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/data/refman/pasoursint/CMSSW_5_3_3/src/DetectorDescription/Core/src/DDCompactViewImpl.cc

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00001 #include "DetectorDescription/Core/interface/DDCompactViewImpl.h"
00002 #include "DetectorDescription/Core/interface/DDCompactView.h"
00003 #include "DetectorDescription/Base/interface/DDdebug.h"
00004 #include "CLHEP/Units/GlobalSystemOfUnits.h"
00005 
00006 // Message logger.
00007 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00008 
00009 DDCompactViewImpl::DDCompactViewImpl(const DDLogicalPart & rootnodedata)
00010   :  root_(rootnodedata)
00011 {
00012   LogDebug("DDCompactViewImpl") << "Root node data = " << rootnodedata << std::endl;
00013 }
00014 
00015 DDCompactViewImpl::~DDCompactViewImpl() 
00016 {  
00017    GraphNav::adj_list::size_type it = 0;
00018    if ( graph_.size() == 0 ) {
00019      LogDebug("DDCompactViewImpl") << "In destructor, graph is empty.  Root:" << root_ << std::endl;
00020    } else {
00021      LogDebug("DDCompactViewImpl") << "In destructor, graph is NOT empty.  Root:" << root_ << " graph_.size() = " << graph_.size() << std::endl;
00022      for (; it < graph_.size() ; ++it) {
00023        GraphNav::edge_range erange = graph_.edges(it); //it->second.begin();
00024        for(; erange.first != erange.second; ++(erange.first)) {
00025          DDPosData * pd = graph_.edgeData(erange.first->second);
00026          delete pd;
00027          pd=0;
00028        }  
00029      }
00030    }
00031    edm::LogInfo("DDCompactViewImpl") << std::endl << "DDD transient representation has been destructed." << std::endl << std::endl;   
00032 }
00033 
00034 graphwalker<DDLogicalPart,DDPosData*> DDCompactViewImpl::walker() const
00035 {
00036    DCOUT('C',"DDCompactView::walker() root_=" << root_);
00037    return graphwalker<DDLogicalPart,DDPosData*>(graph_,root_);
00038 }
00039 
00040 // calculates the weight and caches it in LogicalPartImpl
00041 //double DDCompactViewImpl::weight(DDLogicalPart & part)
00042 #include "DetectorDescription/Core/interface/DDSolid.h"
00043 #include "DetectorDescription/Core/interface/DDMaterial.h"
00044 double DDCompactViewImpl::weight(const DDLogicalPart & aPart) const
00045 {
00046  // return 0;
00047 
00048    if (!aPart)
00049      return -1;
00050    DDLogicalPart part = aPart;
00051    //double result;  
00052    if (part.weight())
00053      return part.weight();
00054    
00055    // weigth = (parent.vol - children.vol)*parent.density + weight(children)
00056    double childrenVols=0;
00057    double childrenWeights=0;
00058    walker_type walker(graph_,part);
00059    if(walker.firstChild()) {
00060      bool doIt=true;
00061      while(doIt) {
00062        double a_vol;
00063        DDLogicalPart child(walker.current().first);
00064        a_vol=child.solid().volume();
00065        if (a_vol <= 0.) {
00066          edm::LogError("DDCompactViewImpl")  << "DD-WARNING: volume of solid=" << aPart.solid() 
00067                << "is zero or negative, vol=" << a_vol/m3 << "m3" << std::endl;
00068        }
00069        DCOUT_V('C', "DC: weightcalc, currently=" << child.ddname().name()
00070             << " vol=" << a_vol/cm3 << "cm3");
00071        childrenVols += a_vol;
00072        childrenWeights += weight(child); // recursive
00073        doIt=walker.nextSibling();
00074      }
00075    }
00076    
00077    double dens = part.material().density();
00078    if (dens <=0) {
00079      edm::LogError("DDCompactViewImpl")  << "DD-WARNING: density of material=" << part.material().ddname() 
00080            << " is negative or zero, rho=" << dens/g*cm3 << "g/cm3" << std::endl;
00081    }
00082    double p_vol  = part.solid().volume();
00083    double w =   (p_vol - childrenVols)*dens + childrenWeights; 
00084    if (  (fabs(p_vol) - fabs(childrenVols))/fabs(p_vol) > 1.01 ) {
00085      edm::LogError("DDCompactViewImpl")  << "DD-WARNING: parent-volume smaller than children, parent=" 
00086           << part.ddname() << " difference-vol=" 
00087            << (p_vol - childrenVols)/m3 << "m3, this is " 
00088            << (childrenVols - p_vol)/p_vol << "% of the parent-vol." << std::endl;
00089    }
00090   
00091    //part.rep().weight_=w;
00092    part.weight() = w;
00093    return w;
00094    
00095 }
00096 
00097 void DDCompactViewImpl::position (const DDLogicalPart & self,
00098                               const DDLogicalPart & parent,
00099                               int copyno,
00100                               const DDTranslation & trans,
00101                               const DDRotation & rot,
00102                               const DDDivision * div)
00103 {
00104   DDPosData * pd = new DDPosData(trans,rot,copyno,div);
00105   graph_.addEdge(parent,self,pd);
00106 }
00107 
00108 
00109 void DDCompactViewImpl::swap( DDCompactViewImpl& implToSwap ) {
00110   graph_.swap(implToSwap.graph_);
00111 }
00112 
00113 DDCompactViewImpl::DDCompactViewImpl() { }