*$ CREATE MGDRAW.FOR *COPY MGDRAW * * *=== mgdraw ===========================================================* * * SUBROUTINE MGDRAW ( ICODE, MREG ) INCLUDE '(DBLPRC)' INCLUDE '(DIMPAR)' INCLUDE '(IOUNIT)' * *----------------------------------------------------------------------* * * * Copyright (C) 1990-2006 by Alfredo Ferrari * * All Rights Reserved. * * * * * * MaGnetic field trajectory DRAWing: actually this entry manages * * all trajectory dumping for * * drawing * * * * Created on 01 march 1990 by Alfredo Ferrari * * INFN - Milan * * Last change 05-may-06 by Alfredo Ferrari * * INFN - Milan * * * *----------------------------------------------------------------------* * INCLUDE '(CASLIM)' INCLUDE '(COMPUT)' INCLUDE '(SOURCM)' INCLUDE '(FHEAVY)' INCLUDE '(RESNUC)' INCLUDE '(FLKSTK)' INCLUDE '(GENSTK)' INCLUDE '(MGDDCM)' INCLUDE '(PAPROP)' INCLUDE '(QUEMGD)' INCLUDE '(SUMCOU)' INCLUDE '(TRACKR)' INCLUDE '(BLNKCM)' INCLUDE '(BLNKDM)' INCLUDE '(LOWNEU)' * DIMENSION DTQUEN ( MXTRCK, MAXQMG ) * CHARACTER*20 FILNAM LOGICAL LFCOPE SAVE LFCOPE DATA LFCOPE / .FALSE. / * *----------------------------------------------------------------------* * * * Icode = 1: call from Kaskad * * Icode = 2: call from Emfsco * * Icode = 3: call from Kasneu * * Icode = 4: call from Kashea * * Icode = 5: call from Kasoph * * * *----------------------------------------------------------------------* * * IF ( .NOT. LFCOPE ) THEN LFCOPE = .TRUE. IF ( KOMPUT .EQ. 2 ) THEN FILNAM = '/'//CFDRAW(1:8)//' DUMP A' ELSE FILNAM = CFDRAW END IF OPEN ( UNIT = IODRAW, FILE = FILNAM, STATUS = 'NEW', FORM = & 'UNFORMATTED' ) END IF * WRITE (IODRAW) NTRACK, MTRACK, JTRACK, SNGL (ETRACK), * & SNGL (WTRACK) * WRITE (IODRAW) ( SNGL (XTRACK (I)), SNGL (YTRACK (I)), * & SNGL (ZTRACK (I)), I = 0, NTRACK ), * & ( SNGL (DTRACK (I)), I = 1, MTRACK ), * & SNGL (CTRACK) * +-------------------------------------------------------------------* * | Quenching is activated * IF ( LQEMGD ) THEN * RULLL = ZERZER * CALL QUENMG ( ICODE, MREG, RULLL, DTQUEN ) * WRITE (IODRAW) ( ( SNGL (DTQUEN (I,JBK)), I = 1, MTRACK ), * & JBK = 1, NQEMGD ) * END IF * | End of quenching * +-------------------------------------------------------------------* * LOGICAL LFIRST * SAVE LFIRST * DATA LFIRST /.TRUE./ * return message from first call * IF ( LFIRST ) THEN * WRITE( LUNOUT, * ) 'Version 0 of Routine MGDRAW called' * LFIRST = .FALSE. * ENDIF RETURN * *======================================================================* * * * Boundary-(X)crossing DRAWing: * * * * Icode = 1x: call from Kaskad * * 19: boundary crossing * * Icode = 2x: call from Emfsco * * 29: boundary crossing * * Icode = 3x: call from Kasneu * * 39: boundary crossing * * Icode = 4x: call from Kashea * * 49: boundary crossing * * Icode = 5x: call from Kasoph * * 59: boundary crossing * * * *======================================================================* * * ENTRY BXDRAW ( ICODE, MREG, NEWREG, XSCO, YSCO, ZSCO ) * WRITE( 42.0, * ) 'Routine BXDRAW called' * WRITE( 42.0, * ) NCASE, NPFLKA, JTRACK, ICODE, NP * WRITE( 42.0, * ) ETRACK, PTRACK, WTRACK, MMTRCK, KTRACK * WRITE( 42.0, * ) XTRACK(NTRACK), YTRACK(NTRACK), ZTRACK(NTRACK) RETURN * *======================================================================* * * * Event End DRAWing: * * * *======================================================================* * * ENTRY EEDRAW ( ICODE ) * LOGICAL LFIRST * SAVE LFIRST * DATA LFIRST /.TRUE./ * return message from first call * IF ( LFIRST ) THEN * WRITE( 70.0, * ) 'Version 0 of Routine EEDRAW called' * WRITE( 70.0, * ) NCASE, NPFLKA, NP * WRITE( 70.0, * ) ILOFLK(1), TKEFLK(1), PMOFLK(1) * LFIRST = .FALSE. * ENDIF RETURN * *======================================================================* * * * ENergy deposition DRAWing: * * * * Icode = 1x: call from Kaskad * * 10: elastic interaction recoil * * 11: inelastic interaction recoil * * 12: stopping particle * * 13: pseudo-neutron deposition * * 14: escape * * 15: time kill * * Icode = 2x: call from Emfsco * * 20: local energy deposition (i.e. photoelectric) * * 21: below threshold, iarg=1 * * 22: below threshold, iarg=2 * * 23: escape * * 24: time kill * * Icode = 3x: call from Kasneu * * 30: target recoil * * 31: below threshold * * 32: escape * * 33: time kill * * Icode = 4x: call from Kashea * * 40: escape * * 41: time kill * * 42: delta ray stack overflow * * Icode = 5x: call from Kasoph * * 50: optical photon absorption * * 51: escape * * 52: time kill * * * *======================================================================* * * ENTRY ENDRAW ( ICODE, MREG, RULL, XSCO, YSCO, ZSCO ) IF ( .NOT. LFCOPE ) THEN LFCOPE = .TRUE. IF ( KOMPUT .EQ. 2 ) THEN FILNAM = '/'//CFDRAW(1:8)//' DUMP A' ELSE FILNAM = CFDRAW END IF OPEN ( UNIT = IODRAW, FILE = FILNAM, STATUS = 'NEW', FORM = & 'UNFORMATTED' ) END IF * WRITE (IODRAW) 0, ICODE, JTRACK, SNGL (ETRACK), SNGL (WTRACK) * WRITE (IODRAW) SNGL (XSCO), SNGL (YSCO), SNGL (ZSCO), SNGL (RULL) * +-------------------------------------------------------------------* * | Quenching is activated : calculate quenching factor * | and store quenched energy in DTQUEN(1, jbk) * IF ( LQEMGD ) THEN * RULLL = RULL * CALL QUENMG ( ICODE, MREG, RULLL, DTQUEN ) * WRITE (IODRAW) ( SNGL (DTQUEN(1, JBK)), JBK = 1, NQEMGD ) * END IF * | end quenching * +-------------------------------------------------------------------* RETURN * *======================================================================* * * * SOurce particle DRAWing: * * * *======================================================================* * ENTRY SODRAW IF ( .NOT. LFCOPE ) THEN LFCOPE = .TRUE. IF ( KOMPUT .EQ. 2 ) THEN FILNAM = '/'//CFDRAW(1:8)//' DUMP A' ELSE FILNAM = CFDRAW END IF OPEN ( UNIT = IODRAW, FILE = FILNAM, STATUS = 'NEW', FORM = & 'UNFORMATTED' ) END IF * WRITE (IODRAW) -NCASE, NPFLKA, NSTMAX, SNGL (TKESUM), * & SNGL (WEIPRI) * +-------------------------------------------------------------------* * | (Radioactive) isotope: it works only for 1 source particle on * | the stack for the time being * IF ( ILOFLK (NPFLKA) .GE. 100000 .AND. LRADDC (NPFLKA) ) THEN * IARES = MOD ( ILOFLK (NPFLKA), 100000 ) / 100 * IZRES = MOD ( ILOFLK (NPFLKA), 10000000 ) / 100000 * IISRES = ILOFLK (NPFLKA) / 10000000 * IONID = ILOFLK (NPFLKA) * WRITE (IODRAW) ( IONID,SNGL(-TKEFLK(I)), * & SNGL (WTFLK(I)), SNGL (XFLK (I)), * & SNGL (YFLK (I)), SNGL (ZFLK (I)), * & SNGL (TXFLK(I)), SNGL (TYFLK(I)), * & SNGL (TZFLK(I)), I = 1, NPFLKA ) * | * +-------------------------------------------------------------------* * | Patch for heavy ions: it works only for 1 source particle on * | the stack for the time being * ELSE IF ( ABS (ILOFLK (NPFLKA)) .GE. 10000 ) THEN * IONID = ILOFLK (NPFLKA) * CALL DCDION ( IONID ) * WRITE (IODRAW) ( IONID,SNGL(TKEFLK(I)+AMNHEA(-IONID)), * & SNGL (WTFLK(I)), SNGL (XFLK (I)), * & SNGL (YFLK (I)), SNGL (ZFLK (I)), * & SNGL (TXFLK(I)), SNGL (TYFLK(I)), * & SNGL (TZFLK(I)), I = 1, NPFLKA ) * | * +-------------------------------------------------------------------* * | Patch for heavy ions: ??? * ELSE IF ( ILOFLK (NPFLKA) .LT. -6 ) THEN * WRITE (IODRAW) ( IONID,SNGL(TKEFLK(I)+AMNHEA(-ILOFLK(NPFLKA))), * & SNGL (WTFLK(I)), SNGL (XFLK (I)), * & SNGL (YFLK (I)), SNGL (ZFLK (I)), * & SNGL (TXFLK(I)), SNGL (TYFLK(I)), * & SNGL (TZFLK(I)), I = 1, NPFLKA ) * | * +-------------------------------------------------------------------* * | * ELSE * WRITE (IODRAW) ( ILOFLK(I), SNGL (TKEFLK(I)+AM(ILOFLK(I))), * & SNGL (WTFLK(I)), SNGL (XFLK (I)), * & SNGL (YFLK (I)), SNGL (ZFLK (I)), * & SNGL (TXFLK(I)), SNGL (TYFLK(I)), * & SNGL (TZFLK(I)), I = 1, NPFLKA ) * END IF * | * +-------------------------------------------------------------------* RETURN * *======================================================================* * * * USer dependent DRAWing: * * * * Icode = 10x: call from Kaskad * * 100: elastic interaction secondaries * * 101: inelastic interaction secondaries * * 102: particle decay secondaries * * 103: delta ray generation secondaries * * 104: pair production secondaries * * 105: bremsstrahlung secondaries * * 110: decay products * * Icode = 20x: call from Emfsco * * 208: bremsstrahlung secondaries * * 210: Moller secondaries * * 212: Bhabha secondaries * * 214: in-flight annihilation secondaries * * 215: annihilation at rest secondaries * * 217: pair production secondaries * * 219: Compton scattering secondaries * * 221: photoelectric secondaries * * 225: Rayleigh scattering secondaries * * Icode = 30x: call from Kasneu * * 300: interaction secondaries * * Icode = 40x: call from Kashea * * 400: delta ray generation secondaries * * 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=npflka * * * *======================================================================* * ENTRY USDRAW ( ICODE, MREG, XSCO, YSCO, ZSCO ) IF ( .NOT. LFCOPE ) THEN LFCOPE = .TRUE. IF ( KOMPUT .EQ. 2 ) THEN FILNAM = '/'//CFDRAW(1:8)//' DUMP A' ELSE FILNAM = CFDRAW END IF OPEN ( UNIT = IODRAW, FILE = FILNAM, STATUS = 'NEW', FORM = & 'UNFORMATTED' ) END IF * No output by default: * +-------------------------------------------------------------------* * Here is where I write my output. WRITE( 41, * ) 'Routine USDRAW called' WRITE( 41, * ) NCASE, NPFLKA, JTRACK, ICODE, NP WRITE( 41, * ) ETRACK, PTRACK, WTRACK, MMTRCK, KTRACK WRITE( 41, * ) XSCO, YSCO, ZSCO write( 41, * ) cxtrck, cytrck, cztrck write( 41, * ) ltrack, ntrack, mtrack if (ktrack .eq. 0) then tktrck = ETRACK-AM(JTRACK) else if (jtrack .eq. 8 .and. ktrack .gt. 0) then * Randomly distribute the neutron energy in the group <20MeV ALOGEA = LOG (GMSTOR(IDXSEC+KTRACK+1)) ! Lower bin boundary ALOGEB = LOG (GMSTOR(IDXSEC+KTRACK)) ! Higher bin boundary tktrck = EXP(ALOGEA+FLRNDM(ENERGY)*(ALOGEB-ALOGEA)) ENDIF write(41, *) tktrk * parent particle write (41, *) llouse, (ispusr(i), i=1, 3) write (41, *) (spausr(i), i=1, 5) * Loop over ntrack do ip = 1, ntrack write(41, *) ip, xtrack(ip), ytrack(ip), ztrack(ip), + ttrack(ip) end do do ip = 1, mtrack write(41, *) ip, dtrack(ip), dptrck(ip, 1) end do * Loop over Secondaries. do 10 ip = 1, NP WRITE( 41, *) ip,KPART(ip),TKI(ip),WEI(ip), + cxr(ip), cyr(ip), czr(ip) 10 continue * Loop over Heavy Secondaries. WRITE( 41, * ) NPHEAV, ICRES, IBRES, TVCMS, TVRECL do 20 ip = 1, NPHEAV WRITE( 41, *) ip,KHEAVY(ip),TKHEAV(ip) WRITE( 41, *) ip,ICHEAV(KHEAVY(ip)),IBHEAV(KHEAVY(ip)) 20 continue RETURN *=== End of subrutine Mgdraw ==========================================* END