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00001 // $Id: MuonResiduals6DOFFitter.cc,v 1.9 2011/10/12 23:44:11 khotilov Exp $
00002 
00003 #ifdef STANDALONE_FITTER
00004 #include "MuonResiduals6DOFFitter.h"
00005 #else
00006 #include "Alignment/MuonAlignmentAlgorithms/interface/MuonResiduals6DOFFitter.h"
00007 #endif
00008 
00009 #include "TH2F.h"
00010 #include "TMath.h"
00011 #include "TTree.h"
00012 #include "TFile.h"
00013 
00014 namespace
00015 {
00016   TMinuit *minuit;
00017 
00018   double sum_of_weights;
00019   double number_of_hits;
00020   bool weight_alignment;
00021 
00022   double residual_x(double delta_x, double delta_y, double delta_z,
00023                     double delta_phix, double delta_phiy, double delta_phiz,
00024                     double track_x, double track_y, double track_dxdz, double track_dydz,
00025                     double alphax, double residual_dxdz)
00026   {
00027     return delta_x
00028         - track_dxdz * delta_z
00029         - track_y * track_dxdz * delta_phix
00030         + track_x * track_dxdz * delta_phiy
00031         - track_y * delta_phiz
00032         + residual_dxdz * alphax;
00033   }
00034 
00035   double residual_y(double delta_x, double delta_y, double delta_z,
00036                     double delta_phix, double delta_phiy, double delta_phiz,
00037                     double track_x, double track_y, double track_dxdz, double track_dydz,
00038                     double alphay, double residual_dydz)
00039   {
00040     return delta_y
00041         - track_dydz * delta_z
00042         - track_y * track_dydz * delta_phix
00043         + track_x * track_dydz * delta_phiy
00044         + track_x * delta_phiz
00045         + residual_dydz * alphay;
00046   }
00047 
00048   double residual_dxdz(double delta_x, double delta_y, double delta_z,
00049                        double delta_phix, double delta_phiy, double delta_phiz,
00050                        double track_x, double track_y, double track_dxdz, double track_dydz)
00051   {
00052     return -track_dxdz * track_dydz * delta_phix
00053         + (1. + track_dxdz * track_dxdz) * delta_phiy
00054         - track_dydz * delta_phiz;
00055   }
00056 
00057   double residual_dydz(double delta_x, double delta_y, double delta_z,
00058                        double delta_phix, double delta_phiy, double delta_phiz,
00059                        double track_x, double track_y, double track_dxdz, double track_dydz)
00060   {
00061     return -(1. + track_dydz * track_dydz) * delta_phix
00062         + track_dxdz * track_dydz * delta_phiy
00063         + track_dxdz * delta_phiz;
00064   }
00065 
00066   Double_t residual_x_trackx_TF1(Double_t *xx, Double_t *p)    { return 10.*residual_x(p[0], p[1], p[2], p[3], p[4], p[5], xx[0], p[7],  p[8],  p[9],  p[10], p[11]); }
00067   Double_t residual_x_tracky_TF1(Double_t *xx, Double_t *p)    { return 10.*residual_x(p[0], p[1], p[2], p[3], p[4], p[5], p[6],  xx[0], p[8],  p[9],  p[10], p[11]); }
00068   Double_t residual_x_trackdxdz_TF1(Double_t *xx, Double_t *p) { return 10.*residual_x(p[0], p[1], p[2], p[3], p[4], p[5], p[6],  p[7],  xx[0], p[9],  p[10], p[11]); }
00069   Double_t residual_x_trackdydz_TF1(Double_t *xx, Double_t *p) { return 10.*residual_x(p[0], p[1], p[2], p[3], p[4], p[5], p[6],  p[7],  p[8],  xx[0], p[10], p[11]); }
00070 
00071   Double_t residual_y_trackx_TF1(Double_t *xx, Double_t *p)    { return 10.*residual_y(p[0], p[1], p[2], p[3], p[4], p[5], xx[0], p[7], p[8], p[9], p[12], p[13]); }
00072   Double_t residual_y_tracky_TF1(Double_t *xx, Double_t *p)    { return 10.*residual_y(p[0], p[1], p[2], p[3], p[4], p[5], p[6], xx[0], p[8], p[9], p[12], p[13]); }
00073   Double_t residual_y_trackdxdz_TF1(Double_t *xx, Double_t *p) { return 10.*residual_y(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], xx[0], p[9], p[12], p[13]); }
00074   Double_t residual_y_trackdydz_TF1(Double_t *xx, Double_t *p) { return 10.*residual_y(p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], p[8], xx[0], p[12], p[13]); }
00075 
00076   Double_t residual_dxdz_trackx_TF1(Double_t *xx, Double_t *p)    { return 1000.*residual_dxdz(p[0], p[1], p[2], p[3], p[4], p[5], xx[0], p[7],  p[8],  p[9]); }
00077   Double_t residual_dxdz_tracky_TF1(Double_t *xx, Double_t *p)    { return 1000.*residual_dxdz(p[0], p[1], p[2], p[3], p[4], p[5], p[6],  xx[0], p[8],  p[9]); }
00078   Double_t residual_dxdz_trackdxdz_TF1(Double_t *xx, Double_t *p) { return 1000.*residual_dxdz(p[0], p[1], p[2], p[3], p[4], p[5], p[6],  p[7],  xx[0], p[9]); }
00079   Double_t residual_dxdz_trackdydz_TF1(Double_t *xx, Double_t *p) { return 1000.*residual_dxdz(p[0], p[1], p[2], p[3], p[4], p[5], p[6],  p[7],  p[8],  xx[0]); }
00080 
00081   Double_t residual_dydz_trackx_TF1(Double_t *xx, Double_t *p)    { return 1000.*residual_dydz(p[0], p[1], p[2], p[3], p[4], p[5], xx[0], p[7],  p[8],  p[9]); }
00082   Double_t residual_dydz_tracky_TF1(Double_t *xx, Double_t *p)    { return 1000.*residual_dydz(p[0], p[1], p[2], p[3], p[4], p[5], p[6],  xx[0], p[8],  p[9]); }
00083   Double_t residual_dydz_trackdxdz_TF1(Double_t *xx, Double_t *p) { return 1000.*residual_dydz(p[0], p[1], p[2], p[3], p[4], p[5], p[6],  p[7],  xx[0], p[9]); }
00084   Double_t residual_dydz_trackdydz_TF1(Double_t *xx, Double_t *p) { return 1000.*residual_dydz(p[0], p[1], p[2], p[3], p[4], p[5], p[6],  p[7],  p[8],  xx[0]); }
00085 }
00086 
00087 
00088 void MuonResiduals6DOFFitter_FCN(int &npar, double *gin, double &fval, double *par, int iflag)
00089 {
00090   MuonResidualsFitterFitInfo *fitinfo = (MuonResidualsFitterFitInfo*)(minuit->GetObjectFit());
00091   MuonResidualsFitter *fitter = fitinfo->fitter();
00092 
00093   fval = 0.;
00094   for (std::vector<double*>::const_iterator resiter = fitter->residuals_begin();  resiter != fitter->residuals_end();  ++resiter)
00095   {
00096     const double residX = (*resiter)[MuonResiduals6DOFFitter::kResidX];
00097     const double residY = (*resiter)[MuonResiduals6DOFFitter::kResidY];
00098     const double resslopeX = (*resiter)[MuonResiduals6DOFFitter::kResSlopeX];
00099     const double resslopeY = (*resiter)[MuonResiduals6DOFFitter::kResSlopeY];
00100     const double positionX = (*resiter)[MuonResiduals6DOFFitter::kPositionX];
00101     const double positionY = (*resiter)[MuonResiduals6DOFFitter::kPositionY];
00102     const double angleX = (*resiter)[MuonResiduals6DOFFitter::kAngleX];
00103     const double angleY = (*resiter)[MuonResiduals6DOFFitter::kAngleY];
00104     const double redchi2 = (*resiter)[MuonResiduals6DOFFitter::kRedChi2];
00105 
00106     const double alignx = par[MuonResiduals6DOFFitter::kAlignX];
00107     const double aligny = par[MuonResiduals6DOFFitter::kAlignY];
00108     const double alignz = par[MuonResiduals6DOFFitter::kAlignZ];
00109     const double alignphix = par[MuonResiduals6DOFFitter::kAlignPhiX];
00110     const double alignphiy = par[MuonResiduals6DOFFitter::kAlignPhiY];
00111     const double alignphiz = par[MuonResiduals6DOFFitter::kAlignPhiZ];
00112     const double resXsigma = par[MuonResiduals6DOFFitter::kResidXSigma];
00113     const double resYsigma = par[MuonResiduals6DOFFitter::kResidYSigma];
00114     const double slopeXsigma = par[MuonResiduals6DOFFitter::kResSlopeXSigma];
00115     const double slopeYsigma = par[MuonResiduals6DOFFitter::kResSlopeYSigma];
00116     const double alphax = par[MuonResiduals6DOFFitter::kAlphaX];
00117     const double alphay = par[MuonResiduals6DOFFitter::kAlphaY];
00118     const double resXgamma = par[MuonResiduals6DOFFitter::kResidXGamma];
00119     const double resYgamma = par[MuonResiduals6DOFFitter::kResidYGamma];
00120     const double slopeXgamma = par[MuonResiduals6DOFFitter::kResSlopeXGamma];
00121     const double slopeYgamma = par[MuonResiduals6DOFFitter::kResSlopeYGamma];
00122 
00123     double coefX = alphax, coefY = alphay;
00124     if (fitter->residualsModel() == MuonResidualsFitter::kPureGaussian ||
00125         fitter->residualsModel() == MuonResidualsFitter::kPureGaussian2D) coefX = coefY = 0.;
00126     double residXpeak = residual_x(alignx, aligny, alignz, alignphix, alignphiy, alignphiz, positionX, positionY, angleX, angleY, coefX, resslopeX);
00127     double residYpeak = residual_y(alignx, aligny, alignz, alignphix, alignphiy, alignphiz, positionX, positionY, angleX, angleY, coefY, resslopeY);
00128     double slopeXpeak = residual_dxdz(alignx, aligny, alignz, alignphix, alignphiy, alignphiz, positionX, positionY, angleX, angleY);
00129     double slopeYpeak = residual_dydz(alignx, aligny, alignz, alignphix, alignphiy, alignphiz, positionX, positionY, angleX, angleY);
00130 
00131     double weight = (1./redchi2) * number_of_hits / sum_of_weights;
00132     if (!weight_alignment) weight = 1.;
00133 
00134     if (!weight_alignment  ||  TMath::Prob(redchi2*12, 12) < 0.99)  // no spikes allowed
00135     {
00136       if (fitter->residualsModel() == MuonResidualsFitter::kPureGaussian) {
00137         if (fitter->useRes() == MuonResidualsFitter::k1111) {
00138           fval += -weight * MuonResidualsFitter_logPureGaussian(residX, residXpeak, resXsigma);
00139           fval += -weight * MuonResidualsFitter_logPureGaussian(residY, residYpeak, resYsigma);
00140           fval += -weight * MuonResidualsFitter_logPureGaussian(resslopeX, slopeXpeak, slopeXsigma);
00141           fval += -weight * MuonResidualsFitter_logPureGaussian(resslopeY, slopeYpeak, slopeYsigma);
00142         }
00143         else if (fitter->useRes() == MuonResidualsFitter::k1110) {
00144           fval += -weight * MuonResidualsFitter_logPureGaussian(residX, residXpeak, resXsigma);
00145           fval += -weight * MuonResidualsFitter_logPureGaussian(residY, residYpeak, resYsigma);
00146           fval += -weight * MuonResidualsFitter_logPureGaussian(resslopeX, slopeXpeak, slopeXsigma);
00147         }
00148         else if (fitter->useRes() == MuonResidualsFitter::k1100) {
00149           fval += -weight * MuonResidualsFitter_logPureGaussian(residX, residXpeak, resXsigma);
00150           fval += -weight * MuonResidualsFitter_logPureGaussian(residY, residYpeak, resYsigma);
00151         }
00152         else if (fitter->useRes() == MuonResidualsFitter::k1010) {
00153           fval += -weight * MuonResidualsFitter_logPureGaussian(residX, residXpeak, resXsigma);
00154           fval += -weight * MuonResidualsFitter_logPureGaussian(resslopeX, slopeXpeak, slopeXsigma);
00155         }
00156         else if (fitter->useRes() == MuonResidualsFitter::k0010) {
00157           fval += -weight * MuonResidualsFitter_logPureGaussian(resslopeX, slopeXpeak, slopeXsigma);
00158         }
00159         //std::cout<<"FCNx("<<residX<<","<<residXpeak<<","<<resXsigma<<") = "<<MuonResidualsFitter_logPureGaussian(residX, residXpeak, resXsigma)<<std::endl;
00160         //std::cout<<"FCNy("<<residY<<","<<residYpeak<<","<<resYsigma<<") = "<<MuonResidualsFitter_logPureGaussian(residY, residYpeak, resYsigma)<<std::endl;
00161         //std::cout<<"FCNsx("<<resslopeX<<","<<slopeXpeak<<","<<slopeXsigma<<") = "<<MuonResidualsFitter_logPureGaussian(resslopeX, slopeXpeak, slopeXsigma)<<std::endl;
00162         //std::cout<<"FCNsy("<<resslopeY<<","<<slopeYpeak<<","<<slopeYsigma<<") = "<<MuonResidualsFitter_logPureGaussian(resslopeY, slopeYpeak, slopeYsigma)<<std::endl;
00163       }
00164       else if (fitter->residualsModel() == MuonResidualsFitter::kPureGaussian2D) {
00165         if (fitter->useRes() == MuonResidualsFitter::k1111) {
00166           fval += -weight * MuonResidualsFitter_logPureGaussian2D(residX, resslopeX, residXpeak, slopeXpeak, resXsigma, slopeXsigma, alphax);
00167           fval += -weight * MuonResidualsFitter_logPureGaussian2D(residY, resslopeY, residYpeak, slopeYpeak, resYsigma, slopeYsigma, alphay);
00168         }
00169         else if (fitter->useRes() == MuonResidualsFitter::k1110) {
00170           fval += -weight * MuonResidualsFitter_logPureGaussian2D(residX, resslopeX, residXpeak, slopeXpeak, resXsigma, slopeXsigma, alphax);
00171           fval += -weight * MuonResidualsFitter_logPureGaussian(residY, residYpeak, resYsigma);
00172         }
00173         else if (fitter->useRes() == MuonResidualsFitter::k1100) {
00174           fval += -weight * MuonResidualsFitter_logPureGaussian(residX, residXpeak, resXsigma);
00175           fval += -weight * MuonResidualsFitter_logPureGaussian(residY, residYpeak, resYsigma);
00176         }
00177         else if (fitter->useRes() == MuonResidualsFitter::k1010) {
00178           fval += -weight * MuonResidualsFitter_logPureGaussian2D(residX, resslopeX, residXpeak, slopeXpeak, resXsigma, slopeXsigma, alphax);
00179         }
00180         else if (fitter->useRes() == MuonResidualsFitter::k0010) {
00181                 fval += -weight * MuonResidualsFitter_logPureGaussian(resslopeX, slopeXpeak, slopeXsigma);
00182         }
00183         //std::cout<<"FCNx("<<residX<<","<<resslopeX<<","<<residXpeak<<","<<slopeXpeak<<","<<resXsigma<<","<<slopeXsigma<<","<<alphax<<") = "<<MuonResidualsFitter_logPureGaussian2D(residX, resslopeX, residXpeak, slopeXpeak, resXsigma, slopeXsigma, alphax)<<std::endl;
00184         //std::cout<<"FCNy("<<residY<<","<<resslopeY<<","<<residYpeak<<","<<slopeYpeak<<","<<resYsigma<<","<<slopeYsigma<<","<<alphay<<") = "<<MuonResidualsFitter_logPureGaussian2D(residY, resslopeY, residYpeak, slopeYpeak, resYsigma, slopeYsigma, alphay)<<std::endl;
00185       }
00186       else if (fitter->residualsModel() == MuonResidualsFitter::kPowerLawTails) {
00187         fval += -weight * MuonResidualsFitter_logPowerLawTails(residX, residXpeak, resXsigma, resXgamma);
00188         fval += -weight * MuonResidualsFitter_logPowerLawTails(residY, residYpeak, resYsigma, resYgamma);
00189         fval += -weight * MuonResidualsFitter_logPowerLawTails(resslopeX, slopeXpeak, slopeXsigma, slopeXgamma);
00190         fval += -weight * MuonResidualsFitter_logPowerLawTails(resslopeY, slopeYpeak, slopeYsigma, slopeYgamma);
00191       }
00192       else if (fitter->residualsModel() == MuonResidualsFitter::kROOTVoigt) {
00193         fval += -weight * MuonResidualsFitter_logROOTVoigt(residX, residXpeak, resXsigma, resXgamma);
00194         fval += -weight * MuonResidualsFitter_logROOTVoigt(residY, residYpeak, resYsigma, resYgamma);
00195         fval += -weight * MuonResidualsFitter_logROOTVoigt(resslopeX, slopeXpeak, slopeXsigma, slopeXgamma);
00196         fval += -weight * MuonResidualsFitter_logROOTVoigt(resslopeY, slopeYpeak, slopeYsigma, slopeYgamma);
00197       }
00198       else if (fitter->residualsModel() == MuonResidualsFitter::kGaussPowerTails) {
00199         fval += -weight * MuonResidualsFitter_logGaussPowerTails(residX, residXpeak, resXsigma);
00200         fval += -weight * MuonResidualsFitter_logGaussPowerTails(residY, residYpeak, resYsigma);
00201         fval += -weight * MuonResidualsFitter_logGaussPowerTails(resslopeX, slopeXpeak, slopeXsigma);
00202         fval += -weight * MuonResidualsFitter_logGaussPowerTails(resslopeY, slopeYpeak, slopeYsigma);
00203       }
00204       else { assert(false); }
00205     }
00206   }
00207 /*
00208   const double resXsigma = par[MuonResiduals6DOFFitter::kResidXSigma];
00209   const double resYsigma = par[MuonResiduals6DOFFitter::kResidYSigma];
00210   const double slopeXsigma = par[MuonResiduals6DOFFitter::kResSlopeXSigma];
00211   const double slopeYsigma = par[MuonResiduals6DOFFitter::kResSlopeYSigma];
00212   const double alphax = par[MuonResiduals6DOFFitter::kAlphaX];
00213   const double alphay = par[MuonResiduals6DOFFitter::kAlphaY];
00214   std::cout<<"fval="<<fval<<","<<resXsigma<<","<<slopeXsigma<<","<<alphax<<","<<resYsigma<<","<<slopeYsigma<<","<<alphay<<std::endl;
00215 */
00216 }
00217 
00218 
00219 void MuonResiduals6DOFFitter::inform(TMinuit *tMinuit)
00220 {
00221   minuit = tMinuit;
00222 }
00223 
00224 
00225 void MuonResiduals6DOFFitter::correctBField()
00226 {
00227   MuonResidualsFitter::correctBField(kPt, kCharge);
00228 }
00229 
00230 
00231 double MuonResiduals6DOFFitter::sumofweights()
00232 {
00233   sum_of_weights = 0.;
00234   number_of_hits = 0.;
00235   weight_alignment = m_weightAlignment;
00236   for (std::vector<double*>::const_iterator resiter = residuals_begin();  resiter != residuals_end();  ++resiter) {
00237     if (m_weightAlignment) {
00238       double redchi2 = (*resiter)[kRedChi2];
00239       if (TMath::Prob(redchi2*12, 12) < 0.99) {  // no spikes allowed
00240         sum_of_weights += 1./redchi2;
00241         number_of_hits += 1.;
00242       }
00243     }
00244     else {
00245       sum_of_weights += 1.;
00246       number_of_hits += 1.;
00247     }
00248   }
00249   return sum_of_weights;
00250 }
00251 
00252 
00253 bool MuonResiduals6DOFFitter::fit(Alignable *ali)
00254 {
00255   initialize_table();  // if not already initialized
00256   sumofweights();
00257 
00258   double resx_std = 0.5;
00259   double resy_std = 3.0;
00260   double resslopex_std = 0.002;
00261   double resslopey_std = 0.005;
00262 
00263   int nums[16]          = {kAlignX, kAlignY, kAlignZ, kAlignPhiX, kAlignPhiY, kAlignPhiZ,   kResidXSigma, kResidYSigma, kResSlopeXSigma, kResSlopeYSigma,
00264                            kAlphaX, kAlphaY,    kResidXGamma, kResidYGamma, kResSlopeXGamma, kResSlopeYGamma};
00265   std::string names[16] = {"AlignX","AlignY","AlignZ","AlignPhiX","AlignPhiY","AlignPhiZ",  "ResidXSigma","ResidYSigma","ResSlopeXSigma","ResSlopeYSigma",
00266                            "AlphaX","AlphaY",   "ResidXGamma","ResidYGamma","ResSlopeXGamma","ResSlopeYGamma"};
00267   double starts[16]     = {0., 0., 0., 0., 0., 0.,    resx_std, resy_std, resslopex_std, resslopey_std,
00268                            0., 0.,    0.1*resx_std, 0.1*resy_std, 0.1*resslopex_std, 0.1*resslopey_std};
00269   double steps[16]      = {0.1, 0.1, 0.1, 0.001, 0.001, 0.001,   0.001*resx_std, 0.001*resy_std, 0.001*resslopex_std, 0.001*resslopey_std,
00270                            0.001, 0.001,    0.01*resx_std, 0.01*resy_std, 0.01*resslopex_std, 0.01*resslopey_std};
00271   double lows[16]       = {0., 0., 0., 0., 0., 0.,    0., 0., 0., 0.,
00272                            -1., -1.,    0., 0., 0., 0.};
00273   double highs[16]      = {0., 0., 0., 0., 0., 0.,    10., 10., 0.1, 0.1,
00274                            1.,1.,    0., 0., 0., 0.};
00275 
00276   std::vector<int> num(nums, nums+6);
00277   std::vector<std::string> name(names, names+6);
00278   std::vector<double> start(starts, starts+6);
00279   std::vector<double> step(steps, steps+6);
00280   std::vector<double> low(lows, lows+6);
00281   std::vector<double> high(highs, highs+6);
00282 
00283   bool add_alpha = ( residualsModel() == kPureGaussian2D );
00284   bool add_gamma = ( residualsModel() == kROOTVoigt || residualsModel() == kPowerLawTails );
00285 
00286   int idx[8], ni = 0;
00287   if (useRes() == k1111) {
00288     for(ni=0; ni<4; ni++) idx[ni] = ni+6;
00289     if (add_alpha) for(; ni<6; ni++) idx[ni] = ni+6;
00290     else if (add_gamma) for(; ni<8; ni++) idx[ni] = ni+8;
00291     if (!add_alpha) fix(kAlphaX);
00292     if (!add_alpha) fix(kAlphaY);
00293   }
00294   else if (useRes() == k1110) {
00295     for(ni=0; ni<3; ni++) idx[ni] = ni+6;
00296     if (add_alpha) idx[ni++] = 10;
00297     else if (add_gamma) for(; ni<6; ni++) idx[ni] = ni+9;
00298     fix(kResSlopeYSigma);
00299     fix(kAlphaY);
00300     if (!add_alpha) fix(kAlphaX);
00301   }
00302   else if (useRes() == k1100) {
00303     for(ni=0; ni<2; ni++) idx[ni] = ni+6;
00304     if (add_gamma) for(; ni<4; ni++) idx[ni] = ni+10;
00305     fix(kResSlopeXSigma);
00306     fix(kResSlopeYSigma);
00307     fix(kAlphaX);
00308     fix(kAlphaY);
00309   }
00310   else if (useRes() == k1010) {
00311     idx[ni++] = 6; idx[ni++] = 8;
00312     if (add_alpha) idx[ni++] = 10;
00313     if (add_gamma) { idx[ni++] = 12; idx[ni++] = 14; }
00314     fix(kResidYSigma);
00315     fix(kResSlopeYSigma);
00316     fix(kAlphaY);
00317     if (!add_alpha) fix(kAlphaX);
00318   }
00319   else if (useRes() == k0010) {
00320     idx[ni++] = 8;
00321     if (add_gamma) idx[ni++] = 14;
00322     fix(kResidXSigma);
00323     fix(kResidYSigma);
00324     fix(kResSlopeYSigma);
00325     fix(kAlphaX);
00326     fix(kAlphaY);
00327   }
00328   for (int i=0; i<ni; i++){
00329     num.push_back(nums[idx[i]]);
00330     name.push_back(names[idx[i]]);
00331     start.push_back(starts[idx[i]]);
00332     step.push_back(steps[idx[i]]);
00333     low.push_back(lows[idx[i]]);
00334     high.push_back(highs[idx[i]]);
00335   }
00336 
00337   return dofit(&MuonResiduals6DOFFitter_FCN, num, name, start, step, low, high);
00338 }
00339 
00340 
00341 double MuonResiduals6DOFFitter::plot(std::string name, TFileDirectory *dir, Alignable *ali)
00342 {
00343   sumofweights();
00344 
00345   double mean_residualx = 0., mean_residualy = 0., mean_resslopex = 0., mean_resslopey = 0.;
00346   double mean_trackx = 0., mean_tracky = 0., mean_trackdxdz = 0., mean_trackdydz = 0.;
00347   double sum_w = 0.;
00348 
00349   for (std::vector<double*>::const_iterator rit = residuals_begin();  rit != residuals_end();  ++rit)
00350   {
00351     const double redchi2 = (*rit)[kRedChi2];
00352     double weight = 1./redchi2;
00353     if (!m_weightAlignment) weight = 1.;
00354 
00355     if (!m_weightAlignment  ||  TMath::Prob(redchi2*12, 12) < 0.99)  // no spikes allowed
00356     {
00357       double factor_w = 1./(sum_w + weight);
00358       mean_residualx = factor_w * (sum_w * mean_residualx + weight * (*rit)[kResidX]);
00359       mean_residualy = factor_w * (sum_w * mean_residualy + weight * (*rit)[kResidY]);
00360       mean_resslopex = factor_w * (sum_w * mean_resslopex + weight * (*rit)[kResSlopeX]);
00361       mean_resslopey = factor_w * (sum_w * mean_resslopey + weight * (*rit)[kResSlopeY]);
00362       mean_trackx    = factor_w * (sum_w * mean_trackx    + weight * (*rit)[kPositionX]);
00363       mean_tracky    = factor_w * (sum_w * mean_tracky    + weight * (*rit)[kPositionY]);
00364       mean_trackdxdz = factor_w * (sum_w * mean_trackdxdz + weight * (*rit)[kAngleX]);
00365       mean_trackdydz = factor_w * (sum_w * mean_trackdydz + weight * (*rit)[kAngleY]);
00366       sum_w += weight;
00367     }
00368   }
00369 
00370   std::string name_x, name_y, name_dxdz, name_dydz, name_x_raw, name_y_raw, name_dxdz_raw, name_dydz_raw, name_x_cut, name_y_cut, name_alphax, name_alphay;
00371   std::string name_x_trackx, name_y_trackx, name_dxdz_trackx, name_dydz_trackx;
00372   std::string name_x_tracky, name_y_tracky, name_dxdz_tracky, name_dydz_tracky;
00373   std::string name_x_trackdxdz, name_y_trackdxdz, name_dxdz_trackdxdz, name_dydz_trackdxdz;
00374   std::string name_x_trackdydz, name_y_trackdydz, name_dxdz_trackdydz, name_dydz_trackdydz;
00375 
00376   name_x = name + "_x";
00377   name_y = name + "_y";
00378   name_dxdz = name + "_dxdz";
00379   name_dydz = name + "_dydz";
00380   name_x_raw = name + "_x_raw";
00381   name_y_raw = name + "_y_raw";
00382   name_dxdz_raw = name + "_dxdz_raw";
00383   name_dydz_raw = name + "_dydz_raw";
00384   name_x_cut = name + "_x_cut";
00385   name_y_cut = name + "_y_cut";
00386   name_alphax = name + "_alphax";
00387   name_alphay = name + "_alphay";
00388   name_x_trackx = name + "_x_trackx";
00389   name_y_trackx = name + "_y_trackx";
00390   name_dxdz_trackx = name + "_dxdz_trackx";
00391   name_dydz_trackx = name + "_dydz_trackx";
00392   name_x_tracky = name + "_x_tracky";
00393   name_y_tracky = name + "_y_tracky";
00394   name_dxdz_tracky = name + "_dxdz_tracky";
00395   name_dydz_tracky = name + "_dydz_tracky";
00396   name_x_trackdxdz = name + "_x_trackdxdz";
00397   name_y_trackdxdz = name + "_y_trackdxdz";
00398   name_dxdz_trackdxdz = name + "_dxdz_trackdxdz";
00399   name_dydz_trackdxdz = name + "_dydz_trackdxdz";
00400   name_x_trackdydz = name + "_x_trackdydz";
00401   name_y_trackdydz = name + "_y_trackdydz";
00402   name_dxdz_trackdydz = name + "_dxdz_trackdydz";
00403   name_dydz_trackdydz = name + "_dydz_trackdydz";
00404 
00405   double width = ali->surface().width();
00406   double length = ali->surface().length();
00407   int bins = 200;
00408   double min_x = -100.,            max_x = 100.;
00409   double min_y = -100.,            max_y = 100.;
00410   double min_dxdz = -75.,         max_dxdz = 75.;
00411   double min_dydz = -150.,         max_dydz = 150.;
00412   double min_trackx = -width/2.,   max_trackx = width/2.;
00413   double min_tracky = -length/2.,  max_tracky = length/2.;
00414   double min_trackdxdz = -1.5,     max_trackdxdz = 1.5;
00415   double min_trackdydz = -1.5,     max_trackdydz = 1.5;
00416 
00417   TH1F *hist_x = dir->make<TH1F>(name_x.c_str(), "", bins, min_x, max_x);
00418   TH1F *hist_y = dir->make<TH1F>(name_y.c_str(), "", bins, min_y, max_y);
00419   TH1F *hist_dxdz = dir->make<TH1F>(name_dxdz.c_str(), "", bins, min_dxdz, max_dxdz);
00420   TH1F *hist_dydz = dir->make<TH1F>(name_dydz.c_str(), "", bins, min_dydz, max_dydz);
00421   TH1F *hist_x_raw = dir->make<TH1F>(name_x_raw.c_str(), "", bins, min_x, max_x);
00422   TH1F *hist_y_raw = dir->make<TH1F>(name_y_raw.c_str(), "", bins, min_y, max_y);
00423   TH1F *hist_dxdz_raw = dir->make<TH1F>(name_dxdz_raw.c_str(), "", bins, min_dxdz, max_dxdz);
00424   TH1F *hist_dydz_raw = dir->make<TH1F>(name_dydz_raw.c_str(), "", bins, min_dydz, max_dydz);
00425   TH1F *hist_x_cut = dir->make<TH1F>(name_x_cut.c_str(), "", bins, min_x, max_x);
00426   TH1F *hist_y_cut = dir->make<TH1F>(name_y_cut.c_str(), "", bins, min_y, max_y);
00427   TH2F *hist_alphax = dir->make<TH2F>(name_alphax.c_str(), "", 50, 50, 50, 50, -50., 50.);
00428   TH2F *hist_alphay = dir->make<TH2F>(name_alphay.c_str(), "", 75, 100, 100, 75, -75., 75.);
00429 
00430   TProfile *hist_x_trackx = dir->make<TProfile>(name_x_trackx.c_str(), "", 50, min_trackx, max_trackx, min_x, max_x);
00431   TProfile *hist_y_trackx = dir->make<TProfile>(name_y_trackx.c_str(), "", 50, min_trackx, max_trackx, min_y, max_y);
00432   TProfile *hist_dxdz_trackx = dir->make<TProfile>(name_dxdz_trackx.c_str(), "", 50, min_trackx, max_trackx, min_dxdz, max_dxdz);
00433   TProfile *hist_dydz_trackx = dir->make<TProfile>(name_dydz_trackx.c_str(), "", 50, min_trackx, max_trackx, min_dydz, max_dydz);
00434   TProfile *hist_x_tracky = dir->make<TProfile>(name_x_tracky.c_str(), "", 50, min_tracky, max_tracky, min_x, max_x);
00435   TProfile *hist_y_tracky = dir->make<TProfile>(name_y_tracky.c_str(), "", 50, min_tracky, max_tracky, min_y, max_y);
00436   TProfile *hist_dxdz_tracky = dir->make<TProfile>(name_dxdz_tracky.c_str(), "", 50, min_tracky, max_tracky, min_dxdz, max_dxdz);
00437   TProfile *hist_dydz_tracky = dir->make<TProfile>(name_dydz_tracky.c_str(), "", 50, min_tracky, max_tracky, min_dydz, max_dydz);
00438   TProfile *hist_x_trackdxdz = dir->make<TProfile>(name_x_trackdxdz.c_str(), "", 250, min_trackdxdz, max_trackdxdz, min_x, max_x);
00439   TProfile *hist_y_trackdxdz = dir->make<TProfile>(name_y_trackdxdz.c_str(), "", 250, min_trackdxdz, max_trackdxdz, min_y, max_y);
00440   TProfile *hist_dxdz_trackdxdz = dir->make<TProfile>(name_dxdz_trackdxdz.c_str(), "", 250, min_trackdxdz, max_trackdxdz, min_dxdz, max_dxdz);
00441   TProfile *hist_dydz_trackdxdz = dir->make<TProfile>(name_dydz_trackdxdz.c_str(), "", 250, min_trackdxdz, max_trackdxdz, min_dydz, max_dydz);
00442   TProfile *hist_x_trackdydz = dir->make<TProfile>(name_x_trackdydz.c_str(), "", 250, min_trackdydz, max_trackdydz, min_x, max_x);
00443   TProfile *hist_y_trackdydz = dir->make<TProfile>(name_y_trackdydz.c_str(), "", 250, min_trackdydz, max_trackdydz, min_y, max_y);
00444   TProfile *hist_dxdz_trackdydz = dir->make<TProfile>(name_dxdz_trackdydz.c_str(), "", 250, min_trackdydz, max_trackdydz, min_dxdz, max_dxdz);
00445   TProfile *hist_dydz_trackdydz = dir->make<TProfile>(name_dydz_trackdydz.c_str(), "", 250, min_trackdydz, max_trackdydz, min_dydz, max_dydz);
00446 
00447   hist_x_trackx->SetAxisRange(-10., 10., "Y");
00448   hist_y_trackx->SetAxisRange(-20., 20., "Y");
00449   hist_dxdz_trackx->SetAxisRange(-10., 10., "Y");
00450   hist_dydz_trackx->SetAxisRange(-20., 20., "Y");
00451   hist_x_tracky->SetAxisRange(-10., 10., "Y");
00452   hist_y_tracky->SetAxisRange(-20., 20., "Y");
00453   hist_dxdz_tracky->SetAxisRange(-10., 10., "Y");
00454   hist_dydz_tracky->SetAxisRange(-20., 20., "Y");
00455   hist_x_trackdxdz->SetAxisRange(-10., 10., "Y");
00456   hist_y_trackdxdz->SetAxisRange(-20., 20., "Y");
00457   hist_dxdz_trackdxdz->SetAxisRange(-10., 10., "Y");
00458   hist_dydz_trackdxdz->SetAxisRange(-20., 20., "Y");
00459   hist_x_trackdydz->SetAxisRange(-10., 10., "Y");
00460   hist_y_trackdydz->SetAxisRange(-20., 20., "Y");
00461   hist_dxdz_trackdydz->SetAxisRange(-10., 10., "Y");
00462   hist_dydz_trackdydz->SetAxisRange(-20., 20., "Y");
00463 
00464   name_x += "_fit";
00465   name_y += "_fit";
00466   name_dxdz += "_fit";
00467   name_dydz += "_fit";
00468   name_alphax += "_fit";
00469   name_alphay += "_fit";
00470   name_x_trackx += "_fit";
00471   name_y_trackx += "_fit";
00472   name_dxdz_trackx += "_fit";
00473   name_dydz_trackx += "_fit";
00474   name_x_tracky += "_fit";
00475   name_y_tracky += "_fit";
00476   name_dxdz_tracky += "_fit";
00477   name_dydz_tracky += "_fit";
00478   name_x_trackdxdz += "_fit";
00479   name_y_trackdxdz += "_fit";
00480   name_dxdz_trackdxdz += "_fit";
00481   name_dydz_trackdxdz += "_fit";
00482   name_x_trackdydz += "_fit";
00483   name_y_trackdydz += "_fit";
00484   name_dxdz_trackdydz += "_fit";
00485   name_dydz_trackdydz += "_fit";
00486 
00487   TF1 *fit_x = NULL;
00488   TF1 *fit_y = NULL;
00489   TF1 *fit_dxdz = NULL;
00490   TF1 *fit_dydz = NULL;
00491   if (residualsModel() == kPureGaussian || residualsModel() == kPureGaussian2D) {
00492     fit_x = new TF1(name_x.c_str(), MuonResidualsFitter_pureGaussian_TF1, min_x, max_x, 3);
00493     fit_x->SetParameters(sum_of_weights * (max_x - min_x)/bins, 10.*value(kAlignX), 10.*value(kResidXSigma));
00494     const double er_x[3] = {0., 10.*errorerror(kAlignX), 10.*errorerror(kResidXSigma)};
00495     fit_x->SetParErrors(er_x);
00496     fit_y = new TF1(name_y.c_str(), MuonResidualsFitter_pureGaussian_TF1, min_y, max_y, 3);
00497     fit_y->SetParameters(sum_of_weights * (max_y - min_y)/bins, 10.*value(kAlignY), 10.*value(kResidYSigma));
00498     const double er_y[3] = {0., 10.*errorerror(kAlignY), 10.*errorerror(kResidYSigma)};
00499     fit_y->SetParErrors(er_y);
00500     fit_dxdz = new TF1(name_dxdz.c_str(), MuonResidualsFitter_pureGaussian_TF1, min_dxdz, max_dxdz, 3);
00501     fit_dxdz->SetParameters(sum_of_weights * (max_dxdz - min_dxdz)/bins, 1000.*value(kAlignPhiY), 1000.*value(kResSlopeXSigma));
00502     const double er_dxdz[3] = {0., 1000.*errorerror(kAlignPhiY), 1000.*errorerror(kResSlopeXSigma)};
00503     fit_dxdz->SetParErrors(er_dxdz);
00504     fit_dydz = new TF1(name_dydz.c_str(), MuonResidualsFitter_pureGaussian_TF1, min_dydz, max_dydz, 3);
00505     fit_dydz->SetParameters(sum_of_weights * (max_dydz - min_dydz)/bins, -1000.*value(kAlignPhiX), 1000.*value(kResSlopeYSigma));
00506     const double er_dydz[3] = {0., 1000.*errorerror(kAlignPhiX), 1000.*errorerror(kResSlopeYSigma)};
00507     fit_dydz->SetParErrors(er_dydz);
00508   }
00509   else if (residualsModel() == kPowerLawTails) {
00510     fit_x = new TF1(name_x.c_str(), MuonResidualsFitter_powerLawTails_TF1, min_x, max_x, 4);
00511     fit_x->SetParameters(sum_of_weights * (max_x - min_x)/bins, 10.*value(kAlignX), 10.*value(kResidXSigma), 10.*value(kResidXGamma));
00512     fit_y = new TF1(name_y.c_str(), MuonResidualsFitter_powerLawTails_TF1, min_y, max_y, 4);
00513     fit_y->SetParameters(sum_of_weights * (max_y - min_y)/bins, 10.*value(kAlignY), 10.*value(kResidYSigma), 10.*value(kResidYGamma));
00514     fit_dxdz = new TF1(name_dxdz.c_str(), MuonResidualsFitter_powerLawTails_TF1, min_dxdz, max_dxdz, 4);
00515     fit_dxdz->SetParameters(sum_of_weights * (max_dxdz - min_dxdz)/bins, 1000.*value(kAlignPhiY), 1000.*value(kResSlopeXSigma), 1000.*value(kResSlopeXGamma));
00516     fit_dydz = new TF1(name_dydz.c_str(), MuonResidualsFitter_powerLawTails_TF1, min_dydz, max_dydz, 4);
00517     fit_dydz->SetParameters(sum_of_weights * (max_dydz - min_dydz)/bins, -1000.*value(kAlignPhiX), 1000.*value(kResSlopeYSigma), 1000.*value(kResSlopeYGamma));
00518   }
00519   else if (residualsModel() == kROOTVoigt) {
00520     fit_x = new TF1(name_x.c_str(), MuonResidualsFitter_ROOTVoigt_TF1, min_x, max_x, 4);
00521     fit_x->SetParameters(sum_of_weights * (max_x - min_x)/bins, 10.*value(kAlignX), 10.*value(kResidXSigma), 10.*value(kResidXGamma));
00522     fit_y = new TF1(name_y.c_str(), MuonResidualsFitter_ROOTVoigt_TF1, min_y, max_y, 4);
00523     fit_y->SetParameters(sum_of_weights * (max_y - min_y)/bins, 10.*value(kAlignY), 10.*value(kResidYSigma), 10.*value(kResidYGamma));
00524     fit_dxdz = new TF1(name_dxdz.c_str(), MuonResidualsFitter_ROOTVoigt_TF1, min_dxdz, max_dxdz, 4);
00525     fit_dxdz->SetParameters(sum_of_weights * (max_dxdz - min_dxdz)/bins, 1000.*value(kAlignPhiY), 1000.*value(kResSlopeXSigma), 1000.*value(kResSlopeXGamma));
00526     fit_dydz = new TF1(name_dydz.c_str(), MuonResidualsFitter_ROOTVoigt_TF1, min_dydz, max_dydz, 4);
00527     fit_dydz->SetParameters(sum_of_weights * (max_dydz - min_dydz)/bins, -1000.*value(kAlignPhiX), 1000.*value(kResSlopeYSigma), 1000.*value(kResSlopeYGamma));
00528   }
00529   else if (residualsModel() == kGaussPowerTails) {
00530     fit_x = new TF1(name_x.c_str(), MuonResidualsFitter_GaussPowerTails_TF1, min_x, max_x, 3);
00531     fit_x->SetParameters(sum_of_weights * (max_x - min_x)/bins, 10.*value(kAlignX), 10.*value(kResidXSigma));
00532     fit_y = new TF1(name_y.c_str(), MuonResidualsFitter_GaussPowerTails_TF1, min_y, max_y, 3);
00533     fit_y->SetParameters(sum_of_weights * (max_y - min_y)/bins, 10.*value(kAlignY), 10.*value(kResidYSigma));
00534     fit_dxdz = new TF1(name_dxdz.c_str(), MuonResidualsFitter_GaussPowerTails_TF1, min_dxdz, max_dxdz, 3);
00535     fit_dxdz->SetParameters(sum_of_weights * (max_dxdz - min_dxdz)/bins, 1000.*value(kAlignPhiY), 1000.*value(kResSlopeXSigma));
00536     fit_dydz = new TF1(name_dydz.c_str(), MuonResidualsFitter_GaussPowerTails_TF1, min_dydz, max_dydz, 3);
00537     fit_dydz->SetParameters(sum_of_weights * (max_dydz - min_dydz)/bins, -1000.*value(kAlignPhiX), 1000.*value(kResSlopeYSigma));
00538   }
00539   else { assert(false); }
00540 
00541   fit_x->SetLineColor(2);     fit_x->SetLineWidth(2);     fit_x->Write();
00542   fit_y->SetLineColor(2);     fit_y->SetLineWidth(2);     fit_y->Write();
00543   fit_dxdz->SetLineColor(2);  fit_dxdz->SetLineWidth(2);  fit_dxdz->Write();
00544   fit_dydz->SetLineColor(2);  fit_dydz->SetLineWidth(2);  fit_dydz->Write();
00545 
00546   TF1 *fit_alphax = new TF1(name_alphax.c_str(), "[0] + x*[1]", min_dxdz, max_dxdz);
00547   TF1 *fit_alphay = new TF1(name_alphay.c_str(), "[0] + x*[1]", min_dydz, max_dydz);
00548   double aX = 10.*value(kAlignX), bX = 10.*value(kAlphaX)/1000.;
00549   double aY = 10.*value(kAlignY), bY = 10.*value(kAlphaY)/1000.;
00550   if (residualsModel() == kPureGaussian2D)
00551   {
00552     double sx = 10.*value(kResidXSigma), sy = 1000.*value(kResSlopeXSigma), r = value(kAlphaX);
00553     aX = mean_residualx;
00554     bX = 0.;
00555     if ( sx != 0. )
00556     {
00557       bX = 1./(sy/sx*r);
00558       aX = - bX * mean_resslopex;
00559     }
00560     sx = 10.*value(kResidYSigma); sy = 1000.*value(kResSlopeYSigma); r = value(kAlphaY);
00561     aY = mean_residualx;
00562     bY = 0.;
00563     if ( sx != 0. )
00564     {
00565       bY = 1./(sy/sx*r);
00566       aY = - bY * mean_resslopey;
00567     }
00568   }
00569   fit_alphax->SetParameters(aX, bX);
00570   fit_alphay->SetParameters(aY, bY);
00571 
00572   fit_alphax->SetLineColor(2);  fit_alphax->SetLineWidth(2);  fit_alphax->Write();
00573   fit_alphay->SetLineColor(2);  fit_alphay->SetLineWidth(2);  fit_alphay->Write();
00574 
00575   TProfile *fit_x_trackx       = dir->make<TProfile>(name_x_trackx.c_str(), "", 100, min_trackx, max_trackx);
00576   TProfile *fit_y_trackx       = dir->make<TProfile>(name_y_trackx.c_str(), "", 100, min_trackx, max_trackx);
00577   TProfile *fit_dxdz_trackx    = dir->make<TProfile>(name_dxdz_trackx.c_str(), "", 100, min_trackx, max_trackx);
00578   TProfile *fit_dydz_trackx    = dir->make<TProfile>(name_dydz_trackx.c_str(), "", 100, min_trackx, max_trackx);
00579   TProfile *fit_x_tracky       = dir->make<TProfile>(name_x_tracky.c_str(), "", 100, min_tracky, max_tracky);
00580   TProfile *fit_y_tracky       = dir->make<TProfile>(name_y_tracky.c_str(), "", 100, min_tracky, max_tracky);
00581   TProfile *fit_dxdz_tracky    = dir->make<TProfile>(name_dxdz_tracky.c_str(), "", 100, min_tracky, max_tracky);
00582   TProfile *fit_dydz_tracky    = dir->make<TProfile>(name_dydz_tracky.c_str(), "", 100, min_tracky, max_tracky);
00583   TProfile *fit_x_trackdxdz    = dir->make<TProfile>(name_x_trackdxdz.c_str(), "", 500, min_trackdxdz, max_trackdxdz);
00584   TProfile *fit_y_trackdxdz    = dir->make<TProfile>(name_y_trackdxdz.c_str(), "", 500, min_trackdxdz, max_trackdxdz);
00585   TProfile *fit_dxdz_trackdxdz = dir->make<TProfile>(name_dxdz_trackdxdz.c_str(), "", 500, min_trackdxdz, max_trackdxdz);
00586   TProfile *fit_dydz_trackdxdz = dir->make<TProfile>(name_dydz_trackdxdz.c_str(), "", 500, min_trackdxdz, max_trackdxdz);
00587   TProfile *fit_x_trackdydz    = dir->make<TProfile>(name_x_trackdydz.c_str(), "", 500, min_trackdydz, max_trackdydz);
00588   TProfile *fit_y_trackdydz    = dir->make<TProfile>(name_y_trackdydz.c_str(), "", 500, min_trackdydz, max_trackdydz);
00589   TProfile *fit_dxdz_trackdydz = dir->make<TProfile>(name_dxdz_trackdydz.c_str(), "", 500, min_trackdydz, max_trackdydz);
00590   TProfile *fit_dydz_trackdydz = dir->make<TProfile>(name_dydz_trackdydz.c_str(), "", 500, min_trackdydz, max_trackdydz);
00591 
00592   fit_x_trackx->SetLineColor(2);        fit_x_trackx->SetLineWidth(2);
00593   fit_y_trackx->SetLineColor(2);        fit_y_trackx->SetLineWidth(2);
00594   fit_dxdz_trackx->SetLineColor(2);     fit_dxdz_trackx->SetLineWidth(2);
00595   fit_dydz_trackx->SetLineColor(2);     fit_dydz_trackx->SetLineWidth(2);
00596   fit_x_tracky->SetLineColor(2);        fit_x_tracky->SetLineWidth(2);
00597   fit_y_tracky->SetLineColor(2);        fit_y_tracky->SetLineWidth(2);
00598   fit_dxdz_tracky->SetLineColor(2);     fit_dxdz_tracky->SetLineWidth(2);
00599   fit_dydz_tracky->SetLineColor(2);     fit_dydz_tracky->SetLineWidth(2);
00600   fit_x_trackdxdz->SetLineColor(2);     fit_x_trackdxdz->SetLineWidth(2);
00601   fit_y_trackdxdz->SetLineColor(2);     fit_y_trackdxdz->SetLineWidth(2);
00602   fit_dxdz_trackdxdz->SetLineColor(2);  fit_dxdz_trackdxdz->SetLineWidth(2);
00603   fit_dydz_trackdxdz->SetLineColor(2);  fit_dydz_trackdxdz->SetLineWidth(2);
00604   fit_x_trackdydz->SetLineColor(2);     fit_x_trackdydz->SetLineWidth(2);
00605   fit_y_trackdydz->SetLineColor(2);     fit_y_trackdydz->SetLineWidth(2);
00606   fit_dxdz_trackdydz->SetLineColor(2);  fit_dxdz_trackdydz->SetLineWidth(2);
00607   fit_dydz_trackdydz->SetLineColor(2);  fit_dydz_trackdydz->SetLineWidth(2);
00608 
00609   name_x_trackx += "line";
00610   name_y_trackx += "line";
00611   name_dxdz_trackx += "line";
00612   name_dydz_trackx += "line";
00613   name_x_tracky += "line";
00614   name_y_tracky += "line";
00615   name_dxdz_tracky += "line";
00616   name_dydz_tracky += "line";
00617   name_x_trackdxdz += "line";
00618   name_y_trackdxdz += "line";
00619   name_dxdz_trackdxdz += "line";
00620   name_dydz_trackdxdz += "line";
00621   name_x_trackdydz += "line";
00622   name_y_trackdydz += "line";
00623   name_dxdz_trackdydz += "line";
00624   name_dydz_trackdydz += "line";
00625 
00626   TF1 *fitline_x_trackx       = new TF1(name_x_trackx.c_str(), residual_x_trackx_TF1, min_trackx, max_trackx, 14);
00627   TF1 *fitline_y_trackx       = new TF1(name_y_trackx.c_str(), residual_y_trackx_TF1, min_trackx, max_trackx, 14);
00628   TF1 *fitline_dxdz_trackx    = new TF1(name_dxdz_trackx.c_str(), residual_dxdz_trackx_TF1, min_trackx, max_trackx, 14);
00629   TF1 *fitline_dydz_trackx    = new TF1(name_dydz_trackx.c_str(), residual_dydz_trackx_TF1, min_trackx, max_trackx, 14);
00630   TF1 *fitline_x_tracky       = new TF1(name_x_tracky.c_str(), residual_x_tracky_TF1, min_tracky, max_tracky, 14);
00631   TF1 *fitline_y_tracky       = new TF1(name_y_tracky.c_str(), residual_y_tracky_TF1, min_tracky, max_tracky, 14);
00632   TF1 *fitline_dxdz_tracky    = new TF1(name_dxdz_tracky.c_str(), residual_dxdz_tracky_TF1, min_tracky, max_tracky, 14);
00633   TF1 *fitline_dydz_tracky    = new TF1(name_dydz_tracky.c_str(), residual_dydz_tracky_TF1, min_tracky, max_tracky, 14);
00634   TF1 *fitline_x_trackdxdz    = new TF1(name_x_trackdxdz.c_str(), residual_x_trackdxdz_TF1, min_trackdxdz, max_trackdxdz, 14);
00635   TF1 *fitline_y_trackdxdz    = new TF1(name_y_trackdxdz.c_str(), residual_y_trackdxdz_TF1, min_trackdxdz, max_trackdxdz, 14);
00636   TF1 *fitline_dxdz_trackdxdz = new TF1(name_dxdz_trackdxdz.c_str(), residual_dxdz_trackdxdz_TF1, min_trackdxdz, max_trackdxdz, 14);
00637   TF1 *fitline_dydz_trackdxdz = new TF1(name_dydz_trackdxdz.c_str(), residual_dydz_trackdxdz_TF1, min_trackdxdz, max_trackdxdz, 14);
00638   TF1 *fitline_x_trackdydz    = new TF1(name_x_trackdydz.c_str(), residual_x_trackdydz_TF1, min_trackdydz, max_trackdydz, 14);
00639   TF1 *fitline_y_trackdydz    = new TF1(name_y_trackdydz.c_str(), residual_y_trackdydz_TF1, min_trackdydz, max_trackdydz, 14);
00640   TF1 *fitline_dxdz_trackdydz = new TF1(name_dxdz_trackdydz.c_str(), residual_dxdz_trackdydz_TF1, min_trackdydz, max_trackdydz, 14);
00641   TF1 *fitline_dydz_trackdydz = new TF1(name_dydz_trackdydz.c_str(), residual_dydz_trackdydz_TF1, min_trackdydz, max_trackdydz, 14);
00642 
00643   std::vector<TF1*> fitlines;
00644   fitlines.push_back(fitline_x_trackx);
00645   fitlines.push_back(fitline_y_trackx);
00646   fitlines.push_back(fitline_dxdz_trackx);
00647   fitlines.push_back(fitline_dydz_trackx);
00648   fitlines.push_back(fitline_x_tracky);
00649   fitlines.push_back(fitline_y_tracky);
00650   fitlines.push_back(fitline_dxdz_tracky);
00651   fitlines.push_back(fitline_dydz_tracky);
00652   fitlines.push_back(fitline_x_trackdxdz);
00653   fitlines.push_back(fitline_y_trackdxdz);
00654   fitlines.push_back(fitline_dxdz_trackdxdz);
00655   fitlines.push_back(fitline_dydz_trackdxdz);
00656   fitlines.push_back(fitline_x_trackdydz);
00657   fitlines.push_back(fitline_y_trackdydz);
00658   fitlines.push_back(fitline_dxdz_trackdydz);
00659   fitlines.push_back(fitline_dydz_trackdydz);
00660 
00661   double fitparameters[14] = {value(kAlignX), value(kAlignY), value(kAlignZ), value(kAlignPhiX), value(kAlignPhiY), value(kAlignPhiZ),
00662                               mean_trackx, mean_tracky, mean_trackdxdz, mean_trackdydz,
00663                               value(kAlphaX), mean_resslopex, value(kAlphaY), mean_resslopey};
00664   if (residualsModel() == kPureGaussian2D) fitparameters[10] = fitparameters[12] = 0.;
00665 
00666   for(std::vector<TF1*>::const_iterator itr = fitlines.begin(); itr != fitlines.end(); itr++)
00667   {
00668     (*itr)->SetParameters(fitparameters);
00669     (*itr)->SetLineColor(2);
00670     (*itr)->SetLineWidth(2);
00671     (*itr)->Write();
00672   }
00673 
00674   for (std::vector<double*>::const_iterator resiter = residuals_begin();  resiter != residuals_end();  ++resiter)
00675   {
00676     const double residX    = (*resiter)[kResidX];
00677     const double residY    = (*resiter)[kResidY];
00678     const double resslopeX = (*resiter)[kResSlopeX];
00679     const double resslopeY = (*resiter)[kResSlopeY];
00680     const double positionX = (*resiter)[kPositionX];
00681     const double positionY = (*resiter)[kPositionY];
00682     const double angleX    = (*resiter)[kAngleX];
00683     const double angleY    = (*resiter)[kAngleY];
00684     const double redchi2   = (*resiter)[kRedChi2];
00685     double weight = 1./redchi2;
00686     if (!m_weightAlignment) weight = 1.;
00687 
00688     if (!m_weightAlignment  ||  TMath::Prob(redchi2*12, 12) < 0.99) {  // no spikes allowed
00689 
00690       hist_alphax->Fill(1000.*resslopeX, 10.*residX);
00691       hist_alphay->Fill(1000.*resslopeY, 10.*residY);
00692 
00693       double coefX = value(kAlphaX), coefY = value(kAlphaY);
00694       if (residualsModel() == kPureGaussian || residualsModel() == kPureGaussian2D) coefX = coefY = 0.;
00695       double geom_residX = residual_x(value(kAlignX), value(kAlignY), value(kAlignZ), value(kAlignPhiX), value(kAlignPhiY), value(kAlignPhiZ), positionX, positionY, angleX, angleY, coefX, resslopeX);
00696       hist_x->Fill(10.*(residX - geom_residX + value(kAlignX)), weight);
00697       hist_x_trackx->Fill(positionX, 10.*residX, weight);
00698       hist_x_tracky->Fill(positionY, 10.*residX, weight);
00699       hist_x_trackdxdz->Fill(angleX, 10.*residX, weight);
00700       hist_x_trackdydz->Fill(angleY, 10.*residX, weight);
00701       fit_x_trackx->Fill(positionX, 10.*geom_residX, weight);
00702       fit_x_tracky->Fill(positionY, 10.*geom_residX, weight);
00703       fit_x_trackdxdz->Fill(angleX, 10.*geom_residX, weight);
00704       fit_x_trackdydz->Fill(angleY, 10.*geom_residX, weight);
00705 
00706       double geom_residY = residual_y(value(kAlignX), value(kAlignY), value(kAlignZ), value(kAlignPhiX), value(kAlignPhiY), value(kAlignPhiZ), positionX, positionY, angleX, angleY, coefY, resslopeY);
00707       hist_y->Fill(10.*(residY - geom_residY + value(kAlignY)), weight);
00708       hist_y_trackx->Fill(positionX, 10.*residY, weight);
00709       hist_y_tracky->Fill(positionY, 10.*residY, weight);
00710       hist_y_trackdxdz->Fill(angleX, 10.*residY, weight);
00711       hist_y_trackdydz->Fill(angleY, 10.*residY, weight);
00712       fit_y_trackx->Fill(positionX, 10.*geom_residY, weight);
00713       fit_y_tracky->Fill(positionY, 10.*geom_residY, weight);
00714       fit_y_trackdxdz->Fill(angleX, 10.*geom_residY, weight);
00715       fit_y_trackdydz->Fill(angleY, 10.*geom_residY, weight);
00716 
00717       double geom_resslopeX = residual_dxdz(value(kAlignX), value(kAlignY), value(kAlignZ), value(kAlignPhiX), value(kAlignPhiY), value(kAlignPhiZ), positionX, positionY, angleX, angleY);
00718       hist_dxdz->Fill(1000.*(resslopeX - geom_resslopeX + value(kAlignPhiY)), weight);
00719       hist_dxdz_trackx->Fill(positionX, 1000.*resslopeX, weight);
00720       hist_dxdz_tracky->Fill(positionY, 1000.*resslopeX, weight);
00721       hist_dxdz_trackdxdz->Fill(angleX, 1000.*resslopeX, weight);
00722       hist_dxdz_trackdydz->Fill(angleY, 1000.*resslopeX, weight);
00723       fit_dxdz_trackx->Fill(positionX, 1000.*geom_resslopeX, weight);
00724       fit_dxdz_tracky->Fill(positionY, 1000.*geom_resslopeX, weight);
00725       fit_dxdz_trackdxdz->Fill(angleX, 1000.*geom_resslopeX, weight);
00726       fit_dxdz_trackdydz->Fill(angleY, 1000.*geom_resslopeX, weight);
00727 
00728       double geom_resslopeY = residual_dydz(value(kAlignX), value(kAlignY), value(kAlignZ), value(kAlignPhiX), value(kAlignPhiY), value(kAlignPhiZ), positionX, positionY, angleX, angleY);
00729       hist_dydz->Fill(1000.*(resslopeY - geom_resslopeY - value(kAlignPhiX)), weight);
00730       hist_dydz_trackx->Fill(positionX, 1000.*resslopeY, weight);
00731       hist_dydz_tracky->Fill(positionY, 1000.*resslopeY, weight);
00732       hist_dydz_trackdxdz->Fill(angleX, 1000.*resslopeY, weight);
00733       hist_dydz_trackdydz->Fill(angleY, 1000.*resslopeY, weight);
00734       fit_dydz_trackx->Fill(positionX, 1000.*geom_resslopeY, weight);
00735       fit_dydz_tracky->Fill(positionY, 1000.*geom_resslopeY, weight);
00736       fit_dydz_trackdxdz->Fill(angleX, 1000.*geom_resslopeY, weight);
00737       fit_dydz_trackdydz->Fill(angleY, 1000.*geom_resslopeY, weight);
00738     }
00739 
00740     hist_x_raw->Fill(10.*residX);
00741     hist_y_raw->Fill(10.*residY);
00742     hist_dxdz_raw->Fill(1000.*resslopeX);
00743     hist_dydz_raw->Fill(1000.*resslopeY);
00744     if (fabs(resslopeX) < 0.005) hist_x_cut->Fill(10.*residX);
00745     if (fabs(resslopeY) < 0.030) hist_y_cut->Fill(10.*residY);
00746   }
00747 
00748   double chi2 = 0.;
00749   double ndof = 0.;
00750   for (int i = 1;  i <= hist_x->GetNbinsX();  i++) {
00751     double xi = hist_x->GetBinCenter(i);
00752     double yi = hist_x->GetBinContent(i);
00753     double yerri = hist_x->GetBinError(i);
00754     double yth = fit_x->Eval(xi);
00755     if (yerri > 0.) {
00756       chi2 += pow((yth - yi)/yerri, 2);
00757       ndof += 1.;
00758     }
00759   }
00760   for (int i = 1;  i <= hist_y->GetNbinsX();  i++) {
00761     double xi = hist_y->GetBinCenter(i);
00762     double yi = hist_y->GetBinContent(i);
00763     double yerri = hist_y->GetBinError(i);
00764     double yth = fit_y->Eval(xi);
00765     if (yerri > 0.) {
00766       chi2 += pow((yth - yi)/yerri, 2);
00767       ndof += 1.;
00768     }
00769   }
00770   for (int i = 1;  i <= hist_dxdz->GetNbinsX();  i++) {
00771     double xi = hist_dxdz->GetBinCenter(i);
00772     double yi = hist_dxdz->GetBinContent(i);
00773     double yerri = hist_dxdz->GetBinError(i);
00774     double yth = fit_dxdz->Eval(xi);
00775     if (yerri > 0.) {
00776       chi2 += pow((yth - yi)/yerri, 2);
00777       ndof += 1.;
00778     }
00779   }
00780   for (int i = 1;  i <= hist_dydz->GetNbinsX();  i++) {
00781     double xi = hist_dydz->GetBinCenter(i);
00782     double yi = hist_dydz->GetBinContent(i);
00783     double yerri = hist_dydz->GetBinError(i);
00784     double yth = fit_dydz->Eval(xi);
00785     if (yerri > 0.) {
00786       chi2 += pow((yth - yi)/yerri, 2);
00787       ndof += 1.;
00788     }
00789   }
00790   ndof -= npar();
00791 
00792   return (ndof > 0. ? chi2 / ndof : -1.);
00793 }
00794 
00795 
00796 TTree * MuonResiduals6DOFFitter::readNtuple(std::string fname, unsigned int wheel, unsigned int station, unsigned int sector, unsigned int preselected)
00797 {
00798   TFile *f = new TFile(fname.c_str());
00799   TTree *t = (TTree*)f->Get("mual_ttree");
00800 
00801   // Create  new temporary file
00802   TFile *tmpf = new TFile("small_tree_fit.root","recreate");
00803   assert(tmpf!=0);
00804 
00805   // filter the tree (temporarily lives in the new file)
00806   TTree *tt = t->CopyTree(Form("is_dt && ring_wheel==%d && station==%d && sector==%d && select==%d", wheel, station, sector, (bool)preselected));
00807 
00808   MuonAlignmentTreeRow r;
00809   tt->SetBranchAddress("res_x", &r.res_x);
00810   tt->SetBranchAddress("res_slope_x", &r.res_slope_x);
00811   tt->SetBranchAddress("res_y", &r.res_y);
00812   tt->SetBranchAddress("res_slope_y", &r.res_slope_y);
00813   tt->SetBranchAddress("pos_x", &r.pos_x);
00814   tt->SetBranchAddress("pos_y", &r.pos_y);
00815   tt->SetBranchAddress("angle_x", &r.angle_x);
00816   tt->SetBranchAddress("angle_y", &r.angle_y);
00817   tt->SetBranchAddress("pz", &r.pz);
00818   tt->SetBranchAddress("pt", &r.pt);
00819   tt->SetBranchAddress("q", &r.q);
00820 
00821   Long64_t nentries = tt->GetEntries();
00822   for (Long64_t i=0;i<nentries; i++)
00823   {
00824     tt->GetEntry(i);
00825     double *rdata = new double[MuonResiduals6DOFFitter::kNData];
00826     rdata[kResidX] = r.res_x;
00827     rdata[kResidY] = r.res_y;
00828     rdata[kResSlopeX] = r.res_slope_x;
00829     rdata[kResSlopeY] = r.res_slope_y;
00830     rdata[kPositionX] = r.pos_x;
00831     rdata[kPositionY] = r.pos_y;
00832     rdata[kAngleX] = r.angle_x;
00833     rdata[kAngleY] = r.angle_y;
00834     rdata[kRedChi2] = 0.1;
00835     rdata[kPz] = r.pz;
00836     rdata[kPt] = r.pt;
00837     rdata[kCharge] = r.q;
00838     fill(rdata);
00839   }
00840   delete f;
00841   //delete tmpf;
00842   return tt;
00843 }