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/data/refman/pasoursint/CMSSW_5_3_3/src/Alignment/MuonAlignmentAlgorithms/src/DTMuonMillepede.cc

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00001 #include "Alignment/MuonAlignmentAlgorithms/interface/DTMuonMillepede.h"
00002 
00003 
00004 #include <iostream>
00005 
00006 DTMuonMillepede::DTMuonMillepede(std::string path, int n_files,
00007                                  float MaxPt, float MinPt,
00008                                  int nPhihits, int nThetahits,
00009                                  int workingmode, int nMtxSection) {
00010   
00011   ntuplePath = path;
00012   numberOfRootFiles = n_files;
00013   
00014   ptMax = MaxPt; 
00015   ptMin = MinPt; 
00016  
00017   nPhiHits = nPhihits;
00018   nThetaHits = nThetahits;
00019 
00020   TDirectory * dirSave = gDirectory;
00021 
00022   //Interface to Survey information
00023   myPG = new ReadPGInfo("./InternalData2009.root"); 
00024   
00025   f = new TFile("./LocalMillepedeResults.root", "RECREATE");
00026   f->cd();
00027 
00028   setBranchTree();
00029 
00030   initNTuples(nMtxSection);
00031 
00032   calculationMillepede(workingmode);
00033 
00034   f->Write(); 
00035   f->Close();
00036 
00037   dirSave->cd();
00038 }
00039 
00040 
00041 DTMuonMillepede::~DTMuonMillepede() {}
00042 
00043 
00044 
00045 void DTMuonMillepede::calculationMillepede(int workingmode) {
00046   
00047   //Init Matrizes
00048   TMatrixD ****C = new TMatrixD ***[5];
00049   TMatrixD ****b = new TMatrixD ***[5];
00050   
00051   for(int whI = -2; whI < 3; ++whI) {
00052     C[whI+2] = new TMatrixD **[4];
00053     b[whI+2] = new TMatrixD **[4];
00054     for(int stI = 1; stI < 5; ++stI) {
00055       C[whI+2][stI-1] = new TMatrixD * [14];
00056       b[whI+2][stI-1] = new TMatrixD * [14];
00057       for(int seI = 1; seI < 15; ++seI) {
00058         if(seI > 12 && stI != 4) continue;
00059         if(stI == 4) {
00060           C[whI+2][stI-1][seI-1] = new TMatrixD(24,24);
00061           b[whI+2][stI-1][seI-1] = new TMatrixD(24,1);
00062         } else { 
00063           C[whI+2][stI-1][seI-1] = new TMatrixD(60,60);
00064           b[whI+2][stI-1][seI-1] = new TMatrixD(60,1);
00065         }
00066       }
00067     }
00068   }
00069   
00070   //Run over the TTree  
00071   if (workingmode<=3) {
00072 
00073     Int_t nentries = (Int_t)tali->GetEntries();
00074     for (Int_t i=0;i<nentries;i++) {
00075       tali->GetEntry(i);
00076       
00077       if (i%100000==0) std::cout << "Analyzing track number " << i << std::endl;
00078       
00079       //Basic cuts
00080       if(pt > ptMax || pt < ptMin) continue;
00081       
00082       for(int counter = 0; counter < nseg; ++counter) {
00083         
00084         if (nphihits[counter]<nPhiHits || (nthetahits[counter]<nThetaHits && st[counter]<4)) continue;
00085         
00086         TMatrixD A(12,60);
00087         TMatrixD R(12,1);
00088         TMatrixD E(12,12);
00089         TMatrixD B(12, 4);
00090         TMatrixD I(12, 12);
00091         if(st[counter] == 4) {
00092           A.ResizeTo(8,24);
00093           R.ResizeTo(8,1);
00094           E.ResizeTo(8,8);
00095           B.ResizeTo(8,2);
00096           I.ResizeTo(8,8);
00097         }
00098 
00099         for(int counterHi = 0; counterHi < nhits[counter]; counterHi++) {
00100           
00101           int row = 0;
00102           if(sl[counter][counterHi] == 3) {
00103             row = 4 + (la[counter][counterHi]-1);
00104           } else if(sl[counter][counterHi] == 2) {
00105             row = 8 + (la[counter][counterHi]-1);
00106           } else {
00107             row = (la[counter][counterHi]-1);
00108           }
00109 
00110           float x = xc[counter][counterHi];
00111           float y = yc[counter][counterHi];
00112           float xp = xcp[counter][counterHi];
00113           float yp = ycp[counter][counterHi];
00114           float zp = zc[counter][counterHi];
00115           float error = ex[counter][counterHi]; 
00116           float dxdz = dxdzSl[counter];
00117           float dydz = dydzSl[counter];
00118 
00119           if(st[counter]!=4) {
00120             if(sl[counter][counterHi] == 2) {
00121               A(row, row*5) = -1.0;
00122               A(row, row*5+1) = dydz;
00123               A(row, row*5+2) = y*dydz;
00124               A(row, row*5+3) = -x*dydz;
00125               A(row, row*5+4) = -x;
00126               R(row, 0) = y-yp;
00127             } else {
00128               A(row, row*5+0) = -1.0;
00129               A(row, row*5+1) = dxdz;
00130               A(row, row*5+2) = y*dxdz;
00131               A(row, row*5+3) = -x*dxdz;
00132               A(row, row*5+4) = y;
00133               R(row, 0) = x-xp;
00134             }
00135           } else {
00136             if(sl[counter][counterHi]!=2) {
00137               A(row, row*3+0) = -1.0;
00138               A(row, row*3+1) = dxdz;
00139               A(row, row*3+2) = -x*dxdz;
00140               R(row, 0) = x-xp;
00141             }
00142           }
00143           
00144           E(row, row) = 1.0/error;
00145           I(row, row) = 1.0;
00146 
00147           if(sl[counter][counterHi] != 2) {
00148             B(row, 0) = 1.0;
00149             B(row, 1) = zp;
00150           } else {
00151             B(row, 2) = 1.0;
00152             B(row, 3) = zp;
00153           }
00154 
00155         }
00156         
00157         TMatrixD Bt = B; Bt.T();
00158         TMatrixD At = A; At.T();
00159         TMatrixD gamma = (Bt*E*B); gamma.Invert();
00160         *(C[wh[counter]+2][st[counter]-1][sr[counter]-1]) += At*E*(B*gamma*Bt*E*A-A);
00161         *(b[wh[counter]+2][st[counter]-1][sr[counter]-1]) += At*E*(B*gamma*Bt*E*I-I)*R;
00162         
00163       }
00164 
00165     }   
00166 
00167   }
00168   
00169   if (workingmode==3) 
00170     for(int wheel = -2; wheel < 3; ++wheel) 
00171       for(int station = 1; station < 5; ++station) 
00172         for(int sector = 1; sector < 15; ++sector) {
00173           
00174           if(sector > 12 && station != 4) continue;
00175           
00176           TMatrixD Ctr = *C[wheel+2][station-1][sector-1];
00177           TMatrixD btr = *b[wheel+2][station-1][sector-1];
00178           
00179           TString CtrName = "Ctr_"; CtrName += wheel; CtrName += "_"; CtrName += station;
00180           CtrName += "_"; CtrName += sector;
00181           Ctr.Write(CtrName);
00182           
00183           TString btrName = "btr_"; btrName += wheel; btrName += "_"; btrName += station;
00184           btrName += "_"; btrName += sector;
00185           btr.Write(btrName);
00186           
00187         }
00188   
00189   // My Final Calculation and Constraints 
00190   if (workingmode%2==0) {
00191 
00192     for(int wheel = -2; wheel < 3; ++wheel) 
00193       for(int station = 1; station < 5; ++station) 
00194         for(int sector = 1; sector < 15; ++sector) {
00195           
00196           if(sector > 12 && station != 4) continue;
00197        
00198           if (workingmode==4) {
00199             
00200             for (int mf = -1; mf<=-1; mf++) {
00201               
00202               TMatrixD Ch = getMatrixFromFile("Ctr_",wheel,station,sector,mf);
00203               TMatrixD bh = getMatrixFromFile("btr_",wheel,station,sector,mf);
00204               
00205               *(C[wheel+2][station-1][sector-1]) += Ch;
00206               *(b[wheel+2][station-1][sector-1]) += bh;
00207               
00208             }
00209             
00210           }
00211           
00212           TMatrixD Ctr = *C[wheel+2][station-1][sector-1];
00213           TMatrixD btr = *b[wheel+2][station-1][sector-1];
00214 
00215           TMatrixD Ccs = getCcsMatrix(wheel, station, sector);
00216           TMatrixD bcs = getbcsMatrix(wheel, station, sector);
00217           
00218           TMatrixD SC = Ctr + Ccs;
00219           TMatrixD Sb = btr + bcs; 
00220           
00221           SC.Invert();
00222           
00223           TMatrixD solution = SC*Sb;
00224           for(int icounter = 0; icounter < SC.GetNrows(); icounter++) {
00225             for(int jcounter = 0; jcounter < SC.GetNrows(); jcounter++) {
00226               cov[icounter][jcounter] = SC(icounter, jcounter);
00227             }
00228           }
00229 
00230           int nLayer = 12, nDeg = 5;
00231           if (station==4) { nLayer = 8; nDeg = 3; }
00232           for(int counterLayer = 0; counterLayer < nLayer; ++counterLayer) 
00233             for(int counterDeg = 0; counterDeg < nDeg; ++counterDeg) {
00234               
00235               if(counterLayer < 4) {
00236                 slC[counterLayer] = 1;
00237                 laC[counterLayer] = counterLayer+1;
00238               } else if(counterLayer > 3 && counterLayer < 8) {
00239                 slC[counterLayer] = 3;
00240                 laC[counterLayer] = counterLayer-3;
00241               } else {
00242                 slC[counterLayer] = 2;
00243                 laC[counterLayer] = counterLayer-7;
00244               }
00245               
00246               if(counterLayer < 8) {
00247                 dx[counterLayer] = solution(counterLayer*nDeg, 0);
00248                 dy[counterLayer] = 0.0;
00249               } else {
00250                 dx[counterLayer] = 0.0;
00251                 dy[counterLayer] = solution(counterLayer*nDeg, 0); 
00252               }
00253               dz[counterLayer] = solution(counterLayer*nDeg+1, 0);
00254               
00255               if (station!=4) {
00256                 phix[counterLayer] = solution(counterLayer*nDeg+2, 0);
00257                 phiy[counterLayer] = solution(counterLayer*nDeg+3, 0);
00258                 phiz[counterLayer] = solution(counterLayer*nDeg+4, 0);
00259               } else {
00260                 phix[counterLayer] = 0.;
00261                 phiy[counterLayer] = solution(counterLayer*nDeg+2, 0);
00262                 phiz[counterLayer] = 0.;
00263               }
00264             }
00265 
00266           whC = wheel; stC = station; srC = sector;
00267           
00268           ttreeOutput->Fill();
00269 
00270         }
00271   
00272   }
00273 
00274 
00275   //Final Calculation and Constraints 
00276 //   for(int wheel = -2; wheel < 3; ++wheel) {
00277 //     for(int station = 1; station < 5; ++station) {
00278 //       for(int sector = 1; sector < 15; ++sector) {
00279 //         if(sector > 12 && station != 4) continue;
00280 //         TMatrixD Ctr = prepareForLagrange(*C[wheel+2][station-1][sector-1]);
00281 //         TMatrixD btr = prepareForLagrange(*b[wheel+2][station-1][sector-1]);
00282 //         TMatrixD Cqc = prepareForLagrange(getCqcMatrix(wheel, station, sector));
00283 //         TMatrixD bqc = prepareForLagrange(getbqcMatrix(wheel, station, sector));
00284 //         TMatrixD Csurvey = prepareForLagrange(getCsurveyMatrix(wheel, station, sector));
00285 //         TMatrixD bsurvey = prepareForLagrange(getbsurveyMatrix(wheel, station, sector));
00286 //         TMatrixD Clag = getLagMatrix(wheel, station, sector);
00287 //         TMatrixD SC = Ctr + Cqc + Csurvey + Clag;
00288 //         TMatrixD Sb = btr + bqc + bsurvey;
00289 //        
00290 //         SC.Invert();
00291         
00292 //         TMatrixD solution = SC*Sb;
00293 //         for(int icounter = 0; icounter < SC.GetNrows(); icounter++) {
00294 //           for(int jcounter = 0; jcounter < SC.GetNrows(); jcounter++) {
00295 //             cov[icounter][jcounter] = SC(icounter, jcounter);
00296 //           }
00297 //         }
00298 //         whC = wheel;
00299 //         stC = station;
00300 //         srC = sector;
00301         
00302 //         for(int c = 0; c < 60; ++c) {
00303 //           for(int s = 0; s < 60; ++s) {
00304 //             cov[c][s] = SC(c, s);
00305 //           }
00306 //         }
00307 
00308 //         for(int counterLayer = 0; counterLayer < 12; ++counterLayer) {
00309 //           for(int counterDeg = 0; counterDeg < 5; ++counterDeg) {
00310 //             if(counterLayer > 7 && station == 4) continue;
00311 //             if(counterLayer < 4) {
00312 //               slC[counterLayer] = 1;
00313 //               laC[counterLayer] = counterLayer+1;
00314 //             } else if(counterLayer > 3 && counterLayer < 8) {
00315 //               slC[counterLayer] = 3;
00316 //               laC[counterLayer] = counterLayer-3;
00317 //             } else {
00318 //               slC[counterLayer] = 2;
00319 //               laC[counterLayer] = counterLayer-7;
00320 //             }
00321 //             if(counterLayer < 8) {
00322 //               dx[counterLayer] = solution(counterLayer*5, 0);
00323 //               dy[counterLayer] = 0.0;
00324 //             } else {
00325 //               dx[counterLayer] = 0.0;
00326 //               dy[counterLayer] = solution(counterLayer*5, 0); 
00327 //             }
00328 //             dz[counterLayer] = solution(counterLayer*5+1, 0);
00329 //             phix[counterLayer] = solution(counterLayer*5+2, 0);
00330 //             phiy[counterLayer] = solution(counterLayer*5+3, 0);
00331 //             phiz[counterLayer] = solution(counterLayer*5+4, 0);
00332 //           }
00333 //         }
00334 //         ttreeOutput->Fill();
00335 //       }
00336 //     }
00337 //   }
00338   //  f->Write();
00339 
00340 }
00341 
00342  
00343 
00344 TMatrixD DTMuonMillepede::getCcsMatrix(int wh, int st, int se) {
00345 
00346   int size = 60;
00347   if(st == 4) size = 24;
00348 
00349   TMatrixD matrix(size, size);
00350 
00351   float Error[3][6] = {{0.000001, 0.000001, 0.000001, 0.000001, 0.000001, 0.000001},
00352                        {0.005,    0.005,    0.005,    0.00005,  0.00005,  0.00005}, 
00353                        {0.005,    0.005,    0.005,    0.00005,  0.00005,  0.00005}};
00354 
00355   float TollerancyPosition = 0.01;
00356   float TollerancyRotation = 0.0001;
00357   
00358   TMatrixD ConsQC = myPG->giveQCCal(wh, st, se);
00359 
00360   bool UseQC = true;
00361   if (ConsQC.GetNrows()<70) UseQC = false;
00362   
00363   int nLayer = 12, nDeg = 5;
00364   if (st==4) { nLayer = 8; nDeg = 3; }
00365 
00366   for (int la = 0; la<nLayer; la++) 
00367     for (int dg = 0; dg<nDeg; dg++) {
00368 
00369       int index = la*nDeg + dg;
00370 
00371       int rdg = dg + 1;
00372       if (la<8 && rdg==1) rdg = 0;
00373       if (st==4 && rdg==3) rdg = 4;
00374 
00375       double ThisError2 = Error[la/4][rdg]*Error[la/4][rdg];
00376       if (rdg<2) {
00377         if (UseQC) { ThisError2 += ConsQC(la, 1)*ConsQC(la, 1); 
00378         } else { ThisError2 += TollerancyPosition*TollerancyPosition; }
00379       } else if (rdg==2) { ThisError2 += TollerancyPosition*TollerancyPosition; 
00380       } else { ThisError2 += TollerancyRotation*TollerancyRotation; }
00381       
00382       matrix(index, index) = 1./ThisError2;
00383       
00384     }
00385 
00386   return matrix;
00387 
00388 }
00389 
00390 
00391 
00392 TMatrixD DTMuonMillepede::getbcsMatrix(int wh, int st, int se) {
00393 
00394   int size = 60;
00395   if(st == 4) size = 24;
00396 
00397   TMatrixD matrix(size, 1);
00398 
00399   float Error[3][6] = {{0.000001, 0.000001, 0.000001, 0.000001, 0.000001, 0.000001},
00400                        {0.005,    0.005,    0.005,    0.00005,  0.00005,  0.00005}, 
00401                        {0.005,    0.005,    0.005,    0.00005,  0.00005,  0.00005}};
00402 
00403   float TollerancyPosition = 0.01;
00404   float TollerancyRotation = 0.0001;
00405   
00406   TMatrixD ConsQC = myPG->giveQCCal(wh, st, se);
00407 
00408   bool UseQC = true;
00409   if (ConsQC.GetNrows()<70) UseQC = false;
00410 
00411   TMatrixD Survey = myPG->giveSurvey(wh, st, se);
00412 
00413   int nLayer = 12, nDeg = 5;
00414   if (st==4) { nLayer = 8; nDeg = 3; }
00415 
00416   for (int la = 0; la<nLayer; la++) 
00417     for (int dg = 0; dg<nDeg; dg++) {
00418 
00419       int index = la*nDeg + dg;
00420 
00421       int rdg = dg + 1;
00422       if (la<8 && rdg==1) rdg = 0;
00423       if (st==4 && rdg==3) rdg = 4;
00424 
00425       double ThisError2 = Error[la/4][rdg]*Error[la/4][rdg];
00426       if (rdg<2) {
00427         if (UseQC) { ThisError2 += ConsQC(la, 1)*ConsQC(la, 1); 
00428         } else { ThisError2 += TollerancyPosition*TollerancyPosition; }
00429       } else if (rdg==2) { ThisError2 += TollerancyPosition*TollerancyPosition; 
00430       } else { ThisError2 += TollerancyRotation*TollerancyRotation; }
00431       
00432       float Constraint = 0.;
00433       if (la>3) 
00434         Constraint += Survey(rdg, la/4-1);
00435       if (UseQC && rdg==0) Constraint += ConsQC(la, 0);;
00436       if (UseQC && rdg==1) Constraint -= ConsQC(la, 0);
00437      
00438       matrix(index, 0) = Constraint/ThisError2;
00439       
00440     }
00441   
00442   return matrix;
00443   
00444 }
00445 
00446 TMatrixD DTMuonMillepede::getMatrixFromFile(TString Code, int wh, int st, int se, int mf) {
00447             
00448   TString MtxFileName = "./LocalMillepedeMatrix_"; MtxFileName += mf; MtxFileName += ".root";
00449   if (mf==-1) MtxFileName = "./LocalMillepedeMatrix.root";
00450 
00451   TDirectory *dirSave = gDirectory;
00452 
00453   TFile *MatrixFile = new TFile(MtxFileName);
00454   
00455   TString MtxName = Code; MtxName += wh; MtxName += "_"; MtxName += st; MtxName += "_"; MtxName += se;
00456   TMatrixD *ThisMtx = (TMatrixD *)MatrixFile->Get(MtxName);
00457 
00458   MatrixFile->Close();
00459   
00460   dirSave->cd();
00461 
00462   return *ThisMtx;
00463 
00464 }
00465 
00466 TMatrixD DTMuonMillepede::getLagMatrix(int wh, int st, int se) {
00467   
00468   TMatrixD matrix(60+6,60+6);
00469   if(st == 4) matrix.ResizeTo(40+6, 40+6); 
00470   
00471   for(int counterDeg = 0; counterDeg < 5; ++counterDeg) {
00472     for(int counterLayer = 0; counterLayer < 12; ++counterLayer) {
00473       if(st == 4) {
00474         matrix(40+counterDeg, counterLayer*5+counterDeg) = 10000.0;
00475         matrix(counterLayer*5+counterDeg, 40+counterDeg) = 10000.0;
00476       } else {
00477         int realCounter = counterDeg+1;
00478         if(counterDeg == 1 && counterLayer < 8) {
00479           realCounter = counterDeg-1;
00480         }
00481         matrix(counterLayer*5+counterDeg,40+realCounter) = 10000.0;
00482         if( (realCounter == 0 && counterLayer > 7) ||
00483             (realCounter == 1 && counterLayer < 7)) continue;  
00484         matrix(60+realCounter,counterLayer*5+counterDeg) = 10000.0;
00485       }
00486     }
00487   }
00488   return matrix;
00489 }
00490 
00491 
00492 TMatrixD DTMuonMillepede::getCqcMatrix(int wh, int st, int se) {
00493 
00494   TMatrixD surv = myPG->giveQCCal(wh, st, se);
00495   TMatrixD sigmaQC(5, 12);
00496   
00497   TMatrixD matrix(60, 60);
00498   if(st == 4) matrix.ResizeTo(40, 40);
00499   
00500 
00501   if(surv.GetNrows() < 7) {
00502     for(int counterDeg = 0; counterDeg < 5; counterDeg++) {
00503       for(int counterLayer = 0; counterLayer < 12; ++counterLayer) {
00504         if(st != 4 && counterLayer > 7) continue;
00505         if(counterDeg == 0) {
00506           sigmaQC(counterDeg, counterLayer) = 0.05;
00507         } else if(counterDeg < 3) {
00508           sigmaQC(counterDeg, counterLayer) = 0.05;
00509         } else {
00510           sigmaQC(counterDeg, counterLayer) = 0.05;
00511         }
00512       }
00513     }
00514   } else {
00515     float meanvarSL1 = sqrt(surv(0,1)*surv(0,1)+surv(1,1)*surv(1,1)+surv(2,1)*surv(2,1)+surv(3,1)*surv(3,1))/10000.0; 
00516     float meanvarSL2 = 0;
00517     if(surv.GetNrows() > 9) meanvarSL2 = sqrt(surv(8,1)*surv(8,1)+surv(9,1)*surv(9,1)+surv(10,1)*surv(10,1)+surv(11,1)*surv(11,1))/10000.0; 
00518     float meanvarSL3 = sqrt(surv(4,1)*surv(4,1)+surv(5,1)*surv(5,1)+surv(6,1)*surv(6,1)+surv(7,1)*surv(7,1))/10000.0; 
00519     for(int counterDeg = 0; counterDeg < 5; counterDeg++) {
00520       for(int counterLayer = 0; counterLayer < 12; ++counterLayer) {
00521         if(st != 4 && counterLayer > 7) continue;
00522         float meanerror = 0;
00523         if(counterLayer < 4) {
00524           meanerror = meanvarSL1;
00525         } else if(counterLayer > 3 && counterLayer < 8){
00526           meanerror = meanvarSL2;
00527         } else {
00528           meanerror = meanvarSL3;
00529         }
00530         if(counterDeg == 0) {
00531           sigmaQC(counterDeg, counterLayer) = sqrt((surv(counterLayer, 1)/10000.0)*(surv(counterLayer, 1)/10000.0)+meanerror*meanerror);
00532         } else if(counterDeg < 3) {
00533           sigmaQC(counterDeg, counterLayer) = 0.05;
00534         } else {
00535           sigmaQC(counterDeg, counterLayer) = 0.05;
00536         }
00537       }
00538     }
00539     double **Eta = new double *[12];
00540     for(int counterLayer = 0; counterLayer < 12; counterLayer++) {
00541       
00542       if(counterLayer > 7 && st == 4) continue; 
00543       Eta[counterLayer] = new double [5];
00544       for(int counterLayer2 = 0; counterLayer2 < 12; counterLayer2++) {
00545         if(counterLayer > 7 && st == 4) continue; 
00546         if((counterLayer2 < 4 && counterLayer < 4) || (counterLayer2 > 3 && counterLayer > 3)) {
00547           if(counterLayer == counterLayer2) {
00548             Eta[counterLayer][counterLayer2] = 3.0/(4.0);
00549           } else {
00550             Eta[counterLayer][counterLayer2] = -1.0/(4.0);
00551           }
00552         } else {
00553           Eta[counterLayer][counterLayer2] = 0.0;
00554         }
00555       }
00556     }
00557   
00558     for(int counterDeg = 0; counterDeg < 5; counterDeg++) {
00559       for(int counterLayer = 0; counterLayer < 12; counterLayer++) {
00560         if(counterLayer > 7 && st == 4) continue; 
00561         for(int counterLayer2 = 0; counterLayer2 < 12; counterLayer2++) {
00562           if(counterLayer2 > 7 && st == 4) continue; 
00563           for(int counterLayer3 = 0; counterLayer3 < 12; counterLayer3++) {
00564             if(counterLayer3 > 7 && st == 4) continue; 
00565             matrix(5*counterLayer2+counterDeg, 5*counterLayer3+counterDeg) +=
00566               Eta[counterLayer][counterLayer2]*Eta[counterLayer][counterLayer3]/(sigmaQC(counterDeg,counterLayer)*sigmaQC(counterDeg,counterLayer));
00567           }
00568         }
00569       }
00570     }
00571   }
00572   return matrix;
00573 }
00574 
00575 
00576 TMatrixD DTMuonMillepede::getbqcMatrix(int wh, int st, int se) {
00577 
00578   TMatrixD surv = myPG->giveQCCal(wh, st, se);
00579   TMatrixD ResQC(5, 12);
00580   TMatrixD sigmaQC(5, 12);
00581   TMatrixD matrix(60, 1);
00582   if(st == 4) matrix.ResizeTo(40, 1);
00583   
00584   if(surv.GetNrows() < 7) {
00585     for(int counterDeg = 0; counterDeg < 5; counterDeg++) {
00586       for(int counterLayer = 0; counterLayer < 12; ++counterLayer) {
00587         if(st != 4 && counterLayer > 7) continue;
00588         if(counterDeg == 0) {
00589           sigmaQC(counterDeg, counterLayer) = 0.05;
00590         } else if(counterDeg < 3) {
00591           sigmaQC(counterDeg, counterLayer) = 0.05;
00592         } else {
00593           sigmaQC(counterDeg, counterLayer) = 0.05;
00594         } 
00595       }
00596     }
00597   } else { 
00598     for(int counterChamber = 0; counterChamber < 12; ++counterChamber) {
00599       ResQC(0, counterChamber) = -surv(counterChamber, 0)/10000.0;
00600     }
00601     float meanvarSL1 = sqrt(surv(0,1)*surv(0,1)+surv(1,1)*surv(1,1)+surv(2,1)*surv(2,1)+surv(3,1)*surv(3,1))/10000.0;
00602     float meanvarSL2 = 0;
00603     if(surv.GetNrows() > 9) {
00604       meanvarSL2 = sqrt(surv(8,1)*surv(8,1)+surv(9,1)*surv(9,1)+surv(10,1)*surv(10,1)+surv(11,1)*surv(11,1))/10000.0;
00605     }  
00606     float meanvarSL3 = sqrt(surv(4,1)*surv(4,1)+surv(5,1)*surv(5,1)+surv(6,1)*surv(6,1)+surv(7,1)*surv(7,1))/10000.0;
00607     for(int counterDeg = 0; counterDeg < 5; counterDeg++) {
00608       for(int counterLayer = 0; counterLayer < 12; ++counterLayer) {
00609         if(st != 4 && counterLayer > 7) continue;
00610         float meanerror = 0;
00611         if(counterLayer < 4) {
00612           meanerror = meanvarSL1;
00613         } else if(counterLayer > 3 && counterLayer < 8){
00614           meanerror = meanvarSL2;
00615         } else {
00616           meanerror = meanvarSL3;
00617         }
00618         if(counterDeg == 0) {
00619           sigmaQC(counterDeg, counterLayer) = sqrt((surv(counterLayer, 1)/10000.0)*(surv(counterLayer, 1)/10000.0)+meanerror*meanerror);
00620         } else if(counterDeg < 3) {
00621           sigmaQC(counterDeg, counterLayer) = 0.05;
00622         } else {
00623           sigmaQC(counterDeg, counterLayer) = 0.05;
00624         }
00625       }
00626     }
00627     double **Eta = new double *[12];
00628     for(int counterLayer = 0; counterLayer < 12; counterLayer++) {
00629       if(counterLayer > 7 && st == 4) continue;
00630       Eta[counterLayer] = new double [5];
00631       for(int counterLayer2 = 0; counterLayer2 < 12; counterLayer2++) {
00632         if(counterLayer > 7 && st == 4) continue;
00633         if((counterLayer2 < 4 && counterLayer < 4) || (counterLayer2 > 3 && counterLayer > 3)) {
00634           if(counterLayer == counterLayer2) {
00635             Eta[counterLayer][counterLayer2] = 3.0/(4.0);
00636           } else {
00637             Eta[counterLayer][counterLayer2] = -1.0/(4.0);
00638           }
00639         } else {
00640           Eta[counterLayer][counterLayer2] = 0.0;
00641         }
00642       }
00643     }
00644   
00645     for(int counterDeg = 0; counterDeg < 5; counterDeg++) {
00646       for(int counterLayer = 0; counterLayer < 12; counterLayer++) {
00647         if(counterLayer > 7 && st == 4) continue; 
00648         for(int counterLayer2 = 0; counterLayer2 < 12; counterLayer2++) {
00649           if(counterLayer2 > 7 && st == 4) continue;
00650           float mean = 0;
00651           if(counterDeg != 0) {
00652             if(counterLayer < 4) {
00653               mean = (ResQC(counterDeg, 0)+ResQC(counterDeg, 1)+ResQC(counterDeg, 2)+ResQC(counterDeg, 3))/4.0;
00654             } else if(counterLayer > 3 && counterLayer < 8) {
00655               mean = (ResQC(counterDeg, 4)+ResQC(counterDeg, 5)+ResQC(counterDeg, 6)+ResQC(counterDeg, 7))/4.0;
00656             } else {
00657               mean = (ResQC(counterDeg, 8)+ResQC(counterDeg, 9)+ResQC(counterDeg, 10)+ResQC(counterDeg, 11))/4.0;
00658             }
00659           }
00660           matrix(5*counterLayer2+counterDeg, 0) += Eta[counterLayer][counterLayer2]*(ResQC(counterDeg,counterLayer)-mean)/(sigmaQC(counterDeg,counterLayer)*sigmaQC(counterDeg,counterLayer));
00661         }
00662       }
00663     }
00664   }
00665   return matrix;
00666 }
00667 
00668 
00669 // TMatrixD DTMuonMillepede::getCsurveyMatrix(int wh, int st, int se) {
00670 
00671 //   int size = 60;
00672 //   if(st == 4) size = 40;
00673 
00674 //   TMatrixD matrix(size+6, size+6);
00675 //   //Careful with the sign
00676 //   float error[] = {0.05, 0.05, 0.05, 0.005, 0.005, 0.005};
00677 //   for(int counterLayer = 0; counterLayer < size/5; counterLayer++) {
00678 //     float k = 1;
00679 //     if(counterLayer < 4) k = -1;
00680 //     for(int counterDeg = 0; counterDeg < 5; counterDeg++) {
00681 //       for(int counterLayer2 = 0; counterLayer2 < size/5; counterLayer2++) {
00682 //         float k2 = 1;
00683 //         if(counterLayer2 < 4) k2 = -1;
00684 //         matrix(5*counterLayer+counterDeg, 5*counterLayer2+counterDeg) =  k2*k/(16.0*error[counterDeg]*error[counterDeg]);
00685 //       }
00686 //     }
00687 //   }
00688 
00689 //   return matrix;
00690 
00691 // }
00692 
00693 
00694 TMatrixD DTMuonMillepede::getCsurveyMatrix(int wh, int st, int se) {
00695 
00696   int size = 60;
00697   if(st == 4) size = 40;
00698 
00699   TMatrixD matrix(size+6, size+6);
00700   //Careful with the sign
00701   float error[2][6] = {{0.000001, 0.000001, 0.000001, 0.000001, 0.000001, 0.000001}, 
00702                        {0.05,     0.05,     0.05,     0.005,    0.005,    0.005}};
00703   for(int counterLayer = 0; counterLayer < size/5; counterLayer++) {
00704     for(int counterLayer2 = 0; counterLayer2 < size/5; counterLayer2++) {
00705       int sl1 = counterLayer/4;
00706       int sl2 = counterLayer2/4;
00707       if (sl1==sl2) {
00708         for(int counterDeg = 0; counterDeg < 5; counterDeg++) {
00709           int counterDegAux = counterDeg+1;
00710           if(counterLayer < 8 && counterDeg == 1) counterDegAux = 0;
00711           int sl = (sl1 + 1)/2; 
00712           matrix(5*counterLayer+counterDeg, 5*counterLayer2+counterDeg) =  1.0/(16.0*error[sl][counterDegAux]*error[sl][counterDegAux]);
00713         }
00714       }
00715     }
00716   }
00717 
00718   return matrix;
00719 
00720 }
00721 
00722 
00723 
00724 // TMatrixD DTMuonMillepede::getbsurveyMatrix(int wh, int st, int se) {
00725  
00726 //   TMatrixD survey = myPG->giveSurvey(wh, st, se); 
00727 //   int size = 60;
00728 //   if(st == 4) size = 40;
00729 
00730 //   TMatrixD matrix(size+6, 1);
00731 //   //Careful with the sign
00732 //   float error[] = {0.05, 0.05, 0.05, 0.005, 0.005, 0.005};
00733 //   for(int counterLayer = 0; counterLayer < size/5; counterLayer++) {
00734 //     float k = 1;
00735 //     if(counterLayer < 4) k = -1;
00736 //     for(int counterDeg = 0; counterDeg < 5; counterDeg++) {
00737 //       int counterDegAux = counterDeg+1;
00738 //       if(counterLayer < 8 && counterDeg == 1) counterDegAux = 0;  
00739 //       matrix(5*counterLayer+counterDeg, 0) =  k*survey(counterDegAux, 0)/(16.0*error[counterDeg]*error[counterDeg]);
00740 //     }
00741 //   }
00742 
00743 //   return matrix;
00744 
00745 // }
00746 
00747 
00748 
00749 TMatrixD DTMuonMillepede::getbsurveyMatrix(int wh, int st, int se) {
00750  
00751   TMatrixD survey = myPG->giveSurvey(wh, st, se); 
00752   int size = 60;
00753   if(st == 4) size = 40;
00754 
00755   TMatrixD matrix(size+6, 1);
00756   //Careful with the sign
00757   float error[2][6] = {{0.000001, 0.000001, 0.000001, 0.000001, 0.000001, 0.000001}, 
00758                        {0.05,     0.05,     0.05,     0.005,    0.005,    0.005}};
00759   for(int counterLayer = 0; counterLayer < size/5; counterLayer++) {
00760     for(int counterDeg = 0; counterDeg < 5; counterDeg++) {
00761       int counterDegAux = counterDeg+1;
00762       if(counterLayer < 8 && counterDeg == 1) counterDegAux = 0;  
00763       int superlayerAux = counterLayer/4;
00764       int sl = (superlayerAux + 1)/2;
00765       matrix(5*counterLayer+counterDeg, 0) =  survey(counterDegAux, superlayerAux)/(4.0*error[sl][counterDegAux]*error[sl][counterDegAux]);
00766     }
00767   }
00768 
00769   return matrix;
00770 
00771 }
00772 
00773 
00774 TMatrixD DTMuonMillepede::prepareForLagrange(const TMatrixD &m) {
00775  
00776   TMatrixD updatedMatrix = m;
00777   updatedMatrix.ResizeTo(m.GetNrows()+6, m.GetNcols()+6);
00778   return updatedMatrix;
00779 
00780 }
00781 
00782 
00783 void DTMuonMillepede::setBranchTree() {
00784 
00785   ttreeOutput = new TTree("DTLocalMillepede", "DTLocalMillepede");
00786 
00787   ttreeOutput->Branch("wh", &whC, "wh/I");
00788   ttreeOutput->Branch("st", &stC, "st/I");
00789   ttreeOutput->Branch("sr", &srC, "sr/I");
00790   ttreeOutput->Branch("cov", cov, "cov[60][60]/F");
00791   ttreeOutput->Branch("sl", slC, "sl[12]/I");
00792   ttreeOutput->Branch("la", laC, "la[12]/I");
00793   ttreeOutput->Branch("dx", dx, "dx[12]/F");
00794   ttreeOutput->Branch("dy", dy, "dy[12]/F");
00795   ttreeOutput->Branch("dz", dz, "dz[12]/F");
00796   ttreeOutput->Branch("phix", phix, "phix[12]/F");
00797   ttreeOutput->Branch("phiy", phiy, "phiy[12]/F");
00798   ttreeOutput->Branch("phiz", phiz, "phiz[12]/F");
00799 
00800 }
00801 
00802 
00803 
00804