// $Id$
//
//    File: DReaction_factory_p4pi_aaust.cc
// Created: Mon Jul 18 11:10:59 EDT 2016
// Creator: aaustreg (on Linux ifarm1401 2.6.32-431.el6.x86_64 x86_64)
//


#include "DReaction_factory_p4pi_aaust.h"
#include "DCustomAction_dEdxCut.h"

//------------------
// brun
//------------------
jerror_t DReaction_factory_p4pi_aaust::brun(JEventLoop* locEventLoop, int32_t locRunNumber)
{
	vector<double> locBeamPeriodVector;
	locEventLoop->GetCalib("PHOTON_BEAM/RF/beam_period", locBeamPeriodVector);
	dBeamBunchPeriod = locBeamPeriodVector[0];

	return NOERROR;
}

//------------------
// evnt
//------------------
jerror_t DReaction_factory_p4pi_aaust::evnt(JEventLoop* locEventLoop, uint64_t locEventNumber)
{
  // Make as many DReaction objects as desired
  DReactionStep* locReactionStep = NULL;
  DReaction* locReaction = NULL; //create with a unique name for each DReaction object. CANNOT (!) be "Thrown"
  
  // DOCUMENTATION:
  // ANALYSIS library: https://halldweb1.jlab.org/wiki/index.php/GlueX_Analysis_Software
  // DReaction factory: https://halldweb1.jlab.org/wiki/index.php/Analysis_DReaction
  
  /************************************************** p4pi_aaust Reaction Definition *************************************************/
  
  locReaction = new DReaction("p4pi_aaust");
  
  
  //Required: DReactionSteps to specify the channel and decay chain you want to study
  //Particles are of type Particle_t, an enum defined in sim-recon/src/libraries/include/particleType.h
  
  // g, p -> pi+, pi-, pi+, pi-, p
  locReactionStep = new DReactionStep();
  locReactionStep->Set_InitialParticleID(Gamma);
  locReactionStep->Set_TargetParticleID(Proton);
  locReactionStep->Add_FinalParticleID(PiPlus);
  locReactionStep->Add_FinalParticleID(PiMinus);
  locReactionStep->Add_FinalParticleID(PiPlus);
  locReactionStep->Add_FinalParticleID(PiMinus);
  locReactionStep->Add_FinalParticleID(Proton);
  locReaction->Add_ReactionStep(locReactionStep);
  dReactionStepPool.push_back(locReactionStep); //register so will be deleted later: prevent memory leak


  /**************************************************** p4pi_aaust Control Settings ****************************************************/

  // Highly Recommended: Set EventStore skim query (use with "eventstore" source)
  // This will skip creating particle combos for events that aren't in the skims you list
  // Query should be comma-separated list of skims to boolean-AND together
  locReaction->Set_EventStoreSkims("3q+,2q-"); //boolean-AND of skims
  
  // Recommended: Type of kinematic fit to perform (default is d_NoFit)
  //fit types are of type DKinFitType, an enum defined in sim-recon/src/libraries/ANALYSIS/DReaction.h
  //Options: d_NoFit (default), d_P4Fit, d_VertexFit, d_P4AndVertexFit
  //P4 fits automatically constrain decaying particle masses, unless they are manually disabled
  locReaction->Set_KinFitType(d_P4AndVertexFit);
  
  // Highly Recommended: When generating particle combinations, reject all beam photons that match to a different RF bunch (delta_t > 1.002 ns)
  locReaction->Set_MaxPhotonRFDeltaT(1.5*dBeamBunchPeriod); //should be minimum cut value
  
  // Optional: When generating particle combinations, reject all photon candidates with a PID confidence level < 5.73303E-7 (+/- 5-sigma)
  // Make sure PID errors are calculated correctly before using. 
  //locReaction->Set_MinPhotonPIDFOM(5.73303E-7);

  // Optional: When generating particle combinations, reject all charged track candidates with a PID confidence level < 5.73303E-7 (+/- 5-sigma)
  // Make sure PID errors are calculated correctly before using. 
  //locReaction->Set_MinChargedPIDFOM(5.73303E-7);
  
  // Highly Recommended: Cut on number of extra "good" tracks. "Good" tracks are ones that survive the "PreSelect" (or user custom) factory.
  // Important: Keep cut large: Can have many ghost and accidental tracks that look "good"
  locReaction->Set_MaxExtraGoodTracks(4);

  // Highly Recommended: Enable ROOT TTree output for this DReaction
  locReaction->Enable_TTreeOutput("tree_p4pi_aaust.root"); //string is file name (must end in ".root"!!): doen't need to be unique, feel free to change

  /************************************************** p4pi_aaust Pre-Combo Custom Cuts *************************************************/

  // Highly Recommended: Very loose invariant mass cuts, applied during DParticleComboBlueprint construction
  // Example: pi0 -> g, g cut
  // locReaction->Set_InvariantMassCut(Pi0, 0.0, 0.3);

  // Highly Recommended: Very loose DAnalysisAction cuts, applied just after creating the combination (before saving it)
  // Example: Missing mass of proton
  locReaction->Add_ComboPreSelectionAction(new DCutAction_MissingMass(locReaction, false, -0.2, 0.2));

  /**************************************************** p4pi_aaust Analysis Actions ****************************************************/

  
  // Recommended: Analysis actions automatically performed by the DAnalysisResults factories to histogram useful quantities.
  //These actions are executed sequentially, and are executed on each surviving (non-cut) particle combination 
  //Pre-defined actions can be found in ANALYSIS/DHistogramActions_*.h and ANALYSIS/DCutActions.h
  //If a histogram action is repeated, it should be created with a unique name (string) to distinguish them

  // HISTOGRAM PID
  locReaction->Add_AnalysisAction(new DHistogramAction_PID(locReaction));

  // CUT PID from Paul
  // SYS_TOF, SYS_BCAL, SYS_FCAL, ...: DetectorSystem_t: Defined in libraries/include/GlueX.h
  locReaction->Add_AnalysisAction(new DCutAction_PIDDeltaT(locReaction, false, 2.0, PiPlus, SYS_TOF)); //false: measured data
  locReaction->Add_AnalysisAction(new DCutAction_PIDDeltaT(locReaction, false, 2.5, PiPlus, SYS_BCAL)); //false: measured data
  locReaction->Add_AnalysisAction(new DCutAction_PIDDeltaT(locReaction, false, 2.5, PiPlus, SYS_FCAL)); //false: measured data

  locReaction->Add_AnalysisAction(new DCutAction_PIDDeltaT(locReaction, false, 2.0, PiMinus, SYS_TOF)); //false: measured data
  locReaction->Add_AnalysisAction(new DCutAction_PIDDeltaT(locReaction, false, 2.5, PiMinus, SYS_BCAL)); //false: measured data
  locReaction->Add_AnalysisAction(new DCutAction_PIDDeltaT(locReaction, false, 2.5, PiMinus, SYS_FCAL)); //false: measured data
  
  locReaction->Add_AnalysisAction(new DCutAction_PIDDeltaT(locReaction, false, 2.5, Proton, SYS_TOF)); //false: measured data
  locReaction->Add_AnalysisAction(new DCutAction_PIDDeltaT(locReaction, false, 2.5, Proton, SYS_BCAL)); //false: measured data
  locReaction->Add_AnalysisAction(new DCutAction_PIDDeltaT(locReaction, false, 2.5, Proton, SYS_FCAL)); //false: measured data
  
  locReaction->Add_AnalysisAction(new DCustomAction_dEdxCut(locReaction, false)); //false: focus on keeping signal
  locReaction->Add_AnalysisAction(new DHistogramAction_PID(locReaction, "PostPIDCuts"));

  // HISTOGRAM MASSES //false/true: measured/kinfit data
  std::deque<Particle_t> Four, ThreeP, ThreeM, Two, ZP, ZM;
  Four.push_back(PiPlus); Four.push_back(PiMinus); Four.push_back(PiPlus); Four.push_back(PiMinus);
  ThreeP.push_back(PiPlus); ThreeP.push_back(PiMinus); ThreeP.push_back(PiPlus);
  ThreeM.push_back(PiMinus); ThreeM.push_back(PiPlus); ThreeM.push_back(PiMinus);
  Two.push_back(PiPlus); Two.push_back(PiMinus);
  ZP.push_back(PiPlus); ZP.push_back(Proton);
  ZM.push_back(PiMinus); ZM.push_back(Proton);
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, Four, false, 500, 0.5, 2.5, "Four_PreKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, ThreeP, false, 500, 0.3, 2.3, "ThreeP_PreKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, ThreeM, false, 500, 0.3, 2.3, "ThreeM_PreKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, Two, false, 500, 0.0, 2.0, "Two_PreKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_2DInvariantMass(locReaction, 0, Two, Two, false, 200, 0.2, 2.2, 200, 0.2, 2.2, "TwoTwo_PreKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_Dalitz(locReaction, 0, Two, Two, false, 150, 0, 3, 150, 0, 3, "Dalitz_PreKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, ZP, false, 500, 1.0, 3.0, "ZP_PreKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, ZM, false, 500, 1.0, 3.0, "ZM_PreKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_MissingMassSquared(locReaction, false, 1000, -0.04, 0.04, "PreKinFit"));

  // KINEMATIC FIT
  locReaction->Add_AnalysisAction(new DHistogramAction_KinFitResults(locReaction, 0.05)); //5% confidence level cut on pull histograms only
  locReaction->Add_AnalysisAction(new DCutAction_KinFitFOM(locReaction, -1)); //0% confidence level cut //require kinematic fit converges

  // HISTOGRAM MASSES //false/true: measured/kinfit data
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, Four, false, 500, 0.5, 2.5, "Four_ConKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, ThreeP, false, 500, 0.3, 2.3, "ThreeP_ConKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, ThreeM, false, 500, 0.3, 2.3, "ThreeM_ConKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, Two, false, 500, 0.0, 2.0, "Two_ConKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_2DInvariantMass(locReaction, 0, Two, Two, false, 200, 0.2, 2.2, 200, 0.2, 2.2, "TwoTwo_ConKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_Dalitz(locReaction, 0, Two, Two, false, 150, 0, 3, 150, 0, 3, "Dalitz_ConKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, ZP, false, 500, 1.0, 3.0, "ZP_ConKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, ZM, false, 500, 1.0, 3.0, "ZM_ConKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_MissingMassSquared(locReaction, false, 1000, -0.04, 0.04, "ConKinFit"));
  
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, Four, true, 500, 0.5, 2.5, "Four_PostKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, ThreeP, true, 500, 0.3, 2.3, "ThreeP_PostKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, ThreeM, true, 500, 0.3, 2.3, "ThreeM_PostKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, Two, true, 500, 0.0, 2.0, "Two_PostKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_2DInvariantMass(locReaction, 0, Two, Two, true, 200, 0.2, 2.2, 200, 0.2, 2.2, "TwoTwo_PostKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_Dalitz(locReaction, 0, Two, Two, true, 150, 0, 3, 150, 0, 3, "Dalitz_PostKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, ZP, true, 500, 1.0, 3.0, "ZP_PostKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_InvariantMass(locReaction, 0, ZM, true, 500, 1.0, 3.0, "ZM_PostKinFit"));
  locReaction->Add_AnalysisAction(new DHistogramAction_MissingMassSquared(locReaction, true, 1000, -0.04, 0.04, "PostKinFit"));

  // Kinematics
  locReaction->Add_AnalysisAction(new DHistogramAction_ParticleComboKinematics(locReaction, false)); //false: measured data
  locReaction->Add_AnalysisAction(new DHistogramAction_ParticleComboKinematics(locReaction, true, "KinFit")); //true: kinematic-fit data
  locReaction->Add_AnalysisAction(new DHistogramAction_TrackVertexComparison(locReaction));
  

  _data.push_back(locReaction); //Register the DReaction with the factory

  
  return NOERROR;
}

//------------------
// fini
//------------------
jerror_t DReaction_factory_p4pi_aaust::fini(void)
{
  for(size_t loc_i = 0; loc_i < dReactionStepPool.size(); ++loc_i)
    delete dReactionStepPool[loc_i]; //cleanup memory
  return NOERROR;
}