Difference between revisions of "Mattione GlueX Analysis Factories"

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(DReaction_factory)
(DTrackCombo)
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== DTrackCombo ==
 
== DTrackCombo ==
* Will be located in src/libraries/ANALYSIS
+
* Located in src/libraries/ANALYSIS
 
* <span style="color:#0000FF">DTrackCombo_factory_PreKinFit</span>: Generates a DTrackCombo object for each possible combination of detected tracks and DBeamPhotons (configurable time cut used to eliminate way-out-of-time photons).  
 
* <span style="color:#0000FF">DTrackCombo_factory_PreKinFit</span>: Generates a DTrackCombo object for each possible combination of detected tracks and DBeamPhotons (configurable time cut used to eliminate way-out-of-time photons).  
 
** PID is NOT assumed, all possibilities are tested: For each q = +/-/0 particle in a given DReaction, all detected q = +/-/0 tracks are tested as to whether or not they are that particle.  
 
** PID is NOT assumed, all possibilities are tested: For each q = +/-/0 particle in a given DReaction, all detected q = +/-/0 tracks are tested as to whether or not they are that particle.  

Revision as of 21:47, 9 September 2012

Summary

  • In his/her plugin, a user specifies the reactions he/she wants to study (DReaction), along with the histograms and cuts to perform (DAnalysisAction), then just asks JANA for the results (DAnalysisResults).
  • Through this process, the program creates all possible track combinations for the desired reaction (DTrackCombo, tag "PreKinFit"), kinematic fits the event to the reaction (DKinFitResults), and updates the tracks with the new kinfit information (DTrackCombo, no tag).
  • The DAnalysisAction objects encapsulate the setup and execution of an action (e.g. cut, histogram) into a single object.
    • Many common actions will be predefined in DANA (see libraries/ANALYSIS/DHistogramActions.h and libraries/ANALYSIS/DCutActions.h), but the user can write custom ones for their analysis in their plugin.
  • The DAnalysisResults objects indicate which DTrackCombo objects have passed/failed the DAnalysisAction cuts for each DReaction.

DReaction

  • Located in src/libraries/ANALYSIS
  • The factory needs to be defined in your plugin (see DReaction_factory section below)
  • User creates one of these in their plugin for each reaction they want to analyze (example shown later below) (can analyze more than one at once).
class DReaction : public JObject
{
	private:
		//REACTION AND ANALYSIS:
		string dReactionName; //must be unique: e.g. "Y2175"
		deque<const DReactionStep*> dReactionSteps;
		deque<const DAnalysisAction*> dAnalysisActions;

		//CONTROL VARIABLES:
		DKinFitType dKinFitType; //defined in ANALYSIS/DKinFitResults.h
		deque<size_t> dDecayingParticlesExcludedFromKinfit; //to exclude decaying particles from the kinematic fit (resonances are automatically excluded)
};
class DReactionStep
{
	private:
		Particle_t dInitialParticleID; //e.g. lambda, phi, gamma
		Particle_t dTargetParticleID; //Unknown for no target
		deque<Particle_t> dFinalParticleIDs;

		int dMissingParticleIndex; //-1 for no missing particles, else final state particle at this index is missing (0 -> x)
};

DTrackCombo

  • Located in src/libraries/ANALYSIS
  • DTrackCombo_factory_PreKinFit: Generates a DTrackCombo object for each possible combination of detected tracks and DBeamPhotons (configurable time cut used to eliminate way-out-of-time photons).
    • PID is NOT assumed, all possibilities are tested: For each q = +/-/0 particle in a given DReaction, all detected q = +/-/0 tracks are tested as to whether or not they are that particle.
  • DKinFitResults_factory: Performs a single kinematic fit testing whether each DTrackCombo matches the DReaction: includes all mass, vertex, timing constraints if requested.
  • DTrackCombo_factory: Create new DTrackCombo objects, using the kinematic fit track information and results.
class DTrackCombo : public JObject
{
	private:
		//REACTION AND ANALYSIS:
		const DReaction* dReaction;
		deque<const DTrackComboStep*> dTrackComboSteps;
		const DKinFitResults* dKinFitResults;

		//UNUSED TRACKS:
		deque<const DChargedTrack*> dUnusedPositiveTracks;
		deque<const DChargedTrack*> dUnusedNegativeTracks;
		deque<const DNeutralShower*> dUnusedNeutralShowers;
};
class DTrackComboStep
{
	private:
		//PIDS:
		Particle_t dInitialParticleID; //e.g. lambda, phi, gamma
		Particle_t dTargetParticleID; //Unknown for no target
		deque<Particle_t> dFinalParticleIDs;

		//INITIAL PARTICLES:
		DKinematicData* dInitialParticle; //kinfit result, else measured
		DKinematicData* dInitialParticle_Measured; //e.g. DBeamPhoton
		DKinematicData* dTargetParticle; //NULL for no target

		//FINAL PARTICLES:
		deque<const DKinematicData*> dFinalParticles; //kinfit result, else measured //e.g. DChargedTrackHypothesis, DNeutralParticleHypothesis
		deque<const DKinematicData*> dFinalParticles_Measured; //e.g. DChargedTrackHypothesis, DNeutralParticleHypothesis
		deque<const JObject*> dFinalParticleSourceObjects; //original DChargedTrack or DNeutralShower objects

		//CONTROL VARIABLES:
		int dInitialParticleDecayFromStepIndex; //points to which DTrackComboStep represents the production of the initial particle (e.g. Lambda)
		deque<int> dDecayStepIndices; //let's you know whether a final state particle is decaying, missing, or detected.  if decaying, points to which DTrackComboStep represents its decay
};

Cutting & Histogramming: DAnalysisAction, DAnalysisResults

DAnalysisAction

  • Virtual base class that encapsulates the setup (e.g. histogram creation) and execution (cut, hist, etc.) of the contained action for each DTrackCombo that has passed all previous cuts.
    • Many common actions (e.g. histogramming kinfit pulls, comparing thrown and reconstructed MC data, etc.) will be pre-defined in src/libraries/ANALYSIS
    • Custom, analysis-specific actions can be created and stored in the plugin, along with any custom factories you need for them (e.g.: studying the background).
    • These actions should be added to the DReaction objects in the order that they will be executed.
class DAnalysisAction
{
	public:
		//returns true/false if passes/fails cut/hist/etc.
		virtual bool operator()(JEventLoop* locEventLoop, map<const DTrackCombo*, bool>& locTrackCombos) const = 0;
};

DAnalysisResults

  • Loops over all DReaction objects, executing the DAnalysisAction objects for each one. Returns the cut status of each DTrackCombo (which cut they failed on, if any).
class DAnalysisResults : public JObject
{
	private:
		DReaction* dReaction;
		map<const DTrackCombo*, size_t> dFailedTrackComboMap; //indicates at which action these DTrackCombo failed to pass the cut
		deque<const DTrackCombo*> dPassedTrackCombos; //DTrackCombo objects that passed all DAnalysisAction cuts. 
};

Simple Example

  • Cutting the confidence level of a kinematic fit:
class DAnalysisAction_KinFitFOM : public DAnalysisAction
{
 	public:
		double dMinimumConfidenceLevel; //e.g. 0.01

		DAnalysisAction_KinFitFOM(double locMinimumConfidenceLevel) : dMinimumConfidenceLevel(locMinimumConfidenceLevel) {} //cut setup upon construction

		bool operator()(JEventLoop* locEventLoop, map<const DTrackCombo*, bool>& locTrackComboStatusMap) const
		{
			bool locEventPassedCutFlag = false;
			//loop over all track combos and perform the cut (unless already failed a previous cut)
			for(map<const DTrackCombo*, bool>::iterator locIterator = locTrackComboStatusMap(); locIterator != locTrackComboStatusMap(); ++locIterator)
			{
				if(!locIterator->second)
					continue; //track combo failed a previous cut!

				const DTrackCombo* locTrackCombo = locIterator->first;
				DKinFitResults* locKinFitResults = locTrackCombo->Get_KinFitResults();
				double locConfidenceLevel = locKinFitResults->Get_ConfidenceLevel();

				if(locConfidenceLevel > dMinimumConfidenceLevel)
					locTrackCombos[locTrackCombo] = false; //mark the DTrackCombo as having failed the cut
				else
					locEventPassedCutFlag = true; //at least once DTrackCombo passed the cut 
			}
			return locEventPassedCutFlag;
		}
};

User Plugin DReaction Factory

  • Below shows how to set up DReaction for a Y(2175) analysis.
  • Note that while most of the analysis actions are pre-defined, built-in ones (e.g. histogramming kinfit results), some are custom to the plugin (for now) (e.g. histogramming phi invariant mass).
//------------------
// init
//------------------
jerror_t DReaction_factory::init(void)
{
	// Setting the PERSISTANT prevents JANA from deleting
	// the objects every event so we only create them once.
	SetFactoryFlag(PERSISTANT);

	DReaction* locReaction;
	DReactionStep* locReactionStep;

	// Make as many DReaction objects as desired
	locReaction = new DReaction();
	locReaction->Set_ReactionName("Y2175");
	locReaction->Set_FitTypeFlag(3); //kinfit p4, v, & t simultaneously (0 is no kinfit)
 
 	//SETUP REACTION

	//g, p -> phi(2175), (p)
	locReactionStep = new DReactionStep();
	locReactionStep->Set_InitialParticleID(Gamma);
	locReactionStep->Set_TargetParticleID(Proton);
	locReactionStep->Add_FinalParticleID(Unknown); //phi(2175)
	locReactionStep->Add_FinalParticleID(Proton);
	locReactionStep->Set_MissingParticleIndex(1); //proton missing
	locReaction->Add_ReactionStep(locReactionStep);
	dReactionStepPool.push_back(locReactionStep); //prevent memory leak

	//phi(2175) -> pi+, pi-, phi
	locReactionStep = new DReactionStep();
	locReactionStep->Set_InitialParticleID(Unknown); //phi(2175)
	locReactionStep->Set_TargetParticleID(Unknown); //no target for this step
	locReactionStep->Add_FinalParticleID(PiPlus);
	locReactionStep->Add_FinalParticleID(PiMinus);
	locReactionStep->Add_FinalParticleID(phiMeson);
	locReactionStep->Set_MissingParticleIndex(-1); //none missing
	locReaction->Add_ReactionStep(locReactionStep);
	dReactionStepPool.push_back(locReactionStep); //prevent memory leak

	//phi -> K+, K-
	locReactionStep = new DReactionStep();
	locReactionStep->Set_InitialParticleID(Unknown); //phi(2175)
	locReactionStep->Set_TargetParticleID(Unknown); //no target for this step
	locReactionStep->Add_FinalParticleID(KPlus);
	locReactionStep->Add_FinalParticleID(KMinus);
 	locReactionStep->Set_MissingParticleIndex(-1); //none missing
 	locReaction->Add_ReactionStep(locReactionStep);
	dReactionStepPool.push_back(locReactionStep); //prevent memory leak
 
 	//SETUP ANALYSIS ACTIONS

	//Track reconstruction quality/multiplicity
	dReaction->Add_AnalysisAction(new DHistogramFunctor_TrackMultiplicity());
	dReaction->Add_AnalysisAction(new DHistogramFunctor_GenReconTrackComparison());

	//Vertex reconstruction and cuts of tracks with bogus vertex-z
	dReaction->Add_AnalysisAction(new DHistogramFunctor_TrackComboKinematics(1)); //1: initial data
	dReaction->Add_AnalysisAction(new DCutFunctor_AllVertexZ(45.0, 85.0));
	dReaction->Add_AnalysisAction(new DHistogramFunctor_TrackVertexComparison());

	//PID
	dReaction->Add_AnalysisAction(new DHistogramFunctor_PID());
	dReaction->Add_AnalysisAction(new DCutFunctor_AllPID(0.01, 1)); //1%, all charged tracks
	dReaction->Add_AnalysisAction(new DHistogramFunctor_TruePID());

	//Phi Invariant Mass Cut & PID Check
	dReaction->Add_AnalysisAction(new DHistogramFunctor_PhiMass(1)); //1: initial data
	dReaction->Add_AnalysisAction(new DCutFunctor_InvariantMass(phiMeson, 1, 1.004, 1.04)); //~3sigma
	dReaction->Add_AnalysisAction(new DHistogramFunctor_TruePID());

	//Initial Proton and Y2175 Mass Distributions
	dReaction->Add_AnalysisAction(new DHistogramFunctor_ProtonMass(1)); //1: initial data
	dReaction->Add_AnalysisAction(new DHistogramFunctor_Phi2175Mass(1)); //1: initial data

	//Missing Proton Kinematic Fit
	dReaction->Add_AnalysisAction(new DHistogramFunctor_KinFitResults(0.1));
	dReaction->Add_AnalysisAction(new DCutFunctor_KinFitFOM(0.01); //1%

	//Final Proton and Y2175 Mass Distributions
	dReaction->Add_AnalysisAction(new DHistogramFunctor_ProtonMass(1)); //1: initial data
	dReaction->Add_AnalysisAction(new DHistogramFunctor_Phi2175Mass(1)); //1: initial data
	dReaction->Add_AnalysisAction(new DHistogramFunctor_Phi2175Mass(2)); //2: final data

	//Final track kinematics & PID Check
	dReaction->Add_AnalysisAction(new DHistogramFunctor_TrackComboKinematics(2)); //2: final data
	dReaction->Add_AnalysisAction(new DHistogramFunctor_TruePID());

	_data.push_back(locReaction);

	return NOERROR;
}

User Plugin DEventProcessor

  • The DEventProcessor itself is extremely minimal in content:
extern "C" 
{
	void InitPlugin(JApplication *app)
	{
		InitJANAPlugin(app);
		app->AddProcessor(new DEventProcessor_Y2175());
		app->AddFactoryGenerator(new DFactoryGenerator_DReaction());
	}
} // "C"

jerror_t DEventProcessor_Y2175::evnt(JEventLoop *locEventLoop, int eventnumber)
{
	vector<const DAnalysisResults*> locAnalysisResultsVector;
	locEventLoop->Get(locAnalysisResultsVector);

	//SAVE PROGRAM OUTPUT HERE (e.g. surviving DTrackCombo objects, custom tuples, etc. (format undetermined)

	return NOERROR;
}

Program Output

  • Other than histograms, I haven't really gotten this far yet...