5 # define stuprf stuprf_
11 #include "Fdimpar.h" //(DIMPAR) fluka include
13 #include "Fdblprc.h" //(DBLPRC) fluka common
14 #include "Fevtflg.h" //(EVTFLG) fluka common
15 #include "Fpaprop.h" //(PAPROP) fluka common
16 #include "Fstack.h" //(STACK) fluka common
17 #include "Ftrackr.h" //(TRACKR) fluka common
18 #include "Ffinuc.h" //(FINUC) fluka common
23 #include "TVirtualMCStack.h"
24 #include "TVirtualMCApplication.h"
25 #include "TParticle.h"
29 void stuprf(Int_t& /*ij*/, Int_t& /*mreg*/,
30 Double_t& xx, Double_t& yy, Double_t& zz,
31 Int_t& numsec, Int_t& npprmr)
33 //*----------------------------------------------------------------------*
35 //* SeT User PRoperties for Fluka particles *
37 //*----------------------------------------------------------------------*
39 // STACK.lstack = stack pointer
40 // STACK.louse = user flag
41 // TRACKR.llouse = user defined flag for the current particle
42 STACK.louse[STACK.lstack] = TRACKR.llouse;
44 // mkbmx1 = dimension for kwb real spare array in fluka stack in DIMPAR
45 // mkbmx2 = dimension for kwb int. spare array in fluka stack in DIMPAR
46 // STACK.sparek = spare real variables available for k.w.burn
47 // STACK.ispark = spare integer variables available for k.w.burn
48 // TRACKR.spausr = user defined spare variables for the current particle
49 // TRACKR.ispusr = user defined spare flags for the current particle
51 for (ispr = 0; ispr <= mkbmx1 - 1; ispr++) {
52 STACK.sparek[STACK.lstack][ispr] = TRACKR.spausr[ispr];
54 for (ispr = 0; ispr <= mkbmx2 - 1; ispr++) {
55 STACK.ispark[STACK.lstack][ispr] = TRACKR.ispusr[ispr];
58 // Get the pointer to the VMC
59 TFluka* fluka = (TFluka*) gMC;
60 Int_t verbosityLevel = fluka->GetVerbosityLevel();
61 Bool_t debug = (verbosityLevel>=3)?kTRUE:kFALSE;
62 fluka->SetTrackIsNew(kTRUE);
63 // TVirtualMC* fluka = TFluka::GetMC();
64 // Get the stack produced from the generator
65 TVirtualMCStack* cppstack = fluka->GetStack();
67 // EVTFLG.ntrcks = track number
68 // Increment the track number and put it into the last flag
70 // clarify with Alberto
71 if (numsec > npprmr) {
72 // Now call the PushTrack(...)
75 Int_t parent = TRACKR.ispusr[mkbmx2-1];
77 Int_t pdg = fluka->PDGFromId(FINUC.kpart[numsec-1]);
78 Double_t px = FINUC.plr[numsec-1] * FINUC.cxr[numsec-1];
79 Double_t pz = FINUC.plr[numsec-1] * FINUC.cyr[numsec-1];
80 Double_t py = FINUC.plr[numsec-1] * FINUC.czr[numsec-1];
81 Double_t e = FINUC.tki[numsec-1] + PAPROP.am[FINUC.kpart[numsec-1]+6];
86 Double_t tof = TRACKR.atrack;
87 Double_t polx = FINUC.cxrpol[numsec-1];
88 Double_t poly = FINUC.cyrpol[numsec-1];
89 Double_t polz = FINUC.czrpol[numsec-1];
92 TMCProcess mech = kPHadronic;
94 if (EVTFLG.ldecay == 1) {
96 if (debug) cout << endl << "Decay" << endl;
98 } else if (EVTFLG.ldltry == 1) {
100 if (debug) cout << endl << "Delta Ray" << endl;
102 } else if (EVTFLG.lpairp == 1) {
104 if (debug) cout << endl << "Pair Production" << endl;
106 } else if (EVTFLG.lbrmsp == 1) {
108 if (debug) cout << endl << "Bremsstrahlung" << endl;
113 Double_t weight = FINUC.wei[numsec-1];
117 // Save particle in VMC stack
118 cppstack->PushTrack(done, parent, pdg,
122 mech, ntr, weight, is);
123 if (debug) cout << endl << " !!! stuprf: ntr=" << ntr << "pdg " << pdg << " parent=" << parent << "numsec "
124 << numsec << "npprmr " << npprmr << endl;
126 // Save current track number
127 STACK.ispark[STACK.lstack][mkbmx2-1] = ntr;
128 } // end of if (numsec-1 > npprmr)
130 } // end of extern "C"