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|
*DECK XELDRV
SUBROUTINE XELDRV(IPTRK ,IPGEOM,IPRT ,MAXPTS,NANIS ,NORE ,
> LMERG ,KSPEC ,KTOPT ,TITREC,CUTOFX,CFTRAK,
> IFTRAK,IDISP ,ISYMM ,LCACT ,NMU ,INSB ,
> NBATCH,LBIHET,LPRISM,IZ,DELU,FRTM)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Read a Dragon tracking file to compute pij, normalize a tracking
* file to Dragon format and produce a new tracking file in Dragon
* format.
*
*Copyright:
* Copyright (C) 2002 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): R. Roy
*
*Parameters: input
* IPTRK pointer to the excell tracking (L_TRACK).
* IPGEOM pointer to the geometry (L_GEOM).
* IPRT tracking print level.
* MAXPTS number of zones according to user.
* NANIS anisotropy of the solution.
* NORE track normalization flag (<=0: yes; =1: no).
* LMERG type of volume normalization.
* KSPEC kind of pij integration (=0: isotr.; =1: spec.).
* KTOPT tracking type option.
* TITREC title for this case.
* CUTOFX mfp cutoff for specular integration.
* CFTRAK name of the sequential binary tracking file.
* IFTRAK unit of the sequential binary tracking file.
* IDISP mode of the sequential binary tracking file.
* LCACT type of polar integration for the method of characteristics.
* NMU number of polar angles for the method of characteristics.
* ISYMM symmetry factor.
* INSB type of vectorization for the calculation of CP matrices.
* NBATCH number of tracks assigned to each OpenMP core.
* LBIHET activation flag for the double heterogeneity option.
* LPRISM flag for 3D prismatic geometry.
* IZ projection axis for 3D prismatic geometry.
* DELU user defined track spacing for 3D prismatic tracking.
* FRTM minimum volume fraction of the grain in the representative
* volume for She-Liu-Shi model.
*
*-----------------------------------------------------------------------
*
USE GANLIB
IMPLICIT NONE
*----
* SUBROUTINE ARGUMENTS
*----
CHARACTER TITREC*72,CFTRAK*12
TYPE(C_PTR) IPTRK,IPGEOM
INTEGER IPRT,MAXPTS,NANIS,NORE,LMERG,KSPEC,KTOPT,IFTRAK,
> IDISP,ISYMM,LCACT,NMU,INSB,NBATCH,IZ
REAL CUTOFX,DELU,FRTM
LOGICAL LPRISM,LBIHET
*----
* LOCAL VARIABLES
*----
INTEGER NSTATE
PARAMETER (NSTATE=40)
INTEGER NREG,NUNKNO,IUTYPE,ISTATE(NSTATE),IFTEMP,IFILE,
> ITYPE,ITOPT,ITROP,NCOMNT,NTRK,IREC,IC,IR,JR,IUNK,
> NSOUT,IDISPO,NDIM,NV,NS,NALBGO,NCOR,NANGL,MXSEG,
> NPRISM,NDIMO,NSO,NVO,NUNOLD,KDROPN,KDRCLS,NUNKNX,
> IOUT,ITGEO,IUSED(6),ICMAX,ICODE(6),ICOLD(6),
> NANGLO,MXSUB,MXSUBO,MXSEGO,ILONG,IFMT,I
LOGICAL LEAKSW, LELCHK, SWNOGE, SWCONS, EMPTY, LCM
REAL ALBEDO(6),ALBOLD(6),EXTKOP(NSTATE),
> ZERO,ONE,DENS,PCORN
DOUBLE PRECISION DASCRP
CHARACTER GEONAM*12,CORIEN(0:3,6)*4,CUSED(0:1)*6,TEXT12*12,
> COMENT*80,CTRK*4
*----
* ALLOCATABLE ARRAYS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: MATCOD,KEYFLX,MATOLD,MATALB,
> KEYMRG,MATMRG
REAL, ALLOCATABLE, DIMENSION(:) :: VOLUME,VOLOLD,VOLSUR,VOLMRG
*
PARAMETER ( IUTYPE=2, IOUT=6, ZERO=0.0, ONE=1.0 )
*
DATA (( CORIEN(JR,IR),IR=1,6),JR=0,3)
> / ' 1 ',' 2 ',' 3 ',' 4 ',' 5 ',' 6 ',
> '****',' R+ ','****','****',' Z- ',' Z+ ',
> 'HBC ','****','****','****',' Z- ',' Z+ ',
> ' X- ',' X+ ',' Y- ',' Y+ ',' Z- ',' Z+ '/
DATA ( CUSED(JR),JR=0,1 ) / 'UNUSED',' USED' /
*----
* SCRATCH STORAGE ALLOCATION
* MATCOD material numbers for zones in the supercell.
* VOLUME volumes of zones in the supercell.
* KEYFLX zone key for the unknown vectors (fluxes...).
*----
ALLOCATE(MATCOD(MAXPTS),KEYFLX(MAXPTS))
ALLOCATE(VOLUME(MAXPTS))
*
NPRISM=0
IF( IPRT.GT.0 ) WRITE(IOUT,'(1X,A72//)') TITREC
SWNOGE= .NOT.C_ASSOCIATED(IPGEOM)
IF(SWNOGE) THEN
GEONAM=' '
IF(INSB.EQ.2) CALL XABORT('XELDRV: GEOMETRY REQUESTED')
ELSE
CALL LCMINF(IPGEOM,GEONAM,TEXT12,EMPTY,ILONG,LCM)
ENDIF
NTRK = 0
*
IF( IPRT.GT.0 )THEN
WRITE(IOUT,'(1H )')
IF( SWNOGE )THEN
WRITE(IOUT,'(27H ECHO = >>> NO GEOMETRY )')
ELSE
WRITE(IOUT,'(27H ECHO = >>> GEOMETRY NAME: ,A8)') GEONAM
ENDIF
WRITE(IOUT,'(27H ECHO = >>> TRACKING FILE: ,A8)') CFTRAK
IF( IDISP.EQ.-1 )THEN
WRITE(IOUT,'(27H ECHO = >>> DISP: ,A4)') 'MODT'
ELSEIF( IDISP.EQ. 0 )THEN
WRITE(IOUT,'(27H ECHO = >>> DISP: ,A4)') 'OLDT'
ELSEIF( IDISP.EQ.+1 )THEN
WRITE(IOUT,'(27H ECHO = >>> DISP: ,A4)') 'NEWT'
ENDIF
IF( NORE.EQ.-1 )THEN
WRITE(IOUT,'(36H ECHO = >>> NORMALIZED-BY ANGLE )')
ELSEIF( NORE.EQ. 0 )THEN
WRITE(IOUT,'(36H ECHO = >>> NORMALIZED-GLOBAL )')
ELSEIF( NORE.EQ.+1 )THEN
WRITE(IOUT,'(36H ECHO = >>> NOT NORMALIZED )')
ENDIF
ENDIF
*----
* 1) REWIND TRACKING FILE --------------------------------------------
*----
IF((IFTRAK.EQ.0).AND.(INSB.NE.2)) THEN
CALL XABORT('XELDRV: NO SEQUENTIAL BINARY TRACKING FILE YET D'
> //'EFINED')
ELSE IF((IFTRAK.NE.0).AND.(INSB.EQ.2)) THEN
CALL XABORT('XELDRV: NO SEQUENTIAL BINARY TRACKING FILE EXPEC'
> //'TED WITH OPTION XCLL')
ENDIF
IF(INSB.NE.2) REWIND IFTRAK
*----
* 1.2) GET HEADER INFORMATIONS FROM *OLDT*/*MODT* FILES
*----
NUNOLD= 0
IFMT= 0
IF( IDISP.LE.0 )THEN
IREC= 1
READ(IFTRAK,ERR=997) CTRK,NCOMNT,NTRK,IFMT
DO 10 IC= 1, NCOMNT
IREC= IREC+1
READ (IFTRAK,ERR=997) COMENT
10 CONTINUE
IREC= IREC+1
READ (IFTRAK,ERR=997) NDIMO,ITOPT,NVO,NSO,NALBGO,
> NCOR,NANGL,MXSUB,MXSEG
IF( NALBGO.LE.0.OR.NALBGO.GT.6 )THEN
CALL XABORT('XELDRV: NALBG.GT.6.OR.NALBG.LE.0'//
> ' ON TRACKING FILE')
ENDIF
NUNOLD= NVO+NSO+1
ALLOCATE(VOLOLD(NUNOLD),MATOLD(NUNOLD))
IREC= IREC+1
READ (IFTRAK,ERR=997) (VOLOLD(IR),IR=1,NUNOLD)
IREC= IREC+1
READ (IFTRAK,ERR=997) (MATOLD(IR),IR=1,NUNOLD)
IREC= IREC+1
READ (IFTRAK,ERR=997) ( ICOLD(IR),IR=1,NALBGO)
IREC= IREC+1
READ (IFTRAK,ERR=997) (ALBOLD(IR),IR=1,NALBGO)
IREC= IREC+1
READ (IFTRAK,ERR=997) (DASCRP,IR=0,NDIMO*NANGL-1)
IREC= IREC+1
READ (IFTRAK,ERR=997) (DASCRP,IR=0,NANGL-1)
REWIND IFTRAK
ENDIF
*----
* 1.3) OPEN TEMP TRACKING FILE FOR *MODT*/*NEWT* FILES
*----
ITROP = 0
IF((IDISP.NE.0).AND.(INSB.NE.2)) THEN
IFILE= KDROPN('DUMMYSQ',0,IUTYPE,0)
IF( IFILE.LE.0 ) GO TO 998
IF( IFILE.EQ.IFTRAK ) CALL XABORT('XELDRV: BAD TRACKING UNIT')
IFTEMP = IFILE
REWIND IFTEMP
IF( IDISP.LT.0 )THEN
*
* FOR *MODT* FILES, MAIN TRACKING IS COPIED ON TEMPORARY
CALL XELCOP( IFTRAK, IFTEMP )
ENDIF
ENDIF
*----
* 2) GET GEOMETRIC INFORMATIONS AND TRACK IF NECESSARY----------------
*----
IF( SWNOGE )THEN
*----
* 2.1) NO GEOMETRY, GET INFORMATIONS FROM *OLDT*/*MODT* FILE
*----
IF(IDISP.GT.0) CALL XABORT('XELDRV: A RHS BINARY TRACKING FIL'
> //'E OR A RHS GEOMETRY MUST BE DEFINED.')
NDIM= NDIMO
NSOUT= NSO
NREG= NVO
NS= NSO
NV= NVO
NUNKNX= NUNOLD
IF( NREG.GT.MAXPTS ) THEN
WRITE(IOUT,'(28H ****** XELDRV ERROR ******,/
> 28H NUMBER OF REGION COMPUTED =,I10/
> 28H MAXIMUM NUMBER OF REGION =,I10)') NREG,MAXPTS
CALL XABORT('XELDRV: MAXR TOO SMALL')
ENDIF
ALLOCATE(VOLSUR(NUNKNX),MATALB(NUNKNX),KEYMRG(NUNKNX))
IUNK= 0
DO 20 IR= -NS, NV
VOLSUR(IUNK+1)= VOLOLD(IUNK+1)
MATALB(IUNK+1)= MATOLD(IUNK+1)
KEYMRG(IUNK+1)= IR
IUNK= IUNK+1
20 CONTINUE
ALLOCATE(VOLMRG(NUNKNX),MATMRG(NUNKNX))
DO 21 IUNK=1,NUNKNX
VOLMRG(IUNK)= VOLOLD(IUNK)
MATMRG(IUNK)= MATOLD(IUNK)
21 CONTINUE
DEALLOCATE(MATOLD,VOLOLD)
DO 25 IR= 1, NALBGO
ICODE(IR)= ICOLD(IR)
25 CONTINUE
ITGEO= 0
ELSE
*----
* 2.2) THERE IS A GEOMETRY, GO TO EXCELL MODULES TO ANALYZE IT
*----
ISTATE(:NSTATE)=0
CALL LCMGET(IPGEOM,'STATE-VECTOR',ISTATE)
ITYPE= ISTATE(1)
IF( ITYPE.EQ.3.OR.ITYPE.EQ.6 )THEN
ITGEO= 1
ELSEIF( ITYPE.EQ. 8 .OR. ITYPE.EQ. 9 .OR.
> ITYPE.EQ.24 .OR. ITYPE.EQ.25 )THEN
ITGEO= 2
ELSEIF( ITYPE.EQ. 5 .OR. ITYPE.EQ. 7 .OR. ITYPE.EQ.20 .OR.
> ITYPE.EQ.21 .OR. ITYPE.EQ.22 .OR. ITYPE.EQ.23 )THEN
ITGEO= 3
ELSE
ITGEO= 0
ENDIF
IDISPO= IDISP
NANGLO= NANGL
MXSUBO= MXSUB
MXSEGO= MXSEG
IF((INSB.EQ.2).AND.(ITGEO.NE.3)) THEN
CALL XABORT('XELDRV: XCELL TRACKING NOT AVAILABLE.')
ENDIF
IF( ISTATE(13).GE.1 )THEN
IF( ITYPE.EQ.3.OR.ITYPE.EQ.20.OR.ITYPE.EQ.24 )THEN
*----
* 2.2.1.1) EXCELL DRIVER FOR CLUSTER SINGLE CELLS
*----
CALL XCWTRK(IPTRK ,IPGEOM,GEONAM,IDISP ,IFTEMP,
> IPRT ,NDIM ,ITOPT ,NV ,NS ,NANGL ,
> ISYMM ,DENS ,PCORN ,MXSUB ,MXSEG ,ICODE ,
> TITREC)
ITROP=3
ELSE
CALL XABORT('XELDRV: ONLY ONE-CELL TUBE/CARCEL/HEXCEL'//
> ' CLUSTERS ARE AVAILABLE')
ENDIF
ELSEIF( ITGEO.EQ.2 )THEN
*----
* 2.2.1.2) EXCELL DRIVER FOR HEXAGONAL 2D/3D ASSEMBLIES
*----
CALL XHXTRK(IPTRK ,IPGEOM,GEONAM,IDISP,IFTEMP,
> IPRT ,NDIM ,ITOPT ,NV ,NS ,NANGL ,
> ISYMM ,DENS ,PCORN ,MXSEG,ICODE ,TITREC)
MXSUB=1
ITROP=2
ELSEIF( ITGEO.EQ.3 )THEN
*----
* 2.2.1.3) EXCELL DRIVER FOR CARTESIAN 2D/3D ASSEMBLIES
*----
CALL XELTRK(IPTRK ,IPGEOM,GEONAM,IDISP ,IFTEMP,
> IPRT ,NDIM ,ITOPT ,NV ,NS ,NANGL ,
> ISYMM ,DENS ,PCORN ,MXSUB ,MXSEG ,ICODE ,
> TITREC,INSB ,IZ ,LPRISM,NPRISM)
ITROP=1
*----
* For case with intrinsic symmetry
* tracking performed on unfolded geometry assuming angular and spatial
* symmetry
* Normalization must be on global volume since only this option
* makes sense.
*----
IF((ISYMM .GT. 1).AND.(LMERG .EQ. 0)) LMERG=1
ELSE
CALL XABORT('XELDRV: INVALID TYPE OF GEOMETRY')
ENDIF
IF((INSB.EQ.2).AND.(NDIM.NE.3)) THEN
CALL XABORT('XELDRV: XCELL OPTION LIMITED TO 3D GEOMETRY.')
ENDIF
*----
* 2.2.1.4) RECOVER KEYMRG, MATALB AND VOLSUR
*----
NUNKNX= NV+NS+1
CALL LCMSIX(IPTRK,'EXCELL ',1)
CALL LCMGET(IPTRK,'STATE-VECTOR',ISTATE)
IF(NUNKNX.NE.ISTATE(6)) CALL XABORT('XELDRV: INVALID NUNKNX.')
ALLOCATE(VOLSUR(NUNKNX),MATALB(NUNKNX),KEYMRG(NUNKNX))
CALL LCMGET(IPTRK,'KEYMRG ',KEYMRG)
CALL LCMGET(IPTRK,'MATALB ',MATALB)
CALL LCMGET(IPTRK,'VOLSUR ',VOLSUR)
CALL LCMSIX(IPTRK,'EXCELL ',2)
*----
* 2.2.2) MERGE SURFACES AND ZONES FOR THIS GEOMETRY
*----
ALLOCATE(VOLMRG(NUNKNX),MATMRG(NUNKNX))
CALL XELCMP( NS, NV, VOLSUR, MATALB, KEYMRG,
> NSOUT, NREG, VOLMRG, MATMRG, ITGEO, ICODE)
IF( NREG.GT.MAXPTS ) THEN
WRITE(IOUT,'(28H ****** XELDRV ERROR ******,/
> 28H NUMBER OF REGION COMPUTED =,I10/
> 28H MAXIMUM NUMBER OF REGION =,I10)') NREG,MAXPTS
CALL XABORT('XELDRV: MAXR TOO SMALL')
ENDIF
IF((IPRT.GE.1).AND.(INSB.NE.2)) THEN
WRITE(IOUT,6002) NANGL,ISYMM,CUTOFX,DENS,PCORN
ENDIF
IF(INSB.EQ.2) THEN
IF(IDISP.NE.99) CALL XABORT('XELDRV: INCONSISTENT IDISP')
CALL LCMGET(IPTRK,'ALBEDO',ALBOLD)
ENDIF
*
IF( IDISP.NE.IDISPO )THEN
CALL XABORT('XELDRV: *HALT* OPTION REQUESTED '//
> ' NO FURTHER CALCULATION IS POSSIBLE')
ELSEIF( IDISP.GT.0 )THEN
IF(INSB.NE.2) REWIND IFTEMP
ELSE
IF( NANGL.NE.NANGLO )THEN
CALL XABORT('XELDRV: NOT POSSIBLE TO CHANGE '//
> ' *NANGL* PARAMETER OF TRACKING FILE')
ENDIF
IF( MXSEG.NE.MXSEGO )THEN
CALL XABORT('XELDRV: NOT POSSIBLE TO CHANGE '//
> ' *MXSEG* PARAMETER OF TRACKING FILE')
ENDIF
IF( MXSUB.NE.MXSUBO )THEN
CALL XABORT('XELDRV: NOT POSSIBLE TO CHANGE '//
> ' *MXSUB* PARAMETER OF TRACKING FILE')
ENDIF
ENDIF
*----
* 2.2.3) CHECK CONSISTENCY BETWEEN *MODT* FILE AND GEOMETRY BEFORE
* MERGE
*----
SWCONS=.FALSE.
IF( IDISP.LT.0 )THEN
SWCONS= LELCHK(NSO ,NVO ,VOLOLD,MATOLD,ICOLD,
> NS ,NV ,VOLSUR,MATALB,ICODE, 0)
IF( IPRT.GT.0 )THEN
WRITE(IOUT,'(1H )')
IF( SWCONS )THEN
WRITE(IOUT,'(70H ECHO = >>> CONSISTENCY BETWEEN '//
> 'TRACKING FILE AND UNMERGED GEOMETRY /)')
ELSE
WRITE(IOUT,'(70H ECHO = >>> INCONSISTENCY BETWEEN '//
> 'TRACKING FILE AND UNMERGED GEOMETRY /)')
ENDIF
ENDIF
ENDIF
*----
* 2.2.4) CHECK CONSISTENCY BETWEEN *OLDT*/*MODT* FILE AND GEOMETRY
* AFTER MERGE
*----
IF( IDISP.EQ.0.OR.(IDISP.LT.0.AND.(.NOT.SWCONS)) )THEN
IF( NDIMO.NE.NDIM )THEN
CALL XABORT('XELDRV: DIMENSION (2-D/3-D) INCONSISTENCY')
ENDIF
SWCONS= LELCHK(NSO ,NVO ,VOLOLD,MATOLD,ICOLD,
> NSOUT,NREG,VOLMRG,MATMRG,ICODE,IPRT)
IF( SWCONS )THEN
IF( IPRT.GT.0 )THEN
WRITE(IOUT,'(1H )')
WRITE(IOUT,'(70H ECHO = >>> CONSISTENCY BETWEEN '//
> 'TRACKING FILE AND MERGED GEOMETRY /)')
ENDIF
ELSE
WRITE(IOUT,'(70H ECHO = >>> INCONSISTENCY BETWEEN '//
> 'TRACKING FILE AND MERGED GEOMETRY /)')
CALL XABORT('XELDRV: INCONSISTENCY OF MERGED GEOMETRY '//
> 'WITH OLD TRACKING FILE ' )
ENDIF
*
* CONSISTENCY WITH MERGED GEOMETRY
* COPY MERGED VOLUMES INTO VOLSUR ARRAY SINCE MERGE WAS DONE
NS= NSOUT
NV= NREG
IUNK= 0
DO 50 IR= -NS, NV
VOLSUR(IUNK+1)= VOLOLD(IUNK+1)
MATALB(IUNK+1)= MATOLD(IUNK+1)
KEYMRG(IUNK+1)= IR
IUNK= IUNK+1
50 CONTINUE
ENDIF
ENDIF
*----
* 3) NORMALIZE TEMPORARY FILE FOR *MODT*/*NEWT* FILES ----------------
*----
IF((IDISP.NE.0).AND.(INSB.NE.2))THEN
*----
* 3.1) WARNING IF THE FILE HAS *NTRK*.NE.0
*----
IF( NTRK.NE.0 )THEN
WRITE(IOUT,'(1H )')
WRITE(IOUT,'(60H ECHO = >>> WARNING: TRACKING FILE'//
> ' MAY ALREADY BE NORMALIZED /)')
ENDIF
IF (LPRISM) THEN
CALL XELCTR(IFTEMP,IFTRAK,MXSUB,MXSEG,CUTOFX,ALBOLD)
ELSE
CALL XELNTR( NDIM, IFTEMP, IFTRAK, NORE, LMERG,
> IPRT, NS, NV, VOLSUR, MATALB, KEYMRG,
> NSOUT, NREG, VOLMRG, MATMRG, CUTOFX,
> ITGEO, ICODE, ALBOLD, NANGL, MXSUB,
> MXSEG)
ENDIF
IFILE= IFTEMP
IFTEMP= KDRCLS(IFTEMP,2)
IF( IFTEMP.LT.0 ) GO TO 999
ENDIF
*----
* 4) CHARGE GEOMETRIC ALBEDOS & GET PHYSICAL ALBEDOS IF NECESSARY ----
*----
ICMAX= 0
DO 60 IR= 1, 6
ALBEDO(IR)= ONE
IUSED(IR)= 0
ICMAX= MAX(ICMAX,ICODE(IR))
IF( ICODE(IR).LT.0 ) ALBEDO(IR)= ALBOLD(-ICODE(IR))
60 CONTINUE
IF( ICMAX.GT.0 )THEN
CALL XABORT('XELDRV: PHYSICAL ALBEDOS NOT IMPLEMENTED')
ENDIF
IF( KTOPT .EQ. -1) THEN
KTOPT= ITOPT
ENDIF
IF(KSPEC .EQ. -1 ) THEN
KSPEC= KTOPT
ELSE
KSPEC=MIN(KSPEC,KTOPT)
ENDIF
*----
* 5) STOCK INFORMATION (OUTPUT TO DRAGON DRIVER) ---------------------
*----
DO 70 IR= 1, NREG
KEYFLX(IR)= IR
VOLUME(IR)= VOLMRG(IR+NSOUT+1)
MATCOD(IR)= MATMRG(IR+NSOUT+1)
70 CONTINUE
*
* COMPUTE LEAKAGE SWITCH
LEAKSW=.TRUE.
DO 80 IR= -NSOUT, -1
IUSED(-MATMRG(IR+NSOUT+1))= 1
LEAKSW= LEAKSW .AND. ALBEDO(-MATMRG(IR+NSOUT+1)).EQ.ONE
80 CONTINUE
LEAKSW=.NOT.LEAKSW
DEALLOCATE(MATMRG,VOLMRG)
IF( (IDISP.LE.0).AND.(.NOT.SWNOGE) )THEN
DEALLOCATE(MATOLD,VOLOLD)
ENDIF
*
IF( IPRT.GT.0 )THEN
IF( IPRT.GT.1 )THEN
WRITE(IOUT,'(8H SIDE ,2X,6(7X,A4))')
> (CORIEN(ITGEO,IR),IR=1,6)
WRITE(IOUT,'(8H GEOM #,2X,6(7X,I4.0))')
> (MAX(0,-ICODE(IR)),IR=1,6)
WRITE(IOUT,'(8H PHYS #,2X,6(7X,I4.0))')
> (MAX(0,ICODE(IR)),IR=1,6)
WRITE(IOUT,'(8H ALBEDO,2X,1P,6E11.4)')
> (ALBEDO(IR),IR=1,6)
WRITE(IOUT,'(8H ,2X,6(5X,A6))')
> (CUSED(IUSED(IR)),IR=1,6)
WRITE(IOUT,'(1H )')
ENDIF
WRITE(IOUT,'(1H )')
IF( KSPEC.EQ.0 )THEN
WRITE(IOUT,'(40H ECHO = >>> ISOTROPIC CP CALCULATION )')
ELSEIF( KSPEC.EQ.1 )THEN
WRITE(IOUT,'(40H ECHO = >>> SPECULAR CP CALCULATION )')
IF( CUTOFX.EQ.ZERO )THEN
WRITE(IOUT,'(27H ECHO = >>> NO CUT-OFF )')
ELSE
WRITE(IOUT,'(27H ECHO = >>> MFP. CUT-OFF: ,1P,E11.4 )')
> CUTOFX
ENDIF
ENDIF
WRITE(IOUT,'(28H ECHO = >>> NB. OF REGIONS: ,I5)') NREG
ENDIF
*----
* 5.2) RELEASE SPACE ACCORDING TO INVERSE ORDER OF ALLOCATIONS
*----
DEALLOCATE(KEYMRG,MATALB,VOLSUR)
*
* SAVE GENERAL TRACKING INFORMATION.
IF(NANIS.EQ.1) THEN
NUNKNO= NREG
ELSE
IF( NDIM.EQ.1 )THEN
NUNKNO= NANIS*NREG
ELSE IF( NDIM.EQ.2 )THEN
NUNKNO= ((NANIS*(NANIS+1))/2)*NREG
ELSE
NUNKNO= NANIS*NANIS*NREG
ENDIF
ENDIF
CALL LCMGET(IPTRK,'STATE-VECTOR',ISTATE)
ISTATE(1)=NREG
ISTATE(2)=NUNKNO
IF(LEAKSW) THEN
ISTATE(3)=0
ELSE
ISTATE(3)=1
ENDIF
IR=0
DO 100 I=1,NREG
IR=MAX(IR,MATCOD(I))
100 CONTINUE
ISTATE(4)=IR
ISTATE(5)=NSOUT
ISTATE(6)=NANIS
ISTATE(7)=ITROP
ISTATE(8)=NORE
ISTATE(9)=KTOPT
ISTATE(10)=KSPEC
ISTATE(13)=LCACT
ISTATE(14)=NMU
ISTATE(16)=NDIM
ISTATE(22)=INSB
ISTATE(27)=NBATCH
ISTATE(39)=NPRISM
IF(LBIHET) ISTATE(40)=1
CALL LCMPUT(IPTRK,'STATE-VECTOR',NSTATE,1,ISTATE)
CALL LCMPUT(IPTRK,'MATCOD',NREG,1,MATCOD)
CALL LCMPUT(IPTRK,'VOLUME',NREG,2,VOLUME)
CALL LCMPUT(IPTRK,'KEYFLX',NREG,1,KEYFLX)
CALL LCMPUT(IPTRK,'ICODE',6,1,ICODE)
CALL LCMPUT(IPTRK,'ALBEDO',6,2,ALBEDO)
CALL LCMGET(IPTRK,'EXCELTRACKOP',EXTKOP)
EXTKOP(39)=FRTM
EXTKOP(40)=DELU
CALL LCMPUT(IPTRK,'EXCELTRACKOP',NSTATE,2,EXTKOP)
IF(IPRT.GE.1) THEN
WRITE(IOUT,6000) IPRT,(ISTATE(IR),IR=1,12),ISTATE(22),
> ISTATE(16),ISTATE(27),ISTATE(39),ISTATE(40)
WRITE(IOUT,6001)(EXTKOP(IR),IR=1,3)
ENDIF
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(VOLUME)
DEALLOCATE(KEYFLX,MATCOD)
RETURN
*
6000 FORMAT(' EXCELT PRINT LEVEL =',I8/
> ' TRACK STATE-VECTOR'/' ------------------'/
> ' NREG =',I8,' (NUMBER OF REGIONS)'/
> ' NUNKNO =',I8,' (NUMBER OF UNKNOWNS IN SYSTEM)'/
> ' ILEAK =',I8,' (LEAKAGE FLAG:0=PRESENT/1=ABSENT)'/
> ' MAXMIX =',I8,' (NUMBER OF MIXTURES)'/
> ' NSOUT =',I8,' (NUMBER OF OUTER SURFACES)'/
> ' NANIS =',I8,' (FLUX ANISOTROPY ORDER)'/
> ' ITROP =',I8,' (GEOMETRY TYPE)'/
> ' NORE =',I8,' (TRACK NORMALIZATION OPTION)'/
> ' KTOPT =',I8,' (TYPE OF TRACKING:0=TISO/1=TSPC)'/
> ' KSPEC =',I8,' (TYPE OF BOUNDARY CONDITION)'/
> ' NANGL =',I8,' (USER-SUPPLIED NUMBER OF TRACKING ANGLES)'/
> ' ISYMM =',I8,' (USER-SUPPLIED TRACKING SYMMETRY FACTOR)'/
> ' INSB =',I8,' (TYPE OF VECTORIZATION:0=ONEG/1=ALLG/2=XCLL)'/
> ' NDIM =',I8,' (NUMBER OF GEOMETRIC DIMENSIONS)'/
> ' NBATCH =',I8,' (NUMBER OF TRACKS IN EACH OPENMP CORE)'/
> ' NPRISM =',I8,' (NUMBER OF PLANS IN 3D PRISMATIC GEOMETRIES)'/
> ' IBIHET =',I8,' (0/1=DOUBLE HETEROGENEITY IS NOT/IS ACTIVE)'/
> ' -----------------'/)
6001 FORMAT(
> ' EXCELL TRACK OPTIONS '/
> ' CUTOFX =',F20.8,' (CUTOFF FOR TRACK LENGTH)'/
> ' DENS =',F20.8,' (TRACK DENSITY)'/
> ' PCORN =',F20.8,' (CORNER DUPLICATION DISTANCE)'/
> ' -----------------'/)
6002 FORMAT(
> ' RECOMPUTED PARAMETERS '/
> ' NANGL =',I10 ,' (NUMBER OF TRACKING ANGLES)'/
> ' ISYMM =',I10 ,' (TRACKING SYMMETRY FACTOR)'/
> ' CUTOFX =',F10.5,' (CUTOFF FOR TRACK LENGTH)'/
> ' DENS =',F10.5,' (TRACK DENSITY)'/
> ' PCORN =',F10.5,' (CORNER DUPLICATION DISTANCE)'/
> ' -----------------'/)
*
997 WRITE(IOUT,'(31H ERROR= RECORD DESTROYED... )')
WRITE(IOUT,'(31H ERROR= UNABLE TO READ RECORD ,I10)') IREC
WRITE(IOUT,'(31H ERROR= ON FILE FT,I2.2)') IFILE
CALL XABORT('XELDRV: READ TRACKING FILE FAILED' )
998 WRITE(IOUT,'(31H ECHO = UNABLE TO OPEN FILE FT,I4)') IFILE
CALL XABORT('XELDRV: OPEN FAILED')
999 WRITE(IOUT,'(31H ECHO = UNABLE TO CLOSE FILE FT,I4)') IFILE
CALL XABORT('XELDRV: CLOSE FAILED')
*
END
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