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source: git/modules/VertexFinder4D.cc@ 8284b74

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ImprovedOutputFile Timing dual_readout llp

Last change on this file since 8284b74 was 8284b74, checked in by Michele Selvaggi <michele.selvaggi@…>, 8 years ago
added 4D vertexing
Property mode set to `100644`
File size: 31.0 KB

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[8284b74]	1	/** \class VertexFinder4D
	2	*
	3	* Cluster vertices from tracks using deterministic annealing and timing information
	4	*
	5	* \authors M. Selvaggi, L. Grey
	6	*
	7	*/
	8
	9
	10	#include "modules/VertexFinder4D.h"
	11	#include "classes/DelphesClasses.h"
	12	#include "classes/DelphesFactory.h"
	13	#include "classes/DelphesFormula.h"
	14	#include "classes/DelphesPileUpReader.h"
	15
	16	#include "ExRootAnalysis/ExRootResult.h"
	17	#include "ExRootAnalysis/ExRootFilter.h"
	18	#include "ExRootAnalysis/ExRootClassifier.h"
	19
	20	#include "TMath.h"
	21	#include "TString.h"
	22	#include "TFormula.h"
	23	#include "TRandom3.h"
	24	#include "TObjArray.h"
	25	#include "TDatabasePDG.h"
	26	#include "TLorentzVector.h"
	27	#include "TMatrixT.h"
	28	#include "TVector3.h"
	29
	30	static const Double_t mm = 1.;
	31	static const Double_t m = 1000.*mm;
	32	static const Double_t ns = 1.;
	33	static const Double_t s = 1.e+9 *ns;
	34	static const Double_t c_light = 2.99792458e+8 * m/s;
	35
	36
	37	namespace {
	38	constexpr double dtCutOff = 4.0;
	39
	40	bool recTrackLessZ1(const VertexFinder4D::track_t & tk1,
	41	const VertexFinder4D::track_t & tk2)
	42	{
	43	return tk1.z < tk2.z;
	44	}
	45	}
	46
	47
	48	//------------------------------------------------------------------------------
	49
	50	VertexFinder4D::VertexFinder4D() :
	51	fSigma(0), fMinPT(0), fMaxEta(0), fSeedMinPT(0), fMinNDF(0), fGrowSeeds(0)
	52	{
	53	}
	54
	55	//------------------------------------------------------------------------------
	56
	57	VertexFinder4D::~VertexFinder4D()
	58	{
	59	}
	60
	61	//------------------------------------------------------------------------------
	62
	63	void VertexFinder4D::Init()
	64	{
	65
	66	fVerbose = GetBool("Verbose", 1);
	67	fSigma = GetDouble("Sigma", 3.0);
	68	fMinPT = GetDouble("MinPT", 0.1);
	69	fMaxEta = GetDouble("MaxEta", 10.0);
	70	fSeedMinPT = GetDouble("SeedMinPT", 5.0);
	71	fMinNDF = GetInt("MinNDF", 4);
	72	fGrowSeeds = GetInt("GrowSeeds", 1);
	73
	74	// setting everything in cm to be able to compare easily with Lindsey code
	75	useTc_=true;
	76	betamax_=0.1;
	77	betastop_ =1.0;
	78	coolingFactor_=0.8;
	79	maxIterations_=100;
	80	vertexSize_=0.05; // 0.5 mm
	81	dzCutOff_=4.0; // Adaptive Fitter uses 3.0 but that appears to be a bit tight here sometimes
	82	d0CutOff_=3.0;
	83
	84	fInputArray = ImportArray(GetString("InputArray", "TrackSmearing/tracks"));
	85	fItInputArray = fInputArray->MakeIterator();
	86
	87	fOutputArray = ExportArray(GetString("OutputArray", "tracks"));
	88	fVertexOutputArray = ExportArray(GetString("VertexOutputArray", "vertices"));
	89	}
	90
	91	//------------------------------------------------------------------------------
	92
	93	void VertexFinder4D::Finish()
	94	{
	95	if(fItInputArray) delete fItInputArray;
	96	}
	97
	98	//------------------------------------------------------------------------------
	99
	100	void VertexFinder4D::Process()
	101	{
	102	Candidate candidate, track;
	103	TObjArray *ClusterArray;
	104	ClusterArray = new TObjArray;
	105	TIterator *ItClusterArray;
	106	Int_t ivtx = 0;
	107
	108	// clusterize tracks in Z
	109	clusterize(fInputArray, ClusterArray);
	110
	111	if (fVerbose){std::cout << " clustering returned "<< ClusterArray->GetEntriesFast() << " clusters from " << fInputArray->GetEntriesFast() << " selected tracks" <<std::endl;}
	112
	113
	114	//loop over vertex candidates
	115	ItClusterArray = ClusterArray->MakeIterator();
	116	ItClusterArray->Reset();
	117	while((candidate = static_cast<Candidate*>(ItClusterArray->Next())))
	118	{
	119	double meantime = 0.;
	120	double expv_x2 = 0.;
	121	double normw = 0.;
	122	double errtime = 0;
	123
	124	double meanpos = 0.;
	125	double meanerr2 = 0.;
	126	double normpos = 0.;
	127	double errpos = 0.;
	128
	129	double sumpt2 = 0.;
	130
	131	int itr = 0;
	132
	133	// loop over tracks belonging to this vertex
	134	TIter it1(candidate->GetCandidates());
	135	it1.Reset();
	136	while((track = static_cast<Candidate*>(it1.Next())))
	137	{
	138
	139	itr++;
	140	// TBC: the time is in ns for now TBC
	141	double t = track->Position.T()/c_light;
	142	double l = track->L/c_light;
	143	double dt = track->ErrorT/c_light;
	144
	145	const double time = t-l;
	146	const double inverr = 1.0/dt;
	147	meantime += time*inverr;
	148	expv_x2 += timetimeinverr;
	149	normw += inverr;
	150
	151	// compute error position TBC
	152	const double pt = track->Momentum.Pt();
	153	const double z = track->DZ;
	154	const double err_pt = track->ErrorPT;
	155	const double err_z = track->ErrorDZ;
	156
	157	const double wi = (pt/(err_pterr_z))(pt/(err_pt*err_z));
	158	meanpos += z*wi;
	159
	160	meanerr2 += err_zerr_zwi;
	161	normpos += wi;
	162	sumpt2 += pt*pt;
	163
	164	// while we are here store cluster index in tracks
	165	track->ClusterIndex = ivtx;
	166
	167	}
	168
	169
	170	meantime = meantime/normw;
	171	expv_x2 = expv_x2/normw;
	172	errtime = TMath::Sqrt((expv_x2 - meantime*meantime)/itr);
	173
	174	meanpos = meanpos/normpos;
	175	meanerr2 = meanerr2/normpos;
	176	errpos = TMath::Sqrt(meanerr2/itr);
	177
	178	candidate->Position.SetXYZT(0.0, 0.0, meanpos10.0 , meantimec_light);
	179	candidate->PositionError.SetXYZT(0.0, 0.0, errpos10.0 , errtimec_light);
	180	candidate->SumPT2 = sumpt2;
	181	candidate->ClusterNDF = itr;
	182	candidate->ClusterIndex = ivtx;
	183
	184	ivtx++;
	185
	186	if (fVerbose){
	187	std::cout << "x,y,z";
	188	std::cout << ",t";
	189	std::cout << "=" << candidate->Position.X()/10.0 <<" " << candidate->Position.Y()/10.0 << " " << candidate->Position.Z()/10.0;
	190	std::cout << " " << candidate->Position.T()/c_light;
	191	std::cout << std::endl;
	192	}
	193	}// end of cluster loop
	194
	195
	196	if(fVerbose){
	197	std::cout << "PrimaryVertexProducerAlgorithm::vertices candidates =" << ClusterArray->GetEntriesFast() << std::endl;
	198	}
	199
	200	//TBC maybe this can be done later
	201	// sort vertices by pt**2 vertex (aka signal vertex tagging)
	202	/*if(pvs.size()>1){
	203	sort(pvs.begin(), pvs.end(), VertexHigherPtSquared());
	204	}
	205	*/
	206
	207	delete ClusterArray;
	208
	209	}
	210
	211	//------------------------------------------------------------------------------
	212
	213
	214	void VertexFinder4D::clusterize(const TObjArray & tracks, TObjArray & clusters)
	215	{
	216	if(fVerbose) {
	217	cout << "###################################################" << endl;
	218	cout << "# VertexFinder4D::clusterize nt="<<tracks.GetEntriesFast() << endl;
	219	cout << "###################################################" << endl;
	220	}
	221
	222	Candidate *candidate;
	223
	224	vector< Candidate > pv=vertices(tracks);
	225
	226	cout<<"test"<<endl;
	227	if(fVerbose){ cout << "# VertexFinder4D::clusterize pv.size="<<pv.size() << endl; }
	228	if (pv.size()==0){ return; }
	229
	230	// convert into vector of candidates
	231	//TObjArray *ClusterArray = pv.begin()->GetCandidates();
	232	//Candidate aCluster = static_cast<Candidate>(&(pv.at(0)));
	233	Candidate *aCluster = &(pv.at(0));
	234
	235	// fill into clusters and merge
	236
	237
	238	if( fVerbose ) {
	239	std::cout << '\t' << 0;
	240	std::cout << ' ' << pv.begin()->Position.Z()/10.0 << ' ' << pv.begin()->Position.T()/c_light << std::endl;
	241	}
	242
	243	for(vector<Candidate>::iterator k=pv.begin()+1; k!=pv.end(); k++){
	244	if( fVerbose ) {
	245	std::cout << '\t' << std::distance(pv.begin(),k);
	246	std::cout << ' ' << k->Position.Z() << ' ' << k->Position.T() << std::endl;
	247	}
	248
	249
	250	// TBC - check units here
	251	if ( std::abs(k->Position.Z() - (k-1)->Position.Z())/10.0 > (2*vertexSize_) \|\|
	252	std::abs(k->Position.T() - (k-1)->Position.Z())/c_light > 2*0.010 ) {
	253	// close a cluster
	254	clusters.Add(aCluster);
	255	//aCluster.clear();
	256	}
	257	//for(unsigned int i=0; i<k->GetCandidates().GetEntriesFast(); i++){
	258	aCluster = &*k;
	259	//}
	260
	261	}
	262	clusters.Add(aCluster);
	263
	264	if(fVerbose) { std::cout << "# VertexFinder4D::clusterize clusters.size="<<clusters.GetEntriesFast() << std::endl; }
	265
	266	}
	267
	268
	269	//------------------------------------------------------------------------------
	270
	271	vector< Candidate >
	272	VertexFinder4D::vertices(const TObjArray & tracks, const int verbosity)
	273	{
	274	Candidate *candidate;
	275	UInt_t clusterIndex = 0;
	276	vector< Candidate > clusters;
	277
	278	vector<track_t> tks=fill(tracks);
	279
	280	unsigned int nt=tks.size();
	281	double rho0=0.0; // start with no outlier rejection
	282
	283	if (tks.empty()) return clusters;
	284
	285	vector<vertex_t> y; // the vertex prototypes
	286
	287	// initialize:single vertex at infinite temperature
	288	vertex_t vstart;
	289	vstart.z=0.;
	290	vstart.t=0.;
	291	vstart.pk=1.;
	292	y.push_back(vstart);
	293	int niter=0; // number of iterations
	294
	295	// estimate first critical temperature
	296	double beta=beta0(betamax_, tks, y);
	297	niter=0; while((update(beta, tks,y)>1.e-6) && (niter++ < maxIterations_)){ }
	298
	299	// annealing loop, stop when T<Tmin (i.e. beta>1/Tmin)
	300	while(beta<betamax_){
	301
	302	if(useTc_){
	303	update(beta, tks,y);
	304	while(merge(y,beta)){update(beta, tks,y);}
	305	split(beta, tks,y, 1.);
	306	beta=beta/coolingFactor_;
	307	}else{
	308	beta=beta/coolingFactor_;
	309	splitAll(y);
	310	}
	311
	312
	313	// make sure we are not too far from equilibrium before cooling further
	314	niter=0; while((update(beta, tks,y)>1.e-6) && (niter++ < maxIterations_)){ }
	315
	316	}
	317
	318	if(useTc_){
	319	// last round of splitting, make sure no critical clusters are left
	320	update(beta, tks,y);
	321	while(merge(y,beta)){update(beta, tks,y);}
	322	unsigned int ntry=0;
	323	while( split(beta, tks,y,1.) && (ntry++<10) ){
	324	niter=0;
	325	while((update(beta, tks,y)>1.e-6) && (niter++ < maxIterations_)){}
	326	merge(y,beta);
	327	update(beta, tks,y);
	328	}
	329	}else{
	330	// merge collapsed clusters
	331	while(merge(y,beta)){update(beta, tks,y);}
	332	if(fVerbose ){ cout << "dump after 1st merging " << endl; dump(beta,y,tks,2);}
	333	}
	334
	335	// switch on outlier rejection
	336	rho0=1./nt; for(vector<vertex_t>::iterator k=y.begin(); k!=y.end(); k++){ k->pk =1.; } // democratic
	337	niter=0; while((update(beta, tks,y,rho0) > 1.e-8) && (niter++ < maxIterations_)){ }
	338	if(fVerbose ){ cout << "rho0=" << rho0 << " niter=" << niter << endl; dump(beta,y,tks,2);}
	339
	340
	341	// merge again (some cluster split by outliers collapse here)
	342	while(merge(y,tks.size())){}
	343	if(fVerbose ){ cout << "dump after 2nd merging " << endl; dump(beta,y,tks,2);}
	344
	345
	346	// continue from freeze-out to Tstop (=1) without splitting, eliminate insignificant vertices
	347	while(beta<=betastop_){
	348	while(purge(y,tks,rho0, beta)){
	349	niter=0; while((update(beta, tks, y, rho0) > 1.e-6) && (niter++ < maxIterations_)){ }
	350	}
	351	beta/=coolingFactor_;
	352	niter=0; while((update(beta, tks, y, rho0) > 1.e-6) && (niter++ < maxIterations_)){ }
	353	}
	354
	355
	356	// // new, one last round of cleaning at T=Tstop
	357	// while(purge(y,tks,rho0, beta)){
	358	// niter=0; while((update(beta, tks,y,rho0) > 1.e-6) && (niter++ < maxIterations_)){ }
	359	// }
	360
	361
	362	if(fVerbose){
	363	cout << "Final result, rho0=" << rho0 << endl;
	364	dump(beta,y,tks,2);
	365	}
	366
	367
	368	// select significant tracks and use a TransientVertex as a container
	369	//GlobalError dummyError;
	370
	371	// ensure correct normalization of probabilities, should make double assginment reasonably impossible
	372	for(unsigned int i=0; i<nt; i++){
	373	tks[i].Z=rho0exp(-beta( dzCutOff_*dzCutOff_));
	374	for(vector<vertex_t>::iterator k=y.begin(); k!=y.end(); k++){
	375	tks[i].Z += k->pk * exp(-betaEik(tks[i],k));
	376	}
	377	}
	378
	379	for(vector<vertex_t>::iterator k=y.begin(); k!=y.end(); k++){
	380
	381	DelphesFactory *factory = GetFactory();
	382	candidate = factory->NewCandidate();
	383
	384	//cout<<"new vertex"<<endl;
	385	//GlobalPoint pos(0, 0, k->z);
	386	double time = k->t;
	387	double z = k->z;
	388	//vector< reco::TransientTrack > vertexTracks;
	389	//double max_track_time_err2 = 0;
	390	double mean = 0.;
	391	double expv_x2 = 0.;
	392	double normw = 0.;
	393	for(unsigned int i=0; i<nt; i++){
	394	const double invdt = 1.0/std::sqrt(tks[i].dt2);
	395	if(tks[i].Z>0){
	396	double p = k->pk * exp(-betaEik(tks[i],k)) / tks[i].Z;
	397	if( (tks[i].pi>0) && ( p > 0.5 ) ){
	398	//std::cout << "pushing back " << i << ' ' << tks[i].tt << std::endl;
	399	//vertexTracks.push_back(*(tks[i].tt)); tks[i].Z=0;
	400
	401	candidate->AddCandidate(tks[i].tt); tks[i].Z=0;
	402
	403	mean += tks[i].tinvdtp;
	404	expv_x2 += tks[i].ttks[i].tinvdt*p;
	405	normw += invdt*p;
	406	} // setting Z=0 excludes double assignment
	407	}
	408	}
	409
	410	mean = mean/normw;
	411	expv_x2 = expv_x2/normw;
	412	const double time_var = expv_x2 - mean*mean;
	413	const double crappy_error_guess = std::sqrt(time_var);
	414	/*GlobalError dummyErrorWithTime(0,
	415	0,0,
	416	0,0,0,
	417	0,0,0,crappy_error_guess);*/
	418	//TransientVertex v(pos, time, dummyErrorWithTime, vertexTracks, 5);
	419
	420
	421	candidate->ClusterIndex = clusterIndex++;;
	422	//candidate->ClusterNDF = 5;
	423	//candidate->ClusterSigma = fSigma;
	424	//candidate->SumPT2 = cluster->second;
	425
	426	// TBC units - set everything back in mm
	427
	428	//cout<<z<<","<<time<<endl;
	429
	430	candidate->Position.SetXYZT(0.0, 0.0, z10.0 , timec_light);
	431
	432	// TBC - fill error later ...
	433	candidate->PositionError.SetXYZT(0.0, 0.0, 0.0 , crappy_error_guess*c_light);
	434
	435	//fVertexOutputArray->Add(candidate);
	436
	437	clusterIndex++;
	438	clusters.push_back(*candidate);
	439	}
	440
	441
	442	return clusters;
	443
	444	}
	445
	446	//------------------------------------------------------------------------------
	447
	448	vector<VertexFinder4D::track_t>
	449	VertexFinder4D::fill( const TObjArray & tracks )const{
	450
	451	Candidate *candidate;
	452	track_t tr;
	453	Double_t z, dz, t, l, dt, d0, d0error;
	454
	455
	456	// prepare track data for clustering
	457	vector< track_t > tks;
	458
	459	// loop over input tracks
	460	fItInputArray->Reset();
	461	cout<<"new fill"<<endl;
	462	while((candidate = static_cast<Candidate*>(fItInputArray->Next())))
	463	{
	464	cout<<"new track"<<endl;
	465	//TBC everything in cm
	466	z = candidate->DZ/10;
	467	tr.z = z;
	468	dz = candidate->ErrorDZ/10;
	469	tr.dz2 = dz*dz // track error
	470	// TBC: beamspot size induced error, take 0 for now.
	471	// + (std::pow(beamspot.BeamWidthX()cos(phi),2.)+std::pow(beamspot.BeamWidthY()sin(phi),2.))/std::pow(tantheta,2.) // beam-width induced
	472	+ vertexSize_*vertexSize_; // intrinsic vertex size, safer for outliers and short lived decays
	473
	474	// TBC: the time is in ns for now TBC
	475	t = candidate->Position.T()/c_light;
	476	l = candidate->L/c_light;
	477
	478	tr.t = (t-l); //
	479	tr.dtz = 0.;
	480	dt = candidate->ErrorT/c_light;
	481	tr.dt2 = dtdt + 0.0100.010; // the ~injected~ timing error, need to add a small minimum vertex size in time
	482	//cout<<"t error: "<<dt<<endl;
	483	if (d0CutOff_>0){
	484
	485	d0 = TMath::Abs(candidate->D0)/10.0;
	486	d0error = candidate->ErrorD0/10.0;
	487
	488	tr.pi=1./(1.+exp((d0d0)/(d0errord0error) - d0CutOff_*d0CutOff_)); // reduce weight for high ip tracks
	489	// cout<<"IP: "<<d0<<endl;
	490	// cout<<"IP error: "<<d0error<<endl;
	491
	492	}else{
	493	tr.pi=1.;
	494	}
	495	tr.tt=&(*candidate);
	496	tr.Z=1.;
	497	if( tr.pi > 1e-3 ) {
	498	tks.push_back(tr);
	499	}
	500
	501	cout<<"dz2: "<<tr.dz2<<endl;
	502	cout<<"t: "<<tr.t<<endl;
	503	cout<<"z: "<<tr.z<<endl;
	504	cout<<"dt2: "<<tr.dt2<<endl;
	505	cout<<"pi: "<<tr.pi<<endl;
	506
	507
	508
	509	}
	510
	511	return tks;
	512	}
	513
	514
	515
	516
	517	//------------------------------------------------------------------------------
	518
	519	double VertexFinder4D::Eik(const track_t & t, const vertex_t &k ) const {
	520	return std::pow(t.z-k.z,2.)/t.dz2 + std::pow(t.t - k.t,2.)/t.dt2;
	521	}
	522
	523	//--------------------------------------------------------------------------------
	524
	525	void VertexFinder4D::dump(const double beta, const vector<vertex_t> & y, const vector<track_t> & tks0, int verbosity)const{
	526
	527	// copy and sort for nicer printout
	528	vector<track_t> tks;
	529	for(vector<track_t>::const_iterator t=tks0.begin(); t!=tks0.end(); t++){tks.push_back(*t); }
	530	std::stable_sort(tks.begin(), tks.end(), recTrackLessZ1);
	531
	532	cout << "-----DAClusterizerInZT::dump ----" << endl;
	533	cout << " beta=" << beta << " betamax= " << betamax_ << endl;
	534	cout << " z= ";
	535	cout.precision(4);
	536	for(vector<vertex_t>::const_iterator k=y.begin(); k!=y.end(); k++){
	537	cout << setw(8) << fixed << k->z;
	538	}
	539	cout << endl << " t= ";
	540	for(vector<vertex_t>::const_iterator k=y.begin(); k!=y.end(); k++){
	541	cout << setw(8) << fixed << k->t;
	542	}
	543	cout << endl << "T=" << setw(15) << 1./beta <<" Tc= ";
	544	for(vector<vertex_t>::const_iterator k=y.begin(); k!=y.end(); k++){
	545	cout << setw(8) << fixed << k->Tc ;
	546	}
	547
	548	cout << endl << " pk=";
	549	double sumpk=0;
	550	for(vector<vertex_t>::const_iterator k=y.begin(); k!=y.end(); k++){
	551	cout << setw(8) << setprecision(3) << fixed << k->pk;
	552	sumpk+=k->pk;
	553	}
	554	cout << endl;
	555
	556	if(verbosity>0){
	557	double E=0, F=0;
	558	cout << endl;
	559	cout << "---- z +/- dz t +/- dt ip +/-dip pt phi eta weights ----" << endl;
	560	cout.precision(4);
	561	for(unsigned int i=0; i<tks.size(); i++){
	562	if (tks[i].Z>0){ F-=log(tks[i].Z)/beta;}
	563	double tz= tks[i].z;
	564	double tt= tks[i].t;
	565	cout << setw (3)<< i << ")" << setw (8) << fixed << setprecision(4)<< tz << " +/-" << setw (6)<< sqrt(tks[i].dz2)
	566	<< setw(8) << fixed << setprecision(4) << tt << " +/-" << setw(6) << std::sqrt(tks[i].dt2) ;
	567
	568
	569	// TBC - see later if we want to keep these print outs
	570	/*
	571	if(tks[i].tt->track().quality(reco::TrackBase::highPurity)){ cout << " *";}else{cout <<" ";}
	572	if(tks[i].tt->track().hitPattern().hasValidHitInFirstPixelBarrel()){cout <<"+";}else{cout << "-";}
	573
	574	cout << setw(1) << tks[i].tt->track().hitPattern().pixelBarrelLayersWithMeasurement(); // see DataFormats/TrackReco/interface/HitPattern.h
	575	cout << setw(1) << tks[i].tt->track().hitPattern().pixelEndcapLayersWithMeasurement();
	576	cout << setw(1) << hex << tks[i].tt->track().hitPattern().trackerLayersWithMeasurement()-tks[i].tt->track().hitPattern().pixelLayersWithMeasurement() <<dec;
	577	cout << "=" << setw(1)<<hex <<tks[i].tt->track().trackerExpectedHitsOuter().numberOfHits() << dec;
	578
	579	Measurement1D IP=tks[i].tt->stateAtBeamLine().transverseImpactParameter();
	580	cout << setw (8) << IP.value() << "+/-" << setw (6) << IP.error();
	581	cout << " " << setw(6) << setprecision(2) << tks[i].tt->track().pt()*tks[i].tt->track().charge();
	582	cout << " " << setw(5) << setprecision(2) << tks[i].tt->track().phi()
	583	<< " " << setw(5) << setprecision(2) << tks[i].tt->track().eta() ;
	584	*/
	585	double sump=0.;
	586	for(vector<vertex_t>::const_iterator k=y.begin(); k!=y.end(); k++){
	587	if((tks[i].pi>0)&&(tks[i].Z>0)){
	588	//double p=pik(beta,tks[i],*k);
	589	double p=k->pk * std::exp(-betaEik(tks[i],k)) / tks[i].Z;
	590	if( p > 0.0001){
	591	cout << setw (8) << setprecision(3) << p;
	592	}else{
	593	cout << " . ";
	594	}
	595	E+=pEik(tks[i],k);
	596	sump+=p;
	597	}else{
	598	cout << " ";
	599	}
	600	}
	601	cout << endl;
	602	}
	603	cout << endl << "T=" << 1/beta << " E=" << E << " n="<< y.size() << " F= " << F << endl << "----------" << endl;
	604	}
	605	}
	606
	607
	608
	609
	610
	611	//------------------------------------------------------------------------------
	612
	613
	614	double VertexFinder4D::update( double beta,
	615	vector<track_t> & tks,
	616	vector<vertex_t> & y ) const {
	617	//update weights and vertex positions
	618	// mass constrained annealing without noise
	619	// returns the squared sum of changes of vertex positions
	620
	621	unsigned int nt=tks.size();
	622
	623	//initialize sums
	624	double sumpi=0;
	625	for(vector<vertex_t>::iterator k=y.begin(); k!=y.end(); ++k){
	626	k->sw=0.; k->swz=0.; k->swt = 0.; k->se=0.;
	627	k->swE=0.; k->Tc=0.;
	628	}
	629
	630
	631	// loop over tracks
	632	for(unsigned int i=0; i<nt; i++){
	633
	634	// update pik and Zi
	635	double Zi = 0.;
	636	for(vector<vertex_t>::iterator k=y.begin(); k!=y.end(); ++k){
	637	k->ei = std::exp(-betaEik(tks[i],k));// cache exponential for one track at a time
	638	Zi += k->pk * k->ei;
	639	}
	640	tks[i].Z=Zi;
	641
	642	// normalization for pk
	643	if (tks[i].Z>0){
	644	sumpi += tks[i].pi;
	645	// accumulate weighted z and weights for vertex update
	646	for(vector<vertex_t>::iterator k=y.begin(); k!=y.end(); ++k){
	647	k->se += tks[i].pi* k->ei / Zi;
	648	const double w = k->pk * tks[i].pi* k->ei / ( Zi * ( tks[i].dz2 * tks[i].dt2 ) );
	649	k->sw += w;
	650	k->swz += w * tks[i].z;
	651	k->swt += w * tks[i].t;
	652	k->swE += w * Eik(tks[i],*k);
	653	}
	654	}else{
	655	sumpi += tks[i].pi;
	656	}
	657
	658
	659	} // end of track loop
	660
	661
	662	// now update z and pk
	663	double delta=0;
	664	for(vector<vertex_t>::iterator k=y.begin(); k!=y.end(); k++){
	665	if ( k->sw > 0){
	666	const double znew = k->swz/k->sw;
	667	const double tnew = k->swt/k->sw;
	668	delta += std::pow(k->z-znew,2.) + std::pow(k->t-tnew,2.);
	669	k->z = znew;
	670	k->t = tnew;
	671	k->Tc = 2.*k->swE/k->sw;
	672	}else{
	673	if(fVerbose){cout << " a cluster melted away ? pk=" << k->pk << " sumw=" << k->sw << endl;}
	674	k->Tc=-1;
	675	}
	676
	677	k->pk = k->pk * k->se / sumpi;
	678	}
	679
	680	// return how much the prototypes moved
	681	return delta;
	682	}
	683
	684	//------------------------------------------------------------------------------
	685
	686	double VertexFinder4D::update( double beta,
	687	vector<track_t> & tks,
	688	vector<vertex_t> & y,
	689	double & rho0 ) const {
	690	// MVF style, no more vertex weights, update tracks weights and vertex positions, with noise
	691	// returns the squared sum of changes of vertex positions
	692
	693	unsigned int nt=tks.size();
	694
	695	//initialize sums
	696	for(vector<vertex_t>::iterator k=y.begin(); k!=y.end(); k++){
	697	k->sw = 0.; k->swz = 0.; k->swt = 0.; k->se = 0.;
	698	k->swE = 0.; k->Tc=0.;
	699	}
	700
	701
	702	// loop over tracks
	703	for(unsigned int i=0; i<nt; i++){
	704
	705	// update pik and Zi and Ti
	706	double Zi = rho0std::exp(-beta(dzCutOff_*dzCutOff_));// cut-off (eventually add finite size in time)
	707	//double Ti = 0.; // dt0std::exp(-betadtCutOff_);
	708	for(vector<vertex_t>::iterator k=y.begin(); k!=y.end(); k++){
	709	k->ei = std::exp(-betaEik(tks[i],k));// cache exponential for one track at a time
	710	Zi += k->pk * k->ei;
	711	}
	712	tks[i].Z=Zi;
	713
	714	// normalization
	715	if (tks[i].Z>0){
	716	// accumulate weighted z and weights for vertex update
	717	for(vector<vertex_t>::iterator k=y.begin(); k!=y.end(); k++){
	718	k->se += tks[i].pi* k->ei / Zi;
	719	double w = k->pk * tks[i].pi * k->ei /( Zi * ( tks[i].dz2 * tks[i].dt2 ) );
	720	k->sw += w;
	721	k->swz += w * tks[i].z;
	722	k->swt += w * tks[i].t;
	723	k->swE += w * Eik(tks[i],*k);
	724	}
	725	}
	726
	727
	728	} // end of track loop
	729
	730
	731	// now update z
	732	double delta=0;
	733	for(vector<vertex_t>::iterator k=y.begin(); k!=y.end(); k++){
	734	if ( k->sw > 0){
	735	const double znew=k->swz/k->sw;
	736	const double tnew=k->swt/k->sw;
	737	delta += std::pow(k->z-znew,2.) + std::pow(k->t-tnew,2.);
	738	k->z = znew;
	739	k->t = tnew;
	740	k->Tc = 2*k->swE/k->sw;
	741	}else{
	742	if(fVerbose){cout << " a cluster melted away ? pk=" << k->pk << " sumw=" << k->sw << endl;}
	743	k->Tc = 0;
	744	}
	745
	746	}
	747
	748	// return how much the prototypes moved
	749	return delta;
	750	}
	751
	752	//------------------------------------------------------------------------------
	753
	754	bool VertexFinder4D::merge(vector<vertex_t> & y, int nt)const{
	755	// merge clusters that collapsed or never separated, return true if vertices were merged, false otherwise
	756
	757	if(y.size()<2) return false;
	758
	759	for(vector<vertex_t>::iterator k=y.begin(); (k+1)!=y.end(); k++){
	760	if( std::abs( (k+1)->z - k->z ) < 1.e-3 &&
	761	std::abs( (k+1)->t - k->t ) < 1.e-3 ){ // with fabs if only called after freeze-out (splitAll() at highter T)
	762	double rho = k->pk + (k+1)->pk;
	763	if(rho>0){
	764	k->z = ( k->pk * k->z + (k+1)->z * (k+1)->pk)/rho;
	765	k->t = ( k->pk * k->t + (k+1)->t * (k+1)->pk)/rho;
	766	}else{
	767	k->z = 0.5*(k->z + (k+1)->z);
	768	k->t = 0.5*(k->t + (k+1)->t);
	769	}
	770	k->pk = rho;
	771
	772	y.erase(k+1);
	773	return true;
	774	}
	775	}
	776
	777	return false;
	778	}
	779
	780	//------------------------------------------------------------------------------
	781
	782	bool VertexFinder4D::merge(vector<vertex_t> & y, double & beta)const{
	783	// merge clusters that collapsed or never separated,
	784	// only merge if the estimated critical temperature of the merged vertex is below the current temperature
	785	// return true if vertices were merged, false otherwise
	786	if(y.size()<2) return false;
	787
	788	for(vector<vertex_t>::iterator k=y.begin(); (k+1)!=y.end(); k++){
	789	if ( std::abs((k+1)->z - k->z) < 2.e-3 &&
	790	std::abs((k+1)->t - k->t) < 2.e-3 ) {
	791	double rho=k->pk + (k+1)->pk;
	792	double swE=k->swE+(k+1)->swE - k->pk * (k+1)->pk / rho * ( std::pow((k+1)->z - k->z,2.) +
	793	std::pow((k+1)->t - k->t,2.) );
	794	double Tc=2*swE/(k->sw+(k+1)->sw);
	795
	796	if(Tc*beta<1){
	797	if(rho>0){
	798	k->z = ( k->pk * k->z + (k+1)->z * (k+1)->pk)/rho;
	799	k->t = ( k->pk * k->t + (k+1)->t * (k+1)->pk)/rho;
	800	}else{
	801	k->z = 0.5*(k->z + (k+1)->z);
	802	k->t = 0.5*(k->t + (k+1)->t);
	803	}
	804	k->pk = rho;
	805	k->sw += (k+1)->sw;
	806	k->swE = swE;
	807	k->Tc = Tc;
	808	y.erase(k+1);
	809	return true;
	810	}
	811	}
	812	}
	813
	814	return false;
	815	}
	816
	817	//------------------------------------------------------------------------------
	818
	819	bool VertexFinder4D::purge(vector<vertex_t> & y, vector<track_t> & tks, double & rho0, const double beta)const{
	820	// eliminate clusters with only one significant/unique track
	821	if(y.size()<2) return false;
	822
	823	unsigned int nt=tks.size();
	824	double sumpmin=nt;
	825	vector<vertex_t>::iterator k0=y.end();
	826	for(vector<vertex_t>::iterator k=y.begin(); k!=y.end(); k++){
	827	int nUnique=0;
	828	double sump=0;
	829	double pmax=k->pk/(k->pk+rho0exp(-betadzCutOff_*dzCutOff_));
	830	for(unsigned int i=0; i<nt; i++){
	831	if(tks[i].Z > 0){
	832	double p = k->pk * std::exp(-betaEik(tks[i],k)) / tks[i].Z ;
	833	sump+=p;
	834	if( (p > 0.9*pmax) && (tks[i].pi>0) ){ nUnique++; }
	835	}
	836	}
	837
	838	if((nUnique<2)&&(sump<sumpmin)){
	839	sumpmin=sump;
	840	k0=k;
	841	}
	842	}
	843
	844	if(k0!=y.end()){
	845	if(fVerbose){cout << "eliminating prototype at " << k0->z << "," << k0->t
	846	<< " with sump=" << sumpmin << endl;}
	847	//rho0+=k0->pk;
	848	y.erase(k0);
	849	return true;
	850	}else{
	851	return false;
	852	}
	853	}
	854
	855	//------------------------------------------------------------------------------
	856
	857	double VertexFinder4D::beta0( double betamax,
	858	vector<track_t> & tks,
	859	vector<vertex_t> & y ) const {
	860
	861	double T0=0; // max Tc for beta=0
	862	// estimate critical temperature from beta=0 (T=inf)
	863	unsigned int nt=tks.size();
	864
	865	for(vector<vertex_t>::iterator k=y.begin(); k!=y.end(); k++){
	866
	867	// vertex fit at T=inf
	868	double sumwz=0.;
	869	double sumwt=0.;
	870	double sumw=0.;
	871	for(unsigned int i=0; i<nt; i++){
	872	double w = tks[i].pi/(tks[i].dz2 * tks[i].dt2);
	873	sumwz += w*tks[i].z;
	874	sumwt += w*tks[i].t;
	875	sumw += w;
	876	}
	877	k->z = sumwz/sumw;
	878	k->t = sumwt/sumw;
	879
	880	// estimate Tcrit, eventually do this in the same loop
	881	double a=0, b=0;
	882	for(unsigned int i=0; i<nt; i++){
	883	double dx = tks[i].z-(k->z);
	884	double dt = tks[i].t-(k->t);
	885	double w = tks[i].pi/(tks[i].dz2 * tks[i].dt2);
	886	a += w*(std::pow(dx,2.)/tks[i].dz2 + std::pow(dt,2.)/tks[i].dt2);
	887	b += w;
	888	}
	889	double Tc= 2.*a/b; // the critical temperature of this vertex
	890	if(Tc>T0) T0=Tc;
	891	}// vertex loop (normally there should be only one vertex at beta=0)
	892
	893	if (T0>1./betamax){
	894	return betamax/pow(coolingFactor_, int(std::log(T0*betamax)/std::log(coolingFactor_))-1 );
	895	}else{
	896	// ensure at least one annealing step
	897	return betamax/coolingFactor_;
	898	}
	899	}
	900
	901	//------------------------------------------------------------------------------
	902
	903	bool VertexFinder4D::split( double beta,
	904	vector<track_t> & tks,
	905	vector<vertex_t> & y,
	906	double threshold ) const {
	907	// split only critical vertices (Tc >~ T=1/beta <==> beta*Tc>~1)
	908	// an update must have been made just before doing this (same beta, no merging)
	909	// returns true if at least one cluster was split
	910
	911	constexpr double epsilon=1e-3; // split all single vertices by 10 um
	912	bool split=false;
	913
	914	// avoid left-right biases by splitting highest Tc first
	915
	916	std::vector<std::pair<double, unsigned int> > critical;
	917	for(unsigned int ik=0; ik<y.size(); ik++){
	918	if (beta*y[ik].Tc > 1.){
	919	critical.push_back( make_pair(y[ik].Tc, ik));
	920	}
	921	}
	922	std::stable_sort(critical.begin(), critical.end(), std::greater<std::pair<double, unsigned int> >() );
	923
	924	for(unsigned int ic=0; ic<critical.size(); ic++){
	925	unsigned int ik=critical[ic].second;
	926	// estimate subcluster positions and weight
	927	double p1=0, z1=0, t1=0, w1=0;
	928	double p2=0, z2=0, t2=0, w2=0;
	929	//double sumpi=0;
	930	for(unsigned int i=0; i<tks.size(); i++){
	931	if(tks[i].Z>0){
	932	//sumpi+=tks[i].pi;
	933	double p=y[ik].pk * exp(-betaEik(tks[i],y[ik])) / tks[i].Ztks[i].pi;
	934	double w=p/(tks[i].dz2 * tks[i].dt2);
	935	if(tks[i].z < y[ik].z){
	936	p1+=p; z1+=wtks[i].z; t1+=wtks[i].t; w1+=w;
	937	}else{
	938	p2+=p; z2+=wtks[i].z; t2+=wtks[i].t; w2+=w;
	939	}
	940	}
	941	}
	942	if(w1>0){ z1=z1/w1; t1=t1/w1;} else{ z1=y[ik].z-epsilon; t1=y[ik].t-epsilon; }
	943	if(w2>0){ z2=z2/w2; t2=t2/w2;} else{ z2=y[ik].z+epsilon; t2=y[ik].t+epsilon;}
	944
	945	// reduce split size if there is not enough room
	946	if( ( ik > 0 ) && ( y[ik-1].z>=z1 ) ){ z1=0.5(y[ik].z+y[ik-1].z); t1=0.5(y[ik].t+y[ik-1].t); }
	947	if( ( ik+1 < y.size()) && ( y[ik+1].z<=z2 ) ){ z2=0.5(y[ik].z+y[ik+1].z); t2=0.5(y[ik].t+y[ik+1].t); }
	948
	949	// split if the new subclusters are significantly separated
	950	if( (z2-z1)>epsilon \|\| std::abs(t2-t1) > epsilon){
	951	split=true;
	952	vertex_t vnew;
	953	vnew.pk = p1*y[ik].pk/(p1+p2);
	954	y[ik].pk= p2*y[ik].pk/(p1+p2);
	955	vnew.z = z1;
	956	vnew.t = t1;
	957	y[ik].z = z2;
	958	y[ik].t = t2;
	959	y.insert(y.begin()+ik, vnew);
	960
	961	// adjust remaining pointers
	962	for(unsigned int jc=ic; jc<critical.size(); jc++){
	963	if (critical[jc].second>ik) {critical[jc].second++;}
	964	}
	965	}
	966	}
	967
	968	// stable_sort(y.begin(), y.end(), clusterLessZ);
	969	return split;
	970	}
	971
	972	//------------------------------------------------------------------------------
	973
	974	void VertexFinder4D::splitAll( vector<vertex_t> & y ) const {
	975
	976
	977	constexpr double epsilon=1e-3; // split all single vertices by 10 um
	978	constexpr double zsep=2*epsilon; // split vertices that are isolated by at least zsep (vertices that haven't collapsed)
	979	constexpr double tsep=2*epsilon; // check t as well
	980
	981	vector<vertex_t> y1;
	982
	983	for(vector<vertex_t>::iterator k=y.begin(); k!=y.end(); k++){
	984	if ( ( (k==y.begin())\|\| (k-1)->z < k->z - zsep) && (((k+1)==y.end() )\|\| (k+1)->z > k->z + zsep)) {
	985	// isolated prototype, split
	986	vertex_t vnew;
	987	vnew.z = k->z - epsilon;
	988	vnew.t = k->t - epsilon;
	989	(*k).z = k->z + epsilon;
	990	(*k).t = k->t + epsilon;
	991	vnew.pk= 0.5* (*k).pk;
	992	(k).pk= 0.5 (*k).pk;
	993	y1.push_back(vnew);
	994	y1.push_back(*k);
	995
	996	}else if( y1.empty() \|\| (y1.back().z < k->z -zsep) \|\| (y1.back().t < k->t - tsep) ){
	997	y1.push_back(*k);
	998	}else{
	999	y1.back().z -= epsilon;
	1000	y1.back().t -= epsilon;
	1001	k->z += epsilon;
	1002	k->t += epsilon;
	1003	y1.push_back(*k);
	1004	}
	1005	}// vertex loop
	1006
	1007	y=y1;
	1008	}
	1009
	1010
	1011

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