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|
*DECK MCRAGF
SUBROUTINE MCRAGF(IPMAC,IPMPO,IACCS,NMIL,NMIX,NGRP,NALBP,LALBG,
1 LADFM,IMPX,NCAL,TERP,MIXC,NSURFD,HEDIT,VOSAP,VOLMI2,IDF)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Build the macrolib by scanning the NCAL elementary calculations and
* weighting them with TERP factors. ADF and physical albedos part.
*
*Copyright:
* Copyright (C) 2022 Ecole Polytechnique de Montreal
*
*Author(s):
* A. Hebert
*
*Parameters: input
* IPMAC address of the output macrolib LCM object.
* IPMPO address of the MPO file.
* IACCS =0 macrolib is created; =1 ... is updated.
* NMIL number of material mixtures in the MPO file.
* NMIX maximum number of material mixtures in the macrolib.
* NGRP number of energy groups.
* NALBP number of physical albedos per energy group.
* LALBG type of physical albedos (.true.: diagonal; .false.: GxG).
* LADFM type of discontinuity factors (.true.: diagonal; .false.: GxG).
* IMPX print parameter (equal to zero for no print).
* NCAL number of elementary calculations in the MPO file.
* TERP interpolation factors.
* MIXC mixture index in the MPO file corresponding to each macrolib
* mixture. Equal to zero if a macrolib mixture is not updated.
* NSURFD number of discontinuity factors.
* HEDIT name of output group for a (multigroup mesh, output geometry)
* couple (generally equal to 'output_0').
* VOSAP zone volumes in the MPO file.
* VOLMI2 mixture volumes in the macrolib.
*
*Parameters: output
* IDF type of discontinuity factors (DF) in the macrolib (=0: not
* used; =3: DF used; =4 matrix DF used).
*
*-----------------------------------------------------------------------
*
USE GANLIB
USE hdf5_wrap
IMPLICIT NONE
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPMAC,IPMPO
INTEGER IACCS,NMIL,NMIX,NGRP,NALBP,IMPX,NCAL,MIXC(NMIX),NSURFD,IDF
REAL TERP(NCAL,NMIX),VOSAP(NMIL),VOLMI2(NMIX)
LOGICAL LALBG,LADFM
CHARACTER(LEN=12) HEDIT
*----
* LOCAL VARIABLES
*----
REAL WEIGHT,FACTOR
CHARACTER RECNAM*80,HSMG*131
INTEGER IKEFF,IKINF,I,IBM,IBMOLD,ICAL,IGR,JGR,ILONG,ITYLCM,IAL,
1 RANK,NBYTE,TYPE,TYPE2,TYPE4,DIMSR(5),NSURFD_OLD,NITMA
LOGICAL LNEW
DOUBLE PRECISION DGAR1,DGAR2
*----
* ALLOCATABLE ARRAYS
*----
REAL, ALLOCATABLE, DIMENSION(:) :: GAR4,ZKINF,ZKEFF,VREAL
REAL, ALLOCATABLE, DIMENSION(:,:) :: GAR6,ALBP,AVGFL2,DISFAC,VFLUX
REAL, ALLOCATABLE, DIMENSION(:,:,:) :: ADF2,ALBP2,ALBP_ERM,SFLUX
REAL, ALLOCATABLE, DIMENSION(:,:,:,:) :: ADF2M,ALBP2_E
CHARACTER(LEN=8), ALLOCATABLE, DIMENSION(:) :: HADF
*----
* SCRATCH STORAGE ALLOCATION
*----
ALLOCATE(GAR4(NGRP*NGRP),GAR6(NGRP,2),ALBP2(NMIX,NALBP,NGRP),
1 ALBP2_E(NMIX,NALBP,NGRP,NGRP),ZKINF(NMIX),ZKEFF(NMIX),
2 HADF(NSURFD),ADF2(NMIX,NGRP,NSURFD),ADF2M(NMIX,NGRP,NGRP,NSURFD),
3 AVGFL2(NMIX,NGRP))
*----
* MICROLIB INITIALIZATION
*----
IKINF=0
IKEFF=0
IDF=0
LNEW=.TRUE.
IF(NSURFD.GT.0) THEN
WRITE(RECNAM,'(8H/output/,A,32H/statept_0/zone_0/discontinuity/)
& ') TRIM(HEDIT)
LNEW=hdf5_group_exists(IPMPO,TRIM(RECNAM))
IF(LNEW) THEN
* new specification
CALL hdf5_info(IPMPO,TRIM(RECNAM)//"DFACTOR",RANK,TYPE2,
& NBYTE,DIMSR)
CALL hdf5_info(IPMPO,TRIM(RECNAM)//"DFACTORGxG",RANK,TYPE4,
& NBYTE,DIMSR)
IF(TYPE2.NE.99) THEN
IDF=3 ! discontinuity factor information
ELSE IF(TYPE4.NE.99) THEN
IDF=4 ! matrix discontinuity factor information
ELSE
CALL hdf5_list(IPMPO,TRIM(RECNAM))
CALL XABORT('MCRAGF: UNABLE TO SET TYPE OF DF.')
ENDIF
ELSE
* old specification
IDF=3 ! discontinuity factor information
ENDIF
ADF2(:NMIX,:NGRP,:NSURFD)=0.0
ADF2M(:NMIX,:NGRP,:NGRP,:NSURFD)=0.0
ENDIF
AVGFL2(:NMIX,:NGRP)=0.0
IF(NALBP.NE.0) ALBP2(:NMIX,:NALBP,:NGRP)=0.0
ZKINF(:NMIX)=0.0
ZKEFF(:NMIX)=0.0
NSURFD_OLD=NSURFD
IF(IACCS.NE.0) THEN
! Recover ADF, GFF and physical albedos previously computed
CALL LCMLEN(IPMAC,'VOLUME',ILONG,ITYLCM)
IF(ILONG.EQ.0) CALL XABORT('MCRAGF: NO VOLUMES IN MACROLIB.')
CALL LCMGET(IPMAC,'VOLUME',VOLMI2)
IF(NALBP.GT.0) THEN
CALL LCMLEN(IPMAC,'ALBEDO',ILONG,ITYLCM)
IF(ILONG.EQ.NALBP*NGRP) THEN
* diagonal albedo matrix
ALLOCATE(ALBP(NALBP,NGRP))
CALL LCMGET(IPMAC,'ALBEDO',ALBP)
DO IBM=1,NMIX ! mixtures in Macrolib
ALBP2(IBM,:NALBP,:NGRP)=ALBP(:NALBP,:NGRP)
ENDDO
DEALLOCATE(ALBP)
ELSE IF(ILONG.EQ.NALBP*NGRP*NGRP) THEN
* GxG albedo matrix
ALLOCATE(ALBP_ERM(NALBP,NGRP,NGRP))
CALL LCMGET(IPMAC,'ALBEDO',ALBP_ERM)
DO IBM=1,NMIX ! mixtures in Macrolib
ALBP2_E(IBM,:NALBP,:NGRP,:NGRP)=
& ALBP_ERM(:NALBP,:NGRP,:NGRP)
ENDDO
DEALLOCATE(ALBP_ERM)
ENDIF
ENDIF
IF(NSURFD_OLD.GT.0) THEN
CALL LCMLEN(IPMAC,'ADF',ILONG,ITYLCM)
IF(ILONG.EQ.0) THEN
CALL LCMLIB(IPMAC)
CALL XABORT('MCRAGF: UNABLE TO FIND DIRECTORY ADF.')
ENDIF
CALL LCMSIX(IPMAC,'ADF',1)
CALL LCMGET(IPMAC,'NTYPE',NSURFD)
IF(NSURFD.GT.NSURFD_OLD) THEN
DEALLOCATE(ADF2M,ADF2,HADF)
ALLOCATE(HADF(NSURFD),ADF2(NMIX,NGRP,NSURFD),
& ADF2M(NMIX,NGRP,NGRP,NSURFD))
ADF2(:NMIX,:NGRP,:NSURFD)=0.0
ADF2M(:NMIX,:NGRP,:NGRP,:NSURFD)=0.0
ENDIF
CALL LCMGTC(IPMAC,'HADF',8,NSURFD,HADF)
DO I=1,NSURFD
CALL LCMLEN(IPMAC,HADF(I),ILONG,ITYLCM)
IF(ILONG.EQ.NMIX*NGRP) THEN
CALL LCMGET(IPMAC,HADF(I),ADF2(1,1,I))
ELSE IF(ILONG.EQ.NMIX*NGRP*NGRP) THEN
CALL LCMGET(IPMAC,HADF(I),ADF2M(1,1,1,I))
ENDIF
ENDDO
CALL LCMGET(IPMAC,'AVG_FLUX',AVGFL2)
CALL LCMSIX(IPMAC,' ',2)
ENDIF
DO IBM=1,NMIX
IF(MIXC(IBM).NE.0) THEN
IF(NALBP.NE.0) THEN
IF(LALBG) THEN
ALBP2(IBM,:NALBP,:NGRP)=0.0
ELSE
ALBP2_E(IBM,:NALBP,:NGRP,:NGRP)=0.0
ENDIF
ENDIF
IF((NSURFD.GT.0).AND.(IDF.EQ.3)) THEN
ADF2(IBM,:NGRP,:NSURFD)=0.0
ELSE IF((NSURFD.GT.0).AND.(IDF.EQ.4)) THEN
ADF2M(IBM,:NGRP,:NGRP,:NSURFD)=0.0
ENDIF
AVGFL2(IBM,:NGRP)=0.0
ZKINF(IBM)=0.0
ZKEFF(IBM)=0.0
ENDIF
ENDDO
ENDIF
*----
* OVERALL ELEMENTARY CALCULATION LOOP
*----
DO 40 ICAL=1,NCAL
IF(NSURFD_OLD.GT.0) THEN
IF(LNEW) THEN
ALLOCATE(SFLUX(NMIL,NGRP**2,NSURFD_OLD),VFLUX(NMIL,NGRP))
DO IBMOLD=1,NMIL
WRITE(RECNAM,'(8H/output/,A,9H/statept_,I0,6H/zone_,I0,1H/)
& ') TRIM(HEDIT),ICAL-1,IBMOLD-1
CALL hdf5_read_data(IPMPO,TRIM(RECNAM)//"ZONEFLUX",VREAL)
VFLUX(IBMOLD,:NGRP)=VREAL(:NGRP)/VOSAP(IBMOLD)
DEALLOCATE(VREAL)
WRITE(RECNAM,'(8H/output/,A,9H/statept_,I0,6H/zone_,I0,
& 15H/discontinuity/)') TRIM(HEDIT),ICAL-1,IBMOLD-1
CALL hdf5_read_data(IPMPO,TRIM(RECNAM)//"NSURF",NITMA)
IF(NITMA.NE.NSURFD_OLD) THEN
WRITE(HSMG,'(32HMCRAGF: THE NUMBER OF SURFACES (,I5,
& 12H) IN MIXTURE,I5,31H IS DIFFERENT FROM THE NUMBER (,I5,
& 15H) IN MIXTURE 1.)') NITMA,IBMOLD,NSURFD_OLD
CALL XABORT(HSMG)
ENDIF
IF(IDF.EQ.3) THEN
CALL hdf5_read_data(IPMPO,TRIM(RECNAM)//"DFACTOR",DISFAC)
DO I=1,NSURFD_OLD
SFLUX(IBMOLD,:NGRP,I)=DISFAC(I,:NGRP)
ENDDO
DEALLOCATE(DISFAC)
ELSE IF(IDF.EQ.4) THEN
CALL hdf5_read_data(IPMPO,TRIM(RECNAM)//"DFACTORGxG",
& DISFAC)
DO I=1,NSURFD_OLD
SFLUX(IBMOLD,:NGRP**2,I)=DISFAC(I,:NGRP**2)
ENDDO
DEALLOCATE(DISFAC)
ENDIF
ENDDO
ELSE
ALLOCATE(SFLUX(NMIL,NGRP,NSURFD_OLD),VFLUX(NMIL,NGRP))
CALL SPHMOL(IPMPO,ICAL,NMIL,NGRP,NSURFD_OLD,HEDIT,VOSAP,
& SFLUX,VFLUX)
ENDIF
DO IBM=1,NMIX ! mixtures in Macrolib
IBMOLD=MIXC(IBM)
IF(IBMOLD.GT.NMIL) CALL XABORT('MCRAGF: NMIL OVERFLOW.')
IF(IBMOLD.EQ.0) CYCLE
WEIGHT=TERP(ICAL,IBM)
IF(WEIGHT.EQ.0.0) CYCLE
IF(IDF.EQ.3) THEN
DO I=1,NSURFD_OLD
WRITE(HADF(I),'(3HFD_,I5.5)') I
ADF2(IBM,:NGRP,I)=ADF2(IBM,:NGRP,I)+WEIGHT*
& SFLUX(IBMOLD,:NGRP,I)*VFLUX(IBMOLD,:NGRP)
ENDDO
ELSE IF(IDF.EQ.4) THEN
DO I=1,NSURFD_OLD
WRITE(HADF(I),'(3HFD_,I5.5)') I
DO JGR=1,NGRP
DO IGR=1,NGRP
ADF2M(IBM,IGR,JGR,I)=ADF2M(IBM,IGR,JGR,I)+WEIGHT*
& SFLUX(IBMOLD,(JGR-1)*NGRP+IGR,I)*VFLUX(IBMOLD,IGR)
ENDDO
ENDDO
ENDDO
ENDIF
AVGFL2(IBM,:NGRP)=AVGFL2(IBM,:NGRP)+WEIGHT*VFLUX(IBMOLD,:NGRP)
ENDDO
DEALLOCATE(VFLUX,SFLUX)
ENDIF
*----
* PROCESS PHYSICAL ALBEDO INFORMATION
*----
WRITE(RECNAM,'(8H/output/,A,9H/statept_,I0,6H/flux/)')
& TRIM(HEDIT),ICAL-1
IF((NALBP.GT.0).AND.LALBG) THEN
* diagonal albedo matrix
CALL hdf5_read_data(IPMPO,TRIM(RECNAM)//"ALBEDO",ALBP)
DO 20 IBM=1,NMIX ! mixtures in Macrolib
IBMOLD=MIXC(IBM)
IF(IBMOLD.EQ.0) GO TO 20
WEIGHT=TERP(ICAL,IBM)
IF(WEIGHT.EQ.0.0) GO TO 20
DO IGR=1,NGRP
DO IAL=1,NALBP
FACTOR=(1.0-ALBP(IAL,IGR))/(1.0+ALBP(IAL,IGR))
ALBP2(IBM,IAL,IGR)=ALBP2(IBM,IAL,IGR)+WEIGHT*FACTOR
ENDDO
ENDDO
20 CONTINUE
DEALLOCATE(ALBP)
ELSE IF(NALBP.GT.0) THEN
* GxG albedo matrix
CALL hdf5_read_data(IPMPO,TRIM(RECNAM)//"ALBEDOGxG",ALBP_ERM)
DO 25 IBM=1,NMIX ! mixtures in Macrolib
IBMOLD=MIXC(IBM)
IF(IBMOLD.EQ.0) GO TO 25
WEIGHT=TERP(ICAL,IBM)
IF(WEIGHT.EQ.0.0) GO TO 25
DO IGR=1,NGRP
DO JGR=1,NGRP
DO IAL=1,NALBP
FACTOR=(1.0-ALBP_ERM(IAL,IGR,JGR))/(1.0+
1 ALBP_ERM(IAL,IGR,JGR))
ALBP2_E(IBM,IAL,IGR,JGR)=ALBP2_E(IBM,IAL,IGR,JGR)+WEIGHT*
1 FACTOR
ENDDO
ENDDO
ENDDO
25 CONTINUE
DEALLOCATE(ALBP_ERM)
ENDIF
*----
* PROCESS KINF AND KEFF
*----
DO 30 IBM=1,NMIX ! mixtures in Macrolib
IBMOLD=MIXC(IBM)
IF(IBMOLD.EQ.0) GO TO 30
WEIGHT=TERP(ICAL,IBM)
IF(WEIGHT.EQ.0.0) GO TO 30
WRITE(RECNAM,'(8H/output/,A,9H/statept_,I0,8H/addons/)')
& TRIM(HEDIT),ICAL-1
CALL hdf5_info(IPMPO,TRIM(RECNAM)//"KINF",RANK,TYPE,NBYTE,DIMSR)
IF(TYPE.NE.99) THEN
IKINF=1
CALL hdf5_read_data(IPMPO,TRIM(RECNAM)//"KINF",FACTOR)
ZKINF(IBM)=ZKINF(IBM)+WEIGHT*FACTOR
ENDIF
CALL hdf5_info(IPMPO,TRIM(RECNAM)//"KEFF",RANK,TYPE,NBYTE,DIMSR)
IF(TYPE.NE.99) THEN
IKEFF=1
CALL hdf5_read_data(IPMPO,TRIM(RECNAM)//"KEFF",FACTOR)
ZKEFF(IBM)=ZKEFF(IBM)+WEIGHT*FACTOR
ENDIF
30 CONTINUE
40 CONTINUE
*----
* SAVE ADF INFORMATION
*----
IF((NSURFD.GT.0).AND.(IDF.EQ.3)) THEN
CALL LCMSIX(IPMAC,'ADF',1)
CALL LCMPUT(IPMAC,'NTYPE',1,1,NSURFD)
CALL LCMPTC(IPMAC,'HADF',8,NSURFD,HADF)
DO IBM=1,NMIX
IF(MIXC(IBM).EQ.0) CYCLE
DO IGR=1,NGRP
ADF2(IBM,IGR,:NSURFD)=ADF2(IBM,IGR,:NSURFD)/AVGFL2(IBM,IGR)
ENDDO
IF(NSURFD.GT.NSURFD_OLD) THEN
IF(NSURFD_OLD.GT.2) CALL XABORT('MCRAGF: INVALID NSURFD.')
* assign the same ADF to all sides.
DO I=2,NSURFD
ADF2(IBM,:NGRP,I)=ADF2(IBM,:NGRP,1)
ENDDO
ENDIF
ENDDO
IF(LADFM) THEN
DO I=1,NSURFD
CALL LCMPUT(IPMAC,HADF(I),NMIX*NGRP,2,ADF2(1,1,I))
ENDDO
ELSE
* write non-matrix DF into a matrix DF
DO I=1,NSURFD
DO IBM=1,NMIX
IF(MIXC(IBM).EQ.0) CYCLE
ADF2M(IBM,:NGRP,:NGRP,I)=0.0
IF(IDF.EQ.3) THEN
DO IGR=1,NGRP
ADF2M(IBM,IGR,IGR,I)=ADF2(IBM,IGR,I)
ENDDO
ELSE IF(IDF.EQ.4) THEN
DO IGR=1,NGRP
ADF2M(IBM,IGR,IGR,I)=ADF2(IBM,IGR,I)
ENDDO
ENDIF
ENDDO
CALL LCMPUT(IPMAC,HADF(I),NMIX*NGRP*NGRP,2,ADF2M(1,1,1,I))
ENDDO
IDF=4
ENDIF
CALL LCMPUT(IPMAC,'AVG_FLUX',NMIX*NGRP,2,AVGFL2)
CALL LCMSIX(IPMAC,' ',2)
IF(IMPX.GT.1) THEN
DO IBM=1,NMIX
IF(MIXC(IBM).EQ.0) CYCLE
WRITE(6,'(/40H MCRAGF: DISCONTINUITY FACTORS - MIXTURE,I5)')
1 IBM
DO I=1,NSURFD
WRITE(6,'(1X,A,1H:,1P,(5X,10E12.4))') TRIM(HADF(I)),
1 (ADF2(IBM,IGR,I)/AVGFL2(IBM,IGR),IGR=1,NGRP)
ENDDO
ENDDO
ENDIF
ELSE IF((NSURFD.GT.0).AND.(IDF.EQ.4)) THEN
CALL LCMSIX(IPMAC,'ADF',1)
CALL LCMPUT(IPMAC,'NTYPE',1,1,NSURFD)
CALL LCMPTC(IPMAC,'HADF',8,NSURFD,HADF)
DO IBM=1,NMIX
IF(MIXC(IBM).EQ.0) CYCLE
DO JGR=1,NGRP
DO IGR=1,NGRP
ADF2M(IBM,IGR,JGR,:NSURFD)=ADF2M(IBM,IGR,JGR,:NSURFD)/
1 AVGFL2(IBM,IGR)
ENDDO
ENDDO
IF(NSURFD.GT.NSURFD_OLD) THEN
IF(NSURFD_OLD.GT.2) CALL XABORT('MCRAGF: INVALID NSURFD.')
* assign the same matrix ADF to all sides.
DO I=2,NSURFD
ADF2M(IBM,:NGRP,:NGRP,I)=ADF2M(IBM,:NGRP,:NGRP,1)
ENDDO
ENDIF
ENDDO
DO I=1,NSURFD
CALL LCMPUT(IPMAC,HADF(I),NMIX*NGRP*NGRP,2,ADF2M(1,1,1,I))
ENDDO
CALL LCMPUT(IPMAC,'AVG_FLUX',NMIX*NGRP,2,AVGFL2)
CALL LCMSIX(IPMAC,' ',2)
IF(IMPX.GT.1) THEN
DO IBM=1,NMIX
IF(MIXC(IBM).EQ.0) CYCLE
WRITE(6,'(/44H MCRAGF: MATRIX DISCONTINUITY FACTORS - MIXT,
1 3HURE,I5)') IBM
DO I=1,NSURFD
WRITE(6,'(1X,A,1H:,1P,(5X,10E12.4))') TRIM(HADF(I)),
1 ((ADF2M(IBM,IGR,JGR,I),IGR=1,NGRP),JGR=1,NGRP)
ENDDO
ENDDO
ENDIF
ENDIF
*----
* AVERAGE PHYSICAL ALBEDO INFORMATION
*----
IF((NALBP.GT.0).AND.LALBG) THEN
* diagonal albedo matrix
ALLOCATE(ALBP(NALBP,NGRP))
DO IGR=1,NGRP
DO IAL=1,NALBP
DGAR1=0.0D0
DGAR2=0.0D0
DO IBM=1,NMIX
IF(VOLMI2(IBM).EQ.0.0) CYCLE
DGAR1=DGAR1+ALBP2(IBM,IAL,IGR)*VOLMI2(IBM)
DGAR2=DGAR2+VOLMI2(IBM)
ENDDO
ALBP(IAL,IGR)=REAL((1.D0-DGAR1/DGAR2)/(1.D0+DGAR1/DGAR2))
ENDDO
ENDDO
IF(LADFM) THEN
CALL LCMPUT(IPMAC,'ALBEDO',NALBP*NGRP,2,ALBP)
ELSE
* write non-matrix albedo into a matrix albedo
ALLOCATE(ALBP_ERM(NALBP,NGRP,NGRP))
ALBP_ERM(:NALBP,:NGRP,:NGRP)=0.0
DO IGR=1,NGRP
DO IAL=1,NALBP
ALBP_ERM(IAL,IGR,IGR)=ALBP(IAL,IGR)
ENDDO
ENDDO
CALL LCMPUT(IPMAC,'ALBEDO',NALBP*NGRP*NGRP,2,ALBP_ERM)
DEALLOCATE(ALBP_ERM)
ENDIF
DEALLOCATE(ALBP)
ELSE IF(NALBP.GT.0) THEN
* GxG albedo matrix
ALLOCATE(ALBP_ERM(NALBP,NGRP,NGRP))
DO IGR=1,NGRP
DO JGR=1,NGRP
DO IAL=1,NALBP
DGAR1=0.0D0
DGAR2=0.0D0
DO IBM=1,NMIX
IF(VOLMI2(IBM).EQ.0.0) CYCLE
DGAR1=DGAR1+ALBP2_E(IBM,IAL,IGR,JGR)*VOLMI2(IBM)
DGAR2=DGAR2+VOLMI2(IBM)
ENDDO
ALBP_ERM(IAL,IGR,JGR)=REAL((1.D0-DGAR1/DGAR2)/(1.D0+
1 DGAR1/DGAR2))
ENDDO
ENDDO
ENDDO
CALL LCMPUT(IPMAC,'ALBEDO',NALBP*NGRP*NGRP,2,ALBP_ERM)
DEALLOCATE(ALBP_ERM)
ENDIF
*----
* AVERAGE KINF
*----
IF(IKINF.EQ.1) THEN
DGAR1=0.0D0
DGAR2=0.0D0
DO IBM=1,NMIX
DGAR1=DGAR1+ZKINF(IBM)*VOLMI2(IBM)
DGAR2=DGAR2+VOLMI2(IBM)
ENDDO
FACTOR=REAL(DGAR1/DGAR2)
CALL LCMPUT(IPMAC,'K-INFINITY',1,2,FACTOR)
ENDIF
*----
* AVERAGE KEFF
*----
IF(IKEFF.EQ.1) THEN
DGAR1=0.0D0
DGAR2=0.0D0
DO IBM=1,NMIX
DGAR1=DGAR1+ZKEFF(IBM)*VOLMI2(IBM)
DGAR2=DGAR2+VOLMI2(IBM)
ENDDO
FACTOR=REAL(DGAR1/DGAR2)
CALL LCMPUT(IPMAC,'K-EFFECTIVE',1,2,FACTOR)
ENDIF
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(AVGFL2,ADF2M,ADF2,HADF,ZKEFF,ZKINF,ALBP2_E,ALBP2,
1 GAR6,GAR4)
RETURN
END
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