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|
*DECK MESHST
SUBROUTINE MESHST(IPTRK,IPGEOM,REMESH,FVOL,STAIRS,FACST,NCEL,
> IPLANZ,ISTATE,NCYL,NSECT,NCPHY,VOLSUR,MATALB,SIDE,NCOUR,
> NSMIN,NSMAX,NS,FACB,NVOL,SURB,VSYM,SSYM,IHEX,LXI,NV,MCODE,
> SURL,IPLANI,VLAT,ZMIN)
*
*-----------------------------------------------------------------------
*
*Purpose:
* General numbering of hexagonal assembly.
*
*Copyright:
* Copyright (C) 1991 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): M. Ouisloumen
*
*Parameters: input
* MCODE =1 for Z- symmetry; =2 for Z+ symmetry; =0 otherwise.
*
*Parameters: input/output
* REMESH coordinates of geometry.
* FVOL first zone number.
* NVOL first volume number.
* STAIRS see TRKHEX.
* FACST see TRKHEX.
* NCEL number of cells.
* NSECT number of sectors in region.
* NCYL number of cylinders in cell.
* NCPHY number of physical cells.
* VOLSUR volumes and external surfaces
* MATALB material albedo vector.
* FACB first face number.
* SURB first cell number.
* VSYM initial geometry volumes.
* SSYM initial geometry surfaces.
* IPTRK undefined.
* IPGEOM undefined.
* IPLANZ undefined.
* ISTATE undefined.
* SIDE undefined.
* NCOUR undefined.
* NSMIN undefined.
* NSMAX undefined.
* NS undefined.
* IHEX undefined.
* LXI undefined.
* NV undefined.
* SURL undefined.
* IPLANI undefined.
* VLAT undefined.
* ZMIN undefined.
*
*-----------------------------------------------------------------------
*
USE GANLIB
IMPLICIT NONE
INTEGER NSTATE
REAL PI,SQRT3
PARAMETER (NSTATE=40)
PARAMETER (PI=3.141592653589793,SQRT3=1.732050807568877)
TYPE(C_PTR) IPTRK,IPGEOM
INTEGER NCEL,IPLANZ,NCPHY,NCOUR,IHEX,LXI,NV,MCODE,IPLANI
INTEGER FVOL(NCEL),STAIRS(IPLANZ),FACST(IPLANZ),
> ISTATE(NSTATE),MATALB(*),NVOL(*),NSMIN,NSMAX,NS,
> NSECT(*),NCYL(NCEL),FACB(*),SURB(*),
> VSYM(*),SSYM(*),SURL(*),VLAT(*)
REAL REMESH(*),VOLSUR(*),SIDE,ZMIN
*----
* LOCAL VARIABLES
*----
CHARACTER TEXT12*12
LOGICAL LGCELL,L1CELL,LGSS,LGTURN,LG3D,LGPASS,LSPLIT,LGMERG
REAL POIDSH
INTEGER IFONC,IFCOUR,N,L
INTEGER NEIGHB
INTEGER LLL,KSS,LX,LZ,ISTAT9,NDIM,LZZ,ILENT,ITP,ICEL2,
> I,ICEL0,NCOUS,ICOU,KCEL,LCEL,ILENZ,IAZ,K,IAUX,
> ISURFP,ISURF,ISAUX,JSUR,ISF,IPOINT,KREG,KSURF1,
> KSURF2,NSURF1,NSURF2,ISUR,ITC,ILENR,MDR,IOFS,
> NRAY,ILENSP,MADD,J,ISEC,LSECT,MIXF,
> IFVOL,NZONE,MVOL,JVOL,IVOL,ISURB,JSURB,IST,IY,KZAUX,
> NAUX,MIXX,JSP,KBB,JJ,IV,IS,ILENS,ITS,IC,KMIX,NMIX,
> IXZPL,KXI,NXI,LFF,LZF,ISTO,ISS1,IMERMX,ISZ,
> IFRT,IMER0,IMER1,ISX,IMERG,JMERG,MMCYL,IZON,IFF,
> ILENM,ISS,ICEL
INTEGER JSECT,LL,IZZ,KY,IMMS,IBSS,IFR0,IXX,ICCOIN,KCCOIN,
> MROT,NCPER,ISURSY,MSMAX,ISSXX,IPPZ,IPP1,IXP,JCCOIN,
> JP,MXI,IP,ISURB6,ITT9,ISURSX,KSURBX,K1,ICX,ICY,ICZ,
> IDEBX,NBASE,ICELC0,ICELC1,NCC,MCYL,NZONE1,IA,
> NSECTO,IV1,JVT,IVTURN,ITURN,KAUX,KVOL1,KVOL2,
> KSECTX,NZZ,ICXX,ICELC,ICLIM,IXX0,ISS0,JSS0,M,ISS2,
> IJSUR,KKB,IXV,LFROT,IVFIN,IVORIN,IVMIN,IVSYM,NZON,
> IVAUX,IVMAX,IVOR,IVV,IVSYM0,IVV1,KVV,KVOR,ISY,MSAUX,
> IVLMAX,NSAUX,IPPX,ISYAUX,LSMAX,LSPLZM,IDDX,KX2,KSECT
INTEGER KX1,KXP,IDEB,IYAUX,II,KSAUX,IVLAT,JTX,IX1,JX,IFR,IW,
> JW,MSUR,MCPHY,ISYX,LSPLZP
REAL VEX,X,Y,XM,YM,XP,YP,YPP,ZAUX,ZBUX,Z,SURF,R1,R2,PAS,
> VOLUM1,VOLUM2,R,VOLUME,VOLUMS,VCYL,SAUX,XTAN,SAUX1
*----
* ALLOCATABLE ARRAYS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: VTURN,PHTURN,VOL1,ISECT,MXX,
+ IMX,IMX2,ISSS,IMIX,IPSECT,ICC,ICELL,KNUM,NUMG,ITRN,ISPZ,KVOL,IBB,
+ ITT,IAA
INTEGER, ALLOCATABLE, DIMENSION(:,:) :: ISXY
REAL, ALLOCATABLE, DIMENSION(:) :: ZZZ,RAY,KRAY,RR
TYPE PP
REAL, POINTER, DIMENSION(:) :: R
INTEGER, POINTER, DIMENSION(:) :: I1,I2
END TYPE PP
TYPE(PP), ALLOCATABLE, DIMENSION(:) :: IOF
*----
* DATA
*----
INTEGER ROT(12)
SAVE ROT
DATA ROT /2,3,4,5,6,1,6,1,2,3,4,5/
*
* STATEMENT FUNCTIONS
*----
IFONC(N,L)= 2+(N-1)*(L+3*(N-2))
IFCOUR(N)=NINT( (4.+SQRT(1.+4.*FLOAT(N-1)/3.)
+ +SQRT(1.+4.*FLOAT(N-2)/3.))*.25)
*----
* SCRATCH STORAGE ALLOCATION
*----
ALLOCATE(VOL1(NCPHY),VTURN(NCPHY),PHTURN(NCPHY))
*
LZ=ISTATE(5)
LX=ISTATE(3)
ISTAT9=ISTATE(9)
LGCELL=.FALSE.
L1CELL=.FALSE.
LGSS=.FALSE.
LGTURN=.FALSE.
LG3D=.FALSE.
IF(ISTATE(8).EQ.1) LGCELL=.TRUE.
NDIM=2
LZZ=1
L1CELL=(LX.EQ.1)
IF(LZ.GT.0) THEN
NDIM=3
LG3D=.TRUE.
LZZ=LZ
L1CELL=(LX*LZ.EQ.1)
ENDIF
VEX=1.5*SQRT(3.)*SIDE*SIDE
CALL LCMLEN(IPGEOM,'TURN',ILENT,ITP)
IF(ILENT.GT.0) LGTURN=.TRUE.
NCOUR=1
IF(LX.GT.1)NCOUR=IFCOUR(LX)
*
* COORDONNEES DES CENTRES DES HEXAGONES
*
X=0.
Y=0.
XM=0.
YM=0.
YP=0.
XP=0.
ICEL=1
18 REMESH(ICEL)=X
REMESH(NCEL+ICEL)=Y
ICEL2=NEIGHB(ICEL,2,9,LX,POIDSH)
IF(ICEL2.GT.LX) GOTO 20
ICEL=ICEL2
Y=Y+SIDE*SQRT3
GO TO 18
20 ICEL=1
Y=0
21 ICEL2=NEIGHB(ICEL,5,9,LX,POIDSH)
IF(ICEL2.GT.LX) GOTO 22
ICEL=ICEL2
REMESH(ICEL)=X
Y=Y-SIDE*SQRT3
REMESH(NCEL+ICEL)=Y
GOTO 21
22 CONTINUE
DO 30 I=2,NCOUR
LGPASS=.FALSE.
XP=XP+1.5*SIDE
YP=YP+.5*SIDE*SQRT3
ICEL=IFONC(I,0)
ICEL0=ICEL
X=XP
Y=YP
YPP=YP
23 REMESH(ICEL)=X
REMESH(NCEL+ICEL)=Y
ICEL2=NEIGHB(ICEL,2,9,LX,POIDSH)
IF(ICEL2.GT.LX) GOTO 25
Y=Y+SIDE*SQRT3
ICEL=ICEL2
GO TO 23
25 ICEL=ICEL0
Y=YP
26 ICEL2=NEIGHB(ICEL,5,9,LX,POIDSH)
IF(ICEL2.GT.LX) GOTO 27
Y=Y-SIDE*SQRT3
ICEL=ICEL2
REMESH(ICEL)=X
REMESH(NCEL+ICEL)=Y
GOTO 26
27 IF(LGPASS) GOTO 28
XM=XM-1.5*SIDE
YM=YM+.5*SIDE*SQRT3
YPP=YM
ICEL=IFONC(I,2)
ICEL0=ICEL
X=XM
Y=YM
LGPASS=.TRUE.
GO TO 23
28 CONTINUE
30 CONTINUE
*
* POUR EVITER DES EFFETS DE DIFFERENCE
*
NCOUS=7
DO 31 ICOU=3,NCOUR,2
KCEL=IFONC(ICOU,0)+6*ICOU-NCOUS
LCEL=KCEL-3*(ICOU-1)
REMESH(NCEL+KCEL)=0.
REMESH(NCEL+LCEL)=0.
NCOUS=NCOUS+1
31 CONTINUE
STAIRS(1)=LX
IF(LG3D) THEN
CALL LCMSIX(IPTRK,'DATA_DUP',1)
CALL LCMLEN(IPTRK,'MESHZ',ILENZ,ITP)
IF(ILENZ.NE.LZZ+1)CALL XABORT('MESHST: MISSING DIMENSION MESHZ')
ALLOCATE(ZZZ(ILENZ))
CALL LCMGET(IPTRK,'MESHZ',ZZZ)
CALL LCMSIX(IPTRK,' ',2)
*
*--- TEST SUR L'ORDONANCE DES PLANS DES CELLULES SUIVANT L'AXE Z
*
ZAUX=ZZZ(1)
ZMIN=ZAUX
DO 29 IAZ=1,ILENZ-1
ZBUX=ZZZ(IAZ+1)
IF(ZAUX.GE.ZBUX)CALL XABORT('MESHST: WRONG CELLS PLAN POSITION')
ZAUX=ZBUX
29 CONTINUE
Z=ZZZ(2)
DO 32 K=1,LX
REMESH(2*NCEL+K)=Z
32 CONTINUE
IAUX=0
DO 35 I=2,LZ
STAIRS(I)=I*LX
Z=ZZZ(I+1)
DO 33 K=1,LX
IAUX=IAUX+1
REMESH(LX+IAUX)=REMESH(K)
REMESH(NCEL+LX+IAUX)=REMESH(NCEL+K)
REMESH(2*NCEL+LX+IAUX)=Z
33 CONTINUE
35 CONTINUE
ENDIF
*
* CALCUL DES SURFACES EXTERNES ET AFFECTATION DES ALBEDOS
*
ISURFP=6
IF(NCOUR.GT.1)ISURFP=6*(3+2*(NCOUR-2))
ISS=1
ISURF=NS
ISAUX=ISURF
IF(LG3D) THEN
ISAUX=ISURF-NSMAX
ISS=NSMIN+1
DO 70 I=1,NSMIN
MATALB(I)=-6
70 CONTINUE
DO 71 I=1,NSMAX
MATALB(ISAUX+I)=-5
71 CONTINUE
ENDIF
DO 75 I=ISS,ISAUX
MATALB(I)=-1
75 CONTINUE
JSUR=NS-NSMAX+1
DO 80 K=1,LZZ
ISF=ISS+ISURFP-1
SURF=SIDE
FACST(K)=ISF
ISS=ISF+1
80 CONTINUE
IPOINT=2*NCEL
IF(LG3D) THEN
IPOINT=3*NCEL
ENDIF
*
KREG=ISURF+1
VOLSUR(KREG)=0.
MATALB(KREG)=0
KSURF1=0
KSURF2=ISAUX
NSURF1=NSMIN+1
NSURF2=NS+1
ISUR=0
Z=0.0
KSECT=0
IF(L1CELL) THEN
*
* CAS D'UNE SEULE CELLULE
*
CALL LCMLEN(IPGEOM,'SECTOR',ILENS,ITC)
CALL LCMLEN(IPGEOM,'RADIUS',ILENR,ITP)
MDR=ILENR
IF(ILENR.EQ.0) MDR=1
ALLOCATE(ISECT(MDR),MXX(MDR))
CALL LCMLEN(IPGEOM,'MIX',ILENM,ITP)
IF(ILENS.GT.0) THEN
IF(ILENS.NE.MDR) CALL XABORT('MESHST: INCONSISTENT LENGTHS(1'
+ //').')
CALL LCMGET(IPGEOM,'SECTOR',ISECT)
K=0
DO J=1,MDR
K=K+6*(ISECT(J)-1)
ENDDO
IF(K.NE.ILENM) THEN
CALL XABORT('MESHST: SECTOR-DEFINED MIX INDICES EXPECTED(1'
+ //').')
ENDIF
ALLOCATE(IMX2(ILENM))
CALL LCMGET(IPGEOM,'MIX',IMX2)
IOFS=0
DO J=1,MDR
IOFS=IOFS+1
MXX(J)=IMX2(IOFS)
DO K=2,6*(ISECT(J)-1)
IOFS=IOFS+1
IF(IMX2(IOFS).NE.MXX(J)) THEN
CALL XABORT('MESHST: SECTOR-DEPENDENT MIX NOT IM'
+ //'PLEMENTED(1).')
ENDIF
ENDDO
ENDDO
DEALLOCATE(IMX2)
ELSE
IF(ILENM.NE.MDR) CALL XABORT('MESHST: INCONSISTENT LENGTHS(2'
+ //').')
CALL LCMGET(IPGEOM,'MIX',MXX)
ISECT(:MDR)=1
ENDIF
IF(ILENR.GT.0) THEN
ALLOCATE(RAY(ILENR))
CALL LCMGET(IPGEOM,'RADIUS',RAY)
CALL LCMLEN(IPGEOM,'SPLITR',ILENSP,ITP)
IF(ILENSP.GT.0) THEN
IF(ITP.NE.1.OR.ILENSP.NE.ILENR-1)
+ CALL XABORT('MESHST: '//
+ 'MISSING TYPE OR DIMENSION OF SPLITR')
ALLOCATE(ISSS(ILENSP))
CALL LCMGET(IPGEOM,'SPLITR',ISSS)
NRAY=0
DO 101 I=1,ILENSP
NRAY=NRAY+ABS(ISSS(I))
101 CONTINUE
ALLOCATE(KRAY(NRAY+1),IMIX(NRAY+1),IPSECT(NRAY+1))
R1=0.0
MADD=-1
KRAY(1)=0.0
DO 103 J=1,ILENSP
ISEC=ISSS(J)
LSECT=ISECT(J)
MIXF=MXX(J)
IF(ISEC.EQ.0)CALL XABORT('MESHST: INVALID SPLITR')
IF(ISEC.GT.0) THEN
R2=RAY(J+1)
PAS=(R2-R1)/FLOAT(ISEC)
DO 111 K=1,ISEC
MADD=MADD+1
KRAY(MADD+2)=R1+PAS*FLOAT(K)
IMIX(MADD+1)=MIXF
IPSECT(MADD+1)=LSECT
111 CONTINUE
R1=R2
ELSE
R2=RAY(J+1)
R1=R1**2
R2=R2**2
PAS=(R2-R1)/FLOAT(-ISEC)
DO 112 K=1,-ISEC
MADD=MADD+1
KRAY(MADD+2)=SQRT(R1+PAS*FLOAT(K))
IMIX(MADD+1)=MIXF
IPSECT(MADD+1)=LSECT
112 CONTINUE
R1=SQRT(R2)
ENDIF
103 CONTINUE
IMIX(NRAY+1)=MXX(ILENR)
IPSECT(NRAY+1)=ISECT(ILENR)
DEALLOCATE(MXX,ISSS,ISECT)
ALLOCATE(ISECT(NRAY+1))
DO 104 J=1,NRAY+1
ISECT(J)=IPSECT(J)
104 CONTINUE
DEALLOCATE(IPSECT)
ELSE
NRAY=ILENR-1
ALLOCATE(IMIX(NRAY+1),KRAY(NRAY+1))
DO 105 J=1,NRAY+1
IMIX(J)=MXX(J)
KRAY(J)=RAY(J)
105 CONTINUE
ENDIF
DEALLOCATE(MXX,RAY)
ELSE
ALLOCATE(IMIX(MDR))
DO 106 J=1,MDR
IMIX(J)=MXX(J)
106 CONTINUE
DEALLOCATE(MXX)
NRAY=0
ENDIF
IAUX=2
IF(LG3D)IAUX=3*NCEL
IFVOL=0
NZONE=NRAY+1
MVOL=0
JVOL=1
IVOL=0
ISURB=NSMIN
JSURB=0
DO 119 I=1,NCEL
NVOL(I)=JVOL
IF(LG3D) THEN
Z=REMESH(2*NCEL+I)
IF(I.GT.STAIRS(1)) THEN
IST=1
DO 129 IY=2,LZZ
IF(I.LE.STAIRS(IY)) THEN
IST=IY-1
GOTO 139
ENDIF
129 CONTINUE
139 KZAUX=I-STAIRS(IST)
IF(IST.GT.1)KZAUX=KZAUX+STAIRS(IST-1)
Z=Z-REMESH(2*NCEL+KZAUX)
ENDIF
ENDIF
NCYL(I)=NRAY
FVOL(I)=IFVOL+1
IFVOL=IFVOL+NZONE
DO 117 J=1,NRAY
IAUX=IAUX+1
REMESH(IAUX)=KRAY(J+1)
117 CONTINUE
VOLUM1=0.
IF(LG3D) THEN
IF(IPLANZ.GT.1) THEN
IF(I.LE.STAIRS(1)) THEN
FACB(I)=KSURF1
ELSEIF(I.GT.STAIRS(IPLANZ-1)) THEN
ISUR=ISUR+1
FACB(LX+ISUR)=KSURF2
ENDIF
ELSE
FACB(I)=KSURF1
FACB(LX+I)=KSURF2
ENDIF
ENDIF
NAUX=0
DO 120 J=1,NRAY+1
MVOL=MVOL+1
KSECT=ISECT(J)
NSECT(MVOL)=KSECT
NAUX=1
IF(KSECT.GT.1) NAUX=6*(KSECT-1)
IVOL=IVOL+NAUX
MIXX=IMIX(J)
KREG=KREG+1
IF(J.EQ.NZONE) THEN
VOLUM2=VEX
ELSE
R=KRAY(J+1)
VOLUM2=PI*R*R
ENDIF
VOLUME=(VOLUM2-VOLUM1)/REAL(NAUX)
VOLUMS=0.0
IF(LG3D) THEN
VOLUMS=VOLUME*.25
*
* SURFACES SUPERIEURES ET INFERIEURES (SELON L'AXE Z)
*
IF(IPLANZ.GT.1) THEN
IF(I.LE.STAIRS(1)) THEN
KSURF1=KSURF1+1
NSURF1=NSURF1-1
VOLSUR(NSURF1)=VOLUMS
ELSEIF(I.GT.STAIRS(IPLANZ-1)) THEN
KSURF2=KSURF2+1
NSURF2=NSURF2-1
VOLSUR(NSURF2)=VOLUMS
ENDIF
ELSE
KSURF1=KSURF1+1
NSURF1=NSURF1-1
VOLSUR(NSURF1)=VOLUMS
KSURF2=KSURF2+1
NSURF2=NSURF2-1
VOLSUR(NSURF2)=VOLUMS
ENDIF
VOLUME=VOLUME*Z
ENDIF
VOLUM1=VOLUM2
VOLSUR(KREG)=VOLUME
MATALB(KREG)=MIXX
DO 121 K=2,NAUX
KREG=KREG+1
VOLSUR(KREG)=VOLUME
MATALB(KREG)=MIXX
IF(LG3D) THEN
IF(IPLANZ.GT.1) THEN
IF(I.LE.STAIRS(1)) THEN
KSURF1=KSURF1+1
NSURF1=NSURF1-1
VOLSUR(NSURF1)=VOLUMS
ELSEIF(I.GT.STAIRS(IPLANZ-1)) THEN
KSURF2=KSURF2+1
NSURF2=NSURF2-1
VOLSUR(NSURF2)=VOLUMS
ENDIF
ELSE
KSURF1=KSURF1+1
NSURF1=NSURF1-1
VOLSUR(NSURF1)=VOLUMS
KSURF2=KSURF2+1
NSURF2=NSURF2-1
VOLSUR(NSURF2)=VOLUMS
ENDIF
ENDIF
121 CONTINUE
JVOL=IVOL+1
120 CONTINUE
SURF=SIDE
JSP=6
KBB=1
IF(KSECT.GT.1) THEN
SURF=SIDE/(KSECT-1)
JSP=NAUX
KBB=KSECT-1
ENDIF
IF(LG3D)SURF=SURF*Z
DO 118 JJ=1,JSP
JSUR=JSUR-1
VOLSUR(JSUR)=.25*SURF
118 CONTINUE
DO 122 JJ=1,6
JSURB=JSURB+1
SURB(JSURB)=ISURB
ISURB=ISURB+KBB
122 CONTINUE
119 CONTINUE
DEALLOCATE(IMIX,ISECT)
IF(LG3D) DEALLOCATE(ZZZ)
IF(NRAY.GT.0) DEALLOCATE(KRAY)
DO 715 IV=1,NV
VSYM(IV)=IV
715 CONTINUE
DO 716 IS=1,NS
SSYM(IS)=IS
716 CONTINUE
GO TO 800
ENDIF
* CAS D'UN ASSEMBLAGE DE CELLULE
*
IPP1=0
MROT=0
MSMAX=0
ALLOCATE(ISXY(6,MAX(IPLANZ,IPLANI)))
IF(LGCELL) THEN
*
* SPLITING DES RAYONS ET DEFINITION DES SECTEURS POUR
* LES CELLULES GENERATRICES
*
ALLOCATE(IOF(ISTAT9),ICC(ISTAT9),ICELL(3*ISTAT9))
CALL LCMGET(IPGEOM,'CELL',ICELL)
DO 10 I=1,ISTAT9
WRITE(TEXT12(1:4),'(A4)') ICELL(3*I-2)
WRITE(TEXT12(5:8),'(A4)') ICELL(3*I-1)
WRITE(TEXT12(9:12),'(A4)') ICELL(3*I)
CALL LCMSIX(IPGEOM,TEXT12,1)
CALL LCMLEN(IPGEOM,'RADIUS',ILENR,ITP)
CALL LCMLEN(IPGEOM,'SECTOR',ILENS,ITS)
IF(ILENR.GT.0) THEN
ALLOCATE(ISECT(ILENR),IMX(ILENR))
CALL LCMLEN(IPGEOM,'MIX',ILENM,ITP)
IF(ILENS.GT.0) THEN
IF(ILENS.NE.ILENR) CALL XABORT('MESHST: INCONSISTENT L'
+ //'ENGTHS(3).')
CALL LCMGET(IPGEOM,'SECTOR',ISECT)
K=0
DO J=1,ILENR
K=K+6*(ISECT(J)-1)
ENDDO
IF(K.NE.ILENM) THEN
CALL XABORT('MESHST: SECTOR-DEFINED MIX INDICES EXPE'
+ //'CTED(2).')
ENDIF
ALLOCATE(IMX2(ILENM))
CALL LCMGET(IPGEOM,'MIX',IMX2)
IOFS=0
DO J=1,ILENR
IOFS=IOFS+1
IMX(J)=IMX2(IOFS)
DO K=2,6*(ISECT(J)-1)
IOFS=IOFS+1
IF(IMX2(IOFS).NE.IMX(J)) THEN
CALL XABORT('MESHST: SECTOR-DEPENDENT MIX NOT IM'
+ //'PLEMENTED(2).')
ENDIF
ENDDO
ENDDO
DEALLOCATE(IMX2)
ELSE
IF(ILENM.NE.ILENR) CALL XABORT('MESHST: INCONSISTENT L'
+ //'ENGTHS(4).')
ISECT(:ILENR)=1
CALL LCMGET(IPGEOM,'MIX',IMX)
ENDIF
CALL LCMLEN(IPGEOM,'SPLITR',ILENSP,ITP)
IF(ILENSP.GT.0) THEN
IF(ITP.NE.1.OR.ILENSP.NE.ILENR-1)
+ CALL XABORT('MESHST: '//
+ 'MISSING TYPE OR DIMENSION OF SPLITR')
ALLOCATE(RR(ILENR))
CALL LCMGET(IPGEOM,'RADIUS',RR)
ALLOCATE(ISSS(ILENSP))
CALL LCMGET(IPGEOM,'SPLITR',ISSS)
NRAY=1
DO 5 J=1,ILENSP
NRAY=NRAY+ABS(ISSS(J))
5 CONTINUE
ALLOCATE(IOF(I)%R(NRAY),IOF(I)%I1(NRAY),IOF(I)%I2(NRAY))
KMIX=0
DO 7 J=1,ILENR-1
NMIX=IMX(J)
ISEC=ISSS(J)
LSECT=ISECT(J)
IF(ISEC.EQ.0)CALL XABORT('MESHST: INVALID SPLITR')
DO 6 L=1,ABS(ISEC)
IOF(I)%I1(KMIX+1)=NMIX
IOF(I)%I2(KMIX+1)=LSECT
KMIX=KMIX+1
6 CONTINUE
7 CONTINUE
IOF(I)%I1(KMIX+1)=IMX(ILENR)
IOF(I)%I2(KMIX+1)=ISECT(ILENR)
IOF(I)%R(1)=0.0
R1=0.
IAUX=0
DO 109 K=1,ILENSP
ISEC=ISSS(K)
IF(ISEC.EQ.0)CALLXABORT('MESHST: INVALID SPLITR')
IF(ISEC.GT.0) THEN
R2=RR(K+1)
PAS=(R2-R1)/FLOAT(ISEC)
DO 8 L=1,ISEC
IAUX=IAUX+1
IOF(I)%R(IAUX+1)=R1+PAS*REAL(L)
8 CONTINUE
R1=R2
ELSE
R2=RR(K+1)
R1=R1**2
R2=R2**2
PAS=(R2-R1)/FLOAT(-ISEC)
DO 108 L=1,-ISEC
IAUX=IAUX+1
IOF(I)%R(IAUX+1)=SQRT(R1+PAS*REAL(L))
108 CONTINUE
R1=SQRT(R2)
ENDIF
109 CONTINUE
DEALLOCATE(ISSS,RR)
ICC(I)=NRAY-1
ELSE
ICC(I)=ILENR-1
ALLOCATE(IOF(I)%R(ILENR))
CALL LCMGET(IPGEOM,'RADIUS',IOF(I)%R)
ALLOCATE(IOF(I)%I1(ILENR),IOF(I)%I2(ILENR))
DO 9 J=1,ILENR
IOF(I)%I1(J)=IMX(J)
IOF(I)%I2(J)=ISECT(J)
9 CONTINUE
ENDIF
DEALLOCATE(IMX,ISECT)
ELSE
ICC(I)=0
ALLOCATE(IOF(I)%I1(1),IOF(I)%I2(1))
CALL LCMLEN(IPGEOM,'MIX',ILENM,ITP)
IF(ILENS.GT.0) THEN
CALL LCMGET(IPGEOM,'SECTOR',IOF(I)%I2(1))
IF(6*(IOF(I)%I2(1)-1).NE.ILENM) THEN
CALL XABORT('MESHST: SECTOR-DEFINED MIX INDICES EXPE'
+ //'CTED(3).')
ENDIF
ALLOCATE(IMX2(ILENM))
CALL LCMGET(IPGEOM,'MIX',IMX2)
DO K=2,6*(IOF(I)%I2(1)-1)
IF(IMX2(K).NE.IMX2(1)) THEN
CALL XABORT('MESHST: SECTOR-DEPENDENT MIX NOT IMPL'
+ //'EMENTED(3).')
ENDIF
ENDDO
IOF(I)%I1(1)=IMX2(1)
DEALLOCATE(IMX2)
ELSE
IF(ILENM.NE.1) CALL XABORT('MESHST: INCONSISTENT LENGT'
+ //'HS(5).')
CALL LCMGET(IPGEOM,'MIX',IOF(I)%I1(1))
IOF(I)%I2(1)=1
ENDIF
ENDIF
IF(ILENS.EQ.0) THEN
IF(LGTURN)CALL XABORT('MESHST: SECTOR MUST BE DEFINED '//
+ 'OR CANCEL TURN ')
ENDIF
CALL LCMSIX(IPGEOM,' ',2)
10 CONTINUE
*--- NUMEROTATION DES VOLUMES DE LA SYMETRIE D'ENTREE
IXZPL=IPLANZ
IF(MCODE.GT.0)IXZPL=IPLANI
KXI=LXI*IXZPL
NXI=KXI
IF(IHEX.LE.9) THEN
CALL LCMSIX(IPTRK,'DATA_DUP',1)
CALL LCMLEN(IPTRK,'SPLITZD',LFF,KSS)
CALL LCMSIX(IPTRK,' ',2)
LSPLIT=.FALSE.
LZF=IXZPL
IF(LFF.GT.0) THEN
LZF=LFF
NXI=LXI*LZF
LSPLIT=.TRUE.
ENDIF
ALLOCATE(KNUM(2*NXI),NUMG(NXI))
CALL LCMLEN(IPGEOM,'MERGE',LLL,KSS)
LGMERG=.FALSE.
IF(LLL.GT.0) THEN
CALL LCMGET(IPGEOM,'MERGE',KNUM)
LGMERG=.TRUE.
CALL LCMGET(IPGEOM,'MIX',NUMG)
DO I=1,NXI
NUMG(I)=-NUMG(I)
ENDDO
ELSE
CALL LCMGET(IPGEOM,'MIX',KNUM)
DO I=1,NXI
KNUM(I)=-KNUM(I)
NUMG(I)=KNUM(I)
ENDDO
ENDIF
IF(LGTURN) THEN
CALL LCMGET(IPGEOM,'TURN',KNUM(NXI+1))
ELSE
KNUM(NXI+1:2*NXI)=1
LGTURN=.TRUE.
ENDIF
IVOL=0
ISTO=0
ALLOCATE(ITRN(KXI*3),ISPZ(LZF))
IF(LSPLIT) THEN
CALL LCMSIX(IPTRK,'DATA_DUP',1)
CALL LCMGET(IPTRK,'SPLITZD',ISPZ)
CALL LCMSIX(IPTRK,' ',2)
ELSE
ISPZ(:LZF)=1
ENDIF
ALLOCATE(KVOL(KXI))
ISS=-1
ISS1=-1
IMERMX=0
DO 182 ISZ=1,LZF
IFRT=ISS1
IMER0=KNUM(LXI*ISZ)
IMER1=IMER0
DO 482 ISX=1,LXI
ISS=ISS+1
ISS1=ISS1+1
IMERG=KNUM(ISS1+1)
JMERG=NUMG(ISS1+1)
MMCYL=ICC(JMERG)
IF(LSPLIT) THEN
IMER0=MAX(IMER0,IMERG)
IMER1=MIN(IMER1,IMERG)
ENDIF
IZON=0
IZZ=0
LL=0
DO 171 IFF=1,MMCYL+1
JSECT=IOF(JMERG)%I2(IFF)
IF(JSECT.GT.1) THEN
LL=JSECT-1
IZZ=6*LL
ELSE
LL=1
IZZ=1
ENDIF
IZON=IZON+IZZ
171 CONTINUE
IMERG=IMERG+IMERMX
IF(LGMERG) THEN
DO 281 KY=1,ISTO
IF(IMERG.EQ.ITRN(KXI+KY)) THEN
IMMS=ITRN(2*KXI+KY)
IBSS=KVOL(IMMS+1)
KVOL(ISS+1)=IBSS
ITRN(ISS+1)=ITRN(IMMS+1)
GOTO 381
ENDIF
281 CONTINUE
ENDIF
ITRN(KXI+ISTO+1)=IMERG
ITRN(2*KXI+ISTO+1)=ISS
ISTO=ISTO+1
KVOL(ISS+1)=IVOL+1
IVOL=IVOL+IZON
ITRN(ISS+1)=IVOL-IZZ+LL*ROT(KNUM(NXI+ISS1+1))
381 CONTINUE
482 CONTINUE
IF(LSPLIT) THEN
IFR0=IFRT
DO 582 IXX=1,ISPZ(ISZ)-1
IMERMX=IMERMX+IMER0-IMER1+1
IFRT=IFR0
DO 682 ISX=1,LXI
ISS=ISS+1
IFRT=IFRT+1
IMERG=KNUM(IFRT+1)
JMERG=NUMG(IFRT+1)
MMCYL=ICC(JMERG)
IZON=0
IZZ=0
LL=0
DO 671 IFF=1,MMCYL+1
JSECT=IOF(JMERG)%I2(IFF)
IF(JSECT.GT.1) THEN
LL=JSECT-1
IZZ=6*LL
ELSE
LL=1
IZZ=1
ENDIF
IZON=IZON+IZZ
671 CONTINUE
IMERG=IMERG+IMERMX
IF(LGMERG) THEN
DO 681 KY=1,ISTO
IF(IMERG.EQ.ITRN(KXI+KY)) THEN
IMMS=ITRN(2*KXI+KY)
IBSS=KVOL(IMMS+1)
KVOL(ISS+1)=IBSS
ITRN(ISS+1)=ITRN(IMMS+1)
GOTO 781
ENDIF
681 CONTINUE
ENDIF
ITRN(KXI+ISTO+1)=IMERG
ITRN(2*KXI+ISTO+1)=ISS
ISTO=ISTO+1
KVOL(ISS+1)=IVOL+1
IVOL=IVOL+IZON
ITRN(ISS+1)=IVOL-IZZ+LL*ROT(KNUM(NXI+IFRT+1))
781 CONTINUE
682 CONTINUE
582 CONTINUE
ENDIF
182 CONTINUE
*--- RECHERCHE DU NOMBRE DE SURFACES QUE PRESENTE LA SYMETRIE
ICCOIN=-1
JCCOIN=-1
KCCOIN=-1
MROT=6
NCPER=0
IF(IHEX.EQ.1) THEN
NCPER=NINT(REAL(NCOUR)/2.)
ELSEIF(IHEX.EQ.2) THEN
NCPER=NCOUR
MROT=3
ELSEIF(IHEX.EQ.3) THEN
NCPER=2*NINT(REAL(NCOUR)/2.)-1
ICCOIN=LXI-NINT(REAL(NCPER)/2.)+1
MROT=3
ELSEIF(IHEX.EQ.4) THEN
NCPER=3*NINT(REAL(NCOUR)/2.)-2
IF(MOD(NCOUR,2).EQ.0)NCPER=NCPER+1
ICCOIN=LXI-NCPER+NINT(REAL(NCOUR)/2.)
MROT=2
ELSEIF(IHEX.EQ.5) THEN
NCPER=1
IF(NCOUR.GT.1)NCPER=2*(NCOUR-1)
ICCOIN=LXI-NCPER+NCOUR-1
KCCOIN=LXI
MROT=3
ELSEIF(IHEX.EQ.6) THEN
NCPER=1
IF(NCOUR.GT.1)NCPER=4+3*(NCOUR-2)-1
KCCOIN=LXI-NCPER+NCOUR-1
ICCOIN=KCCOIN+NCOUR-1
JCCOIN=ICCOIN+NCOUR-1
MROT=2
ELSEIF(IHEX.EQ.7) THEN
NCPER=1
IF(NCOUR.GT.1)NCPER=3*NCOUR-2
ICCOIN=LXI-NCOUR+1
KCCOIN=ICCOIN-NCOUR+1
MROT=1
ELSEIF(IHEX.EQ.8) THEN
NCPER=1
IF(NCOUR.GT.1)NCPER=2*(NCOUR+NINT(REAL(NCOUR)/2.))-3
JCCOIN=LXI-NINT(REAL(NCOUR)/2.)+1
KCCOIN=JCCOIN-NCOUR+1
ICCOIN=KCCOIN-NCOUR+1
MROT=1
ELSEIF(IHEX.EQ.9) THEN
MROT=1
NCPER=1
IF(NCOUR.GT.1) NCPER=6*(NCOUR-1)
ICCOIN=IFONC(NCOUR,0)
JCCOIN=IFONC(NCOUR,1)
KCCOIN=IFONC(NCOUR,2)
ELSE
CALL XABORT('MESHST: INVALID TYPE OF SYMETRIE ')
ENDIF
ISURSY=0
ISAUX=1
MSMAX=0
ISSXX=0
IPPZ=LZF
IPP1=IPLANZ
IF(MCODE.GT.0) IPP1=IPLANI
ISXY(:6,:IPP1)=0
IXP=0
DO 500 JP=1,IPPZ
MXI=LXI*(JP-1)
DO 501 IP=IXP+1,IXP+ISPZ(JP)
ISURB6=0
ITT9=NUMG(LXI+MXI)
ISURSX=IOF(ITT9)%I2(ICC(ITT9)+1)-1
KSURBX=ISURSX
IF(ISURSX.EQ.0) THEN
ISURSX=1
KSURBX=1
ENDIF
JSECT=0
DO 183 K1=LXI+MXI,LXI+MXI-NCPER+1,-1
K=NUMG(K1)
JSECT=IOF(K)%I2(ICC(K)+1)
ICX=2
IF(IHEX.GT.2) THEN
IF(K1.EQ.ICCOIN+MXI)ICX=3
IF(K1.EQ.JCCOIN+MXI)ICX=3
IF(K1.EQ.KCCOIN+MXI)ICX=3
IF(IHEX.EQ.9) THEN
IF(K1.EQ.MXI+IFONC(NCOUR,3))ICX=3
IF(K1.EQ.MXI+IFONC(NCOUR,4))ICX=3
IF(K1.EQ.MXI+IFONC(NCOUR,5))ICX=3
ENDIF
IF(K1.GE.ICCOIN+MXI) THEN
IF(IHEX.LE.4) THEN
IF(K1.EQ.MXI+LXI.AND.MOD(NCOUR,2).NE.0) THEN
ICY=1
IF(IHEX.EQ.4)ICY=2
ISURB6=ISURB6+ICY*(JSECT-1)
IF(JSECT.EQ.1)ISURB6=ISURB6+ICY
IF(IHEX.EQ.3) ICX=1
ELSE
ISURB6=ISURB6+2*(JSECT-1)
IF(JSECT.EQ.1)ISURB6=ISURB6+2
ENDIF
ELSE
ICZ=ICX
IF(K1.EQ.ICCOIN+MXI)ICZ=2
ISURB6=ISURB6+ICZ*(JSECT-1)
IF(JSECT.EQ.1)ISURB6=ISURB6+ICZ
ENDIF
ENDIF
ENDIF
IF(JSECT.GT.1) THEN
ISURSY=ISURSY+ICX*(JSECT-1)
ELSE
ISURSY=ISURSY+ICX
ENDIF
183 CONTINUE
IDEBX=2
IF(JSECT.GT.1)IDEBX=JSECT
IF(IHEX.EQ.1.OR.IHEX.EQ.3.OR.IHEX.EQ.4.OR.IHEX.EQ.8) THEN
IF(MOD(NCOUR,2).NE.0) THEN
IF(JSECT.GT.1) THEN
ISURSY=ISURSY-JSECT+1
ELSE
ISURSY=ISURSY-1
ENDIF
IF(IHEX.EQ.8) THEN
ISURSY=ISURSY-ISURSX
ISURB6=ISURB6-ISURSX
ENDIF
ENDIF
ENDIF
ISXY(1,IP)=ISURSY
ISXY(2,IP)=ISURSX
ISXY(3,IP)=ISURB6
ISXY(4,IP)=IDEBX+ISAUX-1
ISXY(5,IP)=KSURBX
ISXY(6,IP)=ISAUX
ISAUX=ISURSY+1
MSMAX=MSMAX+ISURSY-ISSXX
ISSXX=ISURSY
501 CONTINUE
IXP=IXP+ISPZ(JP)
500 CONTINUE
DEALLOCATE(KNUM,NUMG,ISPZ)
ENDIF
DEALLOCATE(ICELL)
NBASE=NCEL+NCEL
IF(LGTURN)NBASE=NBASE+NCEL
ALLOCATE(IBB(NBASE))
CALL LCMSIX(IPTRK,'DATA_DUP',1)
CALL LCMGET(IPTRK,'GENERATING',IBB)
CALL LCMGET(IPTRK,'MERGE',IBB(NCEL+1))
IF(LGTURN)CALL LCMGET(IPTRK,'TURN',IBB(2*NCEL+1))
CALL LCMSIX(IPTRK,' ',2)
VOL1(:NCPHY)=0
VTURN(:NCPHY)=0
IAUX=IPOINT
IFVOL=1
MVOL=0
ICELC0=IFONC(NCOUR,0)
ICELC1=IFONC(NCOUR,1)-ICELC0
JVOL=1
IVOL=0
ISURB=NSMIN
JSURB=0
DO 100 I=1,NCEL
NVOL(I)=JVOL
IF(LG3D) THEN
DO 40 J=1,LZZ
NCC=J*LX
IF(I.LE.NCC) THEN
Z=ZZZ(J)
GO TO 42
ENDIF
40 CONTINUE
ENDIF
42 CONTINUE
MCYL=ICC(IBB(I))
IF(MCYL.GT.0) THEN
*
* STORAGE DES COORDONNEES DES CYLINDRES
* ==> ATTENTION: LES AXES DES CYLINDRES SONT SELON Z
*
DO 43 J=1,MCYL
IAUX=IAUX+1
REMESH(IAUX)=IOF(IBB(I))%R(J+1)
43 CONTINUE
ENDIF
NCYL(I)=MCYL
NZONE1=1+MCYL
NZONE=0
DO 60 IA=1,NZONE1
NZONE=NZONE+IOF(IBB(I))%I2(IA)
60 CONTINUE
NSECTO=IOF(IBB(I))%I2(NZONE1)
MCPHY=IBB(NCEL+I)
IV1=VOL1(MCPHY)
IF(IV1.GT.0) THEN
IF(LGTURN) THEN
JVT=PHTURN(MCPHY)
IVTURN=VTURN(MCPHY)
ITURN=IBB(2*NCEL+I)
KAUX=NSECTO-1
IF(ITURN.LE.6) THEN
IF(ITURN.NE.6)KAUX=KAUX*(ITURN+1)
ELSEIF(ITURN.GE.9) THEN
KAUX=(ITURN-8)*KAUX
ELSEIF(ITURN.EQ.7) THEN
KAUX=5*KAUX
ENDIF
ENDIF
ELSE
KVOL1=1
IF(MCPHY.GT.1)KVOL1=VOL1(MCPHY-1)
KVOL2=KVOL1+NZONE-1
IF(LGTURN) THEN
ITURN=IBB(2*NCEL+I)
PHTURN(MCPHY)=ITURN
IF(ITURN.LE.6) THEN
IF(ITURN.EQ.6) THEN
VTURN(MCPHY)=KVOL2+NSECTO-1
ELSE
VTURN(MCPHY)=KVOL2+(NSECTO-1)*(ITURN+1)
ENDIF
ELSEIF(ITURN.GE.8) THEN
VTURN(MCPHY)=KVOL2+(NSECTO-1)*(ITURN-8)+1
ELSE
VTURN(MCPHY)=KVOL2+(NSECTO-1)*5+1
ENDIF
ENDIF
VOL1(MCPHY)=KVOL2+1
ENDIF
VOLUM1=0.
IF(LG3D) THEN
IF(IPLANZ.GT.1) THEN
IF(I.LE.STAIRS(1)) THEN
FACB(I)=KSURF1
ELSEIF(I.GT.STAIRS(IPLANZ-1)) THEN
ISUR=ISUR+1
FACB(LX+ISUR)=KSURF2
ENDIF
ELSE
FACB(I)=KSURF1
FACB(LX+I)=KSURF2
ENDIF
Z=REMESH(2*NCEL+I)
IF(I.GT.STAIRS(1)) THEN
IST=1
DO 329 IY=2,LZZ
IF(I.LE.STAIRS(IY)) THEN
IST=IY-1
GOTO 339
ENDIF
329 CONTINUE
339 KZAUX=I-STAIRS(IST)
IF(IST.GT.1)KZAUX=KZAUX+STAIRS(IST-1)
Z=Z-REMESH(2*NCEL+KZAUX)
ENDIF
ENDIF
KSECTX=IOF(IBB(I))%I2(NZONE1)
NZZ=NZONE1
IF(KSECTX.GT.3)NZZ=NZONE1-1
DO 45 J=1,NZZ
MIXX=IOF(IBB(I))%I1(J)
KSECT=IOF(IBB(I))%I2(J)
NAUX=1
IF(KSECT.GT.1) NAUX=6*(KSECT-1)
IVOL=IVOL+NAUX
MVOL=MVOL+1
NSECT(MVOL)=KSECT
KREG=KREG+1
IF(J.EQ.NZONE1) THEN
VOLUM2=VEX
ELSE
R=IOF(IBB(I))%R(J+1)
VOLUM2=PI*R*R
ENDIF
VOLUMS=0.0
VOLUME=(VOLUM2-VOLUM1)/REAL(NAUX)
IF(LG3D) THEN
VOLUMS=VOLUME*.25
VOLUME=VOLUME*Z
*
* SURFACES SUPERIEURES ET INFERIEURES (SELON L'AXE Z)
*
IF(IPLANZ.GT.1) THEN
IF(I.LE.STAIRS(1)) THEN
KSURF1=KSURF1+1
NSURF1=NSURF1-1
VOLSUR(NSURF1)=VOLUMS
ELSEIF(I.GT.STAIRS(IPLANZ-1)) THEN
KSURF2=KSURF2+1
NSURF2=NSURF2-1
VOLSUR(NSURF2)=VOLUMS
ENDIF
ELSE
KSURF1=KSURF1+1
NSURF1=NSURF1-1
VOLSUR(NSURF1)=VOLUMS
KSURF2=KSURF2+1
NSURF2=NSURF2-1
VOLSUR(NSURF2)=VOLUMS
ENDIF
ENDIF
VOLUM1=VOLUM2
VOLSUR(KREG)=VOLUME
MATALB(KREG)=MIXX
DO 44 K=2,NAUX
KREG=KREG+1
VOLSUR(KREG)=VOLUME
MATALB(KREG)=MIXX
IF(LG3D) THEN
IF(IPLANZ.GT.1) THEN
IF(I.LE.STAIRS(1)) THEN
KSURF1=KSURF1+1
NSURF1=NSURF1-1
VOLSUR(NSURF1)=VOLUMS
ELSEIF(I.GT.STAIRS(IPLANZ-1)) THEN
KSURF2=KSURF2+1
NSURF2=NSURF2-1
VOLSUR(NSURF2)=VOLUMS
ENDIF
ELSE
KSURF1=KSURF1+1
NSURF1=NSURF1-1
VOLSUR(NSURF1)=VOLUMS
KSURF2=KSURF2+1
NSURF2=NSURF2-1
VOLSUR(NSURF2)=VOLUMS
ENDIF
ENDIF
44 CONTINUE
45 CONTINUE
ICXX=LX*INT(AINT(REAL(I/(LX+1))))
ICELC=ICELC0+ICXX
ICLIM=LX+ICXX
IF(KSECTX.GT.3) THEN
*
* TRAITEMENT DU VOLUME A BORDURE HEXAGONALE DANS LE CAS OU KSECT>3
*
KSECT=KSECTX
MIXX=IOF(IBB(I))%I1(NZONE1+1)
NAUX=6*(KSECT-1)
IVOL=IVOL+NAUX
MVOL=MVOL+1
NSECT(MVOL)=KSECT
VCYL=VOLUM1/REAL(NAUX)
SAUX=0.
IXX0=KREG
ISS0=NSURF1
JSS0=NSURF2
DO 445 M=1,KSECT-1
IXX=IXX0
ISS1=ISS0
ISS2=JSS0
XTAN=TAN(REAL(M)*PI/(3*(KSECT-1)))
SAUX1=XTAN/(1.+XTAN/SQRT3)
VOLUME=.5*SIDE*SIDE*(SAUX1-SAUX)
VOLUME=VOLUME-VCYL
VOLUMS=VOLUME
IF(LG3D) VOLUME=VOLUME*Z
DO 444 K=1,6
IXX=IXX+1
KREG=KREG+1
VOLSUR(IXX)=VOLUME
MATALB(IXX)=MIXX
IF(LG3D) THEN
IF(IPLANZ.GT.1) THEN
IF(I.LE.STAIRS(1)) THEN
KSURF1=KSURF1+1
NSURF1=NSURF1-1
ISS1=ISS1-1
VOLSUR(ISS1)=VOLUMS
ELSEIF(I.GT.STAIRS(IPLANZ-1)) THEN
KSURF2=KSURF2+1
NSURF2=NSURF2-1
ISS2=ISS2-1
VOLSUR(ISS2)=VOLUMS
ENDIF
ELSE
KSURF1=KSURF1+1
NSURF1=NSURF1-1
ISS1=ISS1-1
VOLSUR(ISS1)=VOLUMS
KSURF2=KSURF2+1
NSURF2=NSURF2-1
ISS2=ISS2-1
VOLSUR(ISS2)=VOLUMS
ENDIF
ISS1=ISS1-KSECT+2
ISS2=ISS2-KSECT+2
ENDIF
IXX=IXX+KSECT-2
444 CONTINUE
IF(I.GE.ICELC.AND.I.LE.ICLIM) THEN
SURF=.5*SIDE*(SAUX1-SAUX)/SQRT3
IF(LG3D)SURF=SURF*Z
JSUR=JSUR-1
VOLSUR(JSUR)=SURF
IJSUR=JSUR-KSECT+1
VOLSUR(IJSUR)=SURF
IF(MOD(I-ICELC,ICELC1).EQ.0) THEN
IJSUR=IJSUR-KSECT+1
VOLSUR(IJSUR)=SURF
ENDIF
ENDIF
IXX0=IXX0+1
ISS0=ISS0-1
JSS0=JSS0-1
SAUX=SAUX1
445 CONTINUE
IF(I.GE.ICELC.AND.I.LE.ICLIM) THEN
JSUR=JSUR-KSECT+1
JSURB=JSURB+2
SURB(JSURB-1)=ISURB
KKB=KSECT-1
ISURB=ISURB+KKB+KKB
SURB(JSURB)=ISURB-KKB
IF(MOD(I-ICELC,ICELC1).EQ.0) THEN
JSUR=JSUR-KSECT+1
JSURB=JSURB+1
SURB(JSURB)=ISURB
ISURB=ISURB+KKB
ENDIF
ENDIF
ELSE
IF(I.GE.ICELC.AND.I.LE.ICLIM) THEN
SURF=SIDE*.25
IF(LG3D)SURF=SURF*Z
KKB=1
IF(KSECT.GT.1) THEN
KKB=KSECT-1
SURF=SURF/KKB
ENDIF
DO 99 IXX=1,KKB
JSUR=JSUR-2
VOLSUR(JSUR)=SURF
VOLSUR(JSUR+1)=SURF
IF(MOD(I-ICELC,ICELC1).EQ.0) THEN
JSUR=JSUR-1
VOLSUR(JSUR)=SURF
ENDIF
99 CONTINUE
JSURB=JSURB+2
SURB(JSURB-1)=ISURB
ISURB=ISURB+KKB+KKB
SURB(JSURB)=ISURB-KKB
IF(MOD(I-ICELC,ICELC1).EQ.0) THEN
JSURB=JSURB+1
SURB(JSURB)=ISURB
ISURB=ISURB+KKB
ENDIF
ENDIF
ENDIF
JVOL=IVOL+1
FVOL(I)=IFVOL
IFVOL=IFVOL+NZONE1
100 CONTINUE
DO 110 I=1,ISTAT9
DEALLOCATE(IOF(I)%I1,IOF(I)%I2)
IF(ICC(I).GT.0) DEALLOCATE(IOF(I)%R)
110 CONTINUE
DEALLOCATE(IOF,ICC)
ELSE
*
* CAS DE CELLULE HOMOGENES
*
ALLOCATE(IBB(2*NCEL))
CALL LCMSIX(IPTRK,'DATA_DUP',1)
CALL LCMGET(IPTRK,'MERGE',IBB)
CALL LCMGET(IPTRK,'MIX',IBB(NCEL+1))
CALL LCMSIX(IPTRK,' ',2)
CALL LCMLEN(IPGEOM,'SECTOR',ILENS,ITP)
ALLOCATE(ICC(NCEL))
IF(ILENS.GT.0) THEN
CALL XABORT('MESHST: SECTORS NOT IMPLEMENTED.')
ELSE
ICC(:NCEL)=1
ENDIF
IF(LGTURN) THEN
CALL LCMSIX(IPTRK,'DATA_DUP',1)
ALLOCATE(ITT(NCEL))
CALL LCMGET(IPTRK,'TURN',ITT)
CALL LCMSIX(IPTRK,' ',2)
ENDIF
VOL1(:NCPHY)=0
IFVOL=1
MVOL=0
ICELC0=IFONC(NCOUR,0)
ICELC1=IFONC(NCOUR,1)-ICELC0
JVOL=1
IVOL=0
ISURB=NSMIN
JSURB=0
DO 200 I=1,NCEL
NVOL(I)=JVOL
NSECTO=ICC(I)
ICXX=LX*INT(AINT(REAL(I/(LX+1))))
ICELC=ICELC0+ICXX
ICLIM=LX+ICXX
NSECT(I)=NSECTO
NCYL(I)=0
NZONE=1
IF(NSECTO.GT.1)NZONE=6*(NSECTO-1)
IVOL=IVOL+NZONE
JVOL=IVOL+1
MCPHY=IBB(I)
IV1=VOL1(MCPHY)
IF(IV1.GT.0) THEN
IF(LGTURN) THEN
JVT=PHTURN(MCPHY)
IVTURN=VTURN(MCPHY)
KAUX=NSECTO-1
ITURN=ITT(I)
IF(ITURN.LE.6) THEN
IF(ITURN.NE.6)KAUX=KAUX*(ITURN+1)
ELSEIF(ITURN.GE.9) THEN
KAUX=(ITURN-8)*KAUX
ELSEIF(ITURN.EQ.7) THEN
KAUX=5*KAUX
ENDIF
ENDIF
ELSE
KVOL1=1
IF(MCPHY.GT.1)KVOL1=VOL1(MCPHY-1)
KVOL2=KVOL1+NZONE-1
IF(LGTURN) THEN
ITURN=ITT(I)
PHTURN(MCPHY)=ITURN
IF(ITURN.LE.6) THEN
IF(ITURN.EQ.6) THEN
VTURN(MCPHY)=KVOL2+NSECTO-1
ELSE
VTURN(MCPHY)=KVOL2+(NSECTO-1)*(ITURN+1)
ENDIF
ELSEIF(ITURN.GE.8) THEN
VTURN(MCPHY)=KVOL2+(NSECTO-1)*(ITURN-8)+1
ELSE
VTURN(MCPHY)=KVOL2+(NSECTO-1)*5+1
ENDIF
ENDIF
VOL1(MCPHY)=KVOL2+1
ENDIF
IF(NSECTO.LE.3) THEN
IF(I.GE.ICELC.AND.I.LE.ICLIM) THEN
SURF=SIDE*.25
IF(LG3D)SURF=SURF*Z
KKB=1
IF(NSECTO.GT.1) THEN
KKB=NSECTO-1
SURF=SURF/(NSECTO-1)
ENDIF
DO 556 IXX=1,KKB
JSUR=JSUR-2
VOLSUR(JSUR)=SURF
VOLSUR(JSUR+1)=SURF
IF(MOD(I-ICELC,ICELC1).EQ.0) THEN
JSUR=JSUR-1
VOLSUR(JSUR)=SURF
ENDIF
556 CONTINUE
JSURB=JSURB+2
SURB(JSURB-1)=ISURB
ISURB=ISURB+KKB+KKB
SURB(JSURB)=ISURB-KKB
IF(MOD(I-ICELC,ICELC1).EQ.0) THEN
JSURB=JSURB+1
SURB(JSURB)=ISURB
ISURB=ISURB+KKB
ENDIF
ENDIF
VOLUMS=0.0
VOLUME=VEX/NZONE
IF(LG3D) THEN
Z=REMESH(2*NCEL+I)
IF(I.GT.STAIRS(1)) THEN
IST=1
DO 429 IY=2,LZZ
IF(I.LE.STAIRS(IY)) THEN
IST=IY-1
GOTO 439
ENDIF
429 CONTINUE
439 KZAUX=I-STAIRS(IST)
IF(IST.GT.1)KZAUX=KZAUX+STAIRS(IST-1)
Z=Z-REMESH(2*NCEL+KZAUX)
ENDIF
VOLUMS=VOLUME*.25
VOLUME=VOLUME*Z
*
* SURFACES SUPERIEURES ET INFERIEURES (SELON L'AXE Z)
*
IF(IPLANZ.GT.1) THEN
IF(I.LE.STAIRS(1)) THEN
FACB(I)=KSURF1
KSURF1=KSURF1+1
NSURF1=NSURF1-1
VOLSUR(NSURF1)=VOLUMS
ELSEIF(I.GT.STAIRS(IPLANZ-1)) THEN
ISUR=ISUR+1
FACB(LX+ISUR)=KSURF2
KSURF2=KSURF2+1
NSURF2=NSURF2-1
VOLSUR(NSURF2)=VOLUMS
ENDIF
ELSE
FACB(I)=KSURF1
FACB(LX+I)=KSURF2
KSURF1=KSURF1+1
NSURF1=NSURF1-1
VOLSUR(NSURF1)=VOLUMS
KSURF2=KSURF2+1
NSURF2=NSURF2-1
VOLSUR(NSURF2)=VOLUMS
ENDIF
ENDIF
MIXX=IBB(NCEL+I)
DO 65 J=1,NZONE
KREG=KREG+1
VOLSUR(KREG)=VOLUME
MATALB(KREG)=MIXX
IF(LG3D) THEN
IF(IPLANZ.GT.1) THEN
IF(I.LE.STAIRS(1)) THEN
KSURF1=KSURF1+1
NSURF1=NSURF1-1
VOLSUR(NSURF1)=VOLUMS
ELSEIF(I.GT.STAIRS(IPLANZ-1)) THEN
KSURF2=KSURF2+1
NSURF2=NSURF2-1
VOLSUR(NSURF2)=VOLUMS
ENDIF
ELSE
KSURF1=KSURF1+1
NSURF1=NSURF1-1
VOLSUR(NSURF1)=VOLUMS
KSURF2=KSURF2+1
NSURF2=NSURF2-1
VOLSUR(NSURF2)=VOLUMS
ENDIF
ENDIF
65 CONTINUE
ELSE
*
* TRAITEMENT DU CAS OU NSECTO>3
*
KSECT=NSECTO
MIXX=IBB(NCEL+I)
NAUX=6*(KSECT-1)
IVOL=IVOL+NAUX
MVOL=MVOL+1
NSECT(MVOL)=KSECT
SAUX=0.
IXX0=KREG
ISS0=NSURF1
JSS0=NSURF2
DO 555 M=1,KSECT-1
IXX=IXX0
ISS1=ISS0
ISS2=JSS0
XTAN=TAN(REAL(M)*PI/(3*(KSECT-1)))
SAUX1=XTAN/(1.+XTAN/SQRT3)
VOLUME=.5*SIDE*SIDE*(SAUX1-SAUX)
VOLUMS=VOLUME
IF(LG3D) VOLUME=VOLUME*Z
DO 554 K=1,6
IXX=IXX+1
KREG=KREG+1
VOLSUR(IXX)=VOLUME
MATALB(IXX)=MIXX
IF(LG3D) THEN
IF(IPLANZ.GT.1) THEN
IF(I.LE.STAIRS(1)) THEN
KSURF1=KSURF1+1
NSURF1=NSURF1-1
ISS1=ISS1-1
VOLSUR(ISS1)=VOLUMS
ELSEIF(I.GT.STAIRS(IPLANZ-1)) THEN
KSURF2=KSURF2+1
NSURF2=NSURF2-1
ISS2=ISS2-1
VOLSUR(ISS2)=VOLUMS
ENDIF
ELSE
KSURF1=KSURF1+1
NSURF1=NSURF1-1
ISS1=ISS1-1
VOLSUR(ISS1)=VOLUMS
KSURF2=KSURF2+1
NSURF2=NSURF2-1
ISS2=ISS2-1
VOLSUR(ISS2)=VOLUMS
ENDIF
ISS1=ISS1-KSECT+2
ISS2=ISS2-KSECT+2
ENDIF
IXX=IXX+KSECT-2
554 CONTINUE
IF(I.GE.ICELC.AND.I.LE.ICLIM) THEN
SURF=.5*SIDE*(SAUX1-SAUX)/SQRT3
IF(LG3D)SURF=SURF*Z
JSUR=JSUR-1
VOLSUR(JSUR)=SURF
IJSUR=JSUR-KSECT+1
VOLSUR(IJSUR)=SURF
IF(MOD(I-ICELC,ICELC1).EQ.0) THEN
IJSUR=IJSUR-KSECT+1
VOLSUR(IJSUR)=SURF
ENDIF
ENDIF
IXX0=IXX0+1
ISS0=ISS0-1
JSS0=JSS0-1
SAUX=SAUX1
555 CONTINUE
IF(I.GE.ICELC.AND.I.LE.ICLIM) THEN
JSUR=JSUR-KSECT+1
JSURB=JSURB+2
SURB(JSURB-1)=ISURB
KKB=KSECT-1
ISURB=ISURB+KKB+KKB
SURB(JSURB)=ISURB-KKB
IF(MOD(I-ICELC,ICELC1).EQ.0) THEN
JSUR=JSUR-KSECT+1
JSURB=JSURB+1
SURB(JSURB)=ISURB
ISURB=ISURB+KKB
ENDIF
ENDIF
ENDIF
FVOL(I)=IFVOL
IFVOL=IFVOL+1
200 CONTINUE
DEALLOCATE(ICC)
IF(LGTURN) DEALLOCATE(ITT)
ENDIF
IF(LG3D) DEALLOCATE(ZZZ)
*
*--- CONSTRUCTION DU VECTEUR VSYM QUI CONTIENT POUR CHAQUE VOLUME DE
*--- DE L'ASSEMBLAGE SON EQUIVALENT DANS LA SYMETRIE D'ENTREE
*
IF(LGCELL.AND.(IHEX.LE.9)) THEN
ALLOCATE(IAA(NCEL))
CALL LCMSIX(IPTRK,'DATA_DUP',1)
CALL LCMGET(IPTRK,'GENER0',IAA)
CALL LCMSIX(IPTRK,' ',2)
IXV=0
DO 300 IC=1,NCEL
MCYL=NCYL(IC)
LFROT=ROT(IBB(2*NCEL+IC))
IVFIN=KVOL(IAA(IC))
IVORIN=ITRN(IAA(IC))
IVMIN=IVFIN
IVSYM=NVOL(IC)
IXX=IXV
NZON=0
DO 310 I=1,MCYL
IXX=IXX+1
LSECT=NSECT(IXX)
IF(LSECT.GT.1) THEN
NZON=NZON+6*(LSECT-1)
ELSE
NZON=NZON+1
ENDIF
310 CONTINUE
LSECT=NSECT(IXX+1)
IF(LSECT.GT.1) THEN
IVAUX=INT(REAL(IVORIN-IVFIN-NZON+1)/REAL(LSECT-1))
ELSE
IVAUX=IVORIN-IVFIN-NZON+1
ENDIF
DO 320 K=1,MCYL+1
IXV=IXV+1
LSECT=NSECT(IXV)
IF(LSECT.EQ.1) THEN
VSYM(IVSYM)=IVMIN
IVMAX=IVMIN
ELSE
IVOR=IVMIN+IVAUX*(LSECT-1)-1
IVV=LFROT-1
IVSYM0=IVSYM
IVSYM=IVSYM+6*(LSECT-1)-1
IVMAX=IVMIN+6*(LSECT-1)-1
IF(IBB(2*NCEL+IC).LE.6) THEN
IVV1=LFROT*(LSECT-1)
IVV=(5-IVV)*(LSECT-1)
ELSE
IVV1=IVV*(LSECT-1)+1
IVV=(6-IVV)*(LSECT-1)-1
ENDIF
IF(IBB(2*NCEL+IC).LE.6) THEN
KVV=IVSYM-IVV
KVOR=IVOR
DO 315 L=KVV,IVSYM
VSYM(L)=KVOR
KVOR=KVOR+1
IF(KVOR.GT.IVMAX)KVOR=IVMIN
315 CONTINUE
DO 316 L=IVSYM0,KVV-1
VSYM(L)=KVOR
KVOR=KVOR+1
IF(KVOR.GT.IVMAX)KVOR=IVMIN
316 CONTINUE
ELSE
KVV=IVSYM0+IVV1-1
KVOR=IVOR
DO 317 L=KVV,IVSYM0,-1
VSYM(L)=KVOR
KVOR=KVOR+1
IF(KVOR.GT.IVMAX)KVOR=IVMIN
317 CONTINUE
DO 318 L=IVSYM,KVV+1,-1
VSYM(L)=KVOR
KVOR=KVOR+1
IF(KVOR.GT.IVMAX)KVOR=IVMIN
318 CONTINUE
ENDIF
ENDIF
IVMIN=IVMAX+1
IVSYM=IVSYM+1
320 CONTINUE
300 CONTINUE
DEALLOCATE(IAA)
*--- CONSTRUCTION DU VECTEUR SSYM QUI CONTIENT POUR CHAQUE SURFACE
*--- DE L'ASSEMBLAGE SON EQUIVALENT DANS LA SYMETRIE D'ENTREE
ISY=0
MSAUX=NS
ISYX=NSMIN+1
IVLMAX=0
IF(LG3D) THEN
MSAUX=(NS-NSMIN-NSMAX)/IPLANZ
*--- CAS DE LA SYMETRIE Z- (MCODE=1) SSYM EST REMPLIT PLUS LOIN
IF(MCODE.NE.1) THEN
IF(IHEX.NE.9) THEN
DO 301 ISUR=1,NSMIN
SSYM(ISUR)=VSYM(ISUR)
IVLMAX=MAX(IVLMAX,VSYM(ISUR))
301 CONTINUE
ELSE
DO 311 ISUR=1,NSMIN
SSYM(ISUR)=ISUR
311 CONTINUE
IVLMAX=NSMIN
ENDIF
ENDIF
ISY=NSMIN
ENDIF
IPPZ=IPP1
NSAUX=0
IF(MCODE.EQ.1) THEN
DO 302 IPPX=IPPZ+1,IPLANZ
NSAUX=NSAUX+(SURL(IPPX)-SURL(IPPX-1))
302 CONTINUE
ISYX=ISYX+NSAUX
ENDIF
MSAUX=0
ISYAUX=ISYX
LSMAX=NSMIN+NSAUX
IF(MCODE.EQ.0) LSMAX=NS
LSPLZM=2*IPPZ-IPLANZ
DO 600 IP=1,IPPZ
IF(LG3D) THEN
IF(MCODE.EQ.1) THEN
LSMAX=LSMAX+(SURL(IPPZ-LSPLZM+IP)-SURL(IPPZ-LSPLZM-1+IP))
ISYAUX=ISYAUX+MSAUX
MSAUX=SURL(IPPZ-LSPLZM+IP)-SURL(IPPZ-LSPLZM-1+IP)
ELSE
LSMAX=NSMIN+SURL(IP)
ISYAUX=ISYX+MSAUX
MSAUX=SURL(IP)
ENDIF
ENDIF
ISY=ISYAUX-1
ISURSY=ISXY(1,IP)
ISURSX=ISXY(2,IP)
ISURB6=ISXY(3,IP)
IDEBX=ISXY(4,IP)
KSURBX=ISXY(5,IP)
ISAUX=ISXY(6,IP)
IDDX=ISURSX
KX2=ISURSY
KX1=ISURSY-ISURSX+1
KXP=1
IF(IHEX.GE.3) THEN
ISY=ISURB6+ISY
IF(IHEX.EQ.3.OR.IHEX.EQ.8) THEN
IDDX=0
KX2=KX1
KX1=ISURSY
KXP=-1
ENDIF
IF(IHEX.EQ.4.OR.IHEX.EQ.7)ISY=ISY-KSURBX
ENDIF
IDEB=ISAUX
IF(IHEX.EQ.2.OR.IHEX.EQ.7)IDEB=IDEBX
IF(IHEX.EQ.5.OR.IHEX.EQ.6) THEN
IDDX=-ISURSY
ISURSX=0
ISURSY=0
KX1=0
KX2=-1
ENDIF
DO 400 I=1,MROT
DO 349 K=KX1,KX2,KXP
ISY=ISY+1
IF(IHEX.GE.3) THEN
IF(ISY.GT.LSMAX) ISY=ISYAUX
ENDIF
SSYM(ISY)=K+IVLMAX
349 CONTINUE
IF(IHEX.LT.9) THEN
DO 350 K=ISURSY-ISURSX,ISAUX,-1
ISY=ISY+1
IF(IHEX.GE.3) THEN
IF(ISY.GT.LSMAX) ISY=ISYAUX
ENDIF
SSYM(ISY)=K+IVLMAX
350 CONTINUE
ENDIF
DO 351 K=IDEB,ISURSY-IDDX
ISY=ISY+1
IF(IHEX.GE.3) THEN
IF(ISY.GT.LSMAX) ISY=ISYAUX
ENDIF
SSYM(ISY)=K+IVLMAX
351 CONTINUE
400 CONTINUE
600 CONTINUE
*
*---SURFACE LATERALES SUPERIEURES DANS LE CAS 3D
*
IF(LG3D) THEN
IYAUX=0
IF(MCODE.LE.1) THEN
IF(IPLANZ.GT.1) THEN
IYAUX=IVLMAX
DO 599 II=NSMIN+1,NV-NSMAX
IYAUX=MAX(VSYM(II),IYAUX)
599 CONTINUE
ENDIF
IF(IHEX.NE.9) THEN
IAUX=NV-NSMAX
DO 601 II=NS-NSMAX+1,NS
IAUX=IAUX+1
SSYM(II)=IVLMAX+MSMAX+VSYM(IAUX)-IYAUX
601 CONTINUE
ELSE
IAUX=0
IF(MCODE.GT.0) THEN
KSAUX=SURL(IPLANI)
ELSE
KSAUX=SSYM(NS-NSMAX)
ENDIF
DO 611 II=NS-NSMAX+1,NS
IAUX=IAUX+1
SSYM(II)=IAUX+KSAUX
611 CONTINUE
ENDIF
ENDIF
*--- CAS DE SYMETRIE Z-
IF(MCODE.EQ.1) THEN
IF(IHEX.NE.9) THEN
DO 602 IV=1,NSMAX
SSYM(IV)=IVLMAX+MSMAX+VSYM(IV)-IYAUX
602 CONTINUE
ELSE
IVLAT=1
IAUX=0
JTX=NS-NSMAX
DO 612 IX1=1,NCOUR
DO 613 JX=JTX+VLAT(NCOUR+IX1),JTX+IVLAT,-1
IAUX=IAUX+1
SSYM(IAUX)=SSYM(JX)
613 CONTINUE
DO 614 JX=JTX+VLAT(IX1),JTX+VLAT(NCOUR+IX1)+1,-1
IAUX=IAUX+1
SSYM(IAUX)=SSYM(JX)
614 CONTINUE
IVLAT=VLAT(IX1)+1
612 CONTINUE
ENDIF
IFR=NSMIN
LSPLZM=2*IPLANI-IPLANZ
DO 605 IW=IPLANZ,IPPZ+1,-1
DO 603 JW=SURL(IPLANZ+IW),SURL(IW-1)+1,-1
IFR=IFR+1
SSYM(IFR)=SSYM(NSMIN+JW)
603 CONTINUE
DO 604 JW=SURL(IW),SURL(IPLANZ+IW)+1,-1
IFR=IFR+1
SSYM(IFR)=SSYM(NSMIN+JW)
604 CONTINUE
605 CONTINUE
ELSEIF(MCODE.EQ.2) THEN
IFR=NS-NSMAX+1
MSUR=0
LSPLZP=2*IPLANI-IPLANZ
DO 705 IW=1,IPPZ-LSPLZP
DO 704 JW=SURL(IPLANZ+IW)+1,SURL(IW)
IFR=IFR-1
SSYM(IFR)=SSYM(NSMIN+JW)
704 CONTINUE
DO 703 JW=MSUR+1,SURL(IPLANZ+IW)
IFR=IFR-1
SSYM(IFR)=SSYM(NSMIN+JW)
703 CONTINUE
MSUR=SURL(IW)
705 CONTINUE
IF(IHEX.NE.9) THEN
IAUX=NV-NSMIN
DO 706 II=NS-NSMAX+1,NS
IAUX=IAUX+1
SSYM(II)=VSYM(IAUX)
706 CONTINUE
ELSE
IVLAT=1
IAUX=NS-NSMAX
DO 712 IX1=1,NCOUR
DO 713 JX=VLAT(NCOUR+IX1),IVLAT,-1
IAUX=IAUX+1
SSYM(IAUX)=SSYM(JX)
713 CONTINUE
DO 714 JX=VLAT(IX1),VLAT(NCOUR+IX1)+1,-1
IAUX=IAUX+1
SSYM(IAUX)=SSYM(JX)
714 CONTINUE
IVLAT=VLAT(IX1)+1
712 CONTINUE
ENDIF
ENDIF
ENDIF
DEALLOCATE(IBB,KVOL,ITRN)
ELSE
DO 717 ISUR=1,NS
SSYM(ISUR)=ISUR
717 CONTINUE
DO 718 IVOL=1,NV
VSYM(IVOL)=IVOL
718 CONTINUE
ENDIF
DEALLOCATE(ISXY)
*----
* SCRATCH STORAGE DEALLOCATION
*----
800 DEALLOCATE(PHTURN,VTURN,VOL1)
RETURN
END
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