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|
*DECK XELBIN
SUBROUTINE XELBIN( IPGEOM, NDIM, NGEOME, L1CELL, NTYPES, NGIDL,
> NTIDL, NBLOCK, MAXGRI, NUNKO, IPRT, CELLG,
> NSURO, NVOLO, IDLGEO, MATGEO, KEYGEO, IDLTYP,
> IDLBLK, KEYTYP, MATTYP, KEYINT)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Identify every zone of every type to its material and
* interface all internal surfaces for cells present in the supercell.
*
*Copyright:
* Copyright (C) 1987 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).
* NDIM number of dimensions (2 or 3).
* NGEOME number of geometries.
* L1CELL .true. if only one cell.
* NTYPES number of types.
* NGIDL lenght of geometric numbering.
* NTIDL lenght of type numbering.
* NBLOCK number of blocks.
* MAXGRI number of cells along each axis.
* NUNKO old number of unknowns.
* IPRT intermediate printing level for output.
* CELLG to keep geometry names.
* NSURO number of surfaces of each geometry.
* NVOLO number of zones of each geometry.
* IDLGEO position of each geometry in the
* geometry numbering scheme.
* MATGEO material numbers corresponding to geometries.
* KEYGEO geometric key for each type.
* IDLTYP position of each type in numbering scheme.
* IDLBLK position of each block in numbering scheme.
* KEYTYP type key for each block.
*
*Parameters: output
* MATTYP material numbers for zones of every type.
* KEYINT interface key (giving the connected surface).
*
*-----------------------------------------------------------------------
*
USE GANLIB
IMPLICIT NONE
*
TYPE(C_PTR) IPGEOM
INTEGER NDIM, NGEOME, NTYPES, NGIDL, NTIDL, NBLOCK,
> NUNKO, IPRT
INTEGER NSURO(NGEOME), NVOLO(NGEOME), IDLGEO(NGEOME),
> MATGEO( NGIDL), KEYGEO(NTYPES), IDLTYP(NTYPES),
> MATTYP( NTIDL), KEYTYP(NBLOCK), IDLBLK(NBLOCK),
> KEYINT(NUNKO ), MAXGRI(NDIM) , CELLG(3*NTYPES)
*
INTEGER ILO(3,2), NO(2), KTYP(2),
> KMAT(2), KSUR(2), KABSO(2), KSID(2),
> ICOORD(3), NCODE(6)
CHARACTER GEOCEL*12, TEDATA*12, TEMESH(4)*7
LOGICAL SWKILL, L1CELL, LL1, LL2
INTEGER NSTATE, IOUT, MAXSPL
PARAMETER ( NSTATE=40, IOUT=6, MAXSPL=100 )
INTEGER ISTATE(NSTATE),ISPLT(MAXSPL)
INTEGER NUMGEO, NUMTYP, NUMBLK, I, K
INTEGER NBMD
INTEGER IMYT, IUNK, ITYP, IMYG, IGEO, NSUX, NVOX, ICYL,
> ICX, ICY, ICZ, LR, LX, LY, LZ, KOLD, ITYPG,
> ISUR, IX, IY, IZ, IOFF, KNEW, ILEN, ITYLCM,
> ISX, ISY, ISZ, ISR, KIOFX, KIOFY, KIOFZ,
> J0, J1, J2, JC, JR, IP0, IP1, IP2, N, NP1, NP2,
> K0, K1, K2, K3, KR, IBLK, ISUX
EQUIVALENCE ( ICOORD(1),LX ),(ICOORD(2),LY),(ICOORD(3),LZ )
DATA TEMESH / 'X', 'Y', 'Z', 'R'/
*
NUMGEO(I,K)= I + IDLGEO(K)
NUMTYP(I,K)= I + IDLTYP(K)
NUMBLK(I,K)= I + IDLBLK(K)
*
SWKILL= .FALSE.
LL1= .FALSE.
LL2= .FALSE.
DO 10 IMYT= 1, NTIDL
MATTYP(IMYT)= 0
10 CONTINUE
DO 20 IUNK= 1, NUNKO
KEYINT(IUNK)= 0
20 CONTINUE
DO 40 ITYP= 1, NTYPES
IGEO = KEYGEO( ITYP )
NVOX = NVOLO( IGEO )
NSUX = NSURO( IGEO )
IF( .NOT.L1CELL )THEN
WRITE(GEOCEL( 1: 4), '(A4)') CELLG(3*ITYP-2)
WRITE(GEOCEL( 5: 8), '(A4)') CELLG(3*ITYP-1)
WRITE(GEOCEL( 9:12), '(A4)') CELLG(3*ITYP )
CALL LCMSIX(IPGEOM, GEOCEL, 1)
ELSE
CALL LCMGET(IPGEOM,'NCODE', NCODE)
LL1=((NCODE(2).EQ.3).AND.(NCODE(3).EQ.3))
LL2=((NCODE(1).EQ.3).AND.(NCODE(4).EQ.3))
ENDIF
ISTATE(:NSTATE)=0
CALL LCMGET(IPGEOM,'STATE-VECTOR',ISTATE)
ITYPG= ISTATE(1)
IF( ITYPG.EQ.20) THEN
* FOR *CARCEL* GEOMETRIES
ICYL= 1
ICX= 1
ICY= 2
ICZ= 3
ELSEIF(ITYPG.EQ.3.OR.ITYPG.EQ.6 )THEN
* FOR *CARCEL*, *TUBE* OR *TUBEZ* GEOMETRIES
ICYL= 1
ICX= 1
ICY= 2
ICZ= 3
IF( LL1.OR.LL2 )THEN
CALL XABORT( 'XELBIN: DIAGONAL SYMETRIES NOT POSSIBLE')
ENDIF
ELSEIF( ITYPG.GT.20 )THEN
* FOR *CARCELX*, *CARCELY* OR *CARCELZ*
ICYL= 1
ICZ= ITYPG-20
ICX= MOD(ICZ , 3) + 1
ICY= MOD(ICZ+1, 3) + 1
ELSE
* FOR *CAR2D* OR *CAR3D*
ICYL= 0
ICX= 1
ICY= 2
ICZ= 3
ENDIF
LR= ISTATE(2)
LX= MAX(1,ISTATE(3))
LY= MAX(1,ISTATE(4))
LZ= MAX(1,ISTATE(5))
KOLD= ISTATE(6)
DO 30 ISUR= NSUX, -1
MATTYP(NUMTYP(ISUR,ITYP))= MATGEO(NUMGEO(ISUR,IGEO))
30 CONTINUE
*
* GET MIXTURE NUMBERS
CALL LCMLEN(IPGEOM, 'MIX', ILEN, ITYLCM)
IF( ILEN.NE.KOLD )THEN
WRITE(IOUT,*) 'LENGHT(MIX)= ',ILEN
WRITE(IOUT,*) '# OF VOLUMES= ',KOLD
CALL LCMLIB(IPGEOM)
CALL XABORT( 'XELBIN: INVALID NUMBER OF MIXTURES')
ENDIF
CALL LCMGET(IPGEOM,'MIX',MATTYP(NUMTYP(1,ITYP)))
*
* IN THE CASE OF DIAGONAL SYMMETRY IN 'ONE-CELL'
* CAR2D AND CAR3D GEOMETRY UNFOLD MIXTURES
*
IF(ITYPG .LT. 20) THEN
K3=ISTATE(6)
NBMD=(LZ*LY*(LX+1))/2
IF(K3 .EQ. NBMD) THEN
*----
* MIXTURE ENTERED IN DIAGONAL FORM
*----
IF( LL1 )THEN
DO 72 IZ=LZ,1,-1
IOFF=(IZ-1)*LX*LY
DO 71 IY=LY,1,-1
DO 60 IX=LX,IY+1,-1
MATTYP(NUMTYP(IOFF+(IY-1)*LX+IX,ITYP))=
> MATTYP(NUMTYP(IOFF+(IX-1)*LY+IY,ITYP))
60 CONTINUE
DO 70 IX=IY,1,-1
MATTYP(NUMTYP(IOFF+(IY-1)*LX+IX,ITYP))=
> MATTYP(NUMTYP(K3,ITYP))
K3=K3-1
70 CONTINUE
71 CONTINUE
72 CONTINUE
KOLD= LX*LY*LZ
ELSEIF( LL2 )THEN
DO 82 IZ=LZ,1,-1
IOFF=(IZ-1)*LX*LY
DO 81 IY=LY,1,-1
DO 80 IX=LX,IY,-1
MATTYP(NUMTYP(IOFF+(IY-1)*LX+IX,ITYP))=
> MATTYP(NUMTYP(K3,ITYP))
K3=K3-1
80 CONTINUE
81 CONTINUE
82 CONTINUE
DO 92 IZ=1,LZ
IOFF=(IZ-1)*LX*LY
DO 91 IY=1,LY
DO 90 IX=1,IY-1
MATTYP(NUMTYP(IOFF+(IY-1)*LX+IX,ITYP))=
> MATTYP(NUMTYP(IOFF+(IX-1)*LY+IY,ITYP))
90 CONTINUE
91 CONTINUE
92 CONTINUE
KOLD= LX*LY*LZ
ENDIF
ENDIF
ENDIF
*
* FOR THE PARTICULAR CASE OF *TUBE* OR *TUBEZ* GEOMETRIES
IF( ITYPG.EQ.3.OR.ITYPG.EQ.6 )THEN
DO 39 IZ= 1, LZ
MATTYP(NUMTYP(KOLD+IZ,ITYP))= -2
39 CONTINUE
KOLD= KOLD+LZ
ENDIF
*
* FILL UP MATTYP ACCORDING TO SPLITTING VALUES.
KNEW= NVOX
ISR= 0
ISX= 0
ISY= 0
ISZ= 0
DO 308 K0= ICOORD(ICZ),1,-1
KIOFZ= KOLD
TEDATA= 'SPLIT'//TEMESH(ICZ)
CALL LCMLEN(IPGEOM,TEDATA,ILEN,ITYLCM)
IF( ILEN.GT.MAXSPL )THEN
CALL XABORT('XELBIN: SPLIT OVERFLOW ('//TEDATA//')')
ELSEIF( ILEN.EQ.0 )THEN
ISZ= 1
ELSE
CALL LCMGET(IPGEOM,TEDATA,ISPLT)
ISZ= ISPLT(K0)
ENDIF
DO 307 J0=ISZ,1,-1
KOLD= KIOFZ
DO 306 K1= ICOORD(ICY),1,-1
KIOFY= KOLD
TEDATA= 'SPLIT'//TEMESH(ICY)
CALL LCMLEN(IPGEOM,TEDATA,ILEN,ITYLCM)
IF( ILEN.GT.MAXSPL )THEN
CALL XABORT('XELBIN: SPLIT OVERFLOW ('//TEDATA//')')
ELSEIF( ILEN.EQ.0 )THEN
ISY= 1
ELSE
CALL LCMGET(IPGEOM,TEDATA,ISPLT)
ISY= ISPLT(K1)
ENDIF
DO 305 J1=ISY,1,-1
KOLD= KIOFY
DO 304 K2= ICOORD(ICX),1,-1
KIOFX= KOLD
TEDATA= 'SPLIT'//TEMESH(ICX)
CALL LCMLEN(IPGEOM,TEDATA,ILEN,ITYLCM)
IF( ILEN.GT.MAXSPL )THEN
CALL XABORT('XELBIN: SPLIT OVERFLOW ('//TEDATA//')')
ELSEIF( ILEN.EQ.0 )THEN
ISX= 1
ELSE
CALL LCMGET(IPGEOM,TEDATA,ISPLT)
ISX= ISPLT(K2)
ENDIF
DO 303 J2=ISX,1,-1
KOLD= KIOFX
* FOR RECTANGULAR OUTER REGIONS.
IMYT= MATTYP(NUMTYP(KOLD,ITYP))
MATTYP(NUMTYP(KNEW,ITYP))= IMYT
KNEW= KNEW-1
KOLD= KOLD-1
IF( ICYL.EQ.1 )THEN
* FOR CYLINDRICAL INNER REGIONS.
DO 302 KR= LR,1,-1
TEDATA= 'SPLIT'//TEMESH(4)
CALL LCMLEN(IPGEOM,TEDATA,ILEN,ITYLCM)
IF( ILEN.GT.MAXSPL )THEN
CALL XABORT('XELBIN: SPLIT OVERFLOW ('//TEDATA//')')
ELSEIF( ILEN.EQ.0 )THEN
ISR= 1
ELSE
CALL LCMGET(IPGEOM,TEDATA,ISPLT)
ISR= ABS(ISPLT(KR))
ENDIF
IMYT= MATTYP(NUMTYP(KOLD,ITYP))
DO 301 JR=ISR,1,-1
MATTYP(NUMTYP(KNEW,ITYP))= IMYT
KNEW= KNEW-1
301 CONTINUE
KOLD= KOLD-1
302 CONTINUE
ENDIF
303 CONTINUE
304 CONTINUE
305 CONTINUE
306 CONTINUE
307 CONTINUE
308 CONTINUE
IF( KNEW.NE.0 )THEN
WRITE(IOUT,*) 'XELBIN: KNEW.NE.0 = PROBLEM WITH SPLITTING'
SWKILL= .TRUE.
ENDIF
IF( KOLD.NE.0 )THEN
WRITE(IOUT,*) 'XELBIN: KOLD.NE.0 = PROBLEM WITH SPLITTING'
SWKILL= .TRUE.
ENDIF
*
IF( .NOT.L1CELL ) CALL LCMSIX(IPGEOM, ' ', 2)
40 CONTINUE
*
* RECOMPOSE INTERNAL SURFACES COUPLING (INTERFACES)
* THIS ASSUMES THAT AN ORDERING OF SURFACES IS DONE
* BECAUSE: SIDE-BY-SIDE INTERFACES
* ARE SUPPOSED IN INCREASING POSITION.
DO 220 N= 1, NDIM
*
* DEFINITION OF THE SIDE NUMBER TO COUPLE.
KSID(1)= -2*N
KSID(2)= (-2*N) + 1
NP1 = MOD(N ,NDIM) + 1
IF( NDIM.EQ.3 )THEN
NP2 = MOD(N+1,NDIM) + 1
DO 112 IP1= 1, MAXGRI(NP1)
ILO(NP1,1)= IP1
ILO(NP1,2)= IP1
DO 111 IP2= 1, MAXGRI(NP2)
ILO(NP2,1)= IP2
ILO(NP2,2)= IP2
DO 110 IP0= 1, MAXGRI(N)-1
ILO(N ,1)= IP0
ILO(N ,2)= IP0 + 1
DO 100 JC= 1, 2
NO(JC)= MAXGRI(1)*(MAXGRI(2)*ILO(3,JC)+ILO(2,JC)-
> MAXGRI(2))+ILO(1,JC)-MAXGRI(1)
KTYP(JC)= KEYTYP( NO(JC) )
IF( KTYP(JC).EQ.0 ) GO TO 110
IGEO = KEYGEO( KTYP(JC) )
* SEARCH FROM THE END
KSUR(JC)= NSURO(IGEO)
KMAT(JC)= MATTYP( NUMTYP(KSUR(JC),KTYP(JC)) )
100 CONTINUE
*
* ORDERING INTERFACING OF THE TWO BLOCKS.
101 CONTINUE
IF( KMAT(1).EQ.KSID(1).AND.KMAT(2).EQ.KSID(2) )THEN
IF( KSUR(1).EQ.0 .OR. KSUR(2).EQ.0 ) GO TO 109
KABSO(1)= NUMBLK( KSUR(1),NO(1) )
KABSO(2)= NUMBLK( KSUR(2),NO(2) )
KEYINT( KABSO(1) )= KABSO(2)
KEYINT( KABSO(2) )= KABSO(1)
KSUR(1)= KSUR(1)+1
KSUR(2)= KSUR(2)+1
ELSE
IF( KMAT(1).NE.KSID(1) ) KSUR(1)= KSUR(1)+1
IF( KMAT(2).NE.KSID(2) ) KSUR(2)= KSUR(2)+1
ENDIF
IF( KSUR(1).NE.0 )THEN
KMAT(1)= MATTYP( NUMTYP(KSUR(1),KTYP(1)) )
ELSE
KMAT(1)= KSID(1)
ENDIF
IF( KSUR(2).NE.0 )THEN
KMAT(2)= MATTYP( NUMTYP(KSUR(2),KTYP(2)) )
ELSE
KMAT(2)= KSID(2)
ENDIF
GO TO 101
109 IF( KSUR(1).NE.0 .OR. KSUR(2).NE.0 )THEN
WRITE(IOUT,'(1H ,I8,4H OF ,I8,5H <=> ,I8,4H OF ,I8)')
> KSUR(1), NO(1), KSUR(2), NO(2)
SWKILL=.TRUE.
ENDIF
110 CONTINUE
111 CONTINUE
112 CONTINUE
ELSEIF( NDIM.EQ.2 )THEN
DO 215 IP1= 1, MAXGRI(NP1)
ILO(NP1,1)= IP1
ILO(NP1,2)= IP1
DO 210 IP0= 1, MAXGRI(N)-1
ILO(N ,1)= IP0
ILO(N ,2)= IP0 + 1
DO 200 JC= 1, 2
NO(JC)= MAXGRI(1) * (ILO(2,JC) - 1) + ILO(1,JC)
KTYP(JC)= KEYTYP( NO(JC) )
IF( KTYP(JC).EQ.0 ) GO TO 210
IGEO = KEYGEO( KTYP(JC) )
* SEARCH FROM THE END
KSUR(JC)= NSURO(IGEO)
KMAT(JC)= MATTYP( NUMTYP(KSUR(JC),KTYP(JC)) )
200 CONTINUE
*
* ORDERING INTERFACING OF THE TWO BLOCKS.
201 CONTINUE
IF( KMAT(1).EQ.KSID(1).AND.KMAT(2).EQ.KSID(2) )THEN
IF( KSUR(1).EQ.0 .OR. KSUR(2).EQ.0 ) GO TO 209
KABSO(1)= NUMBLK( KSUR(1),NO(1) )
KABSO(2)= NUMBLK( KSUR(2),NO(2) )
KEYINT( KABSO(1) )= KABSO(2)
KEYINT( KABSO(2) )= KABSO(1)
KSUR(1)= KSUR(1)+1
KSUR(2)= KSUR(2)+1
ELSE
IF( KMAT(1).NE.KSID(1) ) KSUR(1)= KSUR(1)+1
IF( KMAT(2).NE.KSID(2) ) KSUR(2)= KSUR(2)+1
ENDIF
IF( KSUR(1).NE.0 )THEN
KMAT(1)= MATTYP( NUMTYP(KSUR(1),KTYP(1)) )
ELSE
KMAT(1)= KSID(1)
ENDIF
IF( KSUR(2).NE.0 )THEN
KMAT(2)= MATTYP( NUMTYP(KSUR(2),KTYP(2)) )
ELSE
KMAT(2)= KSID(2)
ENDIF
GO TO 201
209 IF( KSUR(1).NE.0 .OR. KSUR(2).NE.0 )THEN
WRITE(IOUT,'(1H ,I8,4H OF ,I8,5H <=> ,I8,4H OF ,I8)')
> KSUR(1), NO(1), KSUR(2), NO(2)
SWKILL=.TRUE.
ENDIF
210 CONTINUE
215 CONTINUE
ELSE
CALL LCMLIB(IPGEOM)
CALL XABORT( 'XELBIN: *** FALSE NDIM VALUE')
ENDIF
220 CONTINUE
*
IF( IPRT.GE.100 .OR. SWKILL )THEN
IUNK= 0
WRITE(IOUT,'(/40H KEYINT COUPLE MATERIAL )')
DO 250 IBLK= 1, NBLOCK
ITYP= KEYTYP(IBLK)
IGEO= KEYGEO(ITYP)
NVOX= NVOLO(IGEO)
NSUX= NSURO(IGEO)
DO 240 ISUX= NSUX, NVOX
IUNK= IUNK+1
IMYT= MATTYP( NUMTYP(ISUX,ITYP) )
IF( ISUX.LT.0 )THEN
WRITE(IOUT,
> '(5H SUR(,I8,5H) => ,I8,4H OF , I8)')
> IUNK, KEYINT(IUNK), IMYT
ELSEIF( ISUX.GT.0 )THEN
IMYG= MATGEO( NUMGEO(ISUX,IGEO) )
WRITE(IOUT,
> '(5H VOL(,I8,5H) => ,I8,4H OF , I8,1H(,I8,1H))')
> IUNK, KEYINT(IUNK), IMYT, IMYG
ENDIF
240 CONTINUE
WRITE(IOUT,'(/1X)')
250 CONTINUE
ENDIF
IF( SWKILL ) CALL XABORT( 'XELBIN: IMPOSSIBLE TO INTERFACE')
*
RETURN
END
|
