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|
*DECK LIBMAC
SUBROUTINE LIBMAC(IPLIB ,IPLIBX,IPBURX,IPRINT,MAXISO,NBISO ,
> NBISOX,IBSTEP,NBMIX ,NBMIXX,NGRO ,TMPDAY)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Read the information related to microscopic cross section library.
*
*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): G. Marleau
*
*Parameters: input/output
* IPLIB pointer to the lattice microscopic cross section library
* (L_LIBRARY signature).
* IPLIBX pointer to the RHS microlib object.
* IPBURX pointer to the RHS burnup object.
* IPRINT print flag.
* MAXISO maximum number of isotopes permitted.
* NBISO number of isotopes present on IPLIB.
* NBISOX number of isotopes present on IPLIBX or IPBURX.
* IBSTEP burnup step on IPBURX if 'BURN' option activated.
* NBMIX number of mixtures defined on IPLIB.
* NBMIXX number of mixtures defined on IPLIBX or IPBURX.
* NGRO number of energy groups.
* TMPDAY time/burnup/irradiation stamp in days.
*
*-----------------------------------------------------------------------
*
USE GANLIB
IMPLICIT NONE
INTEGER IOUT,NTC
CHARACTER NAMSBR*6
PARAMETER (IOUT=6,NTC=3,NAMSBR='LIBMAC')
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPLIB,IPLIBX,IPBURX
INTEGER IPRINT,MAXISO,NBISO,NBISOX,IBSTEP,NBMIX,NBMIXX,NGRO
REAL TMPDAY(3)
*----
* INPUT
*----
INTEGER NSTATE
PARAMETER (NSTATE=40)
INTEGER ITYPLU,INTLIR,ILONG,ITYLCM,NCOMB,ISOT,IBM,J,
> ISTATE(NSTATE)
CHARACTER TEXT4*4,CARLIR*12
REAL REALIR
DOUBLE PRECISION DBLLIR
*----
* LOCAL PARAMETERS
*----
INTEGER KCHAR(NTC),ISO,JSO,IMIX,NISOM,ITSTMP,NNMIX,MODISO,
> NMIXUP,NIUPD,IMIXX,ILCMLN,ILCMTY,ITC,ITEXT4
*----
* ALLOCATABLE STATEMENTS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: MIX,MIXIX,LOCUPD,LISM,IEVOL,
> IEVOLX
INTEGER, ALLOCATABLE, DIMENSION(:,:) :: ISONAM,ISONMX
REAL, ALLOCATABLE, DIMENSION(:) :: DEN,DENMIX,DENIX,DENMOD
LOGICAL, ALLOCATABLE, DIMENSION(:) :: MASKM,MASKG
*----
* SCRATCH STORAGE ALLOCATION
* ISONAM old name of isotopes.
* ISONMX new name of isotopes.
* MIX mix number of each isotope on IPLIB (can be zero).
* DEN density of each isotope on IPLIB.
* DENMIX density of mixture on IPLIB (can be -1.0).
* MIXIX mix index of each isotope on IPLIBX or IPBURX (can be zero).
* DENIX density of each isotope on IPLIBX or IPBURX.
* LOCUPD location of IPLIB mixture in IPLIBX or IPBURX.
* LISM location in IPLIB of isotope associated with a mixture.
* DENMOD modified density of each isotope on IPLIB.
* MASKM mixture update mask.
* MASKG group update mask.
* IEVOL flag making an isotope non-depleting:
* =1 to force an isotope to be non-depleting;
* =2 to force an isotope to be depleting;
* =3 to force an isotope to be at saturation
*----
ALLOCATE(MIX(MAXISO),MIXIX(NBISOX),LOCUPD(NBMIX),LISM(MAXISO),
> IEVOL(MAXISO),IEVOLX(NBISOX))
ALLOCATE(ISONAM(NTC,MAXISO),ISONMX(NTC,NBISOX))
ALLOCATE(DEN(MAXISO),DENMIX(NBMIX),DENIX(NBISOX),DENMOD(MAXISO))
ALLOCATE(MASKM(NBMIX),MASKG(NGRO))
*----
* INITIALIZE
*----
TEXT4=' '
READ(TEXT4,'(A4)') ITEXT4
ISONAM(:NTC,:MAXISO)=ITEXT4
ISONMX(:NTC,:NBISOX)=ITEXT4
MIX(:MAXISO)=0
DEN(:MAXISO)=0.0
DENMIX(:NBMIX)=-1.0
*----
* READ ORIGINAL ISOTOPE AND MIXTURE INFORMATION FROM IPLIB
*----
IF(NBISO.GT.MAXISO) CALL XABORT('LIBMAC: MAXISO OVERFLOW.')
CALL LCMGET(IPLIB,'ISOTOPESDENS',DEN)
CALL LCMGET(IPLIB,'ISOTOPESMIX',MIX)
CALL LCMGET(IPLIB,'ISOTOPESUSED',ISONAM)
CALL LCMLEN(IPLIB,'ISOTOPESTODO',ILONG,ITYLCM)
IF(ILONG.GT.0) THEN
CALL LCMGET(IPLIB,'ISOTOPESTODO',IEVOL)
ELSE
IEVOL(:MAXISO)=0
ENDIF
DO 10 JSO=1,NBISO
DENMOD(JSO)=DEN(JSO)
10 CONTINUE
DENMIX(:NBMIX)=1.0
LOCUPD(:NBMIX)=0
*----
* WRITE ORIGINAL MATERIAL COMPOSITION IF REQUIRED
*----
IF(IPRINT.GT.0) THEN
WRITE(IOUT,6000) NGRO,NBISO,NBMIX
DO 600 IMIX=1,NBMIX
NISOM=0
DO 601 ISO=1,NBISO
IF(MIX(ISO).EQ.IMIX) THEN
NISOM=NISOM+1
LISM(NISOM)=ISO
ENDIF
601 CONTINUE
IF(NISOM.GT.0) THEN
WRITE(IOUT,6010) IMIX
WRITE(IOUT,6011) ((ISONAM(ITC,LISM(ISO)),ITC=1,NTC-1),
> DEN(LISM(ISO)),IEVOL(LISM(ISO)),ISO=1,NISOM)
ENDIF
600 CONTINUE
ENDIF
*----
* READ ISOTOPE AND MIXTURE INFORMATION FROM IPLIBX OR IPBURX
*----
ITSTMP=2
IF((IBSTEP.EQ.0).AND.(NBISOX.GT.0)) THEN
* READ FROM A MICROLIB.
IF(.NOT.C_ASSOCIATED(IPLIBX)) THEN
CALL XABORT(NAMSBR//': MICROLIB OBJECT MISSING')
ENDIF
CALL LCMGET(IPLIBX,'ISOTOPESDENS',DENIX)
CALL LCMGET(IPLIBX,'ISOTOPESMIX',MIXIX)
CALL LCMGET(IPLIBX,'ISOTOPESUSED',ISONMX)
CALL LCMLEN(IPLIBX,'ISOTOPESTODO',ILONG,ITYLCM)
IF(ILONG.GT.0) THEN
CALL LCMGET(IPLIBX,'ISOTOPESTODO',IEVOLX)
ELSE
IEVOLX(:NBISOX)=0
ENDIF
ELSE IF((IBSTEP.GT.0).AND.(NBISOX.GT.0)) THEN
* READ FROM A MICROLIB OBJECT.
CALL LCMGET(IPLIB,'ISOTOPESMIX',MIXIX)
CALL LCMGET(IPLIB,'ISOTOPESUSED',ISONMX)
CALL LCMLEN(IPLIB,'ISOTOPESTODO',ILONG,ITYLCM)
IF(ILONG.GT.0) THEN
CALL LCMGET(IPLIB,'ISOTOPESTODO',IEVOLX)
ELSE
IEVOLX(:NBISOX)=0
ENDIF
* READ FROM A BURNUP OBJECT.
IF(.NOT.C_ASSOCIATED(IPBURX)) THEN
CALL XABORT(NAMSBR//': BURNUP OBJECT MISSING')
ENDIF
WRITE(CARLIR,'(8HDEPL-DAT,I4.4)') IBSTEP
CALL LCMSIX(IPBURX,CARLIR,1)
CALL LCMGET(IPBURX,'ISOTOPESDENS',DENIX)
CALL LCMLEN(IPBURX,'BURNUP-IRRAD',ILONG,ITYLCM)
IF(ILONG.EQ.2) THEN
CALL LCMGET(IPBURX,'BURNUP-IRRAD',TMPDAY(2))
ENDIF
CALL LCMSIX(IPBURX,' ',2)
ENDIF
IF(IPRINT.GT.0) THEN
WRITE(IOUT,6001) NGRO,NBISOX,NBMIX
DO 620 IMIX=1,NBMIX
NISOM=0
DO 621 ISO=1,NBISO
IF(MIX(ISO).EQ.IMIX) THEN
NISOM=NISOM+1
LISM(NISOM)=ISO
ENDIF
621 CONTINUE
WRITE(IOUT,6010) IMIX
WRITE(IOUT,6011) ((ISONAM(ITC,LISM(ISO)),ITC=1,NTC-1),
> DENMOD(LISM(ISO)),IEVOLX(LISM(ISO)),ISO=1,NISOM)
620 CONTINUE
ENDIF
*----
* READ UPDATE INFORMATION FROM INPUT
* FORMAT PERMITTED ARE
* [MIX IMLIB [ IMLIBX ] [ DENMOD ] [ NAMISO CONCM(I) ] ] ;
* DEFAULT:
* MIX ABSENT, IPLIBX >0 -> ALL ISOTOPES AND ALL MIXTURES
* MIX ABSENT, IPLIBX =0 -> NO UPDATE - PRINT ONLY
* IMLIBX ABSENT, IPLIBX >0 -> CONCF(ISO,IMX)=CONC(ISO,IMLIBX)
* IMLIBX ABSENT, IPLIBX =0 -> CONCF(ISO,IMX)=CONC(ISO,-IMLIB)
* IMLIBX > 0 -> CORRECTION FROM IPLIBX
* IMLIBX = -IMLIB -> CORRECTION FROM IPLIB
* DENMOD PRESENT -> CONCF(I,IMX)=CONCF(I,IMX)*DENMOD
* NAMISO ABSENT, IPLIBX >0 -> ALL ISOTOPE FOR MIXTURE
* NAMISO ABSENT, IPLIBX =0 -> ALL ISOTOPE FOR MIXTURE
* NAMISO PRESENT, CONCM >=0 -> ISOTOPE SPECIFIED
* CONCF(I,IMX)=DENMOD*CONCM(I,IMX)
* NAMISO PRESENT, CONCM <0 -> ISOTOPE SPECIFIED
* CONCF(I,IMX)=CONC(ISO,-IMLIB)*DENMOD
*----
NNMIX=0
100 CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLLIR)
101 IF(ITYPLU .NE. 3) CALL XABORT(NAMSBR//
>': CHARACTER DATA EXPECTED.')
IF(CARLIR.EQ.';') THEN
GO TO 105
ELSE IF(CARLIR(1:3).EQ.'MIX') THEN
CALL REDGET(ITYPLU,NNMIX,REALIR,CARLIR,DBLLIR)
IF(ITYPLU .NE. 1) CALL XABORT(NAMSBR//
> ': MIXTURE TO UPDATE MUST BE GIVEN.')
IF(NNMIX.GT.NBMIX) THEN
CALL XABORT(NAMSBR//': CANNOT UPDATE THIS MIXTURE.')
ELSE IF(NNMIX.LE.0) THEN
CALL XABORT(NAMSBR//': MIX NUMBER.LE.0.')
ENDIF
IF(IBSTEP.EQ.0) THEN
LOCUPD(NNMIX)=NNMIX
ELSE
LOCUPD(NNMIX)=-NNMIX
ENDIF
CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLLIR)
IF(ITYPLU.EQ.1) THEN
IF(INTLIR.LE.0 .OR.
> INTLIR.GT.NBMIXX) CALL XABORT(NAMSBR//
> ': CANNOT UPDATE THIS MIXTURE.')
LOCUPD(NNMIX)=INTLIR
CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLLIR)
ENDIF
IF(ITYPLU.EQ.2) THEN
DENMIX(NNMIX)=REALIR
CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLLIR)
ENDIF
GO TO 101
ENDIF
IF(CARLIR.EQ.'NOEV') THEN
DO 30 ISO=1,NBISO
IF(NNMIX.EQ.MIX(ISO)) IEVOL(ISO)=1
30 CONTINUE
ELSE IF(CARLIR.EQ.'EVOL') THEN
DO 35 ISO=1,NBISO
IF(NNMIX.EQ.MIX(ISO)) IEVOL(ISO)=2
35 CONTINUE
ELSE
READ(CARLIR,'(2A4)') (KCHAR(ITC),ITC=1,NTC-1)
MODISO=0
IF(LOCUPD(NNMIX).LT.0) THEN
DO 40 ISO=1,NBISO
IF(KCHAR(1).EQ.ISONAM(1,ISO) .AND.
> KCHAR(2).EQ.ISONAM(2,ISO) .AND.
> NNMIX.EQ.MIX(ISO)) THEN
MODISO=ISO
GO TO 45
ENDIF
40 CONTINUE
WRITE(IOUT,'(10H MIXTURE :,1X,I10,10H ISOTOPE :,1X,2A4)')
> NNMIX,(KCHAR(ITC),ITC=1,NTC-1)
CALL XABORT(NAMSBR//
> ': CANNOT UPDATE THIS ISOTOPE IN CURRENT MIXTURE.')
45 CONTINUE
CALL REDGET(ITYPLU,INTLIR,DENMOD(MODISO),CARLIR,DBLLIR)
IF(ITYPLU .NE. 2) CALL XABORT(NAMSBR//
> ': NEW ISOTOPIC DENSITY EXPECTED.')
ELSE IF(LOCUPD(NNMIX).GT.0) THEN
DO 50 ISO=1,NBISOX
IF(KCHAR(1).EQ.ISONMX(1,ISO) .AND.
> KCHAR(2).EQ.ISONMX(2,ISO) .AND.
> LOCUPD(NNMIX).EQ.MIXIX(ISO)) THEN
MODISO=ISO
GO TO 55
ENDIF
50 CONTINUE
WRITE(IOUT,'(10H MIXTURE :,1X,I10,10H ISOTOPE :,1X,2A4)')
> NNMIX,(KCHAR(ITC),ITC=1,NTC-1)
CALL XABORT(NAMSBR//
> ': CANNOT UPDATE THIS ISOTOPE IN CURRENT MIXTURE.')
55 CONTINUE
CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLLIR)
IF(ITYPLU .NE. 2) CALL XABORT(NAMSBR//
> ': NEW ISOTOPIC DENSITY EXPECTED.')
IF(REALIR.LT.0.0) THEN
DENIX(MODISO)=-DENIX(MODISO)
ELSE
DENIX(MODISO)=REALIR
ENDIF
ENDIF
ENDIF
GO TO 100
105 CONTINUE
IF((NNMIX.EQ.0).AND.(NBISOX.GT.0)) THEN
IF(IBSTEP.EQ.0) THEN
LOCUPD(:NBMIX)=IMIX
ELSE IF(IBSTEP.GT.0) THEN
LOCUPD(:NBMIX)=-IMIX
ENDIF
ENDIF
*----
* TRANSFER DENSITY FROM DENMOD OR DENIX TO DEN IF REQUIRED
*----
NMIXUP=0
DO 70 IMIX=1,NBMIX
MASKM(IMIX)=.FALSE.
IF(LOCUPD(IMIX).GT.0) THEN
NIUPD=0
IMIXX=LOCUPD(IMIX)
DO 71 ISO=1,NBISOX
IF(MIXIX(ISO).EQ.IMIXX) THEN
DO 72 JSO=1,NBISO
IF(ISONAM(1,JSO).EQ.ISONMX(1,ISO) .AND.
> ISONAM(2,JSO).EQ.ISONMX(2,ISO) .AND.
> MIX(JSO) .EQ.IMIX) THEN
IF(DENMIX(IMIX)*DENIX(ISO) .NE. DEN(JSO)) THEN
DEN(JSO)=DENMIX(IMIX)*DENIX(ISO)
NIUPD=NIUPD+1
ENDIF
ENDIF
72 CONTINUE
ENDIF
71 CONTINUE
IF(NIUPD .NE. 0) THEN
MASKM(IMIX)=.TRUE.
NMIXUP=NMIXUP+1
ENDIF
ELSE IF(LOCUPD(IMIX).LT.0) THEN
NIUPD=0
DO 73 ISO=1,NBISOX
IF(MIXIX(ISO).EQ.IMIX) THEN
DO 74 JSO=1,NBISO
IF(ISONAM(1,JSO).EQ.ISONMX(1,ISO) .AND.
> ISONAM(2,JSO).EQ.ISONMX(2,ISO) .AND.
> MIX(JSO) .EQ.IMIX) THEN
IF(DENMIX(IMIX)*DENIX(ISO) .NE. DEN(JSO)) THEN
IF(DENMIX(IMIX)*DENIX(ISO).GE.0.0) THEN
DEN(JSO)=DENMIX(IMIX)*DENIX(ISO)
NIUPD=NIUPD+1
ENDIF
ENDIF
ENDIF
74 CONTINUE
ENDIF
73 CONTINUE
IF(NIUPD.NE.0) THEN
MASKM(IMIX)=.TRUE.
NMIXUP=NMIXUP+1
ENDIF
ENDIF
70 CONTINUE
*----
* UPDATE ALL MATERIAL IF MACROLIB DIRECTORY ABSENT
*----
CALL LCMLEN(IPLIB,'MACROLIB',ILCMLN,ILCMTY)
IF(ILCMLN.EQ.0) THEN
NMIXUP=NBMIX
MASKM(:NBMIX)=.TRUE.
IF(IPRINT.GT.0) WRITE(IOUT,6004)
ENDIF
*----
* RECOMPUTE THE NUMBER OF DEPLETING MIXTURES
*----
IF(NMIXUP.GT.0) THEN
NCOMB=0
DO 90 ISOT=1,NBISO
IBM=MIX(ISOT)
IF(IBM.EQ.0) GO TO 90
IF(IEVOL(ISOT).NE.1) THEN
DO 80 J=1,NCOMB
IF(IBM.EQ.LOCUPD(J)) GO TO 90
80 CONTINUE
NCOMB=NCOMB+1
LOCUPD(NCOMB)=IBM
GO TO 90
ENDIF
90 CONTINUE
IF(IPRINT.GT.0) WRITE(IOUT,6020) NCOMB
CALL LCMGET(IPLIB,'STATE-VECTOR',ISTATE)
IF(ISTATE(12).NE.NCOMB) THEN
ISTATE(12)=NCOMB
CALL LCMPUT(IPLIB,'STATE-VECTOR',NSTATE,1,ISTATE)
ENDIF
*----
* WRITE UPDATED MATERIAL COMPOSITION IF REQUIRED
*----
IF(IPRINT.GT.0) THEN
WRITE(IOUT,6002)
DO 630 IMIX=1,NBMIX
NISOM=0
IF(MASKM(IMIX)) THEN
DO 631 ISO=1,NBISO
IF(MIX(ISO).EQ.IMIX) THEN
NISOM=NISOM+1
LISM(NISOM)=ISO
ENDIF
631 CONTINUE
IF(NISOM.GT.0) THEN
WRITE(IOUT,6010) IMIX
WRITE(IOUT,6011) ((ISONAM(ITC,LISM(ISO)),ITC=1,NTC-1),
> DEN(LISM(ISO)),IEVOL(LISM(ISO)),ISO=1,NISOM)
ENDIF
ENDIF
630 CONTINUE
ENDIF
*----
* SAVE ISOTOPE NEW DENSITY
*----
CALL LCMPUT(IPLIB,'ISOTOPESDENS',NBISO,2,DEN)
CALL LCMPUT(IPLIB,'ISOTOPESTODO',NBISO,1,IEVOL)
*----
* COMPUTE THE MACROSCOPIC X-SECTIONS
*----
MASKG(:NGRO)=.TRUE.
CALL LIBMIX(IPLIB,NBMIX,NGRO,NBISO,ISONAM,MIX,DEN,MASKM,MASKG,
> ITSTMP,TMPDAY)
ELSE
IF(IPRINT.GT.0) WRITE(IOUT,6003)
ENDIF
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(MASKG,MASKM)
DEALLOCATE(DENMOD,DENIX,DENMIX,DEN)
DEALLOCATE(ISONMX,ISONAM)
DEALLOCATE(IEVOLX,IEVOL,LISM,LOCUPD,MIXIX,MIX)
RETURN
*----
* FORMAT
*----
6000 FORMAT(/' LIBMAC: MODIFIED LIBRARY PROPERTIES '/
> ' NUMBER OF GROUPS = ',I10/
> ' NUMBER OF ISOTOPES = ',I10/
> ' NUMBER OF MIXTURES = ',I10/
> ' ORIGINAL NUMBER DENSITIES IN MIXTURES',
> ' FOLLOWS')
6001 FORMAT(/' LIBMAC: OLD LIBRARY PROPERTIES (READ ONLY) '/
> ' NUMBER OF GROUPS = ',I10/
> ' NUMBER OF ISOTOPES = ',I10/
> ' NUMBER OF MIXTURES = ',I10/
> ' ORIGINAL NUMBER DENSITIES IN MIXTURES',
> ' FOLLOWS')
6002 FORMAT(/' LIBMAC: FINAL NUMBER DENSITIES MIXTURES FOLLOWS')
6003 FORMAT(/' LIBMAC: NO UPDATED MIXTURES')
6004 FORMAT(/' LIBMAC: MACROSCOPIC ABSENT -> ALL MIXTURES UPDATED')
6010 FORMAT(/' ISOTOPIC DENSITIES FOR MIXTURE =',I4)
6011 FORMAT(1P,5(4X,2A4,':',E12.4,' (',I1,')'))
6020 FORMAT(/' LIBMAC: NUMBER OF DEPLETING MIXTURES =',I4)
END
|
