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|
*DECK NXTPR3
SUBROUTINE NXTPR3(IPTRK)
*
*-----------------------------------------------------------------------
*
*Purpose:
* To analyse a 3D prismatic geometry from a general
* 3D geometry analysis.
*
*Copyright:
* Copyright (C) 2006 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): R. Le Tellier
*
*Parameters: input
* IPTRK pointer to the nxt tracking (L_TRACK).
*
*-----------------------------------------------------------------------
*
USE GANLIB
IMPLICIT NONE
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPTRK
*----
* LOCAL VARIABLES
*----
INTEGER NSTATE,IOUT
PARAMETER(NSTATE=40,IOUT=6)
INTEGER GSTATE(NSTATE),ESTATE(NSTATE),KSIGN(3),ICODE(6),NCODE(6),
1 KTYPE(3)
INTEGER IZ,IX,IY,NFREG,NFSUR,NDIM,IDIRG,NBOCEL,NBUCEL,IDIAG,
1 ISAXIS(3),NOCELL(3),NUCELL(3),MAXMSH,MAXMDH,MAXREG,NBTCLS,
2 MAXPIN,MAXMSP,MAXRSP,MXGSUR,MXGREG,NUNK,IDIR,JJ,NUCELZ,NZP,
3 N2REG,N2SUR,N2CEL,N2PIN,I,K,NUNK2,NFSURO,ISUR,NUNKO,ITEMP,
4 ILON,ITYLCM
REAL RSTATT(NSTATE),ALBEDO(6)
DOUBLE PRECISION DZ1,DZ2
CHARACTER NAMASG*9,NAMREC*12
LOGICAL HALFS(2),SSYM(2),INVER
CHARACTER CDIR(4)*1
DATA CDIR /'X','Y','Z','R'/
TYPE(C_PTR) JPTRK
*----
* Allocatable arrays
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: MATALB,IUNFLD,MATALB2,
1 IND2T3,KEYMRG,IND2T3F,MATALBF
REAL, ALLOCATABLE, DIMENSION(:) :: SURVOL1,SURVOLF,ZCORF
DOUBLE PRECISION, ALLOCATABLE, DIMENSION(:) :: SURVOL,ZCOR,
1 SURVOL2,SM
*----
* RECOVER STATE-VECTOR
*----
GSTATE(:NSTATE)=0
CALL LCMGET(IPTRK,'STATE-VECTOR',GSTATE)
NFREG=GSTATE(1)
NFSUR=GSTATE(5)
IZ=GSTATE(39)
*---
IF (IZ.EQ.3) THEN
IX=1
IY=2
ELSEIF (IZ.EQ.2) THEN
IX=3
IY=1
CALL XABORT('NXTPR3: ONLY PRIZ IMPLEMENTED WITH NXT.')
ELSEIF (IZ.EQ.1) THEN
IX=2
IY=3
CALL XABORT('NXTPR3: ONLY PRIZ IMPLEMENTED WITH NXT.')
ELSE
CALL XABORT('NXTPR3: ILLEGAL PROJECTION AXIS')
ENDIF
*----
* RECOVER INFORMATION FROM NXT 3D GEOMETRY ANALYSIS
*----
CALL LCMGET(IPTRK,'EXCELTRACKOP',RSTATT)
CALL LCMGET(IPTRK,'SIGNATURE',KSIGN)
CALL LCMGET(IPTRK,'TRACK-TYPE',KTYPE)
CALL LCMGET(IPTRK,'ICODE',ICODE)
CALL LCMGET(IPTRK,'NCODE',NCODE)
CALL LCMGET(IPTRK,'ALBEDO',ALBEDO)
JPTRK=LCMDID(IPTRK,'PROJECTION')
CALL LCMSIX(JPTRK,'NXTRecords',1)
CALL LCMSIX(IPTRK,'NXTRecords',1)
WRITE(NAMASG,'(A1,I8.8)') 'G',1
NAMREC=NAMASG//'DIM'
ESTATE(:NSTATE)=0
CALL LCMGET(IPTRK,NAMREC,ESTATE)
NDIM =ESTATE( 1)
IF (NDIM.NE.3)
1 CALL XABORT('NXTPR3: NON 3D GEOMETRY')
IDIRG =ESTATE( 3)
NBOCEL =ESTATE( 4)
NBUCEL =ESTATE( 5)
IDIAG =ESTATE( 6)
ISAXIS(1)=ESTATE( 7)
ISAXIS(2)=ESTATE( 8)
ISAXIS(3)=ESTATE( 9)
IF (ISAXIS(IZ).NE.0)
1 CALL XABORT('NXTPR3: Z+- SYMMETRIES NOT YET TREATED')
NOCELL(1)=ESTATE(10)
NOCELL(2)=ESTATE(11)
NOCELL(3)=ESTATE(12)
NUCELL(1)=ESTATE(13)
NUCELL(2)=ESTATE(14)
NUCELL(3)=ESTATE(15)
MAXMSH =ESTATE(16)
MAXREG =ESTATE(17)
NBTCLS =ESTATE(18)
MAXPIN =ESTATE(19)
MAXMSP =ESTATE(20)
MAXRSP =ESTATE(21)
IF (NFSUR.NE.ESTATE(22))
1 CALL XABORT('NXTPR3: INCONSISTENT NUMBER OF OUTER SURFACES')
IF (NFREG.NE.ESTATE(23))
1 CALL XABORT('NXTPR3: INCONSISTENT NUMBER OF REGIONS')
MXGSUR =ESTATE(24)
MXGREG =ESTATE(25)
NUNK=NFSUR+NFREG+1
MAXMDH=MAX(MAXMSH,MAXMSP,MAXREG)
* surface-volumes and mixture indexes
ALLOCATE(MATALB(NUNK),SURVOL(NUNK),SURVOL1(NUNK))
CALL LCMGET(IPTRK,'MATALB ',MATALB)
CALL LCMGET(IPTRK,'SAreaRvolume',SURVOL)
CALL XDRSDB(NUNK,SURVOL1,SURVOL,1)
* cell index and orientation for the cells filling the geometry
ALLOCATE(IUNFLD(2*2*NBUCEL))
NAMREC=NAMASG//'CUF'
CALL LCMGET(IPTRK,NAMREC,IUNFLD)
NUCELZ=NUCELL(IZ)
ALLOCATE(IND2T3(NUNK*(MAXMDH*NUCELZ+2)),ZCOR(MAXMDH*NUCELZ+2),
1 MATALB2(NUNK),SURVOL2(NUNK))
*----
* CONSTRUCT 2D GEOMETRY ANALYSIS
*----
* CONSTRUCT (2D,Z)->3D INDEX AND FILL IN LEVEL 1-2 DESCRIPTION
CALL NXT3T2(IPTRK,JPTRK,IX,IY,IZ,NFREG,NFSUR,MAXMDH,NUCELL,
1 NBUCEL,MXGSUR,MXGREG,MAXPIN,MATALB,SURVOL,IUNFLD,NZP,
2 N2REG,N2SUR,N2CEL,N2PIN,IND2T3,ZCOR,MATALB2,SURVOL2)
* NXT LEVEL 0 DESCRIPTION
* record DIM
ESTATE(1)=2
ESTATE(4)=ESTATE(4)/NUCELL(3)
ESTATE(5)=ESTATE(5)/NUCELL(3)
ESTATE(9)=0
ESTATE(12)=0
ESTATE(13)=NUCELL(IX)
ESTATE(14)=NUCELL(IY)
ESTATE(15)=0
ESTATE(16)=N2CEL
ESTATE(22)=N2SUR
ESTATE(23)=N2REG
NAMREC=NAMASG//'DIM'
CALL LCMPUT(JPTRK,NAMREC,NSTATE,1,ESTATE)
* record CUF
NAMREC=NAMASG//'CUF'
CALL LCMPUT(JPTRK,NAMREC,2*ESTATE(5),1,IUNFLD(2*NBUCEL+1))
* record SMX,SMY
ALLOCATE(SM(NUCELL(IX)+1))
NAMREC=NAMASG//'SM'//CDIR(IX)
CALL LCMGET(IPTRK,NAMREC,SM)
NAMREC=NAMASG//'SM'//CDIR(1)
CALL LCMPUT(JPTRK,NAMREC,(NUCELL(IX)+1),4,SM)
DEALLOCATE(SM)
ALLOCATE(SM(NUCELL(IY)+1))
NAMREC=NAMASG//'SM'//CDIR(IY)
CALL LCMGET(IPTRK,NAMREC,SM)
NAMREC=NAMASG//'SM'//CDIR(2)
CALL LCMPUT(JPTRK,NAMREC,(NUCELL(IY)+1),4,SM)
DEALLOCATE(SM)
*---
* ADDITIONAL RECORDS TO MODIFY/ADD IN /PROJECTION/
*---
* KEYMRG ARRAY
CALL LCMLEN(IPTRK,'KEYMRG ',ILON,ITYLCM)
ALLOCATE(KEYMRG(ILON))
CALL LCMGET(IPTRK,'KEYMRG ',KEYMRG)
CALL LCMPUT(JPTRK,'KEYMRG ',N2SUR+N2REG+1,1,
1 KEYMRG(NFSUR-N2SUR+1))
DEALLOCATE(KEYMRG)
* NXT SPECIFIC STATE-VECTOR
CALL LCMSIX(JPTRK,' ',2)
GSTATE(1)=N2REG
GSTATE(2)=N2REG
GSTATE(5)=N2SUR
GSTATE(8)=1
GSTATE(9)=0
GSTATE(10)=0
GSTATE(13)=1
CALL LCMPUT(JPTRK,'STATE-VECTOR',NSTATE,1,GSTATE)
CALL LCMPUT(JPTRK,'EXCELTRACKOP',NSTATE,2,RSTATT)
CALL LCMPUT(JPTRK,'SIGNATURE ',3,3,KSIGN)
CALL LCMPUT(JPTRK,'TRACK-TYPE ',3,3,KTYPE)
CALL LCMPUT(JPTRK,'ICODE ',6,1,ICODE)
CALL LCMPUT(JPTRK,'ALBEDO ',6,2,ALBEDO)
*---
* TAKE CARE OF SYMMETRIES ALONG THE PROJECTION AXIS
* UPDATE RECORDS ACCORDINGLY
*---
* MAIN STATE-VECTOR: store the number of z-plan in the prismatic geometry
CALL LCMSIX(IPTRK,' ',2)
GSTATE(:NSTATE)=0
CALL LCMGET(IPTRK,'STATE-VECTOR',GSTATE)
GSTATE(39)=NZP
* NCODE ARRAY
DO JJ=1,2
HALFS(JJ)=(NCODE(2*(IZ-1)+JJ).EQ.5)
SSYM(JJ)=((NCODE(2*(IZ-1)+JJ).EQ.10).OR.(HALFS(JJ)))
ENDDO
INVER=(SSYM(1).AND.(.NOT.SSYM(2)))
IF (SSYM(1).OR.SSYM(2)) NCODE(2*IZ)=30
IF (SSYM(1).AND.SSYM(2)) NCODE(2*IZ-1)=30
IF (HALFS(1).OR.HALFS(2))
1 CALL XABORT('NXTPR3: SYME NOT SUPPORTED IN PRISMATIC, USE SSYM.')
CALL LCMPUT(IPTRK,'NCODE ',6,1,NCODE)
*
IF (SSYM(1)) IND2T3(NFSUR+2:NFSUR+1+N2REG)=0
IF (SSYM(2)) THEN
IND2T3((NZP+1)*NUNK+NFSUR+2:(NZP+1)*NUNK+NFSUR+1+N2REG)=0
ENDIF
NFSURO=NFSUR
NUNKO=NUNK
IF (SSYM(1)) NFSUR=NFSUR-N2REG
IF (SSYM(2)) NFSUR=NFSUR-N2REG
NUNK=NFSUR+NFREG+1
*
NUNK2=N2SUR+N2REG+1
ALLOCATE(IND2T3F(NUNK2*(NZP+2)),SURVOLF(NUNK),MATALBF(NUNK))
DO JJ=0,NFREG
SURVOLF(NFSUR+JJ+1)=SURVOL1(NFSURO+JJ+1)
MATALBF(NFSUR+JJ+1)=MATALB(NFSURO+JJ+1)
ENDDO
JJ=-1
ISUR=0
DO 15 K=0,NZP+1
DO 10 I=0,NUNK2-1
JJ=JJ+1
IDIR=IND2T3(K*NUNKO+I+NFSURO-N2SUR+1)
IF (IDIR.LT.0) THEN
ISUR=ISUR+1
IND2T3F(JJ+1)=-ISUR
SURVOLF(NFSUR-ISUR+1)=0.25*SURVOL1(NFSURO+IDIR+1)
MATALBF(NFSUR-ISUR+1)=MATALB(NFSURO+IDIR+1)
ELSE
IND2T3F(JJ+1)=IDIR
ENDIF
10 CONTINUE
15 CONTINUE
IF (ISUR.NE.NFSUR) THEN
write(*,*) ISUR,NFSUR,NFSURO,N2REG
CALL XABORT('NXTPR3: NFSUR OVERFLOW.')
ENDIF
GSTATE(5)=NFSUR
ALLOCATE(ZCORF(NZP+1))
IF (INVER) THEN
DO K=0,(NZP+1)/2
DO I=0,NUNK2-1
ITEMP=IND2T3F(K*NUNK2+I+1)
IND2T3F(K*NUNK2+I+1)=IND2T3F((NZP+1-K)*NUNK2+I+1)
IND2T3F((NZP+1-K)*NUNK2+I+1)=ITEMP
ENDDO
ENDDO
ZCORF=0.0
DO K=1,NZP
DZ1=ZCOR(NZP-K+1)
DZ2=ZCOR(NZP-K+2)
ZCORF(K+1)=ZCORF(K)+REAL(DZ2-DZ1)
ENDDO
ELSE
CALL XDRSDB(NZP+1,ZCORF,ZCOR,1)
ENDIF
CALL LCMPUT(JPTRK,'MATALB ',NUNK,1,MATALBF)
CALL LCMPUT(JPTRK,'VOLSUR ',NUNK,2,SURVOLF)
CALL LCMPUT(JPTRK,'IND2T3 ',NUNK2*(NZP+2),1,IND2T3F)
CALL LCMPUT(JPTRK,'ZCOORD ',(NZP+1),2,ZCORF)
CALL LCMPUT(IPTRK,'STATE-VECTOR',NSTATE,1,GSTATE)
DEALLOCATE(ZCORF,MATALBF,SURVOLF,IND2T3F)
*----
* DEALLOCATE MEMORY
*----
DEALLOCATE(SURVOL2,MATALB2,ZCOR,IND2T3,IUNFLD,SURVOL1,SURVOL,
1 MATALB)
*
RETURN
END
|
