177 of file CDF_2008_S7541902.cc.

Referenced by CDF_2008_S7541902::analyze().

double _electronETACut [private]

Cut on the electron ETA:.

Definition at line 179 of file CDF_2008_S7541902.cc.

Referenced by CDF_2008_S7541902::analyze().

double _eTmissCut [private]

Cut on the missing ET.

Definition at line 181 of file CDF_2008_S7541902.cc.

Referenced by CDF_2008_S7541902::analyze().

double _mTCut [private]

Cut on the transverse mass squared.

Definition at line 183 of file CDF_2008_S7541902.cc.

Referenced by CDF_2008_S7541902::analyze().

double _jetEtCutA [private]

Cut on the jet ET for differential cross sections.

Definition at line 185 of file CDF_2008_S7541902.cc.

Referenced by CDF_2008_S7541902::analyze().

double _jetEtCutB [private]

Cut on the jet ET for jet multiplicity.

Definition at line 187 of file CDF_2008_S7541902.cc.

Referenced by CDF_2008_S7541902::analyze().

double _jetETA [private]

Cut on the jet ETA.

Definition at line 189 of file CDF_2008_S7541902.cc.

Referenced by CDF_2008_S7541902::analyze().

double _xpoint [private]

Definition at line 192 of file CDF_2008_S7541902.cc.

Referenced by CDF_2008_S7541902::analyze(), CDF_2008_S7541902::finalize(), and CDF_2008_S7541902::init().

AIDA::IHistogram1D* _histJetEt[4] [private]

Definition at line 196 of file CDF_2008_S7541902.cc.

Referenced by CDF_2008_S7541902::analyze(), CDF_2008_S7541902::finalize(), and CDF_2008_S7541902::init().

AIDA::IHistogram1D* _histJetMultNorm [private]

Definition at line 197 of file CDF_2008_S7541902.cc.

Referenced by CDF_2008_S7541902::analyze(), CDF_2008_S7541902::finalize(), and CDF_2008_S7541902::init().

AIDA::IDataPointSet* _histJetMultRatio[4] [private]

Definition at line 198 of file CDF_2008_S7541902.cc.

Referenced by CDF_2008_S7541902::finalize(), and CDF_2008_S7541902::init().

AIDA::IHistogram1D* _histJetMult[4] [private]

Definition at line 199 of file CDF_2008_S7541902.cc.

Referenced by CDF_2008_S7541902::analyze(), CDF_2008_S7541902::finalize(), and CDF_2008_S7541902::init().

string _defaultname [protected, inherited]

Name passed to constructor (used to find .info analysis data file, and as a fallback).

Definition at line 412 of file Analysis.hh.

Referenced by Analysis::name().

shared_ptr<AnalysisInfo> _info [protected, inherited]

Pointer to analysis metadata object.

Definition at line 415 of file Analysis.hh.

Referenced by Analysis::authors(), Analysis::collider(), Analysis::description(), Analysis::experiment(), Analysis::info(), Analysis::name(), Analysis::references(), Analysis::runInfo(), Analysis::setBeams(), Analysis::spiresId(), Analysis::status(), Analysis::summary(), and Analysis::year().

bool _allowProjReg [protected, inherited]

Flag to forbid projection registration in analyses until the init phase.

Definition at line 141 of file ProjectionApplier.hh.

Referenced by ProjectionApplier::_addProjection(), and AnalysisHandler::init().

---

The documentation for this class was generated from the following file:

• CDF_2008_S7541902.cc