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/data/refman/pasoursint/CMSSW_5_3_10/src/Alignment/CommonAlignment/src/Alignable.cc

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00001 
00008 #include "Alignment/CommonAlignment/interface/AlignmentParameters.h"
00009 #include "Alignment/CommonAlignment/interface/SurveyDet.h"
00010 
00011 #include "Alignment/CommonAlignment/interface/Alignable.h"
00012 
00013 #include "CondFormats/Alignment/interface/AlignmentSurfaceDeformations.h"
00014 #include "CondFormats/Alignment/interface/AlignmentSorter.h"
00015 
00016 #include "Geometry/CommonTopologies/interface/SurfaceDeformation.h"
00017 
00018 //__________________________________________________________________________________________________
00019 Alignable::Alignable(align::ID id, const AlignableSurface& surf):
00020   theDetId(id), // FIXME: inconsistent with other ctr., but needed for AlignableNavigator 
00021   theId(id),    // (finally get rid of one of the IDs!)
00022   theSurface(surf),
00023   theCachedSurface(surf),
00024   theAlignmentParameters(0),
00025   theMother(0),
00026   theSurvey(0)
00027 {
00028 }
00029 
00030 //__________________________________________________________________________________________________
00031 Alignable::Alignable(align::ID id, const RotationType& rot):
00032   theDetId(), // FIXME: inconsistent with other ctr., cf. above
00033   theId(id),
00034   theSurface(PositionType(), rot),
00035   theCachedSurface(PositionType(), rot),
00036   theAlignmentParameters(0),
00037   theMother(0),
00038   theSurvey(0)
00039 {
00040 }
00041 
00042 //__________________________________________________________________________________________________
00043 Alignable::~Alignable()
00044 {
00045   delete theAlignmentParameters;
00046   delete theSurvey;
00047 }
00048 
00049 //__________________________________________________________________________________________________
00050 bool Alignable::firstCompsWithParams(Alignables &paramComps) const
00051 {
00052   bool isConsistent = true;
00053   bool hasAliComp = false; // whether there are any (grand-) daughters with parameters
00054   bool first = true;
00055   const Alignables comps(this->components());
00056   for (Alignables::const_iterator iComp = comps.begin(), iCompEnd = comps.end();
00057        iComp != iCompEnd; ++iComp) {
00058     if ((*iComp)->alignmentParameters()) { // component has parameters itself
00059       paramComps.push_back(*iComp);
00060       if (!first && !hasAliComp) isConsistent = false;
00061       hasAliComp = true;
00062     } else {
00063       const unsigned int nCompBefore = paramComps.size();
00064       if (!(*iComp)->firstCompsWithParams(paramComps)) {
00065         isConsistent = false; // problem down in hierarchy
00066       }
00067       if (paramComps.size() != nCompBefore) {
00068         if (!first && !hasAliComp) isConsistent = false;
00069         hasAliComp = true;
00070       } else if (hasAliComp) { // no components with params, but previous component did have comps.
00071         isConsistent = false;
00072       }
00073     }
00074     first = false;
00075   }
00076 
00077   return isConsistent;
00078 }
00079 
00080 //__________________________________________________________________________________________________
00081 void Alignable::setAlignmentParameters( AlignmentParameters* dap )
00082 {
00083 
00084   delete theAlignmentParameters;
00085   theAlignmentParameters = dap;
00086 
00087 }
00088 
00089 
00090 //__________________________________________________________________________________________________
00091 void Alignable::rotateInLocalFrame( const RotationType& rotation)
00092 {
00093 
00094   // This is done by simply transforming the rotation from
00095   // the local system O to the global one  O^-1 * Rot * O
00096   // and then applying the global rotation  O * Rot
00097 
00098   rotateInGlobalFrame( surface().toGlobal(rotation) );
00099 
00100 }
00101 
00102 
00103 //__________________________________________________________________________________________________
00104 void Alignable::rotateAroundGlobalAxis( const GlobalVector& axis, Scalar radians )
00105 {
00106 
00107   rotateInGlobalFrame( RotationType(axis.basicVector(),radians) );
00108 
00109 }
00110 
00111 
00112 //__________________________________________________________________________________________________
00113 void Alignable::rotateAroundLocalAxis( const LocalVector& axis, Scalar radians )
00114 {
00115 
00116   rotateInLocalFrame(RotationType(axis.basicVector(), radians));
00117 
00118 }
00119 
00120 
00121 //__________________________________________________________________________________________________
00122 void Alignable::rotateAroundGlobalX( Scalar radians )
00123 {
00124 
00125   RotationType rot( 1.,  0.,            0.,
00126                     0.,  std::cos(radians),  std::sin(radians),
00127                     0., -std::sin(radians),  std::cos(radians) );
00128 
00129   rotateInGlobalFrame(rot);
00130 
00131 }
00132 
00133 
00134 //__________________________________________________________________________________________________
00135 void Alignable::rotateAroundLocalX( Scalar radians )
00136 {
00137  
00138   RotationType rot( 1.,  0.,            0.,
00139                     0.,  std::cos(radians),  std::sin(radians),
00140                     0., -std::sin(radians),  std::cos(radians) );
00141 
00142   rotateInLocalFrame(rot);
00143 
00144 }
00145 
00146 
00147 //__________________________________________________________________________________________________
00148 void Alignable::rotateAroundGlobalY( Scalar radians )
00149 {
00150 
00151   RotationType rot( std::cos(radians),  0., -std::sin(radians), 
00152                     0.,            1.,  0.,
00153                     std::sin(radians),  0.,  std::cos(radians) );
00154 
00155   rotateInGlobalFrame(rot);
00156   
00157 }
00158 
00159 
00160 //__________________________________________________________________________________________________
00161 void Alignable::rotateAroundLocalY( Scalar radians )
00162 {
00163 
00164   RotationType rot( std::cos(radians),  0., -std::sin(radians), 
00165                     0.,            1.,  0.,
00166                     std::sin(radians),  0.,  std::cos(radians) );
00167   
00168   rotateInLocalFrame(rot);
00169 
00170 }
00171 
00172 
00173 //__________________________________________________________________________________________________
00174 void Alignable::rotateAroundGlobalZ( Scalar radians )
00175 {
00176 
00177   RotationType rot(  std::cos(radians),  std::sin(radians),  0.,
00178                     -std::sin(radians),  std::cos(radians),  0.,
00179                      0.,            0.,            1. );
00180 
00181   rotateInGlobalFrame(rot);
00182   
00183 }
00184 
00185 
00186 //__________________________________________________________________________________________________
00187 void Alignable::rotateAroundLocalZ( Scalar radians)
00188 {
00189 
00190   RotationType rot(  std::cos(radians),  std::sin(radians), 0. ,
00191                     -std::sin(radians),  std::cos(radians), 0. ,
00192                      0.,            0.,           1. );
00193   
00194   rotateInLocalFrame(rot);
00195 
00196 }
00197 
00198 
00199 //__________________________________________________________________________________________________
00200 void Alignable::addDisplacement( const GlobalVector& displacement )
00201 {
00202 
00203   theDisplacement += displacement;
00204 
00205 }
00206 
00207 //__________________________________________________________________________________________________
00208 void Alignable::addRotation( const RotationType& rotation ) 
00209 {
00210 
00211   theRotation *= rotation;
00212 
00213 }
00214 
00215 //__________________________________________________________________________________________________
00216 AlignmentSurfaceDeformations* Alignable::surfaceDeformations( void ) const
00217 {
00218 
00219   typedef std::pair<int,SurfaceDeformation*> IdSurfaceDeformationPtrPair;
00220 
00221   std::vector<IdSurfaceDeformationPtrPair> result;
00222   surfaceDeformationIdPairs(result);
00223   std::sort( result.begin(), 
00224              result.end(), 
00225              lessIdAlignmentPair<IdSurfaceDeformationPtrPair>() );
00226   
00227   AlignmentSurfaceDeformations* allSurfaceDeformations = new AlignmentSurfaceDeformations();
00228   
00229   for ( std::vector<IdSurfaceDeformationPtrPair>::const_iterator iPair = result.begin();
00230         iPair != result.end();
00231         ++iPair) {
00232     
00233     // should we check for 'empty' parameters here (all zeros) and skip ?
00234     // may be add 'empty' method to SurfaceDeformation
00235     allSurfaceDeformations->add((*iPair).first,
00236                                 (*iPair).second->type(),
00237                                 (*iPair).second->parameters());
00238   }
00239   
00240   return allSurfaceDeformations;
00241 
00242 }
00243  
00244 void Alignable::cacheTransformation()
00245 {
00246   theCachedSurface = theSurface;
00247   theCachedDisplacement = theDisplacement;
00248   theCachedRotation = theRotation;
00249 }
00250 
00251 void Alignable::restoreCachedTransformation()
00252 {
00253   theSurface = theCachedSurface;
00254   theDisplacement = theCachedDisplacement;
00255   theRotation = theCachedRotation;
00256 }
00257 
00258 //__________________________________________________________________________________________________
00259 void Alignable::setSurvey( const SurveyDet* survey )
00260 {
00261 
00262   delete theSurvey;
00263   theSurvey = survey;
00264 
00265 }