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|
*DECK NCRAGF
SUBROUTINE NCRAGF(IPMAC,IPCPO,IACCS,NMIL,NMIX,NGRP,NGFF,NALBP,
1 IMPX,NCAL,TERP,MIXC,IDF,NTYPE,NFINF)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Build the macrolib by scanning the NCAL elementary calculations and
* weighting them with TERP factors. ADF, GFF and physical albedos part.
*
*Copyright:
* Copyright (C) 2015 Ecole Polytechnique de Montreal
*
*Author(s):
* R. Chambon, A. Hebert
*
*Parameters: input
* IPMAC address of the output macrolib LCM object.
* IPCPO address of the multicompo object.
* IACCS =0 macrolib is created; =1 ... is updated.
* NMIL number of material mixtures in the multicompo.
* NMIX maximum number of material mixtures in the macrolib.
* NGRP number of energy groups.
* NGFF number of group form factors per energy group.
* NALBP number of physical albedos per energy group.
* IMPX print parameter (equal to zero for no print).
* NCAL number of elementary calculations in the multicompo.
* TERP interpolation factors.
* MIXC mixture index in the multicompo corresponding to each macrolib
* mixture. Equal to zero if a macrolib mixture is not updated.
* IDF ADF type, 0 = none, 1 = Albedo, 2 = FD_B/FD_C/..., 3 = ADF.
* NTYPE number of ADF.
* NFINF number of 'enriched' flux (for pin power reconstruction in
* NAP:).
*
*-----------------------------------------------------------------------
*
USE GANLIB
IMPLICIT NONE
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPMAC,IPCPO
INTEGER IACCS,NMIL,NMIX,NGRP,NGFF,NALBP,IMPX,NCAL,MIXC(NMIX),IDF,
1 NTYPE,NFINF
REAL TERP(NCAL,NMIX)
*----
* LOCAL VARIABLES
*----
INTEGER, PARAMETER::IOUT=6
INTEGER, PARAMETER::MAXIFX=5
INTEGER, PARAMETER::NSTATE=40
INTEGER FINF(MAXIFX),NITMA
REAL WEIGHT,FACTOR,ZZZ
CHARACTER FINFN*8,HSMG*131
TYPE(C_PTR) JPCPO,KPCPO,LPCPO,MPCPO
INTEGER IKEFF,IKINF,I,IBM,IBMOLD,ICAL,IGR,JGR,IGFF,ILONG,ITYLCM,
1 ITYPE,ITYP2,JTYPE,IAL,NTYPE2
INTEGER ISTATE(NSTATE)
DOUBLE PRECISION GAR1,GAR2
*----
* ALLOCATABLE ARRAYS
*----
REAL, ALLOCATABLE, DIMENSION(:) :: GAR4,VOL,ZKINF,ZKEFF
REAL, ALLOCATABLE, DIMENSION(:,:) :: GAR6,ALBP
REAL, ALLOCATABLE, DIMENSION(:,:,:) :: GAR5,ADF2,ALBP2
REAL, ALLOCATABLE, DIMENSION(:,:,:,:) :: GFF,ADF2M
CHARACTER(LEN=8), ALLOCATABLE, DIMENSION(:) :: HADF,HADF2
*----
* SCRATCH STORAGE ALLOCATION
*----
ALLOCATE(GAR4(NGRP*NGRP),GAR6(NGRP,2),GFF(NMIX,NGFF,NGRP,2+NFINF),
1 GAR5(NGFF,NGRP,2+MAXIFX),ALBP(NALBP,NGRP),ALBP2(NMIX,NALBP,NGRP),
2 ZKINF(NMIX),ZKEFF(NMIX),HADF(NTYPE),ADF2(NMIX,NGRP,NTYPE),
3 ADF2M(NMIX,NGRP,NGRP,NTYPE))
*----
* OVERALL MULTICOMPO MIXTURE LOOP
*----
IKINF=0
IKEFF=0
JPCPO=LCMGID(IPCPO,'MIXTURES')
IF(NALBP.NE.0) ALBP2(:NMIX,:NALBP,:NGRP)=0.0
ZKINF(:NMIX)=0.0
ZKEFF(:NMIX)=0.0
DO 500 IBMOLD=1,NMIL
IF(IMPX.GT.0) WRITE(IOUT,'(/33H NCRAGF: PROCESS MULTICOMPO MIXTU,
1 2HRE,I5)') IBMOLD
KPCPO=LCMGIL(JPCPO,IBMOLD)
LPCPO=LCMGID(KPCPO,'CALCULATIONS')
*----
* READ EXISTING MACROLIB INFORMATION
*----
MPCPO=LCMGIL(LPCPO,1)
CALL LCMGET(MPCPO,'STATE-VECTOR',ISTATE)
IF(ISTATE(1).NE.1) CALL XABORT('NCRAGF: THE NUMBER OF MIXTURE SH'
1 //'OULD ALWAYS BE EQUAL TO 1 IN A MULTICOMPO MICROLIB BRANCH.')
IF(IACCS.EQ.0) THEN !IACCS
IF((IDF.NE.0).OR.(NGFF.NE.0)) CALL LCMSIX(MPCPO,'MACROLIB',1)
IF(IDF.NE.0) THEN
!copy ADF names from multicompo
CALL LCMSIX(IPMAC,'ADF',1)
CALL LCMLEN(MPCPO,'ADF',ILONG,ITYLCM)
IF(ILONG.EQ.0) CALL XABORT('NCRAGF: MISSING ADF DIRECTORY I'
1 //'N MULTICOMPO OBJECT.')
CALL LCMSIX(MPCPO,'ADF',1)
CALL LCMEQU(MPCPO,IPMAC)
IF(IDF.EQ.1) THEN
CALL LCMLEN(IPMAC,'ALBS00',ILONG,ITYLCM)
IF(ILONG.GT.0) CALL LCMDEL(IPMAC,'ALBS00')
ADF2(:NMIX,:NGRP,:NTYPE)=0.0
ELSE IF((IDF.EQ.2).OR.(IDF.EQ.3)) THEN
CALL LCMGET(MPCPO,'NTYPE',NITMA)
IF(NITMA.NE.NTYPE) CALL XABORT('NCRAGF: INVALID NTYPE(1).')
IF(NTYPE.GT.0) THEN
CALL LCMGTC(MPCPO,'HADF',8,NTYPE,HADF)
DO ITYPE=1,NTYPE
CALL LCMLEN(IPMAC,HADF(ITYPE),ILONG,ITYLCM)
IF(ILONG.GT.0) CALL LCMDEL(IPMAC,HADF(ITYPE))
ENDDO
ENDIF
ADF2(:NMIX,:NGRP,:NTYPE)=0.0
ELSE IF(IDF.EQ.4) THEN
CALL LCMGET(MPCPO,'NTYPE',NITMA)
IF(NITMA.NE.NTYPE) CALL XABORT('NCRAGF: INVALID NTYPE(2).')
IF(NTYPE.GT.0) THEN
CALL LCMGTC(MPCPO,'HADF',8,NTYPE,HADF)
DO ITYPE=1,NTYPE
CALL LCMLEN(IPMAC,HADF(ITYPE),ILONG,ITYLCM)
IF(ILONG.GT.0) CALL LCMDEL(IPMAC,HADF(ITYPE))
ENDDO
ENDIF
ADF2M(:NMIX,:NGRP,:NGRP,:NTYPE)=0.0
ENDIF
CALL LCMSIX(MPCPO,' ',2)
CALL LCMSIX(IPMAC,' ',2)
ENDIF
IF(NGFF.NE.0) THEN
!copy GFF geom and FINF names from multicompo
CALL LCMSIX(IPMAC,'GFF',1)
CALL LCMLEN(MPCPO,'GFF',ILONG,ITYLCM)
IF(ILONG.EQ.0) CALL XABORT('NCRAGF: MISSING GFF DIRECTORY I'
1 //'N MULTICOMPO OBJECT.')
CALL LCMSIX(MPCPO,'GFF',1)
CALL LCMEQU(MPCPO,IPMAC)
IF(NFINF.GT.0) THEN
CALL LCMGET(IPMAC,'FINF_NUMBER ',FINF)
DO I=1,NFINF
WRITE(FINFN,'(5HFINF_,I3.3)') FINF(I)
CALL LCMLEN(IPMAC,FINFN,ILONG,ITYLCM)
IF(ILONG.GT.0) CALL LCMDEL(IPMAC,FINFN)
ENDDO
ENDIF
CALL LCMSIX(MPCPO,' ',2)
CALL LCMSIX(IPMAC,' ',2)
GFF(:NMIX,:NGFF,:NGRP,:2+NFINF)=0.0
ENDIF
IF((IDF.NE.0).OR.(NGFF.NE.0)) CALL LCMSIX(MPCPO,' ',2)
CALL LCMGET(IPMAC,'STATE-VECTOR',ISTATE)
ISTATE(8)=NALBP
ISTATE(12)=IDF
ISTATE(16)=NGFF
CALL LCMPUT(IPMAC,'STATE-VECTOR',NSTATE,1,ISTATE)
IACCS=1
ELSE !IACCS
* Recover ADF, GFF and physical albedos previously computed
IF(NGFF.NE.0) THEN
CALL LCMSIX(IPMAC,'GFF',1)
CALL LCMGET(IPMAC,'NWT0',GFF(1,1,1,1))
CALL LCMGET(IPMAC,'H-FACTOR',GFF(1,1,1,2))
IF(NFINF.GT.0) THEN
CALL LCMGET(IPMAC,'FINF_NUMBER ',FINF)
DO I=1,NFINF
WRITE(FINFN,'(5HFINF_,I3.3)') FINF(I)
CALL LCMGET(IPMAC,FINFN,GFF(1,1,1,2+I))
ENDDO
ENDIF
DO IBM=1,NMIX
IF(MIXC(IBM).EQ.IBMOLD) GFF(IBM,:NGFF,:NGRP,:NFINF+2)=0.0
ENDDO
CALL LCMSIX(IPMAC,' ',2)
ENDIF
IF(IDF.NE.0) THEN
CALL LCMSIX(IPMAC,'ADF',1)
IF(IDF.EQ.1) THEN
DO IBM=1,NMIX
IF(MIXC(IBM).EQ.IBMOLD) ADF2(IBM,:NGRP,1)=0.0
ENDDO
ELSE IF((IDF.EQ.2).OR.(IDF.EQ.3)) THEN
CALL LCMGTC(IPMAC,'HADF',8,NTYPE,HADF)
DO ITYPE=1,NTYPE
CALL LCMGET(IPMAC,HADF(ITYPE),ADF2(1,1,ITYPE))
DO IBM=1,NMIX
IF(MIXC(IBM).EQ.IBMOLD) ADF2(IBM,:NGRP,ITYPE)=0.0
ENDDO
ENDDO
ELSE IF(IDF.EQ.4) THEN
CALL LCMGTC(IPMAC,'HADF',8,NTYPE,HADF)
DO ITYPE=1,NTYPE
CALL LCMGET(IPMAC,HADF(ITYPE),ADF2M(1,1,1,ITYPE))
DO IBM=1,NMIX
IF(MIXC(IBM).EQ.IBMOLD) ADF2M(IBM,:NGRP,:NGRP,ITYPE)=0.0
ENDDO
ENDDO
ENDIF
CALL LCMSIX(IPMAC,' ',2)
ENDIF
DO IBM=1,NMIX
IF(MIXC(IBM).EQ.IBMOLD) THEN
IF(NALBP.NE.0) ALBP2(IBM,:NALBP,:NGRP)=0.0
ZKINF(IBM)=0.0
ZKEFF(IBM)=0.0
ENDIF
ENDDO
CALL LCMGET(IPMAC,'STATE-VECTOR',ISTATE)
ISTATE(8)=NALBP
ISTATE(12)=IDF
ISTATE(16)=NGFF
CALL LCMPUT(IPMAC,'STATE-VECTOR',NSTATE,1,ISTATE)
*
ENDIF !IACCS
*----
* OVERALL ELEMENTARY CALCULATION LOOP
*----
DO 210 ICAL=1,NCAL
MPCPO=LCMGIL(LPCPO,ICAL)
DO 200 IBM=1,NMIX
WEIGHT=TERP(ICAL,IBM)
IF((MIXC(IBM).NE.IBMOLD).OR.(WEIGHT.EQ.0.0)) GO TO 200
*----
* PERFORM INTERPOLATION
*----
*----
* PROCESS GROUP FORM FACTOR (GFF) INFORMATION
*----
IF(NGFF.NE.0) THEN
CALL LCMSIX(MPCPO,'MACROLIB',1)
CALL LCMLEN(MPCPO,'GFF',ILONG,ITYLCM)
IF(ILONG.NE.0) THEN
CALL LCMSIX(MPCPO,'GFF',1)
CALL LCMLEN(MPCPO,'NWT0',ILONG,ITYLCM)
IF(ILONG.GT.NGFF*NGRP*(2+MAXIFX)) THEN
CALL LCMLIB(MPCPO)
WRITE(6,'(6H NGFF=,I6,6H NGRP=,I6,11H LEN(NWT0)=,I6)')
> NGFF,NGRP,ILONG
CALL XABORT('NCRAGF: MAXIFX OVERFLOW.')
ENDIF
CALL LCMGET(MPCPO,'NWT0',GAR5(1,1,1))
CALL LCMGET(MPCPO,'H-FACTOR',GAR5(1,1,2))
CALL LCMLEN(MPCPO,'FINF_NUMBER ',NFINF,ITYLCM)
IF(NFINF.GT.0) THEN
CALL LCMGET(MPCPO,'FINF_NUMBER ',FINF)
DO I=1,NFINF
WRITE(FINFN,'(5HFINF_,I3.3)') FINF(I)
CALL LCMGET(MPCPO,FINFN,GAR5(1,1,2+I))
ENDDO
ENDIF
DO IGFF=1,NGFF
DO IGR=1,NGRP
GFF(IBM,IGFF,IGR,1)=GFF(IBM,IGFF,IGR,1)
1 +WEIGHT*GAR5(IGFF,IGR,1)
GFF(IBM,IGFF,IGR,2)=GFF(IBM,IGFF,IGR,2)
1 +WEIGHT*GAR5(IGFF,IGR,2)
DO I=1,NFINF
GFF(IBM,IGFF,IGR,2+I)=GFF(IBM,IGFF,IGR,2+I)
1 +WEIGHT*GAR5(IGFF,IGR,2+I)
ENDDO
ENDDO
ENDDO
CALL LCMSIX(MPCPO,' ',2)
ENDIF
CALL LCMSIX(MPCPO,' ',2)
ENDIF
*----
* PROCESS ADF INFORMATION
*----
IF(IDF.NE.0) THEN
CALL LCMSIX(MPCPO,'MACROLIB',1)
CALL LCMLEN(MPCPO,'ADF',ILONG,ITYLCM)
IF(ILONG.NE.0) THEN
CALL LCMSIX(MPCPO,'ADF',1)
IF(IDF.EQ.1) THEN
GAR6(:NGRP,:2)=0.0
CALL LCMGET(MPCPO,'ALBS00',GAR6)
DO IGR=1,NGRP
ADF2(IBM,IGR,:2)=ADF2(IBM,IGR,:2)+WEIGHT*GAR6(IGR,:2)
ENDDO
ELSE IF((IDF.EQ.2).OR.(IDF.EQ.3)) THEN
CALL LCMGET(MPCPO,'NTYPE',NTYPE2)
ALLOCATE(HADF2(NTYPE2))
CALL LCMGTC(MPCPO,'HADF',8,NTYPE2,HADF2)
IF(NTYPE2.EQ.1) THEN
* assign the same ADF to all sides.
CALL LCMLEN(MPCPO,HADF2(1),ILONG,ITYLCM)
IF(ILONG.NE.NGRP) CALL XABORT('NCRAGF: INVALID ADF LENGT'
1 //'H(1).')
CALL LCMGET(MPCPO,HADF2(1),GAR4)
DO ITYPE=1,NTYPE
DO IGR=1,NGRP
ADF2(IBM,IGR,ITYPE)=ADF2(IBM,IGR,ITYPE)+WEIGHT*
1 GAR4(IGR)
ENDDO
ENDDO
ELSE
IF(NTYPE2.GT.NTYPE) CALL XABORT('NCRAGF: NTYPE OVERFLOW.')
DO ITYP2=1,NTYPE2
ITYPE=0
DO JTYPE=1,NTYPE
IF(HADF2(ITYP2).EQ.HADF(JTYPE)) THEN
ITYPE=JTYPE
GO TO 180
ENDIF
ENDDO
WRITE(HSMG,'(18HNCRAGF: ADF NAMED ,A,11H NOT FOUND.)')
1 TRIM(HADF2(ITYP2))
CALL XABORT(HSMG)
180 CALL LCMLEN(MPCPO,HADF2(ITYP2),ILONG,ITYLCM)
IF(ILONG.NE.NGRP) CALL XABORT('NCRAGF: INVALID ADF LEN'
1 //'GTH(2).')
CALL LCMGET(MPCPO,HADF2(ITYP2),GAR4)
DO IGR=1,NGRP
ADF2(IBM,IGR,ITYPE)=ADF2(IBM,IGR,ITYPE)+WEIGHT*
1 GAR4(IGR)
ENDDO
ENDDO
ENDIF
DEALLOCATE(HADF2)
ELSE IF(IDF.EQ.4) THEN
CALL LCMGET(MPCPO,'NTYPE',NTYPE2)
ALLOCATE(HADF2(NTYPE2))
CALL LCMGTC(MPCPO,'HADF',8,NTYPE2,HADF2)
IF(NTYPE2.EQ.1) THEN
* assign the same MADF to all sides.
CALL LCMLEN(MPCPO,HADF2(1),ILONG,ITYLCM)
IF(ILONG.NE.NGRP*NGRP) CALL XABORT('NCRAGF: INVALID ADFM'
1 //'LENGTH(1).')
CALL LCMGET(MPCPO,HADF2(1),GAR4)
DO ITYPE=1,NTYPE
DO JGR=1,NGRP
DO IGR=1,NGRP
ADF2M(IBM,IGR,JGR,ITYPE)=ADF2M(IBM,IGR,JGR,ITYPE)+
1 WEIGHT*GAR4((JGR-1)*NGRP+IGR)
ENDDO
ENDDO
ENDDO
ELSE
IF(NTYPE2.GT.NTYPE) CALL XABORT('NCRAGF: NTYPE OVERFLOW.')
DO ITYP2=1,NTYPE2
ITYPE=0
DO JTYPE=1,NTYPE
IF(HADF2(ITYP2).EQ.HADF(JTYPE)) THEN
ITYPE=JTYPE
GO TO 190
ENDIF
ENDDO
WRITE(HSMG,'(19HNCRAGF: ADFM NAMED ,A,11H NOT FOUND.)')
1 TRIM(HADF2(ITYP2))
CALL XABORT(HSMG)
CALL LCMLEN(MPCPO,HADF2(ITYP2),ILONG,ITYLCM)
190 IF(ILONG.NE.NGRP*NGRP) CALL XABORT('NCRAGF: INVALID AD'
1 //'FM LENGTH(2).')
CALL LCMGET(MPCPO,HADF2(ITYP2),GAR4)
DO JGR=1,NGRP
DO IGR=1,NGRP
ADF2M(IBM,IGR,JGR,ITYPE)=ADF2M(IBM,IGR,JGR,ITYPE)+
1 WEIGHT*GAR4((JGR-1)*NGRP+IGR)
ENDDO
ENDDO
ENDDO
ENDIF
DEALLOCATE(HADF2)
ENDIF
CALL LCMSIX(MPCPO,' ',2)
ENDIF
CALL LCMSIX(MPCPO,' ',2)
ENDIF
*----
* PROCESS PHYSICAL ALBEDO INFORMATION
*----
IF(NALBP.NE.0) THEN
CALL LCMSIX(MPCPO,'MACROLIB',1)
CALL LCMGET(MPCPO,'ALBEDO',ALBP)
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
CALL LCMSIX(MPCPO,' ',2)
ENDIF
*----
* PROCESS KINF
*----
CALL LCMLEN(MPCPO,'K-INFINITY',IKINF,ITYLCM)
IF(IKINF.EQ.1) THEN
CALL LCMGET(MPCPO,'K-INFINITY',ZZZ)
ZKINF(IBM)=ZKINF(IBM)+WEIGHT*ZZZ
ENDIF
*----
* PROCESS KEFF
*----
CALL LCMLEN(MPCPO,'K-EFFECTIVE',IKEFF,ITYLCM)
IF(IKEFF.EQ.1) THEN
CALL LCMGET(MPCPO,'K-EFFECTIVE',ZZZ)
ZKEFF(IBM)=ZKEFF(IBM)+WEIGHT*ZZZ
ENDIF
200 CONTINUE
210 CONTINUE
*----
* WRITE INTERPOLATED MACROLIB INFORMATION
*----
IF(IDF.EQ.1) THEN
CALL LCMSIX(IPMAC,'ADF',1)
CALL LCMPUT(IPMAC,'ALBS00',NMIX*NGRP*2,2,ADF2(1,1,1))
CALL LCMSIX(IPMAC,' ',2)
ELSE IF((IDF.EQ.2).OR.(IDF.EQ.3)) THEN
CALL LCMSIX(IPMAC,'ADF',1)
CALL LCMGTC(IPMAC,'HADF',8,NTYPE,HADF)
DO ITYPE=1,NTYPE
CALL LCMPUT(IPMAC,HADF(ITYPE),NMIX*NGRP,2,
1 ADF2(1,1,ITYPE))
ENDDO
CALL LCMSIX(IPMAC,' ',2)
IF(IMPX.GT.1) THEN
DO IBM=1,NMIX
IF(MIXC(IBM).EQ.0) CYCLE
WRITE(6,'(/40H NCRAGF: DISCONTINUITY FACTORS - MIXTURE,I5)')
1 IBM
DO ITYPE=1,NTYPE
WRITE(6,'(1X,A,1H:,1P,(5X,10E12.4))') TRIM(HADF(ITYPE)),
1 (ADF2(IBM,IGR,ITYPE),IGR=1,NGRP)
ENDDO
ENDDO
ENDIF
ELSE IF(IDF.EQ.4) THEN
CALL LCMSIX(IPMAC,'ADF',1)
CALL LCMGTC(IPMAC,'HADF',8,NTYPE,HADF)
DO ITYPE=1,NTYPE
CALL LCMPUT(IPMAC,HADF(ITYPE),NMIX*NGRP*NGRP,2,
1 ADF2M(1,1,1,ITYPE))
ENDDO
CALL LCMSIX(IPMAC,' ',2)
IF(IMPX.GT.1) THEN
DO IBM=1,NMIX
IF(MIXC(IBM).EQ.0) CYCLE
WRITE(6,'(/40H NCRAGF: DISCONTINUITY FACTORS - MIXTURE,I5)')
1 IBM
DO ITYPE=1,NTYPE
WRITE(6,'(1X,A,1H:,1P,(5X,10E12.4))') TRIM(HADF(ITYPE)),
1 ((ADF2M(IBM,IGR,JGR,ITYPE),IGR=1,NGRP),JGR=1,NGRP)
ENDDO
ENDDO
ENDIF
ENDIF
IF(NGFF.NE.0) THEN
CALL LCMSIX(IPMAC,'GFF',1)
CALL LCMPUT(IPMAC,'NWT0',NMIX*NGFF*NGRP,2,GFF(1,1,1,1))
CALL LCMPUT(IPMAC,'H-FACTOR',NMIX*NGFF*NGRP,2,GFF(1,1,1,2))
IF(NFINF.GT.0) THEN
CALL LCMGET(IPMAC,'FINF_NUMBER ',FINF)
DO I=1,NFINF
WRITE(FINFN,'(5HFINF_,I3.3)') FINF(I)
CALL LCMPUT(IPMAC,FINFN,NMIX*NGFF*NGRP,2,GFF(1,1,1,2+I))
ENDDO
ENDIF
CALL LCMSIX(IPMAC,' ',2)
ENDIF
IACCS=1
*----
* END OF OVERALL MULTICOMPO MIXTURE LOOP
*----
IF(IMPX.GT.0) WRITE(IOUT,'(/33H NCRAGF: PROCESS MULTICOMPO MIXTU,
1 6HRE-OUT,I5)') IBMOLD
500 CONTINUE
*----
* AVERAGE PHYSICAL ALBEDO INFORMATION
*----
IF(NALBP.NE.0) THEN
ALLOCATE(VOL(NMIX))
CALL LCMGET(IPMAC,'VOLUME',VOL)
DO IGR=1,NGRP
DO IAL=1,NALBP
GAR1=0.0D0
GAR2=0.0D0
DO IBM=1,NMIX
GAR1=GAR1+ALBP2(IBM,IAL,IGR)*VOL(IBM)
GAR2=GAR2+VOL(IBM)
ENDDO
ALBP(IAL,IGR)=REAL((1.0D0-GAR1/GAR2)/(1.0D0+GAR1/GAR2))
ENDDO
ENDDO
DEALLOCATE(VOL)
CALL LCMPUT(IPMAC,'ALBEDO',NALBP*NGRP,2,ALBP(1,1))
ENDIF
*----
* AVERAGE KINF
*----
IF(IKINF.EQ.1) THEN
ALLOCATE(VOL(NMIX))
CALL LCMGET(IPMAC,'VOLUME',VOL)
GAR1=0.0D0
GAR2=0.0D0
DO IBM=1,NMIX
GAR1=GAR1+ZKINF(IBM)*VOL(IBM)
GAR2=GAR2+VOL(IBM)
ENDDO
ZZZ=REAL(GAR1/GAR2)
DEALLOCATE(VOL)
CALL LCMPUT(IPMAC,'K-INFINITY',1,2,ZZZ)
ENDIF
*----
* AVERAGE KEFF
*----
IF(IKEFF.EQ.1) THEN
ALLOCATE(VOL(NMIX))
CALL LCMGET(IPMAC,'VOLUME',VOL)
GAR1=0.0D0
GAR2=0.0D0
DO IBM=1,NMIX
GAR1=GAR1+ZKEFF(IBM)*VOL(IBM)
GAR2=GAR2+VOL(IBM)
ENDDO
ZZZ=REAL(GAR1/GAR2)
DEALLOCATE(VOL)
CALL LCMPUT(IPMAC,'K-EFFECTIVE',1,2,ZZZ)
ENDIF
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(ADF2M,ADF2,HADF,ZKEFF,ZKINF,ALBP2,ALBP,GAR5,GFF,GAR6,
1 GAR4)
RETURN
END
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