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|
*DECK READEU
SUBROUTINE READEU (MAXPTS,MAXCEL,IPGEOM,IR,MAT,ILK,NMCEL,NMERGE,
1 NGEN,INUM,IGEN,NMBLK,LX,LY,XX,YY,LSECT,RAYRE,NMC,NMCR,IORI,NCODE,
2 ZCODE,IHEX,IMPX)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Recover input data for the description of a 2-D assembly (Eurydice-2).
*
*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/output
* MAXPTS allocated storage for arrays of dimension NREG.
* MAXCEL allocated storage for arrays of dimension NMCEL, NMERGE or
* NGEN.
* IPGEOM pointer to the geometry LCM object (L_GEOM signature).
* IR number of mixtures.
* MAT index-number of the mixture type assigned to each volume.
* ILK leakage flag (ILK=.true. if neutron leakage through external
* boundary is present).
* NMCEL total number of cells in the domain.
* NMERGE total number of merged cells for which specific values
* of the neutron flux and reactions rates are required.
* Many cells with different position in the domain can
* be merged before the neutron flux calculation if they
* own the same generating cell (NMERGE.le.NMCEL).
* NGEN total number of generating cells. A generating cell is
* defined by its material and dimensions, irrespective of
* its position in the domain (NGEN.le.NMERGE).
* INUM index-number of the merged cell associated to each cell.
* IGEN index-number of the generating cell associated with each
* merged cell.
* NMBLK total number of volumes in all the merged cells.
* LX number of cells along the X-axis.
* LY number of cells along the Y-axis.
* XX X-thickness of the generating cells or side of the hexagons.
* YY Y-thickness of the generating cells.
* LSECT type of sectorization:
* =0 no sectorization / specialized treatment;
* =-999 no sectorization / processed as a sectorized cell;
* =-101 X-type sectorization of the coolant;
* =-1 X-type sectorization of the cell;
* =101 +-type sectorization of the coolant;
* =1 +-type sectorization of the cell;
* =102 + and X-type sectorization of the coolant;
* =2 + and X-type sectorization of the cell.
* RAYRE radius of the tubes in the generating cells.
* NMC offsets of the first zone index in each generating cell.
* NMCR offsets of the first radius index in each generating cell.
* IORI orientation of the cells.
* NCODE boundary condition relative to each side of the domain:
* =0 not used; =1 VOID; =2 REFL;
* =3 DIAG; =4: TRAN =5: SYME.
* ZCODE albedo relative to each side of the domain.
* IHEX type of symmetry for hexagonal geometry:
* =0 Cartesian geometry;
* =1 S30; =2 SA60; =3 SB60; =4 S90; =5 R120;
* =6 R180; =7 SA180; =8 SB180; =9 COMPLETE.
* IMPX print flag (equal to 0 for no print).
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPGEOM
INTEGER MAXPTS,MAXCEL,IR,MAT(MAXPTS),NMCEL,NMERGE,NGEN,
1 INUM(MAXCEL),IGEN(MAXCEL),NMBLK,LX,LY,LSECT(MAXCEL),
2 NMC(MAXCEL+1),NMCR(MAXCEL+1),IORI(MAXCEL),NCODE(6),IHEX,IMPX
REAL XX(MAXCEL),YY(MAXCEL),RAYRE(MAXPTS),ZCODE(6)
LOGICAL ILK
*----
* LOCAL VARIABLES
*----
PARAMETER(NSTATE=40)
LOGICAL LL1,LL2,EMPTY,LCM
CHARACTER GEONAM*12,TEXT12*12,HSMG*131
INTEGER ISTATE(NSTATE),ISTAT2(NSTATE),ICODE(6)
*----
* ALLOCATABLE ARRAYS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: MILIE,NBREG,MILIEU
CHARACTER(LEN=12), ALLOCATABLE, DIMENSION(:) :: CELL
REAL, ALLOCATABLE, DIMENSION(:) :: RAYON,XXX,YYY
*----
* SCRATCH STORAGE ALLOCATION
*----
ALLOCATE(MILIE(MAXPTS),NBREG(MAXPTS),MILIEU(MAXPTS),
1 CELL(MAXPTS))
ALLOCATE(RAYON(MAXPTS),XXX(MAXPTS+1),YYY(MAXPTS+1))
*
CALL LCMINF(IPGEOM,GEONAM,TEXT12,EMPTY,ILONG,LCM)
IHEX=0
CALL LCMGET(IPGEOM,'STATE-VECTOR',ISTATE)
IF((ISTATE(1).EQ.8).OR.(ISTATE(1).EQ.24)) THEN
CALL LCMGET(IPGEOM,'IHEX',IHEX)
ENDIF
IF((ISTATE(5).NE.0).OR.((ISTATE(11).NE.0).AND.(ISTATE(1).EQ.5))
1 .OR.((ISTATE(11).NE.0).AND.(ISTATE(1).EQ.8)).OR.(ISTATE(13).NE.0)
2 ) CALL XABORT('READEU: UNABLE TO PROCESS THE GEOMETRY.')
LX=ISTATE(3)
LY=ISTATE(4)
IF(LX.GT.MAXPTS) CALL XABORT('READEU: INSUFFICIENT STORAGE(1).')
IF(LY.GT.MAXPTS) CALL XABORT('READEU: INSUFFICIENT STORAGE(2).')
IF(ISTATE(6).GT.MAXPTS) CALL XABORT('READEU: INSUFFICIENT STORA'
1 //'GE(3).')
*----
* RECOVER THE BOUNDARY CONDITIONS
*----
CALL LCMGET(IPGEOM,'NCODE',NCODE)
CALL LCMGET(IPGEOM,'ZCODE',ZCODE)
CALL LCMGET(IPGEOM,'ICODE',ICODE)
I2=0
DO 10 IC=1,4
IF(ICODE(IC).NE.0) THEN
CALL XABORT('READEU: MACROLIB DEFINED ALBEDOS ARE NOT IMPLEMEN'
1 //'TED.')
ENDIF
IF(NCODE(IC).EQ.10) NCODE(IC)=2
IF(NCODE(IC).EQ.2) ZCODE(IC)=1.0
IF(NCODE(IC).EQ.6) NCODE(IC)=1
IF(NCODE(IC).GE.7) CALL XABORT('READEU: INVALID TYPE OF B.C.')
IF(NCODE(IC).EQ.3) I2=I2+1
10 CONTINUE
IF(NCODE(1).EQ.0) GO TO 550
LL1=.FALSE.
LL2=.FALSE.
IF(IHEX.EQ.0) THEN
IF((NCODE(2).EQ.0).OR.(NCODE(3).EQ.0).OR.(NCODE(4).EQ.0))
1 GO TO 550
NSUPCE=LX*LY
IF(I2.GT.0) THEN
IF(I2.NE.2) GO TO 560
IF(LX.NE.LY) CALL XABORT('READEU: LX=LY WITH A DIAGONAL S'
1 //'YMMETRY.')
NSUPCE=(LX+1)*LX/2
LL1=((NCODE(2).EQ.3).AND.(NCODE(3).EQ.3))
LL2=((NCODE(1).EQ.3).AND.(NCODE(4).EQ.3))
IF((.NOT.LL1).AND.(.NOT.LL2)) GO TO 560
ENDIF
DO 20 IC=1,4,2
IF((NCODE(IC).EQ.4).AND.(NCODE(IC+1).NE.4))
1 CALL XABORT('READEU: THE TRANSLATION CONDITIONS X- TRAN X+'
2 //' TRAN AND Y- TRAN Y+ TRAN ARE THE ONLY PERMITTED.')
20 CONTINUE
ELSE
NSUPCE=LX
IF((NCODE(2).NE.0).OR.(NCODE(3).NE.0).OR.(NCODE(4).NE.0))
1 CALL XABORT('READEU: INVALID TYPE OF HEXAGONAL B.C.')
IF(NCODE(1).EQ.5) THEN
IF(IHEX.EQ.1) THEN
IHEX=10
ELSE IF(IHEX.EQ.2) THEN
IHEX=11
ELSE
CALL XABORT('READEU: BOUNDARY CONDITION HBC WITH OPTION'
1 //' SYME CAN ONLY BE USED WITH OPTION S30 OR SA60.')
ENDIF
ELSE IF(NCODE(1).GT.2) THEN
CALL XABORT('READEU: BOUNDARY CONDITION HBC CAN ONLY BE US'
1 //'ED WITH OPTIONS VOID, REFL, SYME OR ALBE.')
ENDIF
ENDIF
*
NMC(1)=0
NMCR(1)=0
IG=0
IGR=0
IR=0
NMERGE=1
NGEN=1
IF((ISTATE(1).EQ.5).OR.(ISTATE(1).EQ.8)) THEN
NMCEL=ISTATE(6)
IF(NMCEL.GT.MAXPTS) THEN
WRITE(HSMG,'(36HREADEU: INSUFFICIENT STORAGE. NMCEL=,I8,
1 8H MAXPTS=,I8)') NMCEL,MAXPTS
CALL XABORT(HSMG)
ENDIF
DO 30 IKK=1,NMCEL
IGEN(IKK)=0
INUM(IKK)=IKK
IORI(IKK)=1
30 CONTINUE
IF(ISTATE(8).EQ.1) THEN
* MIXED GEOMETRY.
CALL LCMLEN(IPGEOM,'MERGE',ILEN,ITYLCM)
IF(ILEN.GT.0) CALL LCMGET(IPGEOM,'MERGE',INUM)
CALL LCMLEN(IPGEOM,'TURN',ILEN,ITYLCM)
IF(ILEN.GT.0) CALL LCMGET(IPGEOM,'TURN',IORI)
CALL LCMLEN(IPGEOM,'CELL',ILEN,ITYLCM)
CALL LCMGTC(IPGEOM,'CELL',12,ILEN/3,CELL)
CALL LCMGET(IPGEOM,'MIX',NBREG)
DO 36 IKK=1,NMCEL
IF(-NBREG(IKK).LT.0) CALL XABORT('READEU: GENERATING CELL '
1 //'EXPECTED.')
IGEN(INUM(IKK))=-NBREG(IKK)
NGEN=MAX(NGEN,-NBREG(IKK))
NMERGE=MAX(NMERGE,INUM(IKK))
DO 35 JKK=1,NMCEL
IF(INUM(IKK).EQ.INUM(JKK)) THEN
IF(NBREG(IKK).NE.NBREG(JKK)) THEN
WRITE(HSMG,'(38HREADEU: TWO CELLS WITH THE SAME MERGED,
1 46H NUMBER DO NOT HAVE THE SAME GENERATING CELL (,2I7,
2 2H).)') IKK,JKK
CALL XABORT(HSMG)
ENDIF
ENDIF
35 CONTINUE
36 CONTINUE
IF(NGEN.GT.ISTATE(9)) CALL XABORT('READEU: INVALID NUMBER'
1 //' OF SUB GEOMETRIES.')
DO 70 IKG=1,NGEN
TEXT12=CELL(IKG)
CALL LCMLEN(IPGEOM,TEXT12,ILEN,ITYLCM)
IF((ILEN.EQ.0).OR.(ITYLCM.NE.0)) CALL XABORT('READEU: SUB'
1 //' GEOMETRY '//TEXT12//' IS MISSING FROM L_GEOM.')
CALL LCMSIX(IPGEOM,TEXT12,1)
CALL LCMGET(IPGEOM,'STATE-VECTOR',ISTAT2)
IF(ISTAT2(6).GT.MAXPTS) CALL XABORT('READEU: INSUFFICI'
1 //'ENT STORAGE(4).')
ISECTO=ISTAT2(14)
JSECTO=ISTAT2(15)
IF((IHEX.EQ.0).OR.(IHEX.NE.0)) THEN
NZONE=ISTAT2(2)+1
CALL LCMLEN(IPGEOM,'SPLITR',ILENN,ITYLCM)
IF(ILENN.GT.0) THEN
CALL LCMGET(IPGEOM,'SPLITR',NBREG)
ELSE
DO 40 I=1,NZONE
NBREG(I)=1
40 CONTINUE
ENDIF
IF(NZONE.GT.1) CALL LCMGET(IPGEOM,'RADIUS',RAYON)
ELSE IF(((ISTAT2(1).EQ.5).OR.(ISTAT2(1).EQ.8)).AND.
1 (ISTAT2(6).EQ.1)) THEN
NZONE=1
NBREG(1)=1
ELSE
CALL XABORT('READEU: INVALID SUB GEOMETRY.')
ENDIF
LS1=0
LS2=0
NZONES=0
LSECT(IKG)=ISECTO
IF((ISECTO.EQ.0).OR.(ISECTO.EQ.-999)) THEN
* NO SECTORIZATION.
LS1=1
LS2=1
NZONES=NZONE
ELSE IF((IHEX.EQ.0).AND.(ISECTO.EQ.-1).AND.
1 (JSECTO.EQ.0)) THEN
* X-TYPE SECTORIZATION IN CARTESIAN CELL.
LS1=4
LS2=4
NZONES=4*NZONE
ELSE IF((IHEX.EQ.0).AND.(ISECTO.EQ.-1).AND.
1 (JSECTO.EQ.NZONE-1)) THEN
* X-TYPE COOLANT SECTORIZATION IN CARTESIAN CELL.
LSECT(IKG)=-101
LS1=1
LS2=4
NZONES=NZONE+3
ELSE IF((IHEX.EQ.0).AND.(ISECTO.EQ.1).AND.
1 (JSECTO.EQ.0)) THEN
* +-TYPE SECTORIZATION IN CARTESIAN CELL.
LS1=4
LS2=4
NZONES=4*NZONE
ELSE IF((IHEX.EQ.0).AND.(ISECTO.EQ.1).AND.
1 (JSECTO.EQ.NZONE-1)) THEN
* +-TYPE COOLANT SECTORIZATION IN CARTESIAN CELL.
LSECT(IKG)=101
LS1=1
LS2=4
NZONES=NZONE+3
ELSE IF((IHEX.EQ.0).AND.(ISECTO.EQ.2).AND.
1 (JSECTO.EQ.0)) THEN
* +-TYPE SECTORIZATION IN CARTESIAN CELL.
LS1=8
LS2=8
NZONES=8*NZONE
ELSE IF((IHEX.EQ.0).AND.(ISECTO.EQ.2).AND.
1 (JSECTO.EQ.NZONE-1)) THEN
* +-TYPE COOLANT SECTORIZATION IN CARTESIAN CELL.
LSECT(IKG)=102
LS1=1
LS2=8
NZONES=NZONE+7
ELSE IF((IHEX.GT.0).AND.(ISECTO.EQ.-1).AND.
1 (JSECTO.EQ.0)) THEN
* X-TYPE SECTORIZATION IN HEXAGONAL CELL.
LS1=6
LS2=6
NZONES=6*NZONE
ELSE IF((IHEX.GT.0).AND.(ISECTO.EQ.-1).AND.
1 (JSECTO.EQ.NZONE-1)) THEN
* X-TYPE COOLANT SECTORIZATION IN HEXAGONAL CELL.
LSECT(IKG)=-101
LS1=1
LS2=6
NZONES=NZONE+5
ELSE
CALL XABORT('READEU: INVALID TYPE OF SECTORIZATION.')
ENDIF
IF(NZONES.GT.MAXPTS) CALL XABORT('READEU: MAXPTS OVERFLOW.')
CALL LCMLEN(IPGEOM,'MIX',ILENG,ITYLCM)
IF(ILENG.NE.NZONES) CALL XABORT('READEU: BAD MIX LENGTH.')
CALL LCMGET(IPGEOM,'MIX',MILIEU)
IF(IHEX.EQ.0) THEN
CALL LCMGET(IPGEOM,'MESHX',XXX)
CALL LCMGET(IPGEOM,'MESHY',YYY)
ELSE
CALL LCMGET(IPGEOM,'SIDE',SIDE)
ENDIF
CALL LCMSIX(IPGEOM,' ',2)
*
RJ=0.0
RAYRE(IGR+1)=0.0
DO 60 I=1,NZONE-1
IF(RAYON(I+1).LE.RJ) GO TO 520
PAS=(RAYON(I+1)-RJ)/REAL(ABS(NBREG(I)))
IF(NBREG(I).LT.0) PAS=PAS*(RAYON(I+1)+RJ)
DO 50 J=1,ABS(NBREG(I))
IGR=IGR+1
DO 45 ISEC=1,LS1
IG=IG+1
IF(IG.GT.MAXPTS) THEN
WRITE(HSMG,'(28HREADEU: INCREASE MAXPTS FROM,I7,3H TO,
1 I7,5H (1).)') MAXPTS,IG
CALL XABORT(HSMG)
ENDIF
MILIE(IG)=MILIEU((I-1)*LS1+ISEC)
IR=MAX(IR,MILIE(IG))
45 CONTINUE
IF(NBREG(I).GT.0) THEN
RJ=RJ+PAS
ELSE
RJ=SQRT(RJ*RJ+PAS)
ENDIF
RAYRE(IGR+1)=RJ
50 CONTINUE
RJ=RAYON(I+1)
60 CONTINUE
IGR=IGR+1
DO 65 ISEC=1,LS2
IG=IG+1
IF(IG.GT.MAXPTS) THEN
WRITE(HSMG,'(28HREADEU: INCREASE MAXPTS FROM,I7,3H TO,
1 I7,5H (2).)') MAXPTS,IG
CALL XABORT(HSMG)
ENDIF
MILIE(IG)=MILIEU((NZONE-1)*LS1+ISEC)
IR=MAX(IR,MILIE(IG))
65 CONTINUE
IF(IHEX.EQ.0) THEN
XX(IKG)=XXX(2)-XXX(1)
YY(IKG)=YYY(2)-YYY(1)
TEST=2.0*RAYRE(IGR)
IF(SQRT(XX(IKG)**2+YY(IKG)**2).LE.TEST) GO TO 520
ELSE
XX(IKG)=SIDE
YY(IKG)=0.0
IF(SIDE.LE.RAYRE(IGR)) GO TO 520
ENDIF
NMC(IKG+1)=IG
NMCR(IKG+1)=IGR
70 CONTINUE
* COMPUTE THE MIXTURE NUMBERS IN THE MERGED CELLS.
NMBLK=0
DO 90 IKK=1,NMERGE
IKG=IGEN(IKK)
IF(IKG.EQ.0) THEN
WRITE(HSMG,'(14HREADEU: VOLUME,I5,16H NOT DEFINED(1).)')
1 IKK
CALL XABORT(HSMG)
ENDIF
I1=NMC(IKG)
I2=NMC(IKG+1)-I1
IF(NMBLK+I2.GT.MAXPTS) THEN
WRITE(HSMG,'(28HREADEU: INCREASE MAXPTS FROM,I7,3H TO,
1 I7,5H (3).)') MAXPTS,NMBLK+I2
CALL XABORT(HSMG)
ENDIF
DO 80 I=1,I2
MAT(NMBLK+I)=MILIE(I1+I)
80 CONTINUE
NMBLK=NMBLK+I2
90 CONTINUE
ELSE IF(IHEX.EQ.0) THEN
* PURE CARTESIAN GEOMETRY.
CALL LCMGET(IPGEOM,'MIX',MILIEU)
DO 100 I=1,NMCEL
MAT(INUM(I))=MILIEU(I)
100 CONTINUE
CALL LCMGET(IPGEOM,'MESHX',XXX)
IF(LL1.OR.LL2) THEN
CALL LCMGET(IPGEOM,'MESHX',YYY)
ELSE
CALL LCMGET(IPGEOM,'MESHY',YYY)
ENDIF
NGEN=0
IBLK=0
DO 125 K1=1,LY
LXM=1
LXP=LX
IF(LL1) LXP=K1
IF(LL2) LXM=K1
DO 120 K2=LXM,LXP
IBLK=IBLK+1
IF(MAT(INUM(IBLK)).EQ.0) GO TO 120
IKK=INUM(IBLK)
NMERGE=MAX(NMERGE,IKK)
A=XXX(K2+1)-XXX(K2)
B=YYY(K1+1)-YYY(K1)
DO 110 JBLK=1,IBLK-1
JKG=IGEN(INUM(JBLK))
IF(MAT(INUM(IBLK)).EQ.MAT(INUM(JBLK))) THEN
IF((A.EQ.XX(JKG)).AND.(B.EQ.YY(JKG))) THEN
IGEN(IKK)=JKG
GO TO 120
ELSE IF((B.EQ.XX(JKG)).AND.(A.EQ.YY(JKG))) THEN
IGEN(IKK)=JKG
IORI(IBLK)=2
GO TO 120
ENDIF
ENDIF
110 CONTINUE
NGEN=NGEN+1
IGEN(IKK)=NGEN
XX(NGEN)=A
YY(NGEN)=B
LSECT(NGEN)=0
NMC(NGEN+1)=NMC(NGEN)+1
NMCR(NGEN+1)=NMCR(NGEN)+1
RAYRE(NGEN)=0.0
120 CONTINUE
125 CONTINUE
NMBLK=NMERGE
ELSE IF(IHEX.GT.0) THEN
* PURE HEXAGONAL GEOMETRY.
CALL LCMGET(IPGEOM,'MIX',MILIEU)
DO 130 I=1,NMCEL
MAT(INUM(I))=MILIEU(I)
130 CONTINUE
CALL LCMGET(IPGEOM,'SIDE',SIDE)
NGEN=0
DO 140 IBLK=1,LX
IF(MAT(INUM(IBLK)).EQ.0) GO TO 140
IKK=INUM(IBLK)
NMERGE=MAX(NMERGE,IKK)
DO 135 JBLK=1,IBLK-1
IF(MAT(INUM(IBLK)).EQ.MAT(INUM(JBLK))) THEN
IGEN(IKK)=IGEN(INUM(JBLK))
GO TO 140
ENDIF
135 CONTINUE
NGEN=NGEN+1
IGEN(IKK)=NGEN
XX(NGEN)=SIDE
YY(NGEN)=0.0
LSECT(NGEN)=0
NMC(NGEN+1)=NMC(NGEN)+1
NMCR(NGEN+1)=NMCR(NGEN)+1
RAYRE(NGEN)=0.0
140 CONTINUE
NMBLK=NMERGE
ENDIF
ELSE IF((ISTATE(1).EQ.20).OR.(ISTATE(1).EQ.24)) THEN
NZONE=ISTATE(2)+1
ISECTO=ISTATE(14)
JSECTO=ISTATE(15)
NMCEL=1
IGEN(1)=1
INUM(1)=1
IORI(1)=1
CALL LCMLEN(IPGEOM,'SPLITR',ILENN,ITYLCM)
IF(ILENN.GT.0) THEN
CALL LCMGET(IPGEOM,'SPLITR',NBREG)
ELSE
DO 150 I=1,NZONE
NBREG(I)=1
150 CONTINUE
ENDIF
IF(NZONE.GT.1) CALL LCMGET(IPGEOM,'RADIUS',RAYON)
LS1=0
LS2=0
NZONES=0
LSECT(1)=ISECTO
IF((ISECTO.EQ.0).OR.(ISECTO.EQ.-999)) THEN
* NO SECTORIZATION.
LS1=1
LS2=1
NZONES=NZONE
ELSE IF((IHEX.EQ.0).AND.(ISECTO.EQ.-1).AND.(JSECTO.EQ.0)) THEN
* X-TYPE SECTORIZATION IN CARTESIAN CELL.
LS1=4
LS2=4
NZONES=4*NZONE
ELSE IF((IHEX.EQ.0).AND.(ISECTO.EQ.-1).AND.
1 (JSECTO.EQ.NZONE-1)) THEN
* X-TYPE COOLANT SECTORIZATION IN CARTESIAN CELL.
LSECT(1)=-101
LS1=1
LS2=4
NZONES=NZONE+3
ELSE IF((IHEX.EQ.0).AND.(ISECTO.EQ.1).AND.(JSECTO.EQ.0)) THEN
* +-TYPE SECTORIZATION IN CARTESIAN CELL.
LS1=4
LS2=4
NZONES=4*NZONE
ELSE IF((IHEX.EQ.0).AND.(ISECTO.EQ.1).AND.
1 (JSECTO.EQ.NZONE-1)) THEN
* +-TYPE COOLANT SECTORIZATION IN CARTESIAN CELL.
LSECT(1)=101
LS1=1
LS2=4
NZONES=NZONE+3
ELSE IF((IHEX.EQ.0).AND.(ISECTO.EQ.2).AND.(JSECTO.EQ.0)) THEN
* +-TYPE SECTORIZATION IN CARTESIAN CELL.
LS1=8
LS2=8
NZONES=8*NZONE
ELSE IF((IHEX.EQ.0).AND.(ISECTO.EQ.2).AND.
1 (JSECTO.EQ.NZONE-1)) THEN
* +-TYPE COOLANT SECTORIZATION IN CARTESIAN CELL.
LSECT(1)=102
LS1=1
LS2=8
NZONES=NZONE+7
ELSE IF((IHEX.GT.0).AND.(ISECTO.EQ.-1).AND.(JSECTO.EQ.0)) THEN
* X-TYPE SECTORIZATION IN HEXAGONAL CELL.
LS1=6
LS2=6
NZONES=6*NZONE
ELSE IF((IHEX.GT.0).AND.(ISECTO.EQ.-1).AND.
1 (JSECTO.EQ.NZONE-1)) THEN
* X-TYPE COOLANT SECTORIZATION IN HEXAGONAL CELL.
LSECT(1)=-101
LS1=1
LS2=6
NZONES=NZONE+5
ELSE
CALL XABORT('READEU: INVALID TYPE OF SECTORIZATION(2).')
ENDIF
IF(NZONES.GT.MAXPTS) CALL XABORT('READEU: MAXPTS OVERFLOW(2).')
CALL LCMLEN(IPGEOM,'MIX',ILENG,ITYLCM)
IF(ILENG.NE.NZONES) CALL XABORT('READEU: BAD MIX LENGTH(2).')
CALL LCMGET(IPGEOM,'MIX',MILIEU)
IF(IHEX.EQ.0) THEN
CALL LCMGET(IPGEOM,'MESHX',XXX)
CALL LCMGET(IPGEOM,'MESHY',YYY)
ELSE
CALL LCMGET(IPGEOM,'SIDE',SIDE)
ENDIF
*
RJ=0.0
RAYRE(1)=0.0
DO 170 I=1,NZONE-1
IF(RAYON(I+1).LE.RJ) GO TO 520
PAS=(RAYON(I+1)-RJ)/REAL(ABS(NBREG(I)))
IF(NBREG(I).LT.0) PAS=PAS*(RAYON(I+1)+RJ)
DO 160 J=1,ABS(NBREG(I))
IGR=IGR+1
DO 155 ISEC=1,LS1
IG=IG+1
IF(IG.GT.MAXPTS) THEN
WRITE(HSMG,'(28HREADEU: INCREASE MAXPTS FROM,I7,3H TO,
1 I7,5H (4).)') MAXPTS,IG
CALL XABORT(HSMG)
ENDIF
MAT(IG)=MILIEU((I-1)*LS1+ISEC)
IR=MAX(IR,MAT(IG))
155 CONTINUE
IF(NBREG(I).GT.0) THEN
RJ=RJ+PAS
ELSE
RJ=SQRT(RJ*RJ+PAS)
ENDIF
RAYRE(IGR+1)=RJ
160 CONTINUE
RJ=RAYON(I+1)
170 CONTINUE
IGR=IGR+1
DO 180 ISEC=1,LS2
IG=IG+1
IF(IG.GT.MAXPTS) THEN
WRITE(HSMG,'(28HREADEU: INCREASE MAXPTS FROM,I7,3H TO,
1 I7,5H (5).)') MAXPTS,IG
CALL XABORT(HSMG)
ENDIF
MAT(IG)=MILIEU((NZONE-1)*LS1+ISEC)
IR=MAX(IR,MAT(IG))
180 CONTINUE
IF(IHEX.EQ.0) THEN
XX(1)=XXX(2)-XXX(1)
YY(1)=YYY(2)-YYY(1)
TEST=2.0*RAYRE(IGR)
IF(SQRT(XX(1)**2+YY(1)**2).LE.TEST) GO TO 520
ELSE
XX(1)=SIDE
YY(1)=0.0
IF(SIDE.LE.RAYRE(IGR)) GO TO 520
ENDIF
NMC(2)=IG
NMCR(2)=IGR
NMBLK=IG
ELSE
CALL XABORT('READEU: INVALID PRIMARY GEOMETRY.')
ENDIF
IF(NSUPCE.NE.NMCEL) CALL XABORT('READEU: THE CALCULATED NUMBER O'
1 //'F CELLS IS INCONSISTENT.')
*
ILK=((NCODE(1).EQ.1).AND.(ZCODE(1).NE.1.0)).OR.
1 ((NCODE(2).EQ.1).AND.(ZCODE(2).NE.1.0)).OR.
2 ((NCODE(3).EQ.1).AND.(ZCODE(3).NE.1.0)).OR.
3 ((NCODE(4).EQ.1).AND.(ZCODE(4).NE.1.0))
IF(IMPX.GT.0) THEN
IF(IHEX.EQ.0) THEN
WRITE (6,'(/43H CARTESIAN MULTICELL OPTION (EURYDICE-2) BA,
1 28HSED ON GEOMETRY LOCATED IN '',A12,2H''./)') GEONAM
ELSE
WRITE (6,'(/43H HEXAGONAL MULTICELL OPTION (EURYDICE-2) BA,
1 28HSED ON GEOMETRY LOCATED IN '',A12,2H''./)') GEONAM
ENDIF
IF(IHEX.EQ.0) THEN
WRITE (6,670) LX,LY,MAXPTS,NMBLK,IR
ELSE
WRITE (6,680) LX,MAXPTS,NMBLK,IR
ENDIF
WRITE (6,630)
DO 190 IKG=1,NGEN
IF((ISTATE(1).EQ.20).OR.(ISTATE(1).EQ.24)) THEN
TEXT12=GEONAM
ELSE IF(ISTATE(8).EQ.1) THEN
TEXT12=CELL(IKG)
ELSE
WRITE (TEXT12,'(4HCELL,I5)') IKG
ENDIF
I1=NMCR(IKG)+1
I2=NMCR(IKG+1)
IF(I1.EQ.I2) THEN
IF(IHEX.EQ.0) THEN
WRITE (6,660) IKG,TEXT12,XX(IKG),YY(IKG)
ELSE
WRITE (6,665) IKG,TEXT12,XX(IKG)
ENDIF
ELSE
WRITE (6,640) IKG,TEXT12,(RAYRE(I),I=I1,I2)
IF(IHEX.EQ.0) THEN
WRITE (6,650) XX(IKG),YY(IKG)
ELSE
WRITE (6,655) XX(IKG)
ENDIF
ENDIF
190 CONTINUE
WRITE (6,'(/)')
IF(.NOT.ILK) WRITE (6,'(17H INFINITE DOMAIN./)')
ENDIF
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(YYY,XXX,RAYON)
DEALLOCATE(CELL,MILIEU,NBREG,MILIE)
RETURN
*
520 CALL XABORT('READEU: RADIUS ARE INCONSISTENTS.')
550 CALL XABORT('READEU: A BOUNDARY CONDITION IS MISSING.')
560 CALL XABORT('READEU: THE DIAGONAL CONDITIONS X+ DIAG Y- DIAG AND'
1 //' X- DIAG Y+ DIAG ARE THE ONLY PERMITTED.')
*
630 FORMAT (/5X,24HGENERATING CELL RADIUS)
640 FORMAT (/1X,I4,2H ',A12,3H' ,1P,9E12.5/(22X,9E12.5))
650 FORMAT (23X,3HA =,1P,E12.5,6H B =,E12.5)
655 FORMAT (23X,6HSIDE =,1P,E12.5)
660 FORMAT (/1X,I4,2H ',A12,1H',3X,3HA =,1P,E12.5,6H B =,E12.5)
665 FORMAT (/1X,I4,2H ',A12,1H',3X,6HSIDE =,1P,E12.5)
670 FORMAT (/35H NUMBER OF CELLS ALONG THE X-AXIS =,I4/17X,
1 18HALONG THE Y-AXIS =,I4,5X,26HAVAILABLE STORAGE MAXPTS =,I4/
2 27H NUMBER OF MERGED VOLUMES =,I5/
3 39H NUMBER OF DISTINCT PHYSICAL MIXTURES =,I5/)
680 FORMAT (/34H NUMBER OF HEXAGONS IN ONE PLANE =,I4,5X,9HAVAILABLE,
1 17H STORAGE MAXPTS =,I4/27H NUMBER OF MERGED VOLUMES =,I5/
2 39H NUMBER OF DISTINCT PHYSICAL MIXTURES =,I5/)
END
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