#include "AliTOFGeometry.h"
#include "AliTOFv6T0.h"
-extern TGeoManager *gGeoManager;
+// extern TVirtualMC *TVirtualMC::GetMC();
+// extern TGeoManager *gGeoManager;
-extern AliRun *gAlice;
+// extern AliRun *gAlice;
ClassImp(AliTOFv6T0)
const Float_t AliTOFv6T0::fgkCBLh1 = 2.0; // cm
const Float_t AliTOFv6T0::fgkCBLh2 = 12.3; // cm
const Float_t AliTOFv6T0::fgkBetweenLandMask = 0.1; // cm
-const Float_t AliTOFv6T0::fgkAl1parameters[3] = {fgkFEAwidth1*0.5, 0.4, 0.2}; // cm
+const Float_t AliTOFv6T0::fgkAl1parameters[3] = {static_cast<Float_t>(fgkFEAwidth1*0.5), 0.4, 0.2}; // cm
const Float_t AliTOFv6T0::fgkAl2parameters[3] = {7.25, 0.75, 0.25}; // cm
const Float_t AliTOFv6T0::fgkAl3parameters[3] = {3., 4., 0.1}; // cm
const Float_t AliTOFv6T0::fgkRoof1parameters[3] = {fgkAl1parameters[0], fgkAl1parameters[2], 1.45}; // cm
const Float_t AliTOFv6T0::fgkRoof2parameters[3] = {fgkAl3parameters[0], 0.1, 1.15}; // cm
-const Float_t AliTOFv6T0::fgkFEAparameters[3] = {fgkFEAwidth1*0.5, 5.6, 0.1}; // cm
+const Float_t AliTOFv6T0::fgkFEAparameters[3] = {static_cast<Float_t>(fgkFEAwidth1*0.5), 5.6, 0.1}; // cm
const Float_t AliTOFv6T0::fgkBar[3] = {8.575, 0.6, 0.25}; // cm
const Float_t AliTOFv6T0::fgkBar1[3] = {fgkBar[0], fgkBar[1], 0.1}; // cm
-const Float_t AliTOFv6T0::fgkBar2[3] = {fgkBar[0], 0.1, fgkBar[1] - 2.*fgkBar1[2]}; // cm
+const Float_t AliTOFv6T0::fgkBar2[3] = {fgkBar[0], 0.1, static_cast<Float_t>(fgkBar[1] - 2.*fgkBar1[2])}; // cm
const Float_t AliTOFv6T0::fgkBarS[3] = {2., fgkBar[1], fgkBar[2]}; // cm
const Float_t AliTOFv6T0::fgkBarS1[3] = {fgkBarS[0], fgkBar1[1], fgkBar1[2]}; // cm
const Float_t AliTOFv6T0::fgkBarS2[3] = {fgkBarS[0], fgkBar2[1], fgkBar2[2]}; // cm
par[0] = xtof * 0.5;
par[1] = ytof * 0.25;
par[2] = zlenA * 0.5;
- gMC->Gsvolu("FTOA", "BOX ", idtmed[503], par, 3); // Fibre glass
+ TVirtualMC::GetMC()->Gsvolu("FTOA", "BOX ", idtmed[503], par, 3); // Fibre glass
if (fTOFHoles) {
par[0] = xtof * 0.5;
par[1] = ytof * 0.25;
par[2] = (zlenA*0.5 - fgkInterCentrModBorder1)*0.5;
- gMC->Gsvolu("FTOB", "BOX ", idtmed[503], par, 3); // Fibre glass
- gMC->Gsvolu("FTOC", "BOX ", idtmed[503], par, 3); // Fibre glass
+ TVirtualMC::GetMC()->Gsvolu("FTOB", "BOX ", idtmed[503], par, 3); // Fibre glass
+ TVirtualMC::GetMC()->Gsvolu("FTOC", "BOX ", idtmed[503], par, 3); // Fibre glass
}
par[0] = xFLT*0.5;
par[1] = yFLT*0.5;
par[2] = zFLTA*0.5;
- gMC->Gsvolu("FLTA", "BOX ", idtmed[506], par, 3); // Freon mix
+ TVirtualMC::GetMC()->Gsvolu("FLTA", "BOX ", idtmed[506], par, 3); // Freon mix
Float_t xcoor, ycoor, zcoor;
xcoor = 0.;
ycoor = fgkModuleWallThickness*0.5;
zcoor = 0.;
- gMC->Gspos ("FLTA", 0, "FTOA", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos ("FLTA", 0, "FTOA", xcoor, ycoor, zcoor, 0, "ONLY");
if (fTOFHoles) {
par[2] = (zlenA*0.5 - 2.*fgkModuleWallThickness - fgkInterCentrModBorder1)*0.5;
- gMC->Gsvolu("FLTB", "BOX ", idtmed[506], par, 3); // Freon mix
- gMC->Gsvolu("FLTC", "BOX ", idtmed[506], par, 3); // Freon mix
+ TVirtualMC::GetMC()->Gsvolu("FLTB", "BOX ", idtmed[506], par, 3); // Freon mix
+ TVirtualMC::GetMC()->Gsvolu("FLTC", "BOX ", idtmed[506], par, 3); // Freon mix
//xcoor = 0.;
//ycoor = fgkModuleWallThickness*0.5;
zcoor = fgkModuleWallThickness;
- gMC->Gspos ("FLTB", 0, "FTOB", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos ("FLTC", 0, "FTOC", xcoor, ycoor,-zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos ("FLTB", 0, "FTOB", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos ("FLTC", 0, "FTOC", xcoor, ycoor,-zcoor, 0, "ONLY");
}
// Definition and positioning
//trpa[8] = (fgkLengthInCeModBorder - 2.*fgkModuleWallThickness*tgbe)*0.5;
//trpa[9] = (fgkLengthInCeModBorder + 2.*fgkModuleWallThickness*tgbe)*0.5;
trpa[10] = TMath::ATan(tgbe*0.5)*kRaddeg; //TMath::ATan((trpa[5] - trpa[4])/(2.*trpa[3]))*kRaddeg;
- gMC->Gsvolu("FWZ1D", "TRAP", idtmed[503], trpa, 11); // Fibre glass
+ TVirtualMC::GetMC()->Gsvolu("FWZ1D", "TRAP", idtmed[503], trpa, 11); // Fibre glass
AliMatrix (idrotm[0],90., 90.,180.,0.,90.,180.);
AliMatrix (idrotm[1],90., 90., 0.,0.,90., 0.);
//ycoor = -(yFLT - fgkLengthInCeModBorder)*0.5;
ycoor = -(yFLT - fgkLengthInCeModBorderD)*0.5;
zcoor = fgkInterCentrModBorder1;
- gMC->Gspos("FWZ1D", 1, "FLTA", xcoor, ycoor, zcoor, idrotm[0], "ONLY");
- gMC->Gspos("FWZ1D", 2, "FLTA", xcoor, ycoor,-zcoor, idrotm[1], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ1D", 1, "FLTA", xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ1D", 2, "FLTA", xcoor, ycoor,-zcoor, idrotm[1], "ONLY");
Float_t y0B, ycoorB, zcoorB;
//xcoor = 0.;
ycoorB = ycoor - fgkModuleWallThickness*0.5*tgbe;
zcoorB = (zlenA*0.5 - 2.*fgkModuleWallThickness - fgkInterCentrModBorder1)*0.5 - 2.*fgkModuleWallThickness;
- gMC->Gsvolu("FWZAD", "TRAP", idtmed[503], trpa, 11); // Fibre glass
- gMC->Gspos("FWZAD", 1, "FLTB", xcoor, ycoorB, zcoorB, idrotm[1], "ONLY");
- gMC->Gspos("FWZAD", 2, "FLTC", xcoor, ycoorB,-zcoorB, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gsvolu("FWZAD", "TRAP", idtmed[503], trpa, 11); // Fibre glass
+ TVirtualMC::GetMC()->Gspos("FWZAD", 1, "FLTB", xcoor, ycoorB, zcoorB, idrotm[1], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZAD", 2, "FLTC", xcoor, ycoorB,-zcoorB, idrotm[0], "ONLY");
}
//trpa[8] = (fgkLengthInCeModBorder - 2.*fgkModuleWallThickness*tgbe)*0.5;
//trpa[9] = (fgkLengthInCeModBorder + 2.*fgkModuleWallThickness*tgbe)*0.5;
trpa[10] = TMath::ATan(tgbe*0.5)*kRaddeg; //TMath::ATan((trpa[5] - trpa[4])/(2.*trpa[3]))*kRaddeg;
- gMC->Gsvolu("FWZ1U", "TRAP", idtmed[503], trpa, 11); // Fibre glass
+ TVirtualMC::GetMC()->Gsvolu("FWZ1U", "TRAP", idtmed[503], trpa, 11); // Fibre glass
AliMatrix (idrotm[2],90.,270., 0.,0.,90.,180.);
//ycoor = (yFLT - fgkLengthInCeModBorder)*0.5;
ycoor = (yFLT - fgkLengthInCeModBorderU)*0.5;
zcoor = fgkInterCentrModBorder2;
- gMC->Gspos("FWZ1U", 1, "FLTA", xcoor, ycoor, zcoor,idrotm[2], "ONLY");
- gMC->Gspos("FWZ1U", 2, "FLTA", xcoor, ycoor,-zcoor,idrotm[3], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ1U", 1, "FLTA", xcoor, ycoor, zcoor,idrotm[2], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ1U", 2, "FLTA", xcoor, ycoor,-zcoor,idrotm[3], "ONLY");
if (fTOFHoles) {
//y0B = fgkLengthInCeModBorder + fgkModuleWallThickness*tgbe;
trpa[8] = (y0B - fgkModuleWallThickness*tgbe)*0.5;
trpa[9] = (y0B + fgkModuleWallThickness*tgbe)*0.5;
trpa[10] = TMath::ATan(tgbe*0.5)*kRaddeg; //TMath::ATan((trpa[5] - trpa[4])/(2.*trpa[3]))*kRaddeg;
- gMC->Gsvolu("FWZBU", "TRAP", idtmed[503], trpa, 11); // Fibre glass
+ TVirtualMC::GetMC()->Gsvolu("FWZBU", "TRAP", idtmed[503], trpa, 11); // Fibre glass
//xcoor = 0.;
ycoorB = ycoor - fgkModuleWallThickness*0.5*tgbe;
zcoorB = (zlenA*0.5 - 2.*fgkModuleWallThickness - fgkInterCentrModBorder1)*0.5 -
(fgkInterCentrModBorder2 - fgkInterCentrModBorder1) - 2.*fgkModuleWallThickness;
- gMC->Gspos("FWZBU", 1, "FLTB", xcoor, ycoorB, zcoorB, idrotm[3], "ONLY");
- gMC->Gspos("FWZBU", 2, "FLTC", xcoor, ycoorB,-zcoorB, idrotm[2], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZBU", 1, "FLTB", xcoor, ycoorB, zcoorB, idrotm[3], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZBU", 2, "FLTC", xcoor, ycoorB,-zcoorB, idrotm[2], "ONLY");
}
trpa[0] = 0.5*(fgkInterCentrModBorder2 - fgkInterCentrModBorder1)/TMath::Cos(alpha);
trpa[3] = -beta*kRaddeg;
trpa[4] = 0.;
trpa[5] = 0.;
- gMC->Gsvolu("FWZ2", "PARA", idtmed[503], trpa, 6); // Fibre glass
+ TVirtualMC::GetMC()->Gsvolu("FWZ2", "PARA", idtmed[503], trpa, 6); // Fibre glass
AliMatrix (idrotm[4], alpha*kRaddeg,90.,90.+alpha*kRaddeg,90.,90.,180.);
AliMatrix (idrotm[5],180.-alpha*kRaddeg,90.,90.-alpha*kRaddeg,90.,90., 0.);
//ycoor = 0.;
ycoor = (fgkLengthInCeModBorderD - fgkLengthInCeModBorderU)*0.5;
zcoor = (fgkInterCentrModBorder2 + fgkInterCentrModBorder1)*0.5;
- gMC->Gspos("FWZ2", 1, "FLTA", xcoor, ycoor, zcoor, idrotm[4], "ONLY");
- gMC->Gspos("FWZ2", 2, "FLTA", xcoor, ycoor,-zcoor, idrotm[5], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ2", 1, "FLTA", xcoor, ycoor, zcoor, idrotm[4], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ2", 2, "FLTA", xcoor, ycoor,-zcoor, idrotm[5], "ONLY");
if (fTOFHoles) {
trpa[0] = 0.5*(fgkInterCentrModBorder2 - fgkInterCentrModBorder1)/TMath::Cos(alpha);
trpa[3] = -beta*kRaddeg;
trpa[4] = 0.;
trpa[5] = 0.;
- gMC->Gsvolu("FWZC", "PARA", idtmed[503], trpa, 6); // Fibre glass
+ TVirtualMC::GetMC()->Gsvolu("FWZC", "PARA", idtmed[503], trpa, 6); // Fibre glass
//xcoor = 0.;
ycoorB = ycoor - fgkModuleWallThickness*tgbe;
zcoorB = (zlenA*0.5 - 2.*fgkModuleWallThickness - fgkInterCentrModBorder1)*0.5 -
(fgkInterCentrModBorder2 - fgkInterCentrModBorder1)*0.5 - 2.*fgkModuleWallThickness;
- gMC->Gspos("FWZC", 1, "FLTB", xcoor, ycoorB, zcoorB, idrotm[5], "ONLY");
- gMC->Gspos("FWZC", 2, "FLTC", xcoor, ycoorB,-zcoorB, idrotm[4], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZC", 1, "FLTB", xcoor, ycoorB, zcoorB, idrotm[5], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZC", 2, "FLTC", xcoor, ycoorB,-zcoorB, idrotm[4], "ONLY");
}
trpa[8] = (fgkLengthExInModBorder - 2.*fgkModuleWallThickness*tgbe)*0.5;
trpa[9] = (fgkLengthExInModBorder + 2.*fgkModuleWallThickness*tgbe)*0.5;
trpa[10] = TMath::ATan(tgbe*0.5)*kRaddeg; //TMath::ATan((trpa[5] - trpa[4])/(2.*trpa[3]))*kRaddeg;
- gMC->Gsvolu("FWZ3", "TRAP", idtmed[503], trpa, 11); // Fibre glass
+ TVirtualMC::GetMC()->Gsvolu("FWZ3", "TRAP", idtmed[503], trpa, 11); // Fibre glass
//xcoor = 0.;
ycoor = (yFLT - fgkLengthExInModBorder)*0.5;
zcoor = fgkExterInterModBorder1;
- gMC->Gspos("FWZ3", 1, "FLTA", xcoor, ycoor, zcoor,idrotm[3], "ONLY");
- gMC->Gspos("FWZ3", 2, "FLTA", xcoor, ycoor,-zcoor,idrotm[2], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ3", 1, "FLTA", xcoor, ycoor, zcoor,idrotm[3], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ3", 2, "FLTA", xcoor, ycoor,-zcoor,idrotm[2], "ONLY");
if (fTOFHoles) {
//xcoor = 0.;
//ycoor = (yFLT - fgkLengthExInModBorder)*0.5;
zcoor = -fgkExterInterModBorder1 + (zlenA*0.5 + fgkInterCentrModBorder1 - 2.*fgkModuleWallThickness)*0.5;
- gMC->Gspos("FWZ3", 5, "FLTB", xcoor, ycoor, zcoor, idrotm[2], "ONLY");
- gMC->Gspos("FWZ3", 6, "FLTC", xcoor, ycoor,-zcoor, idrotm[3], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ3", 5, "FLTB", xcoor, ycoor, zcoor, idrotm[2], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ3", 6, "FLTC", xcoor, ycoor,-zcoor, idrotm[3], "ONLY");
}
//xcoor = 0.;
ycoor = -(yFLT - fgkLengthExInModBorder)*0.5;
zcoor = fgkExterInterModBorder2;
- gMC->Gspos("FWZ3", 3, "FLTA", xcoor, ycoor, zcoor, idrotm[1], "ONLY");
- gMC->Gspos("FWZ3", 4, "FLTA", xcoor, ycoor,-zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ3", 3, "FLTA", xcoor, ycoor, zcoor, idrotm[1], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ3", 4, "FLTA", xcoor, ycoor,-zcoor, idrotm[0], "ONLY");
if (fTOFHoles) {
//xcoor = 0.;
//ycoor = -(yFLT - fgkLengthExInModBorder)*0.5;
zcoor = -fgkExterInterModBorder2 + (zlenA*0.5 + fgkInterCentrModBorder1 - 2.*fgkModuleWallThickness)*0.5;
- gMC->Gspos("FWZ3", 7, "FLTB", xcoor, ycoor, zcoor, idrotm[0], "ONLY");
- gMC->Gspos("FWZ3", 8, "FLTC", xcoor, ycoor,-zcoor, idrotm[1], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ3", 7, "FLTB", xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ3", 8, "FLTC", xcoor, ycoor,-zcoor, idrotm[1], "ONLY");
}
trpa[0] = 0.5*(fgkExterInterModBorder2 - fgkExterInterModBorder1)/TMath::Cos(alpha);
trpa[3] = -beta*kRaddeg;
trpa[4] = 0.;
trpa[5] = 0.;
- gMC->Gsvolu("FWZ4", "PARA", idtmed[503], trpa, 6); // Fibre glass
+ TVirtualMC::GetMC()->Gsvolu("FWZ4", "PARA", idtmed[503], trpa, 6); // Fibre glass
AliMatrix (idrotm[6],alpha*kRaddeg,90.,90.+alpha*kRaddeg,90.,90.,180.);
AliMatrix (idrotm[7],180.-alpha*kRaddeg,90.,90.-alpha*kRaddeg,90.,90.,0.);
//xcoor = 0.;
ycoor = 0.;
zcoor = (fgkExterInterModBorder2 + fgkExterInterModBorder1)*0.5;
- gMC->Gspos("FWZ4", 1, "FLTA", xcoor, ycoor, zcoor, idrotm[7], "ONLY");
- gMC->Gspos("FWZ4", 2, "FLTA", xcoor, ycoor,-zcoor, idrotm[6], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ4", 1, "FLTA", xcoor, ycoor, zcoor, idrotm[7], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ4", 2, "FLTA", xcoor, ycoor,-zcoor, idrotm[6], "ONLY");
if (fTOFHoles) {
//xcoor = 0.;
//ycoor = 0.;
zcoor = -(fgkExterInterModBorder2 + fgkExterInterModBorder1)*0.5 +
(zlenA*0.5 + fgkInterCentrModBorder1 - 2.*fgkModuleWallThickness)*0.5;
- gMC->Gspos("FWZ4", 3, "FLTB", xcoor, ycoor, zcoor, idrotm[6], "ONLY");
- gMC->Gspos("FWZ4", 4, "FLTC", xcoor, ycoor,-zcoor, idrotm[7], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ4", 3, "FLTB", xcoor, ycoor, zcoor, idrotm[6], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FWZ4", 4, "FLTC", xcoor, ycoor,-zcoor, idrotm[7], "ONLY");
}
}
par[0] = xtof*0.5 + 2.;
par[1] = fgkModuleCoverThickness*0.5;
par[2] = zlenA*0.5 + 2.;
- gMC->Gsvolu("FPEA", "BOX ", idtmed[500], par, 3); // Air
- if (fTOFHoles) gMC->Gsvolu("FPEB", "BOX ", idtmed[500], par, 3); // Air
+ TVirtualMC::GetMC()->Gsvolu("FPEA", "BOX ", idtmed[500], par, 3); // Air
+ if (fTOFHoles) TVirtualMC::GetMC()->Gsvolu("FPEB", "BOX ", idtmed[500], par, 3); // Air
const Float_t kAlCoverThickness = 1.5;
const Float_t kInterfaceCardThickness = 0.16;
//par[0] = xtof*0.5 + 2.;
par[1] = kAlCoverThickness*0.5;
//par[2] = zlenA*0.5 + 2.;
- gMC->Gsvolu("FALT", "BOX ", idtmed[504], par, 3); // Al
- if (fTOFHoles) gMC->Gsvolu("FALB", "BOX ", idtmed[504], par, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FALT", "BOX ", idtmed[504], par, 3); // Al
+ if (fTOFHoles) TVirtualMC::GetMC()->Gsvolu("FALB", "BOX ", idtmed[504], par, 3); // Al
Float_t xcoor, ycoor, zcoor;
xcoor = 0.;
ycoor = 0.;
zcoor = 0.;
- gMC->Gspos("FALT", 0, "FPEA", xcoor, ycoor, zcoor, 0, "ONLY");
- if (fTOFHoles) gMC->Gspos("FALB", 0, "FPEB", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FALT", 0, "FPEA", xcoor, ycoor, zcoor, 0, "ONLY");
+ if (fTOFHoles) TVirtualMC::GetMC()->Gspos("FALB", 0, "FPEB", xcoor, ycoor, zcoor, 0, "ONLY");
par[0] = xtof*0.5;
//par[1] = kAlCoverThickness*0.5;
par[2] = fgkInterCentrModBorder2 - 2.;
- gMC->Gsvolu("FPE1", "BOX ", idtmed[505], par, 3); // Al honeycomb
+ TVirtualMC::GetMC()->Gsvolu("FPE1", "BOX ", idtmed[505], par, 3); // Al honeycomb
//xcoor = 0.;
//ycoor = 0.;
//zcoor = 0.;
- gMC->Gspos("FPE1", 0, "FALT", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPE1", 0, "FALT", xcoor, ycoor, zcoor, 0, "ONLY");
if (fTOFHoles) {
//par[0] = xtof*0.5;
par[1] = kAlCoverThickness*0.5 - kAlSkinThickness;
//par[2] = fgkInterCentrModBorder2 - 2.;
- gMC->Gsvolu("FPE4", "BOX ", idtmed[515], par, 3); // Al honeycomb for holes
+ TVirtualMC::GetMC()->Gsvolu("FPE4", "BOX ", idtmed[515], par, 3); // Al honeycomb for holes
//xcoor = 0.;
//ycoor = 0.;
//zcoor = 0.;
- gMC->Gspos("FPE4", 0, "FALB", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPE4", 0, "FALB", xcoor, ycoor, zcoor, 0, "ONLY");
}
//par[0] = xtof*0.5;
//par[1] = kAlCoverThickness*0.5;
par[2] = (fgkExterInterModBorder1 - fgkInterCentrModBorder2)*0.5 - 2.;
- gMC->Gsvolu("FPE2", "BOX ", idtmed[505], par, 3); // Al honeycomb
+ TVirtualMC::GetMC()->Gsvolu("FPE2", "BOX ", idtmed[505], par, 3); // Al honeycomb
//xcoor = 0.;
//ycoor = 0.;
zcoor = (fgkExterInterModBorder1 + fgkInterCentrModBorder2)*0.5;
- gMC->Gspos("FPE2", 1, "FALT", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FPE2", 2, "FALT", xcoor, ycoor,-zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPE2", 1, "FALT", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPE2", 2, "FALT", xcoor, ycoor,-zcoor, 0, "ONLY");
if (fTOFHoles) {
//xcoor = 0.;
//ycoor = 0.;
//zcoor = (fgkExterInterModBorder1 + fgkInterCentrModBorder2)*0.5;
- gMC->Gspos("FPE2", 1, "FALB", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FPE2", 2, "FALB", xcoor, ycoor,-zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPE2", 1, "FALB", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPE2", 2, "FALB", xcoor, ycoor,-zcoor, 0, "ONLY");
}
//par[0] = xtof*0.5;
//par[1] = kAlCoverThickness*0.5;
par[2] = (zlenA*0.5 + 2. - fgkExterInterModBorder1)*0.5 - 2.;
- gMC->Gsvolu("FPE3", "BOX ", idtmed[505], par, 3); // Al honeycomb
+ TVirtualMC::GetMC()->Gsvolu("FPE3", "BOX ", idtmed[505], par, 3); // Al honeycomb
//xcoor = 0.;
//ycoor = 0.;
zcoor = (zlenA*0.5 + 2. + fgkExterInterModBorder1)*0.5;
- gMC->Gspos("FPE3", 1, "FALT", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FPE3", 2, "FALT", xcoor, ycoor,-zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPE3", 1, "FALT", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPE3", 2, "FALT", xcoor, ycoor,-zcoor, 0, "ONLY");
if (fTOFHoles) {
//xcoor = 0.;
//ycoor = 0.;
zcoor = (zlenA*0.5 + 2. + fgkExterInterModBorder1)*0.5;
- gMC->Gspos("FPE3", 1, "FALB", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FPE3", 2, "FALB", xcoor, ycoor,-zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPE3", 1, "FALB", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPE3", 2, "FALB", xcoor, ycoor,-zcoor, 0, "ONLY");
}
// volumes for Interface cards
par[0] = xtof*0.5;
par[1] = kInterfaceCardThickness*0.5;
par[2] = fgkInterCentrModBorder2 - 2.;
- gMC->Gsvolu("FIF1", "BOX ", idtmed[502], par, 3); // G10
+ TVirtualMC::GetMC()->Gsvolu("FIF1", "BOX ", idtmed[502], par, 3); // G10
//xcoor = 0.;
ycoor = kAlCoverThickness*0.5 + kInterfaceCardThickness*0.5;
zcoor = 0.;
- gMC->Gspos("FIF1", 0, "FPEA", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FIF1", 0, "FPEA", xcoor, ycoor, zcoor, 0, "ONLY");
//par[0] = xtof*0.5;
//par[1] = kInterfaceCardThickness*0.5;
par[2] = (fgkExterInterModBorder1 - fgkInterCentrModBorder2)*0.5 - 2.;
- gMC->Gsvolu("FIF2", "BOX ", idtmed[502], par, 3); // G10
+ TVirtualMC::GetMC()->Gsvolu("FIF2", "BOX ", idtmed[502], par, 3); // G10
//xcoor = 0.;
//ycoor = kAlCoverThickness*0.5 + kInterfaceCardThickness*0.5;
zcoor = (fgkExterInterModBorder1 + fgkInterCentrModBorder2)*0.5;
- gMC->Gspos("FIF2", 1, "FPEA", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FIF2", 2, "FPEA", xcoor, ycoor,-zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FIF2", 1, "FPEA", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FIF2", 2, "FPEA", xcoor, ycoor,-zcoor, 0, "ONLY");
if (fTOFHoles) {
- gMC->Gspos("FIF2", 1, "FPEB", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FIF2", 2, "FPEB", xcoor, ycoor,-zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FIF2", 1, "FPEB", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FIF2", 2, "FPEB", xcoor, ycoor,-zcoor, 0, "ONLY");
}
//par[0] = xtof*0.5;
//par[1] = kInterfaceCardThickness*0.5;
par[2] = (zlenA*0.5 + 2. - fgkExterInterModBorder1)*0.5 - 2.;
- gMC->Gsvolu("FIF3", "BOX ", idtmed[502], par, 3); // G10
+ TVirtualMC::GetMC()->Gsvolu("FIF3", "BOX ", idtmed[502], par, 3); // G10
//xcoor = 0.;
//ycoor = kAlCoverThickness*0.5 + kInterfaceCardThickness*0.5;
zcoor = (zlenA*0.5 + 2. + fgkExterInterModBorder1)*0.5;
- gMC->Gspos("FIF3", 1, "FPEA", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FIF3", 2, "FPEA", xcoor, ycoor,-zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FIF3", 1, "FPEA", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FIF3", 2, "FPEA", xcoor, ycoor,-zcoor, 0, "ONLY");
if (fTOFHoles) {
- gMC->Gspos("FIF3", 1, "FPEB", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FIF3", 2, "FPEB", xcoor, ycoor,-zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FIF3", 1, "FPEB", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FIF3", 2, "FPEB", xcoor, ycoor,-zcoor, 0, "ONLY");
}
// volumes for flat cables
par[0] = xtof*0.5;
par[1] = kPlasticFlatCableThickness*0.5;
par[2] = fgkInterCentrModBorder2 - 2.;
- gMC->Gsvolu("FFC1", "BOX ", idtmed[513], par, 3); // Plastic (CH2)
+ TVirtualMC::GetMC()->Gsvolu("FFC1", "BOX ", idtmed[513], par, 3); // Plastic (CH2)
//xcoor = 0.;
ycoor = -kAlCoverThickness*0.5 - kPlasticFlatCableThickness*0.5;
zcoor = 0.;
- gMC->Gspos("FFC1", 0, "FPEA", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFC1", 0, "FPEA", xcoor, ycoor, zcoor, 0, "ONLY");
//par[0] = xtof*0.5;
//par[1] = kPlasticFlatCableThickness*0.5;
par[2] = (fgkExterInterModBorder1 - fgkInterCentrModBorder2)*0.5 - 2.;
- gMC->Gsvolu("FFC2", "BOX ", idtmed[513], par, 3); // Plastic (CH2)
+ TVirtualMC::GetMC()->Gsvolu("FFC2", "BOX ", idtmed[513], par, 3); // Plastic (CH2)
//xcoor = 0.;
//ycoor = -kAlCoverThickness*0.5 - kPlasticFlatCableThickness*0.5;
zcoor = (fgkExterInterModBorder1 + fgkInterCentrModBorder2)*0.5;
- gMC->Gspos("FFC2", 1, "FPEA", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FFC2", 2, "FPEA", xcoor, ycoor,-zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFC2", 1, "FPEA", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFC2", 2, "FPEA", xcoor, ycoor,-zcoor, 0, "ONLY");
if (fTOFHoles) {
- gMC->Gspos("FFC2", 1, "FPEB", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FFC2", 2, "FPEB", xcoor, ycoor,-zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFC2", 1, "FPEB", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFC2", 2, "FPEB", xcoor, ycoor,-zcoor, 0, "ONLY");
}
//par[0] = xtof*0.5;
//par[1] = kPlasticFlatCableThickness*0.5;
par[2] = (zlenA*0.5 + 2. - fgkExterInterModBorder1)*0.5 - 2.;
- gMC->Gsvolu("FFC3", "BOX ", idtmed[513], par, 3); // Plastic (CH2)
+ TVirtualMC::GetMC()->Gsvolu("FFC3", "BOX ", idtmed[513], par, 3); // Plastic (CH2)
//xcoor = 0.;
//ycoor = -kAlCoverThickness*0.5 - kPlasticFlatCableThickness*0.5;
zcoor = (zlenA*0.5 + 2. + fgkExterInterModBorder1)*0.5;
- gMC->Gspos("FFC3", 1, "FPEA", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FFC3", 2, "FPEA", xcoor, ycoor,-zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFC3", 1, "FPEA", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFC3", 2, "FPEA", xcoor, ycoor,-zcoor, 0, "ONLY");
if (fTOFHoles) {
- gMC->Gspos("FFC3", 1, "FPEB", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FFC3", 2, "FPEB", xcoor, ycoor,-zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFC3", 1, "FPEB", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFC3", 2, "FPEB", xcoor, ycoor,-zcoor, 0, "ONLY");
}
// Cu
par[0] = xtof*0.5;
par[1] = kCopperFlatCableThickness*0.5;
par[2] = fgkInterCentrModBorder2 - 2.;
- gMC->Gsvolu("FCC1", "BOX ", idtmed[512], par, 3); // Cu
- gMC->Gspos("FCC1", 0, "FFC1", 0., 0., 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gsvolu("FCC1", "BOX ", idtmed[512], par, 3); // Cu
+ TVirtualMC::GetMC()->Gspos("FCC1", 0, "FFC1", 0., 0., 0., 0, "ONLY");
//par[0] = xtof*0.5;
//par[1] = kCopperFlatCableThickness*0.5;
par[2] = (fgkExterInterModBorder1 - fgkInterCentrModBorder2)*0.5 - 2.;
- gMC->Gsvolu("FCC2", "BOX ", idtmed[512], par, 3); // Cu
- gMC->Gspos("FCC2", 0, "FFC2", 0., 0., 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gsvolu("FCC2", "BOX ", idtmed[512], par, 3); // Cu
+ TVirtualMC::GetMC()->Gspos("FCC2", 0, "FFC2", 0., 0., 0., 0, "ONLY");
//par[0] = xtof*0.5;
//par[1] = kCopperFlatCableThickness*0.5;
par[2] = (zlenA*0.5 + 2. - fgkExterInterModBorder1)*0.5 - 2.;
- gMC->Gsvolu("FCC3", "BOX ", idtmed[512], par, 3); // Cu
- gMC->Gspos("FCC3", 0, "FFC3", 0., 0., 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gsvolu("FCC3", "BOX ", idtmed[512], par, 3); // Cu
+ TVirtualMC::GetMC()->Gspos("FCC3", 0, "FFC3", 0., 0., 0., 0, "ONLY");
}
//xcoor = 0.;
ycoor = (zlenA*0.5 + fgkInterCentrModBorder1)*0.5;
zcoor = -ytof * 0.25;
- gMC->Gspos("FTOB", 0, name, xcoor, ycoor, zcoor, idrotm[0], "ONLY");
- gMC->Gspos("FTOC", 0, name, xcoor,-ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FTOB", 0, name, xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FTOC", 0, name, xcoor,-ycoor, zcoor, idrotm[0], "ONLY");
}
else {
//xcoor = 0.;
ycoor = 0.;
zcoor = -ytof * 0.25;
- gMC->Gspos("FTOA", 0, name, xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FTOA", 0, name, xcoor, ycoor, zcoor, idrotm[0], "ONLY");
}
}
if(fTOFSectors[isec]==-1)continue;
snprintf(name, kSize, "BTOF%d",isec);
if (fTOFHoles && (isec==13 || isec==14 || isec==15))
- gMC->Gspos("FPEB", 0, name, xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPEB", 0, name, xcoor, ycoor, zcoor, idrotm[0], "ONLY");
else
- gMC->Gspos("FPEA", 0, name, xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPEA", 0, name, xcoor, ycoor, zcoor, idrotm[0], "ONLY");
}
}
if(fTOFSectors[isec]==-1)continue;
snprintf(name, kSize, "BTOF%d",isec);
if (fgkFEAwithMasks[isec])
- gMC->Gspos("FAIA", 0, name, xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAIA", 0, name, xcoor, ycoor, zcoor, idrotm[0], "ONLY");
else {
if (fTOFHoles && (isec==13 || isec==14 || isec==15))
- gMC->Gspos("FAIB", 0, name, xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAIB", 0, name, xcoor, ycoor, zcoor, idrotm[0], "ONLY");
else
- gMC->Gspos("FAIC", 0, name, xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAIC", 0, name, xcoor, ycoor, zcoor, idrotm[0], "ONLY");
}
}
// FSTR volume definition-filling this volume with non sensitive Gas Mixture
- Float_t parfp[3]={klstripx*0.5, khstripy*0.5, kwstripz*0.5};
- gMC->Gsvolu("FSTR", "BOX", idtmed[506], parfp, 3); // Freon mix
+ Float_t parfp[3]={static_cast<Float_t>(klstripx*0.5), static_cast<Float_t>(khstripy*0.5), static_cast<Float_t>(kwstripz*0.5)};
+ TVirtualMC::GetMC()->Gsvolu("FSTR", "BOX", idtmed[506], parfp, 3); // Freon mix
Float_t posfp[3]={0.,0.,0.};
//parfp[0] = klstripx*0.5;
parfp[1] = khhony*0.5;
parfp[2] = kwhonz*0.5;
- gMC->Gsvolu("FHON", "BOX", idtmed[501], parfp, 3); // Nomex (Honeycomb)
+ TVirtualMC::GetMC()->Gsvolu("FHON", "BOX", idtmed[501], parfp, 3); // Nomex (Honeycomb)
// positioning 2 NOMEX Layers on FSTR volume
//posfp[0] = 0.;
posfp[1] =-khstripy*0.5 + parfp[1];
//posfp[2] = 0.;
- gMC->Gspos("FHON", 1, "FSTR", 0., posfp[1], 0., 0, "ONLY");
- gMC->Gspos("FHON", 2, "FSTR", 0.,-posfp[1], 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FHON", 1, "FSTR", 0., posfp[1], 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FHON", 2, "FSTR", 0.,-posfp[1], 0., 0, "ONLY");
// Lower PCB Layer definition
//parfp[0] = klstripx*0.5;
parfp[1] = khpcby*0.5;
parfp[2] = kwpcbz1*0.5;
- gMC->Gsvolu("FPC1", "BOX", idtmed[502], parfp, 3); // G10
+ TVirtualMC::GetMC()->Gsvolu("FPC1", "BOX", idtmed[502], parfp, 3); // G10
// Upper PCB Layer definition
//parfp[0] = klstripx*0.5;
//parfp[1] = khpcby*0.5;
parfp[2] = kwpcbz2*0.5;
- gMC->Gsvolu("FPC2", "BOX", idtmed[502], parfp, 3); // G10
+ TVirtualMC::GetMC()->Gsvolu("FPC2", "BOX", idtmed[502], parfp, 3); // G10
// positioning 2 external PCB Layers in FSTR volume
//posfp[0] = 0.;
posfp[1] =-khstripy*0.5+khhony+parfp[1];
//posfp[2] = 0.;
- gMC->Gspos("FPC1", 1, "FSTR", 0.,-posfp[1], 0., 0, "ONLY");
- gMC->Gspos("FPC2", 1, "FSTR", 0., posfp[1], 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPC1", 1, "FSTR", 0.,-posfp[1], 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPC2", 1, "FSTR", 0., posfp[1], 0., 0, "ONLY");
// Central PCB layer definition
//parfp[0] = klstripx*0.5;
parfp[1] = khcpcby*0.5;
parfp[2] = kwcpcbz*0.5;
- gMC->Gsvolu("FPCB", "BOX", idtmed[502], parfp, 3); // G10
+ TVirtualMC::GetMC()->Gsvolu("FPCB", "BOX", idtmed[502], parfp, 3); // G10
gGeoManager->GetVolume("FPCB")->VisibleDaughters(kFALSE);
// positioning the central PCB layer
- gMC->Gspos("FPCB", 1, "FSTR", 0., 0., 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FPCB", 1, "FSTR", 0., 0., 0., 0, "ONLY");
// Sensitive volume definition
- Float_t parfs[3] = {klsensmx*0.5, khsensmy*0.5, kwsensmz*0.5};
- gMC->Gsvolu("FSEN", "BOX", idtmed[507], parfs, 3); // Cu sensitive
+ Float_t parfs[3] = {static_cast<Float_t>(klsensmx*0.5), static_cast<Float_t>(khsensmy*0.5), static_cast<Float_t>(kwsensmz*0.5)};
+ TVirtualMC::GetMC()->Gsvolu("FSEN", "BOX", idtmed[507], parfs, 3); // Cu sensitive
// dividing FSEN along z in knz=2 and along x in knx=48
- gMC->Gsdvn("FSEZ", "FSEN", knz, 3);
- gMC->Gsdvn("FPAD", "FSEZ", knx, 1);
+ TVirtualMC::GetMC()->Gsdvn("FSEZ", "FSEN", knz, 3);
+ TVirtualMC::GetMC()->Gsdvn("FPAD", "FSEZ", knx, 1);
// positioning sensitive layer inside FPCB
- gMC->Gspos("FSEN", 1, "FPCB", 0., 0., 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FSEN", 1, "FPCB", 0., 0., 0., 0, "ONLY");
// RED GLASS Layer definition
//parfp[0] = klstripx*0.5;
parfp[1] = khrgly*0.5;
parfp[2] = kwrglz*0.5;
- gMC->Gsvolu("FRGL", "BOX", idtmed[508], parfp, 3); // red glass
+ TVirtualMC::GetMC()->Gsvolu("FRGL", "BOX", idtmed[508], parfp, 3); // red glass
// positioning 4 RED GLASS Layers in FSTR volume
//posfp[0] = 0.;
posfp[1] = -khstripy*0.5+khhony+khpcby+parfp[1];
//posfp[2] = 0.;
- gMC->Gspos("FRGL", 1, "FSTR", 0., posfp[1], 0., 0, "ONLY");
- gMC->Gspos("FRGL", 4, "FSTR", 0.,-posfp[1], 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FRGL", 1, "FSTR", 0., posfp[1], 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FRGL", 4, "FSTR", 0.,-posfp[1], 0., 0, "ONLY");
//posfp[0] = 0.;
posfp[1] = (khcpcby+khrgly)*0.5;
//posfp[2] = 0.;
- gMC->Gspos("FRGL", 2, "FSTR", 0.,-posfp[1], 0., 0, "ONLY");
- gMC->Gspos("FRGL", 3, "FSTR", 0., posfp[1], 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FRGL", 2, "FSTR", 0.,-posfp[1], 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FRGL", 3, "FSTR", 0., posfp[1], 0., 0, "ONLY");
// GLASS Layer definition
//parfp[0] = klstripx*0.5;
parfp[1] = khglassy;
parfp[2] = kwglfz*0.5;
- gMC->Gsvolu("FGLF", "BOX", idtmed[508], parfp, 3); // glass
+ TVirtualMC::GetMC()->Gsvolu("FGLF", "BOX", idtmed[508], parfp, 3); // glass
// positioning 2 GLASS Layers in FSTR volume
//posfp[0] = 0.;
posfp[1] = (khcpcby + khglfy)*0.5 + khrgly;
//posfp[2] = 0.;
- gMC->Gspos("FGLF", 1, "FSTR", 0.,-posfp[1], 0., 0, "ONLY");
- gMC->Gspos("FGLF", 2, "FSTR", 0., posfp[1], 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FGLF", 1, "FSTR", 0.,-posfp[1], 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FGLF", 2, "FSTR", 0., posfp[1], 0., 0, "ONLY");
// Positioning the Strips (FSTR volumes) in the FLT volumes
Int_t maxStripNumbers [5] ={fTOFGeometry->NStripC(),
xpos = 0.;
ypos = fTOFGeometry->GetHeights(iplate,istrip) + yFLT*0.5;
zpos = fTOFGeometry->GetDistances(iplate,istrip);
- gMC->Gspos("FSTR", istrip+totalStrip+1, "FLTA", xpos, ypos,-zpos, idrotm[istrip+totalStrip], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FSTR", istrip+totalStrip+1, "FLTA", xpos, ypos,-zpos, idrotm[istrip+totalStrip], "ONLY");
if (fTOFHoles) {
if (istrip+totalStrip+1>53)
- gMC->Gspos("FSTR", istrip+totalStrip+1, "FLTC", xpos, ypos,-zpos-(zlenA*0.5 - 2.*fgkModuleWallThickness + fgkInterCentrModBorder1)*0.5, idrotm[istrip+totalStrip], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FSTR", istrip+totalStrip+1, "FLTC", xpos, ypos,-zpos-(zlenA*0.5 - 2.*fgkModuleWallThickness + fgkInterCentrModBorder1)*0.5, idrotm[istrip+totalStrip], "ONLY");
if (istrip+totalStrip+1<39)
- gMC->Gspos("FSTR", istrip+totalStrip+1, "FLTB", xpos, ypos,-zpos+(zlenA*0.5 - 2.*fgkModuleWallThickness + fgkInterCentrModBorder1)*0.5, idrotm[istrip+totalStrip], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FSTR", istrip+totalStrip+1, "FLTB", xpos, ypos,-zpos+(zlenA*0.5 - 2.*fgkModuleWallThickness + fgkInterCentrModBorder1)*0.5, idrotm[istrip+totalStrip], "ONLY");
}
}
}
par[0] = xtof*0.5;
par[1] = (ytof*0.5 - fgkModuleCoverThickness)*0.5;
par[2] = zlenA*0.5;
- gMC->Gsvolu("FAIA", "BOX ", idtmed[500], par, 3); // Air
- if (fTOFHoles) gMC->Gsvolu("FAIB", "BOX ", idtmed[500], par, 3); // Air
- gMC->Gsvolu("FAIC", "BOX ", idtmed[500], par, 3); // Air
+ TVirtualMC::GetMC()->Gsvolu("FAIA", "BOX ", idtmed[500], par, 3); // Air
+ if (fTOFHoles) TVirtualMC::GetMC()->Gsvolu("FAIB", "BOX ", idtmed[500], par, 3); // Air
+ TVirtualMC::GetMC()->Gsvolu("FAIC", "BOX ", idtmed[500], par, 3); // Air
Float_t feaParam[3] = {fgkFEAparameters[0], fgkFEAparameters[1], fgkFEAparameters[2]};
Float_t feaRoof1[3] = {fgkRoof1parameters[0], fgkRoof1parameters[1], fgkRoof1parameters[2]};
//Float_t feaRoof2[3] = {fgkRoof2parameters[0], fgkRoof2parameters[1], fgkRoof2parameters[2]};
// FEA card mother-volume definition
- Float_t carpar[3] = {xtof*0.5 - fgkCBLw - fgkSawThickness,
- feaParam[1] + feaRoof1[1] + fgkRoof2parameters[1]*0.5,
- feaRoof1[2] + fgkBetweenLandMask*0.5 + al3[2]};
- gMC->Gsvolu("FCA1", "BOX ", idtmed[500], carpar, 3); // Air
- gMC->Gsvolu("FCA2", "BOX ", idtmed[500], carpar, 3); // Air
+ Float_t carpar[3] = {static_cast<Float_t>(xtof*0.5 - fgkCBLw - fgkSawThickness),
+ static_cast<Float_t>(feaParam[1] + feaRoof1[1] + fgkRoof2parameters[1]*0.5),
+ static_cast<Float_t>(feaRoof1[2] + fgkBetweenLandMask*0.5 + al3[2])};
+ TVirtualMC::GetMC()->Gsvolu("FCA1", "BOX ", idtmed[500], carpar, 3); // Air
+ TVirtualMC::GetMC()->Gsvolu("FCA2", "BOX ", idtmed[500], carpar, 3); // Air
// rotation matrix
AliMatrix(idrotm[0], 90.,180., 90., 90.,180., 0.);
Float_t rowgap[5] = {13.5, 22.9, 16.94, 23.8, 20.4};
Int_t rowb[5] = {6, 7, 6, 19, 7};
Float_t carpos[3] = {0.,
- -(ytof*0.5 - fgkModuleCoverThickness)*0.5 + carpar[1],
+ static_cast<Float_t>(-(ytof*0.5 - fgkModuleCoverThickness)*0.5 + carpar[1]),
-0.8};
- gMC->Gspos("FCA1", 91, "FAIA", carpos[0], carpos[1], carpos[2], 0, "MANY");
- gMC->Gspos("FCA2", 91, "FAIC", carpos[0], carpos[1], carpos[2], 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FCA1", 91, "FAIA", carpos[0], carpos[1], carpos[2], 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FCA2", 91, "FAIC", carpos[0], carpos[1], carpos[2], 0, "MANY");
Int_t row = 1;
Int_t nrow = 0;
carpos[2] -= sg*rowstep;
if (nb==4) {
- gMC->Gspos("FCA1", row, "FAIA", carpos[0], carpos[1], carpos[2], 0, "ONLY");
- gMC->Gspos("FCA2", row, "FAIC", carpos[0], carpos[1], carpos[2], 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCA1", row, "FAIA", carpos[0], carpos[1], carpos[2], 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCA2", row, "FAIC", carpos[0], carpos[1], carpos[2], 0, "ONLY");
}
else {
switch (sg) {
case 1:
- gMC->Gspos("FCA1", row, "FAIA", carpos[0], carpos[1], carpos[2], 0, "ONLY");
- gMC->Gspos("FCA2", row, "FAIC", carpos[0], carpos[1], carpos[2], 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCA1", row, "FAIA", carpos[0], carpos[1], carpos[2], 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCA2", row, "FAIC", carpos[0], carpos[1], carpos[2], 0, "ONLY");
break;
case -1:
- gMC->Gspos("FCA1", row, "FAIA", carpos[0], carpos[1], carpos[2], idrotm[0], "ONLY");
- gMC->Gspos("FCA2", row, "FAIC", carpos[0], carpos[1], carpos[2], idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCA1", row, "FAIA", carpos[0], carpos[1], carpos[2], idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCA2", row, "FAIC", carpos[0], carpos[1], carpos[2], idrotm[0], "ONLY");
break;
}
switch (sg) {
case 1:
- gMC->Gspos("FCA1", row, "FAIB", carpos[0], carpos[1], carpos[2], 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCA1", row, "FAIB", carpos[0], carpos[1], carpos[2], 0, "ONLY");
break;
case -1:
- gMC->Gspos("FCA1", row, "FAIB", carpos[0], carpos[1], carpos[2], idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCA1", row, "FAIB", carpos[0], carpos[1], carpos[2], idrotm[0], "ONLY");
break;
}
}
// FEA card volume definition
Float_t feaParam[3] = {fgkFEAparameters[0], fgkFEAparameters[1], fgkFEAparameters[2]};
- gMC->Gsvolu("FFEA", "BOX ", idtmed[502], feaParam, 3); // G10
+ TVirtualMC::GetMC()->Gsvolu("FFEA", "BOX ", idtmed[502], feaParam, 3); // G10
Float_t al1[3] = {fgkAl1parameters[0], fgkAl1parameters[1], fgkAl1parameters[2]};
Float_t al3[3] = {fgkAl3parameters[0], fgkAl3parameters[1], fgkAl3parameters[2]};
Float_t feaRoof1[3] = {fgkRoof1parameters[0], fgkRoof1parameters[1], fgkRoof1parameters[2]};
//Float_t feaRoof2[3] = {fgkRoof2parameters[0], fgkRoof2parameters[1], fgkRoof2parameters[2]};
- Float_t carpar[3] = {xtof*0.5 - fgkCBLw - fgkSawThickness,
- feaParam[1] + feaRoof1[1] + fgkRoof2parameters[1]*0.5,
- feaRoof1[2] + fgkBetweenLandMask*0.5 + al3[2]};
+ Float_t carpar[3] = {static_cast<Float_t>(xtof*0.5 - fgkCBLw - fgkSawThickness),
+ static_cast<Float_t>(feaParam[1] + feaRoof1[1] + fgkRoof2parameters[1]*0.5),
+ static_cast<Float_t>(feaRoof1[2] + fgkBetweenLandMask*0.5 + al3[2])};
// FEA card volume positioning
Float_t xCoor = xtof*0.5 - 25.;
Float_t yCoor =-carpar[1] + feaParam[1];
Float_t zCoor =-carpar[2] + (2.*feaRoof1[2] - 2.*al1[2] - feaParam[2]);
- gMC->Gspos("FFEA", 1, "FCA1",-xCoor, yCoor, zCoor, 0, "ONLY");
- gMC->Gspos("FFEA", 4, "FCA1", xCoor, yCoor, zCoor, 0, "ONLY");
- gMC->Gspos("FFEA", 1, "FCA2",-xCoor, yCoor, zCoor, 0, "ONLY");
- gMC->Gspos("FFEA", 4, "FCA2", xCoor, yCoor, zCoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFEA", 1, "FCA1",-xCoor, yCoor, zCoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFEA", 4, "FCA1", xCoor, yCoor, zCoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFEA", 1, "FCA2",-xCoor, yCoor, zCoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFEA", 4, "FCA2", xCoor, yCoor, zCoor, 0, "ONLY");
xCoor = feaParam[0] + (fgkFEAwidth2*0.5 - fgkFEAwidth1);
- gMC->Gspos("FFEA", 2, "FCA1",-xCoor, yCoor, zCoor, 0, "ONLY");
- gMC->Gspos("FFEA", 3, "FCA1", xCoor, yCoor, zCoor, 0, "ONLY");
- gMC->Gspos("FFEA", 2, "FCA2",-xCoor, yCoor, zCoor, 0, "ONLY");
- gMC->Gspos("FFEA", 3, "FCA2", xCoor, yCoor, zCoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFEA", 2, "FCA1",-xCoor, yCoor, zCoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFEA", 3, "FCA1", xCoor, yCoor, zCoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFEA", 2, "FCA2",-xCoor, yCoor, zCoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FFEA", 3, "FCA2", xCoor, yCoor, zCoor, 0, "ONLY");
}
// first FEA cooling element definition
Float_t al1[3] = {fgkAl1parameters[0], fgkAl1parameters[1], fgkAl1parameters[2]};
- gMC->Gsvolu("FAL1", "BOX ", idtmed[504], al1, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FAL1", "BOX ", idtmed[504], al1, 3); // Al
// second FEA cooling element definition
Float_t feaRoof1[3] = {fgkRoof1parameters[0], fgkRoof1parameters[1], fgkRoof1parameters[2]};
- gMC->Gsvolu("FRO1", "BOX ", idtmed[504], feaRoof1, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FRO1", "BOX ", idtmed[504], feaRoof1, 3); // Al
Float_t al3[3] = {fgkAl3parameters[0], fgkAl3parameters[1], fgkAl3parameters[2]};
//Float_t feaRoof2[3] = {fgkRoof2parameters[0], fgkRoof2parameters[1], fgkRoof2parameters[2]};
// definition and positioning of a small air groove in the FRO1 volume
- Float_t airHole[3] = {fgkRoof2parameters[0], fgkRoof2parameters[1]*0.5, feaRoof1[2]};
- gMC->Gsvolu("FREE", "BOX ", idtmed[500], airHole, 3); // Air
- gMC->Gspos("FREE", 1, "FRO1", 0., feaRoof1[1]-airHole[1], 0., 0, "ONLY");
+ Float_t airHole[3] = {fgkRoof2parameters[0], static_cast<Float_t>(fgkRoof2parameters[1]*0.5), feaRoof1[2]};
+ TVirtualMC::GetMC()->Gsvolu("FREE", "BOX ", idtmed[500], airHole, 3); // Air
+ TVirtualMC::GetMC()->Gspos("FREE", 1, "FRO1", 0., feaRoof1[1]-airHole[1], 0., 0, "ONLY");
gGeoManager->GetVolume("FRO1")->VisibleDaughters(kFALSE);
// third FEA cooling element definition
Float_t bar[3] = {fgkBar[0], fgkBar[1], fgkBar[2]};
- gMC->Gsvolu("FBAR", "BOX ", idtmed[504], bar, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FBAR", "BOX ", idtmed[504], bar, 3); // Al
Float_t feaParam[3] = {fgkFEAparameters[0], fgkFEAparameters[1], fgkFEAparameters[2]};
- Float_t carpar[3] = {xtof*0.5 - fgkCBLw - fgkSawThickness,
- feaParam[1] + feaRoof1[1] + fgkRoof2parameters[1]*0.5,
- feaRoof1[2] + fgkBetweenLandMask*0.5 + al3[2]};
+ Float_t carpar[3] = {static_cast<Float_t>(xtof*0.5 - fgkCBLw - fgkSawThickness),
+ static_cast<Float_t>(feaParam[1] + feaRoof1[1] + fgkRoof2parameters[1]*0.5),
+ static_cast<Float_t>(feaRoof1[2] + fgkBetweenLandMask*0.5 + al3[2])};
// fourth FEA cooling element definition
Float_t bar1[3] = {fgkBar1[0], fgkBar1[1], fgkBar1[2]};
- gMC->Gsvolu("FBA1", "BOX ", idtmed[504], bar1, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FBA1", "BOX ", idtmed[504], bar1, 3); // Al
// fifth FEA cooling element definition
Float_t bar2[3] = {fgkBar2[0], fgkBar2[1], fgkBar2[2]};
- gMC->Gsvolu("FBA2", "BOX ", idtmed[504], bar2, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FBA2", "BOX ", idtmed[504], bar2, 3); // Al
// first FEA cooling element positioning
Float_t xcoor = xtof*0.5 - 25.;
Float_t ycoor = carpar[1] - 2.*fgkRoof2parameters[1]*0.5 - 2.*feaRoof1[1] - al1[1];
Float_t zcoor =-carpar[2] + 2.*feaRoof1[2] - al1[2];
- gMC->Gspos("FAL1", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FAL1", 4, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FAL1", 1, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FAL1", 4, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL1", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL1", 4, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL1", 1, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL1", 4, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
xcoor = feaParam[0] + (fgkFEAwidth2*0.5 - fgkFEAwidth1);
- gMC->Gspos("FAL1", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FAL1", 3, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FAL1", 2, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FAL1", 3, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL1", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL1", 3, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL1", 2, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL1", 3, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
// second FEA cooling element positioning
xcoor = xtof*0.5 - 25.;
ycoor = carpar[1] - 2.*fgkRoof2parameters[1]*0.5 - feaRoof1[1];
zcoor =-carpar[2] + feaRoof1[2];
- gMC->Gspos("FRO1", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "MANY"); // (AdC)
- gMC->Gspos("FRO1", 4, "FCA1", xcoor, ycoor, zcoor, 0, "MANY"); // (AdC)
- gMC->Gspos("FRO1", 1, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FRO1", 4, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FRO1", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "MANY"); // (AdC)
+ TVirtualMC::GetMC()->Gspos("FRO1", 4, "FCA1", xcoor, ycoor, zcoor, 0, "MANY"); // (AdC)
+ TVirtualMC::GetMC()->Gspos("FRO1", 1, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FRO1", 4, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
xcoor = feaParam[0] + (fgkFEAwidth2*0.5 - fgkFEAwidth1);
- gMC->Gspos("FRO1", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "MANY"); // (AdC)
- gMC->Gspos("FRO1", 3, "FCA1", xcoor, ycoor, zcoor, 0, "MANY"); // (AdC)
- gMC->Gspos("FRO1", 2, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FRO1", 3, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FRO1", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "MANY"); // (AdC)
+ TVirtualMC::GetMC()->Gspos("FRO1", 3, "FCA1", xcoor, ycoor, zcoor, 0, "MANY"); // (AdC)
+ TVirtualMC::GetMC()->Gspos("FRO1", 2, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FRO1", 3, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
// third FEA cooling element positioning
xcoor = xtof*0.5 - 25.;
ycoor = carpar[1] - 2.*fgkRoof2parameters[1]*0.5 - 2.*feaRoof1[1] - bar[1];
zcoor =-carpar[2] + bar[2];
- gMC->Gspos("FBAR", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBAR", 4, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBAR", 1, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBAR", 4, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBAR", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBAR", 4, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBAR", 1, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBAR", 4, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
xcoor = feaParam[0] + (fgkFEAwidth2*0.5 - fgkFEAwidth1);
- gMC->Gspos("FBAR", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBAR", 3, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBAR", 2, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBAR", 3, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBAR", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBAR", 3, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBAR", 2, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBAR", 3, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
// fourth FEA cooling element positioning
- Float_t tubepar[3] = {0., 0.4, xtof*0.5 - fgkCBLw};
+ Float_t tubepar[3] = {0., 0.4, static_cast<Float_t>(xtof*0.5 - fgkCBLw)};
xcoor = xtof*0.5 - 25.;
ycoor = carpar[1] - 2.*fgkRoof2parameters[1]*0.5 - 2.*feaRoof1[1] - bar[1];
zcoor =-carpar[2] + 2.*bar[2] + 2.*tubepar[1] + bar1[2];
- gMC->Gspos("FBA1", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA1", 4, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA1", 1, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA1", 4, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA1", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA1", 4, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA1", 1, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA1", 4, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
xcoor = feaParam[0] + (fgkFEAwidth2*0.5 - fgkFEAwidth1);
- gMC->Gspos("FBA1", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA1", 3, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA1", 2, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA1", 3, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA1", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA1", 3, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA1", 2, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA1", 3, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
// fifth FEA cooling element positioning
xcoor = xtof*0.5 - 25.;
ycoor = carpar[1] - 2.*fgkRoof2parameters[1]*0.5 - 2.*feaRoof1[1] - bar2[1];
zcoor =-carpar[2] + 2.*bar[2] + bar2[2];
- gMC->Gspos("FBA2", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA2", 4, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA2", 1, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA2", 4, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 4, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 1, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 4, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
xcoor = feaParam[0] + (fgkFEAwidth2*0.5 - fgkFEAwidth1);
- gMC->Gspos("FBA2", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA2", 3, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA2", 2, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA2", 3, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 3, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 2, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 3, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
xcoor = xtof*0.5 - 25.;
ycoor = carpar[1] - 2.*fgkRoof2parameters[1]*0.5 - 2.*feaRoof1[1] - 2.*bar2[1] - 2.*tubepar[1] - bar2[1];
zcoor =-carpar[2] + 2.*bar[2] + bar2[2];
- gMC->Gspos("FBA2", 5, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA2", 8, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA2", 5, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA2", 8, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 5, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 8, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 5, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 8, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
xcoor = feaParam[0] + (fgkFEAwidth2*0.5 - fgkFEAwidth1);
- gMC->Gspos("FBA2", 6, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA2", 7, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA2", 6, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBA2", 7, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 6, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 7, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 6, "FCA2",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBA2", 7, "FCA2", xcoor, ycoor, zcoor, 0, "ONLY");
}
// first Nino ASIC mask volume definition
Float_t al2[3] = {fgkAl2parameters[0], fgkAl2parameters[1], fgkAl2parameters[2]};
- gMC->Gsvolu("FAL2", "BOX ", idtmed[504], al2, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FAL2", "BOX ", idtmed[504], al2, 3); // Al
// second Nino ASIC mask volume definition
Float_t al3[3] = {fgkAl3parameters[0], fgkAl3parameters[1], fgkAl3parameters[2]};
- gMC->Gsvolu("FAL3", "BOX ", idtmed[504], al3, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FAL3", "BOX ", idtmed[504], al3, 3); // Al
// third Nino ASIC mask volume definition
Float_t feaRoof2[3] = {fgkRoof2parameters[0], fgkRoof2parameters[1], fgkRoof2parameters[2]};
- gMC->Gsvolu("FRO2", "BOX ", idtmed[504], feaRoof2, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FRO2", "BOX ", idtmed[504], feaRoof2, 3); // Al
Float_t feaRoof1[3] = {fgkRoof1parameters[0], fgkRoof1parameters[1], fgkRoof1parameters[2]};
Float_t feaParam[3] = {fgkFEAparameters[0], fgkFEAparameters[1], fgkFEAparameters[2]};
- Float_t carpar[3] = {xtof*0.5 - fgkCBLw - fgkSawThickness,
- feaParam[1] + feaRoof1[1] + fgkRoof2parameters[1]*0.5,
- feaRoof1[2] + fgkBetweenLandMask*0.5 + al3[2]};
+ Float_t carpar[3] = {static_cast<Float_t>(xtof*0.5 - fgkCBLw - fgkSawThickness),
+ static_cast<Float_t>(feaParam[1] + feaRoof1[1] + fgkRoof2parameters[1]*0.5),
+ static_cast<Float_t>(feaRoof1[2] + fgkBetweenLandMask*0.5 + al3[2])};
// first Nino ASIC mask volume positioning
Float_t xcoor = xtof*0.5 - 25.;
Float_t ycoor = carpar[1] - 2.*al3[1];
Float_t zcoor = carpar[2] - 2.*al3[2] - al2[2];
- gMC->Gspos("FAL2", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FAL2", 4, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL2", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL2", 4, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
xcoor = feaParam[0] + (fgkFEAwidth2*0.5 - fgkFEAwidth1);
- gMC->Gspos("FAL2", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FAL2", 3, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL2", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL2", 3, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
// second Nino ASIC mask volume positioning
xcoor = xtof*0.5 - 25.;
ycoor = carpar[1] - al3[1];
zcoor = carpar[2] - al3[2];
- gMC->Gspos("FAL3", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FAL3", 4, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL3", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL3", 4, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
xcoor = feaParam[0] + (fgkFEAwidth2*0.5 - fgkFEAwidth1);
- gMC->Gspos("FAL3", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FAL3", 3, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL3", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FAL3", 3, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
// third Nino ASIC mask volume positioning
xcoor = xtof*0.5 - 25.;
ycoor = carpar[1] - fgkRoof2parameters[1];
zcoor = carpar[2] - 2.*al3[2] - fgkRoof2parameters[2];
- gMC->Gspos("FRO2", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FRO2", 4, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FRO2", 1, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FRO2", 4, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
xcoor = feaParam[0] + (fgkFEAwidth2*0.5 - fgkFEAwidth1);
- gMC->Gspos("FRO2", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FRO2", 3, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FRO2", 2, "FCA1",-xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FRO2", 3, "FCA1", xcoor, ycoor, zcoor, 0, "ONLY");
}
Int_t idrotm[1]={0};
// cooling tube volume definition
- Float_t tubepar[3] = {0., 0.4, xtof*0.5 - fgkCBLw - fgkSawThickness};
- gMC->Gsvolu("FTUB", "TUBE", idtmed[512], tubepar, 3); // Cu
+ Float_t tubepar[3] = {0., 0.4, static_cast<Float_t>(xtof*0.5 - fgkCBLw - fgkSawThickness)};
+ TVirtualMC::GetMC()->Gsvolu("FTUB", "TUBE", idtmed[512], tubepar, 3); // Cu
// water cooling tube volume definition
Float_t tubeparW[3] = {0., 0.3, tubepar[2]};
- gMC->Gsvolu("FITU", "TUBE", idtmed[509], tubeparW, 3); // H2O
+ TVirtualMC::GetMC()->Gsvolu("FITU", "TUBE", idtmed[509], tubeparW, 3); // H2O
// Positioning of the water tube into the steel one
- gMC->Gspos("FITU", 1, "FTUB", 0., 0., 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FITU", 1, "FTUB", 0., 0., 0., 0, "ONLY");
// definition of transverse components of SM cooling system
Float_t trapar[3] = {tubepar[2], 6.175/*6.15*/, 0.7};
- gMC->Gsvolu("FTLN", "BOX ", idtmed[504], trapar, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FTLN", "BOX ", idtmed[504], trapar, 3); // Al
// rotation matrix
AliMatrix(idrotm[0], 180., 90., 90., 90., 90., 0.);
Float_t al3[3] = {fgkAl3parameters[0], fgkAl3parameters[1], fgkAl3parameters[2]};
//Float_t feaRoof2[3] = {fgkRoof2parameters[0], fgkRoof2parameters[1], fgkRoof2parameters[2]};
- Float_t carpar[3] = {xtof*0.5 - fgkCBLw - fgkSawThickness,
- feaParam[1] + feaRoof1[1] + fgkRoof2parameters[1]*0.5,
- feaRoof1[2] + fgkBetweenLandMask*0.5 + al3[2]};
+ Float_t carpar[3] = {static_cast<Float_t>(xtof*0.5 - fgkCBLw - fgkSawThickness),
+ static_cast<Float_t>(feaParam[1] + feaRoof1[1] + fgkRoof2parameters[1]*0.5),
+ static_cast<Float_t>(feaRoof1[2] + fgkBetweenLandMask*0.5 + al3[2])};
Float_t ytub =-(ytof*0.5 - fgkModuleCoverThickness)*0.5 + carpar[1] +
carpar[1] - 2.*fgkRoof2parameters[1]*0.5 - 2.*feaRoof1[1] - 2.*bar2[1] - tubepar[1];
// Positioning of tubes for the SM cooling system
Float_t ycoor = carpar[1] - 2.*fgkRoof2parameters[1]*0.5 - 2.*feaRoof1[1] - 2.*bar2[1] - tubepar[1];
Float_t zcoor =-carpar[2] + 2.*bar[2] + tubepar[1];
- gMC->Gspos("FTUB", 1, "FCA1", 0., ycoor, zcoor, idrotm[0], "ONLY");
- gMC->Gspos("FTUB", 1, "FCA2", 0., ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FTUB", 1, "FCA1", 0., ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FTUB", 1, "FCA2", 0., ycoor, zcoor, idrotm[0], "ONLY");
gGeoManager->GetVolume("FTUB")->VisibleDaughters(kFALSE);
Float_t yFLTN = trapar[1] - (ytof*0.5 - fgkModuleCoverThickness)*0.5;
for (Int_t sg= -1; sg< 2; sg+= 2) {
// Positioning of transverse components for the SM cooling system
- gMC->Gspos("FTLN", 5+4*sg, "FAIA", 0., yFLTN, 369.9*sg, 0, "MANY");
- gMC->Gspos("FTLN", 5+3*sg, "FAIA", 0., yFLTN, 366.9*sg, 0, "MANY");
- gMC->Gspos("FTLN", 5+2*sg, "FAIA", 0., yFLTN, 198.8*sg, 0, "MANY");
- gMC->Gspos("FTLN", 5+sg, "FAIA", 0., yFLTN, 56.82*sg, 0, "MANY");
- gMC->Gspos("FTLN", 5+4*sg, "FAIC", 0., yFLTN, 369.9*sg, 0, "MANY");
- gMC->Gspos("FTLN", 5+3*sg, "FAIC", 0., yFLTN, 366.9*sg, 0, "MANY");
- gMC->Gspos("FTLN", 5+2*sg, "FAIC", 0., yFLTN, 198.8*sg, 0, "MANY");
- gMC->Gspos("FTLN", 5+sg, "FAIC", 0., yFLTN, 56.82*sg, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FTLN", 5+4*sg, "FAIA", 0., yFLTN, 369.9*sg, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FTLN", 5+3*sg, "FAIA", 0., yFLTN, 366.9*sg, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FTLN", 5+2*sg, "FAIA", 0., yFLTN, 198.8*sg, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FTLN", 5+sg, "FAIA", 0., yFLTN, 56.82*sg, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FTLN", 5+4*sg, "FAIC", 0., yFLTN, 369.9*sg, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FTLN", 5+3*sg, "FAIC", 0., yFLTN, 366.9*sg, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FTLN", 5+2*sg, "FAIC", 0., yFLTN, 198.8*sg, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FTLN", 5+sg, "FAIC", 0., yFLTN, 56.82*sg, 0, "MANY");
}
// definition of longitudinal components of SM cooling system
- Float_t lonpar1[3] = {2., 0.5, 56.82 - trapar[2]};
- Float_t lonpar2[3] = {lonpar1[0], lonpar1[1], (198.8 - 56.82)*0.5 - trapar[2]};
- Float_t lonpar3[3] = {lonpar1[0], lonpar1[1], (366.9 - 198.8)*0.5 - trapar[2]};
- gMC->Gsvolu("FLO1", "BOX ", idtmed[504], lonpar1, 3); // Al
- gMC->Gsvolu("FLO2", "BOX ", idtmed[504], lonpar2, 3); // Al
- gMC->Gsvolu("FLO3", "BOX ", idtmed[504], lonpar3, 3); // Al
+ Float_t lonpar1[3] = {2., 0.5, static_cast<Float_t>(56.82 - trapar[2])};
+ Float_t lonpar2[3] = {lonpar1[0], lonpar1[1], static_cast<Float_t>((198.8 - 56.82)*0.5 - trapar[2])};
+ Float_t lonpar3[3] = {lonpar1[0], lonpar1[1], static_cast<Float_t>((366.9 - 198.8)*0.5 - trapar[2])};
+ TVirtualMC::GetMC()->Gsvolu("FLO1", "BOX ", idtmed[504], lonpar1, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FLO2", "BOX ", idtmed[504], lonpar2, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FLO3", "BOX ", idtmed[504], lonpar3, 3); // Al
// Positioning of longitudinal components for the SM cooling system
ycoor = ytub + (tubepar[1] + 2.*bar2[1] + lonpar1[1]);
- gMC->Gspos("FLO1", 4, "FAIA",-24., ycoor, 0., 0, "MANY");
- gMC->Gspos("FLO1", 2, "FAIA", 24., ycoor, 0., 0, "MANY");
- gMC->Gspos("FLO1", 4, "FAIC",-24., ycoor, 0., 0, "MANY");
- gMC->Gspos("FLO1", 2, "FAIC", 24., ycoor, 0., 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO1", 4, "FAIA",-24., ycoor, 0., 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO1", 2, "FAIA", 24., ycoor, 0., 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO1", 4, "FAIC",-24., ycoor, 0., 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO1", 2, "FAIC", 24., ycoor, 0., 0, "MANY");
zcoor = (198.8 + 56.82)*0.5;
- gMC->Gspos("FLO2", 4, "FAIA",-24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 2, "FAIA", 24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 4, "FAIC",-24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 2, "FAIC", 24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 8, "FAIA",-24., ycoor, zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 6, "FAIA", 24., ycoor, zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 8, "FAIC",-24., ycoor, zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 6, "FAIC", 24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 4, "FAIA",-24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 2, "FAIA", 24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 4, "FAIC",-24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 2, "FAIC", 24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 8, "FAIA",-24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 6, "FAIA", 24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 8, "FAIC",-24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 6, "FAIC", 24., ycoor, zcoor, 0, "MANY");
zcoor = (366.9 + 198.8)*0.5;
- gMC->Gspos("FLO3", 4, "FAIA",-24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 2, "FAIA", 24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 4, "FAIC",-24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 2, "FAIC", 24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 8, "FAIA",-24., ycoor, zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 6, "FAIA", 24., ycoor, zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 8, "FAIC",-24., ycoor, zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 6, "FAIC", 24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 4, "FAIA",-24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 2, "FAIA", 24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 4, "FAIC",-24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 2, "FAIC", 24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 8, "FAIA",-24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 6, "FAIA", 24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 8, "FAIC",-24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 6, "FAIC", 24., ycoor, zcoor, 0, "MANY");
ycoor = ytub - (tubepar[1] + 2.*bar2[1] + lonpar1[1]);
- gMC->Gspos("FLO1", 3, "FAIA",-24., ycoor, 0., 0, "MANY");
- gMC->Gspos("FLO1", 1, "FAIA", 24., ycoor, 0., 0, "MANY");
- gMC->Gspos("FLO1", 3, "FAIC",-24., ycoor, 0., 0, "MANY");
- gMC->Gspos("FLO1", 1, "FAIC", 24., ycoor, 0., 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO1", 3, "FAIA",-24., ycoor, 0., 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO1", 1, "FAIA", 24., ycoor, 0., 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO1", 3, "FAIC",-24., ycoor, 0., 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO1", 1, "FAIC", 24., ycoor, 0., 0, "MANY");
zcoor = (198.8 + 56.82)*0.5;
- gMC->Gspos("FLO2", 3, "FAIA",-24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 1, "FAIA", 24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 3, "FAIC",-24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 1, "FAIC", 24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 7, "FAIA",-24., ycoor, zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 5, "FAIA", 24., ycoor, zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 7, "FAIC",-24., ycoor, zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 5, "FAIC", 24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 3, "FAIA",-24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 1, "FAIA", 24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 3, "FAIC",-24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 1, "FAIC", 24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 7, "FAIA",-24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 5, "FAIA", 24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 7, "FAIC",-24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 5, "FAIC", 24., ycoor, zcoor, 0, "MANY");
zcoor = (366.9 + 198.8)*0.5;
- gMC->Gspos("FLO3", 3, "FAIA",-24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 1, "FAIA", 24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 3, "FAIC",-24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 1, "FAIC", 24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 7, "FAIA",-24., ycoor, zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 5, "FAIA", 24., ycoor, zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 7, "FAIC",-24., ycoor, zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 5, "FAIC", 24., ycoor, zcoor, 0, "MANY");
-
-
- Float_t carpos[3] = {25. - xtof*0.5,
- (11.5 - (ytof*0.5 - fgkModuleCoverThickness))*0.5,
+ TVirtualMC::GetMC()->Gspos("FLO3", 3, "FAIA",-24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 1, "FAIA", 24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 3, "FAIC",-24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 1, "FAIC", 24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 7, "FAIA",-24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 5, "FAIA", 24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 7, "FAIC",-24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 5, "FAIC", 24., ycoor, zcoor, 0, "MANY");
+
+
+ Float_t carpos[3] = {static_cast<Float_t>(25. - xtof*0.5),
+ static_cast<Float_t>((11.5 - (ytof*0.5 - fgkModuleCoverThickness))*0.5),
0.};
if (fTOFHoles) {
for (Int_t sg= -1; sg< 2; sg+= 2) {
carpos[2] = sg*zlenA*0.5;
- gMC->Gspos("FTLN", 5+4*sg, "FAIB", 0., yFLTN, 369.9*sg, 0, "MANY");
- gMC->Gspos("FTLN", 5+3*sg, "FAIB", 0., yFLTN, 366.9*sg, 0, "MANY");
- gMC->Gspos("FTLN", 5+2*sg, "FAIB", 0., yFLTN, 198.8*sg, 0, "MANY");
- gMC->Gspos("FTLN", 5+sg, "FAIB", 0., yFLTN, 56.82*sg, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FTLN", 5+4*sg, "FAIB", 0., yFLTN, 369.9*sg, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FTLN", 5+3*sg, "FAIB", 0., yFLTN, 366.9*sg, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FTLN", 5+2*sg, "FAIB", 0., yFLTN, 198.8*sg, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FTLN", 5+sg, "FAIB", 0., yFLTN, 56.82*sg, 0, "MANY");
}
ycoor = ytub + (tubepar[1] + 2.*bar2[1] + lonpar1[1]);
zcoor = (198.8 + 56.82)*0.5;
- gMC->Gspos("FLO2", 2, "FAIB",-24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 1, "FAIB",-24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 2, "FAIB",-24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 1, "FAIB",-24., ycoor, zcoor, 0, "MANY");
zcoor = (366.9 + 198.8)*0.5;
- gMC->Gspos("FLO3", 2, "FAIB",-24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 1, "FAIB",-24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 2, "FAIB",-24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 1, "FAIB",-24., ycoor, zcoor, 0, "MANY");
ycoor = ytub - (tubepar[1] + 2.*bar2[1] + lonpar1[1]);
zcoor = (198.8 + 56.82)*0.5;
- gMC->Gspos("FLO2", 4, "FAIB", 24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO2", 3, "FAIB", 24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 4, "FAIB", 24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO2", 3, "FAIB", 24., ycoor, zcoor, 0, "MANY");
zcoor = (366.9 + 198.8)*0.5;
- gMC->Gspos("FLO3", 4, "FAIB", 24., ycoor,-zcoor, 0, "MANY");
- gMC->Gspos("FLO3", 3, "FAIB", 24., ycoor, zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 4, "FAIB", 24., ycoor,-zcoor, 0, "MANY");
+ TVirtualMC::GetMC()->Gspos("FLO3", 3, "FAIB", 24., ycoor, zcoor, 0, "MANY");
}
Float_t barS[3] = {fgkBarS[0], fgkBarS[1], fgkBarS[2]};
- gMC->Gsvolu("FBAS", "BOX ", idtmed[504], barS, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FBAS", "BOX ", idtmed[504], barS, 3); // Al
Float_t barS1[3] = {fgkBarS1[0], fgkBarS1[1], fgkBarS1[2]};
- gMC->Gsvolu("FBS1", "BOX ", idtmed[504], barS1, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FBS1", "BOX ", idtmed[504], barS1, 3); // Al
Float_t barS2[3] = {fgkBarS2[0], fgkBarS2[1], fgkBarS2[2]};
- gMC->Gsvolu("FBS2", "BOX ", idtmed[504], barS2, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FBS2", "BOX ", idtmed[504], barS2, 3); // Al
Float_t ytubBis = carpar[1] - 2.*fgkRoof2parameters[1]*0.5 - 2.*feaRoof1[1] - 2.*barS2[1] - tubepar[1];
ycoor = ytubBis;
zcoor =-carpar[2] + barS[2];
- gMC->Gspos("FBAS", 1, "FCA1",-24., ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBAS", 2, "FCA1", 24., ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBAS", 1, "FCA2",-24., ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBAS", 2, "FCA2", 24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBAS", 1, "FCA1",-24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBAS", 2, "FCA1", 24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBAS", 1, "FCA2",-24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBAS", 2, "FCA2", 24., ycoor, zcoor, 0, "ONLY");
zcoor =-carpar[2] + 2.*barS[2] + 2.*tubepar[1] + barS1[2];
- gMC->Gspos("FBS1", 1, "FCA1",-24., ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBS1", 2, "FCA1", 24., ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBS1", 1, "FCA2",-24., ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBS1", 2, "FCA2", 24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBS1", 1, "FCA1",-24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBS1", 2, "FCA1", 24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBS1", 1, "FCA2",-24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBS1", 2, "FCA2", 24., ycoor, zcoor, 0, "ONLY");
ycoor = ytubBis + (tubepar[1] + barS2[1]);
zcoor =-carpar[2] + 2.*barS[2] + barS2[2];
- gMC->Gspos("FBS2", 1, "FCA1",-24., ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBS2", 2, "FCA1", 24., ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBS2", 1, "FCA2",-24., ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBS2", 2, "FCA2", 24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBS2", 1, "FCA1",-24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBS2", 2, "FCA1", 24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBS2", 1, "FCA2",-24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBS2", 2, "FCA2", 24., ycoor, zcoor, 0, "ONLY");
ycoor = ytubBis - (tubepar[1] + barS2[1]);
//zcoor =-carpar[2] + 2.*barS[2] + barS2[2];
- gMC->Gspos("FBS2", 3, "FCA1",-24., ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBS2", 4, "FCA1", 24., ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBS2", 3, "FCA2",-24., ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FBS2", 4, "FCA2", 24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBS2", 3, "FCA1",-24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBS2", 4, "FCA1", 24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBS2", 3, "FCA2",-24., ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FBS2", 4, "FCA2", 24., ycoor, zcoor, 0, "ONLY");
}
Int_t idrotm[3]={0,0,0};
- Float_t tubepar[3] = {0., 0.4, xtof*0.5 - fgkCBLw - fgkSawThickness};
+ Float_t tubepar[3] = {0., 0.4, static_cast<Float_t>(xtof*0.5 - fgkCBLw - fgkSawThickness)};
Float_t al1[3] = {fgkAl1parameters[0], fgkAl1parameters[1], fgkAl1parameters[2]};
Float_t al3[3] = {fgkAl3parameters[0], fgkAl3parameters[1], fgkAl3parameters[2]};
Float_t feaRoof1[3] = {fgkRoof1parameters[0], fgkRoof1parameters[1], fgkRoof1parameters[2]};
Float_t feaParam[3] = {fgkFEAparameters[0], fgkFEAparameters[1], fgkFEAparameters[2]};
// FEA cables definition
- Float_t cbpar[3] = {0., 0.5, (tubepar[2] - (fgkFEAwidth2 - fgkFEAwidth1/6.)*0.5)*0.5};
- gMC->Gsvolu("FCAB", "TUBE", idtmed[510], cbpar, 3); // copper+alu
+ Float_t cbpar[3] = {0., 0.5, static_cast<Float_t>((tubepar[2] - (fgkFEAwidth2 - fgkFEAwidth1/6.)*0.5)*0.5)};
+ TVirtualMC::GetMC()->Gsvolu("FCAB", "TUBE", idtmed[510], cbpar, 3); // copper+alu
- Float_t cbparS[3] = {cbpar[0], cbpar[1], (tubepar[2] - (xtof*0.5 - 25. + (fgkFEAwidth1 - fgkFEAwidth1/6.)*0.5))*0.5};
- gMC->Gsvolu("FCAL", "TUBE", idtmed[510], cbparS, 3); // copper+alu
+ Float_t cbparS[3] = {cbpar[0], cbpar[1], static_cast<Float_t>((tubepar[2] - (xtof*0.5 - 25. + (fgkFEAwidth1 - fgkFEAwidth1/6.)*0.5))*0.5)};
+ TVirtualMC::GetMC()->Gsvolu("FCAL", "TUBE", idtmed[510], cbparS, 3); // copper+alu
// rotation matrix
AliMatrix(idrotm[0], 180., 90., 90., 90., 90., 0.);
- Float_t carpar[3] = {xtof*0.5 - fgkCBLw - fgkSawThickness,
- feaParam[1] + feaRoof1[1] + fgkRoof2parameters[1]*0.5,
- feaRoof1[2] + fgkBetweenLandMask*0.5 + al3[2]};
+ Float_t carpar[3] = {static_cast<Float_t>(xtof*0.5 - fgkCBLw - fgkSawThickness),
+ static_cast<Float_t>(feaParam[1] + feaRoof1[1] + fgkRoof2parameters[1]*0.5),
+ static_cast<Float_t>(feaRoof1[2] + fgkBetweenLandMask*0.5 + al3[2])};
Float_t bar2[3] = {fgkBar2[0], fgkBar2[1], fgkBar2[2]};
Float_t ytub =-(ytof*0.5 - fgkModuleCoverThickness)*0.5 + carpar[1] +
Float_t xcoor = (tubepar[2] + (fgkFEAwidth2 - fgkFEAwidth1/6.)*0.5)*0.5;
Float_t ycoor = ytub - 3.;
Float_t zcoor =-carpar[2] + (2.*feaRoof1[2] - 2.*al1[2] - 2.*feaParam[2] - cbpar[1]);
- gMC->Gspos("FCAB", 1, "FCA1",-xcoor, ycoor, zcoor, idrotm[0], "ONLY");
- gMC->Gspos("FCAB", 2, "FCA1", xcoor, ycoor, zcoor, idrotm[0], "ONLY");
- gMC->Gspos("FCAB", 1, "FCA2",-xcoor, ycoor, zcoor, idrotm[0], "ONLY");
- gMC->Gspos("FCAB", 2, "FCA2", xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCAB", 1, "FCA1",-xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCAB", 2, "FCA1", xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCAB", 1, "FCA2",-xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCAB", 2, "FCA2", xcoor, ycoor, zcoor, idrotm[0], "ONLY");
xcoor = (tubepar[2] + (xtof*0.5 - 25. + (fgkFEAwidth1 - fgkFEAwidth1/6.)*0.5))*0.5;
ycoor -= 2.*cbpar[1];
- gMC->Gspos("FCAL", 1, "FCA1",-xcoor, ycoor, zcoor, idrotm[0], "ONLY");
- gMC->Gspos("FCAL", 2, "FCA1", xcoor, ycoor, zcoor, idrotm[0], "ONLY");
- gMC->Gspos("FCAL", 1, "FCA2",-xcoor, ycoor, zcoor, idrotm[0], "ONLY");
- gMC->Gspos("FCAL", 2, "FCA2", xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCAL", 1, "FCA1",-xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCAL", 2, "FCA1", xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCAL", 1, "FCA2",-xcoor, ycoor, zcoor, idrotm[0], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCAL", 2, "FCA2", xcoor, ycoor, zcoor, idrotm[0], "ONLY");
// Cables and tubes on the side blocks
cblpar[8] = fgkCBLh1 *0.5;
cblpar[9] = fgkCBLh2 *0.5;
cblpar[10]= cblpar[6];
- gMC->Gsvolu("FCBL", "TRAP", idtmed[511], cblpar, 11); // cables and tubes mix
+ TVirtualMC::GetMC()->Gsvolu("FCBL", "TRAP", idtmed[511], cblpar, 11); // cables and tubes mix
// Side Al Walls definition
- Float_t sawpar[3] = {fgkSawThickness*0.5, fgkCBLh2*0.5, kCBLl};
- gMC->Gsvolu("FSAW", "BOX ", idtmed[504], sawpar, 3); // Al
+ Float_t sawpar[3] = {static_cast<Float_t>(fgkSawThickness*0.5), static_cast<Float_t>(fgkCBLh2*0.5), kCBLl};
+ TVirtualMC::GetMC()->Gsvolu("FSAW", "BOX ", idtmed[504], sawpar, 3); // Al
AliMatrix(idrotm[1], 90., 90., 180., 0., 90., 180.);
AliMatrix(idrotm[2], 90., 90., 0., 0., 90., 0.);
xcoor = (xtof - fgkCBLw)*0.5 - 2.*sawpar[0];
ycoor = (fgkCBLh1 + fgkCBLh2)*0.25 - (ytof*0.5 - fgkModuleCoverThickness)*0.5;
zcoor = kCBLl*0.5;
- gMC->Gspos("FCBL", 1, "FAIA", -xcoor, ycoor, -zcoor, idrotm[1], "ONLY");
- gMC->Gspos("FCBL", 2, "FAIA", xcoor, ycoor, -zcoor, idrotm[1], "ONLY");
- gMC->Gspos("FCBL", 3, "FAIA", -xcoor, ycoor, zcoor, idrotm[2], "ONLY");
- gMC->Gspos("FCBL", 4, "FAIA", xcoor, ycoor, zcoor, idrotm[2], "ONLY");
- gMC->Gspos("FCBL", 1, "FAIC", -xcoor, ycoor, -zcoor, idrotm[1], "ONLY");
- gMC->Gspos("FCBL", 2, "FAIC", xcoor, ycoor, -zcoor, idrotm[1], "ONLY");
- gMC->Gspos("FCBL", 3, "FAIC", -xcoor, ycoor, zcoor, idrotm[2], "ONLY");
- gMC->Gspos("FCBL", 4, "FAIC", xcoor, ycoor, zcoor, idrotm[2], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCBL", 1, "FAIA", -xcoor, ycoor, -zcoor, idrotm[1], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCBL", 2, "FAIA", xcoor, ycoor, -zcoor, idrotm[1], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCBL", 3, "FAIA", -xcoor, ycoor, zcoor, idrotm[2], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCBL", 4, "FAIA", xcoor, ycoor, zcoor, idrotm[2], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCBL", 1, "FAIC", -xcoor, ycoor, -zcoor, idrotm[1], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCBL", 2, "FAIC", xcoor, ycoor, -zcoor, idrotm[1], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCBL", 3, "FAIC", -xcoor, ycoor, zcoor, idrotm[2], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCBL", 4, "FAIC", xcoor, ycoor, zcoor, idrotm[2], "ONLY");
if (fTOFHoles) {
cblpar[3] = kCBLlh *0.5;
cblpar[5] = fgkCBLh1*0.5 + kCBLlh*tgal;
cblpar[7] = kCBLlh *0.5;
cblpar[9] = cblpar[5];
- gMC->Gsvolu("FCBB", "TRAP", idtmed[511], cblpar, 11); // cables and tubes mix
+ TVirtualMC::GetMC()->Gsvolu("FCBB", "TRAP", idtmed[511], cblpar, 11); // cables and tubes mix
xcoor = (xtof - fgkCBLw)*0.5 - 2.*sawpar[0];
ycoor = (fgkCBLh1 + 2.*cblpar[5])*0.25 - (ytof*0.5 - fgkModuleCoverThickness)*0.5;
zcoor = kCBLl-kCBLlh*0.5;
- gMC->Gspos("FCBB", 1, "FAIB", -xcoor, ycoor, -zcoor, idrotm[1], "ONLY");
- gMC->Gspos("FCBB", 2, "FAIB", xcoor, ycoor, -zcoor, idrotm[1], "ONLY");
- gMC->Gspos("FCBB", 3, "FAIB", -xcoor, ycoor, zcoor, idrotm[2], "ONLY");
- gMC->Gspos("FCBB", 4, "FAIB", xcoor, ycoor, zcoor, idrotm[2], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCBB", 1, "FAIB", -xcoor, ycoor, -zcoor, idrotm[1], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCBB", 2, "FAIB", xcoor, ycoor, -zcoor, idrotm[1], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCBB", 3, "FAIB", -xcoor, ycoor, zcoor, idrotm[2], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCBB", 4, "FAIB", xcoor, ycoor, zcoor, idrotm[2], "ONLY");
}
// lateral cable and tube volume positioning
xcoor = xtof*0.5 - sawpar[0];
ycoor = (fgkCBLh2 - ytof*0.5 + fgkModuleCoverThickness)*0.5;
zcoor = 0.;
- gMC->Gspos("FSAW", 1, "FAIA", -xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FSAW", 2, "FAIA", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FSAW", 1, "FAIC", -xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FSAW", 2, "FAIC", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FSAW", 1, "FAIA", -xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FSAW", 2, "FAIA", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FSAW", 1, "FAIC", -xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FSAW", 2, "FAIC", xcoor, ycoor, zcoor, 0, "ONLY");
if (fTOFHoles) {
xcoor = xtof*0.5 - sawpar[0];
ycoor = (fgkCBLh2 - ytof*0.5 + fgkModuleCoverThickness)*0.5;
- gMC->Gspos("FSAW", 1, "FAIB", -xcoor, ycoor, 0., 0, "ONLY");
- gMC->Gspos("FSAW", 2, "FAIB", xcoor, ycoor, 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FSAW", 1, "FAIB", -xcoor, ycoor, 0., 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FSAW", 2, "FAIB", xcoor, ycoor, 0., 0, "ONLY");
}
// TOF Supermodule cover definition and positioning
- Float_t covpar[3] = {xtof*0.5, 0.075, zlenA*0.5};
- gMC->Gsvolu("FCOV", "BOX ", idtmed[504], covpar, 3); // Al
+ Float_t covpar[3] = {static_cast<Float_t>(xtof*0.5), 0.075, static_cast<Float_t>(zlenA*0.5)};
+ TVirtualMC::GetMC()->Gsvolu("FCOV", "BOX ", idtmed[504], covpar, 3); // Al
if (fTOFHoles) {
covpar[2] = (zlenA*0.5 - fgkInterCentrModBorder2)*0.5;
- gMC->Gsvolu("FCOB", "BOX ", idtmed[504], covpar, 3); // Al
+ TVirtualMC::GetMC()->Gsvolu("FCOB", "BOX ", idtmed[504], covpar, 3); // Al
covpar[2] = fgkInterCentrModBorder2;
- gMC->Gsvolu("FCOP", "BOX ", idtmed[513], covpar, 3); // Plastic (CH2)
+ TVirtualMC::GetMC()->Gsvolu("FCOP", "BOX ", idtmed[513], covpar, 3); // Plastic (CH2)
}
xcoor = 0.;
ycoor = (ytof*0.5 - fgkModuleCoverThickness)*0.5 - covpar[1];
zcoor = 0.;
- gMC->Gspos("FCOV", 0, "FAIA", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FCOV", 0, "FAIC", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCOV", 0, "FAIA", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCOV", 0, "FAIC", xcoor, ycoor, zcoor, 0, "ONLY");
if (fTOFHoles) {
zcoor = (zlenA*0.5 + fgkInterCentrModBorder2)*0.5;
- gMC->Gspos("FCOB", 1, "FAIB", xcoor, ycoor, zcoor, 0, "ONLY");
- gMC->Gspos("FCOB", 2, "FAIB", xcoor, ycoor, -zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCOB", 1, "FAIB", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCOB", 2, "FAIB", xcoor, ycoor, -zcoor, 0, "ONLY");
zcoor = 0.;
- gMC->Gspos("FCOP", 0, "FAIB", xcoor, ycoor, zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FCOP", 0, "FAIB", xcoor, ycoor, zcoor, 0, "ONLY");
}
}
// volume definition
Float_t serpar[3] = {29.*0.5, 121.*0.5, 90.*0.5};
- gMC->Gsvolu("FTOS", "BOX ", idtmed[514], serpar, 3); // Al + Cu + steel
+ TVirtualMC::GetMC()->Gsvolu("FTOS", "BOX ", idtmed[514], serpar, 3); // Al + Cu + steel
Float_t xcoor, ycoor, zcoor;
zcoor = (118.-90.)*0.5;
xcoor = ra * TMath::Cos(phi * kDegrad);
ycoor = ra * TMath::Sin(phi * kDegrad);
AliMatrix(idrotm[i], 90., phi, 90., phi + 270., 0., 0.);
- gMC->Gspos("FTOS", i, "BFMO", xcoor, ycoor, zcoor, idrotm[i], "ONLY");
+ TVirtualMC::GetMC()->Gspos("FTOS", i, "BFMO", xcoor, ycoor, zcoor, idrotm[i], "ONLY");
}
zcoor = (90. - 223.)*0.5;
- gMC->Gspos("FTOS", 1, "BBCE", ra, -3., zcoor, 0, "ONLY");
+ TVirtualMC::GetMC()->Gspos("FTOS", 1, "BBCE", ra, -3., zcoor, 0, "ONLY");
}
AliTOF::Init();
- fIdFTOA = gMC->VolId("FTOA");
+ fIdFTOA = TVirtualMC::GetMC()->VolId("FTOA");
if (fTOFHoles) {
- fIdFTOB = gMC->VolId("FTOB");
- fIdFTOC = gMC->VolId("FTOC");
+ fIdFTOB = TVirtualMC::GetMC()->VolId("FTOB");
+ fIdFTOC = TVirtualMC::GetMC()->VolId("FTOC");
}
- fIdFLTA = gMC->VolId("FLTA");
+ fIdFLTA = TVirtualMC::GetMC()->VolId("FLTA");
if (fTOFHoles) {
- fIdFLTB = gMC->VolId("FLTB");
- fIdFLTC = gMC->VolId("FLTC");
+ fIdFLTB = TVirtualMC::GetMC()->VolId("FLTB");
+ fIdFLTC = TVirtualMC::GetMC()->VolId("FLTC");
}
AliDebug(1, "**************************************"
Int_t index = 0;
if(
- gMC->IsTrackEntering()
- && gMC->TrackCharge()
- //&& gMC->GetMedium()==idtmed[507]
- && gMC->CurrentMedium()==idtmed[507]
- && gMC->CurrentVolID(copy)==fIdSens
+ TVirtualMC::GetMC()->IsTrackEntering()
+ && TVirtualMC::GetMC()->TrackCharge()
+ //&& TVirtualMC::GetMC()->GetMedium()==idtmed[507]
+ && TVirtualMC::GetMC()->CurrentMedium()==idtmed[507]
+ && TVirtualMC::GetMC()->CurrentVolID(copy)==fIdSens
)
{
// getting information about hit volumes
- padzid=gMC->CurrentVolOffID(1,copy);
+ padzid=TVirtualMC::GetMC()->CurrentVolOffID(1,copy);
padz=copy;
padz--;
- padxid=gMC->CurrentVolOffID(0,copy);
+ padxid=TVirtualMC::GetMC()->CurrentVolOffID(0,copy);
padx=copy;
padx--;
- stripid=gMC->CurrentVolOffID(4,copy);
+ stripid=TVirtualMC::GetMC()->CurrentVolOffID(4,copy);
strip=copy;
strip--;
- gMC->TrackPosition(pos);
- gMC->TrackMomentum(mom);
+ TVirtualMC::GetMC()->TrackPosition(pos);
+ TVirtualMC::GetMC()->TrackMomentum(mom);
Double_t normMom=1./mom.Rho();
pm[1] = (Float_t)mom.Y()*normMom;
pm[2] = (Float_t)mom.Z()*normMom;
- gMC->Gmtod(xm,xpad,1); // from MRS to DRS: coordinates convertion
- gMC->Gmtod(pm,ppad,2); // from MRS to DRS: direction cosinus convertion
+ TVirtualMC::GetMC()->Gmtod(xm,xpad,1); // from MRS to DRS: coordinates convertion
+ TVirtualMC::GetMC()->Gmtod(pm,ppad,2); // from MRS to DRS: direction cosinus convertion
if (TMath::Abs(ppad[1])>1) {
strip = strip - fTOFGeometry->NStripC() - fTOFGeometry->NStripB() - fTOFGeometry->NStripA() - fTOFGeometry->NStripB();
}
- volpath=gMC->CurrentVolOffName(7);
+ volpath=TVirtualMC::GetMC()->CurrentVolOffName(7);
index=atoi(&volpath[4]);
sector=-1;
sector=index;
hits[9] = xpad[1];
hits[10]= xpad[2];
hits[11]= incidenceAngle;
- hits[12]= gMC->Edep();
- hits[13]= gMC->TrackLength();
+ hits[12]= TVirtualMC::GetMC()->Edep();
+ hits[13]= TVirtualMC::GetMC()->TrackLength();
vol[0]= sector;
vol[1]= plate;