Resolve "Remove obsolete algorithms from full simulations"

Closes #51 (closed)

benchmarks/full/options/full_reconstruction.py

@@ -52,13 +52,9 @@ from Configurables import Jug__Base__InputCopier_dd4pod__CalorimeterHitCollectio
 from Configurables import Jug__Base__InputCopier_dd4pod__TrackerHitCollection_dd4pod__TrackerHitCollection_ as TrkCopier
 from Configurables import Jug__Base__InputCopier_dd4pod__PhotoMultiplierHitCollection_dd4pod__PhotoMultiplierHitCollection_ as PMTCopier
 
-from Configurables import Jug__Base__MC2DummyParticle as MC2DummyParticle
-
 from Configurables import Jug__Digi__PhotoMultiplierDigi as PhotoMultiplierDigi
 from Configurables import Jug__Digi__CalorimeterHitDigi as CalHitDigi
-from Configurables import Jug__Digi__ExampleCaloDigi as ExampleCaloDigi
 from Configurables import Jug__Digi__UFSDTrackerDigi as TrackerDigi
-from Configurables import Jug__Digi__EMCalorimeterDigi as EMCalorimeterDigi
 
 from Configurables import Jug__Reco__TrackerHitReconstruction as TrackerHitReconstruction
 from Configurables import Jug__Reco__TrackerSourceLinker as TrackerSourceLinker
@@ -85,8 +81,6 @@ from Configurables import Jug__Reco__PhotoRingClusters as PhotoRingClusters
 
 from Configurables import Jug__Reco__EMCalReconstruction as EMCalReconstruction
 
-from Configurables import Jug__Reco__SimpleClustering as SimpleClustering
-
 # branches needed from simulation root file
 sim_coll = [
     "mcparticles",
@@ -120,29 +114,6 @@ pmtcopier = PMTCopier("PMTCopier",
         inputCollection="DRICHHits",
         outputCollection="DRICHHits2")
 
-# Dummy reconstruction
-dummy = MC2DummyParticle("MC2Dummy",
-        inputCollection="mcparticles",
-        outputCollection="ReconstructedParticles",
-        smearing = 0.01)
-
-# Simple clusters
-ecal_digi = EMCalorimeterDigi("ecal_digi",
-        inputHitCollection="EcalBarrelHits",
-        outputHitCollection="EcalBarrelHitsSimpleDigi")
-
-ecal_reco = EMCalReconstruction("ecal_reco",
-        inputHitCollection=ecal_digi.outputHitCollection,
-        outputHitCollection="EcalBarrelHitsSimpleReco",
-        minModuleEdep=0.0*units.MeV)
-
-simple_cluster = SimpleClustering("simple_cluster",
-        inputHitCollection=ecal_reco.outputHitCollection,
-        outputClusterCollection="SimpleClusters",
-        outputProtoClusterCollection="SimpleProtoClusters",
-        minModuleEdep=1.0*units.MeV,
-        maxDistance=50.0*units.cm)
-
 # Crystal Endcap Ecal
 ce_ecal_daq = dict(
         dynamicRangeADC=5.*units.GeV,
@@ -507,12 +478,12 @@ truth_trk_init = TrackParamTruthInit("truth_trk_init",
 trk_find_alg = TrackFindingAlgorithm("trk_find_alg",
         inputSourceLinks = sourcelinker.outputSourceLinks,
         inputMeasurements = sourcelinker.outputMeasurements,
-        inputInitialTrackParameters = "InitTrackParamsFromTruth",
+        inputInitialTrackParameters = "InitTrackParams",
         outputTrajectories = "trajectories")
 
 parts_from_fit = ParticlesFromTrackFit("parts_from_fit",
         inputTrajectories = "trajectories",
-        outputParticles = "ReconstructedParticlesInitFromTruth",
+        outputParticles = "ReconstructedParticles",
         outputTrackParameters = "outputTrackParameters")
 
 #trk_find_alg1 = TrackFindingAlgorithm("trk_find_alg1",
@@ -564,8 +535,6 @@ podout.outputCommands = ["keep *",
 
 ApplicationMgr(
     TopAlg = [podin, copier, trkcopier,
-              dummy,
-              ecal_digi, ecal_reco, #simple_cluster,
               ce_ecal_digi, ce_ecal_reco, ce_ecal_cl, ce_ecal_clreco,
               ci_ecal_digi, ci_ecal_reco, ci_ecal_merger, ci_ecal_cl, ci_ecal_clreco,
               cb_ecal_digi, cb_ecal_reco, cb_ecal_cl, cb_ecal_clreco,