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// $Id: G4tgbPlaceParamLinear.cc,v 1.5 2008/12/03 16:16:01 arce Exp $
// GEANT4 tag $Name: geant4-09-02-ref-02 $
//
//
// class G4tgbPlaceParamLinear

// History:
// - Created.                                 P.Arce, CIEMAT (November 2007)
// -------------------------------------------------------------------------

#include "G4tgbPlaceParamLinear.hh"
#include "G4RotationMatrix.hh"
#include "G4VPhysicalVolume.hh"
#include "G4tgrMessenger.hh"
#include "G4tgrPlaceParameterisation.hh"

// -------------------------------------------------------------------------
G4tgbPlaceParamLinear::~G4tgbPlaceParamLinear()
{
}


// -------------------------------------------------------------------------
G4tgbPlaceParamLinear::
G4tgbPlaceParamLinear( G4tgrPlaceParameterisation* tgrParam ) 
  : G4tgbPlaceParameterisation(tgrParam)
{
  //---- Get translation and rotation 
  if( tgrParam->GetParamType() == "LINEAR" )
  {
    CheckNExtraData( tgrParam, 6, WLSIZE_EQ, "G4tgbPlaceParamLinear:");
    theDirection = G4ThreeVector( tgrParam->GetExtraData()[3],
                                  tgrParam->GetExtraData()[4],
                                  tgrParam->GetExtraData()[5] );
    theAxis = kZAxis;
  }
  else
  {
    CheckNExtraData( tgrParam, 3, WLSIZE_EQ, "G4tgbPlaceParamLinear:");
    if( tgrParam->GetParamType() == "LINEAR_X" ) {
      theDirection = G4ThreeVector(1.,0.,0.);
      theAxis = kXAxis;
    } else if( tgrParam->GetParamType() == "LINEAR_Y" ) {
      theDirection = G4ThreeVector(0.,1.,0.);
      theAxis = kYAxis;
    } else if( tgrParam->GetParamType() == "LINEAR_Z" ) {
      theDirection = G4ThreeVector(0.,0.,1.);
      theAxis = kZAxis;
    }
  }

  if( theDirection.mag() == 0. )
  {
    G4Exception("G4tgbPlaceParamLinear::G4tgbPlaceParamLinear()",
                "InvalidSetup", FatalException, "Direction is zero !");
  }
  else
  {
    theDirection /= theDirection.mag();
  }

  theNCopies = G4int(tgrParam->GetExtraData()[0]);
  theStep = tgrParam->GetExtraData()[1];
  theOffset = tgrParam->GetExtraData()[2];

  theTranslation = G4ThreeVector(0.,0.,0.)+theOffset*theDirection;
    
#ifdef G4VERBOSE
  if( G4tgrMessenger::GetVerboseLevel() >= 2 )
  {
    G4cout << " G4tgbPlaceParamLinear::G4tgbPlaceParamLinear(): "
           << " param type " << tgrParam->GetParamType() << G4endl
           << "   N copies " << theNCopies << G4endl
           << "   step " << theStep << G4endl
           << "   offset " << theOffset  << G4endl
           << "   translation " << theTranslation << G4endl
           << "   direction " << theDirection << G4endl
           << "   axis " << theAxis << G4endl;
  } 
#endif
}


// -------------------------------------------------------------------------
void G4tgbPlaceParamLinear::
ComputeTransformation(const G4int copyNo, G4VPhysicalVolume *physVol) const
{
  G4ThreeVector origin = theTranslation + copyNo*theStep*theDirection;

#ifdef G4VERBOSE
  if( G4tgrMessenger::GetVerboseLevel() >= 3 )
  { 
    G4cout << " G4tgbPlaceParamLinear::ComputeTransformation() -"
	   << physVol->GetName() << G4endl
           << " copyNo " << copyNo << " pos " << origin << G4endl;
  }
#endif
  //----- Set traslation and rotation
  physVol->SetTranslation(origin);
  physVol->SetCopyNo( copyNo );
  physVol->SetRotation( theRotationMatrix );
}