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1 | #ifndef THBTPROCESSOR_H |
2 | #define THBTPROCESSOR_H |
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3 | /*******************************************************/ |
4 | //Author Piotr Krzysztof Skowronski e-mial: Piotr.Skowronski@cern.ch |
5 | // C++ Wrapper Class for fortran made HBT Processor written by Lanny Ray |
6 | // |
7 | // Comunication is done via COMMON BLOCKS declared in HBTprocCOMMON.h |
8 | // using cfortran.h routines |
9 | // User should use class AliGenHBTprocessor and all their interface |
10 | // see there for more description |
11 | // |
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12 | |
13 | #include <TGenerator.h> |
14 | #include "HBTprocCOMMON.h" |
15 | |
16 | |
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17 | class THBTprocessor: public TGenerator |
18 | { |
19 | public: |
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20 | THBTprocessor(); |
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21 | virtual ~THBTprocessor() {}; |
22 | |
23 | virtual void Initialize(); |
24 | virtual void GenerateEvent(); |
25 | virtual void PrintEvent(); |
26 | virtual Int_t ImportParticles(TClonesArray *particles, Option_t *option=""); |
27 | |
28 | //Set/Gets |
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29 | //comprehensive description off all these methods |
30 | //can be found in proper methods of AliGenHBTprocessor |
31 | |
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32 | virtual void SetTrackRejectionFactor(Float_t trf = 1.0) {PARAMETERS.trk_accep = trf;} |
33 | virtual void SetRefControl(Int_t rc =2) {PARAMETERS.ref_control = rc;} |
34 | virtual void SetPIDs(Int_t pid1 = 8,Int_t pid2 = 9) {PARAMETERS.pid[0]=pid1; PARAMETERS.pid[1]=pid2;} |
35 | virtual void SetNPIDtypes(Int_t npidt = 2){PARAMETERS.n_pid_types = npidt;} |
36 | virtual void SetDeltap(Float_t deltp = 0.1) {PARAMETERS.deltap=deltp; } |
37 | virtual void SetMaxIterations(Int_t maxiter = 50) {PARAMETERS.maxit = maxiter;} |
38 | virtual void SetDelChi(Float_t dc = 0.1){PARAMETERS.delchi = dc;} |
39 | virtual void SetIRand(Int_t irnd = 76564) {PARAMETERS.irand = irnd;} |
40 | virtual void SetLambda(Float_t lam = 0.6) { PARAMETERS.lambda = lam;} |
41 | virtual void SetR1d(Float_t r = 7.0) {PARAMETERS.R_1d=r;} |
42 | virtual void SetRSide(Float_t rs = 6.0) {PARAMETERS.Rside=rs;} |
43 | virtual void SetROut(Float_t ro = 7.0) {PARAMETERS.Rout=ro;} |
44 | virtual void SetRLong(Float_t rl = 4.0) {PARAMETERS.Rlong=rl;} |
45 | virtual void SetRPerp(Float_t rp = 6.0) {PARAMETERS.Rperp=rp;} |
46 | virtual void SetRParallel(Float_t rprl = 4.0) {PARAMETERS.Rparallel=rprl;} |
47 | virtual void SetR0(Float_t r0 = 4.0) {PARAMETERS.R0=r0;} |
48 | virtual void SetQ0(Float_t q0 = 9.0) {PARAMETERS.Q0=q0;} |
49 | virtual void SetSwitch1D(Int_t s1d = 3) {PARAMETERS.switch_1d = s1d;} |
50 | virtual void SetSwitch3D(Int_t s3d = 0) {PARAMETERS.switch_3d = s3d;} |
51 | virtual void SetSwitchType(Int_t st = 3) {PARAMETERS.switch_type = st;} |
52 | virtual void SetSwitchCoherence(Int_t sc = 0) {PARAMETERS.switch_coherence = sc;} |
53 | virtual void SetSwitchCoulomb(Int_t scol = 2) {PARAMETERS.switch_coulomb = scol;} |
54 | virtual void SetSwitchFermiBose(Int_t sfb = 1) {PARAMETERS.switch_fermi_bose = sfb;} |
55 | |
56 | |
57 | virtual void SetPtRange(Float_t ptmin = 0.1, Float_t ptmax = 0.98) //Pt in GeV/c |
58 | { MESH.pt_min=ptmin;MESH.pt_max=ptmax;} |
59 | |
60 | virtual void SetPxRange(Float_t pxmin = -1.0, Float_t pxmax = 1.0) |
61 | { MESH.px_min=pxmin;MESH.px_max=pxmax;} |
62 | |
63 | virtual void SetPyRange(Float_t pymin = -1.0, Float_t pymax = 1.0) |
64 | { MESH.py_min=pymin;MESH.py_max=pymax;} |
65 | |
66 | virtual void SetPzRange(Float_t pzmin = -3.6, Float_t pzmax = 3.6) |
67 | { MESH.pz_min=pzmin;MESH.pz_max=pzmax;} |
68 | |
69 | |
70 | virtual void SetPhiRange(Float_t phimin = 0.0, Float_t phimax = 360.0) //Angle in degrees |
71 | { MESH.phi_min=phimin;MESH.phi_max=phimax;} |
72 | |
73 | virtual void SetEtaRange(Float_t etamin = -1.5, Float_t etamax = 1.5) //Pseudorapidity !!!!!!!!! |
74 | { MESH.eta_min=etamin;MESH.eta_max=etamax;} |
75 | |
76 | virtual void SetNPtBins(Int_t nptbin = 50){MESH.n_pt_bins=nptbin;} |
77 | virtual void SetNPhiBins(Int_t nphibin = 50){MESH.n_phi_bins=nphibin;} |
78 | virtual void SetNEtaBins(Int_t netabin = 50){MESH.n_eta_bins=netabin;} |
79 | |
80 | virtual void SetNPxBins(Int_t npxbin = 20){MESH.n_px_bins=npxbin;} |
81 | virtual void SetNPyBins(Int_t npybin = 20){MESH.n_py_bins=npybin;} |
82 | virtual void SetNPzBins(Int_t npzbin = 70){MESH.n_pz_bins=npzbin;} |
83 | |
84 | virtual void SetNBins1DFineMesh(Int_t n = 10){ MESH.n_1d_fine=n;} |
85 | virtual void SetBinSize1DFineMesh(Float_t x=0.01){MESH.binsize_1d_fine=x;} |
86 | |
87 | virtual void SetNBins1DCoarseMesh(Int_t n =2 ){MESH.n_1d_coarse =n;} |
88 | virtual void SetBinSize1DCoarseMesh(Float_t x=0.05){MESH.binsize_1d_coarse=x;} |
89 | |
90 | virtual void SetNBins3DFineMesh(Int_t n = 8){MESH.n_3d_fine =n;} |
91 | virtual void SetBinSize3DFineMesh(Float_t x=0.01){MESH.binsize_3d_fine=x;} |
92 | |
93 | virtual void SetNBins3DCoarseMesh(Int_t n = 2){ MESH.n_3d_coarse=n;} |
94 | virtual void SetBinSize3DCoarseMesh(Float_t x=0.08){MESH.binsize_3d_coarse=x;} |
95 | |
96 | virtual void SetNBins3DFineProjectMesh(Int_t n =3 ){ MESH.n_3d_fine_project=n;} |
97 | |
98 | |
99 | protected: |
100 | |
101 | private: |
102 | ClassDef(THBTprocessor,0) |
103 | }; |
104 | |
105 | #endif |
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106 | |
107 | /************************************************************** |
108 | COMMENTS APROPOS HBTPROCESSOR FORTRAN CODE: |
109 | |
110 | SUBROUTINE INITIALIZE HAS TO BE OMITTED, IT RESETS (ZEROES) COMMON BLOCKS |
111 | |
112 | SUBROUTINE KINEMATICS HAS TO BE RENAMED EITHER IN MEVSIM OR IN PROCESSOR |
113 | AS THEY HAVE IDENTICAL DECLARATIONS AND SOMTIMES IS USED THE BAD ONE IN CASE BOTH LIBRARIES ARE LOADED |
114 | |
115 | ****************************************************************/ |