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00001 #include "TFile.h"
00002 #include "TTree.h"
00003 #include "TEveGeoNode.h"
00004 #include "TPRegexp.h"
00005 #include "TSystem.h"
00006 #include "TGeoArb8.h"
00007 
00008 #include "Fireworks/Core/interface/FWGeometry.h"
00009 #include "Fireworks/Core/interface/fwLog.h"
00010 #include "DataFormats/DetId/interface/DetId.h"
00011 
00012 #include <iostream>
00013 #include <cassert>
00014 #include <sstream>
00015 #include <stdexcept>
00016 #include <algorithm>
00017 
00018 FWGeometry::FWGeometry( void )
00019   : m_idToInfo( 260000 )
00020 {}
00021 
00022 FWGeometry::~FWGeometry( void )
00023 {}
00024 
00025 TFile*
00026 FWGeometry::findFile( const char* fileName )
00027 {
00028    TString file;
00029    if( fileName[0] == '/' )
00030    {
00031       file = fileName;
00032    }
00033    else
00034    {
00035       if( const char* cmspath = gSystem->Getenv( "CMSSW_BASE" ))
00036       {
00037          file += cmspath;
00038          file += "/";
00039       }
00040       file += fileName;
00041    }
00042    if( !gSystem->AccessPathName( file.Data()))
00043    {
00044       return TFile::Open( file );
00045    }
00046 
00047    const char* searchpath = gSystem->Getenv( "CMSSW_SEARCH_PATH" );
00048    if( searchpath == 0 )
00049      return 0;
00050    TString paths( searchpath );
00051    TObjArray* tokens = paths.Tokenize( ":" );
00052    for( int i = 0; i < tokens->GetEntries(); ++i )
00053    {
00054       TObjString* path = (TObjString*)tokens->At( i );
00055       TString fullFileName( path->GetString());
00056       fullFileName += "/Fireworks/Geometry/data/";
00057       fullFileName += fileName;
00058       if( !gSystem->AccessPathName( fullFileName.Data()))
00059          return TFile::Open( fullFileName.Data());
00060    }
00061    return 0;
00062 }
00063 
00064 void
00065 FWGeometry::loadMap( const char* fileName )
00066 {  
00067    TFile* file = findFile( fileName );
00068    if( ! file )
00069    {
00070       throw std::runtime_error( "ERROR: failed to find geometry file. Initialization failed." );
00071       return;
00072    }
00073    TTree* tree = static_cast<TTree*>(file->Get( "idToGeo" ));
00074    if( ! tree )
00075    {
00076       throw std::runtime_error( "ERROR: cannot find detector id map in the file. Initialization failed." );
00077       return;
00078    }
00079    
00080    unsigned int id;
00081    Float_t points[24];
00082    Float_t topology[9];
00083    Float_t shape[5];
00084    Float_t translation[3];
00085    Float_t matrix[9];
00086    bool loadPoints = tree->GetBranch( "points" ) != 0;
00087    bool loadParameters = tree->GetBranch( "topology" ) != 0;
00088    bool loadShape = tree->GetBranch( "shape" ) != 0;
00089    bool loadTranslation = tree->GetBranch( "translation" ) != 0;
00090    bool loadMatrix = tree->GetBranch( "matrix" ) != 0;
00091    tree->SetBranchAddress( "id", &id );
00092    if( loadPoints )
00093       tree->SetBranchAddress( "points", &points );
00094    if( loadParameters )
00095       tree->SetBranchAddress( "topology", &topology );
00096    if( loadShape )
00097       tree->SetBranchAddress( "shape", &shape );
00098    if( loadTranslation )
00099       tree->SetBranchAddress( "translation", &translation );
00100    if( loadMatrix )
00101       tree->SetBranchAddress( "matrix", &matrix );
00102    
00103    unsigned int treeSize = tree->GetEntries();
00104    if( m_idToInfo.size() != treeSize )
00105        m_idToInfo.resize( treeSize );
00106    for( unsigned int i = 0; i < treeSize; ++i )
00107    {
00108       tree->GetEntry( i );
00109 
00110       m_idToInfo[i].id = id;
00111       if( loadPoints )
00112       {
00113          for( unsigned int j = 0; j < 24; ++j )
00114             m_idToInfo[i].points[j] = points[j];
00115       }
00116       if( loadParameters )
00117       {
00118          for( unsigned int j = 0; j < 9; ++j )
00119             m_idToInfo[i].parameters[j] = topology[j];
00120       }
00121       if( loadShape )
00122       {
00123          for( unsigned int j = 0; j < 5; ++j )
00124             m_idToInfo[i].shape[j] = shape[j];
00125       }
00126       if( loadTranslation )
00127       {
00128          for( unsigned int j = 0; j < 3; ++j )
00129             m_idToInfo[i].translation[j] = translation[j];
00130       }
00131       if( loadMatrix )
00132       {
00133          for( unsigned int j = 0; j < 9; ++j )
00134             m_idToInfo[i].matrix[j] = matrix[j];
00135       }
00136    }
00137    file->Close();
00138 }
00139 
00140 void
00141 FWGeometry::initMap( const FWRecoGeom::InfoMap& map )
00142 {
00143   FWRecoGeom::InfoMapItr begin = map.begin();
00144   FWRecoGeom::InfoMapItr end = map.end();
00145   unsigned int mapSize = map.size();
00146   if( m_idToInfo.size() != mapSize )
00147     m_idToInfo.resize( mapSize );
00148   unsigned int i = 0;
00149   for( FWRecoGeom::InfoMapItr it = begin;
00150        it != end; ++it, ++i )
00151   {
00152     m_idToInfo[i].id = it->id;
00153     for( unsigned int j = 0; j < 24; ++j )
00154       m_idToInfo[i].points[j] = it->points[j];
00155     for( unsigned int j = 0; j < 9; ++j )
00156       m_idToInfo[i].parameters[j] = it->topology[j];
00157     for( unsigned int j = 0; j < 5; ++j )
00158       m_idToInfo[i].shape[j] = it->shape[j];
00159     for( unsigned int j = 0; j < 3; ++j )
00160       m_idToInfo[i].translation[j] = it->translation[j];
00161     for( unsigned int j = 0; j < 9; ++j )
00162       m_idToInfo[i].matrix[j] = it->matrix[j];
00163   }
00164 }
00165 
00166 const TGeoMatrix*
00167 FWGeometry::getMatrix( unsigned int id ) const
00168 {
00169    std::map<unsigned int, TGeoMatrix*>::iterator mit = m_idToMatrix.find( id );
00170    if( mit != m_idToMatrix.end()) return mit->second;
00171    
00172    IdToInfoItr it = FWGeometry::find( id );
00173    if( it == m_idToInfo.end())
00174    {
00175       fwLog( fwlog::kWarning ) << "no reco geometry found for id " <<  id << std::endl;
00176       return 0;
00177    }
00178    else
00179    {
00180       const GeomDetInfo& info = *it;
00181       TGeoTranslation trans( info.translation[0], info.translation[1], info.translation[2] );
00182       TGeoRotation rotation;
00183       const Double_t matrix[9] = { info.matrix[0], info.matrix[1], info.matrix[2],
00184                                    info.matrix[3], info.matrix[4], info.matrix[5],
00185                                    info.matrix[6], info.matrix[7], info.matrix[8]
00186       };
00187       rotation.SetMatrix( matrix );
00188 
00189       m_idToMatrix[id] = new TGeoCombiTrans( trans, rotation );
00190       return m_idToMatrix[id];
00191    }
00192 }
00193 
00194 std::vector<unsigned int>
00195 FWGeometry::getMatchedIds( Detector det, SubDetector subdet ) const
00196 {
00197    std::vector<unsigned int> ids;
00198    unsigned int mask = ( det << 4 ) | ( subdet );
00199    for( IdToInfoItr it = m_idToInfo.begin(), itEnd = m_idToInfo.end();
00200         it != itEnd; ++it )
00201    {
00202       if( FWGeometry::match_id( *it, mask ))
00203          ids.push_back(( *it ).id );
00204    }
00205    
00206    return ids;
00207 }
00208 
00209 TGeoShape*
00210 FWGeometry::getShape( unsigned int id ) const
00211 {
00212    IdToInfoItr it = FWGeometry::find( id );
00213    if( it == m_idToInfo.end())
00214    {
00215       fwLog( fwlog::kWarning ) << "no reco geoemtry found for id " <<  id << std::endl;
00216       return 0;
00217    }
00218    else 
00219    {
00220       return getShape( *it );
00221    }
00222 }
00223 
00224 TGeoShape*
00225 FWGeometry::getShape( const GeomDetInfo& info ) const 
00226 {
00227    TEveGeoManagerHolder gmgr( TEveGeoShape::GetGeoMangeur());
00228    TGeoShape* geoShape = 0;
00229    if( info.shape[0] == 1 ) 
00230    {
00231       geoShape = new TGeoTrap(
00232          info.shape[3], //dz
00233          0,             //theta
00234          0,             //phi
00235          info.shape[4], //dy1
00236          info.shape[1], //dx1
00237          info.shape[2], //dx2
00238          0,             //alpha1
00239          info.shape[4], //dy2
00240          info.shape[1], //dx3
00241          info.shape[2], //dx4
00242          0);            //alpha2
00243    }
00244    else
00245       geoShape = new TGeoBBox( info.shape[1], info.shape[2], info.shape[3] );
00246       
00247    return geoShape;
00248 }
00249 
00250 TEveGeoShape*
00251 FWGeometry::getEveShape( unsigned int id  ) const
00252 {
00253    IdToInfoItr it = FWGeometry::find( id );
00254    if( it == m_idToInfo.end())
00255    {
00256       fwLog( fwlog::kWarning ) << "no reco geoemtry found for id " <<  id << std::endl;
00257       return 0;
00258    }
00259    else
00260    {
00261       const GeomDetInfo& info = *it;
00262       double array[16] = { info.matrix[0], info.matrix[3], info.matrix[6], 0.,
00263                            info.matrix[1], info.matrix[4], info.matrix[7], 0.,
00264                            info.matrix[2], info.matrix[5], info.matrix[8], 0.,
00265                            info.translation[0], info.translation[1], info.translation[2], 1.
00266       };
00267       TEveGeoManagerHolder gmgr( TEveGeoShape::GetGeoMangeur());
00268       TEveGeoShape* shape = new TEveGeoShape;
00269       TGeoShape* geoShape = getShape( info );
00270       shape->SetShape( geoShape );
00271       // Set transformation matrix from a column-major array
00272       shape->SetTransMatrix( array );
00273       return shape;
00274    }
00275 }
00276 
00277 const float*
00278 FWGeometry::getCorners( unsigned int id ) const
00279 {
00280    // reco geometry points
00281    IdToInfoItr it = FWGeometry::find( id );
00282    if( it == m_idToInfo.end())
00283    {
00284       fwLog( fwlog::kWarning ) << "no reco geometry found for id " <<  id << std::endl;
00285       return 0;
00286    }
00287    else
00288    {
00289       return ( *it ).points;
00290    }
00291 }
00292 
00293 const float*
00294 FWGeometry::getParameters( unsigned int id ) const
00295 {
00296    // reco geometry parameters
00297    IdToInfoItr it = FWGeometry::find( id );
00298    if( it == m_idToInfo.end())
00299    {
00300       fwLog( fwlog::kWarning ) << "no reco geometry found for id " <<  id << std::endl;
00301       return 0;
00302    }
00303    else
00304    {
00305       return ( *it ).parameters;
00306    }
00307 }
00308 
00309 const float*
00310 FWGeometry::getShapePars( unsigned int id ) const
00311 {
00312    // reco geometry parameters
00313    IdToInfoItr it = FWGeometry::find( id );
00314    if( it == m_idToInfo.end())
00315    {
00316       fwLog( fwlog::kWarning ) << "no reco geometry found for id " <<  id << std::endl;
00317       return 0;
00318    }
00319    else
00320    {
00321       return ( *it ).shape;
00322    }
00323 }
00324 
00325 void
00326 FWGeometry::localToGlobal( unsigned int id, const float* local, float* global ) const
00327 {
00328    IdToInfoItr it = FWGeometry::find( id );
00329    if( it == m_idToInfo.end())
00330    {
00331       fwLog( fwlog::kWarning ) << "no reco geometry found for id " <<  id << std::endl;
00332    }
00333    else
00334    {
00335       localToGlobal( *it, local, global );
00336    }
00337 }
00338 
00339 void
00340 FWGeometry::localToGlobal( unsigned int id, const float* local1, float* global1, const float* local2, float* global2 ) const
00341 {
00342    IdToInfoItr it = FWGeometry::find( id );
00343    if( it == m_idToInfo.end())
00344    {
00345       fwLog( fwlog::kWarning ) << "no reco geometry found for id " <<  id << std::endl;
00346    }
00347    else
00348    {
00349       localToGlobal( *it, local1, global1 );
00350       localToGlobal( *it, local2, global2 );
00351    }
00352 }
00353 
00354 FWGeometry::IdToInfoItr
00355 FWGeometry::find( unsigned int id ) const
00356 {
00357   FWGeometry::IdToInfoItr begin = m_idToInfo.begin();
00358   FWGeometry::IdToInfoItr end = m_idToInfo.end();
00359   return std::lower_bound( begin, end, id );
00360 }
00361 
00362 void
00363 FWGeometry::localToGlobal( const GeomDetInfo& info, const float* local, float* global ) const
00364 {
00365    for( int i = 0; i < 3; ++i )
00366    {
00367       global[i] = info.translation[i] 
00368                   + local[0] * info.matrix[3 * i]
00369                   + local[1] * info.matrix[3 * i + 1]
00370                   + local[2] * info.matrix[3 * i + 2];
00371    }
00372 }