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|
*DECK XELPRP
SUBROUTINE XELPRP(IPGEOM, GEONAM, NDIM, NTYPO, NBLOCK, NBMIX,
> MAXGRI, ALBEDO, ICODE, NCODE, LCLSYM, LCLTRA,
> MRGSUR, LEAKSW, LL1, LL2, L1CELL, NEXTGE,
> IFCSYM, IPRT)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Reads the geometry and check if the geometry
* is acceptable for EXCELL.
*
*Copyright:
* Copyright (C) 1989 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
* IPGEOM pointer to the geometry (L_GEOM).
* GEONAM geometry name.
* IPRT printing level.
*
*Parameters: output
* NDIM number of dimensions.
* NTYPO number of types.
* NBLOCK number of blocks.
* NBMIX number of mixtures.
* MAXGRI grid dimensions (NX*NY*NZ).
* ALBEDO geometric albedos on the six faces.
* ICODE index for boundary conditions.
* NCODE type of boundary conditions.
* LCLSYM symmetry flags (0: no; -1/+1: syme; -2/+2: ssym).
* LCLTRA translation flags (0: no; +1: tra).
* MRGSUR similarity between faces.
* LEAKSW leakage switch.
* LL1 diagonal symmetry (2,3).
* LL2 diagonal symmetry (1,4).
* L1CELL to indicate that there is only 1 cell.
* NEXTGE rectangular(0)/circular(1) boundary.
* IFCSYM number of symmetry in full assembly (1,2,3,4,5).
*
*-----------------------------------------------------------------------
*
USE GANLIB
IMPLICIT NONE
*
TYPE(C_PTR) IPGEOM
INTEGER NDIM, NTYPO, NBLOCK, NBMIX, NEXTGE, IFCSYM, IPRT
INTEGER MAXGRI(3),LCLSYM(3),LCLTRA(3),
> NCODE(6),ICODE(6),MRGSUR(-6:-1)
LOGICAL LEAKSW,LL1,LL2,L1CELL
REAL ALBEDO(6)
*
INTEGER NLCM, NIXS, NSTATE, IOUT
PARAMETER ( NLCM=26, NIXS=8, NSTATE=40, IOUT=6 )
INTEGER LNLCM(NLCM),INVLCM(NIXS),
> ISTATE(NSTATE),JCODE(6)
REAL ZCODE(6)
LOGICAL SWALBE(6)
CHARACTER LCMNM(NLCM)*12, GEONAM*12, CORIEN(-6:0)*4
INTEGER ILCM, IDIR, IIXS, ILONG, ITPLCM, ISUR, ITYPE,
> LREG, ISUB1, ISUB2, ISPLIT, ITRAN, I2, IAL
*
DATA CORIEN
> / ' Z+ ',' Z- ',' Y+ ',' Y- ',' X+ ',' X- ',' ' /
DATA INVLCM/ 6, 12, 16, 17, 18, 20, 21, 22 /
DATA LCMNM / 'MIX', 'MESHX', 'MESHY', 'MESHZ', 'RADIUS',
> 'SIDE', 'SPLITX', 'SPLITY', 'SPLITZ', 'SPLITR',
> 'CELL', 'COORD', 'MERGE', 'TURN', 'CLUSTER',
> 'NPIN', 'RPIN', 'APIN', 'BIHET', 'POURCE',
> 'PROCEL', 'IHEX', 'NCODE', 'ZCODE', 'ICODE',
> 'CENTER'/
*
IFCSYM= 1
DO 10 ILCM= 1, NLCM
CALL LCMLEN(IPGEOM, LCMNM(ILCM), LNLCM(ILCM), ITPLCM )
10 CONTINUE
IFCSYM= 1
DO 11 IDIR=1,3
LCLSYM(IDIR)=0
LCLTRA(IDIR)=0
11 CONTINUE
*
* ELIMINATES THE INVALID OPTIONS
DO 20 IIXS= 1, NIXS
IF( LNLCM(INVLCM(IIXS)).NE.0 )
> CALL XABORT( 'XELPRP:*'//GEONAM//'* IS '//
> 'NOT A VALID GEOMETRY FOR EXCELL'//
> ' (LCM BLOCK *'//LCMNM(INVLCM(IIXS))//'*)')
20 CONTINUE
CALL LCMLEN(IPGEOM,'STATE-VECTOR',ILONG,ITPLCM)
IF( ILONG.LE.0 .OR. ILONG .GT. NSTATE )
> CALL XABORT( 'XELPRP: GEOMETRY HAS INVALID STATE VECTOR')
ISTATE(:NSTATE)=0
CALL LCMGET(IPGEOM,'STATE-VECTOR',ISTATE)
DO 35 ISUR= 1, 6
SWALBE( ISUR)= .FALSE.
ALBEDO( ISUR)= 1.0
MRGSUR(-ISUR)= -ISUR
ICODE ( ISUR)= -ISUR
35 CONTINUE
*
ITYPE= ISTATE(1)
LREG= ISTATE(6)
NBMIX= ISTATE(7)
ISUB1= ISTATE(8)
ISUB2= ISTATE(9)
ISPLIT= ISTATE(11)
NEXTGE= 0
*
IF( ISUB1.NE.0 )THEN
*
* MANY CELLS
L1CELL= .FALSE.
MAXGRI(1)= MAX(1,ISTATE(3))
MAXGRI(2)= MAX(1,ISTATE(4))
MAXGRI(3)= MAX(1,ISTATE(5))
NTYPO= ISUB2
IF( ITYPE.EQ.5 )THEN
NDIM= 2
SWALBE(1)=.TRUE.
SWALBE(2)=.TRUE.
SWALBE(3)=.TRUE.
SWALBE(4)=.TRUE.
ICODE (5)= 0
ICODE (6)= 0
ELSEIF( ITYPE.EQ.7 )THEN
NDIM= 3
SWALBE(1)=.TRUE.
SWALBE(2)=.TRUE.
SWALBE(3)=.TRUE.
SWALBE(4)=.TRUE.
SWALBE(5)=.TRUE.
SWALBE(6)=.TRUE.
ELSE
CALL XABORT( 'XELPRP: INVALID GEOMETRY FOR EXCELL')
ENDIF
ELSE
*
* JUST ONE CELL
L1CELL= .TRUE.
MAXGRI(1)= 1
MAXGRI(2)= 1
MAXGRI(3)= 1
NTYPO= 1
IF( ITYPE.EQ. 3 .OR. ITYPE.EQ. 5 .OR.
> ITYPE.EQ.20 )THEN
NDIM= 2
IF( ITYPE.EQ.3 )THEN
NEXTGE= 1
ICODE (1)= 0
SWALBE(2)=.TRUE.
ICODE (3)= 0
ICODE (4)= 0
ICODE (5)= 0
ICODE (6)= 0
ELSE
SWALBE(1)=.TRUE.
SWALBE(2)=.TRUE.
SWALBE(3)=.TRUE.
SWALBE(4)=.TRUE.
ICODE (5)= 0
ICODE (6)= 0
ENDIF
ELSEIF( ITYPE.EQ. 6 .OR. ITYPE.EQ. 7 .OR.
> ITYPE.EQ.21 .OR. ITYPE.EQ.22 .OR. ITYPE.EQ.23 )THEN
NDIM= 3
IF( ITYPE.EQ.6 )THEN
NEXTGE= 1
ICODE (1)= 0
SWALBE(2)=.TRUE.
ICODE (3)= 0
ICODE (4)= 0
SWALBE(5)=.TRUE.
SWALBE(6)=.TRUE.
ELSE
SWALBE(1)=.TRUE.
SWALBE(2)=.TRUE.
SWALBE(3)=.TRUE.
SWALBE(4)=.TRUE.
SWALBE(5)=.TRUE.
SWALBE(6)=.TRUE.
ENDIF
ELSE
CALL XABORT( 'XELPRP: INVALID GEOMETRY FOR EXCELL')
ENDIF
ENDIF
*
* RECOVERS B.C.
CALL LCMGET(IPGEOM,'NCODE',NCODE)
CALL LCMGET(IPGEOM,'ZCODE',ZCODE)
CALL LCMGET(IPGEOM,'ICODE',JCODE)
*
* TREATMENT OF DIAGONAL B.C.
LL1= .FALSE.
LL2= .FALSE.
ITRAN=0
I2=0
DO 50 IAL=1, 6
IF( .NOT.SWALBE(IAL) ) GO TO 50
IF( JCODE(IAL).NE.0 )THEN
IF( ICODE(IAL).EQ.0 )THEN
CALL XABORT('XELPRP: INVALID BOUNDARY CONDITION.')
ENDIF
ICODE(IAL)= JCODE(IAL)
ZCODE(IAL)= 1.0
ELSEIF( NCODE(IAL).EQ.0 )THEN
CALL XABORT('XELPRP: A BOUNDARY CONDITION IS MISSING.')
ENDIF
IF( NCODE(IAL).EQ.2 )THEN
ZCODE(IAL)= 1.0
ELSEIF( NCODE(IAL).EQ.3 )THEN
I2=I2+1
ELSEIF( NCODE(IAL).EQ.4 )THEN
ITRAN=ITRAN+1
ZCODE(IAL)= 1.0
ELSEIF( NCODE(IAL).EQ.6 )THEN
NCODE(IAL)= 1
ELSEIF( NCODE(IAL) .EQ. 7 .OR.
> NCODE(IAL) .EQ. 8 .OR.
> NCODE(IAL) .EQ. 9 .OR.
> NCODE(IAL) .GE. 11 )THEN
CALL XABORT('XELPRP: INVALID B.C. FOR EXCELL')
ENDIF
50 CONTINUE
*
* DIAGONAL B.C.
IF( I2.GT.0 )THEN
IF( I2.NE.2 )
> CALL XABORT('XELPRP: NO MORE THAN 2 DIAGONAL CONDITIONS')
IF( MAXGRI(1).NE.MAXGRI(2))
> CALL XABORT('XELPRP: LX=LY WITH A DIAGONAL SYMMETRY.')
LL1=((NCODE(2).EQ.3).AND.(NCODE(3).EQ.3))
LL2=((NCODE(1).EQ.3).AND.(NCODE(4).EQ.3))
IFCSYM= IFCSYM+1
IF( LL1 )THEN
NCODE(2)= NCODE(4)
NCODE(3)= NCODE(1)
ICODE(2)= ICODE(4)
ICODE(3)= ICODE(1)
MRGSUR(-2)= -4
MRGSUR(-3)= -1
ZCODE(2)= ZCODE(4)
ZCODE(3)= ZCODE(1)
ELSEIF( LL2 )THEN
NCODE(1)= NCODE(3)
NCODE(4)= NCODE(2)
ICODE(1)= ICODE(3)
ICODE(4)= ICODE(2)
MRGSUR(-1)= -3
MRGSUR(-4)= -2
ZCODE(1)= ZCODE(3)
ZCODE(4)= ZCODE(2)
ELSE
CALL XABORT('XELPRP: THE DIAGONAL CONDITIONS '//
> 'X+: DIAG Y-: DIAG AND '//
> 'X-: DIAG Y+: DIAG ARE THE ONLY PERMITTED.')
ENDIF
ENDIF
*
* TRANSLATION BC (PERIODIC CELL)
* ONLY PAIRS PERMITTED:
* 1) X- TRAN X+ TRAN
* 2) Y- TRAN Y+ TRAN
* 3) Z- TRAN Z+ TRAN
IF( ITRAN.GT.0 )THEN
IF( MOD(ITRAN,2).EQ.1 )THEN
CALL XABORT('XELPRP: TRANSLATION SYMETRIES COME IN PAIRS')
ENDIF
DO 45 IAL=1,6,2
IF(SWALBE(IAL)) THEN
IF( NCODE(IAL).EQ.4 .AND. NCODE(IAL+1).EQ.4 )THEN
LCLTRA((IAL+1)/2)=1
MRGSUR(-IAL )=-IAL-1
MRGSUR(-IAL-1)=-IAL
ITRAN=ITRAN-2
ENDIF
ENDIF
45 CONTINUE
IF( ITRAN.NE.0 )THEN
CALL XABORT('XELPRP: WRONG PAIRS OF TRANSLATION SYMETRIES')
ENDIF
ENDIF
*
* SYMMETRIC B.C.
DO 40 IAL= 1, 6
IF( .NOT.SWALBE(IAL) ) GO TO 40
ALBEDO( IAL)= ZCODE(IAL)
IF( NCODE(IAL).EQ.5 )THEN
MAXGRI((IAL+1)/2)= 2*MAXGRI((IAL+1)/2)-1
IF( LCLSYM((IAL+1)/2).NE.0 )THEN
CALL XABORT('XELPRP: 2 SYMMETRIES ON SAME FACE')
ELSE
IFCSYM= IFCSYM+1
IF( MOD(IAL,2).EQ.0 )THEN
LCLSYM((IAL+1)/2)= +1
MRGSUR(-IAL)= MRGSUR(-IAL+1)
ALBEDO( IAL)= ZCODE(IAL-1)
ICODE ( IAL)= ICODE(IAL-1)
ELSE
LCLSYM((IAL+1)/2)= -1
MRGSUR(-IAL)= MRGSUR(-IAL-1)
ALBEDO( IAL)= ZCODE(IAL+1)
ICODE ( IAL)= ICODE(IAL+1)
ENDIF
ENDIF
ELSE IF( NCODE(IAL).EQ.10 )THEN
MAXGRI((IAL+1)/2)= 2*MAXGRI((IAL+1)/2)
IF( LCLSYM((IAL+1)/2).NE.0 )THEN
CALL XABORT('XELPRP: 2 SYMMETRIES ON SAME FACE')
ELSE
IFCSYM= IFCSYM+1
IF( MOD(IAL,2).EQ.0 )THEN
LCLSYM((IAL+1)/2)= +2
MRGSUR(-IAL)= MRGSUR(-IAL+1)
ALBEDO( IAL)= ZCODE(IAL-1)
ICODE ( IAL)= ICODE(IAL-1)
ELSE
LCLSYM((IAL+1)/2)= -2
MRGSUR(-IAL)= MRGSUR(-IAL-1)
ALBEDO( IAL)= ZCODE(IAL+1)
ICODE ( IAL)= ICODE(IAL+1)
ENDIF
ENDIF
ENDIF
40 CONTINUE
*
NBLOCK= MAXGRI(1)*MAXGRI(2)*MAXGRI(3)
LEAKSW= .TRUE.
DO 60 ISUR= 1, 6
LEAKSW= LEAKSW .AND. ALBEDO( ISUR).EQ.1.0
60 CONTINUE
LEAKSW= .NOT. LEAKSW
IF( IPRT.GT.2 )THEN
IF( LEAKSW )THEN
WRITE(IOUT,6000)
> (100.*(1.0-ALBEDO(IAL)), IAL= 1,6)
ELSE
WRITE(IOUT,6001)
ENDIF
WRITE(IOUT,6100)
> (CORIEN(MRGSUR(IAL)), IAL=-1,-6,-1)
ENDIF
IF( NEXTGE.NE.0 )THEN
CALL XABORT( 'XELPRP:*'//GEONAM//'* IS '//
> 'A TUBE/TUBEZ GEOMETRY (NOT AVAILABLE)')
ENDIF
*
RETURN
6000 FORMAT(/1X,'*** ONLY FOR GEOMETRIC ALBEDOS ***'
> /1X,'PERCENT LEAKAGE X-: ',F5.1,'% X+: ',F5.1,'%'
> /1X,'(FULL UNFOLD Y-: ',F5.1,'% Y+: ',F5.1,'%'
> /1X,' ASSEMBLY) Z-: ',F5.1,'% Z+: ',F5.1,'%'//)
6001 FORMAT(/1X,'*** ONLY FOR GEOMETRIC ALBEDOS ***'
> /1X,'*** NO LEAKAGE ON THE ASSEMBLY ***'//)
6100 FORMAT(/1X,'SIMILAR FACES X-: ',A5,2X,'X+: ',A5
> /1X,'(FULL UNFOLD Y-: ',A5,2X,'Y+: ',A5
> /1X,' ASSEMBLY) Z-: ',A5,2X,'Z+: ',A5//)
END
|
