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|
*DECK XELDCL
SUBROUTINE XELDCL( IPGEOM, GEONAM, NDIM, MAXGRI, LCLSYM, NBLOCK,
> NTYPO, LL1, LL2, IPRT, NTOTCO, MAXRO ,
> NGEOME, NTYP, NGIDL, NTIDL, NUNKO, CELLG,
> NSURO, NVOLO, IDLDIM, IDLGEO, KEYTRN, KEYGEO,
> IDLTYP, KEYTYP, MRGCEL, IDLBLK)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Associate all blocks of a problem to their block types and generate
* almost all useful integer values that will describe the problem.
*
*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).
* GEONAM geometry name.
* NDIM number of dimensions.
* MAXGRI number of grid cell in X/Y/Z directions.
* LCLSYM symmetry flags (0: no,-1/+1: syme,,-2/+2: ssym).
* NBLOCK number of blocks.
* NTYPO old number of types.
* LL1 upper diag switch.
* LL2 lower diag switch.
* IPRT intermediate printing level for output.
*
*Parameters: output
* NTOTCO tot number of cylinders in all geometries.
* MAXRO max number of words to stock meshes.
* NGEOME number of geometries.
* NTYP new number of types.
* NGIDL lenght of geometric numbering.
* NTIDL lenght of type numbering.
* NUNKO old number of unknowns.
* CELLG to keep cell geometry names.
* NSURO number of surfaces of each geometry.
* NVOLO number of zones of each geometry.
* IDLDIM position of each geoemtry in cylinders numbering.
* IDLGEO position of each geometry in the
* geometry numbering scheme.
* KEYTRN turn key for each block.
* KEYGEO geometric key for each type.
* IDLTYP position of each type in numbering scheme.
* KEYTYP type key for each block.
* MRGCEL merging key of each block.
* IDLBLK position of each block in numbering scheme.
*
*-----------------------------------------------------------------------
*
USE GANLIB
IMPLICIT NONE
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPGEOM
INTEGER NDIM, NBLOCK, NTYPO, IPRT, NTOTCO, MAXRO,
> NGEOME, NTYP, NGIDL, NTIDL, NUNKO
CHARACTER GEONAM*12
INTEGER MAXGRI(3),LCLSYM(3),CELLG(3*NBLOCK),
> NSURO(NBLOCK),NVOLO(NBLOCK),IDLDIM(NBLOCK),
> IDLGEO(NBLOCK),KEYTRN(NBLOCK),KEYGEO(NBLOCK),
> IDLTYP(NBLOCK),KEYTYP(NBLOCK),MRGCEL(NBLOCK),
> IDLBLK(NBLOCK)
LOGICAL LL1, LL2
*----
* EXTERNAL FUNCTIONS
*----
CHARACTER*2 AXGTRN
*----
* LOCAL VARIABLES
*----
INTEGER IOUT,NSTATE,MAXTUR
CHARACTER NAMSBR*6
PARAMETER (IOUT=6,NSTATE=40,MAXTUR=12,NAMSBR='XELDCL')
*----
* LOCAL PARAMETERS
*----
CHARACTER GEOC1*12,GEOC2*12,BLANC*8,CPLAN*8,GEOCV*12
INTEGER MINGRI(3),MEDGRI(3),ISTATE(NSTATE)
LOGICAL LLSYM
INTEGER IKG
INTEGER IBLK, I3, ISUB2, ITYP, JTYP, IX, IY, IZ,
> NMERG1, NMERG2, NMERG3, IOFF, IOF1, IOF2,
> IMERG1, NNCYL, NNSUR, NNVOL, NXC, NXM, IGEO,
> IB1, IB2, IC1, IC2, IT1, IT2, IR, NLINP,
> NTYP2, IOLTYP, NPROB, IDLPRB, IP, MAXREM
INTEGER KMESH,NXYZ,ITC
INTEGER IOT1,IOT2
*----
* ALLOCATABLE ARRAYS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: ITGEOM,CELLT
*----
* DATA STATEMENTS
*----
DATA BLANC / ' ' /
*----
* SCRATCH STORAGE ALLOCATION
* ITGEOM: turn by cell types
* CELLT : cell type names
*----
ALLOCATE(ITGEOM(NBLOCK),CELLT(3*NTYPO))
*----
* INITIALIZE BLOCK INFORMATION
*----
DO 10 IBLK= 1, NBLOCK
NSURO(IBLK)= 0
NVOLO(IBLK)= 0
IDLGEO(IBLK)= 0
KEYGEO(IBLK)= 0
IDLTYP(IBLK)= 0
KEYTYP(IBLK)= 0
ITGEOM(IBLK)= 0
KEYTRN(IBLK)= 0
IDLBLK(IBLK)= 0
10 CONTINUE
LLSYM=.FALSE.
DO 20 I3= 1, 3
MINGRI(I3)= MAXGRI(I3)
MEDGRI(I3)= 0
IF( ABS(LCLSYM(I3)) .EQ. 1 )THEN
MINGRI(I3)= (MAXGRI(I3)+1)/2
LLSYM=.TRUE.
IF( LCLSYM(I3).EQ.-1 )THEN
MEDGRI(I3)= MINGRI(I3)-1
ENDIF
ELSE IF(ABS(LCLSYM(I3)) .EQ. 2 ) THEN
MINGRI(I3)= MAXGRI(I3)/2
LLSYM=.TRUE.
IF( LCLSYM(I3).EQ.-2 )THEN
MEDGRI(I3)= MINGRI(I3)
ENDIF
ELSE IF(LCLSYM(I3) .NE. 0) THEN
WRITE(IOUT,'(1H0,A8,4H -->,3(I8,1X))') 'LCLSYM', LCLSYM
CALL XABORT(NAMSBR//': LCLSYM NOT WELL DEFINED' )
ENDIF
20 CONTINUE
ISTATE(:NSTATE)=0
CALL LCMGET(IPGEOM,'STATE-VECTOR',ISTATE)
NXYZ=MAX(ISTATE(3),ISTATE(4),ISTATE(5))
ISUB2= ISTATE(9)
KMESH=ISTATE(6)
MAXRO = 0
NTOTCO= 0
IF( ISUB2.GT.0 )THEN
CALL LCMGET(IPGEOM,'CELL',CELLT)
CALL LCMLEN(IPGEOM,'MIX', NMERG1, ITYP)
CALL LCMGET(IPGEOM,'MIX', KEYTYP)
DO 30 IMERG1=1,NMERG1
IF( KEYTYP(IMERG1).GT.0 )CALL XABORT(NAMSBR//': GENERATING '
> //'CELLS EXPECTED')
KEYTYP(IMERG1)=-KEYTYP(IMERG1)
IKG=KEYTYP(IMERG1)
WRITE(GEOCV,'(3A4)')
> CELLT(3*IKG-2),CELLT(3*IKG-1),CELLT(3*IKG)
CALL LCMSIX(IPGEOM,GEOCV,1)
ISTATE(:NSTATE)=0
CALL LCMGET(IPGEOM,'STATE-VECTOR',ISTATE)
NXYZ=MAX(NXYZ,ISTATE(3),ISTATE(4),ISTATE(5))
CALL LCMSIX(IPGEOM,GEOCV,2)
30 CONTINUE
CALL LCMLEN(IPGEOM,'MERGE', NMERG2, ITYP)
IF( NMERG2.EQ.0 )THEN
DO 100 IMERG1= 1, NMERG1
MRGCEL(IMERG1)= IMERG1
100 CONTINUE
ELSEIF( NMERG2.EQ.NMERG1 )THEN
CALL LCMGET(IPGEOM,'MERGE', MRGCEL)
ELSE
CALL XABORT(NAMSBR//': MERGES ARE INCOMPATIBLE' )
ENDIF
*
CALL LCMLEN(IPGEOM,'TURN', NMERG3, ITYP)
IF( NMERG3.EQ.0 )THEN
DO 110 IMERG1= 1, NMERG1
ITGEOM(IMERG1)= 1
110 CONTINUE
ELSEIF( NMERG3.EQ.NMERG1 )THEN
CALL LCMGET(IPGEOM,'TURN', ITGEOM)
DO 120 IMERG1= 1, NMERG3
IF( MOD(ITGEOM(IMERG1),MAXTUR).EQ.0.OR.
> MOD(ITGEOM(IMERG1),MAXTUR).GT.8 )
> CALL XABORT(NAMSBR//': INVALID TURNS (NO HEX CODES)' )
120 CONTINUE
ELSE
CALL XABORT(NAMSBR//': TURNS ARE INCOMPATIBLE' )
ENDIF
IF(LL1 .OR. LL2) THEN
*----
* Process diagonal symmetries
*----
CALL AXGDIA( IPGEOM, IPRT, NBLOCK, NTYPO, NXYZ, KMESH ,
> GEONAM, LL1, LL2, MINGRI, CELLT, KEYTYP,
> ITGEOM)
ENDIF
IF( LLSYM )THEN
*----
* process x-x, y-y and z-z symmetry
* 1) Unfold geometry
* 2) Analyse symmetry
*----
DO 300 IZ=MINGRI(3),1,-1
IOF1=(IZ-1)*MINGRI(1)*MINGRI(2)
IOF2=(IZ+MEDGRI(3)-1)*MAXGRI(1)*MAXGRI(2)
DO 310 IY=MINGRI(2),1,-1
DO 320 IX=MINGRI(1),1,-1
IOT2=IOF2+(IY+MEDGRI(2)-1)*MAXGRI(1)+IX+MEDGRI(1)
IOT1=IOF1+(IY-1)*MINGRI(1)+IX
IF(IOT2 .NE. IOT1) THEN
IF(KEYTYP(IOT2) .NE. 0)THEN
CALL XABORT(NAMSBR//': PROBLEMS TO UNFOLD')
ELSE
KEYTYP(IOT2)=KEYTYP(IOT1)
KEYTYP(IOT1)= 0
ITGEOM(IOT2)=ITGEOM(IOT1)
ITGEOM(IOT1)= 0
ENDIF
ENDIF
320 CONTINUE
310 CONTINUE
300 CONTINUE
CALL AXGSYM( IPGEOM, IPRT, NBLOCK, NTYPO, NXYZ,
> GEONAM, LCLSYM, MINGRI, MAXGRI, CELLT,
> KEYTYP, ITGEOM)
ENDIF
*----
* FIND ALL DIFFERENT GEOMETRIES
*----
IF( IPRT.GT.1 )THEN
WRITE(IOUT,'(1H )')
NXC= 1
WRITE(IOUT,'(25H ===> CELL TYPES ARE: /)')
DO 400 IP= 1, (9+ISUB2)/10
NXM= MIN( ISUB2, NXC+9 )
WRITE(IOUT,'(1H ,10(I8.8,4X))')
> (IB1,IB1=NXC,NXM)
WRITE(IOUT,'(1H ,30A4)')
> (CELLT(3*IB1-2),CELLT(3*IB1-1),CELLT(3*IB1),IB1=NXC,NXM)
NXC= NXC + 10
400 CONTINUE
*
* PRINTING ASSEMBLY MAP
CPLAN= BLANC
NLINP= 3+(MAXGRI(2)+1)*((9+MAXGRI(1))/10+1)
DO 410 IZ=1,MAXGRI(3)
WRITE(IOUT,'(1H )')
IF(NDIM.EQ.3)THEN
WRITE(CPLAN,'(4H (Z=,I3,1H))') IZ
ENDIF
WRITE(IOUT,'(/32H UNFOLD TYPE CELL MAP FOR PLANE ,A8)')
> CPLAN
NXC= 1
DO 415 IP = 1, (9 + MAXGRI(1)) / 10
NXM= MIN( MAXGRI(1), NXC+9 )
WRITE(IOUT,'(1X,A8,1X,10(A4,I3,A4))')
> CPLAN, (' X= ',IR,' ROT',IR=NXC,NXM)
NXC = NXC + 10
415 CONTINUE
WRITE(IOUT,'(1H )')
DO 420 IY=1,MAXGRI(2)
IOFF=((IZ-1)*MAXGRI(2)+(IY-1))*MAXGRI(1)
NXC= 1
DO 425 IP = 1, (9 + MAXGRI(1)) / 10
NXM= MIN( MAXGRI(1), NXC+9 )
WRITE(IOUT,'(1X,A4,I3,2H=>,10(I7,1X,A2,1X))')
> ' Y= ',IY,(KEYTYP(IOFF+IR),
> AXGTRN(ITGEOM(IOFF+IR)),IR=NXC,NXM)
NXC = NXC + 10
425 CONTINUE
WRITE(IOUT,'(1H )')
420 CONTINUE
410 CONTINUE
ENDIF
NGEOME= 0
DO 40 IB1= 1, NBLOCK
IC1= KEYTYP(IB1)
IT1= ITGEOM(IB1)
IF(IC1.LE.0.OR.IC1.GT.ISUB2 )THEN
CALL XABORT(NAMSBR//': INVALID TYPE #')
ENDIF
NGEOME= NGEOME + 1
CELLG(3*NGEOME-2)= CELLT(3*IC1-2)
CELLG(3*NGEOME-1)= CELLT(3*IC1-1)
CELLG(3*NGEOME )= CELLT(3*IC1 )
KEYTRN(NGEOME)= IT1
WRITE( GEOC1(1: 4),'(A4)') CELLT(3*IC1-2)
WRITE( GEOC1(5: 8),'(A4)') CELLT(3*IC1-1)
WRITE( GEOC1(9:12),'(A4)') CELLT(3*IC1 )
* SEARCH FOR SIMILAR GEOMETRIES IN PREVIOUS ONES
IF( IB1.NE.1 )THEN
DO 41 IB2= 1, IB1-1
IC2= KEYTYP(IB2)
IT2= ITGEOM(IB2)
IF( IT1.NE.IT2 ) GO TO 41
WRITE( GEOC2(1: 4),'(A4)') CELLT( 3*IC2-2 )
WRITE( GEOC2(5: 8),'(A4)') CELLT( 3*IC2-1 )
WRITE( GEOC2(9:12),'(A4)') CELLT( 3*IC2 )
IF( GEOC1.EQ.GEOC2 )THEN
KEYGEO(IB1)= KEYGEO(IB2)
NGEOME= NGEOME-1
GO TO 40
ENDIF
41 CONTINUE
ENDIF
*----
* ANALYSE NEW GEOMETRY
*----
CALL LCMSIX(IPGEOM,GEOC1,1)
CALL XELPRC(IPGEOM,GEOC1,NDIM,NNCYL,NNSUR,NNVOL,MAXREM)
IF( NNVOL.NE.0 )THEN
NSURO(NGEOME)= -NNSUR
NVOLO(NGEOME)= NNVOL
IDLDIM(NGEOME)= NTOTCO
NTOTCO= NTOTCO + NNCYL + 3
MAXRO= MAXRO + MAXREM
IGEO= NGEOME
ELSE
NGEOME= NGEOME-1
IGEO= -1
ENDIF
KEYGEO(IB1)= IGEO
CALL LCMSIX(IPGEOM,' ',2)
40 CONTINUE
IF( IPRT.GT.1 )THEN
WRITE(IOUT,'(1H )')
NXC= 1
WRITE(IOUT,'(25H ===> PHYSICAL CELLS ARE: /)')
DO 42 IP= 1, (9+NGEOME)/10
NXM= MIN( NGEOME, NXC+9 )
WRITE(IOUT,'(1H ,10(I8.8,4X))')
> (IB1,IB1=NXC,NXM)
WRITE(IOUT,'(1H ,30A4)') (CELLG(3*IB1-2),
> CELLG(3*IB1-1),CELLG(3*IB1),IB1=NXC,NXM)
WRITE(IOUT,'(1H ,10(A7,5X))')
> ('TURN '//AXGTRN(KEYTRN(IB1)),IB1=NXC,NXM)
NXC= NXC + 10
42 CONTINUE
ENDIF
*----
* RESTORE *KEYTYP* AND *KEYGEO* VALUES
*----
NTYP2= NGEOME
DO 43 IB1= 1, NBLOCK
KEYTYP(IB1)= KEYGEO(IB1)
43 CONTINUE
DO 44 IC1= 1, NTYP2
IF( KEYGEO(IC1).NE.-1 ) KEYGEO(IC1)= IC1
44 CONTINUE
*----
* DELETE ALL VIRTUAL CELLS
*----
NTYP= 0
DO 45 ITYP= 1, NTYP2
IGEO= KEYGEO(NTYP+1)
IF( IGEO.EQ.-1 )THEN
DO 46 IBLK= 1, NBLOCK
IOLTYP= KEYTYP(IBLK)
IF( IOLTYP.EQ.NTYP+1 )THEN
KEYTYP(IBLK)= 0
ELSEIF( IOLTYP.GT.NTYP+1 )THEN
KEYTYP(IBLK)= KEYTYP(IBLK)-1
ENDIF
46 CONTINUE
DO 47 JTYP= NTYP+2, NTYP2
CELLG(3*JTYP-5)= CELLG(3*JTYP-2)
CELLG(3*JTYP-4)= CELLG(3*JTYP-1)
CELLG(3*JTYP-3)= CELLG(3*JTYP )
KEYTRN(JTYP-1)= KEYTRN(JTYP)
KEYGEO(JTYP-1)= KEYGEO(JTYP)
47 CONTINUE
ELSE
NTYP= NTYP+1
ENDIF
45 CONTINUE
ELSE
*----
* NO CELL IN THE GEOMETRY
*----
GEOCV=' '
READ(GEOCV,'(3A4)') CELLT(1),CELLT(2),CELLT(3)
IF( NTYPO.NE.1 )
> CALL XABORT(NAMSBR//': INVALID GEOMETRY TYPE '//GEONAM)
NGEOME= 1
NTYP= NTYPO
READ(GEONAM,'(3A4)') (CELLG(3*NGEOME+ITC),ITC=-2,0)
KEYGEO(1)= 1
KEYTYP(1)= 1
MRGCEL(1)= 1
ITGEOM(1)= 1
KEYTRN(1)= 1
IF( LLSYM )THEN
*----
* process x-x, y-y and z-z symmetry
* 1) Unfold geometry
* 2) Analyse symmetry
*----
DO 330 IZ=MINGRI(3),1,-1
IOF1=(IZ-1)*MINGRI(1)*MINGRI(2)
IOF2=(IZ+MEDGRI(3)-1)*MAXGRI(1)*MAXGRI(2)
DO 340 IY=MINGRI(2),1,-1
DO 350 IX=MINGRI(1),1,-1
IOT2=IOF2+(IY+MEDGRI(2)-1)*MAXGRI(1)+IX+MEDGRI(1)
IOT1=IOF1+(IY-1)*MINGRI(1)+IX
IF(IOT2 .NE. IOT1) THEN
IF(KEYTYP(IOT2) .NE. 0)THEN
CALL XABORT(NAMSBR//': PROBLEMS TO UNFOLD')
ELSE
KEYTYP(IOT2)=KEYTYP(IOT1)
KEYTYP(IOT1)= 0
ITGEOM(IOT2)=ITGEOM(IOT1)
ITGEOM(IOT1)= 0
ENDIF
ENDIF
350 CONTINUE
340 CONTINUE
330 CONTINUE
CALL AXGSYM( IPGEOM, IPRT, NBLOCK, NTYPO, NXYZ,
> GEONAM, LCLSYM,
> MINGRI, MAXGRI, CELLT,
> KEYTYP, ITGEOM)
ENDIF
IF( IPRT.GT.1 )THEN
IB1=1
WRITE(IOUT,'(A32/)') ' ===> REFERENCE GEOMETRY IS: '
WRITE(IOUT,'(1X,A8/1X,A12)') '00000001',GEONAM
*----
* PRINTING ASSEMBLY MAP
*----
CPLAN= BLANC
NLINP= 3+(MAXGRI(2)+1)*((9+MAXGRI(1))/10+1)
DO 430 IZ=1,MAXGRI(3)
WRITE(IOUT,'(1H )')
IF(NDIM.EQ.3)THEN
WRITE(CPLAN,'(4H (Z=,I3,1H))') IZ
ENDIF
WRITE(IOUT,'(/32H UNFOLD TYPE CELL MAP FOR PLANE ,A8)')
> CPLAN
NXC= 1
DO 435 IP = 1, (9 + MAXGRI(1)) / 10
NXM= MIN( MAXGRI(1), NXC+9 )
WRITE(IOUT,'(1X,A8,1X,10(A4,I3,A4))')
> CPLAN, (' X= ',IR,' ROT',IR=NXC,NXM)
NXC = NXC + 10
435 CONTINUE
WRITE(IOUT,'(1H )')
DO 440 IY=1,MAXGRI(2)
IOFF=((IZ-1)*MAXGRI(2)+(IY-1))*MAXGRI(1)
NXC= 1
DO 445 IP = 1, (9 + MAXGRI(1)) / 10
NXM= MIN( MAXGRI(1), NXC+9 )
WRITE(IOUT,'(1X,A4,I3,2H=>,10(I7,1X,A2,1X))')
> ' Y= ',IY,(KEYTYP(IOFF+IR),
> AXGTRN(ITGEOM(IOFF+IR)),IR=NXC,NXM)
NXC = NXC + 10
445 CONTINUE
WRITE(IOUT,'(1H )')
440 CONTINUE
430 CONTINUE
ENDIF
NGEOME= 0
DO 50 IB1= 1, NBLOCK
IC1= KEYTYP(IB1)
IT1= ITGEOM(IB1)
IF(IC1 .LE. 0) THEN
CALL XABORT(NAMSBR//': INVALID TYPE #')
ENDIF
NGEOME= NGEOME + 1
READ(GEONAM,'(3A4)') (CELLG(3*NGEOME+ITC),ITC=-2,0)
KEYTRN(NGEOME)= IT1
IF( IB1.NE.1 )THEN
DO 51 IB2= 1, IB1-1
IC2= KEYTYP(IB2)
IT2= ITGEOM(IB2)
IF( IT1.NE.IT2 ) GO TO 51
KEYGEO(IB1)= KEYGEO(IB2)
NGEOME= NGEOME-1
GO TO 50
51 CONTINUE
ENDIF
* ANALYSE GEOMETRY
CALL XELPRC(IPGEOM,GEONAM,NDIM,NNCYL,NNSUR,NNVOL,MAXREM)
IF( NNVOL.NE.0 )THEN
NSURO(NGEOME)= -NNSUR
NVOLO(NGEOME)= NNVOL
IDLDIM(NGEOME)= NTOTCO
NTOTCO= NTOTCO + NNCYL + 3
MAXRO= MAXRO + MAXREM
IGEO= NGEOME
ELSE
NGEOME= NGEOME-1
IGEO= -1
ENDIF
KEYGEO(IB1)= IGEO
50 CONTINUE
IF( IPRT.GT.1 )THEN
WRITE(IOUT,'(1H )')
NXC= 1
WRITE(IOUT,'(25H ===> PHYSICAL CELLS ARE: /)')
DO 52 IP= 1, (9+NGEOME)/10
NXM= MIN( NGEOME, NXC+9 )
WRITE(IOUT,'(1H ,10(I8.8,4X))')
> (IB1,IB1=NXC,NXM)
WRITE(IOUT,'(1H ,30A4)')
> ((CELLG(3*IB1+ITC),ITC=-2,0),IB1=NXC,NXM)
WRITE(IOUT,'(1H ,10(A7,5X))')
> ('TURN '//AXGTRN(KEYTRN(IB1)),IB1=NXC,NXM)
NXC= NXC + 10
52 CONTINUE
ENDIF
*----
* RESTORE *KEYTYP* AND *KEYGEO* VALUES
*----
NTYP= NGEOME
DO 53 IB1= 1, NBLOCK
KEYTYP(IB1)= KEYGEO(IB1)
53 CONTINUE
DO 54 IC1= 1, NTYP
KEYGEO(IC1)= IC1
54 CONTINUE
ENDIF
IF( IPRT.GT.1 )THEN
WRITE(IOUT,'(/35H ONE TRACKING FILE TO BE ATTACHED /'//
> '1H ,12X,14H UNDER NAME : ,A12 )') GEONAM
ENDIF
*----
* DEFINITION OF INDEX VALUES, TO LOOK AT THE DOMAIN
*----
NGIDL= 0
DO 210 IGEO= 1, NGEOME
IF( NSURO(IGEO).GE.0 )
> CALL XABORT(NAMSBR//': GEOMETRY NOT FOUND')
IF( NVOLO(IGEO).LE.0 )
> CALL XABORT(NAMSBR//': GEOMETRY NOT FOUND')
IDLGEO(IGEO)= NGIDL - NSURO(IGEO) + 1
NGIDL= NVOLO(IGEO) + IDLGEO(IGEO)
210 CONTINUE
NTIDL = 0
NPROB = 0
DO 220 ITYP= 1, NTYP
IGEO= KEYGEO(ITYP)
IF( IGEO.LE.0 )
> CALL XABORT(NAMSBR//': BLOC NOT FOUND')
IDLTYP(ITYP)= NTIDL - NSURO(IGEO) + 1
IDLPRB= NPROB + (1-NSURO(IGEO))*(2-NSURO(IGEO))/2
NTIDL = NVOLO(IGEO) + IDLTYP(ITYP)
NPROB = NVOLO(IGEO)*(NVOLO(IGEO)-2*NSURO(IGEO)+3)/2+IDLPRB
220 CONTINUE
NUNKO= 0
DO 230 IBLK= 1, NBLOCK
ITYP= KEYTYP(IBLK)
IF( ITYP.LT.0 )
> CALL XABORT(NAMSBR//': CELL NOT FOUND')
IF( ITYP.EQ.0 )GO TO 230
IGEO= KEYGEO(ITYP)
IDLBLK(IBLK)= NUNKO - NSURO(IGEO) + 1
NUNKO= NVOLO(IGEO) + IDLBLK(IBLK)
230 CONTINUE
IF( IPRT.GT.10 )THEN
*----
* PRINTING INDEX VECTORS
*----
WRITE(IOUT,'(1H )')
WRITE(IOUT,'(1H0,A6,4H -->,I8)') 'MAXRO', MAXRO
WRITE(IOUT,'(1H0,A6,4H -->,I8)') 'NTOTCO', NTOTCO
WRITE(IOUT,'(1H0,A6,4H -->,3(I8,1X))') 'LCLSYM', LCLSYM
WRITE(IOUT,'(1H0,A8,4H ,5(A8,2X))') ' GEOM #',
> ' NSURO', ' NVOLO', ' IDLGEO', ' IDLDIM', ' KEYTRN'
DO 250 IGEO= 1, NGEOME
WRITE(IOUT,'(1H ,I8,4H -->,5(I8,2X))') IGEO,
> NSURO(IGEO),NVOLO(IGEO),IDLGEO(IGEO),IDLDIM(IGEO),KEYTRN(IGEO)
250 CONTINUE
WRITE(IOUT,'(1H )')
WRITE(IOUT,'(1H0,A8,4H ,2(A8,2X))') ' BLOC #',
> ' KEYGEO', ' IDLTYP'
DO 260 ITYP= 1, NTYP
WRITE(IOUT,'(1H ,I8,4H -->,2(I8,2X))') ITYP,
> KEYGEO(ITYP), IDLTYP(ITYP)
260 CONTINUE
WRITE(IOUT,'(1H )')
WRITE(IOUT,'(1H0,A8,4H ,3(A8,2X))') ' CELL #',
> ' KEYTYP', ' ITGEOM', ' IDLBLK'
DO 270 IBLK= 1, NBLOCK
WRITE(IOUT,'(1H ,I8,4H -->,3(I8,2X))') IBLK,
> KEYTYP(IBLK), ITGEOM(IBLK), IDLBLK(IBLK)
270 CONTINUE
ENDIF
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(CELLT,ITGEOM)
*----
* RETURN
*----
RETURN
END
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