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|
*DECK EDIGEO
SUBROUTINE EDIGEO(MAXPTS,MAXMER,IPGEO1,IPGEO2,IPRINT,NREGIO,IEUR,
1 NMERGE,IMERGE)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Recover the geometry information from LCM (stored by operator GEO) and
* compute a corresponding macro-geometry (i.e. a pure geometry that can
* be treated by Bivac or Trivac or a two-level Eurydice geometry)
* together with NMERGE and array IMERGE.
*
*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): A. Hebert
*
*Parameters: input
* MAXPTS allocated storage for arrays of dimension NMCEL.
* MAXMER allocated storage for arrays of dimension NMERGE.
* IPGEO1 pointer to the original geometry (L_GEOM signature).
* IPGEO2 pointer to the macro-geometry (L_GEOM signature).
* IPRINT print flag (equal to 0 for no print).
* NREGIO number of regions.
* IEUR type of tracking operator for the macro-geometry:
* =1: 2-level macro-geometry with MERGE;
* =2: 2-level NXT-type macro-geometry without MERGE;
* =3: 1-level TRIVAC-type macro-geometry without MERGE;
* =4: 2-level macro-geometry with MERGE and unfolding.
*
*Parameters: input/output
* NMERGE macro-calculation merging flag (=1 to indicate a homogeneous
* macro-calculation) on input and.
* number of merged regions (equal to the number of physical
* cells in Eurydice) at output.
*
*Parameters: output
* IMERGE index of merged regions.
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR), TARGET :: IPGEO1
TYPE(C_PTR) IPGEO2
INTEGER MAXPTS,MAXMER,IPRINT,NREGIO,IEUR,NMERGE,
> IMERGE(NREGIO)
*----
* LOCAL VARIABLES
*----
PARAMETER (NSTATE=40)
CHARACTER HSMG*131,TYPE(0:9)*16,HSIGN*12,TEXT12*12
LOGICAL ILK,LL1,LL2,LHOM,LBIHET
INTEGER NCODE(6),ICODE(6),ISTATE(NSTATE),JSTATE(NSTATE)
REAL ZCODE(6),ALBEDO(6),XXX(2),YYY(2)
LOGICAL LDIAG,LSYMX,LSYMY
*----
* ALLOCATABLE ARRAYS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: INUM,IGEN,IORI,IMAT,NMC,IBI,
1 LSECT,NMCR,NRINFO,NRODS,KEYMRG,MATALB,NRODR,NXRS,NXRI,NS,IMILIE,
2 IHCEL
REAL, ALLOCATABLE, DIMENSION(:) :: XX,YY,RAYRE,RAN,VS,RODS,RODR,
1 MESHX,MESHY
REAL, ALLOCATABLE, DIMENSION(:,:) :: FRACT
TYPE(C_PTR), POINTER :: IPGEOD,IPGEOX,IPGEOY
*----
* DATA STATEMENTS
*----
DATA TYPE/'VIRTUAL','HOMOGENEOUS','CARTESIAN 1-D','TUBE 1-D',
1 'SPHERE 1-D','CARTESIAN 2-D','TUBE 2-D','CARTESIAN 3-D',
2 'HEXAGONAL 2-D','HEXAGONAL 3-D'/
*----
* SCRATCH STORAGE ALLOCATION
*----
ALLOCATE(INUM(2*MAXPTS),IGEN(MAXPTS),IORI(2*MAXPTS),
1 IMAT(2*MAXPTS),NMC(MAXPTS+1),IBI(NREGIO))
ALLOCATE(XX(MAXPTS),YY(MAXPTS))
*----
* RECOVER STATE VECTOR
*----
ICLS=-99
LR=-99
LHOM=(NMERGE.EQ.1)
CALL LCMGET(IPGEO1,'STATE-VECTOR',ISTATE)
LBIHET=(ISTATE(12).EQ.1)
*----
* UNFOLD GEOMETRY
*----
IF(IEUR.EQ.4) THEN
IF((ISTATE(1).NE.5).OR.(ISTATE(8).NE.1)) THEN
CALL XABORT('EDIGEO: UNFOLDING NOT IMPLEMENTED FOR THIS TY'
1 //'PE OF GEOMETRY.')
ENDIF
CALL LCMGET(IPGEO1,'NCODE',NCODE)
LDIAG=(NCODE(1).EQ.3).AND.(NCODE(4).EQ.3)
IF(LDIAG) THEN
ALLOCATE(IPGEOD)
CALL LCMOP(IPGEOD,'GEOM_DIAG',0,1,0)
CALL EDIUNF(IPGEO1,IPGEOD,'DIAG')
ELSE
IPGEOD=>IPGEO1
ENDIF
CALL LCMGET(IPGEOD,'NCODE',NCODE)
LSYMX=(NCODE(3).EQ.5).AND.(NCODE(1).NE.3)
IF(LSYMX) THEN
ALLOCATE(IPGEOX)
CALL LCMOP(IPGEOX,'GEOM_SYMX',0,1,0)
CALL EDIUNF(IPGEOD,IPGEOX,'SYMX')
ELSE
IPGEOX=>IPGEOD
ENDIF
CALL LCMGET(IPGEOX,'NCODE',NCODE)
LSYMY=(NCODE(1).EQ.5).AND.(NCODE(4).NE.3)
IF(LSYMY) THEN
ALLOCATE(IPGEOY)
CALL LCMOP(IPGEOY,'GEOM_SYMY',0,1,0)
CALL EDIUNF(IPGEOX,IPGEOY,'SYMY')
ELSE
IPGEOY=>IPGEOX
ENDIF
ICLS=0
LR=0
ALLOCATE(RAYRE(MAXPTS),LSECT(MAXPTS),NMCR(MAXPTS))
CALL READEU(MAXPTS,MAXPTS,IPGEOY,IR2,IBI,ILK,NMCEL,NMERGE,
1 NGEN,INUM,IGEN,IPAS,LX,LY,XX,YY,LSECT,RAYRE,NMC,NMCR,IORI,
2 NCODE,ZCODE,IHEX,IPRINT-5)
DEALLOCATE(RAYRE,LSECT,NMCR)
IF(LDIAG) THEN
CALL LCMCL(IPGEOD,2)
DEALLOCATE(IPGEOD)
ENDIF
IF(LSYMX) THEN
CALL LCMCL(IPGEOX,2)
DEALLOCATE(IPGEOX)
ENDIF
IF(LSYMY) THEN
CALL LCMCL(IPGEOY,2)
DEALLOCATE(IPGEOY)
ENDIF
IEUR=3
GO TO 25
ENDIF
*----
* RECOVER ASSEMBLY INFORMATION FROM THE ORIGINAL GEOMETRY
*----
IF( ((ISTATE(1).EQ.5).AND.(ISTATE(8).EQ.1)).OR.
1 ((ISTATE(1).EQ.8).AND.(ISTATE(8).EQ.1)).OR.
2 ((ISTATE(1).EQ.20).AND.(ISTATE(13).EQ.0)).OR.
3 ((ISTATE(1).EQ.24).AND.(ISTATE(13).EQ.0)) ) THEN
ICLS=0
LR=0
ALLOCATE(RAYRE(MAXPTS),LSECT(MAXPTS),NMCR(MAXPTS))
CALL READEU(MAXPTS,MAXPTS,IPGEO1,IR2,IBI,ILK,NMCEL,NMERGE,
1 NGEN,INUM,IGEN,IPAS,LX,LY,XX,YY,LSECT,RAYRE,NMC,NMCR,IORI,
2 NCODE,ZCODE,IHEX,IPRINT-5)
DEALLOCATE(RAYRE,LSECT,NMCR)
ELSE IF( ((ISTATE(1).EQ.3).OR.(ISTATE(1).EQ.20).OR.
1 (ISTATE(1).EQ.24)).AND.(ISTATE(13).GE.1)) THEN
IROT=3
LX=0
LY=0
IF(ISTATE(1).EQ.3) THEN
NSURW=1
ICLS=1
ELSE IF(ISTATE(1).EQ.20) THEN
NSURW=4
ICLS=2
LX=1
LY=1
ELSE IF(ISTATE(1).EQ.24) THEN
NSURW=6
ICLS=3
ENDIF
IAPP=1
MAXJ=1
CALL XCGDIM(IPGEO1,MAXPTS,NSURW,IROT,IAPP,MAXJ,NVOLW,
1 NANW,MNANW,NRTW,MSRODW,MARODW,NSURFW)
*----
* ALLOCATE BLOCK FOR READING GEOMETRY INFORMATION
*----
ALLOCATE(NRINFO(2*NANW),NRODS(3*NRTW),KEYMRG(NSURW+NVOLW+1),
1 MATALB(NSURW+NVOLW+1),NRODR(NRTW),NXRS(NRTW),NXRI(NRTW*NANW))
ALLOCATE(RAN(NANW),VS(NSURW+NVOLW+1),RODS(2*NRTW),
1 RODR(MSRODW*NRTW))
*
CALL XCGGEO(IPGEO1,IROT,NSURW,NVOLW,NANW,MNANW,NRTW,MSRODW,
1 IPRINT,ILK,NMATW,RAN,NRODS,RODS,NRODR,RODR,NRINFO,MATALB,VS,
2 COTE,RADMIN,NCODE,ICODE,ZCODE,ALBEDO,KEYMRG,NXRS,NXRI)
*
IR2=0
DO 10 I=1,NVOLW
IBI(I)=MATALB((NSURW+1)+I)
IR2=MAX(IR2,IBI(I))
10 CONTINUE
DEALLOCATE(RODR,RODS,VS)
DEALLOCATE(NXRI,NXRS,NRODR,MATALB,KEYMRG,NRODS)
*----
* STORE INFORMATION FOR NEW GEOMETRY
*----
IPAS=NVOLW
NMCEL=NANW
NMERGE=NANW
IHEX=0
XX(1)=0.0
NMC(1)=0
DO 20 II=1,NANW
XX(II+1)=RAN(II)
INUM(II)=II
IGEN(II)=II
NMC(II+1)=NRINFO(2*(II-1)+1)
20 CONTINUE
IF(NSURW.EQ.1) THEN
LR=NANW
ELSE IF(NSURW.EQ.4) THEN
LR=NANW-1
XXX(1)=0.0
XXX(2)=XX(NANW+1)
YYY(1)=0.0
YYY(2)=COTE
ELSE
LR=NANW-1
SIDE=XX(NANW+1)
ENDIF
*
DEALLOCATE(RAN,NRINFO)
ELSE
CALL XABORT('EDIGEO: INVALID TYPE OF INPUT GEOMETRY.')
ENDIF
*----
* COMPUTE IMERGE ARRAY
*----
25 IF(LHOM) THEN
* HOMOGENEOUS MACRO-CALCULATION.
DO 30 I=1,NREGIO
IMERGE(I)=1
30 CONTINUE
NMERGE=1
DO 40 I=1,NMCEL
IMAT(I)=1
40 CONTINUE
ELSE
* CELL-WISE HETEROGENEOUS MACRO-CALCULATION.
IPAS2=0
DO 60 IKK=1,NMERGE
IKG=IGEN(IKK)
I2=NMC(IKG+1)-NMC(IKG)
DO 50 I=1,I2
IMERGE(IPAS2+I)=IKK
50 CONTINUE
IPAS2=IPAS2+I2
60 CONTINUE
IF(IPAS2.NE.IPAS) THEN
CALL XABORT('EDIGEO: INCONSISTENT ARRAY NMC.')
ENDIF
DO 70 I=1,NMCEL
IMAT(I)=INUM(I)
70 CONTINUE
ENDIF
*----
* IF DOUBLE HETEROGENEITY IS PRESENT IN THE REFERENCE GEOMETRY
*----
IF(LBIHET) THEN
CALL LCMSIX(IPGEO1,'BIHET',1)
CALL LCMGET(IPGEO1,'STATE-VECTOR',ISTATE)
NG=ISTATE(1)
NMILG=ISTATE(3)
ALLOCATE(NS(NG),IMILIE(NMILG),FRACT(NG,NMILG))
CALL LCMGET(IPGEO1,'NS',NS)
CALL LCMGET(IPGEO1,'MILIE',IMILIE)
CALL LCMGET(IPGEO1,'FRACT',FRACT)
CALL LCMSIX(IPGEO1,' ',2)
IND1=IR2
DO 75 I=1,NMILG
IF(IMILIE(I).GT.IR2) THEN
WRITE (HSMG,500) IMILIE(I),IR2
CALL XABORT(HSMG)
ENDIF
IND1=MIN(IND1,IMILIE(I))
75 CONTINUE
IPAS2=IPAS
DO 110 IKK=1,IPAS2
IF(IBI(IKK).GE.IND1) THEN
IND=0
DO 80 I=1,NMILG
IF(IMILIE(I).EQ.IBI(IKK)) IND=I
80 CONTINUE
IF(IND.EQ.0) THEN
WRITE(HSMG,'(29HEDIGEO: A COMPOSITE MIXTURE (,I5,4H) IS,
1 13H NOT DEFINED.)') IBI(IKK)
CALL XABORT(HSMG)
ENDIF
DO 100 J=1,NG
IF(FRACT(J,IND).GT.0.00001) THEN
DO 90 K=1,NS(J)
IPAS=IPAS+1
IMERGE(IPAS)=IMERGE(IKK)
90 CONTINUE
ENDIF
100 CONTINUE
ENDIF
110 CONTINUE
DEALLOCATE(FRACT,IMILIE,NS)
ENDIF
IF(IPAS.NE.NREGIO) THEN
WRITE(HSMG,'(45HEDIGEO: INCONSISTENT NUMBER OF REGIONS. IPAS=,
1 I6,8H NREGIO=,I6)') IPAS,NREGIO
CALL XABORT(HSMG)
ELSE IF(NMERGE.GT.MAXMER) THEN
WRITE(HSMG,'(37HEDIGEO: INSUFFICIENT STORAGE (MAXMER=,I5,
1 47H). THE MERGE OPTION SHOULD NOT BE USED IN EDI:.)') MAXMER
CALL XABORT(HSMG)
ENDIF
IF(IPRINT.GT.0) THEN
WRITE (6,'(/23H EDIGEO: MERGING INDEX:/(1X,14I5))') (IMERGE(I),
1 I=1,NREGIO)
ENDIF
*----
* COMPUTE THE MACRO-GEOMETRY
*----
ISTATE(:NSTATE)=0
ICODE(:6)=0
CALL LCMPUT(IPGEO2,'NCODE',6,1,NCODE)
CALL LCMPUT(IPGEO2,'ZCODE',6,2,ZCODE)
CALL LCMPUT(IPGEO2,'ICODE',6,1,ICODE)
IF((ICLS.EQ.0).AND.(IEUR.LE.2)) THEN
* TWO-LEVEL MACRO-GEOMETRY.
ALLOCATE(IHCEL(3*NMERGE))
JSTATE(:NSTATE)=0
JSTATE(6)=1
HSIGN='L_GEOM'
CALL LCMPTC(IPGEO2,'SIGNATURE',12,HSIGN)
IF(IHEX.EQ.0) THEN
ISTATE(1)=5
JSTATE(1)=20
JSTATE(3)=1
JSTATE(4)=1
DO 120 IKK=1,NMERGE
WRITE(TEXT12,'(4HCELL,I8.8)') IKK
READ(TEXT12,'(3A4)') (IHCEL((IKK-1)*3+I0),I0=1,3)
CALL LCMSIX(IPGEO2,TEXT12,1)
CALL LCMPUT(IPGEO2,'MIX',1,1,IKK)
XXX(1)=0.0
XXX(2)=XX(IGEN(IKK))
YYY(1)=0.0
YYY(2)=YY(IGEN(IKK))
CALL LCMPUT(IPGEO2,'MESHX',2,2,XXX)
CALL LCMPUT(IPGEO2,'MESHY',2,2,YYY)
JSTATE(7)=IKK
CALL LCMPUT(IPGEO2,'STATE-VECTOR',NSTATE,1,JSTATE)
CALL LCMSIX(IPGEO2,' ',2)
120 CONTINUE
ELSE
ISTATE(1)=8
JSTATE(1)=24
JSTATE(3)=1
DO 130 IKK=1,NMERGE
WRITE(TEXT12,'(4HCELL,I8.8)') IKK
READ(TEXT12,'(3A4)') (IHCEL((IKK-1)*3+I0),I0=1,3)
CALL LCMSIX(IPGEO2,TEXT12,1)
CALL LCMPUT(IPGEO2,'MIX',1,1,IKK)
CALL LCMPUT(IPGEO2,'SIDE',1,2,XX(1))
JSTATE(7)=IKK
CALL LCMPUT(IPGEO2,'STATE-VECTOR',NSTATE,1,JSTATE)
CALL LCMSIX(IPGEO2,' ',2)
130 CONTINUE
CALL LCMPUT(IPGEO2,'IHEX',1,1,IHEX)
ENDIF
CALL LCMPUT(IPGEO2,'CELL',3*NMERGE,3,IHCEL)
IF(IEUR.EQ.1) CALL LCMPUT(IPGEO2,'MERGE',NMCEL,1,INUM)
CALL LCMPUT(IPGEO2,'TURN',NMCEL,1,IORI)
DO 140 IBLK=1,NMCEL
INUM(IBLK)=-INUM(IBLK)
140 CONTINUE
CALL LCMPUT(IPGEO2,'MIX',NMCEL,1,INUM)
DEALLOCATE(IHCEL)
ISTATE(8)=1
ISTATE(9)=NMERGE
ISTATE(10)=1
ELSE IF(ICLS.EQ.0) THEN
* ONE-LEVEL (TRIVAC-TYPE) MACRO-GEOMETRY.
CALL LCMPUT(IPGEO2,'MIX',NMCEL,1,IMAT)
IF(IHEX.EQ.0) THEN
ISTATE(1)=5
ALLOCATE(MESHX(LX+1),MESHY(LY+1))
MESHX(1)=0.0
MESHY(1)=0.0
LL1=((NCODE(2).EQ.3).AND.(NCODE(3).EQ.3))
LL2=((NCODE(1).EQ.3).AND.(NCODE(4).EQ.3))
IBLK=0
DO 155 K1=1,LY
LXM=1
LXP=LX
IF(LL1) LXP=K1
IF(LL2) LXM=K1
DO 150 K2=LXM,LXP
IBLK=IBLK+1
IKK=INUM(IBLK)
IF(IKK.EQ.0) GO TO 150
IF(MOD(IORI(IBLK)-1,2).EQ.0) THEN
MESHX(K2+1)=MESHX(K2)+XX(IGEN(IKK))
MESHY(K1+1)=MESHY(K1)+YY(IGEN(IKK))
ELSE
MESHX(K2+1)=MESHX(K2)+YY(IGEN(IKK))
MESHY(K1+1)=MESHY(K1)+XX(IGEN(IKK))
ENDIF
150 CONTINUE
155 CONTINUE
CALL LCMPUT(IPGEO2,'MESHX',LX+1,2,MESHX)
CALL LCMPUT(IPGEO2,'MESHY',LY+1,2,MESHY)
DEALLOCATE(MESHY,MESHX)
ELSE
ISTATE(1)=8
IF(IHEX.EQ.10) THEN
IHEX=1
ELSE IF(IHEX.EQ.11) THEN
IHEX=2
ENDIF
CALL LCMPUT(IPGEO2,'IHEX',1,1,IHEX)
CALL LCMPUT(IPGEO2,'SIDE',1,2,XX(1))
ENDIF
ELSE
CALL LCMPUT(IPGEO2,'MIX',NMCEL,1,IMAT)
CALL LCMPUT(IPGEO2,'RADIUS',LR+1,2,XX)
IF(ICLS.EQ.1) THEN
ISTATE(1)=3
ELSE IF(ICLS.EQ.2) THEN
ISTATE(1)=20
CALL LCMPUT(IPGEO2,'MESHX',LX+1,2,XXX)
CALL LCMPUT(IPGEO2,'MESHY',LY+1,2,YYY)
ELSE
ISTATE(1)=24
IHEX=9
CALL LCMPUT(IPGEO2,'IHEX',1,1,IHEX)
CALL LCMPUT(IPGEO2,'SIDE',1,2,SIDE)
ENDIF
ENDIF
ISTATE(2)=LR
ISTATE(3)=LX
ISTATE(4)=LY
ISTATE(6)=NMCEL
ISTATE(7)=NMERGE
CALL LCMPUT(IPGEO2,'STATE-VECTOR',NSTATE,1,ISTATE)
HSIGN='L_GEOM'
CALL LCMPTC(IPGEO2,'SIGNATURE',12,HSIGN)
IF(IPRINT.GT.0) THEN
HSIGN='MACRO$GEO'
WRITE (6,510) HSIGN,1,TYPE(ISTATE(1))
IF(IPRINT.GT.1) THEN
WRITE (6,520) ISTATE(1),TYPE(ISTATE(1)),(ISTATE(I),I=2,7)
ENDIF
ENDIF
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(YY,XX)
DEALLOCATE(IBI,NMC,IMAT,IORI,IGEN,INUM)
RETURN
*
500 FORMAT (34HEDIGEO: THE INPUT MIXTURE NUMBER (,I4,12H) IS GREATER,
1 10H THAN IR (,I4,2H ))
510 FORMAT(/39H EDIGEO: CREATION OF A GEOMETRY NAMED ',A12,7H' ON LE,
1 3HVEL,I3,11H WITH TYPE ,A16,1H.)
520 FORMAT(/31H STATE VECTOR (MACRO GEOMETRY):/
1 7H ITYPE ,I6, 4H (,A16,1H)/
2 7H LR ,I6,20H (NUMBER OF TUBES)/
3 7H LX ,I6,22H (X-DIMENSION INDEX)/
4 7H LY ,I6,22H (Y-DIMENSION INDEX)/
5 7H LZ ,I6,22H (Z-DIMENSION INDEX)/
6 7H LREG ,I6,22H (NUMBER OF REGIONS)/
7 7H MAXMIX,I6,25H (MAX. NB. OF MIXTURES)/1X,60(1H-)/)
END
|
