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*DECK XELGPR
SUBROUTINE XELGPR( NDIM, NTX, NTY, NTZ, NTR,ISYMM,
> NSUR, NVOL,NTOTCL,MINDIM,MAXDIM,
> KEYMRG, INDEX,MATALB)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Prints a semi-graphical representation of the geometry
* compute annular surface.
*
*Copyright:
* Copyright (C) 1997 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
* NDIM number of dimensions.
* NTX number of X-mesh.
* NTY number of Y-mesh.
* NTZ number of Z-mesh.
* NTR number of R-mesh.
* ISYMM flag for intrinsic symmetry:
* 2 reflection plane normal to X axis;
* 4 reflection plane normal to Y axis;
* 8 reflection plane normal to X and Y axis;
* 16 reflection plane normal to Z axis;
* 18 reflection plane normal to X and Z axis;
* 20 reflection plane normal to Y and Z axis;
* 24 reflection plane normal to X, Y and Z axis.
* NSUR number of surfaces.
* NVOL number of zones.
* NTOTCL tot number of cylinders in exact geometry.
* MINDIM min index values for all axes (rect/cyl).
* MAXDIM max index values for all axes (rect/cyl).
* KEYMRG merging vector of exact geometry.
* INDEX numbering of surfaces and zones.
* MATALB material/albedo.
*
*-------------------------- XELGPR -------------------------------
*
IMPLICIT NONE
*
INTEGER NDIM, NTX, NTY, NTZ, NTR,ISYMM,
> NSUR, NVOL,NTOTCL,
> MINDIM(NTOTCL),
> MAXDIM(NTOTCL),
> KEYMRG(NSUR:NVOL),
> INDEX(4,NSUR:NVOL),
> MATALB(NSUR:NVOL),
> NTC,IOUT
PARAMETER ( NTC=4,IOUT=6 )
CHARACTER CABS*16,CNON*16,CNAM*16
CHARACTER FMTB*24,FMTVS*24,FMTE*24
*
INTEGER MAXZ, MINZ, MAXY, MINY, MAXX, MINX, LNFMT,
> ITRZ, NTRZ, IZ, IY, IX, ISURZ, ISURY, ISURX,
> ISURG, ITC, IVS, ICL, IR
INTEGER IPX,IPY,IPZ,IPPZ
INTEGER, ALLOCATABLE, DIMENSION(:,:,:,:,:) :: NAMNUM
*----
* SCRATCH STORAGE ALLOCATION
*----
ALLOCATE(NAMNUM(4,NTR+1,0:NTX+1,0:NTY+1,0:NTZ+1))
*
CABS=' ABSENT'
CNON=' '
*----
* COMPUTE MEMORY SIZE REQUIRED
*----
MAXZ=MAXDIM(3)
MINZ=MINDIM(3)-1
MAXY=MAXDIM(2)
MINY=MINDIM(2)-1
MAXX=MAXDIM(1)
MINX=MINDIM(1)-1
LNFMT=MAXX-MINX+1
WRITE(FMTB ,5000) LNFMT*18-2
WRITE(FMTVS,5001) LNFMT
WRITE(FMTE ,5002) LNFMT*18-2
ITRZ=0
NTRZ=NTZ+1
IF(NDIM .EQ. 2) THEN
ITRZ=1
NTRZ=1
ENDIF
*----
* INITIALIZE NAMNUM
*----
DO 100 IZ=ITRZ,NTRZ
IF(IZ .EQ. 0 .OR. IZ .EQ. NTZ+1) THEN
ISURZ=1
ELSE
ISURZ=0
ENDIF
DO 101 IY=0,NTY+1
IF(IY .EQ. 0 .OR. IY .EQ. NTY+1) THEN
ISURY=1
ELSE
ISURY=0
ENDIF
DO 102 IX=0,NTX+1
IF(IX .EQ. 0 .OR. IX .EQ. NTX+1) THEN
ISURX=1
ELSE
ISURX=0
ENDIF
*----
* DETERMINE IF SURFACE REPRESENTS A LINE OR CORNER
* FOR SURFACE
*----
ISURG=ISURX*ISURY+ISURX*ISURZ+ISURY*ISURZ
DO 103 IR=1,NTR+1
IF(ISURG.EQ.0) THEN
*----
* REGION REQUIRED
* INITIALIZED TO ABSENT
*----
READ(CABS,5010) (NAMNUM(ITC,IR,IX,IY,IZ),ITC=1,NTC)
ELSE
*----
* REGION NOT REQUIRED
* INITIALIZE TO BLANK
*----
READ(CNON,5010) (NAMNUM(ITC,IR,IX,IY,IZ),ITC=1,NTC)
ENDIF
103 CONTINUE
102 CONTINUE
101 CONTINUE
100 CONTINUE
*----
* SCAN ALL SURFACE AND REGIONS AND LOCATE POSITION
* STORE ADEQUATE REGION NUMVER IN NAMNUM
*----
DO 110 IVS=NSUR,NVOL
IF(KEYMRG(IVS) .NE. 0) THEN
*----
* POSITION IN X, Y AND Z LOCATED
*----
IX=INDEX(1,IVS)-MINX
IY=INDEX(2,IVS)-MINY
IZ=INDEX(3,IVS)-MINZ
IF(INDEX(4,IVS) .EQ. 0) THEN
*----
* CARTESIAN POSITION
* STORE AT LOCATION NTR+1
*----
IR=NTR+1
WRITE(CNAM,5011) MATALB(IVS),KEYMRG(IVS)
READ(CNAM,5010)
> (NAMNUM(ITC,IR,IX,IY,IZ),ITC=1,NTC)
ELSE
*----
* ANNULAR POSITION
* DETERMINE WHICH ANNULUS
*----
DO 111 ICL=4,NTOTCL
IF( INDEX(4,IVS) .GE. MINDIM(ICL)-1 .AND.
> INDEX(4,IVS) .LT. MAXDIM(ICL) ) THEN
IR=INDEX(4,IVS)-MINDIM(ICL)+2
*----
* ANNULAR POSITION
* STORE AT LOCATION IR
*----
WRITE(CNAM,5011) MATALB(IVS),KEYMRG(IVS)
READ(CNAM,5010)
> (NAMNUM(ITC,IR,IX,IY,IZ),ITC=1,NTC)
GO TO 115
ENDIF
111 CONTINUE
115 CONTINUE
ENDIF
ENDIF
110 CONTINUE
*----
* PRINT HEADER
*----
WRITE(IOUT,6000)
*----
* PRINT NAMNUM MATRIX
*----
IPZ=NTRZ
IPY=0
IPX=0
IF(ISYMM .GE. 16) THEN
*----
* Z SYMMETRY
*----
IPZ=(NTZ+1)/2
WRITE(IOUT,6010)
ENDIF
IF(ISYMM .EQ. 8 .OR. ISYMM .EQ. 24) THEN
*----
* X AND Y SYMMETRY
*----
IPX=NTX/2+1
IPY=NTY/2+1
WRITE(IOUT,6011)
ELSE IF(ISYMM .EQ. 4 .OR. ISYMM .EQ. 20) THEN
*----
* Y SYMMETRY
*----
IPY=NTY/2+1
WRITE(IOUT,6012)
ELSE IF(ISYMM .EQ. 2 .OR. ISYMM .EQ. 18) THEN
*----
* X SYMMETRY
*----
IPX=NTX/2+1
WRITE(IOUT,6013)
ENDIF
*----
* Start test print
* write(IOUT,7000) isymm,ntx,ipx,nty,ipy,ntz,ipz
* 7000 format(1x,'Test print:'/
* > 1x,'Symmetry factor = ',i10/
* > 1x,'ntx,ipx =',2i10/
* > 1x,'nty,ipy =',2i10/
* > 1x,'ntz,ipz =',2i10/
* > 1x,'keymrg follows')
* write(IOUT,7001) (ir,keymrg(ir),ir=-1,nsur,-1)
* write(IOUT,7001) (ir,keymrg(ir),ir=1,nvol)
* 7001 format(10i10)
* Finish test print
*----
DO 140 IZ=NTRZ,ITRZ,-1
IPPZ=1
IF(NDIM .EQ. 3) THEN
IF(IZ .LE. IPZ) THEN
IF(IZ .EQ. 0) THEN
WRITE(IOUT,6001)
ELSE IF(IZ .EQ. NTZ+1) THEN
WRITE(IOUT,6002)
ELSE
WRITE(IOUT,6003) IZ
ENDIF
ELSE
IPPZ=0
ENDIF
ELSE
WRITE(IOUT,6004)
ENDIF
IF(IPPZ .EQ. 1) THEN
DO 141 IY=NTY+1,0,-1
IF(IY .GE. IPY) THEN
WRITE(IOUT,FMTB)
DO 142 IR=NTR+1,1,-1
WRITE(IOUT,FMTVS)
< ((NAMNUM(ITC,IR,IX,IY,IZ),ITC=1,NTC),IX=IPX,NTX+1)
142 CONTINUE
ENDIF
141 CONTINUE
ENDIF
WRITE(IOUT,FMTE)
140 CONTINUE
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(NAMNUM)
RETURN
*----
* FORMATS TO CREATE FORMATS
*----
5000 FORMAT('(2X,',I10,'(1H-) ) ')
5001 FORMAT('( ',I10,'(2X,4A4)) ')
5002 FORMAT('(2X,',I10,'(1H-)/) ')
5010 FORMAT(4A4)
5011 FORMAT('(',I6,') ',I7)
*----
* OTHER PRINT FORMATS
*----
6000 FORMAT(//' PRINTING GEOMETRY DESCRIPTION BY PLANES '/
> ' ---- NOTATION USED:'/
>10X,'NEGATIVE INTEGERS REPRESENT SURFACES'/
>10X,'POSITIVE INTEGERS REPRESENT REGIONS'/
>10X,'ABSENT MEANS THAT THE REGION OR SURFACE DOES NOT EXIST'/
>10X,'FIRST LINE REPRESENTS REGION OR VOLUME IN CARTESIAN MESH'/
>10X,'ADDITIONAL LINES REPRESENT REGION OR SURFACE IN ',
> 'RADIAL MESH (OUTER TO INNER)'/
>10X,'FOR 3-D MODEL, START WITH TOP Z-SURFACE ',
> 'THEN GO DOWN ALONG Z-AXIS AND FINISH BY BOTTOM Z-SURFACE'/
>10X,'FOR 2-D X-Y PLANE FIRST LINE IS FOR TOP Y-SURFACE ',
> 'THEN GO DOWN ALONG Y-AXIS AND FINISH BY BOTTOM Y-SURFACE'/
>10X,'FOR A LINE FIRST POINT IS FOR LEFT X-SURFACE ',
> 'THEN INCREASE ALONG X-AXIS AND FINISH BY RIGHT X-SURFACE'/
>10X,'MATERIAL AND ABLEDO NUMBERS ARE IN PARENTHESIS'/)
6001 FORMAT(/' X-Y MESH ON BOTTOM Z-SURFACE')
6002 FORMAT(/' X-Y MESH ON TOP Z-SURFACE')
6003 FORMAT(/' X-Y MESH IN Z-PLANE = ',I10)
6004 FORMAT(/' X-Y MESH')
6010 FORMAT(/' GEOMETRY HAS CENTRAL Z SYMMETRY '/
> ' ONLY BOTTOM-Z PLANES PRINTED')
6011 FORMAT(/' GEOMETRY HAS CENTRAL X AND Y SYMMETRY '/
> ' ONLY TOP-Y RIGHT-X REGIONS PRINTED')
6012 FORMAT(/' GEOMETRY HAS CENTRAL Y SYMMETRY '/
> ' ONLY TOP-Y REGIONS PRINTED')
6013 FORMAT(/' GEOMETRY HAS CENTRAL X SYMMETRY '/
> ' ONLY RIGHT-X REGIONS PRINTED')
END
|
