// // ******************************************************************** // * License and Disclaimer * // * * // * The Geant4 software is copyright of the Copyright Holders of * // * the Geant4 Collaboration. It is provided under the terms and * // * conditions of the Geant4 Software License, included in the file * // * LICENSE and available at http://cern.ch/geant4/license . These * // * include a list of copyright holders. * // * * // * Neither the authors of this software system, nor their employing * // * institutes,nor the agencies providing financial support for this * // * work make any representation or warranty, express or implied, * // * regarding this software system or assume any liability for its * // * use. Please see the license in the file LICENSE and URL above * // * for the full disclaimer and the limitation of liability. * // * * // * This code implementation is the result of the scientific and * // * technical work of the GEANT4 collaboration. * // * By using, copying, modifying or distributing the software (or * // * any work based on the software) you agree to acknowledge its * // * use in resulting scientific publications, and indicate your * // * acceptance of all terms of the Geant4 Software license. * // ******************************************************************** // // // $Id: G4NURBScylinder.cc,v 1.8 2006/06/29 19:06:47 gunter Exp $ // GEANT4 tag $Name: geant4-09-02-ref-02 $ // // // Olivier Crumeyrolle 12 September 1996 // Cylinder builder implementation // OC 090796 #include "G4NURBScylinder.hh" // the cylinder constructor use the first G4NURBS constructor // look in G4NURBStube if you want to see how to use the second one. G4NURBScylinder::G4NURBScylinder(G4double R, G4double DZ) : G4NURBS ( 2, 3, // linear along U, quadratic along V 4, 9, // half rectangle along U, circle along V (new t_CtrlPt [ 4 * 9 ]), // the array for CtrlPts 0, // the knot vector along U will be generated (new t_Knot [ 3 + 9 ]) ) // knot vector for the circle { // define the V knot vector m[V].pKnots[ 0] = 0; m[V].pKnots[ 1] = 0; m[V].pKnots[ 2] = 0; m[V].pKnots[ 3] = 0.25; m[V].pKnots[ 4] = 0.25; m[V].pKnots[ 5] = 0.5; m[V].pKnots[ 6] = 0.5; m[V].pKnots[ 7] = 0.75; m[V].pKnots[ 8] = 0.75; m[V].pKnots[ 9] = 1; m[V].pKnots[10] = 1; m[V].pKnots[11] = 1; // define control points const G4double sr2o2 = std::sqrt(2.)/2. ; CP(mpCtrlPts[ 0] , 0, 0, DZ, 1 ); CP(mpCtrlPts[ 1] , R, 0, DZ, 1 ); CP(mpCtrlPts[ 2] , R, 0, -DZ, 1 ); CP(mpCtrlPts[ 3] , 0, 0, -DZ, 1 ); CP(mpCtrlPts[ 4] , 0, 0, DZ, 1 ); CP(mpCtrlPts[ 5] , R, R, DZ, 1 , sr2o2); CP(mpCtrlPts[ 6] , R, R,-DZ, 1 , sr2o2); CP(mpCtrlPts[ 7] , 0, 0, -DZ, 1 ); CP(mpCtrlPts[ 8] , 0, 0, DZ, 1 ); CP(mpCtrlPts[ 9] , 0, R, DZ, 1 ); CP(mpCtrlPts[10] , 0, R, -DZ, 1 ); CP(mpCtrlPts[11] , 0, 0, -DZ, 1 ); CP(mpCtrlPts[12] , 0, 0, DZ, 1 ); CP(mpCtrlPts[13] , -R, R, DZ, 1 , sr2o2); CP(mpCtrlPts[14] , -R, R,-DZ, 1 , sr2o2); CP(mpCtrlPts[15] , 0, 0, -DZ, 1 ); CP(mpCtrlPts[16] , 0, 0, DZ, 1 ); CP(mpCtrlPts[17] , -R, 0, DZ, 1 ); CP(mpCtrlPts[18] , -R, 0, -DZ, 1 ); CP(mpCtrlPts[19] , 0, 0, -DZ, 1 ); CP(mpCtrlPts[20] , 0, 0, DZ, 1 ); CP(mpCtrlPts[21] , -R,-R, DZ, 1 , sr2o2); CP(mpCtrlPts[22] , -R,-R,-DZ, 1 , sr2o2); CP(mpCtrlPts[23] , 0, 0, -DZ, 1 ); CP(mpCtrlPts[24] , 0, 0, DZ, 1 ); CP(mpCtrlPts[25] , 0, -R, DZ, 1 ); CP(mpCtrlPts[26] , 0, -R,-DZ, 1 ); CP(mpCtrlPts[27] , 0, 0, -DZ, 1 ); CP(mpCtrlPts[28] , 0, 0, DZ, 1 ); CP(mpCtrlPts[29] , R,-R, DZ, 1 , sr2o2); CP(mpCtrlPts[30] , R,-R,-DZ, 1 , sr2o2); CP(mpCtrlPts[31] , 0, 0, -DZ, 1 ); CP(mpCtrlPts[32] , 0, 0, DZ, 1 ); CP(mpCtrlPts[33] , R, 0, DZ, 1 ); CP(mpCtrlPts[34] , R, 0, -DZ, 1 ); CP(mpCtrlPts[35] , 0, 0, -DZ, 1 ); } const char* G4NURBScylinder::Whoami() const { return "Cylinder"; }