// @(#)root/star:$Name:  $:$Id: TVolumeView.cxx,v 1.8 2004/09/07 08:22:09 brun Exp $
// Author: Valery Fine(fine@bnl.gov)   25/12/98
// $Id:
// $Log:

#include "Riostream.h"
#include <assert.h>
#include <stdlib.h>

#include "TCanvas.h"
#include "TPad.h"
#include "TCL.h"
#include "TBrowser.h"
#include "TVolumeView.h"
#include "TVolumeViewIter.h"
#include "TVolumePosition.h"
#include "TROOT.h"
#include "TView.h"
#include "TPadView3D.h"
#include "TGeometry.h"
#include "TVirtualPad.h"
#include "TObjArray.h"
//////////////////////////////////////////////////////////////////////////
//                                                                      //
// TVolumeView                                                          //
//                                                                      //
// TVolumeView class is a special kind of TDataSet with one extra       //
// pointer to wrap any TObject onto TDataSet object                     //
//                                                                      //
//  BE CAREFUL !!!                                                      //
//  One has to use it carefully no control over that extra object       //
//  is performed. This means: the object m_Obj data-member points to can//
//  be destroyed with no this kbject notifying.                         //
//  There is no tool /protection to check whether m_Obj is till alive.  //
//  It is one's  code responsilitiy                                     //
//                                                                      //
//////////////////////////////////////////////////////////////////////////

ClassImp(TVolumeView)

//_____________________________________________________________________________
 TVolumeView::TVolumeView(TVolumeView *viewNode,TVolumePosition *nodePosition)
            : TObjectSet(viewNode->GetName(),(TObject *)nodePosition),fListOfShapes(0)
            //             ,fListOfAttributes(0)
{
  //
  // This ctor creates a TVolumeView structure from the "marked" nodes
  // of the "viewNode" input structure
  // It re-calculates all positions according of the new topology
  // All new TVolume became UNMARKED though
  //
  if (!gGeometry) new TGeometry;
  if (viewNode)
  {
     SetTitle(viewNode->GetTitle());
     EDataSetPass mode = kContinue;
     TVolumeViewIter next(viewNode,0);
     TVolumeView *nextView = 0;
     while ( (nextView = (TVolumeView *)next(mode)) ){
       mode = kContinue;
       if (nextView->IsMarked()) {
         TVolumePosition *position =next[0];
         if (!position->GetNode()) {
             Error("TVolumeView ctor","%s %s ",GetName(),nextView->GetName());
         }
         Add(new TVolumeView(nextView,position));
         mode = kPrune;
      }
    }
  }
}

//_____________________________________________________________________________
 TVolumeView::TVolumeView(TVolumeView *viewNode,TVolumeView *topNode)
            : TObjectSet(viewNode->GetName(),(TObject *)0),fListOfShapes(0)
            //             ,fListOfAttributes(0)
{
  //
  // This ctor creates a TVolumeView structure containing:
  //
  //   - viewNode on the top
  //   - skip ALL node from the original viewNode untill topNode found
  //   - include all "marked" node below "topNode" if any
  //     topNode is always included
  //
  // It re-calculates all positions according of the new topology
  //
  if (!gGeometry) new TGeometry;
  if (viewNode && topNode)
  {
     SetTitle(viewNode->GetTitle());
     // define the depth of the "top" Node
     EDataSetPass mode = kContinue;
     TVolumeViewIter next(viewNode,0);
     TVolumeView *nextView = 0;
     while ( (nextView = (TVolumeView *)next(mode)) ){
       mode = kContinue;
      // Skip till  "top Node" found
      if (topNode != nextView) continue;
      TVolumePosition *position = next[0];
      if (!position->GetNode()) {
         Error("TVolumeView ctor","%s %s ",GetName(),nextView->GetName());
      }
      Add(new TVolumeView(nextView,position));
      break;
    }
  }
}

//_____________________________________________________________________________
 TVolumeView::TVolumeView(TVolumeView *viewNode,const Char_t *nodeName1,const Char_t *nodeName2)
            : TObjectSet(viewNode->GetName(),(TObject *)0),fListOfShapes(0)
            //             ,fListOfAttributes(0)
{
  //
  // This ctor creates a TVolumeView structure containing:
  //
  //   - viewNode on the top
  //   - skip ALL node from the original viewNode untill topNodeName found
  //   - include all "marked" node below "topNodename" if any
  //     topNodeName is always included
  //
  // It re-calculates all positions according of the new topology
  //
  const Char_t *foundName[2] = {nodeName1, nodeName2};
  Bool_t found = kFALSE;
  if (!gGeometry) new TGeometry;
  if (viewNode && nodeName1 && nodeName1[0])
  {
     SetTitle(viewNode->GetTitle());
     // define the depth of the "top" Node
     EDataSetPass mode = kContinue;
     TVolumeViewIter next(viewNode,0);
     TVolumeView *nextView = 0;
     while ( (nextView = (TVolumeView *)next(mode)) ){
       mode = kContinue;
      // Skip till  "top Node" found
      Int_t i = 0;
      found = kFALSE;
      for (i=0;i<2;i++) {
        if (foundName[i]) {
            if (strcmp(nextView->GetName(),foundName[i])) continue;
            foundName[i] = 0;
            found = kTRUE;
            break;
        }
      }
      if (!found) continue;
      TVolumePosition *position = next[0];
      if (!position->GetNode()) {
         Error("TVolumeView ctor","%s %s ",GetName(),nextView->GetName());
      }
      Add(new TVolumeView(nextView,position));
      mode = kPrune;
    }
  }
}

//_____________________________________________________________________________
 TVolumeView::TVolumeView(TVolumeView *viewNode,const TVolumeView *node1,const TVolumeView *node2)
            : TObjectSet(viewNode->GetName(),(TObject *)0),fListOfShapes(0)
            //             ,fListOfAttributes(0)
{
  //
  // This ctor creates a TVolumeView structure containing:
  //
  //   - viewNode on the top
  //   - skip ALL node from the original viewNode untill topNodeName found
  //   - include all "marked" node below "topNodename" if any
  //     topNodeName is always included
  //
  // It re-calculates all positions according of the new topology
  //
  const TVolumeView *foundView[2] = {node1, node2};
  const Int_t nViews = sizeof(foundView)/sizeof(const TVolumeView *);
  Bool_t found = kFALSE;
  if (!gGeometry) new TGeometry;
  if (viewNode)
  {
     SetTitle(viewNode->GetTitle());
     // define the depth of the "top" Node
     EDataSetPass mode = kContinue;
     TVolumeViewIter next(viewNode,0);
     TVolumeView *nextView = 0;
     while ( (nextView = (TVolumeView *)next(mode)) ){
       mode = kContinue;
      // Skip till  "top Node" found
      Int_t i = 0;
      found = kFALSE;
      for (i=0;i<nViews;i++) {
        if (foundView[i]) {
            if (nextView != foundView[i]) continue;
            foundView[i] = 0;
            found = kTRUE;
            break;
        }
      }
      if (!found) continue;
      TVolumePosition *position = next[0];
      if (!position->GetNode()) {
         Error("TVolumeView ctor","%s %s ",GetName(),nextView->GetName());
      }
      Add(new TVolumeView(nextView,position));
      mode = kPrune;
    }
  }
}

//_____________________________________________________________________________
 TVolumeView::TVolumeView(TVolume &pattern,Int_t maxDepLevel,
             const TVolumePosition *nodePosition,EDataSetPass iopt, TVolumeView *rootVolume)
            : TObjectSet(pattern.GetName(),(TObject *)nodePosition),fListOfShapes(0)
{
  //
  // Creates TVolumeView (view) with a topology similar with TVolume *pattern
  //
  //  Parameters:
  //  -----------
  //  pattern        - the pattern dataset
  //  iopt = kStruct - clone only my structural links
  //         kAll    - clone all links
  //         kRefs   - clone only refs
  //         kMarked - clone marked (not implemented yet) only
  //
  //   All new-created sets become the structural ones anyway.
  //
  //  cout << "ctor for " << GetName() << " - " << GetTitle() << endl;
  if (!gGeometry) new TGeometry;
  if (!nodePosition) {
     // Create the trivial position if any
     nodePosition = new TVolumePosition(&pattern);
     SetObject((TObject*)nodePosition);
  }
  if (!rootVolume) {
     rootVolume   = this;
     nodePosition = 0;
  }
  SetTitle(pattern.GetTitle());
  if ( pattern.IsMarked() ) Mark();
  TVolumePosition *position = 0;
  const TList *list = pattern.GetListOfPositions();
  if (!list || maxDepLevel == 1 || maxDepLevel < 0) return;

  TIter nextPosition(list);
  Bool_t optSel    = (iopt == kStruct);
//  Bool_t optAll    = (iopt == kAll);
  Bool_t optMarked = (iopt == kMarked);

  const TRotMatrix *thisMatrix = 0;
  Double_t thisTranslation[3] = {0,0,0};
  if (nodePosition ) {
     thisMatrix = nodePosition->GetMatrix();
     for (int i =0; i< 3; i++) thisTranslation[i]= nodePosition->GetX(i);
  }
  while ( (position = (TVolumePosition *)nextPosition()) ) {
     // define the the related TVolume
     TVolume *node     = position->GetNode();
     Double_t *positionMatrix = ((TRotMatrix *)position->GetMatrix())->GetMatrix();
     if (node) {
        UInt_t positionId = position->GetId();
        Double_t newTranslation[3] = {position->GetX(),position->GetY(),position->GetZ()};
        Double_t newMatrix[9];
        TRotMatrix currentMatrix;
        
        if (nodePosition) {
          if (positionMatrix) {
            TGeometry::UpdateTempMatrix(thisTranslation,thisMatrix?((TRotMatrix *)thisMatrix)->GetMatrix():0
                         ,position->GetX(),position->GetY(),position->GetZ(),positionMatrix
                         ,newTranslation,newMatrix);
            currentMatrix.SetMatrix(newMatrix);
          } else {
            TCL::vadd(thisTranslation, newTranslation,newTranslation,3);
            currentMatrix.SetMatrix(((TRotMatrix *)thisMatrix)->GetMatrix());
          }
        } else {
          if (positionMatrix)
            currentMatrix.SetMatrix(positionMatrix);
          else {
            TCL::ucopy(thisTranslation,newTranslation,3);
            currentMatrix.SetMatrix(TVolume::GetIdentity()->GetMatrix());
          }
        }
        TVolumePosition nextPos(node,newTranslation[0],newTranslation[1],
                                     newTranslation[2], &currentMatrix);
        nextPos.SetId(positionId);
        if (optMarked && !node->IsMarked()) {
            TVolumeView fakeView(*node,maxDepLevel,&nextPos,iopt,rootVolume);
            fakeView.DoOwner(kFALSE);
            continue;
        }

        if (optSel) {
           TDataSet *parent = node->GetParent();
           if ( parent && (parent != (TDataSet *)&pattern) ) continue;
        }
        TRotMatrix *newRotation = new TRotMatrix();
        newRotation->SetMatrix(currentMatrix.GetMatrix());
        TVolumePosition *nP = new TVolumePosition(node,newTranslation[0],newTranslation[1],
                                     newTranslation[2], newRotation);
        nP->SetId(positionId);
        rootVolume->Add(new TVolumeView(*node,maxDepLevel?maxDepLevel-1:0,nP,iopt));
     }
     else
       Error("TVolumeView ctor","Position with NO node attached has been supplied");

  }
}
//_____________________________________________________________________________
 TVolumeView::TVolumeView(TVolumeView &viewNode): 
             TObjectSet(viewNode.GetName(),(TObject *)viewNode.GetPosition())
            ,TAtt3D()
            ,fListOfShapes(viewNode.GetListOfShapes())
{ if (viewNode.IsOwner()) { viewNode.DoOwner(kFALSE); DoOwner(); } }

//_____________________________________________________________________________
 TVolumeView::TVolumeView(Double_t *translate, Double_t *rotate, UInt_t positionId, TVolume *topNode,
                         const Char_t *thisNodePath, const Char_t *matrixName, Int_t matrixType)
            // : fListOfAttributes(0)
{
  // Special ctor to back TVolumeView::SavePrimitive() method
  if (!gGeometry) new TGeometry;
  fListOfShapes     = 0;
  TVolume *thisNode = 0;
  Double_t thisX  = translate[0];
  Double_t thisY  = translate[1];
  Double_t thisZ  = translate[2];

  // Find TVolume by path;
  if (topNode) {
    thisNode =  (TVolume *)topNode->Find(thisNodePath);
    if (!thisNode->InheritsFrom("TVolume")) {
           thisNode = 0;
           fprintf(stderr,"Error wrong node <%s> on path: \"%s\"\n",thisNode->GetName(),thisNodePath);
    }
  }

  TRotMatrix *thisRotMatrix =  0;
  if (matrixName && strlen(matrixName)) thisRotMatrix = gGeometry->GetRotMatrix(matrixName);
  TVolumePosition *thisPosition = 0;
  if (thisRotMatrix)
      thisPosition = new TVolumePosition(thisNode,thisX, thisY, thisZ, matrixName);
  else if (matrixType==2)
      thisPosition = new TVolumePosition(thisNode,thisX, thisY, thisZ);
  else if (rotate) {
      const Char_t *title = "rotation";
      thisRotMatrix = new TRotMatrix((Text_t *)matrixName,(Text_t *)title,rotate);
      thisPosition  = new TVolumePosition(thisNode,thisX, thisY, thisZ, thisRotMatrix);
  }
  else
       Error("TVolumeView"," No rotation matrix is defined");
  thisPosition->SetId(positionId);
  SetObject(thisPosition);
  if (thisNode) {
    SetName(thisNode->GetName());
    SetTitle(thisNode->GetTitle());
  }
}

//_____________________________________________________________________________
 TVolumeView::TVolumeView(TVolume *thisNode,TVolumePosition *nodePosition)
            : TObjectSet(thisNode?thisNode->GetName():"",(TObject *)nodePosition),fListOfShapes(0)
{
  if (!gGeometry) new TGeometry;
  SafeDelete(fListOfShapes);
  if (thisNode)
     SetTitle(thisNode->GetTitle());
}

//______________________________________________________________________________
 TVolumeView::~TVolumeView()
{
// default dtor (empty for this class)
}

//_____________________________________________________________________________
 TVolume *TVolumeView::AddNode(TVolume *node)
{
  // Add the TVolume in the Tnode data-structure refered
  // by this TVolumeView object
  // Return TVolume * the input TVolume * was attached to

  TVolume *closedNode = 0;
  TVolumePosition *pos ;
  if ( node && (pos = GetPosition() )  && (closedNode = pos->GetNode()) )
         closedNode->Add(node);
  return closedNode;
}

//______________________________________________________________________________
 void TVolumeView::Add(TShape *shape, Bool_t IsMaster)
{
  if (!shape) return;
  if (!fListOfShapes) fListOfShapes = new TList;
  if (IsMaster)
      fListOfShapes->AddFirst(shape);
  else
      fListOfShapes->Add(shape);
}

//_____________________________________________________________________________
 void TVolumeView::Browse(TBrowser *b){
  TObjectSet::Browse(b);
//  TVolumePosition *pos = GetPosition();
//  if (pos) pos->Browse(b);
//    b->Add(pos);
}

//______________________________________________________________________________
 Int_t TVolumeView::DistancetoPrimitive(Int_t px, Int_t py)
{
//*-*-*-*-*-*-*-*-*Compute distance from point px,py to a TVolumeView*-*-*-*-*-*
//*-*                  ===========================================
//*-*  Compute the closest distance of approach from point px,py to the position of
//*-*  this node.
//*-*  The distance is computed in pixels units.
//*-*
//*-*  It is restricted by 2 levels of TVolumes
//*-*
//*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*

   const Int_t big = 9999;
   const Int_t inaxis = 7;
   const Int_t maxdist = 5;

   Int_t dist = big;

   Int_t puxmin = gPad->XtoAbsPixel(gPad->GetUxmin());
   Int_t puymin = gPad->YtoAbsPixel(gPad->GetUymin());
   Int_t puxmax = gPad->XtoAbsPixel(gPad->GetUxmax());
   Int_t puymax = gPad->YtoAbsPixel(gPad->GetUymax());

//*-*- return if point is not in the user area
   if (px < puxmin - inaxis) return big;
   if (py > puymin + inaxis) return big;
   if (px > puxmax + inaxis) return big;
   if (py < puymax - inaxis) return big;

   TView *view =gPad->GetView();
   if (!view) return big;

   TVolumePosition *position = GetPosition();
   TVolume *thisNode  = 0;
   TShape  *thisShape = 0;
   if (position) {
     thisNode = position->GetNode();
     position->UpdatePosition();
     if (thisNode) {
        thisShape    = thisNode->GetShape();
        if (!(thisNode->GetVisibility() & TVolume::kThisUnvisible) &&
              thisShape && thisShape->GetVisibility())
        {
          dist = thisShape->DistancetoPrimitive(px,py);
          if (dist < maxdist) {
             gPad->SetSelected(this);
             return 0;
          }
       }
     }
   }

//   if ( TestBit(kSonsInvisible) ) return dist;

//*-*- Loop on all sons
   TSeqCollection *fNodes =  GetCollection();
   Int_t nsons = fNodes?fNodes->GetSize():0;
   Int_t dnode = dist;
   if (nsons) {
      gGeometry->PushLevel();
      TVolume *node;
      TIter  next(fNodes);
      while ((node  = (TVolume *)next())) {
         dnode = node->DistancetoPrimitive(px,py);
         if (dnode <= 0)  break;
         if (dnode < dist) dist = dnode;
         if (gGeometry->GeomLevel() > 2) break;
      }
      gGeometry->PopLevel();
   }

   if (gGeometry->GeomLevel()==0 && dnode > maxdist) {
      gPad->SetSelected(view);
      return 0;
   } else
      return dnode;
}

//______________________________________________________________________________
 void TVolumeView::Draw(Option_t *option)
{
//*-*-*-*-*-*-*-*-*-*-*-*Draw Referenced node with current parameters*-*-*-*
//*-*                   =============================================

    TString opt = option;
    opt.ToLower();
//*-*- Clear pad if option "same" not given
    if (!gPad) {
       if (!gROOT->GetMakeDefCanvas()) return;
       (gROOT->GetMakeDefCanvas())();
    }
    if (!opt.Contains("same")) gPad->Clear();

//*-*- Draw Referenced node
    gGeometry->SetGeomLevel();
    gGeometry->UpdateTempMatrix();

   // Check geometry level

    Int_t iopt = atoi(option);
    TDataSet *parent = 0;
    char buffer[10];
    if (iopt < 0) {
       sprintf(buffer,"%d",-iopt);
       option = buffer;
       // select parent to draw
       parent = this;
       do parent = parent->GetParent();
       while (parent && ++iopt);
    }
    if (parent) parent->AppendPad(option);
    else        AppendPad(option);
//*-*- Create a 3-D View
    TView *view = gPad->GetView();
    if (!view) {
      view = new TView(1);
      view->SetAutoRange(kTRUE);
      TBuffer3D *buff = gPad->GetBuffer3D();
      buff->fOption = TBuffer3D::kRANGE;
      Paint("range");
      buff->fOption = TBuffer3D::kPAD;
      view->SetAutoRange(kFALSE);
    }
}

//_____________________________________________________________________________
 TVolume *TVolumeView::GetNode() const {
  TVolumePosition *pos = GetPosition();
  if (pos)
    return pos->GetNode();
  return 0;
}

//_____________________________________________________________________________
 Int_t TVolumeView::GetGlobalRange(const TVolumeView *rootNode,Float_t *globalMin,Float_t *globalMax)
{
  //
  // Calculate the position of the vertrex of the outlined cube in repect
  // of the given TVolumeView object
  //
  if (rootNode)
  {
    SetTitle(rootNode->GetTitle());
    EDataSetPass mode = kContinue;
    TVolumeViewIter next((TVolumeView *)rootNode,0);
    TVolumeView *nextView = 0;
    // Find itself.
    while ( (nextView = (TVolumeView *)next(mode)) && nextView != this ){}
    if (nextView == this) {
      TVolumePosition *position = next[0];
      if (!position->GetNode()) {
          Error("TVolumeView ctor","%s %s ",GetName(),nextView->GetName());
      }
      // Calculate the range of the outlined cube verteces.
      GetLocalRange(globalMin,globalMax);
      Float_t offSet[3] = {position->GetX(),position->GetY(),position->GetZ()};
      for (Int_t i=0;i<3;i++) {
        globalMin[i] += offSet[i];
        globalMax[i] += offSet[i];
      }
    }
    return next.GetDepth();
  }
  else return -1;
}

//______________________________________________________________________________
 void TVolumeView::GetLocalRange(Float_t *min, Float_t *max)
{
  //  GetRange
  //
  //  Calculates the size of 3 box the node occupies.
  //  Return:
  //    two floating point arrays with the bound of box
  //     surroundind all shapes of this TModeView
  //

  TVirtualPad *savePad = gPad;
  //  Create a dummy TPad;
  TCanvas dummyPad("--Dumm--","dum",1,1);
  // Assing 3D TView
  TView view(1);

  gGeometry->SetGeomLevel();
  gGeometry->UpdateTempMatrix();
  view.SetAutoRange(kTRUE);
  Paint("range");
  view.GetRange(&min[0],&max[0]);
  // restore "current pad"
   if (savePad) savePad->cd();
}

//______________________________________________________________________________
 Text_t *TVolumeView::GetObjectInfo(Int_t px, Int_t py) const
{
   if (!gPad) return 0;
   static char info[512];
   Double_t x[3] = {0,0,0.5};
   ((TPad *)gPad)->AbsPixeltoXY(px,py,x[0],x[1]);
   TView *view =gPad->GetView();
   if (view) {
       Double_t min[3], max[3];
       view->GetRange(min,max);
       for (int i =0; i<3;i++) min[i] = (max[i]+min[i])/2;
       view->WCtoNDC(min,max);
       min[0] = x[0]; min[1] = x[1];
       min[2] = max[2];
       view->NDCtoWC(min, x);
   }
   TShape *shape = GetShape();
   if (shape)
     sprintf(info,"%6.2f/%6.2f/%6.2f: %s/%s, shape=%s/%s",x[0],x[1],x[2],GetName(),GetTitle(),shape->GetName(),shape->ClassName());
   else
     sprintf(info,"%6.2f/%6.2f/%6.2f: %s/%s",x[0],x[1],x[2],GetName(),GetTitle());
   return info;
}

//______________________________________________________________________________
 TVolumePosition  *TVolumeView::Local2Master(const Char_t *localName, const Char_t *masterName)
{
  TVolumeView *masterNode = this;
  TVolumePosition *position = 0;
  if (masterName && masterName[0]) masterNode = (TVolumeView *)Find(masterName);
  if (masterNode) {
    TVolumeViewIter transform(masterNode,0);
    if (transform(localName)) position = transform[0];
  }
  return position;
}

//______________________________________________________________________________
 TVolumePosition *TVolumeView::Local2Master(const TVolumeView *localNode,const TVolumeView *masterNode)
{
  TVolumePosition *position = 0;
  if (!masterNode) masterNode = this;
  if (masterNode && localNode) {
    TVolumeViewIter transform((TVolumeView *)masterNode,0);
    TVolumeView *nextNode = 0;
    while ((nextNode = (TVolumeView *)transform()) && nextNode != localNode);
    if (nextNode) position = transform[0];
  }
  return position;
}

//______________________________________________________________________________
 Float_t *TVolumeView::Local2Master(const Float_t *local, Float_t *master,
                                   const Char_t *localName, const Char_t *masterName, Int_t nVector)
{
  //
  // calculate  transformation  master = (M-local->master )*local + (T-local->master )
  //  where
  //     M-local->master - rotation matrix 3 x 3 from the master node to the local node
  //     T-local->master - trasport vector 3 from the master node to the local node
  //
  // returns a "master" pointer if transformation has been found
  //        otherwise 0;
  //
   Float_t *trans = 0;
   TVolumePosition *position = 0;
   TVolumeView *masterNode = this;
   if (masterName && masterName[0]) masterNode = (TVolumeView *)Find(masterName);
   if (masterNode) {
     TVolumeViewIter transform(masterNode,0);
     if (transform(localName) && (position = (TVolumePosition *) transform.GetPosition()) )
         trans = position->Local2Master(local,master,nVector);
   }
   return trans;
}

//______________________________________________________________________________
 Float_t *TVolumeView::Local2Master(const Float_t *local, Float_t *master,
                                   const TVolumeView *localNode,
                                   const TVolumeView *masterNode, Int_t nVector)
{
  //
  // calculate  transformation  master = (M-local->master )*local + (T-local->master )
  //  where
  //     M-local->master - rotation matrix 3 x 3 from the master node to the local node
  //     T-local->master - trasport vector 3 from the master node to the local node
  //
  // returns a "master" pointer if transformation has been found
  //        otherwise 0;
  //
   Float_t *trans = 0;
   TVolumePosition *position = 0;
   if (!masterNode) masterNode = this;
   if (masterNode && localNode) {
     TVolumeViewIter transform((TVolumeView *)masterNode,0);
     TVolumeView *nextNode = 0;
     while ((nextNode = (TVolumeView *)transform()) && nextNode != localNode);
     if (nextNode && (position = (TVolumePosition *) transform.GetPosition()) )
         trans = position->Local2Master(local,master,nVector);
   }
   return trans;
}

//______________________________________________________________________________
 void TVolumeView::Paint(Option_t *option)
{
//*-*-*-*-*-*-*-*-*-*-*-*Paint Referenced node with current parameters*-*-*-*
//*-*                   ==============================================
//*-*
//*-*  vis = 1  (default) shape is drawn
//*-*  vis = 0  shape is not drawn but its sons may be not drawn
//*-*  vis = -1 shape is not drawn. Its sons are not drawn
//*-*  vis = -2 shape is drawn. Its sons are not drawn
//*-*
//*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*
//
// It draw the TVolumeView layers from the iFirst one (form the zero) till
// iLast one reached.
//
// restrict the levels for "range" option
  Int_t level = gGeometry->GeomLevel();
  if (option && option[0]=='r' && level > 3 ) return;

  Int_t iFirst =  atoi(option);
  Int_t iLast = 0;
  const char *delim = strpbrk( option,":-,");
  if (delim)  iLast = atoi(delim+1);
  if (iLast < iFirst) {
     iLast = iFirst-1;
     iFirst = 0;
  }

  if ( (0 < iLast) && (iLast < level) )  return;

  TPadView3D *view3D = (TPadView3D*)gPad->GetView3D();

  TVolume *thisNode  = 0;
  TVolumePosition *position = GetPosition();

  // UpdatePosition does change the current matrix and it MUST be called FIRST !!!
  if (position) {
     thisNode  = position->GetNode();
     position->UpdatePosition(option);
  }

 // if (option[0] !='r' ) printf(" Level %d first = %d  iLast %d \n",level, iFirst, iLast);
  if (level >= iFirst) {
     PaintShape(option);
     if (thisNode)  thisNode->PaintShape(option);
  }
////---   if ( thisNode->TestBit(kSonsInvisible) ) return;

//*-*- Paint all sons
  TSeqCollection *Nodes =  GetCollection();
  Int_t nsons = Nodes?Nodes->GetSize():0;

  if(!nsons) return;

  gGeometry->PushLevel();
  TVolumeView *node;
  TIter  next(Nodes);
  while ((node = (TVolumeView *)next())) {
     if (view3D)  view3D->PushMatrix();

     node->Paint(option);

     if (view3D)  view3D->PopMatrix();
  }
  gGeometry->PopLevel();
}

//______________________________________________________________________________
 void TVolumeView::PaintShape(Option_t *option)
{
  // Paint shape of the node
  // To be called from the TObject::Paint method only
  Bool_t rangeView = option && option[0]=='r';

  TIter nextShape(fListOfShapes);
  TShape *shape = 0;
  while( (shape = (TShape *)nextShape()) ) {
    if (!shape->GetVisibility())   continue;
    if (!rangeView) {
      TPadView3D *view3D = (TPadView3D*)gPad->GetView3D();
      if (view3D)
         view3D->SetLineAttr(shape->GetLineColor(),shape->GetLineWidth(),option);
    }
    shape->Paint(option);
  }
}

//______________________________________________________________________________
 TString TVolumeView::PathP() const
{
 // return the full path of this data set
   TString str;
   TVolumeView *parent = (TVolumeView *)GetParent();
   if (parent) {
       str = parent->PathP();
       str += "/";
   }
   str +=  GetName();
   UInt_t positionId = 0;
   TVolumePosition *p = GetPosition();
   if (p) {
      char buffer[10];
      positionId = p->GetId();
      sprintf(buffer,";%d",p->GetId());
      str +=  buffer;
   }
   return str;
}

//_______________________________________________________________________
 void TVolumeView::SavePrimitive(ofstream &out, Option_t *)
{
const Char_t *sceleton[] = {
   "TVolumeView *CreateNodeView(TVolume *topNode) {"
  ,"  TString     thisNodePath   = "
  ,"  UInt_t      thisPositionId = "
  ,"  Double_t thisTranslate[3]  = "
  ," "
  ,"  TString        matrixName  = "
  ,"  Int_t          matrixType  = "
  ,"  Double_t     thisMatrix[]  = {  "
  ,"                                  "
  ,"                                  "
  ,"                               };"
  ,"  return = new TVolumeView(thisTranslate, thisMatrix, thisPositionId, topNode,"
  ,"                          thisNodePath.Data(),matrixName.Data(), matrixType);"
  ,"}"
  };
//------------------- end of sceleton ---------------------
  Int_t sceletonSize = sizeof(sceleton)/4;
  TVolumePosition *thisPosition = GetPosition();
  TVolume *thisFullNode = GetNode();
  TString thisNodePath = thisFullNode ? thisFullNode->Path() : TString("");
  // Define position
  UInt_t thisPositionId = thisPosition ? thisPosition->GetId():0;
  Double_t thisX  = thisPosition ? thisPosition->GetX():0;
  Double_t thisY  = thisPosition ? thisPosition->GetY():0;
  Double_t thisZ  = thisPosition ? thisPosition->GetZ():0;

  const TRotMatrix *matrix = thisPosition ? thisPosition->GetMatrix():0;
  Int_t matrixType = 2;
  TString matrixName = " ";
  Double_t thisMatrix[] = { 0,0,0, 0,0,0, 0,0,0 };
  if (matrix) {
     matrixName = matrix->GetName();
     memcpy(thisMatrix,((TRotMatrix *)matrix)->GetMatrix(),9*sizeof(Double_t));
     matrixType = matrix->GetType();
  }
  Int_t im = 0;
  for (Int_t lineNumber =0; lineNumber < sceletonSize; lineNumber++) {
    out << sceleton[lineNumber];                             // cout << lineNumber << ". " << sceleton[lineNumber];
    switch (lineNumber) {
    case  1:  out  << "\"" << thisNodePath.Data() << "\";" ; // cout  << "\"" << thisNodePath.Data() << "\";" ;
       break;
    case  2:  out   << thisPositionId << ";" ; // cout  << "\"" << thisNodePath.Data() << "\";" ;
       break;
    case  3:  out << "{" << thisX << ", " << thisY << ", "<< thisZ << "};";  // cout << thisX << ";" ;
       break;
    case  5:  out << "\"" << matrixName << "\";" ;           // cout << "\"" << matrixName << "\";" ;
       break;
    case  6:  out <<  matrixType << ";" ;                    // cout <<  matrixType << ";" ;
       break;
    case  7:  out << thisMatrix[im++] << ", " << thisMatrix[im++] << ", " << thisMatrix[im++]  << ", " ;
       break;
    case  8:  out << thisMatrix[im++] << ", " << thisMatrix[im++] << ", " << thisMatrix[im++]  << ", " ;
       break;
    case  9:  out << thisMatrix[im++] << ", " << thisMatrix[im++] << ", " << thisMatrix[im++] ;
       break;
    default:
       break;
   };
//   cout << " " << endl;
   out << " " << endl;
 }
}

//______________________________________________________________________________
 void  TVolumeView::SetLineAttributes()
{
  TVolume *thisNode = GetNode();
  if (thisNode) thisNode->SetLineAttributes();
}

//______________________________________________________________________________
 void TVolumeView::SetVisibility(Int_t vis)
{
 TVolume *node = GetNode();
 if (node) node->SetVisibility(TVolume::ENodeSEEN(vis));
}

//______________________________________________________________________________
 void TVolumeView::Sizeof3D() const
{
//*-*-*-*-*-*-*Return total size of this 3-D Node with its attributes*-*-*
//*-*          ==========================================================

   if (GetListOfShapes()) {
     TIter nextShape(GetListOfShapes());
     TShape *shape = 0;
      while( (shape = (TShape *)nextShape()) ) {
        if (shape->GetVisibility())  shape->Sizeof3D();
     }
   }

   TVolume *thisNode  = GetNode();
   if (thisNode && !(thisNode->GetVisibility()&TVolume::kThisUnvisible) ) {
     TIter nextShape(thisNode->GetListOfShapes());
     TShape *shape = 0;
      while( (shape = (TShape *)nextShape()) ) {
        if (shape->GetVisibility())  shape->Sizeof3D();
     }
   }

//   if ( TestBit(kSonsInvisible) ) return;

  TVolumeView *node;
  TDataSetIter next((TVolumeView *)this);
  while ((node = (TVolumeView *)next())) node->Sizeof3D();
}


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