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00001 #include "RecoMuon/TrackingTools/interface/MuonErrorMatrix.h"
00002 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00003 #include "FWCore/ParameterSet/interface/FileInPath.h"
00004 
00005 #include "TROOT.h"
00006 #include "TString.h"
00007 #include "TRandom2.h"
00008 #include "TMath.h"
00009 
00010 #include <sstream>
00011 
00012 using namespace std;
00013 
00014 const TString MuonErrorMatrix::vars[5]={"#frac{q}{|p|}","#lambda","#varphi_{0}","X_{T}","Y_{T}"};
00015 
00016 MuonErrorMatrix::MuonErrorMatrix(const edm::ParameterSet & iConfig):theD(0){
00017   theCategory="MuonErrorMatrix";
00018   std::string action = iConfig.getParameter<std::string>("action");
00019 
00020   bool madeFromCff=iConfig.exists("errorMatrixValuesPSet");
00021   edm::ParameterSet errorMatrixValuesPSet;
00022 
00023   std::string fileName;
00024   if (!madeFromCff){ fileName = iConfig.getParameter<std::string>("rootFileName");}
00025   else { errorMatrixValuesPSet =iConfig.getParameter<edm::ParameterSet>("errorMatrixValuesPSet");}
00026   MuonErrorMatrix::action a= use;
00027 
00028    int NPt=5;
00029    std::vector<double> xBins;
00030    double * xBinsArray = 0;
00031    double minPt=1;
00032    double maxPt=200;
00033    int NEta=5;
00034    std::vector<double> yBins;
00035    double * yBinsArray =0;
00036    double minEta=0;
00037    double maxEta=2.5;
00038    int NPhi=1;
00039    double minPhi=-TMath::Pi();
00040    double maxPhi=TMath::Pi();
00041 
00042   if (action!="use"){
00043     a = constructor;
00044     
00045     NPt = iConfig.getParameter<int>("NPt");
00046     if (NPt!=0){
00047       minPt = iConfig.getParameter<double>("minPt");
00048       maxPt = iConfig.getParameter<double>("maxPt");}
00049     else{
00050       xBins = iConfig.getParameter<std::vector<double> >("PtBins");
00051       if (xBins.size()==0){edm::LogError( theCategory)<<"Npt=0 and no entries in the vector. I will do aseg fault soon.";}
00052       NPt = xBins.size()-1;
00053       xBinsArray = &(xBins.front());
00054       minPt = xBins.front();
00055       maxPt = xBins.back();}
00056 
00057     NEta = iConfig.getParameter<int>("NEta");
00058     if (NEta!=0){
00059       minEta = iConfig.getParameter<double>("minEta");
00060       maxEta = iConfig.getParameter<double>("maxEta");}
00061     else{
00062       yBins = iConfig.getParameter<std::vector<double> >("EtaBins");
00063       if (yBins.size()==0){edm::LogError( theCategory)<<"NEta=0 and no entries in the vector. I will do aseg fault soon.";}
00064       NEta = yBins.size()-1;
00065       yBinsArray = &(yBins.front());
00066       minPt = yBins.front();
00067       maxPt = yBins.back();}
00068 
00069     NPhi = iConfig.getParameter<int>("NPhi");
00070     std::stringstream get(iConfig.getParameter<std::string>("minPhi"));
00071     if (get.str() =="-Pi")
00072       { minPhi =-TMath::Pi();}
00073     else if(get.str() =="Pi")
00074       { minPhi =TMath::Pi();}
00075     else { get>>minPhi;}
00076     get.str(iConfig.getParameter<std::string>("maxPhi"));
00077         if (get.str() =="-Pi")
00078       { maxPhi =-TMath::Pi();}
00079     else if(get.str() =="Pi")
00080       { maxPhi =TMath::Pi();}
00081     else { get>>maxPhi;}
00082   }//action!=use
00083   else if (madeFromCff){
00084 
00085     xBins = errorMatrixValuesPSet.getParameter<std::vector<double> >("xAxis");
00086     NPt = xBins.size()-1;
00087     xBinsArray = &(xBins.front());
00088     minPt = xBins.front();
00089     maxPt = xBins.back();
00090     
00091     yBins = errorMatrixValuesPSet.getParameter<std::vector<double> >("yAxis");
00092     NEta = yBins.size()-1;
00093     yBinsArray = &(yBins.front());
00094     minPt = yBins.front();
00095     maxPt = yBins.back();
00096 
00097     std::vector<double> zBins = errorMatrixValuesPSet.getParameter<std::vector<double> >("zAxis");
00098     NPhi=1;
00099     if (zBins.size()!=2){
00100       edm::LogError(theCategory)<<"please specify a zAxis with 2 entries only. more bins not implemented yet.";}
00101     minPhi=zBins.front();
00102     maxPhi=zBins.back();
00103 
00104   }
00105 
00106   if (a==use){
00107     if (!madeFromCff){
00108       edm::LogInfo(theCategory)<<"using an error matrix object from: "<<fileName;
00109       edm::FileInPath data(fileName);
00110       std::string fullpath = data.fullPath();
00111       gROOT->cd();
00112       theD = new TFile(fullpath.c_str());
00113       theD->SetWritable(false);
00114     }else{
00115       static unsigned int neverTheSame=0;
00116       std::stringstream dirName("MuonErrorMatrixDirectory");
00117       dirName<<neverTheSame++;
00118       edm::LogInfo(theCategory)<<"using an error matrix object from configuration file. putting memory histograms to: "<<dirName.str();
00119       gROOT->cd();
00120       theD = new TDirectory(dirName.str().c_str(),"transient directory to host MuonErrorMatrix TProfile3D");
00121       theD->SetWritable(false);
00122     }
00123   }
00124   else{
00125     edm::LogInfo(theCategory)<<"creating  an error matrix object: "<<fileName;
00126     theD = new TFile(fileName.c_str(),"recreate");
00127   }
00128 
00129   if (a==use && !madeFromCff ){gROOT->cd();}
00130   else {theD->cd();}
00131 
00132   for (int i=0;i!=5;i++){for (int j=i;j!=5;j++){
00133       TString pfname(Form("pf3_V%1d%1d",i+1,j+1));
00134       TProfile3D * pf =0;
00135       if (a==use && !madeFromCff ){
00136         //read from the rootfile
00137         edm::LogVerbatim(theCategory)<<"getting "<<pfname<<" from "<<fileName;
00138         pf = (TProfile3D *)theD->Get(pfname);
00139         theData[Pindex(i,j)]=pf;
00140         theData_fast[i][j]=pf;    theData_fast[j][i]=pf;
00141       }
00142       else{
00143         //        curvilinear coordinate system
00144         //need to make some input parameter to be to change the number of bins
00145 
00146         TString pftitle;
00147         if (i==j){pftitle="#sigma_{"+vars[i]+"}";}
00148         else{pftitle="#rho("+vars[i]+","+vars[j]+")";}
00149         edm::LogVerbatim(theCategory)<<"booking "<<pfname<<" into "<<fileName;
00150         pf = new TProfile3D(pfname,pftitle,NPt,minPt,maxPt,NEta,minEta,maxEta,NPhi,minPhi,maxPhi,"S");      
00151         pf->SetXTitle("muon p_{T} [GeV]");
00152         pf->SetYTitle("muon |#eta|");
00153         pf->SetZTitle("muon #varphi");
00154 
00155         //set variable size binning
00156         if (xBinsArray){
00157           pf->GetXaxis()->Set(NPt,xBinsArray);}
00158         if (yBinsArray){
00159           pf->GetYaxis()->Set(NEta,yBinsArray);}
00160 
00161         if (madeFromCff){
00162           edm::ParameterSet pSet = errorMatrixValuesPSet.getParameter<edm::ParameterSet>(pfname.Data());
00163           //set the values from the configuration file itself
00164           std::vector<double> values = pSet.getParameter<std::vector<double> >("values");
00165           unsigned int iX=pf->GetNbinsX();
00166           unsigned int iY=pf->GetNbinsY();
00167           unsigned int iZ=pf->GetNbinsZ();
00168           unsigned int continuous_i=0;
00169           for(unsigned int ix=1;ix<=iX;++ix){
00170             for(unsigned int iy=1;iy<=iY;++iy){
00171               for(unsigned int iz=1;iz<=iZ;++iz){
00172                 LogTrace(theCategory)<<"filling profile:"
00173                                      <<"\n pt (x)= "<<pf->GetXaxis()->GetBinCenter(ix)
00174                                      <<"\n eta (y)= "<<pf->GetYaxis()->GetBinCenter(iy)
00175                                      <<"\n phi (z)= "<<pf->GetZaxis()->GetBinCenter(iz)
00176                                      <<"\n value= "<<values[continuous_i];
00177                 pf->Fill(pf->GetXaxis()->GetBinCenter(ix),
00178                          pf->GetYaxis()->GetBinCenter(iy),
00179                          pf->GetZaxis()->GetBinCenter(iz),
00180                          values[continuous_i++]);
00181               }}}
00182           //term action
00183           std::string tAction = pSet.getParameter<std::string>("action");
00184           if (tAction == "scale")
00185             theTermAction[Pindex(i,j)] = scale;
00186           else if (tAction == "assign")
00187             theTermAction[Pindex(i,j)] = assign;
00188           else{
00189             edm::LogError(theCategory)<<" wrong configuration: term action: "<<tAction<<" is not recognized.";
00190             theTermAction[Pindex(i,j)] = error;
00191           }
00192           
00193         }
00194       }
00195 
00196       LogDebug(theCategory)<<" index "<<i<<":"<<j<<" -> "<<Pindex(i,j);
00197       theData[Pindex(i,j)]=pf;
00198       theData_fast[i][j]=pf;      theData_fast[j][i]=pf;
00199       if (!pf){
00200         edm::LogError(theCategory)<<" profile "<<pfname<<" in file "<<fileName<<" is not valid. exiting.";
00201         exit(1);
00202       }
00203     }}
00204     
00205   //verify it
00206   for (int i=0;i!=15;i++){ 
00207     if (theData[i]) {edm::LogVerbatim(theCategory)<<i<<" :"<<theData[i]->GetName()
00208                                                   <<" "<< theData[i]->GetTitle()<<std::endl;}}
00209  
00210 }
00211 
00212 //void MuonErrorMatrix::writeIntoCFF(){}
00213 
00214 void MuonErrorMatrix::close(){
00215   //close the file
00216   if (theD){
00217     theD->cd();
00218     //write to it first if constructor
00219     if (theD->IsWritable()){
00220       for (int i=0;i!=15;i++){ if (theData[i]) { theData[i]->Write();}}}
00221     theD->Close();
00222   }}
00223 
00224 MuonErrorMatrix::~MuonErrorMatrix()  {
00225   close();
00226 }
00227 
00228 
00229 
00230 CurvilinearTrajectoryError MuonErrorMatrix::get(GlobalVector momentum,bool convolute)  {
00231   AlgebraicSymMatrix55 V;
00232   //retrieves a 55 matrix containing (i,i)^2 and (i,j)*(i,i)*(j,j)
00233   for (int i=0;i!=5;i++){for (int j=i;j!=5;j++){
00234       V(i,j) = Value(momentum,i,j,convolute);}}
00235   return CurvilinearTrajectoryError(V);}
00236 
00237 CurvilinearTrajectoryError MuonErrorMatrix::getFast(GlobalVector momentum) {
00238   //will be faster but make assumptions that could be broken at some point
00239   //  same bining for all TProfile
00240   AlgebraicSymMatrix55 V;
00241 
00242   double pT = momentum.perp();
00243   double eta = fabs(momentum.eta());
00244   double phi = momentum.phi();
00245 
00246   //assume all the same axis in X,Y,Z
00247   int iBin_x= findBin(theData_fast[0][0]->GetXaxis(),pT);
00248   int iBin_y= findBin(theData_fast[0][0]->GetYaxis(),eta);
00249   int iBin_z= findBin(theData_fast[0][0]->GetZaxis(),phi);
00250 
00251   //retreive values
00252   double values[5][5]; //sigma_i and rho_ij
00253   for (int i=0;i!=5;i++){for (int j=i;j!=5;j++){
00254       values[i][j]=theData_fast[i][j]->GetBinContent(iBin_x, iBin_y, iBin_z);
00255     }}
00256 
00257   for (int i=0;i!=5;i++){for (int j=i;j!=5;j++){
00258       if (i==j){
00259         //sigma_i * sigma_i
00260         V(i,j) = values[i][j];
00261         V(i,j)*=V(i,j);
00262       }
00263       else{
00264         //sigma_i * sigma_j * rho_ij
00265         V(i,j) = values[i][i] * values[j][j] * values[i][j];
00266       }
00267     }}
00268 
00269   return CurvilinearTrajectoryError(V);}
00270 
00271 
00272 
00273 /*CurvilinearTrajectoryError MuonErrorMatrix::get_random(GlobalVector momentum)  { 
00274   static TRandom2 rand;
00275   AlgebraicSymMatrix55 V;//result
00276   //first proceed with diagonal elements
00277   for (int i=0;i!=5;i++){
00278   V(i,i)=rand.Gaus( Value(momentum,i,i), Rms(momentum,i,i));}
00279 
00280   //now proceed with the correlations
00281   for (int i=0;i!=5;i++){for (int j=i+1;j<5;j++){
00282       double corr = rand.Gaus( Value(momentum,i,j), Rms(momentum,i,j));
00283       //assign the covariance from correlation and sigmas
00284       V(i,j)= corr * sqrt( V[i][i] * V[j][j]);}}
00285       return CurvilinearTrajectoryError(V);  }
00286 */
00287 
00288 int MuonErrorMatrix::findBin(TAxis * axis, double value){
00289   //find the proper bin, protecting against under/over flow
00290   int result = axis->FindBin(value);
00291   if (result <= 0) result=1; //protect against under flow
00292   else if (result > axis->GetNbins() ) result = axis->GetNbins();
00293   return result;}
00294 
00295 
00296 double MuonErrorMatrix::Value(GlobalVector & momentum, int i, int j,bool convolute)  {
00297   double result=0;
00298   TProfile3D * ij = Index(i,j);
00299   if (!ij) {edm::LogError(theCategory)<<"cannot get the profile ("<<i<<":"<<j<<")"; return result;}
00300   
00301   double pT = momentum.perp();
00302   double eta = fabs(momentum.eta());
00303   double phi = momentum.phi();
00304 
00305   int iBin_x= findBin(ij->GetXaxis(),pT);
00306   int iBin_y= findBin(ij->GetYaxis(),eta);
00307   int iBin_z= findBin(ij->GetZaxis(),phi);
00308 
00309   if (convolute){
00310   if (i!=j){
00311     //return the covariance = correlation*sigma_1 *sigma_2;
00312     TProfile3D * ii = Index(i,i);
00313     TProfile3D * jj = Index(j,j);
00314     if (!ii){edm::LogError(theCategory)<<"cannot get the profile ("<<i<<":"<<i<<")"; return result;}
00315     if (!jj){edm::LogError(theCategory)<<"cannot get the profile ("<<j<<":"<<j<<")"; return result;}
00316 
00317 
00318     int iBin_i_x = findBin(ii->GetXaxis(),pT);
00319     int iBin_i_y = findBin(ii->GetYaxis(),eta);
00320     int iBin_i_z = findBin(ii->GetZaxis(),phi);
00321     int iBin_j_x = findBin(jj->GetXaxis(),pT);
00322     int iBin_j_y = findBin(jj->GetYaxis(),eta);
00323     int iBin_j_z = findBin(jj->GetZaxis(),phi);
00324 
00325     double corr = ij->GetBinContent(iBin_x,iBin_y,iBin_z);
00326     double sigma_1 = (ii->GetBinContent(iBin_i_x,iBin_i_y,iBin_i_z));
00327     double sigma_2 = (jj->GetBinContent(iBin_j_x,iBin_j_y,iBin_j_z));
00328 
00329     
00330     result=corr*sigma_1*sigma_2;
00331     LogDebug(theCategory)<<"for: (pT,eta,phi)=("<<pT<<", "<<eta<<", "<<phi<<") nterms are"
00332                          <<"\nrho["<<i<<","<<j<<"]: "<<corr<<" ["<< iBin_x<<", "<<iBin_y<<", "<<iBin_z<<"]"
00333                          <<"\nsigma["<<i<<","<<i<<"]: "<< sigma_1
00334                          <<"\nsigma["<<j<<","<<j<<"]: "<< sigma_2
00335                          <<"Covariance["<<i<<","<<j<<"] is: "<<result;
00336     return result;
00337   }
00338   else{
00339     //return the variance = sigma_1 **2
00340     //    result=ij->GetBinContent(iBin);
00341     result=ij->GetBinContent(iBin_x,iBin_y,iBin_z);
00342     result*=result;
00343     LogDebug(theCategory)<<"for: (pT,eta,phi)=("<<pT<<", "<<eta<<", "<<phi<<") sigma^2["<<i<<","<<j<<"] is: "<<result;
00344     return result;
00345   }
00346   }else{
00347     //do not convolute
00348     result=ij->GetBinContent(iBin_x,iBin_y,iBin_z);
00349     return result;
00350   }
00351 }
00352 
00353 double MuonErrorMatrix::Rms(GlobalVector & momentum, int i, int j)  {
00354   double result=0;
00355   TProfile3D * ij = Index(i,j);
00356   if (!ij){edm::LogError(theCategory)<<"cannot get the profile ("<<i<<":"<<i<<")"; return result;} 
00357   double pT = momentum.perp();
00358   double eta = fabs(momentum.eta());
00359   double phi = momentum.phi();
00360   
00361   int iBin_x= ij->GetXaxis()->FindBin(pT);
00362   int iBin_y= ij->GetYaxis()->FindBin(eta);
00363   int iBin_z= ij->GetZaxis()->FindBin(phi);
00364   result=ij->GetBinError(iBin_x,iBin_y,iBin_z);
00365 
00366   LogDebug(theCategory)<<"for: (pT,eta,phi)=("<<pT<<", "<<eta<<", "<<phi<<") error["<<i<<","<<j<<"] is: "<<result;
00367   return result;
00368 }
00369 
00370 double MuonErrorMatrix::Term(const AlgebraicSymMatrix55 & curv, int i, int j){
00371   //return sigma or correlation factor
00372   double result=0;
00373   if (i==j){
00374     result = curv(i,j);
00375     if (result<0){
00376       //check validity of this guy
00377       edm::LogError("MuonErrorMatrix")<<"invalid term in the error matrix.\n sii: "<< result;
00378       return 0;}
00379     return sqrt(result);}
00380   else{
00381     double si = curv(i,i);
00382     double sj = curv(j,j);
00383 
00384     if (si<=0 || sj<=0){
00385       edm::LogError("MuonErrorMatrix")<<"invalid term in the error matrix.\n si: "
00386                                 <<si<<" sj: "<<sj<<". result will be corrupted\n"<<curv;
00387       return 0;}
00388 
00389     si=sqrt(si);
00390     sj=sqrt(sj);
00391     //check validity
00392 
00393     return result = curv(i,j)/(si*sj);}
00394   //by default
00395   return 0;
00396 }
00397 
00398 
00399 void MuonErrorMatrix::multiply(CurvilinearTrajectoryError & initial_error, const CurvilinearTrajectoryError & scale_error){
00400   //scale term by term the matrix
00401   const AlgebraicSymMatrix55 & scale_matrix=scale_error.matrix();
00402   AlgebraicSymMatrix55 revised_matrix = initial_error.matrix();
00403   // the true type of the matrix is such that [i][j] is the same memory object as [j][i]: looping i:0-5, j:0-5 double multiply the terms
00404   // need to loop only on i:0-5, j:i-5
00405   for(int i = 0;i!=5;i++){for(int j = i;j!=5;j++){
00406       revised_matrix(i,j)*=scale_matrix(i,j);
00407     }}
00408   initial_error = CurvilinearTrajectoryError(revised_matrix);
00409 }
00410 bool MuonErrorMatrix::divide(CurvilinearTrajectoryError & num_error, const CurvilinearTrajectoryError & denom_error){
00411   //divide term by term the matrix
00412   const AlgebraicSymMatrix55 & denom_matrix=denom_error.matrix();
00413   AlgebraicSymMatrix55 num_matrix = num_error.matrix();
00414   // the true type of the matrix is such that [i][j] is the same memory object as [j][i]: looping i:0-5, j:0-5 double multiply the terms
00415   // need to loop only on i:0-5, j:i-5
00416   for(int i = 0;i!=5;i++){for(int j = i;j!=5;j++){
00417       if (denom_matrix(i,j)==0) return false;
00418       num_matrix(i,j)/=denom_matrix(i,j);
00419     }}
00420   num_error = CurvilinearTrajectoryError(num_matrix);
00421   return true;
00422 }
00423 
00424 void MuonErrorMatrix::simpleTerm(const AlgebraicSymMatrix55 & input, AlgebraicSymMatrix55 & output){
00425   for(int i = 0;i!=5;i++){for(int j = i;j!=5;j++){
00426       if (i==j)
00427         output(i,j) = sqrt(input(i,j)); //sigma
00428       else
00429         output(i,j) = input(i,j) / sqrt( input(i,i)* input(j,j)); //rho
00430     }}
00431 }
00432 
00433 void MuonErrorMatrix::complicatedTerm(const AlgebraicSymMatrix55 & input, AlgebraicSymMatrix55 & output){
00434 
00435   for(int i = 0;i!=5;i++){for(int j = i;j!=5;j++){
00436       if (i==j)
00437         output(i,j) = input(i,j)*input(i,j); //sigma squared
00438       else
00439         output(i,j) = input(i,j)*input(i,i)*input(j,j); //rho*sigma*sigma
00440     }}
00441 }
00442 
00443 
00444 
00445 void MuonErrorMatrix::adjust(FreeTrajectoryState & state){
00446 
00447   LogDebug(theCategory+"|Adjust")<<"state: \n"<<state;
00448   AlgebraicSymMatrix55 simpleTerms;
00449   simpleTerm(state.curvilinearError(), simpleTerms);
00450   //the above contains sigma(i), rho(i,j)
00451   LogDebug(theCategory+"|Adjust")<<"state sigma(i), rho(i,j): \n"<<simpleTerms;
00452 
00453   AlgebraicSymMatrix55 simpleValues=get(state.momentum(),false).matrix();
00454   LogDebug(theCategory+"|Adjust")<<"config: (i,i), (i,j): \n"<<simpleValues;
00455 
00456   for(int i = 0;i!=5;i++){for(int j = i;j!=5;j++){
00457       //check on each term for desired action
00458       switch(theTermAction[Pindex(i,j)]){
00459       case scale: 
00460         {
00461           simpleTerms(i,j) *= simpleValues(i,j);
00462           break;
00463         }
00464       case assign:
00465         {
00466           simpleTerms(i,j) = simpleValues(i,j);
00467           break;
00468         }
00469       case error:
00470         {
00471           edm::LogError(theCategory+"|Adjust")<<" cannot properly adjust for term: "<<i <<","<<j;
00472         }
00473       }
00474     }}
00475   LogDebug(theCategory+"|Adjust")<<"updated state sigma(i), rho(i,j): \n"<<simpleTerms;
00476 
00477   AlgebraicSymMatrix55 finalTerms;
00478   complicatedTerm(simpleTerms, finalTerms);
00479   LogDebug(theCategory+"|Adjust")<<"updated state COV(i,j): \n"<<finalTerms;  
00480   
00481   CurvilinearTrajectoryError oMat(finalTerms);
00482   state = FreeTrajectoryState(state.parameters(), oMat);
00483   LogDebug(theCategory+"|Adjust")<<"updated state:\n"<<state;
00484 }
00485 
00486 
00487 
00488 void MuonErrorMatrix::adjust(TrajectoryStateOnSurface & state){
00489 
00490   AlgebraicSymMatrix55 simpleTerms;
00491   simpleTerm(state.curvilinearError(), simpleTerms);
00492   LogDebug(theCategory+"|Adjust")<<"state sigma(i), rho(i,j): \n"<<simpleTerms;
00493 
00494   AlgebraicSymMatrix55 simpleValues= get(state.globalMomentum(),false).matrix();
00495   LogDebug(theCategory+"|Adjust")<<"config: (i,i), (i,j):\n"<<simpleValues;
00496 
00497   for(int i = 0;i!=5;i++){for(int j = i;j!=5;j++){
00498       //check on each term for desired action
00499       switch(theTermAction[Pindex(i,j)]){
00500       case scale: 
00501         {
00502           simpleTerms(i,j) *= simpleValues(i,j);
00503           break;
00504         }
00505       case assign:
00506         {
00507           simpleTerms(i,j) = simpleValues(i,j);
00508           break;
00509         }
00510       case error:
00511         {
00512           edm::LogError(theCategory+"|Adjust")<<" cannot properly adjust for term: "<<i <<","<<j;
00513         }
00514       }
00515     }}
00516   LogDebug(theCategory+"|Adjust")<<"updated state sigma(i), rho(i,j): \n"<<simpleTerms;
00517 
00518   AlgebraicSymMatrix55 finalTerms;
00519   complicatedTerm(simpleTerms, finalTerms);
00520   LogDebug(theCategory+"|Adjust")<<"updated state COV(i,j): \n"<<finalTerms;  
00521 
00522   CurvilinearTrajectoryError oMat(finalTerms);
00523   state = TrajectoryStateOnSurface(state.globalParameters(),
00524                                    oMat,
00525                                    state.surface(),
00526                                    state.surfaceSide(),
00527                                    state.weight());
00528   LogDebug(theCategory+"|Adjust")<<"updated state:\n"<<state;
00529 }