[u/mrichter/AliRoot.git] / TFluka / stuprf.cxx

#include <Riostream.h>
#ifndef WIN32
# define stuprf stuprf_
#else
# define stuprf STUPRF
#endif
//
// Fluka include
#include "Fdimpar.h"  //(DIMPAR) fluka include
// Fluka commons
#include "Fdblprc.h"  //(DBLPRC) fluka common
#include "Fevtflg.h"  //(EVTFLG) fluka common
#include "Fpaprop.h"  //(PAPROP) fluka common
#include "Fflkstk.h"  //(FLKSTK)  fluka common
#include "Ftrackr.h"  //(TRACKR) fluka common
#include "Fgenstk.h"  //(GENSTK)  fluka common


//Virtual MC
#include "TFluka.h"

#include "TVirtualMCStack.h"
#include "TVirtualMCApplication.h"
#include "TParticle.h"
#include "TVector3.h"

extern "C" {
    void stuprf(Int_t& /*ij*/, Int_t& /*mreg*/,
                Double_t& xx, Double_t& yy, Double_t& zz,
                Int_t& numsec, Int_t& npprmr)
{
//*----------------------------------------------------------------------*
//*                                                                      *
//*  SeT User PRoperties for Fluka particles                             *
//*                                                                      *
//*----------------------------------------------------------------------*

// FLKSTK.npflka  = stack pointer
// FLKSTK.louse   = user flag
// TRACKR.llouse = user defined flag for the current particle
  FLKSTK.louse[FLKSTK.npflka] = TRACKR.llouse;

// mkbmx1 = dimension for kwb real spare array in fluka stack in DIMPAR
// mkbmx2 = dimension for kwb int. spare array in fluka stack in DIMPAR
// FLKSTK.sparek  = spare real variables available for k.w.burn
// FLKSTK.ispark  = spare integer variables available for k.w.burn
// TRACKR.spausr = user defined spare variables for the current particle
// TRACKR.ispusr = user defined spare flags for the current particle
  Int_t ispr;
  for (ispr = 0; ispr <= mkbmx1 - 1; ispr++) {
    FLKSTK.sparek[FLKSTK.npflka][ispr] = TRACKR.spausr[ispr];
  }  
  for (ispr = 0; ispr <= mkbmx2 - 1; ispr++) {
    FLKSTK.ispark[FLKSTK.npflka][ispr] = TRACKR.ispusr[ispr];
  }  
 
  // save parent info
  FLKSTK.ispark[FLKSTK.npflka][mkbmx2 - 3] = TRACKR.jtrack;   // fluka particle id
  FLKSTK.ispark[FLKSTK.npflka][mkbmx2 - 4] = TRACKR.ispusr[mkbmx2 - 1];  // current track number
  FLKSTK.ispark[FLKSTK.npflka][mkbmx2 - 5] = npprmr; // flag special case when npprmr>0

// Get the pointer to the VMC
  TFluka* fluka =  (TFluka*) gMC;
  Int_t verbosityLevel = fluka->GetVerbosityLevel();
  Bool_t debug = (verbosityLevel>=3)?kTRUE:kFALSE;
  
  fluka->SetTrackIsNew(kTRUE);
//  TVirtualMC* fluka = TFluka::GetMC();
// Get the stack produced from the generator
  TVirtualMCStack* cppstack = fluka->GetStack();
  
// EVTFLG.ntrcks = track number
// Increment the track number and put it into the last flag
// was numsec -1
// clarify with Alberto
  
//  npprmr > 0, the secondary being loaded is actually still the interacting
//  particle (it can happen in some biasing situations)

  if (numsec > npprmr) {
// Now call the PushTrack(...)
    Int_t done = 0;

    Int_t parent =  TRACKR.ispusr[mkbmx2-1];
    Int_t kpart  = GENSTK.kpart[numsec-1];
    if (kpart < -6) return; // -7 to -12 = "heavy" fragment
    Int_t  pdg  = fluka->PDGFromId(kpart);
     
    Double_t px = GENSTK.plr[numsec-1] * GENSTK.cxr[numsec-1];
    Double_t py = GENSTK.plr[numsec-1] * GENSTK.cyr[numsec-1];
    Double_t pz = GENSTK.plr[numsec-1] * GENSTK.czr[numsec-1];
    Double_t e  = GENSTK.tki[numsec-1] + PAPROP.am[GENSTK.kpart[numsec-1]+6];

    Double_t vx = xx;
    Double_t vy = yy;
    Double_t vz = zz;

    Double_t tof  = TRACKR.atrack;
    Double_t polx = GENSTK.cxrpol[numsec-1];
    Double_t poly = GENSTK.cyrpol[numsec-1];
    Double_t polz = GENSTK.czrpol[numsec-1];
    

    TMCProcess mech = kPHadronic;
    if (EVTFLG.ldecay == 1) {
        mech = kPDecay;
        if (debug) cout << endl << "Decay" << endl;
        FLKSTK.nlattc[FLKSTK.npflka] = TRACKR.lt1trk;
    } else if (EVTFLG.ldltry == 1) {
        mech = kPDeltaRay;
        if( fluka->GetIcode() == kKASHEA ) {
           //  For all interactions secondaries are put on GENSTK common (kp=1,np)
           //  but for KASHEA delta ray generation where only the secondary elec-
           //  tron is present and stacked on FLKSTK common for kp=lstack
           pdg  = fluka->PDGFromId( FLKSTK.iloflk[FLKSTK.npflka] );
           px   = FLKSTK.pmoflk[FLKSTK.npflka] * FLKSTK.txflk[FLKSTK.npflka];
           py   = FLKSTK.pmoflk[FLKSTK.npflka] * FLKSTK.tyflk[FLKSTK.npflka];
           pz   = FLKSTK.pmoflk[FLKSTK.npflka] * FLKSTK.tzflk[FLKSTK.npflka];
           e    = FLKSTK.tkeflk[FLKSTK.npflka] + PAPROP.am[FLKSTK.iloflk[FLKSTK.npflka]+6];
           polx = FLKSTK.txpol[FLKSTK.npflka];
           poly = FLKSTK.typol[FLKSTK.npflka];
           polz = FLKSTK.tzpol[FLKSTK.npflka];
           if (debug) cout << endl << "Delta Ray from KASHEA...." << " pdg from FLKSTK=" << pdg << endl;
        } else {
	    if (debug) cout << endl << "Delta Ray" << endl;
	}
    } else if (EVTFLG.lpairp == 1) {
        mech = kPPair;
        if (debug) cout << endl << "Pair Production" << endl;
    } else if (EVTFLG.lbrmsp == 1) {
        mech = kPBrem;
        if (debug) cout << endl << "Bremsstrahlung" << endl;
    }

    Double_t weight = GENSTK.wei[numsec-1];
    Int_t is = 0;
    Int_t ntr;
    // 
    // Save particle in VMC stack
    cppstack->PushTrack(done, parent, pdg,
			px, py, pz, e,
			vx, vy, vz, tof,
			polx, poly, polz,
			mech, ntr, weight, is);
    if (debug)
	cout << endl << " !!! stuprf: ntr=" << ntr << " pdg " << pdg << " parent=" << parent
	     << " parent_pdg="<< fluka->PDGFromId(TRACKR.jtrack) << " numsec "
	     << numsec << " npprmr " << npprmr << " icode=" << fluka->GetIcode() << endl
	     << endl;
	

//
//  Save current track number
    FLKSTK.ispark[FLKSTK.npflka][mkbmx2-1] = ntr;
    FLKSTK.ispark[FLKSTK.npflka][mkbmx2-2] = 0;
  } // end of if (numsec > npprmr)
//  else {
//     if(debug) {
//        cout << endl << " !!! stuprf: skipping pushtrack   track=" << TRACKR.ispusr[mkbmx2-1]
//              << " pdg " << fluka->PDGFromId(TRACKR.jtrack) << " numsec=" << numsec<< " npprmr=" << npprmr
//              << " GENSTK pdg=" << fluka->PDGFromId(GENSTK.kpart[numsec-1]) << endl;
//     }
//  }
} // end of stuprf
} // end of extern "C"
Commit	Line	Data
	1	#include <Riostream.h>
	2	#ifndef WIN32
	3	# define stuprf stuprf_
	4	#else
	5	# define stuprf STUPRF
	6	#endif
	7	//
	8	// Fluka include
	9	#include "Fdimpar.h" //(DIMPAR) fluka include
	10	// Fluka commons
	11	#include "Fdblprc.h" //(DBLPRC) fluka common
	12	#include "Fevtflg.h" //(EVTFLG) fluka common
	13	#include "Fpaprop.h" //(PAPROP) fluka common
	14	#include "Fflkstk.h" //(FLKSTK) fluka common
	15	#include "Ftrackr.h" //(TRACKR) fluka common
	16	#include "Fgenstk.h" //(GENSTK) fluka common
	17
	18
	19	//Virtual MC
	20	#include "TFluka.h"
	21
	22	#include "TVirtualMCStack.h"
	23	#include "TVirtualMCApplication.h"
	24	#include "TParticle.h"
	25	#include "TVector3.h"
	26
	27	extern "C" {
	28	void stuprf(Int_t& /ij/, Int_t& /mreg/,
	29	Double_t& xx, Double_t& yy, Double_t& zz,
	30	Int_t& numsec, Int_t& npprmr)
	31	{
	32	//----------------------------------------------------------------------
	33	//* *
	34	//* SeT User PRoperties for Fluka particles *
	35	//* *
	36	//----------------------------------------------------------------------
	37
	38	// FLKSTK.npflka = stack pointer
	39	// FLKSTK.louse = user flag
	40	// TRACKR.llouse = user defined flag for the current particle
	41	FLKSTK.louse[FLKSTK.npflka] = TRACKR.llouse;
	42
	43	// mkbmx1 = dimension for kwb real spare array in fluka stack in DIMPAR
	44	// mkbmx2 = dimension for kwb int. spare array in fluka stack in DIMPAR
	45	// FLKSTK.sparek = spare real variables available for k.w.burn
	46	// FLKSTK.ispark = spare integer variables available for k.w.burn
	47	// TRACKR.spausr = user defined spare variables for the current particle
	48	// TRACKR.ispusr = user defined spare flags for the current particle
	49	Int_t ispr;
	50	for (ispr = 0; ispr <= mkbmx1 - 1; ispr++) {
	51	FLKSTK.sparek[FLKSTK.npflka][ispr] = TRACKR.spausr[ispr];
	52	}
	53	for (ispr = 0; ispr <= mkbmx2 - 1; ispr++) {
	54	FLKSTK.ispark[FLKSTK.npflka][ispr] = TRACKR.ispusr[ispr];
	55	}
	56
	57	// save parent info
	58	FLKSTK.ispark[FLKSTK.npflka][mkbmx2 - 3] = TRACKR.jtrack; // fluka particle id
	59	FLKSTK.ispark[FLKSTK.npflka][mkbmx2 - 4] = TRACKR.ispusr[mkbmx2 - 1]; // current track number
	60	FLKSTK.ispark[FLKSTK.npflka][mkbmx2 - 5] = npprmr; // flag special case when npprmr>0
	61
	62	// Get the pointer to the VMC
	63	TFluka* fluka = (TFluka*) gMC;
	64	Int_t verbosityLevel = fluka->GetVerbosityLevel();
	65	Bool_t debug = (verbosityLevel>=3)?kTRUE:kFALSE;
	66
	67	fluka->SetTrackIsNew(kTRUE);
	68	// TVirtualMC* fluka = TFluka::GetMC();
	69	// Get the stack produced from the generator
	70	TVirtualMCStack* cppstack = fluka->GetStack();
	71
	72	// EVTFLG.ntrcks = track number
	73	// Increment the track number and put it into the last flag
	74	// was numsec -1
	75	// clarify with Alberto
	76
	77	// npprmr > 0, the secondary being loaded is actually still the interacting
	78	// particle (it can happen in some biasing situations)
	79
	80	if (numsec > npprmr) {
	81	// Now call the PushTrack(...)
	82	Int_t done = 0;
	83
	84	Int_t parent = TRACKR.ispusr[mkbmx2-1];
	85	Int_t kpart = GENSTK.kpart[numsec-1];
	86	if (kpart < -6) return; // -7 to -12 = "heavy" fragment
	87	Int_t pdg = fluka->PDGFromId(kpart);
	88
	89	Double_t px = GENSTK.plr[numsec-1] * GENSTK.cxr[numsec-1];
	90	Double_t py = GENSTK.plr[numsec-1] * GENSTK.cyr[numsec-1];
	91	Double_t pz = GENSTK.plr[numsec-1] * GENSTK.czr[numsec-1];
	92	Double_t e = GENSTK.tki[numsec-1] + PAPROP.am[GENSTK.kpart[numsec-1]+6];
	93
	94	Double_t vx = xx;
	95	Double_t vy = yy;
	96	Double_t vz = zz;
	97
	98	Double_t tof = TRACKR.atrack;
	99	Double_t polx = GENSTK.cxrpol[numsec-1];
	100	Double_t poly = GENSTK.cyrpol[numsec-1];
	101	Double_t polz = GENSTK.czrpol[numsec-1];
	102
	103
	104	TMCProcess mech = kPHadronic;
	105	if (EVTFLG.ldecay == 1) {
	106	mech = kPDecay;
	107	if (debug) cout << endl << "Decay" << endl;
	108	FLKSTK.nlattc[FLKSTK.npflka] = TRACKR.lt1trk;
	109	} else if (EVTFLG.ldltry == 1) {
	110	mech = kPDeltaRay;
	111	if( fluka->GetIcode() == kKASHEA ) {
	112	// For all interactions secondaries are put on GENSTK common (kp=1,np)
	113	// but for KASHEA delta ray generation where only the secondary elec-
	114	// tron is present and stacked on FLKSTK common for kp=lstack
	115	pdg = fluka->PDGFromId( FLKSTK.iloflk[FLKSTK.npflka] );
	116	px = FLKSTK.pmoflk[FLKSTK.npflka] * FLKSTK.txflk[FLKSTK.npflka];
	117	py = FLKSTK.pmoflk[FLKSTK.npflka] * FLKSTK.tyflk[FLKSTK.npflka];
	118	pz = FLKSTK.pmoflk[FLKSTK.npflka] * FLKSTK.tzflk[FLKSTK.npflka];
	119	e = FLKSTK.tkeflk[FLKSTK.npflka] + PAPROP.am[FLKSTK.iloflk[FLKSTK.npflka]+6];
	120	polx = FLKSTK.txpol[FLKSTK.npflka];
	121	poly = FLKSTK.typol[FLKSTK.npflka];
	122	polz = FLKSTK.tzpol[FLKSTK.npflka];
	123	if (debug) cout << endl << "Delta Ray from KASHEA...." << " pdg from FLKSTK=" << pdg << endl;
	124	} else {
	125	if (debug) cout << endl << "Delta Ray" << endl;
	126	}
	127	} else if (EVTFLG.lpairp == 1) {
	128	mech = kPPair;
	129	if (debug) cout << endl << "Pair Production" << endl;
	130	} else if (EVTFLG.lbrmsp == 1) {
	131	mech = kPBrem;
	132	if (debug) cout << endl << "Bremsstrahlung" << endl;
	133	}
	134
	135	Double_t weight = GENSTK.wei[numsec-1];
	136	Int_t is = 0;
	137	Int_t ntr;
	138	//
	139	// Save particle in VMC stack
	140	cppstack->PushTrack(done, parent, pdg,
	141	px, py, pz, e,
	142	vx, vy, vz, tof,
	143	polx, poly, polz,
	144	mech, ntr, weight, is);
	145	if (debug)
	146	cout << endl << " !!! stuprf: ntr=" << ntr << " pdg " << pdg << " parent=" << parent
	147	<< " parent_pdg="<< fluka->PDGFromId(TRACKR.jtrack) << " numsec "
	148	<< numsec << " npprmr " << npprmr << " icode=" << fluka->GetIcode() << endl
	149	<< endl;
	150
	151
	152	//
	153	// Save current track number
	154	FLKSTK.ispark[FLKSTK.npflka][mkbmx2-1] = ntr;
	155	FLKSTK.ispark[FLKSTK.npflka][mkbmx2-2] = 0;
	156	} // end of if (numsec > npprmr)
	157	// else {
	158	// if(debug) {
	159	// cout << endl << " !!! stuprf: skipping pushtrack track=" << TRACKR.ispusr[mkbmx2-1]
	160	// << " pdg " << fluka->PDGFromId(TRACKR.jtrack) << " numsec=" << numsec<< " npprmr=" << npprmr
	161	// << " GENSTK pdg=" << fluka->PDGFromId(GENSTK.kpart[numsec-1]) << endl;
	162	// }
	163	// }
	164	} // end of stuprf
	165	} // end of extern "C"
	166