path: root/Dragon/src/SNFLUX.f

*DECK SNFLUX
      SUBROUTINE SNFLUX(KPSYS,INCONV,NGIND,IPTRK,IMPX,NGEFF,NREG,
     1 NBMIX,NUN,MAT,VOL,KEYFLX,FUNKNO,SUNKNO,ITER,NBS,KPSOU1,KPSOU2,
     2 FLUXC)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Solve a single non-accelerated scattering iteration of the N-group
* transport equation for fluxes using the discrete ordinates (SN)
* method.
*
*Copyright:
* Copyright (C) 2007 Ecole Polytechnique de Montreal
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version
*
*Author(s): A. Hebert
*
*Parameters: input
* KPSYS   pointer to the assembly matrices. KPSYS is an array of
*         directories.
* INCONV  energy group convergence flag (set to .FALSE. if converged).
* NGIND   energy group indices assign to the NGEFF set.
* IPTRK   pointer to the tracking (L_TRACK signature).
* IMPX    print flag (equal to zero for no print).
* NGEFF   number of energy groups processed in parallel.
* NREG    total number of regions for which specific values of the
*         neutron flux and reactions rates are required.
* NBMIX   number of mixtures.
* NUN     total number of unknowns in vectors SUNKNO and FUNKNO.
* MAT     index-number of the mixture type assigned to each volume.
* VOL     volumes.
* KEYFLX  position of averaged flux elements in FUNKNO vector.
* SUNKNO  input source vector.
* ITER    number of previous calls to SNFLUX.
* NBS
* KPSOU1
* KPSOU2
*
*Parameters: input/output
* FUNKNO  unknown vector.
* FLUXC   flux at the cutoff energy.
*
*-----------------------------------------------------------------------
*
      USE GANLIB
*----
*  SUBROUTINE ARGUMENTS
*----
      TYPE(C_PTR) KPSYS(NGEFF),IPTRK,KPSOU1(NGEFF),KPSOU2(NGEFF)
      INTEGER     NGEFF,NGIND(NGEFF),IMPX,NREG,NBMIX,NUN,MAT(NREG),
     1            KEYFLX(NREG),ITER,NBS(NGEFF)
      LOGICAL     INCONV(NGEFF)
      REAL        VOL(NREG),FUNKNO(NUN,NGEFF),SUNKNO(NUN,NGEFF)
      REAL,OPTIONAL :: FLUXC(NREG)
*----
*  LOCAL VARIABLES
*----
      PARAMETER   (IUNOUT=6,NSTATE=40)
      INTEGER     IPAR(NSTATE),NCODE(6),BSINFO(2),EELEM,ESCHM,P,Q,
     >            LOZSWP(3,6)
      REAL        ZCODE(6),SIDE,LAMBDA0
      LOGICAL     LFIXUP,LDSA,LSHOOT,LADPT(4)
*----
*  ALLOCATABLE ARRAYS
*---
      INTEGER, ALLOCATABLE, DIMENSION(:) :: KEYSPN
      INTEGER, ALLOCATABLE, DIMENSION(:,:) :: COORDMAP
      INTEGER, ALLOCATABLE, DIMENSION(:,:,:) :: ISBSM
      REAL, ALLOCATABLE, DIMENSION(:,:) :: QEXT,OLD,SGAR,BS,EMOMTR,
     1 SIGMATR,MTR
      REAL, ALLOCATABLE, DIMENSION(:,:,:) :: SGAS,ESTOPW
*
      TYPE(C_PTR) U_PTR,W_PTR,PL_PTR,JOP_PTR,UPQ_PTR,WPQ_PTR,ALPHA_PTR,
     1 PLZ_PTR,SURF_PTR,XXX_PTR,DU_PTR,DE_PTR,MRM_PTR,MRMX_PTR,MRMY_PTR,
     2 MRMZ_PTR,DB_PTR,DA_PTR,DAL_PTR,DZ_PTR,DC_PTR,WX_PTR,WE_PTR,
     3 CST_PTR,MN_PTR,DN_PTR,IL_PTR
      INTEGER, POINTER, DIMENSION(:) :: JOP,MRM,MRMX,MRMY,MRMZ,ISLG,IL
      REAL, POINTER, DIMENSION(:) :: U,W,PL,UPQ,WPQ,ALPHA,PLZ,SURF,DU,
     1 DE,XXX,DB,DA,DAL,DZ,DC,DELTAE,WX,WE,CST,MN,DN
*----
*  SCRATCH STORAGE ALLOCATION
*----
      ALLOCATE(QEXT(NUN,NGEFF),KEYSPN(NREG),DELTAE(NGEFF),ISLG(NGEFF))
*----
*  RECOVER SN SPECIFIC PARAMETERS.
*----
      CALL LCMGET(IPTRK,'STATE-VECTOR',IPAR)
      ITYPE=IPAR(6)
      NSCT=IPAR(7)
      IELEM=IPAR(8)
      ISCHM=IPAR(10)
      L4=IPAR(11)
      LX=IPAR(12)
      LY=IPAR(13)
      LZ=IPAR(14)
      NLF=IPAR(15)
      ISCAT=IPAR(16)
      LFIXUP=IPAR(18).EQ.1
      LDSA=IPAR(19).EQ.1
      NSDSA=IPAR(21)
      ISPLH=IPAR(26)
      NKBA=IPAR(28)
      IGAV=IPAR(29)
      LSHOOT=.TRUE.
      IF(IPAR(30).EQ.0) LSHOOT=.FALSE.
      IBFP=IPAR(31)
      EELEM=IPAR(35)
      ESCHM=IPAR(36)
      LADPT(1:4)=.FALSE.
      IF(ESCHM.EQ.3) LADPT(1)=.TRUE.
      IF(ISCHM.EQ.3) LADPT(2:4)=.TRUE.
*----
*  TEST FOR DSA and SAVE OLD FLUX.
*----
      LDSA=.FALSE.
      IF(MOD(ITER,(NSDSA+1))==0) LDSA=.TRUE.

      IF(LDSA)THEN
         ALLOCATE(OLD(NUN,NGEFF))
         OLD(:NUN,:NGEFF)=FUNKNO(:NUN,:NGEFF)
      ENDIF
*----
*  RECOVER TOTAL AND WITHIN-GROUP SCATTERING MULTIGROUP CROSS SECTIONS.
*----
      ALLOCATE(SGAR(0:NBMIX,NGEFF),SGAS(0:NBMIX,ISCAT,NGEFF))
      ALLOCATE(ESTOPW(0:NBMIX,2,NGEFF),EMOMTR(0:NBMIX,NGEFF))
      NANI=1
      DO 10 II=1,NGEFF
      IF(.NOT.INCONV(II)) GO TO 10
      CALL LCMLEN(KPSYS(II),'DRAGON-TXSC',ILONG,ITYLCM)
      IF(ILONG.NE.NBMIX+1) CALL XABORT('SNFLUX: INVALID TXSC LENGTH.')
      CALL LCMLEN(KPSYS(II),'DRAGON-S0XSC',ILONG,ITYLCM)
      NANI=MAX(NANI,ILONG/(NBMIX+1))
      IF(NANI.GT.ISCAT) CALL XABORT('SNFLUX: INVALID S0XSC LENGTH.')
      CALL LCMGET(KPSYS(II),'DRAGON-TXSC',SGAR(0,II))
      CALL LCMGET(KPSYS(II),'DRAGON-S0XSC',SGAS(0,1,II))
*----
*  TEST FOR FOKKER-PLANCK TREATMENT.
*----
      IF(IBFP.GT.0) THEN
      CALL LCMLEN(KPSYS(II),'DRAGON-ESTOP',IFP,ITYLCM)
      IF(IFP.NE.(NBMIX+1)*2) CALL XABORT('SNFLUX: INVALID ESTOPW LEN'
     1  //'GTH.')
      CALL LCMGET(KPSYS(II),'DRAGON-ESTOP',ESTOPW(0,1,II))
      CALL LCMGET(KPSYS(II),'DRAGON-DELTE',DELTAE(II))
      CALL LCMGET(KPSYS(II),'DRAGON-ISLG',ISLG(II))
      IF(ISLG(II).EQ.1) FLUXC(:)=0.0
      CALL LCMLEN(KPSYS(II),'DRAGON-EMOMT',IFP,ITYLCM)
      IF(IFP.NE.NBMIX+1) CALL XABORT('SNFLUX: INVALID EMOMTR LENGTH.')
      CALL LCMGET(KPSYS(II),'DRAGON-EMOMT',EMOMTR(0,II))
      ENDIF
*----
*  PRINT ZEROTH MOMENT OF SOURCES.
*----
      IF(IMPX.GT.3) THEN
        WRITE(IUNOUT,500) NGIND(II)
        WRITE(IUNOUT,'(1P,6(5X,E15.7))') (SUNKNO(KEYFLX(I),II),I=1,NREG)
      ENDIF
   10 CONTINUE
*----
*  RECOVER INFORMATION ABOUT BOUNDARY SOURCES
*----
      ISBS=0
      MAXL=0
      IF(SUM(NBS).NE.0) THEN
        ISBS=1
        IF(ITYPE.EQ.2) THEN
          MAXL=1
          ALLOCATE(ISBSM(2,NLF,NGEFF))
        ELSE IF(ITYPE.EQ.5) THEN
          MAXL=MAX(LX,LY)
          CALL LCMLEN(IPTRK,'DU',NPQ,ITYLCM)
          ALLOCATE(ISBSM(4,NPQ,NGEFF))
        ELSE IF(ITYPE.EQ.7) THEN
          MAXL=MAX(LX*LY,LX*LZ,LY*LZ)
          CALL LCMLEN(IPTRK,'DU',NPQ,ITYLCM)
          ALLOCATE(ISBSM(6,NPQ,NGEFF))
        ELSE          
          CALL XABORT('SNFLUX: BOUNDARY SOURCE NOT IMPLEMENTED FOR THAT'
     1    //' GEOMETRY')
          ALLOCATE(ISBSM(0,0,0),BS(0,0))
        ENDIF
        ALLOCATE(BS(MAXL,SUM(NBS)))
        BS=0.0
        ISBSM=0
        JJ=1
        DO 11 II=1,NGEFF
        IF(NBS(II).NE.0) THEN
          DO N=1,NBS(II)
            CALL LCMGDL(KPSOU1(II),N,BS(1,JJ))
            CALL LCMGDL(KPSOU2(II),N,BSINFO)
            ISBSM(BSINFO(1),BSINFO(2),II)=JJ
            JJ=JJ+1
          ENDDO
        ENDIF
   11   CONTINUE
      ELSE
        ALLOCATE(ISBSM(0,0,0),BS(0,0))
      ENDIF
*----
*  COMPUTE THE FLUX.
*----
      IF((ITYPE.EQ.2).AND.(IBFP.EQ.0)) THEN
*------------
* 1D SLAB
*------------
        ! EXTRACTING PARAMETERS
        IF(IELEM*NSCT*NREG.GT.NUN) CALL XABORT('SNFLUX: QEXT OVERFLOW'
     1  //'(1)')
        CALL LCMGPD(IPTRK,'U',U_PTR)
        CALL LCMGPD(IPTRK,'WX',WX_PTR)
        CALL LCMGPD(IPTRK,'CST',CST_PTR)
        CALL LCMGPD(IPTRK,'MN',MN_PTR)
        CALL LCMGPD(IPTRK,'DN',DN_PTR)
        CALL LCMGPD(IPTRK,'IL',IL_PTR)
        CALL C_F_POINTER(U_PTR,U,(/ NLF /))
        CALL C_F_POINTER(WX_PTR,WX,(/ IELEM+1 /))
        CALL C_F_POINTER(CST_PTR,CST,(/ IELEM /))
        CALL C_F_POINTER(MN_PTR,MN,(/ NLF*NSCT /))
        CALL C_F_POINTER(DN_PTR,DN,(/ NLF*NSCT /))
        CALL C_F_POINTER(IL_PTR,IL,(/ NSCT /))
        CALL LCMGET(IPTRK,'NCODE',NCODE)
        CALL LCMGET(IPTRK,'ZCODE',ZCODE)

        ! LOOP FOR GROUPS
        DO 40 II=1,NGEFF
        IF(.NOT.INCONV(II)) GO TO 40
        IF(IMPX.GT.2) WRITE(IUNOUT,510) NGIND(II),'SN/1D-slab'

        ! FIXED VOLUMIC SOURCES
        QEXT(:NUN,II)=SUNKNO(:NUN,II)

        ! IN-GROUP SCATTERING
        DO 30 IR=1,NREG
        IBM=MAT(IR)
        IF(IBM.EQ.0) GO TO 30
        DO 20 P=1,NSCT
        IF(IL(P).GT.NANI-1) GO TO 20
        DO 15 IEL=1,IELEM
        IND=(IR-1)*NSCT*IELEM+IELEM*(P-1)+IEL
        QEXT(IND,II)=QEXT(IND,II)+SGAS(IBM,IL(P)+1,II)*FUNKNO(IND,II)
   15   CONTINUE
   20   CONTINUE
   30   CONTINUE

        ! ONE-SPEED FLUX CALCULATION
        CALL SNFBC1(NREG,NBMIX,IELEM,NLF,NSCT,U,MAT,VOL,SGAR(0,II),
     1  NCODE,ZCODE,QEXT(1,II),LFIXUP,LSHOOT,ISBS,SUM(NBS),
     2  ISBSM(1,1,II),BS,WX,CST,LADPT(2),NUN,FUNKNO(1,II),MN,DN)

   40   CONTINUE ! END OF ENERGY LOOP

      ELSE IF(ITYPE.EQ.2) THEN
*------------
* 1D SLAB BOLTZMANN-FOKKER-PLANCK
*------------
        ! EXTRACTING PARAMETERS
        NM=IELEM*EELEM
        IF((IELEM*NLF+NM*NSCT)*NREG.GT.NUN) THEN
          CALL XABORT('SNFLUX: QEXT OVERFLOW(1a)')
        ENDIF
        IOF=NM*NSCT*NREG+1
        CALL LCMGPD(IPTRK,'U',U_PTR)
        CALL LCMGPD(IPTRK,'WX',WX_PTR)
        CALL LCMGPD(IPTRK,'WE',WE_PTR)
        CALL LCMGPD(IPTRK,'CST',CST_PTR)
        CALL LCMGPD(IPTRK,'MN',MN_PTR)
        CALL LCMGPD(IPTRK,'DN',DN_PTR)
        CALL LCMGPD(IPTRK,'IL',IL_PTR)
        CALL C_F_POINTER(U_PTR,U,(/ NLF /))
        CALL C_F_POINTER(WX_PTR,WX,(/ IELEM+1 /))
        CALL C_F_POINTER(WE_PTR,WE,(/ EELEM+1 /))
        CALL C_F_POINTER(CST_PTR,CST,(/ MAX(IELEM,EELEM) /))
        CALL C_F_POINTER(MN_PTR,MN,(/ NLF*NSCT /))
        CALL C_F_POINTER(DN_PTR,DN,(/ NLF*NSCT /))
        CALL C_F_POINTER(IL_PTR,IL,(/ NSCT /))
        CALL LCMGET(IPTRK,'NCODE',NCODE)
        CALL LCMGET(IPTRK,'ZCODE',ZCODE)

        ! ANGULAR FOKKER-PLANCK OPERATOR
        ALLOCATE(SIGMATR(NSCT,NSCT),MTR(NLF,NLF))
        SIGMATR=0.0
        DO P=1,NSCT
          SIGMATR(P,P)=-IL(P)*(IL(P)+1)
        ENDDO
        MTR=MATMUL(MATMUL(RESHAPE(MN,[NLF,NSCT]),SIGMATR),
     1  RESHAPE(DN,[NSCT,NLF]))
        LAMBDA0=0.0
        DO M=1,NLF
          IF(MTR(M,M).LT.-LAMBDA0) LAMBDA0=-MTR(M,M)
        ENDDO
        DO M=1,NLF
          MTR(M,M)=MTR(M,M)+LAMBDA0
        ENDDO
        SIGMATR=MATMUL(MATMUL(RESHAPE(DN,[NSCT,NLF]),MTR),
     1  RESHAPE(MN,[NLF,NSCT]))
        DEALLOCATE(MTR)
        DO II=1,NGEFF
        DO IBM=1,NBMIX
          SGAR(IBM,II)=SGAR(IBM,II)+LAMBDA0*EMOMTR(IBM,II)
        ENDDO
        ENDDO

        ! LOOP FOR GROUPS
        DO 80 II=1,NGEFF
        IF(.NOT.INCONV(II)) GO TO 80
        IF(IMPX.GT.2) WRITE(IUNOUT,510) NGIND(II),'SN-BFP/1D-slab'

        ! FIXED VOLUMIC SOURCES
        QEXT(:NUN,II)=SUNKNO(:NUN,II)

        ! IN-GROUP SCATTERING
        DO 70 IR=1,NREG
        IBM=MAT(IR)
        IF(IBM.EQ.0) GO TO 70
        DO 60 P=1,NSCT
        IF(IL(P).GT.NANI-1) GO TO 60
        DO 50 IEL=1,NM
        IND=(IR-1)*NSCT*NM+NM*(P-1)+IEL
        QEXT(IND,II)=QEXT(IND,II)+SGAS(IBM,IL(P)+1,II)*FUNKNO(IND,II)
        DO Q=1,NSCT
        JND=(IR-1)*NSCT*NM+NM*(Q-1)+IEL
        QEXT(IND,II)=QEXT(IND,II)+EMOMTR(IBM,II)*SIGMATR(P,Q)
     1  *FUNKNO(JND,II)
        ENDDO
   50   CONTINUE
   60   CONTINUE
   70   CONTINUE

        ! ONE-SPEED FLUX CALCULATION
        CALL SNFE1D(NREG,NBMIX,IELEM,EELEM,NM,NLF,NSCT,U,MAT,VOL,
     1  SGAR(0,II),ESTOPW(0,1,II),NCODE,ZCODE,DELTAE(II),QEXT(1,II),
     2  LFIXUP,LSHOOT,FUNKNO(1,II),ISBS,SUM(NBS),ISBSM(1,1,II),BS,WX,WE,
     3  CST,LADPT(1:2),IBFP,NUN,MN,DN)

        ! SOLUTION FLUX AT THE CUTOFF ENERGY
        IF(ISLG(II).EQ.1) THEN
        LXNI=EELEM*NLF
        IF(LSHOOT) LXNI=0
        DO 71 IR=1,NREG
        IBM=MAT(IR)
        FLUXC(IR)=0.0
        DO 72 IP=1,NLF
        IND=NM*NSCT*NREG+LXNI+(IR-1)*NLF*IELEM+(IP-1)*IELEM+1
        JND=(IP-1)*NSCT+1
        FLUXC(IR)=FLUXC(IR)+FUNKNO(IND,II)*DN(JND)
   72   CONTINUE
   71   CONTINUE     
        ENDIF

   80   CONTINUE ! END OF ENERGY LOOP
        DEALLOCATE(SIGMATR)

      ELSE IF(ITYPE.EQ.3) THEN
*------------
* 1D TUBE/CYLINDRICAL
*------------
        ! EXTRACTING PARAMETERS
        IF(IELEM.NE.1) CALL XABORT('SNFLUX: DIAM 0 EXPECTED(1).')
        IF(NSCT*NREG.GT.NUN) CALL XABORT('SNFLUX: QEXT OVERFLOW(2)')
        M2=NLF/2
        CALL LCMLEN(IPTRK,'UPQ',NPQ,ITYLCM)
        CALL LCMGPD(IPTRK,'JOP',JOP_PTR)
        CALL LCMGPD(IPTRK,'U',U_PTR)
        CALL LCMGPD(IPTRK,'UPQ',UPQ_PTR)
        CALL LCMGPD(IPTRK,'WPQ',WPQ_PTR)
        CALL LCMGPD(IPTRK,'ALPHA',ALPHA_PTR)
        CALL LCMGPD(IPTRK,'PLZ',PLZ_PTR)
        CALL LCMGPD(IPTRK,'PL',PL_PTR)
        CALL LCMGPD(IPTRK,'SURF',SURF_PTR)
        CALL LCMGET(IPTRK,'ZCODE',ZCODE)
        CALL C_F_POINTER(JOP_PTR,JOP,(/ M2 /))
        CALL C_F_POINTER(U_PTR,U,(/ NPQ /))
        CALL C_F_POINTER(UPQ_PTR,UPQ,(/ NPQ /))
        CALL C_F_POINTER(WPQ_PTR,WPQ,(/ NPQ /))
        CALL C_F_POINTER(ALPHA_PTR,ALPHA,(/ NPQ /))
        CALL C_F_POINTER(PLZ_PTR,PLZ,(/ NSCT*M2 /))
        CALL C_F_POINTER(PL_PTR,PL,(/ NSCT*NPQ /))
        CALL C_F_POINTER(SURF_PTR,SURF,(/ NREG+1 /))

        ! LOOP FOR GROUPS
        DO 120 II=1,NGEFF
        IF(.NOT.INCONV(II)) GO TO 120
        IF(IMPX.GT.2) WRITE(IUNOUT,510) NGIND(II),'SN/1D-cyl'

        ! FIXED VOLUMIC SOURCES
        QEXT(:NUN,II)=SUNKNO(:NUN,II)

        ! IN-GROUP SCATTERING
        DO 110 IR=1,NREG
        IBM=MAT(IR)
        IF(IBM.EQ.0) GO TO 110
        IOF=0
        DO 100 P=0,NANI-1
        DO 90 IM=0,P
        IF(MOD(P+IM,2).EQ.1) GO TO 90
        IOF=IOF+1
        IND=(IR-1)*NSCT+IOF
        QEXT(IND,II)=QEXT(IND,II)+SGAS(IBM,P+1,II)*FUNKNO(IND,II)
   90   CONTINUE
  100   CONTINUE
  110   CONTINUE

        ! ONE-SPEED FLUX CALCULATION
        CURR=0.0
        CALL SNFT1C(NREG,NBMIX,M2,NPQ,ISCAT,NSCT,JOP,U,UPQ,WPQ,ALPHA,
     1  PLZ,PL,MAT,VOL,SURF,SGAR(0,II),IGAV,QEXT(1,II),LFIXUP,CURR,
     2  FUNKNO(1,II))
        IF(ZCODE(2).NE.0.0) THEN
          CA=CURR
          CB=1.0
          CALL SNFT1C(NREG,NBMIX,M2,NPQ,ISCAT,NSCT,JOP,U,UPQ,WPQ,ALPHA,
     1    PLZ,PL,MAT,VOL,SURF,SGAR(0,II),IGAV,QEXT(1,II),LFIXUP,CB,
     2    FUNKNO(1,II))
          CURR=ZCODE(2)*CA/(1.0+ZCODE(2)*(CA-CB))
          CALL SNFT1C(NREG,NBMIX,M2,NPQ,ISCAT,NSCT,JOP,U,UPQ,WPQ,ALPHA,
     1    PLZ,PL,MAT,VOL,SURF,SGAR(0,II),IGAV,QEXT(1,II),LFIXUP,CURR,
     2    FUNKNO(1,II))
        ENDIF

  120   CONTINUE ! END OF ENERGY LOOP

      ELSE IF(ITYPE.EQ.4) THEN
*------------
* 1D SPHERE
*------------
        ! EXTRACTING PARAMETERS
        IF(IELEM.NE.1) CALL XABORT('SNFLUX: DIAM 0 EXPECTED(2).')
        NSCT=ISCAT
        IF(NSCT*NREG.GT.NUN) CALL XABORT('SNFLUX: QEXT OVERFLOW(3)')
        CALL LCMGPD(IPTRK,'U',U_PTR)
        CALL LCMGPD(IPTRK,'W',W_PTR)
        CALL LCMGPD(IPTRK,'ALPHA',ALPHA_PTR)
        CALL LCMGPD(IPTRK,'PLZ',PLZ_PTR)
        CALL LCMGPD(IPTRK,'PL',PL_PTR)
        CALL LCMGPD(IPTRK,'SURF',SURF_PTR)
        CALL LCMGPD(IPTRK,'XXX',XXX_PTR)
        CALL LCMGET(IPTRK,'ZCODE',ZCODE)
        CALL C_F_POINTER(U_PTR,U,(/ NLF /))
        CALL C_F_POINTER(W_PTR,W,(/ NLF /))
        CALL C_F_POINTER(ALPHA_PTR,ALPHA,(/ NLF /))
        CALL C_F_POINTER(PLZ_PTR,PLZ,(/ NSCT /))
        CALL C_F_POINTER(PL_PTR,PL,(/ NSCT*NLF /))
        CALL C_F_POINTER(SURF_PTR,SURF,(/ NREG+1 /))
        CALL C_F_POINTER(XXX_PTR,XXX,(/ NREG+1 /))

        ! LOOP FOR GROUPS
        DO 150 II=1,NGEFF
        IF(.NOT.INCONV(II)) GO TO 150
        IF(IMPX.GT.2) WRITE(IUNOUT,510) NGIND(II),'SN/1D-sph'

        ! FIXED VOLUMIC SOURCES
        QEXT(:NUN,II)=SUNKNO(:NUN,II)

        ! IN-GROUP SCATTERING
        DO 140 IR=1,NREG
        IBM=MAT(IR)
        IF(IBM.EQ.0) GO TO 140
        DO 130 P=0,NANI-1
        IND=(IR-1)*NSCT+P+1
        QEXT(IND,II)=QEXT(IND,II)+SGAS(IBM,P+1,II)*FUNKNO(IND,II)
  130   CONTINUE
  140   CONTINUE

        ! ONE-SPEED FLUX CALCULATION
        CURR=0.0
        CALL SNFT1S(NREG,NBMIX,NLF,NSCT,U,W,ALPHA,PLZ,PL,MAT,VOL,SURF,
     1  XXX,SGAR(0,II),IGAV,QEXT(1,II),LFIXUP,CURR,FUNKNO(1,II))
        IF(ZCODE(2).NE.0.0) THEN
          CA=CURR
          CB=1.0
          CALL SNFT1S(NREG,NBMIX,NLF,NSCT,U,W,ALPHA,PLZ,PL,MAT,VOL,
     1    SURF,XXX,SGAR(0,II),IGAV,QEXT(1,II),LFIXUP,CB,FUNKNO(1,II))
          CURR=ZCODE(2)*CA/(1.0+ZCODE(2)*(CA-CB))
          CALL SNFT1S(NREG,NBMIX,NLF,NSCT,U,W,ALPHA,PLZ,PL,MAT,VOL,
     1    SURF,XXX,SGAR(0,II),IGAV,QEXT(1,II),LFIXUP,CURR,FUNKNO(1,II))
        ENDIF

  150   CONTINUE ! END OF ENERGY LOOP

      ELSE IF((ITYPE.EQ.5).AND.(IBFP.EQ.0)) THEN
*------------
* 2D CARTESIAN
*------------
        ! EXTRACTING PARAMETERS
        NM=IELEM**2
        NMX=IELEM
        IF(NM*NSCT*NREG.GT.NUN) CALL XABORT('SNFLUX: QEXT OVE'
     1  //'RFLOW(4a)')
        CALL LCMLEN(IPTRK,'DU',NPQ,ITYLCM)
        CALL LCMGPD(IPTRK,'DU',DU_PTR)
        CALL LCMGPD(IPTRK,'DE',DE_PTR)
        CALL LCMGPD(IPTRK,'W',W_PTR)
        CALL LCMGPD(IPTRK,'MRM',MRM_PTR)
        CALL LCMGPD(IPTRK,'MRMY',MRMY_PTR)
        CALL LCMGPD(IPTRK,'DB',DB_PTR)
        CALL LCMGPD(IPTRK,'DA',DA_PTR)
        CALL LCMGPD(IPTRK,'WX',WX_PTR)
        CALL LCMGPD(IPTRK,'CST',CST_PTR)
        CALL LCMGPD(IPTRK,'IL',IL_PTR)
        CALL LCMGPD(IPTRK,'MN',MN_PTR)
        CALL LCMGPD(IPTRK,'DN',DN_PTR)
        CALL C_F_POINTER(DU_PTR,DU,(/ NPQ /))
        CALL C_F_POINTER(DE_PTR,DE,(/ NPQ /))
        CALL C_F_POINTER(W_PTR,W,(/ NPQ /))
        CALL C_F_POINTER(MRM_PTR,MRM,(/ NPQ /))
        CALL C_F_POINTER(MRMY_PTR,MRMY,(/ NPQ /))
        CALL C_F_POINTER(DB_PTR,DB,(/ LX*NPQ /))
        CALL C_F_POINTER(DA_PTR,DA,(/ LX*LY*NPQ /))
        CALL C_F_POINTER(WX_PTR,WX,(/ IELEM+1 /))
        CALL C_F_POINTER(CST_PTR,CST,(/ IELEM /))
        CALL C_F_POINTER(IL_PTR,IL,(/ NSCT /))
        CALL C_F_POINTER(MN_PTR,MN,(/ NPQ*NSCT /))
        CALL C_F_POINTER(DN_PTR,DN,(/ NPQ*NSCT /))
        CALL LCMGET(IPTRK,'NCODE',NCODE)
        CALL LCMGET(IPTRK,'ZCODE',ZCODE)

        ! LOOP FOR GROUPS
        DO 200 II=1,NGEFF
        IF(.NOT.INCONV(II)) GO TO 200
        IF(IMPX.GT.2) WRITE(IUNOUT,510) NGIND(II),'SN/2D-car'

        ! FIXED VOLUMIC SOURCES
        QEXT(:NUN,II)=SUNKNO(:NUN,II)

        ! IN-GROUP SCATTERING
        DO 190 IR=1,NREG
        IBM=MAT(IR)
        IF(IBM.EQ.0) GO TO 190
        IOF=0
        DO 180 P=1,NSCT
        IF(IL(P).GT.NANI-1) GO TO 180
        DO 160 IEL=1,NM
        IND=(IR-1)*NSCT*NM+(P-1)*NM+IEL
        QEXT(IND,II)=QEXT(IND,II)+SGAS(IBM,IL(P)+1,II)*FUNKNO(IND,II)
  160   CONTINUE
  180   CONTINUE
  190   CONTINUE
  200   CONTINUE ! END OF ENERGY LOOP
        IF(NKBA.EQ.0)THEN
          CALL SNFBC2(NUN,NGEFF,IMPX,INCONV,NGIND,LX,LY,IELEM,NM,NMX,
     1    NMX,NBMIX,NPQ,NSCT,MAT,VOL,SGAR,NCODE,ZCODE,QEXT,LFIXUP,
     2    DU,DE,W,MRM,MRMY,DB,DA,MN,DN,WX,WX,CST,LADPT(2:3),
     3    ISBS,SUM(NBS),ISBSM,BS,MAXL,FUNKNO)
        ELSE IF(NKBA.GT.0)THEN
          IF(ISBS.EQ.1) CALL XABORT('SNFLUX: BOUNDARY SOURCES NOT YET '
     1    //'VERIFIED WITH KBA ALGORITHM. YET TO BE VALIDATED. COMMENT '
     2    //'CALL TO XABORT, RECOMPILE AND PROCEED WITH CAUTION.')
          IF(ISCHM.EQ.3) CALL XABORT('SNFLUX: AWD METHOD NOT YET '
     1    //'VERIFIED WITH KBA ALGORITHM. YET TO BE VALIDATED. COMMENT '
     2    //'CALL TO XABORT, RECOMPILE AND PROCEED WITH CAUTION.')
          CALL SNFKC2(NKBA,NUN,NGEFF,IMPX,INCONV,NGIND,LX,LY,IELEM,NM,
     1    NMX,NMX,NBMIX,NPQ,NSCT,MAT,VOL,SGAR,NCODE,ZCODE,QEXT,LFIXUP,
     2    DU,DE,W,MRM,MRMY,DB,DA,MN,DN,WX,WX,CST,LADPT(2:3),
     3    ISBS,SUM(NBS),ISBSM,BS,MAXL,FUNKNO)
        ENDIF
      ELSE IF(ITYPE.EQ.5) THEN
*------------
* 2D CARTESIAN BOLTZMANN-FOKKER-PLANCK
*------------
        ! EXTRACTING PARAMETERS
        NM=IELEM**2*EELEM
        NME=IELEM**2
        NMX=IELEM*EELEM
        CALL LCMLEN(IPTRK,'DU',NPQ,ITYLCM)
        IF((NSCT*NM+NPQ*NME)*NREG.GT.NUN) THEN
          CALL XABORT('SNFLUX: QEXT OVERFLOW(4b)')
        ENDIF
        CALL LCMGPD(IPTRK,'DU',DU_PTR)
        CALL LCMGPD(IPTRK,'DE',DE_PTR)
        CALL LCMGPD(IPTRK,'W',W_PTR)
        CALL LCMGPD(IPTRK,'MRM',MRM_PTR)
        CALL LCMGPD(IPTRK,'MRMY',MRMY_PTR)
        CALL LCMGPD(IPTRK,'DB',DB_PTR)
        CALL LCMGPD(IPTRK,'DA',DA_PTR)
        CALL LCMGPD(IPTRK,'WX',WX_PTR)
        CALL LCMGPD(IPTRK,'WE',WE_PTR)
        CALL LCMGPD(IPTRK,'CST',CST_PTR)
        CALL LCMGPD(IPTRK,'IL',IL_PTR)
        CALL LCMGPD(IPTRK,'MN',MN_PTR)
        CALL LCMGPD(IPTRK,'DN',DN_PTR)
        CALL C_F_POINTER(DU_PTR,DU,(/ NPQ /))
        CALL C_F_POINTER(DE_PTR,DE,(/ NPQ /))
        CALL C_F_POINTER(W_PTR,W,(/ NPQ /))
        CALL C_F_POINTER(MRM_PTR,MRM,(/ NPQ /))
        CALL C_F_POINTER(MRMY_PTR,MRMY,(/ NPQ /))
        CALL C_F_POINTER(DB_PTR,DB,(/ LX*NPQ /))
        CALL C_F_POINTER(DA_PTR,DA,(/ LX*LY*NPQ /))
        CALL C_F_POINTER(WX_PTR,WX,(/ IELEM+1 /))
        CALL C_F_POINTER(WE_PTR,WE,(/ EELEM+1 /))
        CALL C_F_POINTER(CST_PTR,CST,(/ MAX(IELEM,EELEM) /))
        CALL C_F_POINTER(IL_PTR,IL,(/ NSCT /))
        CALL C_F_POINTER(MN_PTR,MN,(/ NPQ*NSCT /))
        CALL C_F_POINTER(DN_PTR,DN,(/ NPQ*NSCT /))
        CALL LCMGET(IPTRK,'NCODE',NCODE)
        CALL LCMGET(IPTRK,'ZCODE',ZCODE)

        ! ANGULAR FOKKER-PLANCK OPERATOR
        ALLOCATE(SIGMATR(NSCT,NSCT),MTR(NPQ,NPQ))
        SIGMATR=0.0
        DO P=1,NSCT
          SIGMATR(P,P)=-IL(P)*(IL(P)+1)
        ENDDO
        MTR=MATMUL(MATMUL(RESHAPE(MN,[NPQ,NSCT]),SIGMATR),
     1  RESHAPE(DN,[NSCT,NPQ]))
        LAMBDA0=0.0
        DO M=1,NPQ
          IF(MTR(M,M).LT.-LAMBDA0) LAMBDA0=-MTR(M,M)
        ENDDO
        DO M=1,NPQ
          MTR(M,M)=MTR(M,M)+LAMBDA0
        ENDDO
        SIGMATR=MATMUL(MATMUL(RESHAPE(DN,[NSCT, NPQ]),MTR),
     1  RESHAPE(MN,[NPQ,NSCT]))
        DEALLOCATE(MTR)
        DO II=1,NGEFF
        DO IBM=1,NBMIX
          SGAR(IBM,II)=SGAR(IBM,II)+LAMBDA0*EMOMTR(IBM,II)
        ENDDO
        ENDDO

        ! LOOP FOR GROUPS
        DO 250 II=1,NGEFF
        IF(.NOT.INCONV(II)) GO TO 250
        IF(IMPX.GT.2) WRITE(IUNOUT,510) NGIND(II),'SN-BFP/2D-car'

        ! FIXED VOLUMIC SOURCES
        QEXT(:NUN,II)=SUNKNO(:NUN,II)

        ! IN-GROUP SCATTERING
        DO 240 IR=1,NREG
        IBM=MAT(IR)
        IF(IBM.EQ.0) GO TO 240
        IOF=0
        DO 230 P=1,NSCT
        IF(IL(P).GT.NANI-1) GO TO 230
        DO 210 IEL=1,NM
        IND=(IR-1)*NSCT*NM+(P-1)*NM+IEL
        QEXT(IND,II)=QEXT(IND,II)+SGAS(IBM,IL(P)+1,II)*FUNKNO(IND,II)
        DO Q=1,NSCT
        JND=(IR-1)*NSCT*NM+(Q-1)*NM+IEL
        QEXT(IND,II)=QEXT(IND,II)+EMOMTR(IBM,II)*SIGMATR(P,Q)
     1  *FUNKNO(JND,II)
        ENDDO
  210   CONTINUE
  230   CONTINUE
  240   CONTINUE
  250   CONTINUE ! END OF ENERGY LOOP
        DEALLOCATE(SIGMATR)

        ! FLUX CALCULATION
        CALL SNFE2D(NUN,NGEFF,IMPX,INCONV,NGIND,LX,LY,IELEM,
     1  EELEM,NM,NME,NMX,NMX,NBMIX,NPQ,NSCT,MAT,VOL,SGAR,ESTOPW,
     2  NCODE,ZCODE,DELTAE,QEXT,LFIXUP,DU,DE,W,MRM,MRMY,DB,DA,FUNKNO,
     3  ISLG,FLUXC,ISBS,SUM(NBS),ISBSM,BS,MAXL,WX,WX,WE,CST,LADPT(1:3),
     4  IBFP,MN,DN)

      ELSE IF(ITYPE.EQ.6) THEN
*------------
* TUBE 2D (R-Z)
*------------
        ! EXTRACTING PARAMETERS
        IF(IELEM.NE.1) CALL XABORT('SNFLUX: DIAM 0 EXPECTED(3).')
        IF(NSCT*NREG.GT.NUN) CALL XABORT('SNFLUX: QEXT OVERFLOW(5)')
        CALL LCMLEN(IPTRK,'DU',NPQ,ITYLCM)
        CALL LCMGPD(IPTRK,'DU',DU_PTR)
        CALL LCMGPD(IPTRK,'DE',DE_PTR)
        CALL LCMGPD(IPTRK,'W',W_PTR)
        CALL LCMGPD(IPTRK,'MRM',MRM_PTR)
        CALL LCMGPD(IPTRK,'MRMY',MRMY_PTR)
        CALL LCMGPD(IPTRK,'DB',DB_PTR)
        CALL LCMGPD(IPTRK,'DA',DA_PTR)
        CALL LCMGPD(IPTRK,'DAL',DAL_PTR)
        CALL LCMGPD(IPTRK,'IL',IL_PTR)
        CALL LCMGPD(IPTRK,'MN',MN_PTR)
        CALL LCMGPD(IPTRK,'DN',DN_PTR)
        CALL C_F_POINTER(DU_PTR,DU,(/ NPQ /))
        CALL C_F_POINTER(DE_PTR,DE,(/ NPQ /))
        CALL C_F_POINTER(W_PTR,W,(/ NPQ /))
        CALL C_F_POINTER(MRM_PTR,MRM,(/ NPQ /))
        CALL C_F_POINTER(MRMY_PTR,MRMY,(/ NPQ /))
        CALL C_F_POINTER(DB_PTR,DB,(/ LX*NPQ /))
        CALL C_F_POINTER(DA_PTR,DA,(/ LX*LY*NPQ /))
        CALL C_F_POINTER(DAL_PTR,DAL,(/ LX*LY*NPQ /))
        CALL C_F_POINTER(IL_PTR,IL,(/ NSCT /))
        CALL C_F_POINTER(MN_PTR,MN,(/ NPQ*NSCT /))
        CALL C_F_POINTER(DN_PTR,DN,(/ NPQ*NSCT /))
        CALL LCMGET(IPTRK,'NCODE',NCODE)
        CALL LCMGET(IPTRK,'ZCODE',ZCODE)

        ! LOOP FOR GROUPS
        DO 290 II=1,NGEFF
        IF(.NOT.INCONV(II)) GO TO 290
        IF(IMPX.GT.2) WRITE(IUNOUT,510) NGIND(II),'SN/2D-rz'

        ! FIXED VOLUMIC SOURCES
        QEXT(:NUN,II)=SUNKNO(:NUN,II)

        ! IN-GROUP SCATTERING
        DO 280 IR=1,NREG
        IBM=MAT(IR)
        IF(IBM.EQ.0) GO TO 280
        IOF=0
        DO 270 P=1,NSCT
        IF(IL(P).GT.MIN(ISCAT,NANI)-1) GO TO 270
        IND=(IR-1)*NSCT+(P-1)*IELEM*IELEM+1
        QEXT(IND,II)=QEXT(IND,II)+SGAS(IBM,IL(P)+1,II)*FUNKNO(IND,II)
  270   CONTINUE
  280   CONTINUE

        ! ONE-SPEED FLUX CALCULATION
        CALL SNFC12(LX,LY,NBMIX,NPQ,NSCT,MAT,VOL,SGAR(0,II),NCODE,ZCODE,
     1  QEXT(1,II),LFIXUP,DU,DE,W,MRM,MRMY,DB,DA,DAL,FUNKNO(1,II),
     2  FUNKNO(L4+1,II),FUNKNO(L4+IELEM*LY*NPQ+1,II),MN,DN)

  290   CONTINUE ! END OF ENERGY GROUP

      ELSE IF((ITYPE.EQ.7).AND.(IBFP.EQ.0)) THEN
*----
*  3D CARTESIAN CASE
*----
        ! EXTRACTING PARAMETERS
        NM=IELEM**3
        NMX=IELEM**2
        IF(NM*NSCT*NREG.GT.NUN) CALL XABORT('SNFLUX: QE'
     1  //'XT OVERFLOW(6a)')
        CALL LCMLEN(IPTRK,'DU',NPQ,ITYLCM)
        CALL LCMGPD(IPTRK,'DU',DU_PTR)
        CALL LCMGPD(IPTRK,'DE',DE_PTR)
        CALL LCMGPD(IPTRK,'DZ',DZ_PTR)
        CALL LCMGPD(IPTRK,'W',W_PTR)
        CALL LCMGPD(IPTRK,'MRMX',MRMX_PTR)
        CALL LCMGPD(IPTRK,'MRMY',MRMY_PTR)
        CALL LCMGPD(IPTRK,'MRMZ',MRMZ_PTR)
        CALL LCMGPD(IPTRK,'DC',DC_PTR)
        CALL LCMGPD(IPTRK,'DB',DB_PTR)
        CALL LCMGPD(IPTRK,'DA',DA_PTR)
        CALL LCMGPD(IPTRK,'WX',WX_PTR)
        CALL LCMGPD(IPTRK,'CST',CST_PTR)
        CALL LCMGPD(IPTRK,'IL',IL_PTR)
        CALL LCMGPD(IPTRK,'MN',MN_PTR)
        CALL LCMGPD(IPTRK,'DN',DN_PTR)
        CALL C_F_POINTER(DU_PTR,DU,(/ NPQ /))
        CALL C_F_POINTER(DE_PTR,DE,(/ NPQ /))
        CALL C_F_POINTER(DZ_PTR,DZ,(/ NPQ /))
        CALL C_F_POINTER(W_PTR,W,(/ NPQ /))
        CALL C_F_POINTER(MRMX_PTR,MRMX,(/ NPQ /))
        CALL C_F_POINTER(MRMY_PTR,MRMY,(/ NPQ /))
        CALL C_F_POINTER(MRMZ_PTR,MRMZ,(/ NPQ /))
        CALL C_F_POINTER(DC_PTR,DC,(/ LX*LY*NPQ /))
        CALL C_F_POINTER(DB_PTR,DB,(/ LX*LY*NPQ /))
        CALL C_F_POINTER(DA_PTR,DA,(/ LX*LY*NPQ /))
        CALL C_F_POINTER(WX_PTR,WX,(/ IELEM+1 /))
        CALL C_F_POINTER(CST_PTR,CST,(/ IELEM /))
        CALL C_F_POINTER(IL_PTR,IL,(/ NSCT /))
        CALL C_F_POINTER(MN_PTR,MN,(/ NPQ*NSCT /))
        CALL C_F_POINTER(DN_PTR,DN,(/ NPQ*NSCT /))
        CALL LCMGET(IPTRK,'NCODE',NCODE)
        CALL LCMGET(IPTRK,'ZCODE',ZCODE)
        
        ! LOOP FOR GROUPS
        DO 340 II=1,NGEFF
        IF(.NOT.INCONV(II)) GO TO 340
        IF(IMPX.GT.2) WRITE(IUNOUT,510) NGIND(II),'SN/3D-car'

        ! FIXED VOLUMIC SOURCES
        QEXT(:NUN,II)=SUNKNO(:NUN,II)

        ! IN-GROUP SCATTERING
        DO 330 IR=1,NREG
        IBM=MAT(IR)
        IF(IBM.EQ.0) GO TO 330
        IOF=0
        DO 320 P=1,NSCT
        IF(IL(P).GT.NANI-1) GO TO 320
        DO 300 IEL=1,NM
        IND=(IR-1)*NSCT*NM+(P-1)*NM+IEL
        QEXT(IND,II)=QEXT(IND,II)+SGAS(IBM,IL(P)+1,II)*FUNKNO(IND,II)
  300   CONTINUE
  320   CONTINUE
  330   CONTINUE
  340   CONTINUE ! END OF ENERGY LOOP

        ! FLUX CALCULATION
        IF(NKBA.EQ.0)THEN
          CALL SNFBC3(NUN,NGEFF,IMPX,INCONV,NGIND,LX,LY,LZ,IELEM,NM,NMX,
     1    NMX,NMX,NBMIX,NPQ,NSCT,MAT,VOL,SGAR,NCODE,ZCODE,QEXT,LFIXUP,
     2    DU,DE,DZ,W,MRMX,MRMY,MRMZ,DC,DB,DA,MN,DN,WX,WX,WX,CST,
     3    LADPT(2:4),ISBS,SUM(NBS),ISBSM,BS,MAXL,FUNKNO)
        ELSE IF(NKBA.GT.0)THEN
          IF(ISBS.EQ.1) CALL XABORT('SNFLUX: BOUNDARY SOURCES NOT YET '
     1    //'VERIFIED WITH KBA ALGORITHM. YET TO BE VALIDATED. COMMENT '
     2    //'CALL TO XABORT, RECOMPILE AND PROCEED WITH CAUTION.')
          IF(ISCHM.EQ.3) CALL XABORT('SNFLUX: AWD METHOD NOT YET '
     1    //'VERIFIED WITH KBA ALGORITHM. YET TO BE VALIDATED. COMMENT '
     2    //'CALL TO XABORT, RECOMPILE AND PROCEED WITH CAUTION.')
          CALL SNFKC3(NKBA,NUN,NGEFF,IMPX,INCONV,NGIND,LX,LY,LZ,IELEM,
     1    NM,NMX,NMX,NMX,NBMIX,NPQ,NSCT,MAT,VOL,SGAR,NCODE,ZCODE,QEXT,
     2    LFIXUP,DU,DE,DZ,W,MRMX,MRMY,MRMZ,DC,DB,DA,MN,DN,WX,WX,WX,CST,
     3    LADPT(2:4),ISBS,SUM(NBS),ISBSM,BS,MAXL,FUNKNO)
        ENDIF
      ELSE IF(ITYPE.EQ.7) THEN
*------------
* 3D CARTESIAN BOLTZMANN-FOKKER-PLANCK
*------------
        ! EXTRACTING PARAMETERS
        NM=IELEM**3*EELEM
        NME=IELEM**3
        NMX=IELEM**2*EELEM
        CALL LCMLEN(IPTRK,'DU',NPQ,ITYLCM)
        IF((NSCT*NM+NPQ*NME)*NREG.GT.NUN) THEN
          CALL XABORT('SNFLUX: QEXT OVERFLOW(6b)')
        ENDIF
        CALL LCMGPD(IPTRK,'DU',DU_PTR)
        CALL LCMGPD(IPTRK,'DE',DE_PTR)
        CALL LCMGPD(IPTRK,'DZ',DZ_PTR)
        CALL LCMGPD(IPTRK,'W',W_PTR)
        CALL LCMGPD(IPTRK,'MRMX',MRMX_PTR)
        CALL LCMGPD(IPTRK,'MRMY',MRMY_PTR)
        CALL LCMGPD(IPTRK,'MRMZ',MRMZ_PTR)
        CALL LCMGPD(IPTRK,'DC',DC_PTR)
        CALL LCMGPD(IPTRK,'DB',DB_PTR)
        CALL LCMGPD(IPTRK,'DA',DA_PTR)
        CALL LCMGPD(IPTRK,'WX',WX_PTR)
        CALL LCMGPD(IPTRK,'WE',WE_PTR)
        CALL LCMGPD(IPTRK,'CST',CST_PTR)
        CALL LCMGPD(IPTRK,'IL',IL_PTR)
        CALL LCMGPD(IPTRK,'MN',MN_PTR)
        CALL LCMGPD(IPTRK,'DN',DN_PTR)
        CALL C_F_POINTER(DU_PTR,DU,(/ NPQ /))
        CALL C_F_POINTER(DE_PTR,DE,(/ NPQ /))
        CALL C_F_POINTER(DZ_PTR,DZ,(/ NPQ /))
        CALL C_F_POINTER(W_PTR,W,(/ NPQ /))
        CALL C_F_POINTER(MRMX_PTR,MRMX,(/ NPQ /))
        CALL C_F_POINTER(MRMY_PTR,MRMY,(/ NPQ /))
        CALL C_F_POINTER(MRMZ_PTR,MRMZ,(/ NPQ /))
        CALL C_F_POINTER(DC_PTR,DC,(/ LX*LY*NPQ /))
        CALL C_F_POINTER(DB_PTR,DB,(/ LX*LY*NPQ /))
        CALL C_F_POINTER(DA_PTR,DA,(/ LX*LY*NPQ /))
        CALL C_F_POINTER(WX_PTR,WX,(/ IELEM+1 /))
        CALL C_F_POINTER(WE_PTR,WE,(/ EELEM+1 /))
        CALL C_F_POINTER(CST_PTR,CST,(/ MAX(IELEM,EELEM) /))
        CALL C_F_POINTER(IL_PTR,IL,(/ NSCT /))
        CALL C_F_POINTER(MN_PTR,MN,(/ NPQ*NSCT /))
        CALL C_F_POINTER(DN_PTR,DN,(/ NPQ*NSCT /))
        CALL LCMGET(IPTRK,'NCODE',NCODE)
        CALL LCMGET(IPTRK,'ZCODE',ZCODE)

        ! ANGULAR FOKKER-PLANCK OPERATOR
        ALLOCATE(SIGMATR(NSCT,NSCT),MTR(NPQ,NPQ))
        SIGMATR=0.0
        DO P=1,NSCT
          SIGMATR(P,P)=-IL(P)*(IL(P)+1)
        ENDDO
        MTR=MATMUL(MATMUL(RESHAPE(MN,[NPQ, NSCT]),SIGMATR),
     1  RESHAPE(DN,[NSCT,NPQ]))
        LAMBDA0=0.0
        DO M=1,NPQ
          IF(MTR(M,M).LT.-LAMBDA0) LAMBDA0=-MTR(M,M)
        ENDDO
        DO M=1,NPQ
          MTR(M,M)=MTR(M,M)+LAMBDA0
        ENDDO
        SIGMATR=MATMUL(MATMUL(RESHAPE(DN,[NSCT,NPQ]),MTR),
     1  RESHAPE(MN,[NPQ,NSCT]))
        DEALLOCATE(MTR)
        DO II=1,NGEFF
        DO IBM=1,NBMIX
          SGAR(IBM,II)=SGAR(IBM,II)+LAMBDA0*EMOMTR(IBM,II)
        ENDDO
        ENDDO

        ! LOOP FOR GROUPS
        DO 390 II=1,NGEFF
        IF(.NOT.INCONV(II)) GO TO 390
        IF(IMPX.GT.2) WRITE(IUNOUT,510) NGIND(II),'SN-BFP/3D-car'

        ! FIXED VOLUMIC SOURCES
        QEXT(:NUN,II)=SUNKNO(:NUN,II)

        ! IN-GROUP SCATTERING
        DO 380 IR=1,NREG
        IBM=MAT(IR)
        IF(IBM.EQ.0) GO TO 380
        IOF=0
        DO 370 P=1,NSCT
        IF(IL(P).GT.NANI-1) GO TO 370
        DO 350 IEL=1,NM
        IND=(IR-1)*NSCT*NM+(P-1)*NM+IEL
        QEXT(IND,II)=QEXT(IND,II)+SGAS(IBM,IL(P)+1,II)*FUNKNO(IND,II)
        DO Q=1,NSCT
        JND=(IR-1)*NSCT*NM+(Q-1)*NM+IEL
        QEXT(IND,II)=QEXT(IND,II)+EMOMTR(IBM,II)*SIGMATR(P,Q)
     1  *FUNKNO(JND,II)
        ENDDO
  350   CONTINUE
  370   CONTINUE
  380   CONTINUE
  390   CONTINUE ! END OF ENERGY LOOP
        DEALLOCATE(SIGMATR)

        ! FLUX CALCULATION
        CALL SNFE3D(NUN,NGEFF,IMPX,INCONV,NGIND,LX,LY,LZ,
     1  IELEM,EELEM,NM,NME,NMX,NMX,NMX,NBMIX,NPQ,NSCT,MAT,VOL,SGAR,
     2  ESTOPW,NCODE,ZCODE,DELTAE,QEXT,LFIXUP,DU,DE,DZ,W,MRMX,MRMY,MRMZ,
     3  DC,DB,DA,FUNKNO,ISLG,FLUXC,ISBS,SUM(NBS),ISBSM,BS,MAXL,
     4  WX,WX,WX,WE,CST,LADPT,IBFP,MN,DN)

      ELSE IF(ITYPE.EQ.8) THEN
*------------
* 2D HEXAGONAL
*------------
        ! EXTRACTING PARAMETERS
        NM=IELEM**2
        NMX=IELEM
        IF(NM*NSCT*NREG.GT.NUN) CALL XABORT('SNFLUX: QEXT OVE'
     1  //'RFLOW(7)')
        CALL LCMLEN(IPTRK,'DU',NPQ,ITYLCM)
        CALL LCMGPD(IPTRK,'DU',DU_PTR)
        CALL LCMGPD(IPTRK,'DE',DE_PTR)
        CALL LCMGPD(IPTRK,'W',W_PTR)
        CALL LCMGPD(IPTRK,'DB',DB_PTR)
        CALL LCMGPD(IPTRK,'DA',DA_PTR)
        CALL LCMGPD(IPTRK,'WX',WX_PTR)
        CALL LCMGPD(IPTRK,'CST',CST_PTR)
        CALL LCMGPD(IPTRK,'IL',IL_PTR)
        CALL LCMGPD(IPTRK,'MN',MN_PTR)
        CALL LCMGPD(IPTRK,'DN',DN_PTR)
        CALL C_F_POINTER(DU_PTR,DU,(/ NPQ /))
        CALL C_F_POINTER(DE_PTR,DE,(/ NPQ /))
        CALL C_F_POINTER(W_PTR,W,(/ NPQ /))
        CALL C_F_POINTER(DB_PTR,DB,(/ LX*NPQ /))
        CALL C_F_POINTER(DA_PTR,DA,(/ LX*LY*NPQ /))
        CALL C_F_POINTER(WX_PTR,WX,(/ IELEM+1 /))
        CALL C_F_POINTER(CST_PTR,CST,(/ IELEM /))
        CALL C_F_POINTER(IL_PTR,IL,(/ NSCT /))
        CALL C_F_POINTER(MN_PTR,MN,(/ NPQ*NSCT /))
        CALL C_F_POINTER(DN_PTR,DN,(/ NPQ*NSCT /))
        CALL LCMGET(IPTRK,'SIDE',SIDE)
        CALL LCMGET(IPTRK,'LOZSWP',LOZSWP)
        NHEX=LX/(3*ISPLH**2)
        ALLOCATE(COORDMAP(3,NHEX))
        CALL LCMGET(IPTRK,'COORDMAP',COORDMAP)

        ! LOOP FOR GROUPS
        DO 440 II=1,NGEFF
        IF(.NOT.INCONV(II)) GO TO 440
        IF(IMPX.GT.2) WRITE(IUNOUT,510) NGIND(II),'SN/2D-hex'

        ! FIXED VOLUMIC SOURCES
        QEXT(:NUN,II)=SUNKNO(:NUN,II)

        ! IN-GROUP SCATTERING
        DO 430 IR=1,NREG
        IBM=MAT(IR)
        IF(IBM.EQ.0) GO TO 430
        IOF=0
        DO 420 P=1,NSCT
        IF(IL(P).GT.NANI-1) GO TO 420
        DO 400 IEL=1,NM
        IND=(((IR-1)*NSCT+(P-1))*NM)+IEL
        QEXT(IND,II)=QEXT(IND,II)+SGAS(IBM,IL(P)+1,II)*FUNKNO(IND,II)
  400   CONTINUE
  420   CONTINUE
  430   CONTINUE
  440   CONTINUE ! END OF ENERGY LOOP

        ! FLUX CALCULATION
        IF(NKBA.EQ.0)THEN
          CALL SNFBH2(NUN,NGEFF,IMPX,INCONV,NGIND,NHEX,ISPLH,SIDE,
     1    IELEM,NM,NMX,NMX,NBMIX,NPQ,NSCT,MAT,VOL,SGAR,QEXT,LFIXUP,DU,
     2    DE,W,DB,DA,MN,DN,WX,WX,CST,LADPT(2:3),LOZSWP,COORDMAP,
     3    FUNKNO)
        ELSE IF(NKBA.GE.1)THEN
          IF(ISCHM.EQ.3) CALL XABORT('SNFLUX: AWD METHOD NOT YET '
     1    //'VERIFIED WITH KBA ALGORITHM. YET TO BE VALIDATED. COMMENT '
     2    //'CALL TO XABORT, RECOMPILE AND PROCEED WITH CAUTION.')
          CALL SNFKH2(NUN,NGEFF,IMPX,INCONV,NGIND,NHEX,ISPLH,SIDE,
     1    IELEM,NM,NMX,NMX,NBMIX,NPQ,NSCT,MAT,VOL,SGAR,QEXT,LFIXUP,DU,
     2    DE,W,DB,DA,MN,DN,WX,WX,CST,LADPT(2:3),LOZSWP,COORDMAP,
     3    FUNKNO)

        ENDIF
        DEALLOCATE(COORDMAP)

      ELSE IF(ITYPE.EQ.9) THEN
*------------
* 3D HEXAGONAL
*------------
        ! EXTRACTING PARAMETERS
        NM=IELEM**3
        NMX=IELEM**2
        IF(IELEM*IELEM*IELEM*NSCT*NREG.GT.NUN) CALL XABORT('SNFLUX: QE'
     1  //'XT OVERFLOW(8)')
        CALL LCMLEN(IPTRK,'DU',NPQ,ITYLCM)
        CALL LCMGPD(IPTRK,'DU',DU_PTR)
        CALL LCMGPD(IPTRK,'DE',DE_PTR)
        CALL LCMGPD(IPTRK,'DZ',DZ_PTR)
        CALL LCMGPD(IPTRK,'W',W_PTR)
        CALL LCMGPD(IPTRK,'MRMZ',MRMZ_PTR)
        CALL LCMGPD(IPTRK,'DC',DC_PTR)
        CALL LCMGPD(IPTRK,'DB',DB_PTR)
        CALL LCMGPD(IPTRK,'DA',DA_PTR)
        CALL LCMGPD(IPTRK,'WX',WX_PTR)
        CALL LCMGPD(IPTRK,'CST',CST_PTR)
        CALL LCMGPD(IPTRK,'IL',IL_PTR)
        CALL LCMGPD(IPTRK,'MN',MN_PTR)
        CALL LCMGPD(IPTRK,'DN',DN_PTR)
        CALL C_F_POINTER(DU_PTR,DU,(/ NPQ /))
        CALL C_F_POINTER(DE_PTR,DE,(/ NPQ /))
        CALL C_F_POINTER(DZ_PTR,DZ,(/ NPQ /))
        CALL C_F_POINTER(W_PTR,W,(/ NPQ /))
        CALL C_F_POINTER(MRMZ_PTR,MRMZ,(/ NPQ /))
        CALL C_F_POINTER(DC_PTR,DC,(/ LX*LY*NPQ /))
        CALL C_F_POINTER(DB_PTR,DB,(/ LX*LY*NPQ /))
        CALL C_F_POINTER(DA_PTR,DA,(/ LX*LY*NPQ /))
        CALL C_F_POINTER(IL_PTR,IL,(/ NSCT /))
        CALL C_F_POINTER(WX_PTR,WX,(/ IELEM+1 /))
        CALL C_F_POINTER(CST_PTR,CST,(/ IELEM /))
        CALL C_F_POINTER(MN_PTR,MN,(/ NPQ*NSCT /))
        CALL C_F_POINTER(DN_PTR,DN,(/ NPQ*NSCT /))
        CALL LCMGET(IPTRK,'NCODE',NCODE)
        CALL LCMGET(IPTRK,'ZCODE',ZCODE)
        CALL LCMGET(IPTRK,'SIDE',SIDE)
        CALL LCMGET(IPTRK,'LOZSWP',LOZSWP)
        ! Number of hexagons in one plane only
        NHEX=LX/(3*ISPLH**2)
        ALLOCATE(COORDMAP(3,NHEX))
        CALL LCMGET(IPTRK,'COORDMAP',COORDMAP)

        ! LOOP FOR GROUPS
        DO 490 II=1,NGEFF
        IF(.NOT.INCONV(II)) GO TO 490
        IF(IMPX.GT.2) WRITE(IUNOUT,510) NGIND(II),'SN/3D-hex'

        ! FIXED VOLUMIC SOURCES
        QEXT(:NUN,II)=SUNKNO(:NUN,II)

        ! IN-GROUP SCATTERING
        DO 480 IR=1,NREG
        IBM=MAT(IR)
        IF(IBM.EQ.0) GO TO 480
        IOF=0
        DO 470 P=1,NSCT
        IF(IL(P).GT.NANI-1) GO TO 470
        DO 450 IEL=1,IELEM*IELEM*IELEM
        IND=(((IR-1)*NSCT+(P-1))*IELEM**3)+IEL
        QEXT(IND,II)=QEXT(IND,II)+SGAS(IBM,IL(P)+1,II)*FUNKNO(IND,II)
  450   CONTINUE
  470   CONTINUE
  480   CONTINUE
  490   CONTINUE ! END OF ENERGY LOOP

        ! FLUX CALCULATION
        IF(NKBA.EQ.0)THEN
          CALL SNFBH3(NUN,NGEFF,IMPX,INCONV,NGIND,NHEX,LZ,ISPLH,SIDE,
     1    IELEM,NM,NMX,NMX,NMX,NBMIX,NPQ,NSCT,MAT,VOL,SGAR,NCODE,ZCODE,
     2    QEXT,LFIXUP,DU,DE,DZ,W,MRMZ,DC,DB,DA,MN,DN,WX,WX,WX,CST,
     3    LADPT(2:4),LOZSWP,COORDMAP,FUNKNO)
        ELSE IF(NKBA.GE.1)THEN
          IF(ISCHM.EQ.3) CALL XABORT('SNFLUX: AWD METHOD NOT YET '
     1    //'VERIFIED WITH KBA ALGORITHM. YET TO BE VALIDATED. COMMENT '
     2    //'CALL TO XABORT, RECOMPILE AND PROCEED WITH CAUTION.')
          CALL SNFKH3(NKBA,NUN,NGEFF,IMPX,INCONV,NGIND,NHEX,LZ,ISPLH,
     1    SIDE,IELEM,NM,NMX,NMX,NMX,NBMIX,NPQ,NSCT,MAT,VOL,SGAR,NCODE,
     2    ZCODE,QEXT,LFIXUP,DU,DE,DZ,W,MRMZ,DC,DB,DA,MN,DN,WX,WX,WX,
     3    CST,LADPT(2:4),LOZSWP,COORDMAP,FUNKNO)
        ENDIF
        DEALLOCATE(COORDMAP)
      ELSE
        CALL XABORT('SNFLUX: TYPE OF DISCRETIZATION NOT IMPLEMENTED.')
      ENDIF
      DEALLOCATE(ESTOPW,SGAS,SGAR)
*----
*  PRINT COMPLETE UNKNOWN VECTOR.
*----
      DO 495 II=1,NGEFF
         IF(.NOT.INCONV(II)) GO TO 495
         IF(IMPX.GT.5) THEN
            WRITE(IUNOUT,520) NGIND(II)
            WRITE(IUNOUT,'(1P,4(5X,E15.7))') (FUNKNO(:,II))
         ENDIF
  495 CONTINUE
*----
*  DIFFUSION SYNTHETIC ACCELERATION.
*----
      IF(LDSA) THEN
         ISOLVSA=IPAR(33)

         CALL LCMSIX(IPTRK,'DSA',1)
         CALL LCMGET(IPTRK,'KEYFLX',KEYSPN)
         CALL LCMGET(IPTRK,'STATE-VECTOR',IPAR)
         IF(NREG.NE.IPAR(1)) CALL XABORT('SNFLUX: INVALID NREG (DSA).')
         NUNSA=IPAR(2)
         ITYPE=IPAR(6)

         IF((ITYPE.EQ.7).OR.(ITYPE.EQ.9)) THEN
            IELEMSA=IPAR(9)
         ELSE
            IF(ISOLVSA.EQ.1)THEN
               IELEMSA=IPAR(8)
            ELSEIF(ISOLVSA.EQ.2)THEN
               IELEMSA=IPAR(9)
            ENDIF
         ENDIF

         IMPY=MAX(0,IMPX-1)
         CALL LCMSIX(IPTRK,' ',2)

         CALL SNDSA(KPSYS,INCONV,NGIND,IPTRK,IMPY,NGEFF,NREG,NBMIX,
     1   NUN,MAT,VOL,KEYFLX,KEYSPN,NUNSA,IELEMSA,ZCODE,OLD,FUNKNO,
     2   NHEX)

         DEALLOCATE(OLD)
      ENDIF
*----
*  SCRATCH STORAGE DEALLOCATION
*----
      DEALLOCATE(DELTAE,KEYSPN,QEXT,BS,ISBSM)
      RETURN
*
  500 FORMAT(//41H SNFLUX: N E U T R O N    S O U R C E S (,I5,3H ):)
  510 FORMAT(/25H SNFLUX: PROCESSING GROUP,I5,6H WITH ,A,1H.)
  520 FORMAT(//41H SNFLUX: A F T E R    T R A N S P O R T (,I5,3H ):)
      END