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// $Id: G4tgbRotationMatrix.cc 68052 2013-03-13 14:38:53Z gcosmo $
//
//
// class G4tgbRotationMatrix
// History:
// - Created. P.Arce, CIEMAT (November 2007)
// -------------------------------------------------------------------------
#include "G4tgbRotationMatrix.hh"
#include "G4RotationMatrix.hh"
#include "G4tgrMessenger.hh"
#include "G4tgrUtils.hh"
#include "G4UIcommand.hh"
// -------------------------------------------------------------------------
G4tgbRotationMatrix::G4tgbRotationMatrix()
: theTgrRM(0)
{
}
// -------------------------------------------------------------------------
G4tgbRotationMatrix::~G4tgbRotationMatrix()
{
}
// -------------------------------------------------------------------------
G4tgbRotationMatrix::G4tgbRotationMatrix( G4tgrRotationMatrix* tgr )
: theTgrRM(tgr)
{
}
// -------------------------------------------------------------------------
G4RotationMatrix* G4tgbRotationMatrix::BuildG4RotMatrix()
{
std::vector<G4double> values = theTgrRM->GetValues();
if( values.size() == 3 ) {
return BuildG4RotMatrixFrom3( values );
} else if( values.size() == 6 ) {
return BuildG4RotMatrixFrom6( values );
} else if( values.size() == 9 ) {
return BuildG4RotMatrixFrom9( values );
}
else
{
G4String ErrMessage = "Number of values is: "
+ G4UIcommand::ConvertToString(G4int(values.size()))
+ G4String(". It should be 3, 6, or 9 !");
G4Exception("G4tgbRotationMatrix::BuildG4RotMatrix()",
"InvalidData", FatalException, ErrMessage);
}
return 0;
}
// -------------------------------------------------------------------------
G4RotationMatrix*
G4tgbRotationMatrix::BuildG4RotMatrixFrom3( std::vector<G4double>& values )
{
G4RotationMatrix* rotMat = new G4RotationMatrix();
rotMat->rotateX( values[0] );
rotMat->rotateY( values[1] );
rotMat->rotateZ( values[2] );
#ifdef G4VERBOSE
if( G4tgrMessenger::GetVerboseLevel() >= 1 )
{
G4cout << " Constructing new G4RotationMatrix from 3 numbers "
<< GetName() << " : " << *rotMat << G4endl;
}
#endif
return rotMat;
}
// -------------------------------------------------------------------------
G4RotationMatrix*
G4tgbRotationMatrix::BuildG4RotMatrixFrom6( std::vector<G4double>& values )
{
G4double thetaX = values[0];
G4double phiX = values[1];
G4double thetaY = values[2];
G4double phiY = values[3];
G4double thetaZ = values[4];
G4double phiZ = values[5];
// build the 3 axis from the values
G4ThreeVector colx(std::sin(thetaX)*std::cos(phiX),
std::sin(thetaX)*std::sin(phiX),std::cos(thetaX));
G4ThreeVector coly(std::sin(thetaY)*std::cos(phiY),
std::sin(thetaY)*std::sin(phiY),std::cos(thetaY));
G4ThreeVector colz(std::sin(thetaZ)*std::cos(phiZ),
std::sin(thetaZ)*std::sin(phiZ),std::cos(thetaZ));
// Now create a G4RotationMatrix (HepRotation), which can be left handed.
// This is not foreseen in CLHEP, but can be achieved using the
// constructor which does not check its input arguments!
G4Rep3x3 rottemp(colx.x(),coly.x(),colz.x(), // matrix representation
colx.y(),coly.y(),colz.y(), // (inverted)
colx.z(),coly.z(),colz.z());
G4RotationMatrix* rotMat = new G4RotationMatrix(rottemp);
#ifdef G4VERBOSE
if( G4tgrMessenger::GetVerboseLevel() >= 1 )
{
G4cout << " Constructing new G4RotationMatrix from 6 numbers "
<< GetName() << " : " << *rotMat << G4endl;
}
#endif
return rotMat;
}
// -------------------------------------------------------------------------
G4RotationMatrix*
G4tgbRotationMatrix::BuildG4RotMatrixFrom9( std::vector<G4double>& values )
{
// build the 3 axis from the values
G4ThreeVector colx(values[0],values[1],values[2]);
G4ThreeVector coly(values[3],values[4],values[5]);
G4ThreeVector colz(values[6],values[7],values[8]);
// Now create a G4RotationMatrix (HepRotation), which can be left handed.
// This is not foreseen in CLHEP, but can be achieved using the
// constructor which does not check its input arguments!
G4Rep3x3 rottemp(colx.x(),coly.x(),colz.x(), // matrix representation
colx.y(),coly.y(),colz.y(), // (inverted)
colx.z(),coly.z(),colz.z());
G4RotationMatrix* rotMat = new G4RotationMatrix(rottemp);
#ifdef G4VERBOSE
if( G4tgrMessenger::GetVerboseLevel() >= 1 )
{
G4cout << " Constructing new G4RotationMatrix from 9 numbers "
<< GetName() << " : " << *rotMat << G4endl;
}
#endif
return rotMat;
}