12 //*=== emfstk ===========================================================*
14 //*----------------------------------------------------------------------*
16 //* common emfstk (emf stack) for emf *
18 //* last change on 08-oct-97 by alfredo ferrari *
20 //*----------------------------------------------------------------------*
24 Double_t etemf[mestck]; // total energy in MeV
25 Double_t pmemf[mestck];
26 Double_t xemf[mestck]; // particle x-coordinate
27 Double_t yemf[mestck]; // particle y-coordinate
28 Double_t zemf[mestck]; // particle z-coordinate
29 Double_t uemf[mestck]; // x direction cosine
30 Double_t vemf[mestck]; // y direction cosine
31 Double_t wemf[mestck]; // z direction cosine
32 Double_t dnear[mestck]; // equivalent to GEANT "safety"
33 Double_t upol[mestck]; // polarisation in x direction
34 Double_t vpol[mestck]; // polarisation in y direction
35 Double_t wpol[mestck]; // polarisation in z direction
36 Double_t usnrml[mestck];
37 Double_t vsnrml[mestck];
38 Double_t wsnrml[mestck];
39 Double_t wtemf[mestck]; // weight
40 Double_t agemf[mestck]; // age
41 Double_t cmpemf[mestck];
42 Double_t espark[mestck][mkbmx1];
43 Double_t rdlyem[mestck];
44 Int_t iespak[mestck][mkbmx2];
45 Int_t ichemf[mestck]; // charge
46 Int_t iremf[mestck]; // region
47 Int_t irlatt[mestck]; // lattice cell
49 Int_t lloemf[mestck]; // generation number
52 Int_t npemf; // number of particles in stack
53 Int_t npstrt; // EMF stack index before the interaction (since
54 // the projectile disappears it is also the starting
55 // index of secondaries)
56 //*d === obsolete variable names === *
57 //*d parameter ( idmemf = mestck )
58 //*d dimension e (idmemf), wt (idmemf), iq (idmemf), ir (idmemf)
59 //*d equivalence ( e (1), etemf (1) )
60 //*d equivalence ( wt (1), wtemf (1) )
61 //*d equivalence ( ir (1), iremf (1) )
62 //*d equivalence ( iq (1), ichemf (1) )
63 //*d equivalence ( np, npemf )
65 #define EMFSTK COMMON_BLOCK(EMFSTK,emfstk)
66 COMMON_BLOCK_DEF(emfstkCommon,EMFSTK);