path: root/Donjon/src/MCRMAC.f

*DECK MCRMAC
      SUBROUTINE MCRMAC(IPMAC,IPMPO,IACCS,NMIL,NMIX,NGRP,LADFM,IMPX,
     1 HEQUI,HMASL,NCAL,HEDIT,NSURFD,NALBP,ILUPS,MIXC,TERP,LPURE,B2)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Build the Macrolib by scanning the NCAL elementary calculations of
* a HDF5 file and weighting them with TERP factors.
*
*Copyright:
* Copyright (C) 2022 Ecole Polytechnique de Montreal
*
*Author(s): 
* A. Hebert
*
*Parameters: input
* IPMAC   address of the output Macrolib LCM object.
* IPMPO   pointer to 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.
* LADFM   type of discontinuity factors (.true.: diagonal; .false.: GxG).
* IMPX    print parameter (equal to zero for no print).
* HEQUI   keyword of SPH-factor set to be recovered.
* HMASL   keyword of MASL data set to be recovered.
* NCAL    number of elementary calculations in the MPO file.
* HEDIT   name of output group for a (multigroup mesh, output geometry)
*         couple (generally equal to 'output_0').
* NSURFD  number of discontinuity factors.
* NALBP   number of physical albedos per energy group.
* ILUPS   up-scattering removing flag (=1 to remove up-scattering from
*         output cross-sections).
* MIXC    mixture index in the MPO file corresponding to each Microlib.
*         mixture. Equal to zero if a Microlib mixture is not updated.
* TERP    interpolation factors.
* LPURE   =.true. if the interpolation is a pure linear interpolation 
*         with TERP factors.
* B2      buckling.
*
*-----------------------------------------------------------------------
*
      USE GANLIB
      USE hdf5_wrap
      IMPLICIT NONE
*----
*  SUBROUTINE ARGUMENTS
*----
      TYPE(C_PTR) IPMAC,IPMPO
      INTEGER IACCS,NMIL,NMIX,NGRP,IMPX,NCAL,NSURFD,NALBP,ILUPS,
     1 MIXC(NMIX)
      REAL TERP(NCAL,NMIX),B2
      LOGICAL LADFM,LPURE
      CHARACTER(LEN=80) HEQUI,HMASL
      CHARACTER(LEN=12) HEDIT
*----
*  LOCAL VARIABLES
*----
      INTEGER, PARAMETER::IOUT=6
      INTEGER, PARAMETER::MAX1D=40
      INTEGER, PARAMETER::MAX2D=20
      INTEGER, PARAMETER::MAXED=30
      INTEGER, PARAMETER::MAXNFI=1
      INTEGER, PARAMETER::MAXNL=6
      INTEGER, PARAMETER::NSTATE=40
      INTEGER, PARAMETER::MAXRES=MAX1D-8
      INTEGER I, J, I1D, I2D, IBM, IBMOLD, ICAL, IDEL, IDF, IED, IGMAX,
     & IGMIN, IGR, JGR, IL, ILONG, IOF, IPOSDE, ITRANC, ITYLCM, LENGTH,
     & N1D, N2D, NDEL, NED, NEDTMP, NF, NFTMP, NL, NLTMP, IMC, ID, ID_E,
     & ID_G, NENERG, NGEOME, IACCOLD, NALBP2, RANK, NBYTE, TYPE,
     & DIMSR(5)
      REAL FLOTVA, WEIGHT, B2R
      TYPE(C_PTR) JPMAC,KPMAC,IPTMP,JPTMP,KPTMP
      INTEGER ISTATE(NSTATE)
      LOGICAL LMAKE1(MAX1D),LMAKE2(MAX2D),LWD,LALBG
      CHARACTER TEXT8*8,TEXT12*12,CM*2,HMAK1(MAX1D)*12,HMAK2(MAX2D)*12,
     1 HVECT(MAXED)*8,RECNAM*80
*----
*  ALLOCATABLE ARRAYS
*----
      INTEGER, ALLOCATABLE, DIMENSION(:) :: IJJ,NJJ,IPOS,IJJB,NJJB,IPOSB
      INTEGER, ALLOCATABLE, DIMENSION(:,:) :: OUPUTID
      REAL, ALLOCATABLE, DIMENSION(:) :: GAR4,GAR4B,WORK1,WORK2,VOLMI2,
     1 ENERG,VOSAP,WDLA
      REAL, ALLOCATABLE, DIMENSION(:,:) :: SPH
      REAL, ALLOCATABLE, DIMENSION(:,:,:) :: GAR1
      REAL, ALLOCATABLE, DIMENSION(:,:,:,:) :: GAR2,GAR3
      REAL, POINTER, DIMENSION(:) :: FLOT
      TYPE(C_PTR) FLOT_PTR
*----
*  DATA STATEMENTS
*----
      DATA HMAK1 / 'FLUX-INTG','NTOT0','OVERV','DIFF','FLUX-INTG-P1',
     1 'NTOT1','H-FACTOR','TRANC',MAXRES*' '/
*----
*  SCRATCH STORAGE ALLOCATION
*----
      ALLOCATE(IJJ(NMIX),NJJ(NMIX),IPOS(NMIX),IJJB(NMIL),NJJB(NMIL),
     1 IPOSB(NMIL))
      ALLOCATE(GAR1(NMIX,NGRP,MAX1D),GAR2(NMIX,MAXNFI,NGRP,MAX2D),
     1 GAR3(NMIX,NGRP,NGRP,MAXNL),GAR4(NMIX*NGRP),GAR4B(NMIL*NGRP),
     2 VOLMI2(NMIX))
      IACCOLD=IACCS ! for ADF
*----
*  MACROLIB INITIALIZATION
*----
      LMAKE1(:MAX1D)=.FALSE.
      LMAKE2(:MAX2D)=.FALSE.
      GAR1(:NMIX,:NGRP,:MAX1D)=0.0
      GAR2(:NMIX,:MAXNFI,:NGRP,:MAX2D)=0.0
      GAR3(:NMIX,:NGRP,:NGRP,:MAXNL)=0.0
      VOLMI2(:NMIX)=0.0
      IBMOLD=0
      N1D=0
      N2D=0
      NDEL=0
      NL=0
      NF=0
      NED=0
      ITRANC=0
      IDF=0
      N1D=0
      N2D=0
*----
*  READ EXISTING MACROLIB INFORMATION
*----
      IF(IACCS.EQ.0) THEN
        TEXT12='L_MACROLIB'
        CALL LCMPTC(IPMAC,'SIGNATURE',12,TEXT12)
      ELSE
        CALL LCMGTC(IPMAC,'SIGNATURE',12,TEXT12)
        IF(TEXT12.NE.'L_MACROLIB') THEN
          CALL XABORT('MCRMAC: SIGNATURE OF INPUT MACROLIB IS '//TEXT12
     1    //'. L_MACROLIB EXPECTED.')
        ENDIF
        CALL LCMGET(IPMAC,'STATE-VECTOR',ISTATE)
        IF(ISTATE(1).NE.NGRP) THEN
          CALL XABORT('MCRMAC: INVALID NUMBER OF ENERGY GROUPS(2).')
        ELSE IF(ISTATE(2).NE.NMIX) THEN
          CALL XABORT('MCRMAC: INVALID NUMBER OF MIXTURES(2).')
        ENDIF
        NL=ISTATE(3)
        NF=ISTATE(4)
        IF(NF.GT.MAXNFI) CALL XABORT('MCRMAC: MAXNFI OVERFLOW(1).')
        NED=ISTATE(5)
        ITRANC=ISTATE(6)
        NDEL=ISTATE(7)
        IDF=ISTATE(12)
        IF(NED.GT.MAXED) CALL XABORT('MCRMAC: MAXED OVERFLOW(1).')
        CALL LCMGTC(IPMAC,'ADDXSNAME-P0',8,NED,HVECT)
        N1D=8+NED+NL
        N2D=2*(NDEL+1)
        IF(NL.GT.MAXNL) CALL XABORT('MCRMAC: MAXNL OVERFLOW(1).')
        IF(N1D.GT.MAX1D) CALL XABORT('MCRMAC: MAX1D OVERFLOW(1).')
        IF(N2D.GT.MAX2D) CALL XABORT('MCRMAC: MAX2D OVERFLOW(1).')
        DO 10 IED=1,NED
        HMAK1(8+IED)=HVECT(IED)
   10   CONTINUE
        DO 20 IL=1,NL
        WRITE(CM,'(I2.2)') IL-1
        HMAK1(8+NED+IL)='SIGS'//CM
   20   CONTINUE
        HMAK2(1)='NUSIGF'
        HMAK2(2)='CHI'
        DO 30 IDEL=1,NDEL
        WRITE(TEXT8,'(6HNUSIGF,I2.2)') IDEL
        HMAK2(2+2*(IDEL-1)+1)=TEXT8
        WRITE(TEXT8,'(3HCHI,I2.2)') IDEL
        HMAK2(2+2*(IDEL-1)+2)=TEXT8
   30   CONTINUE
        CALL LCMGET(IPMAC,'STATE-VECTOR',ISTATE)
        JPMAC=LCMGID(IPMAC,'GROUP')
        DO 150 IGR=1,NGRP
        KPMAC=LCMGIL(JPMAC,IGR)
        DO 60 I1D=1,N1D
        CALL LCMLEN(KPMAC,HMAK1(I1D),ILONG,ITYLCM)
        IF(ILONG.NE.0) THEN
          CALL LCMGET(KPMAC,HMAK1(I1D),GAR1(1,IGR,I1D))
          DO 50 IBM=1,NMIX
          DO 40 IBMOLD=1,NMIL
          IF(MIXC(IBM).EQ.IBMOLD) GAR1(IBM,IGR,I1D)=0.0
   40     CONTINUE
   50     CONTINUE
        ENDIF
   60   CONTINUE
        DO 100 I2D=1,N2D
        CALL LCMLEN(KPMAC,HMAK2(I2D),ILONG,ITYLCM)
        IF(ILONG.NE.0) THEN
          CALL LCMGET(KPMAC,HMAK2(I2D),GAR2(1,1,IGR,I2D))
          DO 90 I=1,NF
          DO 80 IBM=1,NMIX
          DO 70 IBMOLD=1,NMIL
          IF(MIXC(IBM).EQ.IBMOLD) GAR2(IBM,I,IGR,I2D)=0.0
   70     CONTINUE
   80     CONTINUE
   90     CONTINUE
        ENDIF
  100   CONTINUE
        DO 140 IL=1,NL
        WRITE(CM,'(I2.2)') IL-1
        ILONG=1
        IF(IL.GT.1) CALL LCMLEN(KPMAC,'SCAT'//CM,ILONG,ITYLCM)
        IF(ILONG.NE.0) THEN
          CALL LCMGET(KPMAC,'SCAT'//CM,GAR4)
          CALL LCMGET(KPMAC,'NJJS'//CM,NJJ)
          CALL LCMGET(KPMAC,'IJJS'//CM,IJJ)
          CALL LCMGET(KPMAC,'IPOS'//CM,IPOS)
          DO 130 IBM=1,NMIX
          IPOSDE=IPOS(IBM)
          DO 120 JGR=IJJ(IBM),IJJ(IBM)-NJJ(IBM)+1,-1
          GAR3(IBM,JGR,IGR,IL)=GAR4(IPOSDE)
          DO 110 IBMOLD=1,NMIL
          IF(MIXC(IBM).EQ.IBMOLD) GAR3(IBM,JGR,IGR,IL)=0.0
  110     CONTINUE
          IPOSDE=IPOSDE+1
  120     CONTINUE
  130     CONTINUE
        ENDIF
  140   CONTINUE
  150   CONTINUE
      ENDIF
*----
*  SET ENERGY MESH AND ZONE VOLUMES
*----
      CALL hdf5_read_data(IPMPO,"/energymesh/NENERGYMESH",NENERG)
      CALL hdf5_read_data(IPMPO,"/geometry/NGEOMETRY",NGEOME)
      CALL hdf5_read_data(IPMPO,"/output/OUPUTID",OUPUTID)
      READ(HEDIT,'(7X,I2)') ID
      ID_G=0
      ID_E=0
      DO I=1,NGEOME
        DO J=1,NENERG
          IF(OUPUTID(J,I).EQ.ID) THEN
            ID_G=I-1
            ID_E=J-1
            GO TO 160
          ENDIF
        ENDDO
      ENDDO
      CALL XABORT('MCRMAC: no ID found in /output/OUPUTID.')
  160 WRITE(RECNAM,'(23H/energymesh/energymesh_,I0)') ID_E
      CALL hdf5_read_data(IPMPO,TRIM(RECNAM)//"/ENERGY",ENERG)
      IF(SIZE(ENERG,1)-1.NE.NGRP) CALL XABORT('MCRMAC: INVALID NGRP VA'
     1 //'LUE.')
      DO IGR=1,NGRP+1
        ENERG(IGR)=ENERG(IGR)/1.0E-6
      ENDDO
      WRITE(RECNAM,'(19H/geometry/geometry_,I0,1H/)') ID_G
      CALL hdf5_read_data(IPMPO,TRIM(RECNAM)//"ZONEVOLUME",VOSAP)
*----
*  OVERALL ELEMENTARY CALCULATION LOOP
*----
      DO 300 ICAL=1,NCAL
      DO 170 IBM=1,NMIX ! mixtures in Macrolib
      WEIGHT=TERP(ICAL,IBM)
      IF(WEIGHT.NE.0.0) GO TO 180
  170 CONTINUE
      GO TO 300
*----
*  PRODUCE AN ELEMENTARY MACROLIB
*----
  180 CALL LCMOP(IPTMP,'*ELEMENTARY*',0,1,0)
      ALLOCATE(SPH(NMIL+NALBP,NGRP))
      CALL LCMPUT(IPTMP,'ENERGY',NGRP+1,2,ENERG)
      B2R=B2
      CALL SPHMPO(IPMPO,IPTMP,ICAL,IMPX,HEQUI,HMASL,NMIL,NALBP,NGRP,
     1 HEDIT,VOSAP,ILUPS,SPH,B2R)
*----
*  RECOVER MACROLIB PARAMETERS
*----
      CALL LCMGET(IPTMP,'STATE-VECTOR',ISTATE)
      NLTMP=ISTATE(3)
      NFTMP=ISTATE(4)
      NEDTMP=ISTATE(5)
      IF(NLTMP.GT.MAXNL) CALL XABORT('MCRMAC: MAXNL OVERFLOW(2).')
      IF(NFTMP.GT.MAXNFI) CALL XABORT('MCRMAC: MAXNFI OVERFLOW(2).')
      IF(NEDTMP.GT.MAXED) CALL XABORT('MCRMAC: MAXED OVERFLOW(2).')
      IF(IACCS.EQ.0) THEN
        IF(ISTATE(1).NE.NGRP) THEN
          CALL XABORT('MCRMAC: INVALID NUMBER OF ENERGY GROUPS(3).')
        ELSE IF(ISTATE(2).NE.NMIL) THEN
          CALL XABORT('MCRMAC: INVALID NUMBER OF MIXTURES(3).')
        ENDIF
        NL=NLTMP
        NF=NFTMP
        NED=NEDTMP
        ITRANC=ISTATE(6)
        NDEL=ISTATE(7)
        IDF=ISTATE(12)
        CALL LCMGTC(IPTMP,'ADDXSNAME-P0',8,NED,HVECT)
        N1D=8+NED+NL
        N2D=2*(NDEL+1)
        IF(N1D.GT.MAX1D) CALL XABORT('MCRMAC: MAX1D OVERFLOW(2).')
        IF(N2D.GT.MAX2D) CALL XABORT('MCRMAC: MAX2D OVERFLOW(2).')
        DO 190 IED=1,NED
        HMAK1(8+IED)=HVECT(IED)
  190   CONTINUE
        DO 200 IL=1,NL
        WRITE(CM,'(I2.2)') IL-1
        HMAK1(8+NED+IL)='SIGS'//CM
  200   CONTINUE
        HMAK2(1)='NUSIGF'
        HMAK2(2)='CHI'
        DO 210 IDEL=1,NDEL
        WRITE(TEXT8,'(6HNUSIGF,I2.2)') IDEL
        HMAK2(2+2*(IDEL-1)+1)=TEXT8
        WRITE(TEXT8,'(3HCHI,I2.2)') IDEL
        HMAK2(2+2*(IDEL-1)+2)=TEXT8
  210   CONTINUE
      ELSE
        IF(NLTMP.GT.NL) CALL XABORT('MCRMAC: NL OVERFLOW.')
        ITRANC=MAX(ITRANC,ISTATE(6))
        IF(ISTATE(1).NE.NGRP) THEN
          CALL XABORT('MCRMAC: INVALID NUMBER OF ENERGY GROUPS(3).')
        ELSE IF(ISTATE(2).NE.NMIL)THEN
          CALL XABORT('MCRMAC: INVALID NUMBER OF MIXTURES(3).')
        ELSE IF((NFTMP.NE.0).AND.(NFTMP.NE.NF)) THEN
          CALL XABORT('MCRMAC: INVALID NUMBER OF FISSILE ISOTOPES(3).')
        ELSE IF(ISTATE(7).NE.NDEL) THEN
          CALL XABORT('MCRMAC: INVALID NUMBER OF PRECURSOR GROUPS(3).')
        ELSE IF(LADFM.AND.(ISTATE(12).NE.IDF)) THEN
          CALL XABORT('MCRMAC: INVALID TYPE OF ADF DIRECTORY.')
        ENDIF
      ENDIF
*----
*  SPH CORRECTION OF MACROLIB INFORMATION
*----
      IMC=1 ! SPH correction for SPN macro-calculation
      CALL SPHCMA(IPTMP,IMPX,IMC,NMIL,NGRP,NFTMP,NEDTMP,NALBP,SPH)
      DEALLOCATE(SPH)
*----
*  RECOVER VOLUMES, ENERGY GROUPS, EDIT NAMES, AND LAMBDA-D.
*----
      CALL LCMLEN(IPTMP,'VOLUME',ILONG,ITYLCM)
      IF(ILONG.EQ.NMIL) THEN
        DO 220 IBM=1,NMIX ! mixtures in Macrolib
        IBMOLD=MIXC(IBM) ! mixture in MPO file
        IF(IBMOLD.NE.0) VOLMI2(IBM)=VOSAP(IBMOLD)
  220   CONTINUE
      ENDIF
      CALL LCMLEN(IPTMP,'ENERGY',ILONG,ITYLCM)
      IF(ILONG.EQ.NGRP+1) CALL LCMGET(IPTMP,'ENERGY',ENERG)
      CALL LCMLEN(IPTMP,'LAMBDA-D',LENGTH,ITYLCM)
      LWD=(LENGTH.EQ.NDEL).AND.(NDEL.GT.0)
      IF(LWD) THEN
        ALLOCATE(WDLA(NDEL))
        CALL LCMGET(IPTMP,'LAMBDA-D',WDLA)
        CALL LCMPUT(IPMAC,'LAMBDA-D',NDEL,2,WDLA)
        DEALLOCATE(WDLA)
      ENDIF
*----
*  PERFORM INTERPOLATION
*----
      JPTMP=LCMGID(IPTMP,'GROUP')
      DO 290 IBM=1,NMIX ! mixtures in Macrolib
      WEIGHT=TERP(ICAL,IBM)
      IF(WEIGHT.EQ.0.0) GO TO 290
      IBMOLD=MIXC(IBM) ! mixture in MPO file
      IF(IBMOLD.EQ.0) GO TO 290
*
      DO 280 IGR=1,NGRP
      KPTMP=LCMGIL(JPTMP,IGR)
      DO 230 I1D=1,N1D
      CALL LCMLEN(KPTMP,HMAK1(I1D),ILONG,ITYLCM)
      IF(ILONG.NE.0) THEN
        CALL LCMGPD(KPTMP,HMAK1(I1D),FLOT_PTR)
        CALL C_F_POINTER(FLOT_PTR,FLOT,(/ ILONG /))
        FLOTVA=FLOT(IBMOLD)
        IF(FLOTVA.NE.0.0) LMAKE1(I1D)=.TRUE.
        IF((.NOT.LPURE).AND.(I1D.EQ.4)) FLOTVA=1.0/FLOTVA
        GAR1(IBM,IGR,I1D)=GAR1(IBM,IGR,I1D)+WEIGHT*FLOTVA
      ENDIF
  230 CONTINUE
      IF(ISTATE(4).GT.0) THEN
        DO 250 I2D=1,N2D
        CALL LCMLEN(KPTMP,HMAK2(I2D),ILONG,ITYLCM)
        IF(ILONG.NE.0) THEN
          CALL LCMGPD(KPTMP,HMAK2(I2D),FLOT_PTR)
          CALL C_F_POINTER(FLOT_PTR,FLOT,(/ ILONG /))
          DO 240 I=1,NF
          IOF=(IBMOLD-1)*NF+I
          IF(FLOT(IOF).NE.0.0) LMAKE2(I2D)=.TRUE.
          GAR2(IBM,I,IGR,I2D)=GAR2(IBM,I,IGR,I2D)+WEIGHT*FLOT(IOF)
  240     CONTINUE
        ENDIF
  250   CONTINUE
      ENDIF
      DO 270 IL=1,NLTMP
      WRITE(CM,'(I2.2)') IL-1
      CALL LCMLEN(KPTMP,'SCAT'//CM,ILONG,ITYLCM)
      IF(ILONG.NE.0) THEN
        CALL LCMGET(KPTMP,'SCAT'//CM,GAR4B)
        CALL LCMGET(KPTMP,'NJJS'//CM,NJJB)
        CALL LCMGET(KPTMP,'IJJS'//CM,IJJB)
        CALL LCMGET(KPTMP,'IPOS'//CM,IPOSB)
        IPOSDE=IPOSB(IBMOLD)
        DO 260 JGR=IJJB(IBMOLD),IJJB(IBMOLD)-NJJB(IBMOLD)+1,-1
        GAR3(IBM,JGR,IGR,IL)=GAR3(IBM,JGR,IGR,IL)+WEIGHT*GAR4B(IPOSDE)
        IPOSDE=IPOSDE+1
  260   CONTINUE
      ENDIF
  270 CONTINUE
  280 CONTINUE
  290 CONTINUE
      CALL LCMCL(IPTMP,2)
  300 CONTINUE
*----
*  WRITE INTERPOLATED MACROLIB INFORMATION
*----
      CALL LCMPUT(IPMAC,'VOLUME',NMIX,2,VOLMI2)
      CALL LCMPUT(IPMAC,'ENERGY',NGRP+1,2,ENERG)
      IF(NED.GT.0) CALL LCMPTC(IPMAC,'ADDXSNAME-P0',8,NED,HVECT)
      JPMAC=LCMLID(IPMAC,'GROUP',NGRP)
      DO 410 IGR=1,NGRP
      KPMAC=LCMDIL(JPMAC,IGR)
      DO 350 I1D=1,N1D
      IF(LMAKE1(I1D)) THEN
        IF((.NOT.LPURE).AND.(I1D.EQ.4)) THEN
          DO 320 IBM=1,NMIX
          DO 310 IBMOLD=1,NMIL
          IF(MIXC(IBM).EQ.IBMOLD) GAR1(IBM,IGR,I1D)=1./GAR1(IBM,IGR,I1D)
  310     CONTINUE
  320     CONTINUE
        ELSE IF(I1D.EQ.7) THEN
          DO 340 IBM=1,NMIX
          DO 330 IBMOLD=1,NMIL
          IF(MIXC(IBM).EQ.IBMOLD) GAR1(IBM,IGR,I1D)=GAR1(IBM,IGR,I1D)*
     1    1.0E6 ! convert MeV to eV
  330     CONTINUE
  340     CONTINUE
        ENDIF
        CALL LCMPUT(KPMAC,HMAK1(I1D),NMIX,2,GAR1(1,IGR,I1D))
      ENDIF
  350 CONTINUE
      DO 360 I2D=1,N2D
      IF(LMAKE2(I2D).AND.(NF.GT.0)) THEN
        CALL LCMPUT(KPMAC,HMAK2(I2D),NMIX*NF,2,GAR2(1,1,IGR,I2D))
      ENDIF
  360 CONTINUE
      DO 400 IL=1,NL
      WRITE(CM,'(I2.2)') IL-1
      IPOSDE=0
      DO 390 IBM=1,NMIX
      IPOS(IBM)=IPOSDE+1
      IGMIN=IGR
      IGMAX=IGR
      DO 370 JGR=1,NGRP
      IF(GAR3(IBM,JGR,IGR,IL).NE.0.0) THEN
        IGMIN=MIN(IGMIN,JGR)
        IGMAX=MAX(IGMAX,JGR)
      ENDIF
  370 CONTINUE
      IJJ(IBM)=IGMAX
      NJJ(IBM)=IGMAX-IGMIN+1
      DO 380 JGR=IGMAX,IGMIN,-1
      IPOSDE=IPOSDE+1
      GAR4(IPOSDE)=GAR3(IBM,JGR,IGR,IL)
  380 CONTINUE
  390 CONTINUE
      IF(IPOSDE.GT.0) THEN
        CALL LCMPUT(KPMAC,'SCAT'//CM,IPOSDE,2,GAR4)
        CALL LCMPUT(KPMAC,'NJJS'//CM,NMIX,1,NJJ)
        CALL LCMPUT(KPMAC,'IJJS'//CM,NMIX,1,IJJ)
        CALL LCMPUT(KPMAC,'IPOS'//CM,NMIX,1,IPOS)
        CALL LCMPUT(KPMAC,'SIGW'//CM,NMIX,2,GAR3(1,IGR,IGR,IL))
      ENDIF
  400 CONTINUE
  410 CONTINUE
      IACCS=1
*----
*  UPDATE STATE-VECTOR
*----
      ISTATE(2)=NMIX
      ISTATE(3)=NL
      ISTATE(4)=NF
      ISTATE(5)=NED
      ISTATE(6)=ITRANC
      IF(LMAKE1(6)) ISTATE(10)=1
      CALL LCMPUT(IPMAC,'STATE-VECTOR',NSTATE,1,ISTATE)
*----
*  INCLUDE LEAKAGE IN THE MACROLIB (USED ONLY FOR NON-REGRESSION TESTS)
*----
      IF(B2.NE.0.0) THEN
        IF(IMPX.GT.0) WRITE(IOUT,'(/31H MCRMAC: INCLUDE LEAKAGE IN THE,
     1  14H MACROLIB (B2=,1P,E12.5,2H).)') B2
        JPMAC=LCMGID(IPMAC,'GROUP')
        ALLOCATE(WORK1(NMIX),WORK2(NMIX))
        DO 430 IGR=1,NGRP
          KPMAC=LCMGIL(JPMAC,IGR)
          CALL LCMGET(KPMAC,'NTOT0',WORK1)
          CALL LCMGET(KPMAC,'DIFF',WORK2)
          DO 420 IBM=1,NMIX
            IF(MIXC(IBM).NE.0) WORK1(IBM)=WORK1(IBM)+B2*WORK2(IBM)
  420     CONTINUE
          CALL LCMPUT(KPMAC,'NTOT0',NMIX,2,WORK1)
  430   CONTINUE
        DEALLOCATE(WORK2,WORK1)
      ENDIF
*----
*  PROCESS ADF and physical albedos (if required)
*----
      LALBG=.TRUE.
      IF(NALBP.GT.0) THEN
        WRITE(RECNAM,'(8H/output/,A,16H/statept_0/flux/)') TRIM(HEDIT)
        CALL hdf5_read_data(IPMPO,TRIM(RECNAM)//"NALBP",NALBP2)
        IF(NALBP2.NE.NALBP) CALL XABORT('MCRMAC: INVALID NALBP.')
        CALL hdf5_info(IPMPO,TRIM(RECNAM)//"ALBEDOGxG",RANK,TYPE,NBYTE,
     &  DIMSR)
        IF(TYPE.NE.99) LALBG=.FALSE.
      ENDIF
      CALL MCRAGF(IPMAC,IPMPO,IACCOLD,NMIL,NMIX,NGRP,NALBP,LALBG,LADFM,
     1 IMPX,NCAL,TERP,MIXC,NSURFD,HEDIT,VOSAP,VOLMI2,IDF)
      IF(NSURFD.GT.0) THEN
        CALL LCMGET(IPMAC,'STATE-VECTOR',ISTATE)
        ISTATE(12)=IDF ! ADF information
        CALL LCMPUT(IPMAC,'STATE-VECTOR',NSTATE,1,ISTATE)
      ENDIF
*----
*  SCRATCH STORAGE DEALLOCATION
*----
      DEALLOCATE(VOSAP,ENERG)
      DEALLOCATE(VOLMI2,GAR4B,GAR4,GAR3,GAR2,GAR1)
      DEALLOCATE(IPOSB,NJJB,IJJB,IPOS,NJJ,IJJ)
      RETURN
      END