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/afs/cern.ch/work/a/aaltunda/public/www/CMSSW_6_2_7/src/Alignment/CommonAlignmentAlgorithm/src/AlignableDataIORoot.cc

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00001 #include "TTree.h"
00002 
00003 #include "Alignment/CommonAlignment/interface/Alignable.h"
00004 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00005 
00006 #include "Alignment/CommonAlignmentAlgorithm/interface/AlignableDataIORoot.h"
00007 
00008 // ----------------------------------------------------------------------------
00009 // constructor
00010 AlignableDataIORoot::AlignableDataIORoot(PosType p) : 
00011   AlignableDataIO(p)
00012 {
00013   if (thePosType == Abs) {
00014     treename = "AlignablesAbsPos";
00015     treetxt = "Alignables abs.Pos";
00016   }
00017   else if (thePosType == Org) {
00018     treename = "AlignablesOrgPos";
00019     treetxt = "Alignables org.Pos";
00020   }
00021   else if (thePosType == Rel) {
00022     treename = "AlignablesRelPos";
00023     treetxt = "Alignables rel.Pos";
00024   }
00025 }
00026 
00027 // ----------------------------------------------------------------------------
00028 // create root tree branches (for writing)
00029 
00030 void AlignableDataIORoot::createBranches(void) 
00031 {
00032   tree->Branch("Id",    &Id,    "Id/i");
00033   tree->Branch("ObjId", &ObjId, "ObjId/I");
00034   tree->Branch("Pos",   &Pos,   "Pos[3]/D");
00035   tree->Branch("Rot",   &Rot,   "Rot[9]/D");
00036 
00037   tree->Branch("NumDeform",   &numDeformationValues_, "NumDeform/i");
00038   tree->Branch("DeformValues", deformationValues_,    "DeformValues[NumDeform]/F");
00039 }
00040 
00041 // ----------------------------------------------------------------------------
00042 // set root tree branch addresses (for reading)
00043 
00044 void AlignableDataIORoot::setBranchAddresses(void) 
00045 {
00046   tree->SetBranchAddress("Id",    &Id);
00047   tree->SetBranchAddress("ObjId", &ObjId);
00048   tree->SetBranchAddress("Pos",   &Pos);
00049   tree->SetBranchAddress("Rot",   &Rot);
00050 
00051   tree->SetBranchAddress("NumDeform",   &numDeformationValues_);
00052   tree->SetBranchAddress("DeformValues", deformationValues_);
00053 }
00054 
00055 // ----------------------------------------------------------------------------
00056 // find root tree entry based on IDs
00057 
00058 int AlignableDataIORoot::findEntry(align::ID id, align::StructureType comp)
00059 {
00060   if (newopen) { // we're here first time
00061     edm::LogInfo("Alignment") << "@SUB=AlignableDataIORoot::findEntry"
00062                               << "Filling map ...";
00063     treemap.erase(treemap.begin(),treemap.end());
00064     for (int ev = 0;ev<tree->GetEntries();ev++) {
00065       tree->GetEntry(ev); 
00066       treemap[ std::make_pair(Id,ObjId) ] = ev;
00067     }
00068     newopen=false;
00069   }
00070   
00071   // now we have filled the map
00072   treemaptype::iterator imap = treemap.find( std::make_pair(id,comp) );
00073   int result=-1;
00074   if (imap != treemap.end()) result=(*imap).second;
00075   return result;
00076 
00077 }
00078 
00079 // ----------------------------------------------------------------------------
00080 int AlignableDataIORoot::writeAbsRaw(const AlignableAbsData &ad)
00081 {
00082   align::GlobalPoint pos = ad.pos();
00083   align::RotationType rot = ad.rot();
00084   Id = ad.id();
00085   ObjId = ad.objId();
00086   Pos[0]=pos.x(); Pos[1]=pos.y(); Pos[2]=pos.z();
00087   Rot[0]=rot.xx(); Rot[1]=rot.xy(); Rot[2]=rot.xz();
00088   Rot[3]=rot.yx(); Rot[4]=rot.yy(); Rot[5]=rot.yz();
00089   Rot[6]=rot.zx(); Rot[7]=rot.zy(); Rot[8]=rot.zz();
00090 
00091   const std::vector<double> &deformPars = ad.deformationParameters();
00092   numDeformationValues_ = (deformPars.size() > kMaxNumPar ? kMaxNumPar : deformPars.size());
00093   for (unsigned int i = 0; i < numDeformationValues_; ++i) {
00094     deformationValues_[i] = deformPars[i];
00095   }
00096 
00097   tree->Fill();
00098   return 0;
00099 }
00100 
00101 // ----------------------------------------------------------------------------
00102 int AlignableDataIORoot::writeRelRaw(const AlignableRelData &ad)
00103 {
00104   align::GlobalVector pos = ad.pos();
00105   align::RotationType rot = ad.rot();
00106   Id = ad.id();
00107   ObjId = ad.objId();
00108   Pos[0]=pos.x(); Pos[1]=pos.y(); Pos[2]=pos.z();
00109   Rot[0]=rot.xx(); Rot[1]=rot.xy(); Rot[2]=rot.xz();
00110   Rot[3]=rot.yx(); Rot[4]=rot.yy(); Rot[5]=rot.yz();
00111   Rot[6]=rot.zx(); Rot[7]=rot.zy(); Rot[8]=rot.zz();
00112 
00113   const std::vector<double> &deformPars = ad.deformationParameters();
00114   numDeformationValues_ = (deformPars.size() > kMaxNumPar ? kMaxNumPar : deformPars.size());
00115   for (unsigned int i = 0; i < numDeformationValues_; ++i) {
00116     deformationValues_[i] = deformPars[i];
00117   }
00118 
00119   tree->Fill();
00120   return 0;
00121 }
00122 
00123 // ----------------------------------------------------------------------------
00124 AlignableAbsData AlignableDataIORoot::readAbsRaw(Alignable* ali,int& ierr)
00125 {
00126   align::GlobalPoint pos;
00127   align::RotationType rot;
00128 
00129   align::StructureType typeId = ali->alignableObjectId();
00130   align::ID id = ali->id();
00131   int entry = findEntry(id,typeId);
00132   if(entry!=-1) {
00133     tree->GetEntry(entry);
00134     align::GlobalPoint pos2(Pos[0],Pos[1],Pos[2]);
00135     align::RotationType rot2(Rot[0],Rot[1],Rot[2],
00136                              Rot[3],Rot[4],Rot[5],
00137                              Rot[6],Rot[7],Rot[8]);
00138     pos=pos2;
00139     rot=rot2;
00140 
00141     // FIXME: Should add reading of deformation values?
00142     //        Then call Alignable::setSurfaceDeformation(..) ...
00143     ierr=0;
00144   }
00145   else ierr=-1;
00146 
00147   return AlignableAbsData(pos,rot,id,typeId);
00148 }
00149 
00150 // ----------------------------------------------------------------------------
00151 
00152 AlignableRelData AlignableDataIORoot::readRelRaw(Alignable* ali,int& ierr)
00153 {
00154   align::GlobalVector pos;
00155   align::RotationType rot;
00156 
00157   align::StructureType typeId = ali->alignableObjectId();
00158   align::ID id = ali->id();
00159   int entry = findEntry(id,typeId);
00160   if(entry!=-1) {
00161     tree->GetEntry(entry);
00162     align::GlobalVector pos2(Pos[0],Pos[1],Pos[2]);
00163     align::RotationType rot2(Rot[0],Rot[1],Rot[2],
00164                              Rot[3],Rot[4],Rot[5],
00165                              Rot[6],Rot[7],Rot[8]);
00166     pos=pos2;
00167     rot=rot2;
00168 
00169     // FIXME: Should add reading of deformation values?
00170     //        Then call Alignable::setSurfaceDeformation(..) ...
00171     ierr=0;
00172   }
00173   else ierr=-1;
00174 
00175   return AlignableRelData(pos,rot,id,typeId);
00176 }