#include <NtupleManager.h>

Public Member Functions
void	BookNtuple ()

void	BookNtuple ()

void	FillChi2 ()

void	FillChi2 ()

void	FillFitParameters (MatrixMeschach *AtWAMatrix)

void	FillFitParameters (MatrixMeschach *AtWAMatrix)

void	FillMeasurements ()

void	FillMeasurements ()

void	FillNtupleTree ()

void	FillNtupleTree ()

void	FillOptObjects (MatrixMeschach *AtWAMatrix)

void	FillOptObjects (MatrixMeschach *AtWAMatrix)

void	InitNtuple ()

void	InitNtuple ()

	NtupleManager ()

	NtupleManager ()

void	WriteNtuple ()

void	WriteNtuple ()

	~NtupleManager ()

	~NtupleManager ()

Static Public Member Functions
static NtupleManager *	getInstance ()

static NtupleManager *	getInstance ()

Private Member Functions
void	GetGlobalAngles (const CLHEP::HepRotation &rmGlob, double *theta)

void	GetGlobalAngles (const CLHEP::HepRotation &rmGlob, double *theta)

Private Attributes
double	Chi2CalibratedParameters

double	Chi2Measurements

TClonesArray *	CloneCopsMeas

TClonesArray *	CloneDistancemeter1DimMeas

TClonesArray *	CloneDistancemeterMeas

TClonesArray *	CloneFitParam

TClonesArray *	CloneOptObject

TClonesArray *	CloneSensor2DMeas

TClonesArray *	CloneTiltmeterMeas

TTree *	CocoaTree

CopsMeas *	CopsMeasA

Distancemeter1DimMeas *	Distancemeter1DimMeasA

DistancemeterMeas *	DistancemeterMeasA

FitParam *	FitParamA

int	NCops

int	NDegreesOfFreedom

int	NDistancemeter

int	NDistancemeter1Dim

int	NFitParameters

int	NOptObjects

int	NSensor2D

int	NTiltmeter

OptObject *	OptObjectA

Sensor2DMeas *	Sensor2DMeasA

TFile *	theRootFile

TiltmeterMeas *	TiltmeterMeasA

Static Private Attributes
static NtupleManager *	instance = 0

Detailed Description

Definition at line 20 of file NtupleManager.h.

Constructor & Destructor Documentation

NtupleManager::NtupleManager ( )

inline

Definition at line 25 of file NtupleManager.h.

Referenced by getInstance().

25 { };

NtupleManager::~NtupleManager ( )

inline

Definition at line 26 of file NtupleManager.h.

26 { };

NtupleManager::NtupleManager ( )

inline

Definition at line 25 of file NtupleManager.h.

25 { };

NtupleManager::~NtupleManager ( )

inline

Definition at line 26 of file NtupleManager.h.

26 { };

Member Function Documentation

void NtupleManager::BookNtuple ( )

Definition at line 41 of file NtupleManager.cc.

References Chi2CalibratedParameters, Chi2Measurements, CloneCopsMeas, CloneDistancemeter1DimMeas, CloneDistancemeterMeas, CloneFitParam, CloneOptObject, CloneSensor2DMeas, CloneTiltmeterMeas, CocoaTree, NCops, NDegreesOfFreedom, NDistancemeter, NDistancemeter1Dim, NFitParameters, NOptObjects, NSensor2D, NTiltmeter, and theRootFile.

Referenced by Fit::startFit().

 {
   theRootFile = new TFile("report.root","RECREATE","Simple ROOT Ntuple");
 
   CocoaTree = new TTree("CocoaTree","CocoaTree"); 
 
   CocoaTree->Branch("Chi2Measurements",&Chi2Measurements,"Chi2Measurements/D");
   CocoaTree->Branch("Chi2CalibratedParameters",&Chi2CalibratedParameters,"Chi2CalibratedParameters/D");
   CocoaTree->Branch("NDegreesOfFreedom",&NDegreesOfFreedom,"NDegreesOfFreedom/I");
 
   CloneFitParam = new TClonesArray("FitParam");
   CocoaTree->Branch("FitParameters",&CloneFitParam,32000,2);
   CocoaTree->Branch("NFitParameters",&NFitParameters,"NFitParameters/I");
 
   CloneOptObject = new TClonesArray("OptObject");
   CocoaTree->Branch("OptObjects",&CloneOptObject,32000,2);
   CocoaTree->Branch("NOptObjects",&NOptObjects,"NOptObjects/I");
 
   CloneSensor2DMeas = new TClonesArray("Sensor2DMeas");
   CocoaTree->Branch("Sensor2DMeasurements",&CloneSensor2DMeas,32000,2);
   CocoaTree->Branch("NSensor2D",&NSensor2D,"NSensor2D/I");
   
   CloneDistancemeterMeas = new TClonesArray("DistancemeterMeas");
   CocoaTree->Branch("DistancemeterMeasurements",&CloneDistancemeterMeas,32000,2);
   CocoaTree->Branch("NDistancemeter",&NDistancemeter,"NDistancemeter/I");
   
   CloneDistancemeter1DimMeas = new TClonesArray("Distancemeter1DimMeas");
   CocoaTree->Branch("Distancemeter1DimMeasurements",&CloneDistancemeter1DimMeas,32000,2);
   CocoaTree->Branch("NDistancemeter1Dim",&NDistancemeter1Dim,"NDistancemeter1Dim/I");
 
   CloneTiltmeterMeas = new TClonesArray("TiltmeterMeas");
   CocoaTree->Branch("TiltmeterMeasurements",&CloneTiltmeterMeas,32000,2);
   CocoaTree->Branch("NTiltmeter",&NTiltmeter,"NTiltmeter/I");
 
   CloneCopsMeas = new TClonesArray("CopsMeas");
   CocoaTree->Branch("CopsMeasurements",&CloneCopsMeas,32000,2);
   CocoaTree->Branch("NCops",&NCops,"NCops/I");
 
   theRootFile->Add(CocoaTree);
 
 //   FitParametersTree = new TTree("FitParametersTree","FitParametersTree");
 //   FitParametersTree->Branch("NFitParameters",&NFitParameters,"NFitParameters/I");
 //   BookFitParameters = false;
 //   theRootFile->Add(FitParametersTree);
 
 //   MeasurementsTree = new TTree("MeasurementsTree","MeasurementsTree");
 //   MeasurementsTree->Branch("NMeasurements",&NMeasurements,"NMeasurements/I");
 //   BookMeasurements = false;
 //   theRootFile->Add(MeasurementsTree);
  
 
 }

void NtupleManager::BookNtuple ( )

void NtupleManager::FillChi2 ( )

Definition at line 129 of file NtupleManager.cc.

References begin, counter::c2, Chi2CalibratedParameters, Chi2Measurements, Model::EntryList(), cuy::ii, Model::MeasurementList(), and NDegreesOfFreedom.

Referenced by Fit::fitNextEvent().

 {
   double chi2meas = 0; 
   double chi2cal = 0;
   ALIint nMeas = 0, nUnk = 0;
 
   //----- Calculate the chi2 of measurements
   std::vector< Measurement* >::const_iterator vmcite;
   for ( vmcite = Model::MeasurementList().begin(); vmcite != Model::MeasurementList().end(); vmcite++) {
     for ( ALIuint ii = 0; ii < ALIuint((*vmcite)->dim()); ii++ ){
       nMeas++;
       double c2 = ( (*vmcite)->value(ii) - (*vmcite)->valueSimulated(ii) ) / (*vmcite)->sigma(ii);
       chi2meas += c2*c2;
     }
   }
 
   //----- Calculate the chi2 of calibrated parameters
   std::vector< Entry* >::iterator veite;
   for ( veite = Model::EntryList().begin();
     veite != Model::EntryList().end(); veite++ ) {
     if ( (*veite)->quality() == 2 ) nUnk++;
     if ( (*veite)->quality() == 1 ) {
 //       std::cout << " " << (*veite)->valueDisplacementByFitting() << " " 
 //      << (*veite)->value << " " << (*veite)->sigma() << std::endl;
       double c2 = (*veite)->valueDisplacementByFitting() / (*veite)->sigma();
       chi2cal += c2*c2;
     }
   }
 
   Chi2Measurements = chi2meas;
   Chi2CalibratedParameters = chi2cal;
   NDegreesOfFreedom = nMeas - nUnk;
 
 }

void NtupleManager::FillFitParameters ( MatrixMeschach * AtWAMatrix )

Definition at line 166 of file NtupleManager.cc.

References begin, CloneOptObject, gather_cfg::cout, Model::EntryList(), FitParamA, FitParam::FittedSigma, FitParam::FittedValue, citk::for(), FittedEntry::getEntryName(), FittedEntry::getName(), FittedEntry::getOptOName(), FittedEntry::getOrder(), FittedEntry::getOrigSigma(), FittedEntry::getOrigValue(), FittedEntry::getQuality(), FittedEntry::getSigma(), FittedEntry::getValue(), if(), cuy::ii, FitParam::InitialSigma, FitParam::InitialValue, MatrixMeschach::Mat(), FitParam::Name, OptObject::Name, NFitParameters, NOptObjects, FitParam::OptObjectIndex, FitParam::Quality, and mathSSE::sqrt().

Referenced by Fit::fitNextEvent().

 {
 
 //   double ParValue[1000], ParError[1000];
   int theMinEntryQuality = 1; 
   int ii = 0;
   std::vector<Entry*>::const_iterator vecite; 
   for ( vecite = Model::EntryList().begin();
     vecite != Model::EntryList().end(); vecite++ ) {
 
     //--- Only for good quality parameters (='unk')
     if ( (*vecite)->quality() >= theMinEntryQuality ) {
 
       ALIint ipos = (*vecite)->fitPos();
       FittedEntry* fe = new FittedEntry( (*vecite), ipos, sqrt(AtWAMatrix->Mat()->me[ipos][ipos]));
 //       if (!BookFitParameters) {
 //  CocoaTree->Branch("NFitParameters",&NFitParameters,"NFitParameters/I:");
 //  ALIstring partype = fe->getName() + "/D";
 //  FitParametersTree->Branch(fe->getName().c_str(), &ParValue[ii], partype.c_str());
 //  ALIstring parerrname = fe->getName() + "_err";
 //  ALIstring parerrtype = parerrname + "/D";
 //  FitParametersTree->Branch(parerrname.c_str(), &ParError[ii], parerrtype.c_str());
 //       }
 //       ParValue[ii] = fe->getValue();
 //       ParError[ii] = fe->getSigma();
      std::cout << "EEE " << (*vecite)->ValueDimensionFactor() << " " << (*vecite)->SigmaDimensionFactor() << " " << fe->getOptOName() << " " << fe->getEntryName() << " " << fe->getName() << " " << fe->getOrder() << " " << fe->getQuality() << " " << (*vecite)->type() << " " << std::endl;
       FitParamA = new( (*CloneFitParam)[ii] ) FitParam();
       FitParamA->Name = fe->getName();
       if (fe->getQuality()==1) FitParamA->Quality = "Calibrated";
       else if (fe->getQuality()==2) FitParamA->Quality = "Unknown";
       for (int no = 0; no<NOptObjects; no++) {
     OptObject* optobj = (OptObject*) CloneOptObject->At(no);
     if (optobj->Name==fe->getOptOName()) FitParamA->OptObjectIndex = no;
       }
       float DF = 1.;
       if ((*vecite)->type()=="centre" || (*vecite)->type()=="length") DF = 1000.;
       FitParamA->InitialValue = DF*fe->getOrigValue()*(*vecite)->ValueDimensionFactor();
       FitParamA->InitialSigma = DF*fe->getOrigSigma()*(*vecite)->SigmaDimensionFactor();
       FitParamA->FittedValue  = DF*fe->getValue()*(*vecite)->ValueDimensionFactor();
       FitParamA->FittedSigma  = DF*fe->getSigma()*(*vecite)->SigmaDimensionFactor();
       ii++;
 
     }
 
   }
 //   BookFitParameters = true;
   NFitParameters = ii;
 //   FitParametersTree->Fill();
 
   /*  
   //---------- Loop sets of entries
   std::vector< FittedEntriesSet* > theFittedEntriesSets;
   std::vector< FittedEntriesSet* >::const_iterator vfescite;
   std::vector< FittedEntry* >::const_iterator vfecite;
   ALIint jj = 1;
   for( vfescite = theFittedEntriesSets.begin(); vfescite != theFittedEntriesSets.end(); vfescite++) {
     //---------- Loop entries
     if( vfescite == theFittedEntriesSets.begin() ) {
     //----- dump entries names if first set 
       ALIint ii = 0;
       for( vfecite = ((*vfescite)->FittedEntries()).begin(); vfecite != ((*vfescite)->FittedEntries()).end(); vfecite++) {
     ALIstring partype = (*vfecite)->getName() + "/D";
     FitParametersTree->Branch((*vfecite)->getName().c_str(), &ParValue[ii], partype.c_str());
     ALIstring parerrname = (*vfecite)->getName() + "_err";
     ALIstring parerrtype = parerrname + "/D";
     FitParametersTree->Branch(parerrname.c_str(), &ParError[ii], parerrtype.c_str());
         ii++;
       }
     }
     ALIint ii = 0;
     for( vfecite = ((*vfescite)->FittedEntries()).begin(); vfecite != ((*vfescite)->FittedEntries()).end(); vfecite++) {
       ParValue[ii] = (*vfecite)->getValue();
       ParError[ii] = (*vfecite)->getSigma();
       ii++;
     }
     NFitParameters = ii;
     FitParametersTree->Fill();
     jj++;
   }
   */
 
 }

void NtupleManager::FillMeasurements ( )

Definition at line 307 of file NtupleManager.cc.

References TiltmeterMeas::AngError, TiltmeterMeas::Angle, begin, CloneOptObject, CopsMeasA, createTree::dd, DistancemeterMeas::DisError, Distancemeter1DimMeas::DisError, DistancemeterMeas::Distance, Distancemeter1DimMeas::Distance, Distancemeter1DimMeasA, DistancemeterMeasA, i, prof2calltree::last, Model::MeasurementList(), OptObject::Name, Sensor2DMeas::Name, DistancemeterMeas::Name, Distancemeter1DimMeas::Name, TiltmeterMeas::Name, CopsMeas::Name, NCops, NDistancemeter, NDistancemeter1Dim, NOptObjects, NSensor2D, NTiltmeter, Sensor2DMeas::OptObjectIndex, DistancemeterMeas::OptObjectIndex, Distancemeter1DimMeas::OptObjectIndex, TiltmeterMeas::OptObjectIndex, CopsMeas::OptObjectIndex, Sensor2DMeas::PosError, CopsMeas::PosError, Sensor2DMeas::Position, CopsMeas::Position, Sensor2DMeasA, TiltmeterMeas::SimulatedAngle, DistancemeterMeas::SimulatedDistance, Distancemeter1DimMeas::SimulatedDistance, Sensor2DMeas::SimulatedPosition, CopsMeas::SimulatedPosition, contentValuesCheck::ss, TiltmeterMeasA, and groupFilesInBlocks::tt.

Referenced by Fit::fitNextEvent().

 {
   //---------- Loop Measurements
   int ss = 0, dd = 0, d1 = 0, tt = 0, cc = 0;
   std::vector< Measurement* >::const_iterator vmcite;
   for ( vmcite = Model::MeasurementList().begin(); vmcite != Model::MeasurementList().end(); vmcite++) {
     std::vector<ALIstring> optonamelist = (*vmcite)->OptONameList(); 
     int last = optonamelist.size() - 1; ALIstring LastOptOName = optonamelist[last];
     int optoind = -999;
     for (int no = 0; no<NOptObjects; no++) {
       OptObject* optobj = (OptObject*) CloneOptObject->At(no);
       if (optobj->Name==LastOptOName) optoind = no;
     }
     //std::cout << "DimSens " << (*vmcite)->type() << " " << (*vmcite)->sigma(0) << " " << LastOptOName << " " << optoind << std::endl;
     if ((*vmcite)->type()=="SENSOR2D") {
       Sensor2DMeasA = new( (*CloneSensor2DMeas)[ss] ) Sensor2DMeas();
       Sensor2DMeasA->Name = (*vmcite)->name();
       Sensor2DMeasA->OptObjectIndex = optoind;
       for (ALIuint i = 0; i<(*vmcite)->dim(); i++) {
     Sensor2DMeasA->Position[i] = 1000.*(*vmcite)->value()[i];
     Sensor2DMeasA->PosError[i] = 1000.*(*vmcite)->sigma()[i];
     Sensor2DMeasA->SimulatedPosition[i] = 1000.*(*vmcite)->valueSimulated(i);
       }
       ss++;
     }
     if ((*vmcite)->type()=="DISTANCEMETER") {
       DistancemeterMeasA = new( (*CloneDistancemeterMeas)[dd] ) DistancemeterMeas();
       DistancemeterMeasA->Name = (*vmcite)->name();
       DistancemeterMeasA->OptObjectIndex = optoind;
       DistancemeterMeasA->Distance = 1000.*(*vmcite)->value()[0];
       DistancemeterMeasA->DisError = 1000.*(*vmcite)->sigma()[0];
       DistancemeterMeasA->SimulatedDistance = 1000.*(*vmcite)->valueSimulated(0);
       dd++;
     }
     if ((*vmcite)->type()=="DISTANCEMETER1DIM") {
       Distancemeter1DimMeasA = new( (*CloneDistancemeter1DimMeas)[d1] ) Distancemeter1DimMeas();
       Distancemeter1DimMeasA->Name = (*vmcite)->name();
       Distancemeter1DimMeasA->OptObjectIndex = optoind;
       Distancemeter1DimMeasA->Distance = 1000.*(*vmcite)->value()[0];
       Distancemeter1DimMeasA->DisError = 1000.*(*vmcite)->sigma()[0];
       Distancemeter1DimMeasA->SimulatedDistance = 1000.*(*vmcite)->valueSimulated(0);
       d1++;
 
     }
     if ((*vmcite)->type()=="TILTMETER") {
       TiltmeterMeasA = new( (*CloneTiltmeterMeas)[tt] ) TiltmeterMeas();
       TiltmeterMeasA->Name = (*vmcite)->name();
       TiltmeterMeasA->OptObjectIndex = optoind;
       TiltmeterMeasA->Angle    = (*vmcite)->value()[0];
       TiltmeterMeasA->AngError = (*vmcite)->sigma()[0];
       TiltmeterMeasA->SimulatedAngle = (*vmcite)->valueSimulated(0);
       tt++;
     }
     if ((*vmcite)->type()=="COPS") {
       CopsMeasA = new( (*CloneCopsMeas)[cc] ) CopsMeas();
       CopsMeasA->Name = (*vmcite)->name();
       CopsMeasA->OptObjectIndex = optoind;
       for (ALIuint i = 0; i<(*vmcite)->dim(); i++) {
     CopsMeasA->Position[i] = 1000.*(*vmcite)->value()[i];
     CopsMeasA->PosError[i] = 1000.*(*vmcite)->sigma()[i];
     CopsMeasA->SimulatedPosition[i] = 1000.*(*vmcite)->valueSimulated(i);
       }
       cc++;
     }
   }
   NSensor2D = ss; 
   NDistancemeter = dd; 
   NDistancemeter1Dim = d1; 
   NTiltmeter = tt; 
   NCops = cc; 
   //   MeasurementsTree->Fill();
 }

void NtupleManager::FillMeasurements ( )

void NtupleManager::FillNtupleTree ( )

Definition at line 114 of file NtupleManager.cc.

References CocoaTree.

Referenced by Fit::fitNextEvent().

 {
   CocoaTree->Fill();
 }

void NtupleManager::FillNtupleTree ( )

void NtupleManager::FillOptObjects ( MatrixMeschach * AtWAMatrix )

Definition at line 251 of file NtupleManager.cc.

References OptObject::AnglesGlobal, OptObject::AnglesLocal, begin, OptObject::CentreGlobal, OptObject::CentreLocal, GetGlobalAngles(), i, cuy::ii, OptObject::Name, NOptObjects, OptObjectA, Model::OptOList(), OptObject::Parent, createTree::pp, theta(), OptObject::Type, XCoor, YCoor, and ZCoor.

Referenced by Fit::fitNextEvent().

 {
 
   int ii = 0;
   std::vector< OpticalObject* >::const_iterator vecobj;
   for ( vecobj = Model::OptOList().begin();
     vecobj != Model::OptOList().end(); vecobj++ ) {
     OptObjectA = new( (*CloneOptObject)[ii] ) OptObject();
 
     OptObjectA->Name =  (*vecobj)->name();
     OptObjectA->Type = (*vecobj)->type();
 
     if (!(*vecobj)->parent()) {
       OptObjectA->Parent = ii;
       ii++;
       continue;
     }
 
     int pp = 0;
     std::vector< OpticalObject* >::const_iterator vecobj2;
     for ( vecobj2 = Model::OptOList().begin();
       vecobj2 != Model::OptOList().end(); vecobj2++ ) {
       if ((*vecobj2)->name()==(*vecobj)->parent()->name()) {
     OptObjectA->Parent = pp;
     continue;
       }
       pp++;
     }
     
     OptObjectA->CentreGlobal[0] = 1000.*(*vecobj)->centreGlobal().x();
     OptObjectA->CentreGlobal[1] = 1000.*(*vecobj)->centreGlobal().y();
     OptObjectA->CentreGlobal[2] = 1000.*(*vecobj)->centreGlobal().z();
 
     OptObjectA->CentreLocal[0] = 1000.*(*vecobj)->centreLocal().x();
     OptObjectA->CentreLocal[1] = 1000.*(*vecobj)->centreLocal().y();
     OptObjectA->CentreLocal[2] = 1000.*(*vecobj)->centreLocal().z();
 
     OptObjectA->AnglesLocal[0] = (*vecobj)->getEntryRMangle(XCoor);
     OptObjectA->AnglesLocal[1] = (*vecobj)->getEntryRMangle(YCoor);
     OptObjectA->AnglesLocal[2] = (*vecobj)->getEntryRMangle(ZCoor);
 
     double theta[3];
     GetGlobalAngles((*vecobj)->rmGlob(), theta);
     for (int i = 0; i<3; i++) OptObjectA->AnglesGlobal[i] = theta[i];
 
     ii++;
 
   }
 
   NOptObjects = ii;
 
 
 }

void NtupleManager::FillOptObjects ( MatrixMeschach * AtWAMatrix )

void NtupleManager::GetGlobalAngles	(	const CLHEP::HepRotation &	rmGlob,
		double *	theta
	)

private

Definition at line 382 of file NtupleManager.cc.

References alpha, beta, funct::cos(), gather_cfg::cout, alignCSCRings::e, M_PI, funct::sin(), and create_public_lumi_plots::xy.

Referenced by FillOptObjects().

 {
 
   double xx = rmGlob.xx(); if (fabs(xx)<1.e-08) xx = 0.;
   double xy = rmGlob.xy(); if (fabs(xy)<1.e-08) xy = 0.;
   double xz = rmGlob.xz(); if (fabs(xz)<1.e-08) xz = 0.;
   double yx = rmGlob.yx(); if (fabs(yx)<1.e-08) yx = 0.;
   double yy = rmGlob.yy(); if (fabs(yy)<1.e-08) yy = 0.;
   double yz = rmGlob.yz(); if (fabs(yz)<1.e-08) yz = 0.;
   double zx = rmGlob.zx(); if (fabs(zx)<1.e-08) zx = 0.;
   double zy = rmGlob.zy(); if (fabs(zy)<1.e-08) zy = 0.;
   double zz = rmGlob.zz(); if (fabs(zz)<1.e-08) zz = 0.;
 
   double beta = asin(-zx);
 
   double alpha, gamma;
   if (fabs(zx)!=1.) {
   
     double sinalpha = zy/cos(beta);
     double cosalpha = zz/cos(beta);
     if (cosalpha>=0) alpha = asin(sinalpha);
   else alpha = M_PI - asin(sinalpha);
   if (alpha>M_PI) alpha -= 2*M_PI;
   
     double singamma = yx/cos(beta);
     double cosgamma = xx/cos(beta);
     if (cosgamma>=0) gamma = asin(singamma);
     else gamma = M_PI - asin(singamma);
     if (gamma>M_PI) gamma -= 2*M_PI;
     
   } else {
 
     alpha = 0.;
     
     double singamma = yz/sin(beta);
     double cosgamma = yy;
     if (cosgamma>=0) gamma = asin(singamma);
     else gamma = M_PI - asin(singamma);
     if (gamma>M_PI) gamma -= 2*M_PI;
 
   }
 
   int GotGlobalAngles = 0;
   if (fabs(xy-(sin(alpha)*sin(beta)*cos(gamma)-sin(gamma)*cos(alpha)))>1.e-08)
     GotGlobalAngles += 1;
   if (fabs(xz-(cos(alpha)*sin(beta)*cos(gamma)+sin(gamma)*sin(alpha)))>1.e-08) 
     GotGlobalAngles += 10;
   if (fabs(yy-(sin(alpha)*sin(beta)*sin(gamma)+cos(gamma)*cos(alpha)))>1.e-08)
     GotGlobalAngles += 100;
   if (fabs(yz-(cos(alpha)*sin(beta)*sin(gamma)-cos(gamma)*sin(alpha)))>1.e-08) 
     GotGlobalAngles += 1000;
   if (GotGlobalAngles>0) 
     std::cout << "NtupleManager Warning: cannot get global rotation: " 
           << GotGlobalAngles << std::endl;
 
   theta[0] = alpha;
   theta[1] = beta;
   theta[2] = gamma;
 
 }

void NtupleManager::GetGlobalAngles	(	const CLHEP::HepRotation &	rmGlob,
		double *	theta
	)

private

NtupleManager * NtupleManager::getInstance ( )

static

Definition at line 29 of file NtupleManager.cc.

References instance, and NtupleManager().

Referenced by Fit::fitNextEvent(), and Fit::startFit().

 {
   if(!instance) {
     instance = new NtupleManager;
   }
   return instance;
 }

static NtupleManager* NtupleManager::getInstance ( )

static

void NtupleManager::InitNtuple ( )

Definition at line 96 of file NtupleManager.cc.

References Chi2CalibratedParameters, Chi2Measurements, CloneFitParam, NCops, NDegreesOfFreedom, NDistancemeter, NDistancemeter1Dim, NFitParameters, NOptObjects, NSensor2D, and NTiltmeter.

Referenced by Fit::fitNextEvent().

 {
   CloneFitParam->Clear();
 
   Chi2Measurements = 0.;
   Chi2CalibratedParameters = 0.;
   NDegreesOfFreedom = 0;
   NFitParameters = 0; 
   NOptObjects = 0; 
   NSensor2D = 0; 
   NDistancemeter = 0; 
   NDistancemeter1Dim = 0; 
   NTiltmeter = 0;
   NCops = 0;
 }

void NtupleManager::WriteNtuple ( )

Definition at line 121 of file NtupleManager.cc.

References theRootFile.

Referenced by Fit::startFit().

 {
   theRootFile->Write();
   theRootFile->Close();
 }

Member Data Documentation

double NtupleManager::Chi2CalibratedParameters

private

Definition at line 60 of file NtupleManager.h.

Referenced by BookNtuple(), FillChi2(), and InitNtuple().

double NtupleManager::Chi2Measurements

private

Definition at line 60 of file NtupleManager.h.

Referenced by BookNtuple(), FillChi2(), and InitNtuple().

TClonesArray * NtupleManager::CloneCopsMeas

private

Definition at line 55 of file NtupleManager.h.

Referenced by BookNtuple().

TClonesArray * NtupleManager::CloneDistancemeter1DimMeas

private

Definition at line 53 of file NtupleManager.h.

Referenced by BookNtuple().

TClonesArray * NtupleManager::CloneDistancemeterMeas

private

Definition at line 52 of file NtupleManager.h.

Referenced by BookNtuple().

TClonesArray * NtupleManager::CloneFitParam

private

Definition at line 49 of file NtupleManager.h.

Referenced by BookNtuple(), and InitNtuple().

TClonesArray * NtupleManager::CloneOptObject

private

Definition at line 50 of file NtupleManager.h.

Referenced by BookNtuple(), FillFitParameters(), and FillMeasurements().

TClonesArray * NtupleManager::CloneSensor2DMeas

private

Definition at line 51 of file NtupleManager.h.

Referenced by BookNtuple().

TClonesArray * NtupleManager::CloneTiltmeterMeas

private

Definition at line 54 of file NtupleManager.h.

Referenced by BookNtuple().

TTree * NtupleManager::CocoaTree

private

Definition at line 45 of file NtupleManager.h.

Referenced by BookNtuple(), and FillNtupleTree().

CopsMeas * NtupleManager::CopsMeasA

private

Definition at line 55 of file NtupleManager.h.

Referenced by FillMeasurements().

Distancemeter1DimMeas * NtupleManager::Distancemeter1DimMeasA

private

Definition at line 53 of file NtupleManager.h.

Referenced by FillMeasurements().

DistancemeterMeas * NtupleManager::DistancemeterMeasA

private

Definition at line 52 of file NtupleManager.h.

Referenced by FillMeasurements().

FitParam * NtupleManager::FitParamA

private

Definition at line 49 of file NtupleManager.h.

Referenced by FillFitParameters().

NtupleManager * NtupleManager::instance = 0

staticprivate

Definition at line 39 of file NtupleManager.h.

Referenced by getInstance().

int NtupleManager::NCops

private

Definition at line 68 of file NtupleManager.h.

Referenced by BookNtuple(), FillMeasurements(), and InitNtuple().

int NtupleManager::NDegreesOfFreedom

private

Definition at line 61 of file NtupleManager.h.

Referenced by BookNtuple(), FillChi2(), and InitNtuple().

int NtupleManager::NDistancemeter

private

Definition at line 65 of file NtupleManager.h.

Referenced by BookNtuple(), FillMeasurements(), and InitNtuple().

int NtupleManager::NDistancemeter1Dim

private

Definition at line 66 of file NtupleManager.h.

Referenced by BookNtuple(), FillMeasurements(), and InitNtuple().

int NtupleManager::NFitParameters

private

Definition at line 62 of file NtupleManager.h.

Referenced by BookNtuple(), FillFitParameters(), and InitNtuple().

int NtupleManager::NOptObjects

private

Definition at line 63 of file NtupleManager.h.

Referenced by BookNtuple(), FillFitParameters(), FillMeasurements(), FillOptObjects(), and InitNtuple().

int NtupleManager::NSensor2D

private

Definition at line 64 of file NtupleManager.h.

Referenced by BookNtuple(), FillMeasurements(), and InitNtuple().

int NtupleManager::NTiltmeter

private

Definition at line 67 of file NtupleManager.h.

Referenced by BookNtuple(), FillMeasurements(), and InitNtuple().

OptObject * NtupleManager::OptObjectA

private

Definition at line 50 of file NtupleManager.h.

Referenced by FillOptObjects().

Sensor2DMeas * NtupleManager::Sensor2DMeasA

private

Definition at line 51 of file NtupleManager.h.

Referenced by FillMeasurements().

TFile * NtupleManager::theRootFile

private

Definition at line 43 of file NtupleManager.h.

Referenced by BookNtuple(), and WriteNtuple().

TiltmeterMeas * NtupleManager::TiltmeterMeasA

private

Definition at line 54 of file NtupleManager.h.

Referenced by FillMeasurements().

Public Member Functions

Static Public Member Functions

Private Member Functions

Private Attributes

Static Private Attributes

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation