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ImprovedOutputFile Timing dual_readout llp

Last change on this file since 1fa50c2 was 1fa50c2, checked in by Pavel Demin <pavel.demin@…>, 10 years ago
fix GPLv3 header
Property mode set to `100644`
File size: 12.0 KB

Rev	Line
[01f457a]	1	/*
	2	* Delphes: a framework for fast simulation of a generic collider experiment
	3	* Copyright (C) 2012-2014 Universite catholique de Louvain (UCL), Belgium
[1fa50c2]	4	*
[01f457a]	5	* This program is free software: you can redistribute it and/or modify
	6	* it under the terms of the GNU General Public License as published by
	7	* the Free Software Foundation, either version 3 of the License, or
	8	* (at your option) any later version.
[1fa50c2]	9	*
[01f457a]	10	* This program is distributed in the hope that it will be useful,
	11	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	12	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	13	* GNU General Public License for more details.
[1fa50c2]	14	*
[01f457a]	15	* You should have received a copy of the GNU General Public License
	16	* along with this program. If not, see <http://www.gnu.org/licenses/>.
	17	*/
	18
[d7d2da3]	19
	20	/** \class FastJetFinder
	21	*
	22	* Finds jets using FastJet library.
	23	*
	24	* $Date$
	25	* $Revision$
	26	*
	27	*
	28	* \author P. Demin - UCL, Louvain-la-Neuve
	29	*
	30	*/
	31
	32	#include "modules/FastJetFinder.h"
	33
	34	#include "classes/DelphesClasses.h"
	35	#include "classes/DelphesFactory.h"
	36	#include "classes/DelphesFormula.h"
	37
	38	#include "ExRootAnalysis/ExRootResult.h"
	39	#include "ExRootAnalysis/ExRootFilter.h"
	40	#include "ExRootAnalysis/ExRootClassifier.h"
	41
	42	#include "TMath.h"
	43	#include "TString.h"
	44	#include "TFormula.h"
	45	#include "TRandom3.h"
	46	#include "TObjArray.h"
	47	#include "TDatabasePDG.h"
	48	#include "TLorentzVector.h"
	49
[8336b6e]	50	#include <algorithm>
[d7d2da3]	51	#include <stdexcept>
	52	#include <iostream>
	53	#include <sstream>
	54	#include <vector>
	55
	56	#include "fastjet/PseudoJet.hh"
	57	#include "fastjet/JetDefinition.hh"
	58	#include "fastjet/ClusterSequence.hh"
	59	#include "fastjet/Selector.hh"
	60	#include "fastjet/ClusterSequenceArea.hh"
	61	#include "fastjet/tools/JetMedianBackgroundEstimator.hh"
	62
	63	#include "fastjet/plugins/SISCone/fastjet/SISConePlugin.hh"
	64	#include "fastjet/plugins/CDFCones/fastjet/CDFMidPointPlugin.hh"
	65	#include "fastjet/plugins/CDFCones/fastjet/CDFJetCluPlugin.hh"
	66
[e4c3fef]	67	#include "fastjet/contribs/Nsubjettiness/Nsubjettiness.hh"
[9687203]	68	#include "fastjet/contribs/Nsubjettiness/Njettiness.hh"
	69	#include "fastjet/contribs/Nsubjettiness/NjettinessPlugin.hh"
	70	#include "fastjet/contribs/Nsubjettiness/WinnerTakeAllRecombiner.hh"
	71
[d7d2da3]	72	using namespace std;
	73	using namespace fastjet;
[9687203]	74	using namespace fastjet::contrib;
	75
[d7d2da3]	76
	77	//------------------------------------------------------------------------------
	78
	79	FastJetFinder::FastJetFinder() :
[c6321ad]	80	fPlugin(0), fRecomb(0), fNjettinessPlugin(0), fDefinition(0), fAreaDefinition(0), fItInputArray(0)
[d7d2da3]	81	{
	82
	83	}
	84
	85	//------------------------------------------------------------------------------
	86
	87	FastJetFinder::~FastJetFinder()
	88	{
	89
	90	}
	91
	92	//------------------------------------------------------------------------------
	93
	94	void FastJetFinder::Init()
	95	{
[c6321ad]	96	JetDefinition::Plugin *plugin = 0;
	97	JetDefinition::Recombiner *recomb = 0;
	98	NjettinessPlugin *njetPlugin = 0;
[e4c3fef]	99
[8336b6e]	100	// read eta ranges
	101
	102	ExRootConfParam param = GetParam("RhoEtaRange");
	103	Long_t i, size;
	104
	105	fEtaRangeMap.clear();
	106	size = param.GetSize();
	107	for(i = 0; i < size/2; ++i)
	108	{
	109	fEtaRangeMap[param[i2].GetDouble()] = param[i2 + 1].GetDouble();
	110	}
	111
[d7d2da3]	112	// define algorithm
	113
	114	fJetAlgorithm = GetInt("JetAlgorithm", 6);
	115	fParameterR = GetDouble("ParameterR", 0.5);
	116
	117	fConeRadius = GetDouble("ConeRadius", 0.5);
	118	fSeedThreshold = GetDouble("SeedThreshold", 1.0);
	119	fConeAreaFraction = GetDouble("ConeAreaFraction", 1.0);
	120	fMaxIterations = GetInt("MaxIterations", 100);
	121	fMaxPairSize = GetInt("MaxPairSize", 2);
	122	fIratch = GetInt("Iratch", 1);
[3ccc8586]	123	fAdjacencyCut = GetInt("AdjacencyCut", 2);
[d7d2da3]	124	fOverlapThreshold = GetDouble("OverlapThreshold", 0.75);
	125
	126	fJetPTMin = GetDouble("JetPTMin", 10.0);
	127
[9687203]	128	//-- N(sub)jettiness parameters --
[e4c3fef]	129
[9687203]	130	fComputeNsubjettiness = GetBool("ComputeNsubjettiness", false);
	131	fBeta = GetDouble("Beta", 1.0);
	132	fAxisMode = GetInt("AxisMode", 1);
[e4c3fef]	133	fRcutOff = GetDouble("RcutOff", 0.8); // used only if Njettiness is used as jet clustering algo (case 8)
	134	fN = GetInt("N", 2); // used only if Njettiness is used as jet clustering algo (case 8)
	135
[d7d2da3]	136	// --- Jet Area Parameters ---
	137	fAreaAlgorithm = GetInt("AreaAlgorithm", 0);
	138	fComputeRho = GetBool("ComputeRho", false);
[e4c3fef]	139
[d7d2da3]	140	// - ghost based areas -
	141	fGhostEtaMax = GetDouble("GhostEtaMax", 5.0);
	142	fRepeat = GetInt("Repeat", 1);
	143	fGhostArea = GetDouble("GhostArea", 0.01);
	144	fGridScatter = GetDouble("GridScatter", 1.0);
	145	fPtScatter = GetDouble("PtScatter", 0.1);
	146	fMeanGhostPt = GetDouble("MeanGhostPt", 1.0E-100);
[e4c3fef]	147
[d7d2da3]	148	// - voronoi based areas -
	149	fEffectiveRfact = GetDouble("EffectiveRfact", 1.0);
	150
	151	switch(fAreaAlgorithm)
	152	{
	153	case 1:
[c6321ad]	154	fAreaDefinition = new AreaDefinition(active_area_explicit_ghosts, GhostedAreaSpec(fGhostEtaMax, fRepeat, fGhostArea, fGridScatter, fPtScatter, fMeanGhostPt));
[d7d2da3]	155	break;
	156	case 2:
[c6321ad]	157	fAreaDefinition = new AreaDefinition(one_ghost_passive_area, GhostedAreaSpec(fGhostEtaMax, fRepeat, fGhostArea, fGridScatter, fPtScatter, fMeanGhostPt));
[d7d2da3]	158	break;
	159	case 3:
[c6321ad]	160	fAreaDefinition = new AreaDefinition(passive_area, GhostedAreaSpec(fGhostEtaMax, fRepeat, fGhostArea, fGridScatter, fPtScatter, fMeanGhostPt));
[d7d2da3]	161	break;
	162	case 4:
[c6321ad]	163	fAreaDefinition = new AreaDefinition(VoronoiAreaSpec(fEffectiveRfact));
[d7d2da3]	164	break;
	165	case 5:
[c6321ad]	166	fAreaDefinition = new AreaDefinition(active_area, GhostedAreaSpec(fGhostEtaMax, fRepeat, fGhostArea, fGridScatter, fPtScatter, fMeanGhostPt));
[d7d2da3]	167	break;
	168	default:
	169	case 0:
	170	fAreaDefinition = 0;
	171	break;
	172	}
	173
	174	switch(fJetAlgorithm)
	175	{
[8336b6e]	176	case 1:
[c6321ad]	177	plugin = new CDFJetCluPlugin(fSeedThreshold, fConeRadius, fAdjacencyCut, fMaxIterations, fIratch, fOverlapThreshold);
	178	fDefinition = new JetDefinition(plugin);
[d7d2da3]	179	break;
	180	case 2:
[c6321ad]	181	plugin = new CDFMidPointPlugin(fSeedThreshold, fConeRadius, fConeAreaFraction, fMaxPairSize, fMaxIterations, fOverlapThreshold);
	182	fDefinition = new JetDefinition(plugin);
[d7d2da3]	183	break;
	184	case 3:
[c6321ad]	185	plugin = new SISConePlugin(fConeRadius, fOverlapThreshold, fMaxIterations, fJetPTMin);
	186	fDefinition = new JetDefinition(plugin);
[d7d2da3]	187	break;
	188	case 4:
[c6321ad]	189	fDefinition = new JetDefinition(kt_algorithm, fParameterR);
[d7d2da3]	190	break;
	191	case 5:
[c6321ad]	192	fDefinition = new JetDefinition(cambridge_algorithm, fParameterR);
[d7d2da3]	193	break;
	194	default:
	195	case 6:
[c6321ad]	196	fDefinition = new JetDefinition(antikt_algorithm, fParameterR);
[d7d2da3]	197	break;
[9687203]	198	case 7:
[c6321ad]	199	recomb = new WinnerTakeAllRecombiner();
	200	fDefinition = new JetDefinition(antikt_algorithm, fParameterR, recomb, Best);
[9687203]	201	break;
	202	case 8:
[c6321ad]	203	njetPlugin = new NjettinessPlugin(fN, Njettiness::wta_kt_axes, Njettiness::unnormalized_cutoff_measure, fBeta, fRcutOff);
	204	fDefinition = new JetDefinition(njetPlugin);
[9687203]	205	break;
[d7d2da3]	206	}
[8336b6e]	207
[d7d2da3]	208	fPlugin = plugin;
[9687203]	209	fRecomb = recomb;
[c6321ad]	210	fNjettinessPlugin = njetPlugin;
[e4c3fef]	211
[d7d2da3]	212	ClusterSequence::print_banner();
[8336b6e]	213
[d7d2da3]	214	// import input array
	215
	216	fInputArray = ImportArray(GetString("InputArray", "Calorimeter/towers"));
	217	fItInputArray = fInputArray->MakeIterator();
	218
	219	// create output arrays
	220
	221	fOutputArray = ExportArray(GetString("OutputArray", "jets"));
	222	fRhoOutputArray = ExportArray(GetString("RhoOutputArray", "rho"));
	223	}
	224
	225	//------------------------------------------------------------------------------
	226
	227	void FastJetFinder::Finish()
	228	{
	229	if(fItInputArray) delete fItInputArray;
	230	if(fDefinition) delete fDefinition;
	231	if(fAreaDefinition) delete fAreaDefinition;
	232	if(fPlugin) delete static_cast<JetDefinition::Plugin*>(fPlugin);
[9687203]	233	if(fRecomb) delete static_cast<JetDefinition::Recombiner*>(fRecomb);
	234	if(fNjettinessPlugin) delete static_cast<JetDefinition::Plugin*>(fNjettinessPlugin);
[d7d2da3]	235	}
	236
	237	//------------------------------------------------------------------------------
	238
	239	void FastJetFinder::Process()
	240	{
	241	Candidate candidate, constituent;
	242	TLorentzVector momentum;
[d244bc9]	243
	244	TLorentzVector constmomentum;
	245
[d7d2da3]	246	Double_t deta, dphi, detaMax, dphiMax;
[22dc7fd]	247	Double_t time, weightTime, avTime;
[d7d2da3]	248	Int_t number;
	249	Double_t rho = 0;
	250	PseudoJet jet, area;
	251	vector<PseudoJet> inputList, outputList;
	252	ClusterSequence *sequence;
[8336b6e]	253	map< Double_t, Double_t >::iterator itEtaRangeMap;
[d7d2da3]	254
	255	DelphesFactory *factory = GetFactory();
	256
	257	inputList.clear();
	258
	259	// loop over input objects
	260	fItInputArray->Reset();
	261	number = 0;
	262	while((candidate = static_cast<Candidate*>(fItInputArray->Next())))
[8336b6e]	263	{
[d7d2da3]	264	momentum = candidate->Momentum;
	265	jet = PseudoJet(momentum.Px(), momentum.Py(), momentum.Pz(), momentum.E());
	266	jet.set_user_index(number);
	267	inputList.push_back(jet);
	268	++number;
	269	}
[8336b6e]	270
	271	// construct jets
[d7d2da3]	272	if(fAreaDefinition)
	273	{
	274	sequence = new ClusterSequenceArea(inputList, fDefinition, fAreaDefinition);
	275	}
	276	else
	277	{
	278	sequence = new ClusterSequence(inputList, *fDefinition);
[8336b6e]	279	}
[d7d2da3]	280
	281	// compute rho and store it
	282	if(fComputeRho && fAreaDefinition)
	283	{
[8336b6e]	284	for(itEtaRangeMap = fEtaRangeMap.begin(); itEtaRangeMap != fEtaRangeMap.end(); ++itEtaRangeMap)
	285	{
	286	Selector select_rapidity = SelectorAbsRapRange(itEtaRangeMap->first, itEtaRangeMap->second);
	287	JetMedianBackgroundEstimator estimator(select_rapidity, fDefinition, fAreaDefinition);
	288	estimator.set_particles(inputList);
	289	rho = estimator.rho();
	290
	291	candidate = factory->NewCandidate();
	292	candidate->Momentum.SetPtEtaPhiE(rho, 0.0, 0.0, rho);
	293	candidate->Edges[0] = itEtaRangeMap->first;
	294	candidate->Edges[1] = itEtaRangeMap->second;
	295	fRhoOutputArray->Add(candidate);
	296	}
[d7d2da3]	297	}
[8336b6e]	298
[d7d2da3]	299	outputList.clear();
	300	outputList = sorted_by_pt(sequence->inclusive_jets(fJetPTMin));
	301
[9687203]	302
[d7d2da3]	303	// loop over all jets and export them
	304	detaMax = 0.0;
	305	dphiMax = 0.0;
	306	vector<PseudoJet>::iterator itInputList, itOutputList;
	307	for(itOutputList = outputList.begin(); itOutputList != outputList.end(); ++itOutputList)
	308	{
[d244bc9]	309	jet = *itOutputList;
	310	if(fJetAlgorithm == 7) jet = join(jet.constituents());
	311
	312	momentum.SetPxPyPzE(jet.px(), jet.py(), jet.pz(), jet.E());
	313
[d7d2da3]	314	area.reset(0.0, 0.0, 0.0, 0.0);
	315	if(fAreaDefinition) area = itOutputList->area_4vector();
	316
	317	candidate = factory->NewCandidate();
	318
[22dc7fd]	319	time=0;
	320	weightTime=0;
	321
[d7d2da3]	322	inputList.clear();
	323	inputList = sequence->constituents(*itOutputList);
[e4c3fef]	324
[d244bc9]	325	constmomentum.SetPxPyPzE(0.0,0.0,0.0,0.0);;
	326
[d7d2da3]	327	for(itInputList = inputList.begin(); itInputList != inputList.end(); ++itInputList)
	328	{
	329	constituent = static_cast<Candidate*>(fInputArray->At(itInputList->user_index()));
	330
[d244bc9]	331	constmomentum += constituent->Momentum;
	332
[d7d2da3]	333	deta = TMath::Abs(momentum.Eta() - constituent->Momentum.Eta());
	334	dphi = TMath::Abs(momentum.DeltaPhi(constituent->Momentum));
	335	if(deta > detaMax) detaMax = deta;
	336	if(dphi > dphiMax) dphiMax = dphi;
[e4c3fef]	337
[22dc7fd]	338	time += TMath::Sqrt(constituent->Momentum.E())*(constituent->Position.T());
	339	weightTime += TMath::Sqrt(constituent->Momentum.E());
[e4c3fef]	340
[d7d2da3]	341	candidate->AddCandidate(constituent);
	342	}
[e4c3fef]	343
[22dc7fd]	344	avTime = time/weightTime;
[d7d2da3]	345
	346	candidate->Momentum = momentum;
[22dc7fd]	347	candidate->Position.SetT(avTime);
[d7d2da3]	348	candidate->Area.SetPxPyPzE(area.px(), area.py(), area.pz(), area.E());
	349
	350	candidate->DeltaEta = detaMax;
	351	candidate->DeltaPhi = dphiMax;
	352
[9687203]	353	// --- compute N-subjettiness with N = 1,2,3,4,5 ----
[e4c3fef]	354
[9687203]	355	if(fComputeNsubjettiness)
	356	{
	357	Njettiness::AxesMode axisMode;
[e4c3fef]	358
	359	switch(fAxisMode)
	360	{
	361	default:
	362	case 1:
	363	axisMode = Njettiness::wta_kt_axes;
	364	break;
	365	case 2:
	366	axisMode = Njettiness::onepass_wta_kt_axes;
	367	break;
	368	case 3:
	369	axisMode = Njettiness::kt_axes;
	370	break;
	371	case 4:
	372	axisMode = Njettiness::onepass_kt_axes;
	373	break;
	374	}
	375
[9687203]	376	Njettiness::MeasureMode measureMode = Njettiness::unnormalized_measure;
[e4c3fef]	377
[9687203]	378	Nsubjettiness nSub1(1, axisMode, measureMode, fBeta);
	379	Nsubjettiness nSub2(2, axisMode, measureMode, fBeta);
[e4c3fef]	380	Nsubjettiness nSub3(3, axisMode, measureMode, fBeta);
	381	Nsubjettiness nSub4(4, axisMode, measureMode, fBeta);
	382	Nsubjettiness nSub5(5, axisMode, measureMode, fBeta);
	383
	384	candidate->Tau[0] = nSub1(*itOutputList);
	385	candidate->Tau[1] = nSub2(*itOutputList);
	386	candidate->Tau[2] = nSub3(*itOutputList);
	387	candidate->Tau[3] = nSub4(*itOutputList);
	388	candidate->Tau[4] = nSub5(*itOutputList);
[9687203]	389	}
	390
	391
[d7d2da3]	392	fOutputArray->Add(candidate);
	393	}
	394	delete sequence;
	395	}

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