G4gsvolu.cc

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//
// $Id$
//
// by I.Hrivnacova, 13.10.99
 
#include <iomanip>
#include "G3VolTable.hh"
#include "globals.hh"
#include "G3toG4.hh"
#include "G3toG4MakeSolid.hh"
 
void PG4gsvolu(G4String *tokens) {
    // fill the parameter containers
    G3fillParams(tokens,PTgsvolu);
 
    // interpret the parameters
    G4String vname = Spar[0];
    G4String shape = Spar[1];
    G4int nmed = Ipar[0];
    G4int npar = Ipar[1];
    G4double *pars = Rpar;
 
    G4gsvolu(vname, shape, nmed, pars, npar);
}
 
G3VolTableEntry* G4CreateVTE(G4String vname, G4String shape, G4int nmed,
                             G4double rpar[], G4int npar)
{    
  // create the solid
  G4bool hasNegPars;
  G4bool deferred;   
  G4bool okAxis[3];
  G4VSolid* solid
    = G3toG4MakeSolid(vname, shape, rpar, npar, hasNegPars, deferred, okAxis);  
 
  // if solid has been deferred 
  // VTE is created with hasNegPars = true  
  if (deferred) hasNegPars = true;   
 
  // create VTE
  G3VolTableEntry* vte 
     = new G3VolTableEntry(vname, shape, rpar, npar, nmed, solid, hasNegPars);
  G3Vol.PutVTE(vte);
  
  return vte;
}
 
void G4gsvolu(G4String vname, G4String shape, G4int nmed, G4double* rpar,
              G4int npar)
{
  /*
  G4cout << "Creating logical volume " << vname << " shape " << shape
     << " nmed " << nmed << " #pars "<< npar << " parameters (cm): ";
  for (int ipar=0; ipar< npar; ipar++) G4cout << std::setw(8) << rpar[ipar];
  G4cout << G4endl;
  */
  if (G3Vol.GetVTE(vname)) {
    // abort if VTE with given name exists
    G4String text = "G4gsvolu: Attempt to create volume " + vname + " twice.";
    G4Exception("G4gsvolu()", "G3toG40024", FatalException, text);
    return;
  }
  else {  
    G4CreateVTE(vname, shape, nmed, rpar, npar);
  }  
}