path: root/Dragon/src/XHXTRK.f

*DECK XHXTRK
      SUBROUTINE XHXTRK(IPTRK ,IPGEOM,GEONAM,IDISP ,IFTEMP,
     >                  IPRT  ,NDIM  ,ITOPT ,NV    ,NS    ,NANGL ,
     >                  ISYMM ,DENS  ,PCORN ,MXSEG ,ICODE ,TITREC)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Call all routines for the production of tracks for the 
* hexagonal geometry.
*
*Copyright:
* Copyright (C) 1991 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): M. Ouisloumen
*
*Parameters: input
* IPTRK   pointer to the excell tracking.
* IPGEOM  pointer to the geometry.        
* GEONAM  geometry name.                  
* IFTEMP  temporary tracking file.        
* IPRT    print option.                   
* TITREC  title for execution.            
*
*Parameters: input/output
* IDISP   tracking file disposition:
*         = -2 no traking - only analyse geometry
*              then abort (option halt);
*         = -1 modify tracking file;
*         =  0 old tracking file;
*         =  1 new tracking file.
*
*Parameters: output
* NDIM    number of physical dimensions.
* ITOPT   tracking option:
*         = 0 finite;  = 1 cyclic.
* NV      number of physical regions.
* NS      number of outer surface.
* NANGL   number of angles.
* ISYMM   symmetry factor.
* DENS    track density.
* PCORN   corner proximity.
* MXSEG   maximum segment length.
* ICODE   albedo associated with face.
*
*-----------------------------------------------------------------------
*
      USE             GANLIB
      IMPLICIT        NONE
      INTEGER         IOUT,NSTATE
      CHARACTER*6     NAMSBR
      DOUBLE PRECISION PI
      PARAMETER      (IOUT=6,NSTATE=40,PI=3.141592653589793D0,
     >                NAMSBR='XHXTRK')
*----
*  ROUTINE PARAMETERS
*----
      TYPE(C_PTR)     IPTRK,IPGEOM
      INTEGER         IDISP,IFTEMP,IPRT,NDIM,MXSEG,ITOPT,NV,NS,NANGL,
     >                ISYMM,ICODE(6)
      CHARACTER       GEONAM*12,TITREC*72
      REAL            DENS,PCORN
*----
*  LOCAL VARIABLES
*---- 
      INTEGER        KDROPN,KDRCLS
      INTEGER        IFILE,IER
      INTEGER        ISTATE(NSTATE),NCODE(6),IPARAM(NSTATE)
      INTEGER        NEIGHB
      LOGICAL        SECTOR
      REAL           ALBEDO(6),DENUSR,DENUSZ,EXTKOP(NSTATE)
      DOUBLE PRECISION DBLINP,AUX,SINT,SINF,COST,COSF,
     >               SINT1,SINF1,COST1,COSF1
      DOUBLE PRECISION COS1,COS2,COS3,PASY,PASZ,PPASY,PPASZ,
     >               RAYON,POIDS,DZMIN,DZMAX,DSIDE
      INTEGER        NSOUT,ILNLCM,ITPLCM,NSMIN,NSMAX,NCELA,MVOLUM,
     >               MMESH,LINMAX,LTRK,NANGLE,INDLEC,NGLE,NPHI,NTETA,
     >               IQUAD,INDATA,IHEX,LEVEL,NCL,NCOUR,IPLANZ,NCPHY,
     >               NREGIO,LXI,MCODE,IPLANI,NCELAP,IDIM1,IDIM2,
     >               IAUX,IA,KGAUS,IG,JG,JAUX,MAXCYL,I,J,MAXSEC,MMAXS,
     >               NALBG,NSURF,MACP,MTT,MT0,NBLINE,KANG,ICC,ICC1,
     >               ICORN,IFCC1,IXX,IYY,IYY0,NCEL2,IVV,II,IAUXS,
     >               IAUXX,IANG,ISS,ISUR
      REAL           POIDSH,RCUTOF,CUTOFX,DEN,REDATA,SIDE,ZMIN,SQRT3
      CHARACTER      TEDATA*8,COMENT*80
*----
*  ALLOCATABLE ARRAYS
*----
      INTEGER, ALLOCATABLE, DIMENSION(:) :: KEYMRG,MATALB,LATV,ICEL,
     + IPLAN,IFACB,IFFV,ISURB,IVSYM,ISSYM,IMAT,KCORN,IVOIS,MATRT,SURL,
     + IV0
      REAL, ALLOCATABLE, DIMENSION(:) :: VOLSUR,MESH,XGS,WGS,XGS1,
     + WGS1,WW,A1,A2,A3,T0,T1,RAUX
      DOUBLE PRECISION, ALLOCATABLE, DIMENSION(:) :: ANGLES,DENSTY,POP
*----
*  DATA AND COMMONS
*----
      CHARACTER       CSTOP*8,CTISO*8, CTSPC*8,CNOTR*8, CBLAN*8,
     >                CGAUS*8, CEQW*8
      SAVE             CSTOP,CTISO,CTSPC,CNOTR,CBLAN,CGAUS,CEQW
      DATA             CSTOP,CTISO,CTSPC,CNOTR,CBLAN,CGAUS,CEQW
     >              / 'STOP','TISO','TSPC', 'NOTR','    ' ,
     >                'GAUS','EQW' /
      PCORN=0.0
      DENS=0.0
      ISYMM=1
*
** 2.1) TAKE THE ORIGINAL GEOMETRY.
      ISTATE(:NSTATE)=0
      CALL LCMLEN(IPGEOM,'STATE-VECTOR',ILNLCM,ITPLCM)
      IF (ILNLCM .GT. 0 .AND. ILNLCM .LE. NSTATE) THEN
        CALL LCMGET(IPGEOM,'STATE-VECTOR',ISTATE)
      ELSE
        CALL XABORT('XHXTRK: INVALID STATE VECTOR IN GEOMETRY')
      ENDIF
      CALL LCMGET(IPGEOM,'NCODE',NCODE)
      NDIM=2
      IF(ISTATE(5).GT.0) NDIM=3
*
      NSMIN = 0
      NSMAX = 0
      NCELA = 0
      MVOLUM= 0
      MMESH = 0
      LINMAX= 0
      LTRK  = 0
      NANGLE= 0
      DENUSR=10.0
      DENUSZ=10.0
      RCUTOF= 0.0
      CUTOFX= 0.0
      TEDATA= CBLAN
      IQUAD=0
*
** 1) READ ALL USER INPUT.
*
*     READ TRACKING PARAMETERS  LTRK= 0 : NO  TRACKING
*                               LTRK= 1 : ISOTROPIC TRACKING   (TISO)
*                               LTRK= 2 : SPECULAR TRACKING    (TSPC)
      IF( IDISP.GT.0 )THEN
         CALL REDGET( INDLEC, NGLE, DEN, TEDATA, DBLINP)
         IF( INDLEC.NE.3 ) THEN
           CALL XABORT('XHXTRK: TYPE OF INTEGRATION NOT SPECIFIED ')
         ENDIF
         LTRK=1
         IF( TEDATA(1:4).EQ.CSTOP(1:4) ) THEN
*
*  INITIALISATION PAR DEFAUT
*
            NPHI=5
            NTETA=5
            IQUAD=1
            GOTO 55
         ELSEIF( TEDATA(1:4).EQ.CTISO(1:4) ) THEN
            LTRK=1
            IQUAD=2
            NTETA=1
            CALL REDGET( INDLEC, NPHI , DEN, TEDATA, DBLINP)
            IF( INDLEC .EQ. 3 ) THEN
              IF(TEDATA(1:4) .EQ. CGAUS(1:4)) THEN
                IQUAD=1
              ELSE IF(TEDATA(1:3) .NE. CEQW(1:3)) THEN
                CALL XABORT('XHXTRK: INVALID INTEGRATION TYPE')
              ENDIF
              CALL REDGET( INDLEC, NPHI , DEN, TEDATA, DBLINP)
            ELSE IF( INDLEC.EQ.2 ) THEN
              CALL XABORT('XHXTRK: INVALID DATA FOLLOWING TISO ')
            ENDIF
            IF(NDIM .EQ. 3) THEN
              IF(INDLEC .NE. 1) 
     >          CALL XABORT('XHXTRK: NTETA MUST BE INTEGER')
              IF(NPHI .LE. 1) CALL XABORT('XHXTRK: NTETA < 2 ') 
              NTETA=NPHI
              CALL REDGET( INDLEC, NPHI , DENUSR, TEDATA, DBLINP)
            ENDIF
            IF(INDLEC .NE. 1)
     >        CALL XABORT('XHXTRK: NPHI MUST BE INTEGER')
            IF(NPHI .LE. 1) CALL XABORT('XHXTRK: NPHI < 2 ')
            CALL REDGET( INDLEC, NPHI , DENUSR, TEDATA, DBLINP)
            IF (INDLEC .NE. 2) 
     >        CALL XABORT('XHXTRK: DENSITY MUST BE REAL')
            IF(DENUSR .LE. 0.0) CALL XABORT('XHXTRK: DENSITY < 0.0 ')
            IF(NDIM .EQ. 3) THEN
              CALL REDGET( INDLEC, NGLE , DENUSZ, TEDATA, DBLINP)
              IF(INDLEC .NE. 2) 
     >          CALL XABORT('XHXTRK: DENSITY MUST BE REAL')
              IF(DENUSZ .LE. 0.0) CALL XABORT('XHXTRK: DENSITY < 0 ')
            ENDIF
            IF(IQUAD .EQ. 1) THEN
              IF(NTETA .GT. 64 .OR. NPHI .GT. 64) THEN
                 CALL XABORT('XHXTRK: NANGLE IS GREATER THAN 64.')
              ENDIF
            ENDIF
            IF(NDIM .EQ. 2)THEN
              NANGLE=NTETA*NPHI*2
            ELSE
              NANGLE=NTETA*NPHI*4
            ENDIF
         ELSEIF( TEDATA(1:4).EQ.CTSPC(1:4) ) THEN
            LTRK  = 2
            CALL XABORT('XHXTRK: *TSPC* NOT AVAILABLE FOR HEXAGONE' )
         ELSEIF( TEDATA(1:4).EQ.CNOTR(1:4) )THEN
            LTRK=0
            GOTO 54
         ELSEIF( TEDATA(1:4).NE.CGAUS(1:4)
     +           .OR.TEDATA(1:4).NE.CEQW(1:4) ) THEN
            CALL XABORT('XHXTRK: CHARACTER EXPECTED ')
         ENDIF
   54    CALL REDGET( INDLEC, INDATA, REDATA, TEDATA, DBLINP)
         IF( INDLEC.NE.3.OR.TEDATA(1:1).NE.';' )THEN
            CALL XABORT( 'XHXTRK: ; IS SUPPOSED TO BE HERE' )
         ENDIF
   55    CONTINUE
      ENDIF
**    EVERYTHING IS NOW READ.
*----
*  SAVE EXCELL SPECIFIC TRACKING INFORMATION.
*----
      ISTATE(:NSTATE)=0
      EXTKOP(:NSTATE)=0.0
      ISTATE(9)=LTRK-1
      ISTATE(11)=NANGLE
      ISTATE(12)=ISYMM
      CALL LCMPUT(IPTRK,'STATE-VECTOR',NSTATE,1,ISTATE)
      EXTKOP(2)=DENUSR
      CALL LCMPUT(IPTRK,'EXCELTRACKOP',NSTATE,2,EXTKOP)
*
** 2) PROCEED TO THE EXACT GEOMETRY TREATMENT.
*
*
*     STUDY TRACKING PARAMETERS. ARE THEY BASICALLY POSSIBLE ?
      IF( IPRT.GT.0 )THEN
         WRITE(IOUT,6000) GEONAM
      ENDIF
* -------------*************************************--------------------
*             /                                         /
*           /  TRAITEMENT DE LA GEOMETRIE HEXAGONALE  /
*         /                                         /
*--------------*************************************--------------------
*
*       DUPLICATE AND UNFOLD THE GEOMETRY.
*
      CALL LCMGET(IPGEOM,'IHEX',IHEX)
      LEVEL= 1
      IF(IHEX.EQ.9) THEN
        IF(NCODE(5) .EQ.  5 .OR. NCODE(6) .EQ.  5 .OR.
     >     NCODE(5) .EQ. 10 .OR. NCODE(6) .EQ. 10) THEN
          NCL=ISTATE(3)
          NCOUR=NINT( (4.+SQRT(1.+4.*FLOAT(NCL-1)/3.)
     +                 +SQRT(1.+4.*FLOAT(NCL-2)/3.))*.25)
          ALLOCATE(LATV(2*NCOUR))
        ENDIF
      ENDIF
      CALL LHXUNH(IPTRK,IPGEOM,GEONAM,MMESH,NCELA,IPLANZ,NCPHY,ICODE,
     +            ALBEDO,NV,NREGIO,NS,SIDE,ISTATE,NSMIN,NSMAX,MVOLUM,
     +            IHEX,LXI,MCODE,IPLANI,LATV)
      CALL LCMSIX(IPTRK,'DATA_DUP',1)
      CALL LCMLEN(IPTRK,'SURL_HEX',ISUR,ITPLCM)
      ALLOCATE(SURL(MAX(1,ISUR)))
      IF(ISUR.GT.0) CALL LCMGET(IPTRK,'SURL_HEX',SURL)
      CALL LCMSIX(IPTRK,' ',2)
*
      NCELAP=NCELA/IPLANZ
      IDIM1=2*NCELA+MVOLUM
      IDIM2=2*IPLANZ
      IAUX=NV+NS+1
      ALLOCATE(MESH(MMESH),ICEL(IDIM1),IPLAN(IDIM2))
      ALLOCATE(VOLSUR(IAUX),MATALB(IAUX),KEYMRG(IAUX))
      IF(IQUAD.EQ.1.OR.IQUAD.EQ.2) THEN
        ALLOCATE(XGS(NPHI),WGS(NPHI))
        IF(NDIM.EQ.3) THEN
          ALLOCATE(XGS1(NTETA),WGS1(NTETA))
        ENDIF
      ENDIF
      ALLOCATE(WW(NANGLE),A1(NANGLE),A2(NANGLE))
      IF(NDIM.EQ.3)ALLOCATE(A3(NANGLE))
      IF(IQUAD.EQ.1) THEN
*
*  GAUSS-LEGENDRE INTEGRATION POINTS
*
         CALL ALGPT(NPHI,-1.,1.,XGS,WGS)
         IF(NDIM.EQ.3)
     >     CALL ALGPT(NTETA,-1.,1.,XGS1,WGS1)
      ELSEIF(IQUAD.EQ.2) THEN
*
*        EQUAL WEIGHT INTEGRATION POINTS.
*
         DO 51 IA=1,NPHI
           XGS(IA)=(2.0*REAL(IA)-1.0)/REAL(NPHI)-1.0
           WGS(IA)=2.0/REAL(NPHI)
   51    CONTINUE
         IF(NDIM.EQ.3) THEN
           DO 61 IA=1,NTETA
             XGS1(IA)=(2.0*REAL(IA)-1.0)/REAL(NTETA)-1.0
             WGS1(IA)=2.0/REAL(NTETA)
   61      CONTINUE
         ENDIF
*
      ENDIF
      IF(IQUAD.EQ.1.OR.IQUAD.EQ.2) THEN
      KGAUS=-1
      IF(NDIM.EQ.3) THEN
      AUX=PI*0.125D0*0.125D0
      DO 445 IG=0,NTETA-1
*
* INTEGRATION OVER (0,PI/2) (COLATITUDE)
*
         SINT=SIN(0.25D0*PI*(DBLE(XGS1(IG+1))+1.0D0))
         COST=COS(0.25D0*PI*(DBLE(XGS1(IG+1))+1.0D0))
* INTEGRATION OVER (PI/2,PI) (COLATITUDE)
         SINT1=SIN(0.25D0*PI*(DBLE(XGS1(IG+1))+3.0D0))
         COST1=COS(0.25D0*PI*(DBLE(XGS1(IG+1))+3.0D0))
         DO 444 JG=0,NPHI-1
* INTEGRATION OVER  (0,PI/2) (LATITUDE)
            SINF=SIN(0.25D0*PI*(DBLE(XGS(JG+1))+1.0D0))
            COSF=COS(0.25D0*PI*(DBLE(XGS(JG+1))+1.0D0))
            KGAUS=KGAUS+1
            WW(KGAUS+1)=REAL(AUX*WGS1(IG+1)*WGS(JG+1)*SINT)
            A1(KGAUS+1)=REAL(SINT*COSF)
            A2(KGAUS+1)=REAL(SINT*SINF)
            A3(KGAUS+1)=REAL(COST)
            KGAUS=KGAUS+1
            WW(KGAUS+1)=REAL(AUX*WGS1(IG+1)*WGS(JG+1)*SINT1)
            A1(KGAUS+1)=REAL(SINT1*COSF)
            A2(KGAUS+1)=REAL(SINT1*SINF)
            A3(KGAUS+1)=REAL(COST1)
* INTEGRATION OVER (PI/2,PI)
            SINF1=SIN(0.25D0*PI*(DBLE(XGS(JG+1))+3.0D0))
            COSF1=COS(0.25D0*PI*(DBLE(XGS(JG+1))+3.0D0))
            KGAUS=KGAUS+1
            WW(KGAUS+1)=REAL(AUX*WGS1(IG+1)*WGS(JG+1)*SINT)
            A1(KGAUS+1)=REAL(SINT*COSF1)
            A2(KGAUS+1)=REAL(SINT*SINF1)
            A3(KGAUS+1)=REAL(COST)
            KGAUS=KGAUS+1
            WW(KGAUS+1)=REAL(AUX*WGS1(IG+1)*WGS(JG+1)*SINT1)
            A1(KGAUS+1)=REAL(SINT1*COSF1)
            A2(KGAUS+1)=REAL(SINT1*SINF1)
            A3(KGAUS+1)=REAL(COST1)
  444    CONTINUE
  445 CONTINUE
      DEALLOCATE(XGS1,WGS1)
      ELSE
      AUX=0.125D0
      DO 544 JG=0,NPHI-1
* INTEGRATION OVER  (0,PI/2)
         SINF=SIN(0.25D0*PI*(DBLE(XGS(JG+1))+1.0D0))
         COSF=COS(0.25D0*PI*(DBLE(XGS(JG+1))+1.0D0))
         KGAUS=KGAUS+1
         WW(KGAUS+1)=REAL(AUX*WGS(JG+1))
         A1(KGAUS+1)=REAL(COSF)
         A2(KGAUS+1)=REAL(SINF)
* INTEGRATION OVER (PI/2,PI)
         SINF=SIN(0.25*PI*(DBLE(XGS(JG+1))+3.0D0))
         COSF=COS(0.25*PI*(DBLE(XGS(JG+1))+3.0D0))
         KGAUS=KGAUS+1
         WW(KGAUS+1)=REAL(AUX*WGS(JG+1))
         A1(KGAUS+1)=REAL(COSF)
         A2(KGAUS+1)=REAL(SINF)
  544 CONTINUE
      ENDIF
      DEALLOCATE(WGS,XGS)
      ENDIF
      NANGL= NANGLE
      ALLOCATE(ANGLES(3*NANGL),DENSTY(NANGL))
      DO 21 IANG=1,NANGL
         ANGLES((IANG-1)*NDIM+1)=A1(IANG)
         ANGLES((IANG-1)*NDIM+2)=A2(IANG)
         IF(NDIM.EQ.3) ANGLES((IANG-1)*NDIM+3)=0.0
         DENSTY(IANG)=1.0/WW(IANG)
   21 CONTINUE
      IF(NDIM.EQ.3)ALLOCATE(IFACB(2*NCELAP))
      ALLOCATE(IFFV(NCELA),ISURB(NS-NSMIN-NSMAX),IVSYM(NV),ISSYM(NS))
      CALL MESHST(IPTRK,IPGEOM,MESH,ICEL,IPLAN,
     +            IPLAN(IPLANZ+1),NCELA,IPLANZ,ISTATE,
     +            ICEL(NCELA+1),ICEL(2*NCELA+1),NCPHY,
     +            VOLSUR,MATALB,SIDE,NCOUR,
     +            NSMIN,NSMAX,NS,IFACB,IFFV,
     +            ISURB,IVSYM,ISSYM,IHEX,LXI,
     +            NV,MCODE,SURL,IPLANI,LATV,ZMIN)
      CALL LCMSIX(IPGEOM,' ',0)
*d -
      IF(IHEX.EQ.9) THEN
         IF(MCODE.GT.0) DEALLOCATE(LATV)
      ENDIF
      DEALLOCATE(SURL)
*----
*  SET ARRAY MERGE CONTAINING MERGED VOLUMES AND SURFACES
*----
      NSOUT=0
      JAUX=0
      DO 20 J=NS-1, 0,-1
         KEYMRG(JAUX+1)=-ISSYM(J+1)
         NSOUT=MAX(NSOUT,ISSYM(J+1))
         JAUX= JAUX+1
   20 CONTINUE
      KEYMRG(JAUX+1)=0
      JAUX= JAUX+1
      DO 29 J=0,NV-1
         KEYMRG(JAUX+1)=IVSYM(J+1)
         JAUX= JAUX+1
   29 CONTINUE
      DEALLOCATE(IVSYM,ISSYM)
*
*      OPENING THE TRACK FILE
*
      IFILE=KDROPN('DUMMYSQ2',0,2,0)
      IF( IFILE.LE.0 ) GO TO 998
      IF( IFILE.EQ.IFTEMP ) CALL XABORT('XHXTRK: BAD TRACKING UNIT')
      IF( LTRK.NE.0 )THEN
      MAXCYL=1
      DO 140 I=0,NCELA-1
         MAXCYL=MAX(MAXCYL,ICEL(NCELA+I+1))
 140  CONTINUE
      MAXSEC=1
      SECTOR=.FALSE.
      DO 141 I=0,MVOLUM-1
         MMAXS=ICEL(2*NCELA+I+1)
         IF(MMAXS.GT.1) SECTOR=.TRUE.
         MAXSEC=MAX(MAXSEC,MMAXS)
 141  CONTINUE 
      ITOPT= LTRK-1
      NALBG= 6
      NSURF=2
      IF(NDIM.EQ.3) NSURF=4
      MXSEG= 2*NV+2*NSURF
      WRITE(IFILE) '$TRK',5,0,0
      COMENT='CREATOR  : DRAGON'
      WRITE(IFILE) COMENT
      COMENT='MODULE   : XHXTRK'
      WRITE(IFILE) COMENT
      COMENT='TYPE     : HEXAGONALE'
      WRITE(IFILE) COMENT
      COMENT='GEOMETRY : '//GEONAM
      WRITE(IFILE) COMENT
      COMENT=TITREC
      WRITE(IFILE) COMENT
      WRITE(IFILE) NDIM,ITOPT,NV,NS,NALBG,NSURF,NANGL,1,MXSEG
      WRITE(IFILE) (VOLSUR(J),J=1,IAUX)
      WRITE(IFILE) (MATALB(J),J=1,IAUX)
      WRITE(IFILE) (ICODE(J),J=1,NALBG)
      WRITE(IFILE) (ALBEDO(J),J=1,NALBG)
      WRITE(IFILE) (ANGLES(J),J=1,NDIM*NANGL)
      WRITE(IFILE) (DENSTY(J),J=1,NANGL)
      DEALLOCATE(DENSTY,ANGLES)
      MACP=(MAXCYL+1)*2*NCELA*(1+6*(MAXSEC-1))
      ALLOCATE(POP(MACP),IMAT(MACP*2))
      MTT=2*(MAXCYL+1)
      MT0=2*MTT*(1+6*(MAXSEC-1))
      ALLOCATE(T0(2*MT0),T1(2*MT0),IV0(MT0))
*
* RAYON DU CYLINDRE ENGLOBANT LA GEOMETRIE ET VALEURES EXTREMES DE Z
*
      DSIDE=DBLE(SIDE)
      RAYON=0.5D0*DSIDE*SQRT(1.0D0+3.0D0*(DBLE(2*NCOUR-1))**2) 
*
* FIND ODD NUMBER OF TRACKS THAT ENSURES MINIMUM REQUIRED
* DENSITY IS RESPECTED
*
      NBLINE=INT(RAYON*DENUSR+0.5D0)
      IF(MOD(NBLINE,2) .EQ. 0) NBLINE=NBLINE+1
      PASY=1.D0/DBLE(NBLINE)
      PASZ=PASY
      IF(NDIM.EQ.3) THEN
        NBLINE=INT(RAYON*DENUSZ+0.5D0)
        IF(MOD(NBLINE,2) .EQ. 0) NBLINE=NBLINE+1
        PASZ=1.D0/DBLE(NBLINE)
      ENDIF
      KANG=0
      ICC=1
      ICC1=1
      IF(NCELA.GT.1) THEN
        ICC=2+(NCOUR-1)*(1+3*(NCOUR-2))
        ICC1=2+(NCOUR-1)*(3*(NCOUR-2))
      ENDIF
      DZMIN=DBLE(ZMIN)
      IF(NDIM.EQ.3) THEN
        DZMAX=DBLE(MESH(3*NCELA))
      ELSE
        DZMAX=DZMIN
      ENDIF
*
      SQRT3=SQRT(3.)
      ALLOCATE(RAUX(2*MAXCYL))
*
*--CREATION DU VECTEUR CORN NECESSAIRE POUR LE STOCKAGE DES CELLULES
*--PERIPHERIQUES UTILISEES DANS TRKHEX
*
      IF(NDIM.EQ.3) THEN
        ICORN=IPLAN(1)
        IF(IPLANZ.GT.1) ICORN=ICORN+IPLAN(1)
        IF(IPLANZ.GT.2) ICORN=ICORN+(IPLANZ-2)*6*(NCOUR-1)
      ELSE
        ICORN=1
        IF(NCOUR.GT.1)ICORN=6*(NCOUR-1)
      ENDIF
      ALLOCATE(KCORN(ICORN))
      IFCC1=2+(NCOUR-1)*(3*(NCOUR-2))
      IF(NCELA.EQ.1) IFCC1=1
      IXX=0
      IF(NDIM.EQ.3) THEN
        DO 147 I=1,IPLAN(1)
          KCORN(IXX+1)=I
          IXX=IXX+1
 147    CONTINUE
        IF(IPLANZ.GT.1) THEN
          IAUX=IPLAN(1)+IFCC1
          DO 149 I=2,IPLANZ-1
          DO 148 J=IFCC1,IPLAN(1)
             KCORN(IXX+1)=IAUX
             IAUX=IAUX+1
             IXX=IXX+1
 148      CONTINUE
          IAUX=IPLAN(I)+IFCC1
 149      CONTINUE
          IYY=IPLANZ*IPLAN(1)
          IYY0=(IPLANZ-1)*IPLAN(1)+1
          DO 146 I=IYY0,IYY
           KCORN(IXX+1)=I
           IXX=IXX+1
 146     CONTINUE
        ENDIF
      ELSE
        DO 145 J=IFCC1,NCELA
           KCORN(IXX+1)=J
           IXX=IXX+1
 145    CONTINUE
      ENDIF
*
*   LES CELLULES VOISINES A CHAQUE VOLUME SONT STOCKEES.
*
      NCEL2=NCELA/IPLANZ
      ALLOCATE(IVOIS(6*NCEL2))
      IVV=-1
      DO 165 I=1,NCEL2
        DO 160 J=1,6
          IVV=IVV+1 
          IVOIS(IVV+1)=NEIGHB(I,J,9,NCEL2,POIDSH)
 160    CONTINUE
 165  CONTINUE
      IF(IPRT .GE. 100) THEN
        IF(NDIM .EQ. 3) THEN
          WRITE(IOUT,6300) NAMSBR,NCELA
          WRITE(IOUT,6301) (MESH(II+1),MESH(II+NCELA),
     >                      MESH(II+2*NCELA),II=1,NCELA) 
        ELSE
          WRITE(IOUT,6200) NAMSBR,NCELA
          WRITE(IOUT,6201) (MESH(II),MESH(II+NCELA),II=1,NCELA)
        ENDIF
      ENDIF
*----
*  SAVE EXCELL TRACKING FOR HEXAGONAL GEOMETRY
*----
      CALL LCMSIX(IPTRK,'EXCELL      ',1)
      IPARAM(:NSTATE)=0
      IAUX=NV+NS+1 
      IAUXS=NS-NSMIN-NSMAX
      IAUXX=2*NCELAP
      IPARAM(1)=NDIM
      IPARAM(2)=NS
      IPARAM(3)=NV
      IPARAM(4)=NCELA
      IPARAM(5)=MMESH
      IPARAM(6)=IAUX
      IPARAM(7)=MAXCYL
      IPARAM(8)=MAXSEC
      IPARAM(9)=IPLANZ
      IPARAM(10)=IDIM1
      IPARAM(11)=IDIM2
      IPARAM(12)=IAUXS
      IPARAM(13)=IAUXX
      CALL LCMPUT(IPTRK,'ICEL        ',IDIM1 ,1,ICEL )
      CALL LCMPUT(IPTRK,'IPLAN       ',IDIM2 ,1,IPLAN)
      IF(NDIM.EQ.3)
     >CALL LCMPUT(IPTRK,'IFACB       ',IAUXX ,1,IFACB)
      CALL LCMPUT(IPTRK,'IFFV        ',NCELA ,1,IFFV )
      IF(IAUXS.GT.0)
     >CALL LCMPUT(IPTRK,'ISURB       ',IAUXS ,1,ISURB)
      CALL LCMPUT(IPTRK,'REMESH      ',MMESH ,2,MESH )
      CALL LCMPUT(IPTRK,'KEYMRG      ',IAUX  ,1,KEYMRG  )
      CALL LCMPUT(IPTRK,'MATALB      ',IAUX  ,1,MATALB  )
      CALL LCMPUT(IPTRK,'VOLSUR      ',IAUX  ,2,VOLSUR  )
      CALL LCMPUT(IPTRK,'STATE-VECTOR',NSTATE,1,IPARAM  ) 
      CALL LCMSIX(IPTRK,'EXCELL      ',2)
      DO 150 IANG=1,NANGLE
       KANG=IANG
       COS1=A1(IANG)
       COS2=A2(IANG)
       COS3=0.0
       IF(NDIM.EQ.3) COS3=A3(IANG)
       PPASY=PASY
       PPASZ=PASZ
       POIDS=WW(IANG) 
       IF(IPRT .GE. 500) WRITE(IOUT,6400) IANG
       CALL TRKHEX(IPRT,NCELA,ICEL,MESH,MMESH,PPASY,
     +             DSIDE,COS1,COS2,COS3,POP,IPLAN,
     +             IPLANZ,IPLAN(IPLANZ+1),NDIM,
     +             ICEL(NCELA+1),IMAT,IFILE,KANG,POIDS,
     +             IMAT(MACP+1),ICEL(2*NCELA+1),T0,
     +             T1,IV0,IV0(MTT+1),PPASZ,RAYON,DZMIN,
     +             DZMAX,IFACB,IFFV,SECTOR,NSMIN+1,ISURB,RAUX,
     +             NSURF,KCORN,ICORN,IVOIS,NCEL2,NS)
        ZMIN=REAL(DZMIN)
  150 CONTINUE
      DEALLOCATE(IVOIS,KCORN,IMAT,ISURB,RAUX,POP,T0,T1,IV0,WW,A1,A2,
     + IFFV)
      IF(NDIM.EQ.3) DEALLOCATE(IFACB,A3)
      ENDIF
      DEALLOCATE(MESH,ICEL,IPLAN)
*----
*  SET BC MATRIX
*----
      ALLOCATE(MATRT(NSOUT))
      DO 200 ISS=1,NSOUT
        MATRT(ISS)=ISS
 200  CONTINUE
      CALL LCMPUT(IPTRK,'BC-REFL+TRAN',NSOUT,1,MATRT)
      DEALLOCATE(MATRT)
*----
*  SET NCOR=1
*----
      REWIND IFILE
      CALL XELCOR(IFILE,IFTEMP)
      IER=KDRCLS(IFILE,2)
      IF(IER.LT.0) GO TO 999
      DEALLOCATE(KEYMRG,MATALB,VOLSUR)
      RETURN
*
  998 WRITE(IOUT,'(31H ECHO = UNABLE TO OPEN  FILE FT,I4)') IFILE
      CALL XABORT('XHXTRK: OPEN  FAILED')
  999 WRITE(IOUT,'(31H ECHO = UNABLE TO CLOSE FILE FT,I4)') IFILE
      CALL XABORT('XHXTRK: CLOSE FAILED')
 6000 FORMAT(' >>> GLOBAL GEOMETRY NAME TREATED: ',A12/
     >       ' >>>  EXACT EXCELL *CP* TREATMENT <<'/)
 6200 FORMAT(' ---> OUTPUT FROM ',A6,': NUMBER OF CELLS = ',I10/ 
     >       9X,'X-MESH',9X,'Y-MESH')
 6201 FORMAT(1P,2E15.6)
 6300 FORMAT(' ---> OUTPUT FROM ',A6,': NUMBER OF CELLS = ',I10/ 
     >       9X,'X-MESH',9X,'Y-MESH',9X,'Z-MESH')
 6301 FORMAT(1P,3E15.6)
 6400 FORMAT(' INTEGRATION DIRECTION = ',I10)
      END