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|
*DECK LDRASS
LOGICAL FUNCTION LDRASS(IPGEOM,IPRT)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Reads the geometry on LCM and check compatibility for cell assemblies.
*
*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
* IPGEOM pointer to the geometry LCM object (L_GEOM).
* IPRT print flag (iprt=0: no print).
*
*Parameters: output
* LDRASS checking flag: =.true. if everything was 'ok' with assembly;
* =.false. if nothing was checked.
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPGEOM
INTEGER IPRT
*----
* LOCAL VARIABLES
*----
PARAMETER ( IOUT=6, NLCM=26, NSTATE=40, NIXS=12, NIST=1 )
CHARACTER*12 LCMNM(NLCM), GEONAM, TEXT12
INTEGER LNLCM(NLCM),INVLCM(NIXS),INVSTA(NIST),ISTATE(NSTATE),
> MAXGRI(3),NCODE(6)
LOGICAL LL1,LL2,LCELL,LDRCEL,EMPTY,LCM
*----
* ALLOCATABLE ARRAYS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: KEYTYP,KMERGE,KTURN,KEYCEL,
> KCHECK
*----
* DATA STATEMENTS
*----
DATA INVLCM/ 6, 7, 8, 9, 10, 12, 16, 17, 18,
> 20, 21, 22 /
DATA INVSTA/11 /
DATA LCMNM / 'MIX', 'MESHX', 'MESHY', 'MESHZ', 'RADIUS',
> 'SIDE', 'SPLITX', 'SPLITY', 'SPLITZ', 'SPLITR',
> 'CELL', 'COORD', 'MERGE', 'TURN','CLUSTER',
> 'NPIN', 'RPIN', 'APIN', 'BIHET', 'POURCE',
> 'PROCEL', 'IHEX', 'STATE', 'NCODE', 'ZCODE',
> 'ICODE'/
*
* I: CELL TYPE
* J: CELL TURN (=J.EQ.1.OR.J.EQ.2)
IADR( IAXIS, I1,J1, I2,J2)= IAXIS
> + 3*(J1-1+2*(J2-1+2*(I1-1+NTYPES*(I2-1))))
*
CALL LCMINF(IPGEOM,GEONAM,TEXT12,EMPTY,ILONG,LCM)
LDRASS= .TRUE.
IF( IPRT.GT.1 )THEN
WRITE(IOUT,'(/20H CHECKING ASSEMBLY: ,A12)') GEONAM
ENDIF
DO 10 ILCM= 1, NLCM
CALL LCMLEN(IPGEOM, LCMNM(ILCM), LNLCM(ILCM), ITPLCM )
10 CONTINUE
*----
* ELIMINATES OPTIONS NOT CHECKED BY THE ROUTINE
*----
DO 20 IIXS= 1, NIXS
IF( LNLCM(INVLCM(IIXS)).NE.0 )THEN
LDRASS= .FALSE.
GO TO 9999
ENDIF
20 CONTINUE
CALL LCMLEN(IPGEOM,'STATE-VECTOR',ILEN,ITPLCM)
IF( ITPLCM.NE.1 )THEN
LDRASS= .FALSE.
CALL XABORT( 'LDRASS: STATE VECTOR IS NOT AN INTEGER')
ENDIF
IF( ILEN.NE.NSTATE )THEN
LDRASS= .FALSE.
CALL XABORT( 'LDRASS: GEOMETRY HAS INVALID STATE VECTOR')
ENDIF
ISTATE(:NSTATE)=0
CALL LCMGET(IPGEOM,'STATE-VECTOR',ISTATE)
*----
* ELIMINATES THE INVALID OPTIONS
*----
DO 30 IIST= 1, NIST
IF( ISTATE(INVSTA(IIST)).NE.0 )THEN
LDRASS= .FALSE.
GO TO 9999
ENDIF
30 CONTINUE
*
ITYPE= ISTATE(1)
*----
* FIX DIMENSION OF CELL ASSEMBLY
*----
IF( ITYPE.EQ.5 )THEN
NDIM= 2
ELSEIF( ITYPE.EQ.7 )THEN
NDIM= 3
ELSE
LDRASS= .FALSE.
GO TO 9999
ENDIF
LREG= ISTATE(6)
NBMIX= ISTATE(7)
ISUB1= ISTATE(8)
ISUB2= ISTATE(9)
*
IF( ISUB1.NE.0 )THEN
MAXGRI(1)= MAX(1,ISTATE(3))
MAXGRI(2)= MAX(1,ISTATE(4))
MAXGRI(3)= MAX(1,ISTATE(5))
NBLOCK= MAXGRI(1)*MAXGRI(2)*MAXGRI(3)
IF( NBLOCK.EQ.1 )THEN
*
* JUST ONE CELL
LDRASS=.FALSE.
GO TO 9999
ENDIF
*
* MANY CELLS
NTYPES= ISUB2
IF( IPRT.GT.1 )THEN
WRITE(IOUT,'(6H ,I1,13H-D ASSEMBLY: ,3I4)')
> NDIM, (MAXGRI(I),I=1,NDIM)
ENDIF
ELSE
*
* JUST ONE CELL
LDRASS=.FALSE.
GO TO 9999
ENDIF
*----
* RECOVERS BOUNDARY CONDITIONS.
*----
CALL LCMLEN(IPGEOM,'NCODE', ILEN, ITPLCM)
IF( ITPLCM.NE.1 )
> CALL XABORT('LDRASS: THE NCODE BLOCK IS '//
> 'NOT ADEQUATELY DEFINED')
IF( ILEN.NE.6 )
> CALL XABORT('LDRASS: THE NCODE BLOCK HAS '//
> 'INCORRECT DIMENSION')
CALL LCMGET(IPGEOM,'NCODE',NCODE)
IF( NDIM.EQ.2.AND.(NCODE(5).NE.0.OR.NCODE(6).NE.0) )
> CALL XABORT('LDRASS: 3-D NCODE VALUES FOR A 2-D ASSEMBLY...')
NOCELL= NBLOCK
NDIAG=0
DO 40 IAL= 1, 2*NDIM
IF( NCODE(IAL).EQ.0 )
> CALL XABORT('LDRASS: A BOUNDARY CONDITION IS MISSING.')
IF( NCODE(IAL).EQ.3 )THEN
NDIAG=NDIAG+1
ENDIF
40 CONTINUE
*
LL1= .FALSE.
LL2= .FALSE.
MXDIAG=0
NOC1=0
NOC2=0
NOCO=0
IF( NDIAG.GT.0 )THEN
IF( NDIAG.NE.2 )
> CALL XABORT('LDRASS: NO MORE THAN 2 DIAGONAL CONDITIONS')
IF( MAXGRI(1).NE.MAXGRI(2))
> CALL XABORT('LDRASS: LX=LY WITH A DIAGONAL SYMMETRY.')
MXDIAG= MAXGRI(1)
NOC1=((MXDIAG+1)*MXDIAG)/2
NOC2=MXDIAG*MXDIAG
LL1=((NCODE(2).EQ.3).AND.(NCODE(3).EQ.3))
LL2=((NCODE(1).EQ.3).AND.(NCODE(4).EQ.3))
IF( LL1 )THEN
NCODE(2)= NCODE(1)
NCODE(3)= NCODE(4)
ELSEIF( LL2 )THEN
NCODE(1)= NCODE(2)
NCODE(4)= NCODE(3)
ELSE
CALL XABORT('LDRASS: THE DIAGONAL CONDITIONS '//
> 'X+: DIAG Y-: DIAG OR '//
> 'X-: DIAG Y+: DIAG ARE THE ONLY PERMITTED.')
ENDIF
NOCO=NOC1
IF(NOC2*MAXGRI(3) .EQ. LREG) NOCO=NOC2
NOCELL=NOCO*MAXGRI(3)
ENDIF
IF( NOCELL.GT.LREG )THEN
CALL XABORT('LDRASS: # OF CELLS OF ASSEMBLY TOO LARGE...')
ELSEIF( NOCELL.LT.LREG )THEN
CALL XABORT('LDRASS: # OF CELLS OF ASSEMBLY TOO SMALL...')
ENDIF
*----
* CHECK IF GENERATING CELL VECTOR IS 'OK'
*----
CALL LCMLEN(IPGEOM,'MIX', KCELL, ITPLCM)
IF( ITPLCM.NE.1 )
> CALL XABORT('LDRASS: THE MIX BLOCK WITH CELLS IS '//
> 'NOT ADEQUATELY DEFINED')
IF( KCELL.GT.NOCELL )THEN
CALL XABORT('LDRASS: THE ASSEMBLY HAS TOO MANY CELLS...')
ELSEIF( KCELL.LT.NOCELL )THEN
CALL XABORT('LDRASS: THE ASSEMBLY HAS NOT ENOUGH CELLS...')
ENDIF
ALLOCATE(KEYTYP(NBLOCK))
CALL LCMGET(IPGEOM,'MIX', KEYTYP)
DO 41 I=1,KCELL
KEYTYP(I)=-KEYTYP(I)
41 CONTINUE
*----
* CHECK IF 'MERGE' ARE CORRECTLY DEFINED
*----
CALL LCMLEN(IPGEOM,'MERGE', KCELL, ITPLCM)
IF( KCELL.NE.0 )THEN
IF( ITPLCM.NE.1 )
> CALL XABORT('LDRASS: THE MERGE BLOCK IS '//
> 'NOT ADEQUATELY DEFINED')
IF( KCELL.GT.NOCELL )THEN
CALL XABORT('LDRASS: THE ASSEMBLY HAS TOO MANY MERGE...')
ELSEIF( KCELL.LT.NOCELL )THEN
CALL XABORT('LDRASS: THE ASSEMBLY HAS NOT ENOUGH MERGE...')
ENDIF
ALLOCATE(KMERGE(NOCELL))
CALL LCMGET(IPGEOM,'MERGE', KMERGE)
DO 46 IM= 1, NOCELL
IDKT= KMERGE(IM)
IF( IDKT.GT.NOCELL )
> CALL XABORT( 'LDRASS: MERGE NUMBER > TOTAL # OF CELLS')
DO 45 JM= IM+1, NOCELL
JDKT= KMERGE(JM)
IF( JDKT.EQ.IDKT )THEN
IF( KEYTYP(IDKT).NE.KEYTYP(JDKT) )THEN
CALL XABORT( 'LDRASS: MERGE NUMBERS ARE NOT '//
> 'CONSISTENT WITH GEOMETRIC DEFINITION')
ENDIF
ENDIF
45 CONTINUE
46 CONTINUE
DEALLOCATE(KMERGE)
ENDIF
ALLOCATE(KTURN(NBLOCK))
DO 47 IT= 1, NOCELL
KTURN(IT)= 1
47 CONTINUE
CALL LCMLEN(IPGEOM,'TURN', KCELL, ITPLCM)
IF( KCELL.NE.0 )THEN
IF( ITPLCM.NE.1 )
> CALL XABORT('LDRASS: THE MERGE BLOCK IS '//
> 'NOT ADEQUATELY DEFINED')
IF( KCELL.GT.NOCELL )THEN
CALL XABORT('LDRASS: THE ASSEMBLY HAS TOO MANY TURN...')
ELSEIF( KCELL.LT.NOCELL )THEN
CALL XABORT('LDRASS: THE ASSEMBLY HAS NOT ENOUGH TURN...')
ENDIF
CALL LCMGET(IPGEOM,'TURN', KTURN)
ENDIF
*----
* EFFECTIVE MOD2 FOR TURN IN CELLS
*----
DO 48 IT= 1, NOCELL
KTURN(IT)= MOD( KTURN(IT)+1,2 )+1
48 CONTINUE
*----
* CHECK IF CELL NAMES ARE 'OK'
*----
CALL LCMLEN(IPGEOM,'CELL', KTYPES, ITPLCM)
IF( ITPLCM.NE.3 )
> CALL XABORT('LDRASS: THE CELL NAMES ARE NOT STORED IN'
> //' CHARACTER*4')
IF( KTYPES.GT.3*NTYPES )THEN
CALL XABORT('LDRASS: THE ASSEMBLY HAS TOO MANY CELL NAMES')
ELSEIF( KTYPES.LT.3*NTYPES )THEN
CALL XABORT('LDRASS: THE ASSEMBLY HAS NOT ENOUGH CELLS NAMES')
ENDIF
ALLOCATE(KEYCEL(3*NTYPES),KCHECK(12*NTYPES*NTYPES))
DO 50 IT= 1,12*NTYPES*NTYPES
KCHECK(IT)= 0
50 CONTINUE
CALL LCMGET(IPGEOM,'CELL', KEYCEL)
*----
* FILL UP "KEYTYP" ARRAY IN THE CASE OF DIAGONAL SYMMETRY
*----
IF( LL1 )THEN
IF(NOCO .EQ. NOC1) THEN
*----
* LOCATE DIAGONAL ELEMENTS IN THEIR RESPECTIVE PLANES
* WHILE UNFOLDING
*----
K=LREG
DO 72 IZ=MAXGRI(3),1,-1
IOFF=(IZ-1)*MXDIAG*MXDIAG
DO 71 IY=MXDIAG,1,-1
DO 60 IX=MXDIAG,IY+1,-1
KEYTYP(IOFF+(IY-1)*MXDIAG+IX)=KEYTYP(IOFF+(IX-1)*MXDIAG+IY)
KTURN(IOFF+(IY-1)*MXDIAG+IX)=KTURN(IOFF+(IX-1)*MXDIAG+IY)
60 CONTINUE
DO 70 IX=IY,1,-1
KEYTYP(IOFF+(IY-1)*MXDIAG+IX)=KEYTYP(K)
KTURN(IOFF+(IY-1)*MXDIAG+IX)=KTURN(K)
K=K-1
70 CONTINUE
71 CONTINUE
72 CONTINUE
DO 77 IZ=MAXGRI(3),1,-1
IOFF=(IZ-1)*MXDIAG*MXDIAG
DO 76 IY=1,MXDIAG
DO 75 IX=IY+1,MXDIAG
KTURN(IOFF+(IY-1)*MXDIAG+IX)=
> MOD(KTURN(IOFF+(IY-1)*MXDIAG+IX),2) + 1
75 CONTINUE
76 CONTINUE
77 CONTINUE
IF (K.NE.0)
> CALL XABORT( 'LDRASS: UNABLE TO UNFOLD '//
> 'X+: DIAG Y-: DIAG ASSEMBLY...')
ENDIF
ELSEIF( LL2 )THEN
IF(NOCO .EQ. NOC1) THEN
*----
* LOCATE DIAGONAL ELEMENTS IN THEIR RESPECTIVE PLANES
*----
K=LREG
DO 82 IZ=MAXGRI(3),1,-1
IOFF=(IZ-1)*MXDIAG*MXDIAG
DO 81 IY=MXDIAG,1,-1
DO 80 IX=MXDIAG,IY,-1
KEYTYP(IOFF+(IY-1)*MXDIAG+IX)=KEYTYP(K)
KTURN(IOFF+(IY-1)*MXDIAG+IX)=KTURN(K)
K=K-1
80 CONTINUE
81 CONTINUE
82 CONTINUE
*----
* UNFOLD DIAGONAL ELEMENTS FOR EACH PLANE
*----
DO 92 IZ=1,MAXGRI(3)
IOFF=(IZ-1)*MXDIAG*MXDIAG
DO 91 IY=1,MXDIAG
DO 90 IX=1,IY-1
KEYTYP(IOFF+(IY-1)*MXDIAG+IX)=KEYTYP(IOFF+(IX-1)*MXDIAG+IY)
KTURN(IOFF+(IY-1)*MXDIAG+IX)=KTURN(IOFF+(IX-1)*MXDIAG+IY)
90 CONTINUE
91 CONTINUE
92 CONTINUE
IF (K.NE.0)
> CALL XABORT( 'LDRASS: UNABLE TO UNFOLD '//
> 'X-: DIAG Y+: DIAG ASSEMBLY...')
DO 97 IZ=MAXGRI(3),1,-1
IOFF=(IZ-1)*MXDIAG*MXDIAG
DO 96 IY=1,MXDIAG
DO 95 IX=1,IY-1
KTURN(IOFF+(IY-1)*MXDIAG+IX)=
> MOD(KTURN(IOFF+(IY-1)*MXDIAG+IX),2) + 1
95 CONTINUE
96 CONTINUE
97 CONTINUE
ENDIF
ENDIF
IF(IPRT .GE. 10) THEN
WRITE(IOUT,6100)
DO 600 IZ=MAXGRI(3),1,-1
DO 601 IY=MAXGRI(2),1,-1
IOFF=(IZ-1)*MAXGRI(2)*MAXGRI(1)+(IY-1)*MAXGRI(1)
WRITE(IOUT,6110) (KEYTYP(IOFF+IX),IX=1,MAXGRI(1))
601 CONTINUE
WRITE(IOUT,6111)
600 CONTINUE
WRITE(IOUT,6101)
DO 610 IZ=MAXGRI(3),1,-1
DO 611 IY=MAXGRI(2),1,-1
IOFF=(IZ-1)*MAXGRI(2)*MAXGRI(1)+(IY-1)*MAXGRI(1)
WRITE(IOUT,6110) (KTURN(IOFF+IX),IX=1,MAXGRI(1))
611 CONTINUE
WRITE(IOUT,6111)
610 CONTINUE
ENDIF
*----
* TRANSLATION B.C.: CHECK BEGIN-TO-END CONNEXIONS
*----
DO 100 IC= 1, NDIM
IF( NCODE(2*IC-1).EQ.4 )THEN
IF( NCODE(2*IC).NE.4 )
> CALL XABORT( 'LDRASS: TRANSLATION B.C. IS NOT WELL DEFINED')
ENDIF
100 CONTINUE
*----
* CHECK CELL INTERFACES
*----
IOFF1= 0
DO 112 IZ= 1, MAXGRI(3)
DO 111 IY= 1, MAXGRI(2)
DO 110 IX= 1, MAXGRI(1)
IOFF1= IOFF1+1
IT1= KEYTYP(IOFF1)
JT1= KTURN(IOFF1)
IF(IX.NE.MAXGRI(1).OR.(IX.EQ.MAXGRI(1).AND.NCODE(1).EQ.4))THEN
IF(IX.NE.MAXGRI(1))THEN
IOFF2= IOFF1 + 1
ELSE
IOFF2= IOFF1 + 1 - MAXGRI(1)
ENDIF
IT2= KEYTYP(IOFF2)
JT2= KTURN(IOFF2)
IF( KCHECK(IADR(1,IT1,JT1,IT2,JT2)).EQ.0 )THEN
LCELL= LDRCEL(IPGEOM, IT1,JT1, IT2,JT2, KEYCEL,
> NTYPES, 1, NDIM, IPRT)
KCHECK(IADR(1,IT1,JT1,IT2,JT2))= 1
ENDIF
ENDIF
IF(IY.NE.MAXGRI(2).OR.(IY.EQ.MAXGRI(2).AND.NCODE(3).EQ.4))THEN
IF( IY.NE.MAXGRI(2) )THEN
IOFF2= IOFF1 + MAXGRI(1)
ELSE
IOFF2= IOFF1 +(1-MAXGRI(2)) * MAXGRI(1)
ENDIF
IT2= KEYTYP(IOFF2)
JT2= KTURN(IOFF2)
IF( KCHECK(IADR(2,IT1,JT1,IT2,JT2)).EQ.0 )THEN
LCELL= LDRCEL(IPGEOM, IT1,JT1, IT2,JT2, KEYCEL,
> NTYPES, 2, NDIM, IPRT)
KCHECK(IADR(2,IT1,JT1,IT2,JT2))= 1
ENDIF
ENDIF
IF(IZ.NE.MAXGRI(3).OR.(IZ.EQ.MAXGRI(3).AND.NCODE(5).EQ.4))THEN
IF( IZ.NE.MAXGRI(3) )THEN
IOFF2= IOFF1 + MAXGRI(1)*MAXGRI(2)
ELSE
IOFF2= IOFF1 +(1-MAXGRI(3)) * MAXGRI(1) * MAXGRI(2)
ENDIF
IT2= KEYTYP(IOFF2)
JT2= KTURN(IOFF2)
IF( KCHECK(IADR(3,IT1,JT1,IT2,JT2)).EQ.0 )THEN
LCELL= LDRCEL(IPGEOM, IT1,JT1, IT2,JT2, KEYCEL,
> NTYPES, 3, NDIM, IPRT)
KCHECK(IADR(3,IT1,JT1,IT2,JT2))= 1
ENDIF
ENDIF
110 CONTINUE
111 CONTINUE
112 CONTINUE
DEALLOCATE(KCHECK,KEYCEL,KTURN,KEYTYP)
9999 IF( IPRT.GT.0 )THEN
IF( LDRASS )THEN
WRITE(IOUT,'(1H ,A12,25H ASSEMBLY IS **OK** )') GEONAM
ELSE
WRITE(IOUT,'(1H ,A12,25H WAS NOT ASSEMBLY CHECKED )') GEONAM
ENDIF
ENDIF
RETURN
*----
* FORMATS
*----
6100 FORMAT(/' Assembly by cell number' )
6101 FORMAT(/' Assembly turns' )
6110 FORMAT(40(1X,I5))
6111 FORMAT(' ')
END
|
