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*DECK AXGSYM
SUBROUTINE AXGSYM( IPGEOM, IPRT, NBLOCK, NTYPO, NXYZ,
> GEONAM, LCLSYM, MINGRI, MAXGRI, CELLT,
> KEYTYP, ITGEOM)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Unfold assembly or cell according to center cell symmetry in
* $x$, $y$ or $z$ and verify if the symmetry is valid.
*
*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): G. Marleau
*
*Parameters: input
* IPGEOM pointer to the reference geometry data structure.
* IPRT intermediate printing level for output.
* NBLOCK number of block in geometry.
* NTYPO number of types in geometry.
* NXYZ maximum mesh size in directions $x$, $y$ and $z$.
* GEONAM name of the reference geometry.
* LCLSYM flag that is set to 1 when the $x$ (LCLSYM(1)),
* $y$ (LCLSYM(2)) and/or $z$ (LCLSYM(3))
* symmetries are required.
* MINGRI minimum grid cell in $x$, $y$ and $z$ directions.
* MAXGRI maximum grid cell in $x$, $y$ and $z$ directions.
* CELLT cell type name.
*
*Parameters: input/output
* KEYTYP type key for each block.
* ITGEOM turn key associated with each cell type.
*
*External functions
* LELCSY to verify if a geometry possesses the required internal
* symmetry.
* AXGTRS to modify current turn according to required internal
* symmetry.
* AXGTRN to associate a DRAGON turn name to a specific turn key.
*
*-----------------------------------------------------------------------
*
USE GANLIB
IMPLICIT NONE
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPGEOM
INTEGER IPRT,NBLOCK,NTYPO,NXYZ
CHARACTER GEONAM*12
INTEGER LCLSYM(3)
INTEGER MINGRI(3),MAXGRI(3),CELLT(3*NTYPO)
INTEGER KEYTYP(NBLOCK),ITGEOM(NBLOCK)
*----
* EXTERNAL FUNCTIONS
*----
LOGICAL LELCSY
INTEGER AXGTRS
CHARACTER AXGTRN*2
*----
* LOCAL VARIABLES
*----
INTEGER IOUT
CHARACTER NAMSBR*6
PARAMETER (IOUT=6,NAMSBR='AXGSYM')
*----
* ALLOCATABLE ARRAYS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: ISPLT,ISPLT1
REAL, ALLOCATABLE, DIMENSION(:) :: MESH,MESH1
*----
* LOCAL PARAMETERS
*----
INTEGER IX,IY,IZ,IOF1,IOF2
INTEGER IKOF1,IKOF2,ITOF1,ITOF2
INTEGER IKG,IKT(2)
LOGICAL VALSYM
CHARACTER GEOCV*12
*----
* SCRATCH STORAGE ALLOCATION
*----
ALLOCATE(ISPLT(NXYZ),ISPLT1(3*3*NXYZ))
ALLOCATE(MESH(NXYZ+1),MESH1(2*3*3*(NXYZ+1)))
*----
* APPLY SYMMETRY IN Z
*----
IF( LCLSYM(3) .NE. 0) THEN
IF(IPRT .GT. 10) THEN
WRITE(IOUT,8000) NAMSBR,'Z-Z'
ENDIF
DO 200 IZ=1,MINGRI(3)
DO 210 IY=1,MAXGRI(2)
DO 220 IX=1,MAXGRI(1)
IOF1=((IZ-1)*MAXGRI(2)+(IY-1))*MAXGRI(1)+IX
IOF2=((MAXGRI(3)-IZ)*MAXGRI(2)+(IY-1))*MAXGRI(1)+IX
IKOF1=KEYTYP(IOF1)
IKOF2=KEYTYP(IOF2)
ITOF1=ITGEOM(IOF1)
ITOF2=ITGEOM(IOF2)
IF(IPRT .GT. 10) THEN
WRITE(IOUT,8010) IZ,IY,IX,
> IOF1,IOF2,IKOF1,IKOF2,ITOF1,ITOF2
ENDIF
IF( IKOF1 .NE. IKOF2) THEN
IF( IKOF1 .GT. IKOF2) THEN
IKOF2= IKOF1
ITOF2= AXGTRS(ITOF1,4)
KEYTYP(IOF2)= IKOF2
ITGEOM(IOF2)= ITOF2
ELSE
IKOF1= IKOF2
ITOF1= AXGTRS(ITOF2,4)
KEYTYP(IOF1)= IKOF1
ITGEOM(IOF1)= ITOF1
ENDIF
ENDIF
IF(IKOF1 .GT. 0) THEN
IF(IZ .EQ. (MAXGRI(3)+1-IZ)) THEN
IKG=IKOF1
IKT(1)=ITOF1
IKT(2)=AXGTRS(IKT(1),4)
IF(IKG .GT. 0) THEN
WRITE(GEOCV,'(3A4)')
> CELLT(3*IKG-2),CELLT(3*IKG-1),CELLT(3*IKG)
IF(GEOCV .EQ. ' ') THEN
IF(IPRT .GT. 10) WRITE(IOUT,8001)
> GEONAM,AXGTRN(IKT(1)),AXGTRN(IKT(2))
ELSE
IF(IPRT .GT. 10) WRITE(IOUT,8001)
> GEOCV,AXGTRN(IKT(1)),AXGTRN(IKT(2))
ENDIF
VALSYM=LELCSY(IPGEOM,IPRT,GEONAM,GEOCV,NXYZ,IKT,
> MESH,ISPLT,MESH1,ISPLT1)
IF(.NOT. VALSYM) THEN
WRITE(IOUT,8002) 'Z-Z',GEOCV,
> AXGTRN(IKT(1)),AXGTRN(IKT(2))
CALL XABORT(NAMSBR//
> ': INVALID Z SYMMETRY FOR CELL')
ENDIF
ENDIF
ENDIF
ENDIF
220 CONTINUE
210 CONTINUE
200 CONTINUE
ENDIF
*----
* APPLY SYMMETRY IN Y
*----
IF( LCLSYM(2).NE.0)THEN
IF(IPRT .GT. 10) THEN
WRITE(IOUT,8000) NAMSBR,'Y-Y'
ENDIF
DO 300 IZ=1,MAXGRI(3)
DO 310 IY=1,MINGRI(2)
DO 320 IX=1,MAXGRI(1)
IOF1=((IZ-1)*MAXGRI(2)+(IY-1))*MAXGRI(1)+IX
IOF2=((IZ-1)*MAXGRI(2)+(MAXGRI(2)-IY))*MAXGRI(1)+IX
IKOF1=KEYTYP(IOF1)
IKOF2=KEYTYP(IOF2)
ITOF1=ITGEOM(IOF1)
ITOF2=ITGEOM(IOF2)
IF(IPRT .GT. 10) THEN
WRITE(IOUT,8010) IZ,IY,IX,
> IOF1,IOF2,IKOF1,IKOF2,ITOF1,ITOF2
ENDIF
IF( IKOF1 .NE. IKOF2) THEN
IF( IKOF1 .GT. IKOF2) THEN
IKOF2= IKOF1
ITOF2= AXGTRS(ITOF1,2)
KEYTYP(IOF2)= IKOF2
ITGEOM(IOF2)= ITOF2
ELSE
IKOF1= IKOF2
ITOF1= AXGTRS(ITOF2,2)
KEYTYP(IOF1)= IKOF1
ITGEOM(IOF1)= ITOF1
ENDIF
ENDIF
IF(IKOF1 .GT. 0) THEN
IF(IY .EQ. (MAXGRI(2)+1-IY) ) THEN
IKG=IKOF1
IKT(1)=ITOF1
IKT(2)=AXGTRS(IKT(1),2)
IF(IKG .GT. 0) THEN
WRITE(GEOCV,'(3A4)')
> CELLT(3*IKG-2),CELLT(3*IKG-1),CELLT(3*IKG)
IF(GEOCV .EQ. ' ') THEN
IF(IPRT .GT. 10) WRITE(IOUT,8001)
> GEONAM,AXGTRN(IKT(1)),AXGTRN(IKT(2))
ELSE
IF(IPRT .GT. 10) WRITE(IOUT,8001)
> GEOCV,AXGTRN(IKT(1)),AXGTRN(IKT(2))
ENDIF
VALSYM=LELCSY(IPGEOM,IPRT,GEONAM,GEOCV,NXYZ,IKT,
> MESH,ISPLT,MESH1,ISPLT1)
IF(.NOT. VALSYM) THEN
WRITE(IOUT,8002) 'Y-Y',GEOCV,
> AXGTRN(IKT(1)),AXGTRN(IKT(2))
CALL XABORT(NAMSBR//
> ': INVALID Y SYMMETRY FOR CELL')
ENDIF
ENDIF
ENDIF
ENDIF
320 CONTINUE
310 CONTINUE
300 CONTINUE
ENDIF
*----
* APPLY SYMMETRY IN X
*----
IF( LCLSYM(1).NE.0)THEN
IF(IPRT .GT. 10) THEN
WRITE(IOUT,8000) NAMSBR,'X-X'
ENDIF
DO 400 IZ=1,MAXGRI(3)
DO 410 IY=1,MAXGRI(2)
DO 420 IX=1,MINGRI(1)
IOF1=((IZ-1)*MAXGRI(2)+(IY-1))*MAXGRI(1)+IX
IOF2=((IZ-1)*MAXGRI(2)+(IY-1))*MAXGRI(1)+MAXGRI(1)+1-IX
IKOF1=KEYTYP(IOF1)
IKOF2=KEYTYP(IOF2)
ITOF1=ITGEOM(IOF1)
ITOF2=ITGEOM(IOF2)
IF(IPRT .GT. 10) THEN
WRITE(IOUT,8010) IZ,IY,IX,
> IOF1,IOF2,IKOF1,IKOF2,ITOF1,ITOF2
ENDIF
IF( IKOF1 .NE. IKOF2) THEN
IF( IKOF1 .GT. IKOF2) THEN
IKOF2= IKOF1
ITOF2= AXGTRS(ITOF1,1)
KEYTYP(IOF2)= IKOF2
ITGEOM(IOF2)= ITOF2
ELSE
IKOF1= IKOF2
ITOF1= AXGTRS(ITOF2,1)
KEYTYP(IOF1)= IKOF1
ITGEOM(IOF1)= ITOF1
ENDIF
ENDIF
IF(IKOF1 .GT. 0) THEN
IF(IX .EQ. (MAXGRI(1)+1-IX)) THEN
IKG=IKOF1
IKT(1)=ITOF1
IKT(2)=AXGTRS(IKT(1),1)
IF(IKG .GT. 0) THEN
WRITE(GEOCV,'(3A4)')
> CELLT(3*IKG-2),CELLT(3*IKG-1),CELLT(3*IKG)
IF(GEOCV .EQ. ' ') THEN
IF(IPRT .GT. 10) WRITE(IOUT,8001)
> GEONAM,AXGTRN(IKT(1)),AXGTRN(IKT(2))
ELSE
IF(IPRT .GT. 10) WRITE(IOUT,8001)
> GEOCV,AXGTRN(IKT(1)),AXGTRN(IKT(2))
ENDIF
VALSYM=LELCSY(IPGEOM,IPRT,GEONAM,GEOCV,NXYZ,IKT,
> MESH,ISPLT,MESH1,ISPLT1)
IF(.NOT. VALSYM) THEN
WRITE(IOUT,8002) 'X-X',GEOCV,
> AXGTRN(IKT(1)),AXGTRN(IKT(2))
CALL XABORT(NAMSBR//
> ': INVALID X SYMMETRY FOR CELL')
ENDIF
ENDIF
ENDIF
ENDIF
420 CONTINUE
410 CONTINUE
400 CONTINUE
ENDIF
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(MESH1,MESH)
DEALLOCATE(ISPLT1,ISPLT)
*----
* RETURN
*----
RETURN
*----
* FORMAT
*----
8000 FORMAT(1X,A6,' NOW TESTING SYMMETRY ',A3)
8001 FORMAT(7X,A12,1X,'WITH ROTATION',1X,A2,' AND ',A2)
8002 FORMAT(' INVALID SYMMETRY ',A3,' FOR ',
> A12,1X,'WITH ROTATION',1X,A2,' AND ',A2)
8010 FORMAT(1X,'IZ=',I6,1X,'IY=',I6,1X,'IX=',I6/
> 1X,'IOF1 =',I6,1X,'IOF2 =',I6,
> 1X,'KOF1 =',I6,1X,'KOF2 =',I6,
> 1X,'TOF1 =',I6,1X,'TOF2 =',I6)
END
|
